Showing 443 items
matching out of the fire
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National Wool Museum
Drench Gun
The Kettle Drum Drenching Gun was invented and predominately used in the 1940s and 1950s. This Drench Gun was constructed by Moffat-Virtue Ltd, an Australian company formed by John Moffat and William Wright Virtue. Moffat-Virtue Ltd were a Sydney company whose products, including windmills and shearing machinery, were well known in rural NSW throughout the mid twentieth century. The company was taken over by Fire Fighting Enterprises Ltd in June 1966 (Rudder, G 2020). The Drench Gun was likely used to drench sheep with carbon tetrachloride for internal parasite control. These guns were widely used in Australia. There were problems with the product, however, which contributed to its demise. On hot days and if the sheep struggled while being drenched, some fluid would go into the wind-pipe and into the lungs of the sheep, sometimes with fatal results. At times nearly one-third of a flock could be found dead. Inexperienced operators, overdose and weather were often blamed for the deaths (Davidson, K 2012). A brass drenching kettle consisting of a brass bowl and a detachable plunger mechanism. The plunger is alloy and the handle has a hinge to create suction to spray liquid out the brass nozzle.Moffatt-Virtue Limited 3841 C V ROBERTS/ PATENTEE Pest Arrestorsheep - diseases sheep - parasites -
National Wool Museum
Photo Album, 1930-1934
The Photo Album was created by Hans Beck, who interned with the donor's father (Wilhelm Eckels). The Photo Album depicts wool buying and sheep station related life between 1927-1939. Each photograph has been individually labelled.Straw coloured booklet with gold cursive writing on front cover spelling 'Photo Album'. Inside are 18 pages containing 63 photographs, each individually captioned. Internal pages show signs of age with discolouration, particularly in areas of previous adhesive application.Lettering, Front: Historic Interest Before WME arrived - 1930-1934 Wool & Sheep Photo Album Lettering, Internal by Page: Page 1 - Bottom Left Conner: Table from right:/ O. Hilbert sen. / WW. Richter, W. Ehrig/ Sampler: C. McCarthy/ at desk: E.S. Bottom Right Corner: 1927/ Wool Sample Room/ O. Hilbert/ Terranora Buildings/ Reiby Lane Page 2 - Bottom Middle: 1931/ Opening Sale/ Sydney Page 3 - Bottom Middle: 1934/ Opening Sale/ Sydney Page 4 - Bottom Middle: 1933/ Wool Auctions/ Brisbane Page 5 - Top Left Corner: 1930 Escapade/ Sydney to CAIRNS/ via Bourke, Central/ Queensland, Hinter-/ land & Atherton/ Table Lands Top Right Corner: Dubbo: Main Street/ (1st Night)/ 31.7.1930 Middle Right: 1st Night-"OUT"/ Stranded 11 miles/ from Bourke. (Red/ Dust in Carburettor Bottom Right Corner: Our "ERSKINE'/ hits Culvert &/ breaks both King-/pins. 1 1/2 miles from/ CUNNAMULLA SW-Q. Page 6 - Top Right Corner: "Rosevale Station"/ via Cunnamulla SWQ/ "Gidgi" country/ Gidgi Creak &/ Warrigo R. Middle Left: STAN HILL Page 7 - Middle Top: Blackhall/ Tattersall's Hotel/ Yarning at Cross-/roads. Middle Left: FO Wool Sales/ 22 Horse team Middle Right: Roadsign to:/ ISIS DOWNS &/ Homestead (Fart Page 8 - Middle Top: Muster: 3000 sheep/ Semi-circular/ Shearing shed/ ISIS DOWNS Page 9 - Middle Top: Shearer/ Water Tower/ Counting out/ pens Middle Bottom: Shearers Cook/ Hot Water & Soup/ Cake for Shearing/ Shed Charity Ball Page 10 - Middle Left: Isis Downs Home-/ stead with fire// flood Lookout./ Artesian Borewell Bottom Right: Manager: Moore/ & Alfred Loh-/ mann with kills/ Ducks & Emus Page 11 - Top Middle: PORTLAND DOWNS/ Muster: 10,000/ Sheep Bottom Left: Manager:/ Mr. Luck/ with A.L./Moore Page 12 - Middle Top: ROOKWOOD Station/ near/ HUGHENDEN/ Central NWQ Page 13 - Top Middle: 'HINTERLAND"/ Cattle country/ Spear Grass/ Tracks Bottom Middle: Crossings:/ Creeks: Quick/ Sand/ Rivers: rocky Page 14 - Middle Right: Lyndhurst stat/tion/ Head Stockman Middle Left: -Valley of la-/goons/ Station Bottom Right Corner: Master Atkinson/ saves/ Petrol shortage Page 15 - Top Middle: ATHERTON TABLELANDS/ LAKE BERRINE Middle Centre: Tropical Rainforest/ near/ Lake Berrine Page 16 - Top Middle: ATHERTON TABLELANDS/ Timber Country Bottom Middle Edge: CAIRNS/ Imperial Hotel Page 17 - Hans Beck with/ Betty Hilbert/ Lapstone Hill 1931 wool - transportation, wool sales, wool growing, wool growing agriculture farming, wool industry, wool sales - sydney, wool sales - brisbane, dubbo, 1930, bourke, cunnamulla, isis downs, shearing, shearing - lifestyle, portland downs, muster, hughenden, hinterland, lake berrine, cairns -
St Kilda Historical Society
Photograph, Ladies Drawing Room, c. 1915-1916
Demolished after a fire c1970sblack and white photograph, unmounted, copy, fair conditionMelbourn Suburbs- St Kilda. Ladies Drawing Room, St Leonards . St Kilda by the sea annual, p fold out. Season 1915-16. F600:65. National Library of Australia Canberra -
Wangaratta RSL Sub Branch
Cane Woven Basket Tray, The Invasion of the Philippines, c1945
In early January 1945, Australian warships took part in their next big naval action of the campaign when American forces were landed at Lingayen Gulf for the invasion of Luzon Island. Their objective was the capital, Manila. The frigates Gascoyne and Warrego carried out survey tasks and escort duties, coming under artillery fire and also attacks from aircraft. The Kanimbla, Manoora and Westralia again transported American troops for the landings and once again the escorts included the cruisers Shropshire and Australia – the latter had undergone repair – and the destroyers Arunta and Warramunga. Whist not confirmed, this large cane woven oval tray with The Philippines Coat of Arms in the centre above list of Royal Australian Navy ships that were involved in the liberation of the Philippines, is believed to have belonged to Robert Hamilton Hutchieson PM 4802 who served on HMAS Westralia as a landing craft coxswain in the Southwest Pacific Campaign 1942 to 1945. Large oval shaped cane woven basket tray The Invasion of the Philippines Image of Coat of Arms Commonwealth of the Philippines Kanimbla, Westralia, Manoura, Australia, Shropshire, Arunta, Warramunga, Gascoyne January 1945ww2, invasion of the philippines, 1945, hmas westralia, hmas kanimbla -
Hume City Civic Collection
Buckets
... , this was thought to have been encase of a fire breaking out. Sunbury Asylum..., this was thought to have been encase of a fire breaking out. Sunbury Asylum ...Used at Sunbury Asylum where two red buckets were placed in each ward, one filled with sand and one filled with sawdust, this was thought to have been encase of a fire breaking out. Sunbury Asylum closed in 1992 and became Victoria University of Technology.Red painted metal buckets with wire handles, one has wooden hand support. White writing stencilled on sides."Carpenter"sunbury asylum, george evans collection -
Hume City Civic Collection
Photograph, Early 1970s
The old Sunbury CFA station was situated in Evans Street where part of the Sunbury Shopping Square has been built. It was opened on that site in 1914. In 1969 a newer fire station was built in Evans Street on the opposite side of the road and closer to Macedon Street. From 1969 until 1978 the old fire station became a scout hall. In the early 2000s two new fire stations were built away from the main shopping area. One was built in Jackson Street, opposite the Ball Court Hotel and the other one was built on the corner of Gap Road and Elizabeth Drive. By locating them out of the immediate shopping centre which had become quite busy, it meant that access in and out of the new stations was quicker. The butter factory in Horne Street is on the RHS and the former public tennis courts are on the LHS of the photograph.A coloured photograph of the CFA firemen standing outside the former CFA building. The bell tower is on the LHS of the building.country fire authority, fire fighters, sunbury fire station, butter factory, tennis courts, george evans collection -
Hume City Civic Collection
Photograph, Mid 1990's
The building suppliers and the Sunbury CFA were sited at the northern end of Evans Street and in the past were away from the main shopping centre. As Sunbury expanded and Sunbury Shopping Square was built on the opposite side of Evans Street, the building suppliers closed down and the CFA depot was moved out of the town centre to two other locations to avoid traffic conjestion.A coloured photograph of the east side of Evans Street showing the building suppliers yard and the Sunbury CFA station and towers. The road in the foreground has been marked out for angle parking. There is a metal pole on the extreme RHS of the photograph.building suppliers, shopping centres, sunbury country fire authority (cfa), evans street, george evans collection -
Mordialloc & District Historical Society Inc
Certificate, H. Hearne & Co, Printers, 1929
This certificate was awarded to Violet Murrell for a race sponsored by the Royal Agricultural Society of Victoria in 1929. Violet Murrell (formerly Violet Farmer) was one of the best female riders in Victoria, who won many events for dressage, show jumping and straight-out gallops at country meetings. She protested loudly that she was not allowed to ride at city tracks against the male jockeys despite beating them at country meetings. When she married Bill Murrell, a well-known jockey, they came to live in Mentone. Violet Murrell died in a tragic fire at her home in 1934 while trying to save her favorite horse, Garryowen, and her husband, who had tried to help her, died a few days later.Horse race award certificate awarded to Violet Murrell, riding Garryowen. Light brown in colour, with "First Prize" printed prominently across centre in blue. Dull gold decorative bands at top, bottom and left. Printed gold shield in centre of left band and small printed ornament with crown in centre of top bar. Printed (from top down): "The Royal Agricultural Society/of Victoria.", "First Prize.", followed by blank lines to be filled in: "Awarded to", "Exhibit", "Class", "No." Printed signature at bottom: "Henry Schwieg[ler?]/Secretary" Printed in shield on left: "GRAND/Annual/Exhibition/1929" Handwritten in black ink, to fill in blank lines: "Mrs. W. Murrell's "Garryowen" "[Awarded to], "Lady's Hack/15.3 or under" [Exhibit], "82" [Class] , "357" [No.] murrell, violet, horse racing, garryowen -
