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Bendigo Military Museum
Photograph - Photographic Technicians performing tasks at the Army Survey Regiment, c1960s, c1970s
These five photographs were most likely taken in the 1970s in Lithographic Squadron at the Army Survey Regiment, Fortuna, Bendigo. Photos .1P to .3P are annotated with the name of the technicians written on the back. Although Photo .4P is not annotated the technician is positively identified. In these five photos the technician is applying a UV-sensitive pigmented dye emulating one of the print colours to a white opaque polyester sheet mounted on a rotating table in a whirler. The coated sheet was dried before placement in a vacuum light frame beneath a stud registered map negative. They were then exposed to a carbon arc lamp. If there was more than one negative – typical for a type impression or 1st proof, the process was repeated for the other negatives of that print colour. There was a single exposure for composite negatives which was typical for the 2nd and final proof - the pre-press proof. The sheet was removed and washed with water and dried leaving the exposed colour impression. The technician repeated this process using process or spot dyes for remaining publication colours. Type impressions were a combination of the map grid and the topographic features in their correct print colours, forming a base for the cartographer to accurately position map names and symbols on a clear film overlay. The pre-press proof was a cost-effective way of producing a one-off visual copy of the map or chart product. It enabled cartographers to perform a quality inspection and correct any faults before publication. The pre-press proof was deemed authoritative before its release to Print Troop for bulk printing and distribution.This is a set of photographs of lithographic technicians preparing map proofs at the Army Survey Regiment, Bendigo c1960s c1970s. The photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) - Photo, black & white, c1970s, SGT Graham Jeffers, Lithographic Squadron .2) - Photo, black & white, c1970s, SGT Ken Slater Lithographic Squadron .3) - Photo, black & white, c1970s, Ian ‘Loft’ Turner, Lithographic Squadron .4) - Photo, black & white, c1970s, Gary Kerr, Lithographic Squadron .5) - Photo, black & white, c1960s, unidentified, Lithographic Squadron.1 to .3 – personnel names (less rank) annotated on back. .4 to .5P – no annotationroyal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, litho -
4th/19th Prince of Wales's Light Horse Regiment Unit History Room
Display Binder, 2/4 Armoured Regiment Group, abt 2014
Provides an excellent account of the service of Australian 2/4 Armoured Regiment Group in New Guinea and Bougainville in World War 2. By 1945 the United States publicity machine under General McArthur focussed on US campaigns to the North treating this action as a back water The unit's battle honours comprise South West Pacific 1945, Liberation of Australian New Guinea, Hawain River, Wewak, Wirui Mission, Slater's Knoll, Hongorai River, Egan's Ridge-Hongorai Ford, Hari River and Mivo River2/4 Armoured Regiment is an antecedent unit of our modern Regiment ., Museum quality 3 ring, A3 size binder with clear inserts for documents and photos, in slip case. Presents history of Australian 2/4 Armoured Group in South West Pacific in World War 2 -
Flagstaff Hill Maritime Museum and Village
Functional object - Rowlock, early 20th century
This row lock was fitted onto the Warrnambool Lifeboat, which is also on-site at Flagstaff Hill Maritime Village. The construction of the lifeboat 'Warrnambool' began 15th September 1909 and was completed almost 12 months later 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by Great Britain's Royal Lifeboat Institution, and included whale back decks fore and aft, mast and centre board, and rudder and tiller hung from the stern post. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was a foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. It had all the latest improvements in shape, disposition of weight with watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat's construction are penciled on the raw timber 'plaque' found in the hull in the early 1990s when the lifeboat was being restored. It is interesting that the 'Melbourne Directory' of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill's documentation also mentions that the keel was laid at 'Harry Myers, boat builders, Williamstown, Melbourne the name 'Myers' can also be spelled 'Meiers', which could be the same person as the Meiers in "McAuley and Meiers" (as mentioned in genealogy lines of Myers). The new lifeboat, to be named 'Warrnambool' was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built-in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, with new sea-going qualities such as greater maneuverability. The ‘self-righting, self-draining’ design was made the vessel difficult to capsize and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has plenty of free board. The backbone timbers were made of Jarrah. The Warrnambool lifeboat was one of several rescue boats used at Port Fairy and Warrnambool in the early 1900s. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares and were able to discover the body of one of the crewmen. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be ready for action in case of an emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River. Flagstaff Hill obtained the Warrnambool lifeboat in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990, she was lifted from the water and placed in a cradle for restoration. The name 'WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The subject row lock is significant due to its association the Warrnambool Lifeboat which was an integral part of an important service to the local community as a lifesaving vessel for a half-century. One of the lifeboats many achievements was when it was used to help retrieve the body of a shipwrecked crew member of the ship Antares. Rowlock from the Warrnambool Lifeboat.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifeboat warrnambool, life boat, life saving vessel, 1910 vessel, port fairy, boat builder plaque, rescue boat, beagley, government dockyard, williamstown, v.e.e. gotch, royal lifeboat institution, captain ferguson, non-capsizeable lifeboat, self-righting lifeboat, antares shipwreck, double diagonal planking, captain carrington, rowlock, lifeboat rowlock -
Flagstaff Hill Maritime Museum and Village
Functional object - Rowlock, early 20th century
This row lock was fitted onto the Warrnambool Lifeboat, which is also on-site at Flagstaff Hill Maritime Village. The construction of the lifeboat 'Warrnambool' began 15th September 1909 and was completed almost 12 months later 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by Great Britain's Royal Lifeboat Institution, and included whale back decks fore and aft, mast and centre board, and rudder and tiller hung from the stern post. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was a foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. It had all the latest improvements in shape, disposition of weight with watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat's construction are penciled on the raw timber 'plaque' found in the hull in the early 1990s when the lifeboat was being restored. It is interesting that the 'Melbourne Directory' of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill's documentation also mentions that the keel was laid at 'Harry Myers, boat builders, Williamstown, Melbourne the name 'Myers' can also be spelled 'Meiers', which could be the same person as the Meiers in "McAuley and Meiers" (as mentioned in genealogy lines of Myers). The new lifeboat, to be named 'Warrnambool' was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built-in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, with new sea-going qualities such as greater maneuverability. The ‘self-righting, self-draining’ design was made the vessel difficult to capsize and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has plenty of free board. The backbone timbers were made of Jarrah. The Warrnambool lifeboat was one of several rescue boats used at Port Fairy and Warrnambool in the early 1900s. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares and were able to discover the body of one of the crewmen. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be ready for action in case of an emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River. Flagstaff Hill obtained the Warrnambool lifeboat in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990, she was lifted from the water and placed in a cradle for restoration. The name 'WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The subject row lock is significant due to its association the Warrnambool Lifeboat which was an integral part of an important service to the local community as a lifesaving vessel for a half-century. One of the lifeboats many achievements was when it was used to help retrieve the body of a shipwrecked crew member of the ship Antares. Rowlock from the Warrnambool Lifeboat.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifeboat warrnambool, life boat, life saving vessel, 1910 vessel, port fairy, boat builder plaque, rescue boat, beagley, government dockyard, williamstown, v.e.e. gotch, royal lifeboat institution, captain ferguson, non-capsizeable lifeboat, self-righting lifeboat, antares shipwreck, double diagonal planking, captain carrington, rowlock, lifeboat rowlock -