Tramways/East Melbourne RSL Sub Branch - RSL Victoria Listing id: 27511
Equipment (Sub-Item) - Pull through kit for cleaning L1A1 & L2A2 Self Loading Rifle (SLR)
1 Bottle O-158, LSA, Lube Oil Semi-Fluid, Mil-L-46000A Am 1, 9150-889-3522, LEHIGH CHEM . NUODEX DIV, TENNECO CHEM INC, DSA600-68-C-0225, PD-722, 4 OUNCES, SHAKE WELL. Marking on bottle base PLAX (each letter in a circle), 5. The roll of 4x2 is marked in section with red linesd. the segments are called 4x2 for ease of description but actually measure 4x13/4 inches or 45mm x 100mm. ! pull through kit for cleaning barrel and firing mechanism of l1 a1 & l22 a2 australian vietnam issue single shot and automatic versions. -
Round the Bend Conservation Co-operative
Land management involves careful planning in all activities carried out on the land. Careful raking before burning can protect significant trees, bushes or orchids as well as providing a fire break
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Surrey Hills Historical Society Collection
Photograph, 'Maitland', 1 Bedford Avenue, Surrey Hills, c 1900, 1900
Maitland' was built in 1889 for Thomas Zeplin, who was a Professor of Music. He owned all the land bound by Union Road, Wilson and Montrose Streets and the railway line. 1 Bedford Avenue stayed in family ownership until purchased by Camberwell Council in 1986, initially for a car park. However it was renovated to become part of Surrey Hills Neighbourhood Centre. It was opened on 23 November 1990. No 3 Bedford Avenue was built for Thomas Zeplin's daughter and named 'Mervyl' or 'Merryl'. Mrs Brodecky (donor) was the great-granddaughter of Thomas Zeplin. The 2 girls are granddaughters of Thomas Zeplin. Electoral roll information: 1972 & 1977: Albert Vojteck Brodecky, manager, 1 Bedford Avenue. 1977: Ray Nanette Brodecky. There are 2 copies. Thomas had this built for his son and family. The house was occupied by his family, though sometimes rented out. His great-grand-daughter Mrs. A. Brodecky sold to the Camberwell Council in 1986. This was the only surviving photo in the family after the fire. Courtesy: Mrs. A. BrodeckyBlack and white photo of 2 houses taken from the street front. On the LHS is a Victorian double-fronted single-storey villa of Hawthorn brick construction, with wrought iron lacework to the veranda, slate roof and picket fence, with an established garden. Next door at No 3 is a double-storey Victorian terrace with a similar fence and building materials. There are 2 young girls standing in front between the properties.maitland, bedford avenue, 1900, surrey hills neighbourhood centre, victorian style, mervyl, merryl, mr thomas zeplin, mrs nanette brodecky, mr albert vojteck brodecky -
8th/13th Victorian Mounted Rifles Regimental Collection
Photograph
Each cavalry squadron included an Assault Troop able to carry out a variety of dismounted tasksBlack and white photograph of group of soldiers 'cammed up ' ready to undertake a tactical exercise. They have blank firing attachment on their 7.62mm SLR rifles. They are the Assault Troop A Squadron8/13 Victorian Mounted Rifles. -
8th/13th Victorian Mounted Rifles Regimental Collection
Photograph
The Hutton Trophy or Shield was awarded annually to the best Light Horse Troop in Australia. The trophy is now held at the Armoured Centre Puckapunyal. Inter-regimental competition was strong in the years between WWI and WWII. Annually, the best troop in the regiments of the 3rd (Vic), 4th (SA), 5th (WA) and 6th (Tas) Military Districts competed for the Hutton Trophy and the Lord Forster Cup. The Tocumwal Troop 20th LH commanded by Sgt HG (Bob) Fyffe were the winners in 1937/38 and the Tallangatta Troop 8th LH led by Lt L Wildsmith, in 1938/39. Other competitors in 1938/39 were the York Troop, 10th Light Horse (WA), Burnie Troop 22nd LH (Tas) and Orroroo Troop 9th/23rd LH (SA). Troops were marked on Personnel, Horses (type & turnout), Saddlery, Hotchkiss Gun (turnout), Horsemanship, Fire control, Shooting (rifle & H gun), Sword action and Time. VX 42774 Captain Robert (Bob) Fyffe, a grazier from Tocumwal, NSW, served with the Tocumwal troop of the 20th Light Horse prior to WWII (1939-46). He enlisted at the outbreak of war and served with the 9th Division Cavalry Regiment in North Africa. During the attack on Trig 22 on 17 July 1942 Captain Fyffe commanding a composite squadron manoeuvred his tanks to knock out machine guns and anti-tank guns enabling 2/32 Battalion to capture the objective. Captain Fyffe was awarded the Military Cross for his leadership and courage in the action. This was 9th Division Cavalry's first tank action of the war. Complement other images in collectionBlack and white photograph glued to corrugated plastic backing card showing two officers with large silver shield. Occasion is the presentation of the Hutton Trophy to the troop leader of the Tocumwal Troop 20th Light Horse Regiment, Lieutenant H G (Bob) Fyffe, 1938.hutton trophy, tocumwal, fyffe, light horse, competition, victoria -
8th/13th Victorian Mounted Rifles Regimental Collection
Work on paper - VMR, Labour and Shipping Strike
... in the air; fire low and lay them out so that the duty will not have... of ammunition, leaden bullets, and if the order is given to fire, don't ...Probably originally drawn for publication in Melbourne newspaper showing detachment of Victorian Mounted Rifles on way to establish order at a strike site during the Labour and Shipping Strike of August 1890. During the strike armed troops were deployed to support the police in Melbourne and in Newcastle and a number of other ports around the country. In Melbourne, the announcement that a public meeting was going to be held on 31 August 1890 to support the maritime strikers sent the Victorian government into precautionary mode. On the eve of the meeting, the Victorian Mounted Rifles were briefed by their commanding officer Lieutenant-Colonel Tom Price: 'Men of the Mounted Rifles, one of your obligations imposes on you the duty of resisting invasion by a foreign enemy, but you are also liable to be called upon to assist in preserving law and order in the colony. ... To do your work faintly would be a grave mistake. If it has to be done effectively you will each be supplied with 40 rounds of ammunition, leaden bullets, and if the order is given to fire, don't let me see any rifle pointed in the air; fire low and lay them out so that the duty will not have to be performed again.' Price was quite clear and quite unapologetic about his intentions. He only wanted ′'to hit the strikers in the legs ... not to kill them outright. He explained that the term 'lay them out' was used in his regiment to mean 'temporary disablement'. A force of 1,000 militia and mounted police and another 1,000 special constables were embodied by the time of the meeting. These forces, apart from a troop of mounted police were held in reserve out of the way and the 40,000 who attended the meeting, although enthusiastic, were orderly and the forces were not called in. Framed coloured artistic work with three works depicting soldiers on horseback in midst of angry crowds.military, strike, melbourne, maritime, vmr -
Flagstaff Hill Maritime Museum and Village
Equipment - Rocket set, John Dennett, ca. 1860s
This rescue line-throwing rocket set was made for the Dennett rocket system, which was used by the Rocket Rescue crews in South West Victoria from around the 1860s to the 1890s. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria has had over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it, followed in 1864 by a rocket house to safely store the Rocket Rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost one hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain and improve their skills, summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The first use of a lifesaving rocket rescue system is often credited to Captain Manby and his invention of a life mortar, first used in 1808 to fire a line onto a ship to rescue lives. Henry Trengrouse’s invention of 1820 was the first to use a sky rocket’s power to throw a line, and his invention included a chair for carrying the shipwrecked victims to shore. In 1832 John Dennett invented a rocket specifically for shore to ship rescue. It had an iron case and an 8 foot pole attached and could shoot the line as far as 250 yards (about 230 metres). From the 1860s the rocket rescue apparatus was in use. It comprised a breeches buoy and traveller block that was suspended on a line and manually pulled to and from the distressed vessel carrying passengers and items. Colonel Boxer, who had invented an early line-thrower, designed a rocket in 1865 with a range from 300 to 470 yards. It was the first two-stage rocket, with two rockets placed one in front of the other in a tube that carried the rescue line. The hemp line was faked, or coiled, in a particular way in a faking box to prevent twists and tangles when fired, and the angle of firing the rocket was measured by a quadrant-type instrument on the side of the rocket machine. Schermuly invented the line-throwing pistol around 1920, which used a small cartridge to fire the rocket. Victoria’s Government adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain, which used Colonel Boxer’s rocket apparatus rescue method. The British Board of Trade published instructions in 1850 for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line attached, then firing it across the stranded vessel. A tally board was then sent out with instructions in four languages. The ship’s crew would haul on the line to bring out the continuous whip line and attach the whip block to a mast or sturdy part the ship. The rescue crew on shore then hauled out a heavier hawser line, which the ship’s crew fixed above the whip block. The hawser is then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the buoy to and from the vessel, rescuing the stranded crew one at a time. The rocket system could also be used from one ship to another.The Dennett rocket set is quite rare - there are not many examples in existence and little information is available. This Dennett's rocket set is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.A Dennett rocket set in six parts; the rocket head, three shafts (poles) and two rocket-head toting boxes. The rocket head, mounted on one of the shafts, is a long, red painted, iron tube with rounded ends and a protruding fitting around each end. The wooden rocket shafts are octagonal, with a metal sheath at the ends, carved elongated slots towards each end, and a scribed channel above the black foot. The rocket head toting boxes are thick timber, covered in fabric and painted black. They have a hinged wooden lid that slants downwards from back to front, and a metal closure. Small deliberate holes, in groups of four, on the box’s sides, indicate missing attachments, likely to have been handles. Impressed one a shaft "8"flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, irish hand barrow, rocket head toting box, explosives, rocket shaft, rocket pole -
Flagstaff Hill Maritime Museum and Village
Equipment - Rocket Launcher, John Dennett, 1860s
This rocket launching machine is used in conjunction with the Dennett Rocket Set. Both are part of the rocket rescue equipment that launches the line-throwing rescue rockets. A light line is threaded through the carved holes in the 8 foot long shaft and attached to the scribed channel at the base of the shaft. The rocket head is fitted to the shaft and inserted into the machine. The machine is set at an angle determined by the person in charge of the rescue crew, and the legs and base of the machine are adjusted accordingly with the use of the quadrant, or protractor, and plumb-bob on the side of the machine. The rocket is then ignited and fired across the vessel in distress. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This rocket launcher machine is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Rocket launcher, named a Rocket Machine, and storage box. Launcher has a long open metal channel with a spike at the base, and narrow, rectangular device, which is the line-firing rocket machine, at the top, all painted blue. Two hinged wooden legs are attached where the channel and machine meet. The side of the machine has an oval cut-out window and an attached quadrant, or protractor, with a plumb-bob on it. The quadrant has angles marked in degrees. The long protective box has white stencilled letters along the side. Its lid has three hinges and is fastened with two metal latches.On box “ROCKET MACHINE” On quadrant “10” “20” “30” “40”flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, protractor, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, welsh hand barrow, rocket set -
Flagstaff Hill Maritime Museum and Village
Weapon - Cannon, 1866
In the years following the Crimean War (1854-1857J) there was a great concern in the Colony that Imperial Russia would attempt an invasion. Coastal defences in the colony of Victoria were greatly strengthened by the Government as a result. Warrnambool was originally protected by cannons at Cannon Hill, approximately 1 kilometer west of the Flagstaff Hill Fortifications. These cannons included two 1866 guns, both 80 Pound Rifled Muzzle Loaders (RML) purchased by Victoria’s Colonial Government. They were part of a shipment of 26 such guns sent from England in December 1866. They are registered as No. 23 (80cwt-2qr-0lbs) - Gun 1, and No.13 (81cwt-1qr-12lbs) - Gun 2. They were cast at the Royal Gun Factory, Woolwich Arsenal, in 1866 and have a 6.3 inch bore. Both barrels carry the Royal Cypher of Queen Victoria, Insignia of the Royal Engineers, within the Garter and Motto surmounted by the Crown, with the Royal Cypher of Queen Victoria within the Garter (letters in centre “VR”, motto “HONI SOIT QUI MAL Y PENSE”, "Shame be to him who thinks evil of it."). The guns were originally supplied with wooden carriages. (The Royal Arsenal at Woolwich, England, was established eleven years after the Restoration of King Charles II. It was the principal supplier of armaments to the British and Empire Governments. At the height of its operations during World War One the factory covered 1300 acres and employed very nearly 80,000 workers. Woolwich was the Headquarters of the Royal Artillery since the raising of that Regiment in 1716. The Arsenal was closed in the late 1960’s.) These two cannons were transferred to the Warrnambool Garrison Artillery Battery Fortifications erected at Flagstaff Hill in 1887 as part of Victoria’s Coastal Defences. The original wooden carriages were subsequently replaced with the present iron garrison carriages in 1888. They are a “C” pivot. The ‘racers’ or curved track set into the floor of the gun emplacement (which enabled the guns to be traversed more quickly) are as specified for guns up to 10 inch, being of wrought iron 2.78 inches wide. A temporary third gun, now no longer on Flagstaff Hill’s site, was a 5 inch Rifled Breech Loading (BL) Armstrong gun mounted on an Elswick hydro pneumatic disappearing carriage It was faster to load and fire than the 80 pound RMLs and its arrival spelt the end of the older 80 pound guns’ useful life, apart from being used for practice sessions. The 5 inch BL gun was the main defensive weapon of the Warrnambool Battery until the Battery was downgraded in importance and the gun was recalled to Melbourne in 1910. The State of Victoria took over the ownership of the guns at the time of Australian Federation in 1901. In about 1901/1902 the Garrison Battery was converted to the Warrnambool Battery of the Australian Field Artillery (No 4 Field Battery). It was equipped with 4.7 inch naval guns mounted on field carriages. They were now a mobile unit but continued to use the Warrnambool Garrison area at Flagstaff Hill for practice. When the Fortifications were declared obsolete the two 80 Pounder RML were relocated to Cannon Hill in 1910. On the outbreak of World War One the 4.7 inch guns were recalled to Melbourne, and the Battery was disbanded. Most of the personnel probably re-enlisted in the local 4th Australian Light Horse Regiment. The two 80 Pounder RML were moved back to the Fortifications in 1973. They were both fully restored by Army First Year Apprentices at the Ordinance Factory in Bendigo in time for the centenary year of the fortifications in 1987. The guns are capable of firing 80 pound (32.3kg) armour piercing exploding shells 3.65kms out to sea. They were original manned by volunteers before a paid Garrison was established. Now the Guns are again fired by volunteers on Special Event days. Since restoration the Gun Number 1 had been fired on a regular basis but Gun Number 2 hadn’t been fired since the mid 1990’s. In April 2015 Gun Number 2 was serviced in preparation for the firing of both cannons on the ANZAC Centenary commemorations on April 25th 2015. Other guns from the original Cannon Hill location were obsolete by the time the 1887 Warrnambool Garrison Artillery Battery was built. These guns are (1) a 32 Pounder Muzzle Loading Smooth Bore (SB) cast in 1813 at the famous Carron Foundry, number 80837 and now located in the Warrnambool Botanic Gardens (2) a 68 Pounder Muzzle Loading Smooth Bore cast in 1861 at the equally august Low Moor Foundry, number 10310 and now located on the lawn area at the entrance to Flagstaff Hill Maritime Village. Both of these guns are mounted on their original wooden garrison carriages. There are only seven 32 Pounder SB made by Carron and fifteen 68 Pounder SB made at Low Moor known to exist in the State of Victoria (Conservation Management Plan for Victorian Guns and Cannon, South Western Victoria, May 2008, ref W/F/05)The Warrnambool Garrison has been added to the Victorian Heritage Register H1250 “for its intact battery and guns, a strong reminder of Victoria’s wealth and determination to protect itself from the perceived threat of invasion in the 1880’s.” The City of Warrnambool is one of several custodians of a collection of artillery pieces of heritage significance at a state, national and international level. These pieces are directly related to the defence of south-west Victoria in the 19th century. The care and preservation come under the Heritage Act 1995. Cannon. 80 Pound Rifled Muzzle Loading (RML) Gun on iron carriage and slide, installed in the Battery at Flagstaff Hill’s Fortifications. Made in 1866 at the Royal Gun Factory (R-G-F), Woolich, England. Gun Reg No 13. Flagstaff Hill Garrison Gun 2 (Gun No. 2). Insignia of the Royal Engineers, and the weight of the gun, stamped on top of the gun’s barrel. There is a brass plate on the side of the gun with the details of 1987 restoration.Stamped into the metal on top of the barrel, Insignia of the Royal Engineers; Garter and Motto “HONI SOIT QUI MAL Y PENSE”, surmounted by the Crown, with the Royal Cypher of Queen Victoria “VR” within the Garter. Also stamped on top of the gun are 2 inward pointing arrows above the weight ”81-1-12”. Brass plate “RESTORATION / BY / FIRST YEAR / APPRENTICES / ORDANANCE FACTORY / BENDIGO 1987”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, colonial defences, victoria’s coastal defences, warrnambool fortification, warrnambool garrison battery, warrnambool volunteer corps, ordinance, armaments, cannon hill fortifications, 4th australian light horse regiment, no 4 field battery, 80 pound cannon rifled muzzle loaders (rml), victorian colonial government, royal gun factory england, woolwich arsenal, royal cypher of queen victoria, garrison gun -