Flagstaff Hill Maritime Museum and Village
Domestic object - Codd neck bottle, E. Rowlands, 1921
The design of the bottle is called a Codd, sometimes referred to as a marble bottle or "Codd's patent bottle". During the mid-to-late 1800s, there were many inventions to keep the fizz in carbonated drinks such as ginger ale, soda water, and fruit drinks. Hiram Codd, an English engineer invented a successful process that he patented as "Codd's patented globe stopper bottle" in 1872. The Codd-neck bottle (commonly called Codd or marble bottle) is manufactured in two parts. The body of the bottle is cast in two sections. At the time of joining the sections, glass marble and rubber seal are inserted into the neck section. The lip is then applied to the top of the bottle. The Codd bottle is filled upside down as the pressure of the gas from the carbonated liquid holds the marble up and out of the way. When the bottle stands upright the gas pushes the marble up against the washer, creating a firm seal to keep the fizz inside. The bottle is opened by pushing the marble down firmly to allow some of the gas to escape. The marble drops down and is caught in a depression formed in the neck. When the bottle is tilted to pour or drink the liquid the marble rests in a dimple. Two Ballarat miners, Evan Rowland and Robert Lewis started manufacturing mineral and aerated waters, bitters, cordials, and liqueurs in 1854, in a tent on the shores of Lake Wendouree Ballarat. Another 13 firms at that time employed manual operations, whereas they introduced Taylor's No. 1 machine that speeded up the process and laid the foundation for their fortune. Evan Rowland was a pioneer in the aerated water trade in Australia. He was born on August 2, 1826, in North Wales. In 1852, during the gold rush, he emigrated to Melbourne, and in 1854 he went to Ballarat and formed a partnership with Robert Lewis, the firm being called ‘‘Rowlands & Lewis’’. Their next step was to secure a supply of pure water. Using mineral Waters that they found via a natural spring at Warrenheip, Victoria. From the outset, the beverages made from this water gained repute and were in great demand. Their business prospered so well that in 1858 they were able to build a factory at the corner of Sturt and Dawson Streets, Ballarat, and to fit with the most up-to-date machinery then in use. By 1870 their business had increased so much and demand had grown to such an extent that Mr. Rowlands erected another factory, covering over an acre of ground at the corner of Dana and Doveton Streets, costing £13,000. The factory was fitted with the most modern equipment of the time to manufacture cordials and aerated water. In 1873 Rowlands established an agency at 116 Collins St, Melbourne, because the demand for the products of the Melbourne factory became so large. The company expanded to Sydney opening a factory at the corner of Burns & Hay Streets Darling Harbour obtaining spring water to supply this plant from Katoomba in the Blue Mountains. The water was brought to Sydney by rail. In the meantime, the Melbourne concern had progressed so rapidly that in 1888 a magnificent factory embodying all the latest ideas and equipment was built in King Street Melbourne. Robert Lewis was a fellow Welshman born in 1816, and he arrived in Port Phillip in 1853 and became a partner in the early day with Evan Rowland but with lesser and shorter involvement in the firm, from which he retired in 1876. Robert Lewis was perhaps better known as Ballarat's first mayor and a Member of the Legislative Assembly. He was a strong supporter of local charities, president/treasurer of the Eisteddfod Committee, a major force in the development of the Ballarat Hospital, and he was the mayor of Ballarat five times, the first in 1863, (having been a counsellor as early as 1859) and for the last time in 1881. Lewis died in 1884 of a stroke in Ballarat. Rowlands continued in the firm and invented and patented an improved soda water bottle. The water used in Rowlands products was filtered four times but his attempts to use local corks failed on quality grounds. He was a stickler for quality, which was so good that many outside Victoria were prepared to pay the 'premium' imposed by inter-colonial customs duty payable at that time. By the 1890s, Rowlands had factories in Ballarat, Melbourne, Sydney, and Newcastle. He died in 1894 but his company continued until well after the Second World War when it was sold to Schweppes.An early manufacturing process producing the first mineral waters in Australia was invented and developed by an early Welsh migrant to Australia. The Evan Rowlands story gives an insight into the early development of manufacturing industries in Australia that allowed their workers and the towns they were situated in to prosper and develop into what they are today. Bottle; clear glass Codd neck bottle with small marble in top. Once contained soda water or soft drink. Manufactured in 1921 by E. Rowlands of Ballarat, Melbourne, Katoomba and Sydney. The bottle is 'recyclable' - the message on the base says that it remains the property of E. Rowlands Pty Ltd."E. ROWLANDS BALLARAT MELBOURNE KATOOMBA AND SYDNEY". Imprinted into bas "1921" "THIS BOTTLE REMAINS THE PROPERTY OF E. ROWLANDS PTY LTD"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bottle, codd bottle, hiram codd, glass marble bottle, e. rowlands bottle manufacturer, soda bottle australia, early recyclable bottle, codd's patent bottle, marble bottle -
Greensborough Historical Society
Domestic object - Kettle, T & C Clark & Co. Ltd, 1920c
Cast iron kettle, with steel lid, painted black, for boiling water, usually over a fuel stove or open fireplace.Cast iron kettle, with steel lid, painted blackT & C CLARKE & Co. Ltd ENGLAND Rd 665875 3.0 QUARTS FIRST QUALITYkettles -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Household Equipment, Earthenware hot water bottle 'Hoffmann', c1900
Large stoneware hot water bottle also called a foot warmer. The stoneware hot water bottle has a rubber cap, often the original stone cap would be replaced with a cork alternative to seal the hot water. Because they were mass produced and very robust many survived so the antique value is not great. Many stoneware hot water bottles are still in use today and will be for years to come. Stoneware is a certain clay fired at a particularly high temperature and glazed so that it resembles polished stone.The bottle was filled with hot water, close the stopper securely and stand them in a bed, upright, on their small flat ends so that the sheets and blankets formed a tent-like structure over them. The peak of the 'tent' was the special feature of the rounded knob opposite the flat end, which also served as a carrying handle. Used this way, the hot water bottle was supposed to heat more of the bed Josef Hoffmann (1870–1956) attended the Academy of Fine Arts in Vienna and studied architecture under Otto Wagner. As a designer, Hoffmann was creative and prolific. His design portfolio encompassed commissions for buildings and interiors but extended to things as diverse as textiles, umbrella knobs, walking stick handles, tea pots, caskets and book covers as well as glass and ceramics.In 1903, with Koloman Moser and financier Fritz Waerndorfer, Hoffmann founded the Wiener Werkstätte. The collaboration of artists, designer architects and artisans enabled the realisation of the ‘total artwork’. Hoffmann’s designs were based on simple and clear proportions and employed rich, high-quality materials. Everyday objects were conceived as part of a whole living environment and were considered works of art. A large earthenware hot water bottle.HOFFMANNearly settlers, moorabbin mckinnon, ormond, bentleigh, pottery, craftwork, earthenware, pioneers, hoffmann josef, waerndorfer fritz, moser kololan, weiner werkstatte, vienna, austria, brumpton frances -
Halls Gap & Grampians Historical Society
Photograph - B/W, C 1918
Information supplied with accommodation details Victorian Country Hotel, Guest and Boarding House Guide "Myrtle Bank" The Grampians Electric Light, Sewered, Hot and Cold Water Service, Asphalt, Tennis Court, Milk and Cream from our own farm, Motors meet all melbounre Trains, The Most Up-to-date house in the Grampians, Through Tickets issued by Govt. Tourist Bureau, Telephone : No. 1 Halls Gap Tariff: 12/ per day L 3/3/0 per week. Proprietress Mrs A. F WarrenGuest House and grounds with Tariff information and servicesQuality paper made in Germanyaccommodation, guesthouses, myrtlebank -
Halls Gap & Grampians Historical Society
Photograph - B/W
Advertisement for Mountain Grand Halls Gap A Mangle was the proprietor Electric Light, Hot water service, Hot dinners, Week-end parties catered for Tennis Court, Bowling Green, one minute from swimming poolAdvertisement for Guest HouseAGFA quality paper made in Germanymedia, advertisements, accommodation, mountain grand -