Flagstaff Hill Maritime Museum and Village
Equipment - Hand Barrow, 1860s
This hand barrow, sometimes called a Welsh hand barrow, was used to transport a load of marine rescue equipment from the beach cart to the rescue site, particularly over hilly, uneven or rough terrain. Hand barrows were in common use in the 19th century. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest them. This hand barrow is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Hand barrow; a transporting device carried between two people walking one in front of the other. A wooden ladder-like frame with two handles at each end, blue painted body with unpainted handles. Seven equal-length slats are joined at equal distance between two parallel poles, and two longer slats are attached diagonally between the first and last slats as a brace. flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, breakwater, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, lifeboat warrnambool, hand barrow, manual transport, welsh hand barrow -
Flagstaff Hill Maritime Museum and Village
Clock, 1867-1870
Chauncey Jerome (1793–1868) was an American clock maker in the early to mid 19th century. He made a fortune selling his clocks, and his business grew quickly. Jerome was born in Canaan USA in 1793 son of a blacksmith and nail-maker. He began his career in Plymouth, making dials for long-case clocks where he learned all he could about clocks, particularly clock cases, and then went to New Jersey to make seven-foot cases for clocks mechanisms. In 1816 he went to work for Eli Terry making "Patent Shelf Clocks," learning how to make previously handmade cases using machinery. Deciding to go into business for himself, Jerome began to make cases, trading them to Terry for wooden movements. In 1822 Jerome moved his business to Bristol New Haven, opening a small shop with his brother Noble and began to produce a 30-hour and eight-day wooden clocks. By 1837 Jerome's company was selling more clocks than any of his competitors. A one-day wood-cased clock, which sold for six dollars had helped put the company on the map. A year later his company was selling that same clock for four dollars. The company also sold one line of clocks at a wholesale price of 75 cents and by 1841 the company was showing an annual profit of a whopping $35,000, primarily from the sale of its brass movements. In 1842 Jerome moved his clock-case manufacturing operation to St. John Street in New Haven. Three years later, following a fire that destroyed the Bristol plant, Jerome relocated the entire operation to Elm City factory. Enlarging the plant, the company soon became the largest industrial employer in the city, producing 150,000 clocks annually. In 1850 Jerome formed the Jerome Manufacturing Co. as a joint-stock company with Benedict & Burnham, brass manufacturers of Waterbury. In 1853 the company then became known as the New Haven Clock Co, producing 444,000 clocks and timepieces annually, then the largest clock maker in the world. Jerome's future should have been secure but in 1855 he bought out a failed Bridgeport clock company controlled by P.T. Barnum, which wiped him out financially, leaving the Jerome Manufacturing Co. bankrupt. Jerome never recovered from the loss. By his admission, he was a better inventor than a businessman. When Jerome went bankrupt in 1856 the New Haven Clock Company purchased the company. One of the primary benefits of Jerome purchasing New Haven in the first place was the good reputation of the Jerome brand and the network of companies that remained interested in selling its clocks. In England, Jerome & Co. Ltd. sold Jerome clocks for the New Haven company until 1904, when New Haven purchased the English firm outright. After his involvement with the New Haven Company in 1856, Jerome traveled from town to town, taking jobs where he could, often working for clock companies that had learned the business of clock making using Jerome's inventions. On returning to New Haven near the end of his life, he died, penniless, in 1868 at the age of 74. The company struggled on after Jerome's bankruptcy until after World War II, when the company endeavored to continue through disruptions caused by a takeover along with poor sales, finally having to fold its operations in 1960 a little more than 100 years after it had been founded. The item is significant as it is associated with Chauncey Jerome who had made a historic contribution to the clock making industry during the 19th century when he began to substitute brass mechanisms for wooden mechanisms in his clocks. This was said to be the greatest and most far-reaching contribution to the clock industry. Because of his discovery of stamping out clockwork gears rather than using castings, Jerome was producing the lowest-priced clocks in the world. That can only add to his significance as the major clock manufacture of the 19th century. Jerome may have made and lost, a fortune selling his clocks but was perhaps the most influential and creative person associated with the American clock business during the mid-19th century. Also, he had served his community as a legislator in 1834, a Presidential elector in 1852 and mayor of New Haven, Connecticut from 1854 to 1855.Clock, marine, in octagonal rosewood veneer case. Roman numerals to dial, has a seconds dial. 2 key-winding holes slow-to-Fast adjustment pin through dial. Small lever in lower edge of case activates a chime. "8 day, 8 inch, Lever Striking escarpment " Paper label on the back of the clock "Jerome & Co, New Haven, Conn" "Manufacturers of every variety of Office and Home Clocks and Time Pieces".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock, jerome & co, new haven, clock maker, chauncey jerome -
Flagstaff Hill Maritime Museum and Village
Weapon - Cannon, 1866
In the years following the Crimean War (1854-1857J) there was a great concern in the Colony that Imperial Russia would attempt an invasion. Coastal defences in the colony of Victoria were greatly strengthened by the Government as a result. Warrnambool was originally protected by cannons at Cannon Hill, approximately 1 kilometer west of the Flagstaff Hill Fortifications. These cannons included two 1866 guns, both 80 Pound Rifled Muzzle Loaders (RML) purchased by Victoria’s Colonial Government. They were part of a shipment of 26 such guns sent from England in December 1866. They are registered as No. 23 (80cwt-2qr-0lbs) - Gun 1, and No.13 (81cwt-1qr-12lbs) - Gun 2. They were cast at the Royal Gun Factory, Woolwich Arsenal, in 1866 and have a 6.3 inch bore. Both barrels carry the Royal Cypher of Queen Victoria, Insignia of the Royal Engineers, within the Garter and Motto surmounted by the Crown, with the Royal Cypher of Queen Victoria within the Garter (letters in centre “VR”, motto “HONI SOIT QUI MAL Y PENSE”, "Shame be to him who thinks evil of it."). The guns were originally supplied with wooden carriages. (The Royal Arsenal at Woolwich, England, was established eleven years after the Restoration of King Charles II. It was the principal supplier of armaments to the British and Empire Governments. At the height of its operations during World War One the factory covered 1300 acres and employed very nearly 80,000 workers. Woolwich was the Headquarters of the Royal Artillery since the raising of that Regiment in 1716. The Arsenal was closed in the late 1960’s.) These two cannons were transferred to the Warrnambool Garrison Artillery Battery Fortifications erected at Flagstaff Hill in 1887 as part of Victoria’s Coastal Defences. The original wooden carriages were subsequently replaced with the present iron garrison carriages in 1888. They are a “C” pivot. The ‘racers’ or curved track set into the floor of the gun emplacement (which enabled the guns to be traversed more quickly) are as specified for guns up to 10 inch, being of wrought iron 2.78 inches wide. A temporary third gun, now no longer on Flagstaff Hill’s site, was a 5 inch Rifled Breech Loading (BL) Armstrong gun mounted on an Elswick hydro pneumatic disappearing carriage It was faster to load and fire than the 80 pound RMLs and its arrival spelt the end of the older 80 pound guns’ useful life, apart from being used for practice sessions. The 5 inch BL gun was the main defensive weapon of the Warrnambool Battery until the Battery was downgraded in importance and the gun was recalled to Melbourne in 1910. The State of Victoria took over the ownership of the guns at the time of Australian Federation in 1901. In about 1901/1902 the Garrison Battery was converted to the Warrnambool Battery of the Australian Field Artillery (No 4 Field Battery). It was equipped with 4.7 inch naval guns mounted on field carriages. They were now a mobile unit but continued to use the Warrnambool Garrison area at Flagstaff Hill for practice. When the Fortifications were declared obsolete the two 80 Pounder RML were relocated to Cannon Hill in 1910. On the outbreak of World War One the 4.7 inch guns were recalled to Melbourne, and the Battery was disbanded. Most of the personnel probably re-enlisted in the local 4th Australian Light Horse Regiment. The two 80 Pounder RML were moved back to the Fortifications in 1973. They were both fully restored by Army First Year Apprentices at the Ordinance Factory in Bendigo in time for the centenary year of the fortifications in 1987. The guns are capable of firing 80 pound (32.3kg) armour piercing exploding