Kiewa Valley Historical Society
Saucer Ceramic, circa 1940's to 1950's
This item was used by the State Electricity Commission of Victoria in their mess rooms for their workers during the construction of the Kiewa Hydro Electricity Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed and relieved the private VHEC (Victorian Hydro-Electric Company). As the scheme was of such a huge, isolated and time consuming nature the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tied to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local/European expertise in dam construction and water management in alpine terrain came from migrants or specially recruited English and Europe specialists. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world.This item is a white ceramic State Electricity Commission Of Victoria saucer (tea /coffee). It is made in England and is of strong and durable ceramic. The bottom cup indent is for either tea or coffee cups of a similar ceramic structure. The 5mm thickness of the ceramic suggests this saucer belongs to a commercial kitchen environment and not domestic. The indent bottom of the saucer is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (worker's mess). See also KVHS 0128 (B to D)The seal of the State Electricity Commission Of Victoria is imprinted on the top inside rim within a curved scroll. Snuggled within the borders of the scroll is a banner with the five stars of the southern cross and an arm with a closed fist projecting from the top with five lightning bolts projecting outwards. On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"saucer, plate, secv, state electricity commission of victoria, crockery, mt beauty chalet, bogong mess hall -
Kiewa Valley Historical Society
Saucer Ceramic, from 1921 to 1961
This item was used by the State Electricity Commission of Victoria in their mess rooms for their workers during the construction of the Kiewa Hydro Electricity Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed and relieved the private VHEC(Victorian Hydro-Electric Company). As the scheme was of such a huge, isolated and time consuming nature the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tied to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local/European expertise in dam construction and water management in alpine terrain came from migrants or English and European specialist. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world.This item is a white ceramic saucer (tea /coffee). It is made in England and is of strong and durable ceramic. The bottom cup indent is for either tea or coffee cups of a similar ceramic structure. The 5mm thickness of the ceramic suggests this saucer belongs to a commercial kitchen environment and not domestic. The indent bottom of the saucer is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (worker's mess). See also KVHS 0128 (A,C and D) The seal of the State Electricity Commission Of Victoria is imprinted on the top inside rim within a curved scroll. Snuggled within the borders of the scroll is a banner with the five stars of the southern cross and an arm with a closed fist projecting from the top with five lightning bolts projecting outwards. On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"saucer, plate, secv, state electricity commission of victoria, crockery, mt beauty chalet, bogong mess hall -
Kiewa Valley Historical Society
Saucer Ceramic, from 1921 to 1961
This item was used by the State Electricity Commission of Victoria in their mess rooms for their workers during the construction of the Kiewa Hydro Electricity Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed and relieved the private VHEC (Victorian Hydro-Electric Company). As the scheme was of such a huge, isolated and time consuming nature the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tied to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local/European expertise in dam construction and water management in alpine terrain came from migrants and specialist recruited from England and Europe. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world.This item is a white ceramic saucer (tea /coffee). It is made in England and is of strong and durable ceramic. The bottom cup indent is for either tea or coffee cups of a similar ceramic structure. The 5mm thickness of the ceramic suggests this saucer belongs to a commercial kitchen environment and not domestic. The indent bottom of the saucer is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (worker's mess). See also KVHS 0128 ( A,B&D)The seal of the State Electricity Commission Of Victoria is imprinted on the top inside rim within a curved scroll. Snuggled within the borders of the scroll is a banner with the five stars of the southern cross and an arm with a closed fist projecting from the top with five lightning bolts projecting outwards. On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"saucer, plate, secv, state electricity commission of victoria, crockery, mt beauty chalet, bogong mess hall -
Kiewa Valley Historical Society
Saucer Ceramic, Circa 1921
This item was used by the State Electricity Commission of Victoria in their mess huts/rooms for their workers during the construction of the Kiewa Hydro Electricity Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed and relieved the private VHEC (Victorian Hydro-Electric Company). As the scheme was of such a huge, isolated and time consuming nature the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tied to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local and European expertise in dam construction and water management in alpine terrain came from migrants for England and Europe. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world. These saucers were used in the mess huts including later in the Bogong mess hall and the Mount Beauty Chalet.This item is a white ceramic saucer (tea /coffee). It is made in England and is of strong and durable ceramic. The bottom cup indent is for either tea or coffee cups of a similar ceramic structure. The 5mm thickness of the ceramic suggests this saucer belongs to a commercial kitchen environment and not domestic. The indent bottom of the saucer is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (worker's mess). See also KVHS 0128 (A to C)The seal of the State Electricity Commission Of Victoria is imprinted on the top inside rim within a curved scroll. Snuggled within the borders of the scroll is a banner with the five stars of the southern cross and an arm with a closed fist projecting from the top with five lightning bolts projecting outwards. On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"saucer, plate, secv, state electricity commission of victoria, crockery, mt beauty chalet, bogong mess hall -
Kiewa Valley Historical Society
Plate Bread & Butter, Circa 1921
This item was used by the State Electricity Commission of Victoria in their mess rooms for their workers during the construction of the Kiewa Hydro Electricity Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed and relieved the private VHEC (Victorian Hydro-Electric Company). As the scheme was of such a huge, isolated and time consuming nature the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tide to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local expertise in dam construction and water management in alpine terrain came from migrants for England and Europe. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world.This item is a white ceramic plate (bread & butter). It is made in England and is of strong and durable ceramic. The bottom of the plate is flat with edges sloping out (to position the bread) and the extended rim is to catch any spillages. The 5mm thickness of the ceramic suggests this plate belongs to a commercial kitchen/eating establishment (mess) and not a domestic dining room. The indent bottom of the plate is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (see KVHS 0128 for its saucer part of a dinner set.The seal of the State Electricity Commission Of Victoria is imprinted on the top inside rim within a curved scroll. Snuggled within the borders of the scroll is a banner with the five stars of the southern cross and an arm with a closed fist projecting from the top with five lightning bolts projecting outwards. On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"saucer, plate, secv, state electricity commission of victoria, crockery -
Kiewa Valley Historical Society
Meter Multi General Purpose, circa mid to late 1900's