shells 3.65kms out to sea. They were original manned by volunteers before a paid Garrison was established. Now the Guns are again fired by volunteers on Special Event days. Since restoration the Gun Number 1 had been fired on a regular basis but Gun Number 2 hadn’t been fired since the mid 1990’s. In April 2015 Gun Number 2 was serviced in preparation for the firing of both cannons on the ANZAC Centenary commemorations on April 25th 2015. Other guns from the original Cannon Hill location were obsolete by the time the 1887 Warrnambool Garrison Artillery Battery was built. These guns are (1) a 32 Pounder Muzzle Loading Smooth Bore (SB) cast in 1813 at the famous Carron Foundry, number 80837 and now located in the Warrnambool Botanic Gardens (2) a 68 Pounder Muzzle Loading Smooth Bore cast in 1861 at the equally august Low Moor Foundry, number 10310 and now located on the lawn area at the entrance to Flagstaff Hill Maritime Village. Both of these guns are mounted on their original wooden garrison carriages. There are only seven 32 Pounder SB made by Carron and fifteen 68 Pounder SB made at Low Moor known to exist in the State of Victoria (Conservation Management Plan for Victorian Guns and Cannon, South Western Victoria, May 2008, ref W/F/04)The Warrnambool Garrison has been added to the Victorian Heritage Register H1250 “for its intact battery and guns, a strong reminder of Victoria’s wealth and determination to protect itself from the perceived threat of invasion in the 1880’s.” The City of Warrnambool is one of several custodians of a collection of artillery pieces of heritage significance at a state, national and international level. These pieces are directly related to the defence of south-west Victoria in the 19th century. The care and preservation come under the Heritage Act 1995. Cannon. 80 Pounder Rifled Muzzle Loading (RML) Gun on iron carriage and slide, installed in the Battery at Flagstaff Hill’s Fortifications.. Made in 1866 at the Royal Gun Factory (R-G-F), Woolich, England. Gun Reg No - 23. Flagstaff Hill Garrison Gun 1 (Gun No. 1) Insignia of the Royal Engineers, and the weight of the gun, stamped on top of the gun’s barrel. There is a brass plate on the side of the gun with the details of 1987 restoration.Stamped on axle cover on side of barrel “R-G-F / No 23 / 1866”. Stamped into the metal on top of the barrel, Insignia of the Royal Engineers; Garter and Motto “HONI SOIT QUI MAL Y PENSE”, surmounted by the Crown, with the Royal Cypher of Queen Victoria “VR” within the Garter. Also stamped on top of the gun are 2 inward pointing arrows above the weight ”81-2-0”. Brass plate “RESTORATION / BY / FIRST YEAR / APPRENTICES / ORDANANCE FACTORY / BENDIGO 1987”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cannon, 80 pounder, rifled muzzle, loading, royal gun factory, woolich -
Flagstaff Hill Maritime Museum and Village
Domestic object - Plate
The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/Ceramics have evolved over thousands of years.White earthenware dinner plate. Crazing evident all over.Backstamped ‘Made in England S LTD’flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ceramics, tableware -
Flagstaff Hill Maritime Museum and Village
Domestic object - Plate, Johnson Bros
The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/Ceramics have evolved over thousands of years.A white earthenware side plate with a gadroon edge. Has water marks and chips on front.‘Johnson Bros England Reg No 15587’flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, johnson bros, ceramics, tableware -
Flagstaff Hill Maritime Museum and Village
Domestic object - Plate, Alfred Meakin
The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/Ceramics have evolved over thousands of years.Earthenware dessert plate, cream colour. Made by Alfred Meakin, England. Backstamped ‘Alfred Meakin England’. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, alfred meakin, ceramics, earthenware, kitchenware -
Flagstaff Hill Maritime Museum and Village
Equipment - Tally Board, 1860s
The boards each have instructions adhered to each side, printed in four languages (English, French, Dutch and German). At the beginning of a shore-to-ship rescue the instructions are sent to the distressed vessel after the first rocket line was received by them. The stranded people on the vessel follow the instructions to assist the life saving rescue crew in saving their lives. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest themThis pair of tally board is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Tally boards, two, rectangular wooden boards, both with a hole drilled into one short end. Instructions are glued onto the boards. They were printed in light letters onto dark canvas in four languages (English, French, Dutch and German). Text (English) "MAKE THIS HAWSER FAST ABOUT 2 FEET ABOVE THE TAIL BLOCK. CAST OFF WHIP FROM HAWSER. SEE ALL CLEAR AND THAT THE ROPE IN THE BLOCK RUNS FREE, AND SHOW SIGNAL TO THE SHORE."flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, breakwater, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, lifeboat warrnambool, beach apparatus, rocket machine, rocket head, rocket launcher, rocket line, beach rescue set, rocket set, tally board, rescue instructions -
Flagstaff Hill Maritime Museum and Village
Container - Case, Early 20th century
This small case is lined with a metal insert and shows remnants of a carry strap. It could have been used for storing and carrying fuses or cartridges for the life saving Rocket Launcher machine. The protective metal insert would help keep the contents dry or cool and protect from flame. It is part of the collection of rescue equipment in the Rocket House used by the life saving rescue crew. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest them. This small leather carrying case is significant for its connection with the rocket rescue equipment, local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Leather case, brown with contrasting stitching, protective metal insert divided into two compartments. Rectangular shape. Roller buckle on front with remnants of the matching strap. Also remnants of a leather strap on the side, possibly a shoulder strap.flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, line throwing cartridge, l.s.r.c., lsrc, leather case, cartridge case, fuse case, ammunition case -
Flagstaff Hill Maritime Museum and Village
Equipment - Pump, circa 1930's - 1940's
This pump is an Ajax Type L2 Series A model, made and sold by McPherson’s Pty Ltd of Melbourne circa 1930’s to 1940’s, is a mechanical, hand operated, constant flow pressure pump. It would have been used to pump fluids from one area to another, for example from a dam to a tank or used as a bilge pump on a small vessel, mounted on the vessel’s bulkhead, floor or deck. This type of hand pump is sometimes called a ‘Reciprocating Suction Pump’. It has a mechanical pumping action of the lever moves the piston inside the pump up and down. The water is lifted from below the pump through the inlet pipe and into the pump’s cylinder. This action causes the lower valve to close and the piston’s valve opens and the pressure within the pump forces the water out of the pump through the exit pipe. The limitation of this type of pump is that it can only raise the water a maximum of about 7 metres from beneath the ground and yields 24-26 Litres per minute. This type of pump could be used for many purposes such as pumping water or fuel. McPherson’s 1940’s advertisement proclaims “For all jobs on the land – irrigation, spraying, tank, plumbing, fire-fighting – there’s a suitable “Ajax” pump. Send us the details of you pumping problem. Our Expert’s advice will help you choose the right pump – the one that will give you most years of PROFITABLE PUMPING.” (The Australasian (Melbourne) Sat. 26th October 1940.) McPherson’s Pty Ltd, the manufacturer, advertised a similar pump to this one in The Australasian (Melbourne) in 1936, calling it the Ajax Double Acting Hand Pump. In 1942 another advertisement advised that a representative for a fire-fighting equipment supplier was visiting the western district of Victoria. The company could now supply double-action two-spray Ajax pumps at lower prices than similar pumps the district had recently purchased from Adelaide. McPHERSON’S FOUNDER and COMPANY TIMELINE 1860 – Thomas McPherson, a Scottish immigrant (c. 1853 ), founded McPherson’s in Melbourne, supplying pig iron (lead ingots imported as ballast in ships) to local manufacturers. 1882 – Thomas McPherson established a warehouse in Collins St Melbourne and included tools, steam fittings and machinery in his wares. The business expanded to include steam saw mills and became known as Thomas McPherson and Sons (William Murray and Edward). 1888 – Thomas passed away and his sons inherited the business. In 1896 William Murray became the sole proprietor after his brother Edward’s death. 1900 – The firm expanded, establishing Acme Bolt Company to manufacture nuts and bolts. 1912 – McPhersons Pty Ltd established a machinery warehouse and showroom in 554-556 Collins St Melbourne. McPherson’s went on to establish branches in Sydney (1911), Adelaide (1921) and Perth (1930) 1917 - McPherson’s supplied ‘dog spikes’ for the transcontinental railway, running from Eastern to Western Australia. 1918 – A tool works set up in Kensington, Melbourne, manufacturing Macson lathes and made machine tools that previously had to be imported. 1924 – The Bolt Works was transferred to a new building in Melbourne. McPhersons began making pumps. 1929 – McPherson retired. His son (Sir) William Edward McPherson (known as ‘WE’), was born in Hawthorne, Melbourne, in 1898. After his education he began work in his father’s Melbourne hardware and machinery business He took over as governing director when his father retired. 