This general purpose Multi-meter was manufactured after 1950 and used by the SEC Vic (Kiewa Hydro Electricity Scheme) from that date until late 1900's. It was used to measure very small voltages associated with the operation of the various Hydro Generators. The readings were able to be shown by the resistor in use in the current circuit. During this time period, high quality testing instruments were either sourced from Europe or England. This particular meter was manufactured in the Netherlands. This type of "old" analogue meter was replaced by digital meters whose electronic components are a fraction of the size of the older analogue ones.This analog General Purpose multi-meter is quite a large (for handheld mobile) apparatus which permits the easy monitoring of electrical variations within the large SEC Victoria Hydro Scheme's electrical generators. These generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This hydro scheme was instigated by "the Government of the day" as a bold move and was the major force of the World War II refugee and "technical" workforce inclusion of skilled and unskilled migration into the Australian environment. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual multi-cultural diversity of later years.This General Purpose Multimeter is an analogue meter i.e. it has a needle arm that moves across a scale of divisions. This is a large(hand held) device due to the mechanical movement system within and the large size of its electronic components of its circuitry.There are two black bake-lite push buttons operating the wire inserts Positive/negative leads at the top. The meter (protected with a glass window) has clearly marked graduations (top - volts, bottom amperes). Below this are two bake-lite dials (left "potentiometer the right one measuring range selector). Below this is a "dial" switch to input the desired resistance measuring range "V" Front "H&B ELIMA" and to the right Elavi 15n. 0n the front side is a label "STATE ELECTRICITY COMMISSION OF VICTORIA TRANSMISSION DEPT E.C.No." On the bottom of the base is a stenciled layout of the battery "layout" including the fuse . The information notice is presented in five languages starting with German, English,French, Italian, Spanish and Dutchsec vic kiewa hydro scheme, alternate energy supplies, alpine population growth -
Kiewa Valley Historical Society
Case for G.P. Multimeter, Circa 1950
This leather case holder for a general purpose Multi-meter( KVHS 0307 (A)) was manufactured after 1950 and used by the SEC Vic (Kiewa Hydro Electricity Scheme) from that date until late 1900's. It was used to measure very small voltages associated with the operation of the various Hydro Generators. The readings were able to be shown by the resistor in use in the current circuit. During this time period, high quality testing instruments were either sourced from Europe or England. This particular carry case was manufactured in the Netherlands. This carry case for an analog General Purpose multi-meter which is quite a large (for a handheld mobile) apparatus.The bag however permits the easy monitoring of electrical variations within the large SEC Victoria Hydro Scheme's electrical generators. These generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This hydro scheme was instigated by "the Government of the day" as a bold move and was the major force of the World War II refugee and "technical" workforce inclusion of skilled and unskilled migration into the Australian environment. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual multi-cultural diversity of later years.This leather case is to provide protection for this mobile G.P. Multimeter, therefore it is made from thick leather. It has a carrying strap from a thick "D" chromed link. This link is fastened to the main cover by a looped leather strip with a black coloured rivet. All the fasteners are either chrome or black coloured rivets. The front, which when opened back exposes fully the inside of the case. It is clip fastened to the lower section of the front piece which also can be pushed back allowing the meter to be removed from the frontal position. There is a strip retaining strap slightly higher from the mid point. This is fasted by a black press stud. There are two "L" shaped tin protrusions allowing the meter to slide only down the case until it rests on these shelves. This provides for an empty space for minimal storage,.On the front bottom and below the clasp is a tag "STATE ELECTRICITY COMMISSION OF VICTORIA TRANSMISSION DEPT."sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth -
Kiewa Valley Historical Society
Bowl Ceramic, circa mid to late 1900's
This bowl was used by the State Electricity Commission of Victoria in their mess rooms for their workers during the construction of the Kiewa Hydro Electric Scheme. The imprint of the year "1921" was to identify the year that the SECV was formed which relieved the private VHEC (Victorian Hydro-Electric Company). As the scheme was of such a huge scope, isolated and time consuming nature, the feeding of its workers was quite demanding of cutlery and crockery. The use of sturdy English cups and saucers was essential. The period of construction and the isolation of the Kiewa Valley area placed heavy demand for "solid" crockery that could wear abusive handling. This period in time was one when crockery, whether for domestic or commercial use, was imported from "mother" England. This scenario was more so for governmental bodies such as rail, jails and electricity providers than domestic users. The influx of cheaper Asian crockery had not yet begun.This type of crockery item was used by the thousands of SEC Victorian staff and construction workers involved in the building of the Kiewa Hydro Electricity Scheme, over the extensive period (1938 to 1961). This was a period when Government bodies and other semi- government organisations were still tied to the "establishments" of "mother" England. It was a period in Australia's development when the Asian influence was very weak and the established ties to England and Europe was still very strong. The majority of heavy equipment and machinery was either made in England or Europe. Local/European expertise in dam construction and water management in alpine terrain came from migrants and specialist recruited from England and Europe. The quality of workmanship from big steel manufacturing plants in England and Europe could not be matched from anywhere else in the developed world.This item is a white ceramic State Electricity Commission of Victoria bowl. It is made in England and is of strong and durable ceramic. The 5mm thickness of the ceramic suggests this bowl (cereal/soup) belongs to a commercial kitchen environment and not domestic. The indent bottom of the bowl is 5mm deep with a side curvature ratio of 2:5. The ceramic is glazed to a commercial standard (worker's mess). See also KVHS 0128 (B to D) for other ceramic crockery. The seal of the State Electricity Commission of Victoria is imprinted on the top outside rim within a curved scroll and a raised fist with electrical "charges" extending out.. Snuggled within the borders of the scroll is a banner with the five stars of the Southern Cross . On the underside "Vitrified sold by Cafe & Hotel Supplies Pty Ltd Dunn Bennett & Co. Ltd. Burslem Made in England"ceramic crockery, plate, secv, state electricity commission of victoria, crockery, mt beauty chalet, bogong mess hall -
Kiewa Valley Historical Society
Sign Canteen Painted, Circa 1950
This sign is a part of the "human" factor required for remote and difficult, large impact (both labour and other resources) projects. It is one of the "human" factors which was clearly used in the big 1930's to the 1970's "landscape redevelopment" schemes which started in the early 1900's and is highly regarded as lifting the Australian psyche of only primary producers to an industrial level, equal to any in the world.This "Wet Canteen" sign was installed at the entrance of the Bogong "workers" village "provision's hut" detailing the operational times for the SEC Victorian staff and construction workers, involved in the building of the Kiewa Hydro Electricity Scheme to obtain alcoholic beverages. This facility lasted for over the extensive period (1938 to 1961) of the "Schemes" building phase. This large project was the forerunner when industrial legislation provided for the welfare of workers living in the Bogong Village. The provision of facilities such as a "wet canteen" was of the utmost importance not only to ensure that the long running project was both successful, production wise, but also that its employees were not only physically but also mentally healthy. This sign details that all aspects required for a fit and productive labour force were in place, in this remote and demanding work environment. The majority of heavy equipment and machinery used was either made in England or Europe. A section of the specialised workforce came from local and European expertise in dam construction and water management in alpine terrain. The majority of labour came from migrants and some specialists recruited from England and Europe. At this point in time, the quality of the machines used came from England, Europe and the USA and could not be matched from anywhere else in the developed world. With a specialised workforce came the responsibility of providing all the "comforts of home" including alcoholic beverages. On site accommodation for the workforce is still a requirement for some mining areas but high market returns have produced fly in/out labour.This anodised metal sign has been "block" stenciled on. Black lettering and numbers with the main headings underlined with a red and a yellow line(emphasising the headings)In black stenciled type "BOGONG WET CANTEEN" underneath this "TRADING HOURS" Below this "MONDAY TO THURSDAY 5.15 PM TO 5.50 PM, 7.00 PM TO 9.00 PM" "FRIDAYS SHORT WEEKEND 4.30 PM TO 5.20 PM 7.00 PM TO 9.00 PM" Below this "FRIDAYS LONG WEEKEND 10.00AM TO 11.30 AM" Below this "SATURDAYS PUBLIC HOLIDAYS 4.30 PM TO 5.30 PM 7.00 PM TO 8.30 PM" bELOW THIS "CANTEEN WILL BE CLOSED ON SUNDAYS, GOOD FRIDAY AND UNTIL 4.00 PM ON ANZAC DAY"saucer, plate, secv, state electricity commission of victoria, canteen, bogong mess hall, recreational amenities, socialisation of sec vic kiewa hydro scheme labour force -
Kiewa Valley Historical Society
Tester Direct Current, mid 1900's
This tester was used between 1950 and 1980's. As part of the Occupation, Health and Safety requirements, equipment used to monitor the performance of electricity producing generators, regularly, hand held testers were used to check the insulation and the "earth" pin were up the the required operational levels. As the generators and their ancillary monitoring equipment was spread over a large area and cumbersome to service small hand held devices were required. These had to always be safe for the user to operate. A selected range of high quality meters were recalibrated every two years in the Meter and Calibration Laboratory at Yarraville(near Melbourne) This meter is very significant to The Kiewa Hydro Electricity Scheme because it was an integral part of maintaining the electricity producing water driven generators of the power stations. The reason why this meter was so essential is that provided the safety check on equipment used to monitor each Hydro Generator that they were complying within the grid network parameters. Grid parameters are set so that if there is an electrical fault on the system, that fault can be attended to with a very small change in the output stability of each generator. It is essential that the voltage of the network remain within the set limits. Generators are at Dartmouth, Mackay, Clover, West Kiewa, Yarrawonga, Cain Curran and three Power Stations in the Thornton area.This hand driven current generator produces 500 volts by winding the handle(on funnel curved side) to keep the voltage constant(one minute per test). The whole body is made from caste aluminium. One of the functions of this meter is to test the isolation resistance of any equipment being tested. This is to see if that equipment is safe to handle(no electrical shocks). The second function is to test the earth pin of any portable electrical equipment. The turn key on one side can direct which function is required(marked insulation or continuity). On the top side(enclosed in a glass fronted marked scale) is a continuity scale(top) and an insulation scale(bottom). This is covered , when not in use by "flip up" lid with manufacturer's details and name of the instrument. Opposite the winder are two screw tight knobs. One marked earth(left side) and one marked line(right side). On the top and next to the glass windowed scales in a post manufacture SEC Vic equipment equipment ID number. For carrying purposes there is chromed steel (fold together) handle.The bottom of the unit has two metal "feet" 150mm long by 114mm wideManufacturer's details on top side "MEG" underneath "INSULATION AND CONTINUITY TESTER" below this "constant 500 VOLT pressure" below this "REGISTERED MEG MEGGER TRADE MARK" below this "REG DESIGN NO. 690326" below this "UNITED KINGDOM PATENT Nos. 193746, 197178, 198182, 202062, 202398, 204649, 350715" below this "SUPPLIED BY THE GENERAL ELECTRIC Co. Ltd OF ENGLAND" below this "MAGNET HOUSE, KINGSWAY LONDON W.C.2" 'sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall -
Kiewa Valley Historical Society
Case leather
This case was used between 1950 and 1980's. As part of the Occupation, Health and Safety requirements, equipment used to monitor the performance of electricity producing generators, regularly, hand held testers were used to check the insulation and the "earth" pin were up the the required operational levels. As the generators and their ancillary monitoring equipment was spread over a large area and cumbersome to service small hand held devices were required. These had to always be safe for the user to operate. A selected range of high quality meters were recalibrated every two years in the Meter and Calibration Laboratory at Yarraville(near Melbourne)This leather case contains a meter which is very significant to The Kiewa Hydro Electricity Scheme because it was an integral part of maintaining the electricity producing water driven generators of the power stations. The reason why this meter was so essential is that provided the safety check on equipment used to monitor each Hydro Generator that they were complying within the grid network parameters. Grid parameters are set so that if there is an electrical fault on the system, that fault can be attended to with a very small change in the output stability of each generator. It is essential that the voltage of the network remain within the set limits. Generators are at Dartmouth, Mackay, Clover, West Kiewa, Yarrawonga, Cain Curran and three Power Stations in the Thornton area.This carry case is made from leather hide and cloth covered cardboard insert. The front side has a lockable English made suitcase fitting. It has a broken carry strap (leather) travelling from top and through leather strap holders both sides and on the bottom of the case. A State Electricity Commission of Victoria identification tag riveted onto the top lid "ELECTRICAL ENGINEERING SECTION No. 1483"sec vic kiewa hydro scheme, alternate energy supplies, alpine located electricity generators, mobile measuring equipment -
Kiewa Valley Historical Society
Kettle Cast Iron, Circa 1950
This kettle was used by pioneer families, mainly rural, folk that needed a constant readily available source of boiling water, in or mainly outside the homestead.. This kettle was used in the early to late 1900's for the refreshment of stock men and farmers that had irregular "tea" breaks under sometimes hard and gruelling conditions.This kettle belonged and was used by a Kiewa Valley, pioneer family, the Roper Family. This kettle was moved from their Kiewa Valley property to their hut built on the Bogong High Plains. A scientific study started in 1947 to study the impact of grazing cattle on the natural Alpine and sub Alpine vegetation found grazing cattle had an adverse affect on the natural Alpine and sub alpine vegetation, and grazing on the plains was stopped by the Victorian Government in 2005.This "camp draft" could take up to six weeks.This large cast iron kettle holds a capacity of three pints of water/tea. It has a flat base and mushroom shaped handle welded onto the "pot" below the rim of the pot opening. It has a rim to position the tea pot lid but no lid. It has a curved spout "welded" to the main body.Clark Qualitycamp fire cooking utensils, hot plate, cast iron cooking appliance, drovers kitchen -
Kiewa Valley Historical Society
Pot Large with Tap, Circa 1950
This type of cast iron kettle was used by pioneer families, mainly rural in the early 1900's upon open fires (log). It covered rural activities that needed a constant readily available source of boiling water, in or mainly outside the kitchen of homesteads. This kettle was used in the early to late 1900's for the refreshment of stock men and farmers that had irregular "tea" breaks under sometimes hard and gruelling conditions.This kettle belonged to and was used by a Kiewa Valley, pioneer family, the Roper Family. This kettle was moved from their Kiewa Valley property to their hut built on the Bogong High Plains. The Bogong High Plains area provided Kiewa Valley cattlemen a good supply of fodder to supplement their Kiewa Valley grazing areas. This "camp draft" activity , in the high plains, could take up to six weeks.This large cast iron modified camp pot (cauldron) has a long tap connection located at the bottom end. The "tap" is made from brass and has a simple elongated "bar" control swivel at the end to control the water flow. The tap suggests that only water was heated (to a constant boil) for the replenishment of cattlemen's, or other horse rider's, tea or coffee mugs. Refreshments at a "temporary" location on the Bogong High Plains. There was a "log" hut built by the Roper family as temporary accommodation for cattlemen and other family members.Ot the flat bottom "FIRST QUALITY 2 GALLONS"camp fire cooking utensils, hot plate, cast iron cooking appliance, drovers kitchen -
Eltham District Historical Society Inc
Photograph, Sugarloaf Reservoir, Christmas Hills, 16 January 2015, 16 January 2015