1929-1932 – McPherson’s supplied thousands of tons of rivets from its Richmond (Melbourne) Bolt Works for the construction of the Sydney Harbour Bridge. 1936 – McPherson’s Pty Ltd is advertising Ajax Pumps in newspapers 1934 – McPhersons purchased the property adjoining the warehouse in Collins Street, and during 1935-1936 built a new office and showrooms on the site of 546-445 Collins St. 1939 - McPherson’s acquired the Tool Equipment Co. Pty. Ltd and Associated Machine Tools Australia Pty Ltd was formed to separate McPherson’s machine-tool manufacturing and merchandising interests. 1939 – Ajax Pump Works, a foundry and pump manufacturing plant, was established in Tottenham, Melbourne, and the Ajax Bolt and Rivet Co Pty Ltd began manufacturing in New Zealand. 1944 - McPherson’s became a public company, McPherson’s Ltd. 1948 - The Ajax Pump Foundry opened at Kyneton, Victoria and in the post war years it grew to became a large manufacturer. 1980’s – Ajax Pumps brochure lists the address as 6 Buckhurst St, South Melbourne, Vic 3205 with the Telephone number 03 669 3588 1988 - Ajax Pumps acquired the Forrers Company, which was established in 1921. Manufacturing in Ipswich, Queensland, specialising in submersible sewage pumps. 1991 – KSB Ajax was formed, bringing together the companies KSB and Ajax Pumps 1993 – Manufacturing was moved to state-of-the-art premises in Tottenham, Victoria 2001 - The Forrers facility was moved to Tottenham. 2007 - Company name KSB Ajax Pumps was changed to KSB Australia Pty Ltd. 2009 - KSB Australia opened a branch in Townsville, Queensland. 2011 - KSB Australia moved to its dedicated Water and Waste Water Competence Centre in Bundamba, Queensland. DISPLAY OF THIS AJAX PUMP This pump was installed at Flagstaff Hill Maritime Village as part of a working display in the village by the Friends of Flagstaff Hill, in acknowledgement of the dedicated involvement of one of its long serving members, Bob Crossman. The display was officially opened 31st March 2018 and incorporates a restored Furphy Tank and Water Pipe Stand. The pump is used to draw water from the lake, through the water stand pipe and into the reconditioned Furphy Tank. This Ajax pump made by McPherson’s Pty Ltd is significant for its association with McPherson’s, a prominent manufacturer of hardware in Victoria. McPherson’s is famous for supplying ‘dog-spikes’ for the transcontinental railway (eastern to western Australia, 1917) and rivets for the Sydney Harbour Bridge (1929-1932). The Ajax pump is also of significance because of its association with McPherson’s Governing Director (Sir) William McPherson, former premier and treasurer in Victoria 1928-1929. The former McPherson’s Pty Ltd building in Collins Street Melbourne is now on the Victorian Heritage Register VHR H0942 This pump is representative of mechanical pumps popular in the early to mid-1900’s and still used today. Hand operated pressure pump, double acting. Cast metal case, painted red, with steel hose attachments and long metal lever. Pump is bolted to wooden plank. Model of pump is AJAX, Type L2, Series A pump. Embossed on lower section of pump "L2 - 10", "L2 - -1", "AJAX" “(?) –2-1” Embossed on lower handle “3-7” “L – 4” Embossed on attached plate “FOR SPARE PARTS / TYPE L2 / SERIES A / PUMP ASSEMBLED BY T R” Manufactured by McPherson’s Pty Ltd of Melbourne circa 1930’s - 1940’s.flagstaff hill, warrnambool, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, ajax pump works tottenham melbourne, ajax pump factory kyneton, william edward mcpherson, thomas mcpherson of melbourne, mcpherson’s pty ltd melbourne, acme bolt company, tool equipment co. pty. ltd, associated machine tools australia pty ltd, ajax bolt and rivet co. pty ltd new zealand, forrers company ipswich queensland, ksb ajax pumps, ksb australia pty ltd, macson lathes, tool manufacturer early to mid- 20th century, ajax double acting hand pump, ajax type l2 series a pump, qisjax pumps, water pump 1940’s, fuel pump 1940’s, hand operated constant flow pressure pump, reciprocating suction pump, agricultural hand pump, plumber’s hand pump, portable hand pump -
Flagstaff Hill Maritime Museum and Village
Photograph, C. 1891
Photograph shows the ship FIJI where she met her demise, in Wreck Bay, on the shipwreck coast of South West Victoria. The three-masted iron barque Fiji had been built in Belfast, Ireland, in 1875 by Harland and Wolfe for a Liverpool based shipping company. The ship departed Hamburg on 22nd May 1891 bound for Melbourne, under the command of Captain William Vickers with a crew of 25. The ship’s manifest shows that she was loaded with a cargo of 260 cases of dynamite, pig iron, steel goods, spirits (whisky, schnapps, gin, brandy), sailcloth, tobacco, coiled fencing wire, concrete, 400 German pianos (Sweet Hapsburg), concertinas and other musical instruments, artists supplies including brushes, porcelain, furniture, china, and general cargo including candles. There were also toys in anticipation for Christmas, including wooden rocking horses, miniature ships, dolls with china limbs and rubber balls. On September 5th, one hundred days out from Hamburg in squally and boisterous south west winds the Cape Otway light was sighted on a bearing differing from Captain Vickers’ calculation of his position. At about 2:30am, Sunday 6th September 1891 land was reported 4-5 miles off the port bow. The captain tried to put the ship on the other tack, but she would not respond. He then tried to turn her the other way but just as the manoeuvre was being completed the Fiji struck rock only 300 yards (274 metres) from shore. The place is known as Wreck Bay, Moonlight Head. Blue lights were burned and rockets fired whilst an effort was made to lower boats but all capsized or swamped and smashed to pieces. Two of the younger crewmen volunteered to swim for the shore, taking a line. One, a Russian named Daniel Carkland, drowned after he was swept away when the line broke. The other, 17 year old able seaman Julius Gebauhr, a German, reached shore safely on his second attempt but without the line, which he had cut lose with his sheath-knife when it become tangled in kelp. He rested on the beach a while then climbed the steep cliffs in search of help. At about 10am on the Sunday morning a party of land selectors - including F. J. Stansmore, Leslie Dickson (or Dixon) and Mott - found Gebauhr. They were near Ryans Den, on their travels on horseback from Princetown towards Moonlight Head, and about 5km from the wreck. Gebauhr was lying in the scrub in a poor state, bleeding and dressed only in singlet, socks and a belt with his sheath-knife, ready for all emergencies. At first they were concerned about his wild and shaggy looking state and what seemed to be gibberish speech, taking him to be an escaped lunatic. They were reassured after he threw his knife away and realised that he was speaking half-English, half-German. They gave him food and brandy and some clothing and were then able to gain information about the wreck. Some of the men took him to Rivernook, a nearby guest house owned by John Evans, where he was cared for. Stansmore and Dickson rode off to try and summon help. Others went down to the site of the wreck. Messages for rescuing the rest of the crew were sent both to Port Campbell for the rocket rescue crew and to Warrnambool for the lifeboat. The S.S. Casino sailed from Portland towards the scene. After travelling the 25 miles to the scene, half of the Port Campbell rocket crew and equipment arrived and set up the rocket tripod on the beach below the cliffs. By this time the crew of the Fiji had been clinging to the jib-boom for almost 15 hours, calling frantically for help. Mr Tregear from the Rocket Crew fired the line. The light line broke and the rocket was carried away. A second line was successfully fired across the ship and made fast. The anxious sailors then attempted to come ashore along the line but, with as many as five at a time, the line sagged considerably and some were washed off. Others, nearly exhausted, had to then make their way through masses of seaweed and were often smothered by waves. Only 14 of the 24 who had remained on the ship made it to shore. Many onlookers on the beach took it in turns to go into the surf and drag half-drowned seamen to safety. These rescuers included Bill (William James) Robe, Edwin Vinge, Hugh Cameron, Fenelon Mott, Arthur Wilkinson and Peter Carmody. (Peter Carmody was also involved in the rescue of men from the Newfield.) Arthur Wilkinson, a 29 year old land selector, swam out to the aid of one of the ship’s crewmen, a carpenter named John Plunken. Plunken was attempting to swim from the Fiji to the shore. Two or three times both men almost reached the shore but were washed back to the wreck. A line was thrown to them and they were both hauled aboard. It was thought that Wilkinson struck his head on the anchor before s they were brought up. He remained unconscious. The carpenter survived this ordeal but Wilkinson later died and his body was washed up the next day. It was 26 year old Bill Robe who hauled out the last man, the captain, who had become tangled in the kelp. The wreck of the Fiji was smashed apart within 20 minutes of the captain being brought ashore, and it settled in about 6m of water. Of the 26 men on the Fiji, 11 in total lost their lives. The remains of 7 bodies were washed onto the beach and their coffins were made from timbers from the wrecked Fiji. They were buried on the cliff top above the wreck. The survivors were warmed by fires on the beach then taken to Rivernook and cared for over the next few days. Funds were raised by local communities soon after the wreck in aid of the sufferers of the Fiji disaster. Captain Vickers was severely reprimanded for his mishandling of the ship. His Masters Certificate