Sugarloaf Reservoir is situated on former farmland. This large water storage was completed in 1982 and serves Melbourne's northern suburbs. Within the visitor areas are two picnic grounds and other recreational facilities. Below its massive rock embankment is located the Winnecke Treatment Plan designed to purify its water before being piped into Melbourne. The dam partly inundated the old firing ranges of the former Christmas Hills Rifle Club. Source: Christmas Hills Now and then: Yarra Glen & District Historical Society, 2004. Born DigitalMelbourne Water Sugarload reservoir Melboure Water is owned by the Victorian Government. We manage Melbourne's water supply catchments, remove and treat most of Melbourne's sewrage, and manage waterways and major drainage systems. Most of Melbourne's water comes from uninhabited, forested catchments. Melbourne is one of the few cities in the world that has protecyed water supply catchments. Melbourne Water manages these catchments to protect our drinking water. Our water is safe and pleasant to drink, and undergoes minimal treatment - it is better to start witht he highest quality source. A key part of Melbourne Water's responsibility is to encourage the sustainable use of this precious resource. For more inforamtio on our water supply and on how you can conserve water, call 131 722 or visit www.melbournewater.com.auchristmas hills, sugarloaf reservoir, sign, melbourne water -
Eltham District Historical Society Inc
Photograph - Photograph postcard, J.H. Clark, Eltham (from Bolton Street), c.1915
Original sepia photo postcard of early view of Eltham looking east from Bolton Street between Bridge Street and Brougham Street (Wellington). Fenced road reserve on right is Brougham Street. Originally dated as pre-1877 introduction of the Telegraph (the Telegraph was connected to the Post Office on Thursday, June 7, 1877) given the lack of poles and wires visible, a more recent higher resolution scan has revealed more detail highlighting the presence of several Telegraph poles: one about half way between Brougham Street and Dalton Street, one opposite the Police Residence, another opposite W.B Andrew’s Corn Store (Zen Den site), one possibly near the Fountain/Evelyn Hotel. Also, given the photo was originally marked “J. H. Clark Photo” it is safer to assume the image is dated circa 1915 until dates of further image details can be confirmed. Photographer: J.H. Clark John Henry Clark was the youngest of three boys born to William Henry Clark (1823-1877) and Maria White (1843-1914). He and his brothers, William Charles Clark (1872-1945), Clement Kent Clark (1874-1912) operated a photography business (Clark Bros.) from 25 Thomas Street, Windsor near Prahran during the period c.1894 to 1914. Following death of Clement in September 1912 and their mother in 1914, the Clark Bros business appears to have dissolved, the premises demolished, and a new house was under construction in 1915. John set up business independently in 1914 operating out of 29 Moor Street, Fitzroy where he is registered in the 1914 and 1915 Electoral Rolls. By 1916 John had relocated to Eltham where he continued his practice as a photographer and took many of the early images around the district of Little Eltham. Around 1930 John changed professions and opened a small cobbler's shop in 1931 near the pond opposite Dalton Street adjacent to the Jarrold family cottage. He never married and continued his profession as a bootmaker from this little shop, maintaining a close relationship with Mrs Jarrold for the rest of their lives. His bootmaker shop remains today beside the Whitecloud cottage and is one of only three remaining shops in the area from the early 20th century. There are a couple of images of Eltham taken by Clark Bros. in the Eltham District Historical Society collection, one such example being Hunniford’s Post Office with Miss Anne Hunniford out front (EDHS_00140 - marked on the back of the print, Clark Bros., 25 Thomas St. Windsor), which would date this image between c.1894 and 1914. Other early images of Eltham taken by John Henry Clark are marked on the face “J. H. Clark Photo” and it is assumed these are dated between 1914 and 1930. It is noted that the Grant of Probate for John H Clark of Eltham South dated 5 April 1957 (513/387) records his occupation as "X Photographer".1. Original sepia postcard - water damaged lower left corner over approximate 30mm diameter destroying image and photohgrapher's markings (same as EDHS_00533 and EDHS_00535 - all from same donor collection) 2. A second black and white print copy of the same image from a different unknown source (of lower resolution quality) is also held. 3. A digital enhanced version has been created using the lower quality black and white print as a donor source for the damaged section of the postcard.In pencil on back of postcard: A. Petrie Verandah on Andrews shop Pearsons house (Living and Learning Centre)bolton street, brougham street, cafe zen den, courthouse, eltham courthouse, eltham hotel, eltham living and learning centre, eltham living and learning, eltham, fountain hotel, j.h. clark photo, knapmans forge, main road, maria street, pitt street, police residence, police station, post office, st margaret’s church, w.b. andrew corn store, wellington street, early eltham, little eltham -
Orbost & District Historical Society
water fountain, late 19th century
Iron fountain used on open fires etc. Donated by Mrs Norah Osborne, wife of Bruce , principal of High School. Early homes often had an open fire containing a fountain, buckets and kettles that hung from a hook in the fireplace. These containers supplied hot water for cooking, washing and cups of tea. Fountain was placed on hob until needed and then hung over fire.This kettle is an example of a common domestic item used in early Orbost before electricity was widespread.Large black iron fountain with swing handle and hook for using over a fire. Large brass tap and handle. Lid - Clark & Co * 4 Galls. Bottom - Clark & Co - 4 Gallons FINEST QUALITY T & C CLARK & COcooking domestic kettle fountain-iron ironware -
Ringwood and District Historical Society
Photograph, Boiler explosion at Ringwood station 20th June 1894 for engine 297R. "Heard in Box Hill"
... the explosion took place. The last place at which the engine took water... anything of the quality of the water there ? Is it creek water ...Typed below photograph, "Boiler explosion at Ringwood station 20/6/1894. Heard in Box Hill". Article from newspapers:- Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 21 Official enquiry. The Board of Enquiry appointed by the Railway Commissioners to enquire into the causes of the boiler explosion which shattered the locomotive at Ringwood on Saturday night, assembled at the Railway department on Wednesday to commence its deliberations, The board consisted of Mr R. Fulton, engineer, C. W. McLean; engineer to the Marine Board, and Mr Mephan Ferguson, iron-founder. There is some difficulty at the outset about the constitution of the board; It was suggested that the Apt of Parliament contemplated that boards of experts, after the manner of the present one, needed, to have their appointments confirmed by the Governor-in-Council. The point, however, was not considered sufficiently important to prevent the board from proceeding with evidence. Robert Greyford, stationmaster at Ringwood, was the first witness. He said he saw the explosion on Saturday night at about twenty minutes to 8. There was a rush to the engine to see what had happened, and the driver and fireman were both found on the platform of the engine. The driver seemed badly hurt, but the fireman, to all appearances, was not so badly injured. They were both attended to and sent up to Melbourne by the last suburban train. Witness had a look at the engine and found the dome and all the plates round the boiler blown clean, away. The springs were also blown clean away. The Chairman (Mr Fulton) : Did you measure the distance ? Witness: Yes; one of the plates was 209 yards away. A piece from the top of the boiler 15 pounds in weight he found driven into the hard beaten track 410 yards away. Several pieces of boiler plate were found scattered at various distances. The buildings roundabout were injured. The Chairman; Did you notice anything peculiar about either of the driver or the fireman ? — No ; nothing wrong, with either of them. If the engine was blowing off at all, it must have been very light. In your opinion, were they perfectly sober ? — Perfectly. In approaching the station, is there a down or an up grade? — A very slight down grade. How is the road from Healesville ? — Up and down all the way. It is down, grade for about 200 yards coming into Ringwood station. They shut off ; steam about a quarter of a mile away, and come in at a good pace. They generally put on 15 pounds of steam while they are in the station. Mr Ferguson : Had the driver the usual load on ? — Yes ; about the usual load. Witness added that he had known the driver personally for about 10 years, and he had always been a careful, steady, sober man. He did not know the fireman so well. John Palmer, porter at Ringwood station, also saw the explosion. He was attending to the train on its arrival. He was knocked down by the force of the explosion. When he got up he saw the engine driver being carried into the office covered in blood. He noticed nothing peculiar about the driver and fireman, nor about the engine. Mr McLean : How far were you from the engine when you were knocked down ? — From ten to fifteen yards. William Paul, the guard of the train to which the injured locomotive Was attached, said he was looking at the engine at the very moment the explosion occurred. It seemed to come from exactly under the dome. The force of it took him off his feet. He was about 15 yards from the tender. When he rose he tried to reach the engine, but could not do so on account of the steam and coal dust. He called out to know whether any of the passengers were injured, and got no response, so that he concluded they were all right. All the lamps but about half dozen were extinguished by the force of the explosion, although the glass was not broken. He could testify most distinctly that the driver and fireman were both sober. The driver was a man who never drank. The steam started to blow off about a minute and a half before the explosion took place. The last place at which the engine took water was Healesville. The Chairman : Do yon know anything of the quality of the water there ? Is it creek water ? — Yes ; it comes from the Graceburn River. You never heard of its quality ?