was suspended for 12 months. At the time there was also a great deal of public criticism at the slow and disorganised rescue attempt to save those on board. The important canvas ‘breech buoy’ or ‘bucket chair’ and the heavy line from the Rocket Rescue was in the half of the rocket outfit that didn’t make it in time for the rescue: they had been delayed at the Gellibrand River ferry. Communications to Warrnambool were down so the call for help didn’t get through on time and the two or three boats that had been notified of the wreck failed to reach it in time. Much looting occurred of the cargo that washed up on the shore, with nearly every visitor leaving the beach with bulky pockets. One looter was caught with a small load of red and white rubber balls, which were duly confiscated and he was ‘detained’ for 14 days. Essence of peppermint mysteriously turned up in many settlers homes. Sailcloth was salvaged and used for horse rugs and tent flies. Soon after the wreck “Fiji tobacco” was being advertised around Victoria. A Customs officer, trying to prevent some of the looting, was assaulted by looters and thrown over a steep cliff. He managed to cling to a bush lower down until rescued. In 1894 some coiled fencing wire was salvaged from the wreck. Hundreds of coils are still strewn over the site of the wreck, encrusted and solidified. The hull is broken but the vessel’s iron ribs can be seen along with some of the cargo of concrete and pig iron. Captain Vickers presented Bill Robe with his silver-cased pocket watch, the only possession that he still had, as a token for having saved his life and the lives of some of the crew. (The pocket watch came with 2 winding keys, one to wind it and one to change the hands.) Years later Bill passed the watch to his brother-in-law Gib (Gilbert) Hulands as payment of a debt and it has been passed down the family to Gilbert Hulands’ grandson, John Hulands. Seaman Julius Gebauhr later gave his knife, in its hand crafted leather sheath, to F. J. Stansmore for caring for him when he came ashore. The knife handle had a personal inscription on it. A marble headstone on the 200m high cliffs overlooking Wreck Beach, west of Moonlight Head, paying tribute to the men who lost their lives when Fiji ran aground. The scene of the wreck is marked by the anchor from the Fiji, erected by Warrnambool skin divers in 1967. Amongst the artefacts salvaged from the Fiji are china miniature animals, limbs from small china dolls, rubber balls, a slate pencil, a glass bottle, sample of rope from the distress rocket and a candlestick holder. These items are now part of the Fiji collection at Flagstaff Hill Maritime Museum, along with Captain Vickers’ pocket watch and Julius Gebauhr’s sheath knife. Flagstaff Hill’s Fiji collection is of historical significance at a State level because of its association with the wreck Fiji, which is on the Victorian Heritage Register VHR S259. The Fiji is archaeologically significant as the wreck of a typical 19th century international sailing ship with cargo. It is educationally and recreationally significant as one of Victoria's most spectacular historic shipwreck dive sites with structural features and remains of the cargo evident. It also represents aspects of Victoria’s shipping history and its potential to interpret sub-theme 1.5 of Victoria’s Framework of Historical Themes (living with natural processes). The Fiji collection meets the following criteria for assessment: Criterion A: Importance to the course, or pattern, of Victoria’s cultural history. Criterion B: Possession of uncommon, rare or endangered aspects of Victoria’s cultural history Criterion C: Potential to yield information that will contribute to an understanding of Victoria’s cultural history. Black and White Photograph of the ship "Fiji" taken from Wreck Creek. warrnambool, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, shipwrecked artefact, pocket watch, fob watch fiji, william vickers, william robe, bill robe, gebauhr, stansmore, carmody, wreck bay, moonlight head, fiji shipwreck 1891, port campbell rocket crew, wreck bay victoria -
Flagstaff Hill Maritime Museum and Village
Nail, circa 1810
... half way into her journey. A fire broke out and the gun powder... half way into her journey. A fire broke out and the gun powder ...This copper nail, sometimes known as a ‘Dumpy Bolt’ or spike, was salvaged from the hull of the wreck of the “George III”. It dates back to at least 1810. It was found by an abalone diver on the south east coast of Tasmania. The nail would have been used to hold the layers of the ship’s keel frame and the planking together. The nail has been passed from the abalone diver to an interested business man on a trip to the south of Hobart, on again to the business man’s close friend who then donated it to Flagstaff Hill Maritime Village. The metal of nails such as this one, after being in the sea for a long time, become affected by the natural reaction of the sea water, causing it to degenerate and thin, and the stress from the force of the sea over the years alters its shape. Iron nails had been used on ships previously, but they quickly corroded in the salt; ships needed regular, costly and time-consuming maintenance to replace the iron nails. Towards the end of the 18th century the British Navy trialled the use of copper nails, finding them to be very successful. Merchant ships began to adopt this process in the early 19th century, although it made ship building very expensive and was more often used for ships such as the “George III” that sailed on long voyages. The three masted sailing ship “George III” was a convict transport ship built in Deptford, England, in 1810. On 14th December 1834 she left Woolwich, England, bound for Hobart Town, Van Diemen’s Land (Tasmania), under Captain William Hall Moxey. She was carrying 220 male convicts plus crew, guards and their families, totalling 294 persons (another 2 were during the voyage). Amongst the cargo were military stores including several copper drums of gun powder. On 27th January 1835 the “George III” was near the Equator, about half way into her journey. A fire broke out and the gun powder was in danger of explosion, threatening the whole ship. Two convicts braved the heat and smoke, entered the store and seized the gun powder drums, suffering burns for their efforts but saving a probable disaster. The fire destroyed some of the provisions and food was scarce. Many became ill with scurvy and some died during the journey. Nearing the end of their journey on 10th April 1835 the “George III” was headed through the D'Entrecasteaux Channel, south east Tasmania, between the mainland and Bruny Island. She was sailing in the moonlit night to hasten her arrival in port due to the great number of sick on board. She struck uncharted rocks, known only to the local whalers, between Actaeon Reef and Southport Lagoon and within hours began to break up. The ship’s boats were used to first rescue the women and children. Firearms were used to help quell the panic of the convicts below decks and some were killed by the shots. Many convicts, including the sick, were drowned. In all, 133 lives were lost including 5 of the crew, guards and their families. It was the third worst shipping disaster in Tasmanian waters. A monument in honour of the prisoners who perished in the “George III” has been erected, noting the date of the wreck as “Friday 10th April 1835.” (NOTE: there are a few differences between sources regarding dates of the shipwreck, some saying March and others April 1835. There are also differences in the figures of those on board and the number of lives lost.) The copper nail is significant as an example of sailing ship construction; fasteners used in the early 19th century on ships carrying convicts to Australia. The nail is also significant for its association with the ship “George III”. The “George III” is registered on the Australian National Shipwreck Database, ID 7195 as an Historic Shipwreck. She is the third worst shipwreck in Tasmanian waters. She is also associated with Early Australian History and the transportation of convicts to Australia. The incident of the fire on board and the bravery of the convicts in making the gun powder safe is an example of the social character of the people in early Tasmanian colonisation. Copper nail (also called a Dumpy bolt or spike) from the convict ship George III, wrecked in 1835. Nail is long, bent in an ‘L’ shape about 3/5ths along, tapering from both ends to the bend. Both ends are flat and do not taper to a point, nor have a thread. The shorter end has been polished, showing bright copper. There is pitting along the nail and virdigris is evident on the longer, unpolished end. The nail is displayed with the longer section resting on a wooden board between two ‘U’ shaped uprights, the shorter section upright. flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, george iii, ship construction, ship nail, 1835 shipwreck, 19th century shipwreck, william moxey, d'entrecasteaux channel, convict transportation, copper nail, dumpy bolt, spike, keel nail -
Flagstaff Hill Maritime Museum and Village
Wood Samples, 1891
The timber display case was presented to Mr Richard Standcombe Harris of Warrnambool (1831-1923). He was a councillor (1875-1891) and predominant businessman. Mr C F Loggin had met Mr Harris while on a trip to Stratford upon Avon in the United Kingdom. Upon his return to Warrnambool, Mr Harris donated the item to the Warrnambool Museum and Art Gallery, (established 1886) where Joseph Archibald was Curator: he catalogued the case in 1894. THE LETTERS IN THE CASE The two letters contained within the display case confirm the authenticity of the oak wood sample. The first letter in the case includes the text; "[Stamped Header on banner] High Street, Stratford on Avon [Hand written] Sept. 22nd / 91. Mr. R. S. Harris, Dear Sir, Enclosed you will find [underlined next 3 words] every authentic proof of the Oak from Shakespeare's House (Birth place). I regret very much Sir, that you made a short-day at S. on A. I should have been delighted to have had the honour, & pleasure, of showing you around our Beautiful Country. You did not give [next 3 words underlined] me or yourself a fair chance. But however I hope that we may again some day have more time to go quietly around. With kind regards, and wishing you, Sir, a pleasant voyage, I remain, Dear Sir, Yours very truly, C.F. Loggin. P.S. A paper will be always acceptable to be as how you Jolly Warrnamboolites are desporting yourselves. “ The second letter includes text; “[Printed Letterhead with stamped impression] The Trustees and Guardians of Shakespeare’s Birthplace Incorporated by Act of 54 and 55, Vict. 1891 Secretary and Librarian - Richard Savage Shakespeare’s Birthplace Stratford-upon-Avon [handwritten] 22 Sept 1891 This piece of oak is a portion of what was cut away at at the restoration of Shakespeare’s Birthplace in 1857-58. C. F. Loggins Chemist 3 High Street Richard Savage Sec. – Shakespeare’s Birthplace Mr C F Loggin was connected with the Shakespeare Trust as the person who had originally donated a scion of Shakespeare's mulberry tree to the "Shakespearean Birthday Committee" in 1842. (The scion that was given to the Shakespearean Birthday Committee, from which the Mulberry sample is derived, still grows today in "New Place" garden.) Mr Richard Savage was the Secretary and Liberian of the then renamed “Trustees and Guardians of Shakespeare’s Birthplace when the display case was given to Mr Harris in 1891 by Mr Loggin. WILLIAM SHAKESPEARE Shakespeare was born in 1564 in Stratford-upon-Avon, where he also grew up. He married at 18 years and he and his wife, Anne Hathaway, had three children: They moved to London where he became successful as an actor, writer, and part-owner of a playing company. He later returned to Stratford and purchased his last home, which he called "New Place" in 1602 where he later died in 1616. For the next 150 years, it was known that there existed a black mulberry tree in the garden. At the time there was a fashion for planting mulberry trees. It was the early 17th century after King James had come to the throne, and he imported tens of thousands of saplings in an attempt to get landowners to start a silk industry in England. Unfortunately for posterity, Shakespeare's mulberry was felled around 1756, by the then owner of “New Place" the Reverend Francis Gastrell, who was apparently tired of continual visits by pilgrims asking to see the tree, so he chopped it down. Gastrell had applied for local permission to extend the garden but the application was rejected and his tax was increased. Gastrell retaliated by demolishing the house in 1759, this greatly outraged the local inhabitants. Gastrell was eventually forced to leave town having provoked the wrath of Stratford residents for committing such an act. Today only the garden remains where “New House" used to stand with a scion from the original mulberry tree still growing there. The wood from the felled mulberry tree at “New House" was purchased by an enterprising local clock-maker Thomas Sharp and he spent the next 40 years or so years making souvenirs from the wood. These became early tourist souvenirs and subsequently developed into a profitable sideline for various other makers, including George Cooper and John Marshall. These objects range from relatively small domestic wooden objects, such as snuff boxes and weight scales to large tea caddies and even tables. C. F. Loggin donated a scion or cutting from Shakespeare's mulberry tree to the Shakespeare Birthplace Trust in 1862, he was a chemist who lived and worked in Stratford. There is a note on the frame of the donation that the mulberry sample is from this scion, research shows that from Richard Savage's diary notes that there must have been a lot of wood taken from that scion over the years which was planted in the garden of “New Place” and is still growing there today. The "Trustees and Guardians of Shakespeare’s Birthplace" (1847 -1964) was formed after the house where Shakespeare is believed to have been born fell into disrepair. Subsequently in 1846 after the death of Thomas Court's widow the last owner. Interest in the house was revived when PT Barnum, the American showman, wanted to buy it and ship the house back to America. In response to this, the Shakespeare Birthday Committee was established (by a private Act of Parliament) with the help of such luminaries as Charles Dickens, the Committee of Trustees raised the necessary £3,000 and purchased the house the following year. Once the Committee had acquired the building, restoration work began. Originally the Birthplace formed part of a terrace with later houses built either side. The first stage in its conservation was their destruction. At the time it was thought necessary to avoid the risk of fire spreading to Shakespeare's birthplace. Reconstruction was carried out by the Shakespeare Trust between 1857 and 1864 that restored the outside of the building to its original 16th-century state. It is from this restoration that the donated piece of oak is derived, originally from a beam that was in the house. Communication from The Shakespeare Birthplace Trust, dated April 11th, 2019, confirms that the pieces displayed in this case have good provenance. The wood samples are significant for their association with the history of William Shakespeare. The display case and its content is significant to Warrnambool local history for its association with the establishment in 1886 of the Warrnambool Museum and Art Gallery. However, it should be noted that the letters of authentication that accompany the wood samples are only applicable to the oak sample. None the less, all the pieces have very good provenance, with Richard Savage's certificate of authenticity for the oak, and the mulberry sample with the letter to Mr Harris from Mr CF Loggin having also been the donor of the scion of mulberry in 1862 to the Shakespeare Birthplace Trust. This scion was then established at Shakespeare's garden at "New Home" that had been demolished by Rev Francis Gastrell in 1759. Two wood samples associated with William Shakespeare, presented in a hanging, timber and glass display case with metal trim around the frame. The case also contains two letters and a label printed on a card that refers to the contents, their origins and the donor. A card label with a printed number and a round adhesive label are attached on the back of the case. The left round section of wood is from a donated scion (or shoot) derived from the original mulberry tree planted by William Shakespeare at his last home "New Place", Stratford-upon-Avon. The outer section is light brown coloured while the centre is dark grain. The right wood sample in the case is a section of oak rafter from the house where Shakespeare was born in 1564. The wood is mid brown with a distinct grain. The included letters, each dated 22/9/1891, refer to only the oak sample. - The letter on the left comprises two handwritten pages from Mr CF Loggin to Mr Richard Standcombe Harris. The paper has the printed letterhead address of High Street, Stratford on Avon. - The letter on the right is a handwritten certificate of authenticity signed by Mr CF Loggin and counter signed by Mr Richard Savage, Secretary and Liberian of the Shakespeare Trust. It is on the printed letterhead of The Trustees and Guardians of Shakespeare’s Birthplace Cardboard label inside the glass case “Shakespeare Section of Mulberry Tree, traditionally said to have been planted by Shakespeare in his garden, “New Place,” Stratford-on-Avon. PORTION OF OAK RAFTER from the house in which Shakespeare was born. (Presented by R S Harris 1891.) Printed label on the back of the case “3 2 “ The handwritten adhesive label “0566” flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, shakespeare display case, wood samples, oak from shakespeare's birthplace, mulberry from shakespeare's home "new place", stratford-upon-avon, shakespeare's birthplace, the trustees and guardians of shakespeare's birthplace &c., shakespeare trust, shakespeare birthday committee, r.s. harris, brunswick, victoria, richard s harris, brunswick, victoria, c.f. loggins, chemist, 3 high street stratford-on-avon, richard savage, warrnambool museum and art gallery, thomas court, pt barnum, charles dickins, anne hathaway, black mulberry tree, reverend francis gastrell -
Flagstaff Hill Maritime Museum and Village
Domestic object - Firedogs
Firedogs is the common name for andirons and Chenets and have been in use since ancient Greek times. Firedogs are the decorative metal supports or stands that hold logs in a fireplace, allowing air to circulate around the fire to keep it burning, and preventing logs from rolling out of the fireplace. They are usually made of metal, cast iron or steel, but are sometimes ceramic. They have two feet joined across the front and one at the back. Some firedogs, mainly for kitchen use, were plain with forked uprights so that a bar could rest between them on which a cooking pot or a roasting spit could hang. Some firedogs are made in the likeness of animals, shields, crosses, figures and keys. This pair of firedogs are representative of the firedogs that were common to domestic use in previous centuries when home heating and cooking were only possible with open fires. Firedogs or andirons, pair of two decorative cast iron log supports for use in a fireplace hearth. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, fire dogs, firedogs, fire grates, log stands, domestic furniture, open fireplace equipment, andirons, chenets, domestic heating