— No. How long have you known this engine on the road— About 13 months. Hew long have you known the driver on this line ? — About six weeks. I have known the fireman several years. The driver was a strict teetotaller, and I never saw the fireman take anything to drink in his life. Mr T. H, Woodroffe, chief mechanical engineer of the Victorian Railways, produced a report he had written to the secretary, about this explosion. The document gave facts concerning the engine and the explosion. It stated that the rapture seemed to have occurred at the rim of the plates adjoining the fire box. The engine was built at the Phoenix Foundry, Ballarat, in 1883. It was repaired at various times, the last time being in July of last year when it was sent to the Port Melbourne shops, and was then tested to a cold water pressure of 195 and found all right. It was the custom to overhaul all locomotives about every five years. The Chairman : There were no very heavy repairs in July, 1893; were there? — Not to the boilers. The shop manager's report says that the plug and safety tap holes were repaired, five new copper studs put in firebox, ash-pan door repaired, tender cleaned and overhauled, and studs re-rivetted, and boiler tested to pressure of 195, cold water. Mr Woodroffe read the report of the repairs effected to the boiler in December, 1888. That would be the time the plate was put in the boiler. On that occasion three new plates were put in the bottom and the boiler tested up to 195. The Chairman: Do you keep a record of the water used ?— Yes, the water in this case, I think, came from the Maroondah scheme. Mr Woodroffe said boilers were examined front time to time in the running sheds. In his opinion every possible care had been taken to keep the engine in proper care. There might, however, be lessons learnt from this. The Chairman: No doubt. From his examination of the plates [the] witness did not think the state of them could have been detected from the outside. There were no signs of leakage or sweating or anything of that sort. The next witness- was Walter Stinton, workshop manager at Newport and he said that the injured engine had been repeatedly repaired under his charge. He gave a technical account of the repairs effected on various occasions. The testing of locomotives was under his special notice. They had a high pressure pipe running; round the works, and a pump set at 2001b. When the boiler was pumped full of water the pressure when applied up to 1951b. The board appointed by the department to inquire into the Ringwood locomotive boiler explosion sat again at Spencer street on 25th inst. Mr R. Fulton presided and the other members of the board were. Mr Mephan Ferguson and Mr C. W. McLean. Charles Grubb, foreman of the boiler-makers at the Newport workshops, said he had inspected the pieces of plate that had been blown out of the engine, and after examining them, pointed out to the Chief Mechanical Engineer the portion where the plate had started to burst. It was under the lap, on the right hand side of the boiler. The grooving might be accounted for by bad water. During the past twenty years he had examined all the boilers that came into the Williamstown workshops, and while some were hardly marked at all, others were very badly eaten away. The practice was to cut out the defective portions. In this case the boiler was repaired in a similar manner. The Chairman : Can you suggest any other way of repairing so as to prevent accident ? — No, unless by taking out a plate on one side from the joint, and carrying it further up so as to avoid the joints meeting, or by taking out the plate altogether. What would.be the cost .of putting in a new " plate I—Perhaps about double the price; but I wouldn't recommend that course. It would be putting a new plate against plates that have been in use ten years or so and that would not be advisable. I think the present system better. I consider the present system of repairing the best. This is the first we have had so bad like that, to my knowledge. You attributed this to bad water. Is there no other probable cause ? — Well; unless the iron be bad. This was Lowmoor iron. I think this accident was caused by the eating away of plates. This one was the worst I have seen, for the short time it had been running. We use three classes of iron — Lowmoor, Monkbridge and Bowling. By Mr Woodroffe (Chief Mechanical Engineer) ; There are engines still running that were repaired at the same time as this one, in 1888, and. in the same way. These are engines 339 and 333. They have been recently examined and are in splendid order. What in your experience, is the age of a boiler on the Victorian railways? — From 17 to 20 years our earlier boilers stood. The later boilers don't stand so well. How is that? — There is difference in construction, and the material is lighter. The old boilers had thicker plates. Have you been asked in any way to curtail boiler affairs? — No, sir; nor in any way. You have never hesitated to carry out any necessary repairs? — Never. Our orders have been to exercise every care in examining, repairing and renewing boilers. Witness said that his practice was when an engine came into the workshop to find out how long she had been running. If over five years, he informed the workshop manager, and they thought it necessary the tubes were taken nut. If everything was in good order witness reported to the manager. The cost of taking out the tubes and putting them in again was about L20. Mr Woodroffe : Have you ever hesitated to repair a boiler on the score of expense ? — No, never. Mr McLean : Hew do yon ascertain whether a boiler requires repairs?— I keep a record of every boiler examined. From every boiler that comes in I have the dome covers taken off, and when it is practical I get inside. l can almost tell from the top of a boiler what the bottom is like. If there is any doubt about it I have the tubes taken out. If I have suspicion of defective plate I cause to have bored a triangle in the plate at the point where there is the most wear. There is a travelling inspector who visits all the running sheds of the colony except Port Melbourne and tests the boilers. He reports to us and we note what he points out. Alfred Thompson, locomotive inspector of the eastern section, said he knew this engine, 297R. He read a list of her repairs. He heard of the accident on Saturday night and went up to Ringwood. The Chairman : Did you ever notice anything peculiar about the engine? — No, I considered her A1 and would not have hesitated to have put on 140lb pressure owing to the repairs she had undergone. Witness considered that the explosion was caused by the expansion and contraction of the plates ; and, no doubt, the plate had been eaten away through bad water. The other side of the boiler showed: signs of corrosion: By Mr Woodroffe ; Is every care taken with the boilers ? — Yes, every possible care is taken for the safety of boilers, Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 7 EXPLOSION OF A LOCOMOTIVE BOILER, NARROW ESACPE FROM FATALITIES. THE DAMAGED ENGINE. [See drawing of loco – saved in “Railways” folder] The explosion of a locomotive boiler at Ringwood on Saturday evening, formed the subject of much discussion in railway circles on Monday. The Minister arrived at the office at an unusually early hour and immediately entered into a consultation with the acting chairman, Mr Kibble, and Mr Commissioner Murray. As the result of the interview it was resolved to ask three gentlemen of acknowledged engineering experience to sib as a board with the . object of inquiring into the cause of the accident and furnishing a report. Mr Richardson and the Commissioners are tally seized of the importance of having a searching investigation into the accident, and, with Mr Murray, the former went to Ringwood to inspect the scene of the disaster. They will he accompanied by Mr Woodroffe. During the morning no official report had come to hand from the driver or fireman of the engine in reference to the accident, but that is thought to be due to the circumstance that they have not sufficiently recovered to be able to give a circumstantial account of what occurred. The engine was one of the old R's, and, Mr Kibble pronounced them to be about the best class of engines used. So far nothing can be said as to the probable cause of the accident, as the broken plating of the engine has not been submitted to the inspection of experts. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 7 STATEMENT BY THE FIREMAN. This morning Thomas Miles, fireman on the engine the boiler of which exploded on Saturday night, is suffering from an injury to the spine, as well as a very severe shaking to the system. He states that he was fireman on the engine attached to the train which left Healesville on Saturday evening, at ten minutes to 8. Everything went all right until Ringwood was reached, when, .just as the train was about to continue its journey, a load explosion took place and Miles remembers nothing more until he was picked np on the platform ; and found himself suffering from a pain in the back, and an injury to his arm. He cannot think of any reason which could have caused the explosion, as there was plenty of water in the boiler, and everything seemed working all right. Mr R. Fulton, consulting engineer, of Queen street; Mr McLean, a member of the Marine Board ; and Mr Mephan Ferguson, engineer, have consented to act as a board to inquire into the cause of the engine boiler explosion at Ringwood on Saturday evening. The board has been appointed under section 117 of Act 1135, which provides that the Governor-in-Council may direct the taking of a such a step. Mr1 Fulton will act as chairman of the board, which met for the first time at the railway offices, Spencer street, this forenoon. Before separating the members of the Board paid a visit to the Prince's Bridge locomotive sheds in company with Mr Woodroffe, the chief mechanical engineer, for the purpose of inspecting the shattered boiler. It has been stated that the explosion is known to have been caused by a flaw in a plate which was put on the boiler about four years ago, but enquiries have tailed to elicit anything in support of that view. The engineers connected with the department are not inclined to say anything on the subject. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 14 April 1894, page 20 The Ringwood Boiler Explosion, The Minister of Railways has received the supplementary report of the board appointed by him to investigate the circumstances connected with the explosion of a locomotive boiler at Ringwood. In their first report the board did not attach blame to anyone. Mr Richardson felt satisfied that the responsibility of having the engines properly inspected and overhauled periodically could be fixed if the inquiry were extended. He therefore referred the matter again to the Board, who took further evidence. In the report now furnished, the Board hold Loco. Inspector Thompson blameable, but point out as a mitigating circumstance that he had not received "written instructions" respecting inspections and overhauls. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 7 July 1894, page 32 The Ringwood Boiler Explosion. The Minister of Railways takes exception to the tone of a paragraph appearing in a morning contemporary respecting the Ringwood boiler explosion. It makes it appear that Mr Richardson has referred the report of the board which considered the facts connected with the explosion to the Crown solicitor simply because he differed from the finding of the board. The Minister explains that when he received the report he found that the responsibility for having boilers properly inspected and overhauled had not been clearly fixed. He personally obtained farther evidence on that point, and arrived at a conclusion, from which the commissioners differed. As he did not like to take upon himself the responsibility of deciding upon the effect of the evidence, he submitted the matter to the Crown Solicitor, but that officer did not furnish him with the information sought. He has, therefore, referred the question to the Attorney-General, together with the draft of a regulation respecting boiler inspections and overhauls in the future. Mr Richardson says that his whole aim is to have the responsibility positively fixed. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 28 April 1894, page 23 The Minister of Railways has completed his consideration of the supplementary report received by him from the Ringwood Boiler Explosion Board. The report, it will be remembered, held Loco-Inspector Thompson blameable for the non-inspection of the boiler, but considered there was extenuating circumstances. There was a certain amount of doubt as to the absolute instructions given for overhauling engines periodically. Mr. Richardson is sending the report on to the Commissioners with instructions that the responsibility respecting inspection of boilers shall be made clear for the future. -
Cheese World Museum
Centrifuge, manual, c1890
The Uebergang family came from Silesia to Australia in 1848 and were early settlers in the Allansford area. The sons and other descendants also purchased farms in the area. The Percy Uebergang family lived at Tooram Park, Allansford from 1912 until 1992. Percy and Myrtle Uebergang's children were twins, Ray and Joyce born in 1926 who lived at Tooram Park until their deaths, Ray in 1986 and Joyce in 1992 after which the property was sold. Neither Ray nor Joyce married and following the death of her brother Joyce set up the Ray and Joyce Uebergang Foundation which supports the local community. The collection of items from their property was put into store for a number of years before being given into the care of the Cheese World Museum. The family often re-used, recycled and repaired items and examples can be seen in the museum. This Babcock tester is part of the collection of items given into the care of the Cheese World Museum. The Babcock tester was used to determine the butter fat content in milk. Prior to the use of the Babcock test farmers were paid on volume and milk was sometimes watered down to increase the supply to the factory. Once the Babcock test was introduced it provided a consistent means of paying farmers for milk supplied to the factory. The Babcock tester is significant as a scientific means of testing fat content of milk and the subsequent consistent payment mechanism to farmers. This test also provided a means for farmers to identify poor performing cows and upgrade the quality of their herd and subsequent milk supply to the factory.Four tipping metal testing tubes which revolve on a brass base. A winding handle has a wooden grip. The base and arms holding the metal tubes is painted red.OFFICIAL BABCOCK TESTERallansford, dairy farming, dairy industry, dairy processors, babcock test -
Flagstaff Hill Maritime Museum and Village
Furniture - Chair, Harnisch & Co, 1876-1918
The design of this pair (RN 758 & 759) is based on Thonet’s No. 18 chair, which was originally produced in 1876 by Thonet, and is still one of the best-selling designs for café and restaurant owners. It is elegant, sophisticated and durable. The label notes the design as “AUS MASSIV GEBOGENEM HOLZE vorm” which translates to “solid curved sandals shape”, a good description for the back of the chair. The chairs have marks, paper labels and symbols on them that show that the maker was Harnisch & Co., Neuschler (also called Banská Bystrica) Furniture Factory in Neuschol (Beszterczebanya), Hungary, privileged makers for the Imperial and Royal Austrian-Hungarian Empire 1867 – 1918. Bentwood chairs are made by a process of wetting wood in water, bending it into curved shapes, then allowing it to dry so that the shape becomes permanent. This process originated by Michael Thonet, who had been given the right to bend wood into desired curves by the Austrian Courts in 1842. In 1856 he was granted a 13 year patent to manufacture chairs and table legs of bent wood treated by steam or boiling water. In 1859 his company Gebruder Thonet produced his original design. Thonet’s early designs also featured hand carved or laminated wooden seats. His Model No. 14 produced in the 1850’s, was his most popular design. After Michael’s death in 1871 the family went on designing and producing chairs. The No. 18 chair was produced in 1876, one of a group of chars with back inserts consisting of curves and loops of bentwood. The popularity of the Bentwood chair, even now, is due to its versatility and timeless quality. Its style, whether varnished or painted, suits any room in the house. The lightweight chairs are also popular for café and restaurant seating, as well as for public gatherings. They can be easily moved around and grouped in a variety of ways to suit any occasion.Chair, bentwood, 'French Bistro Chair' with pattern carved in seat. Backrest has inverted U shape inside that extends to the seat. Supports on eitherside of backrest's base join to back of seat. Legs have a wooded bracing ring. Marks; pressed into rim under seat. Paper label, cream with black print, on rim. Right side of label has symbol of Heraldic Shield. Text on label. Made by Harnisch & Co.Marks; pressed into rim under seat is "3" and "4", and "Crown [over] N", Paper label, cream with black print, on rim; Left side has Mark “N inside circle under crown”. Right side has symbol of Heraldic Shield. Text on label “Trade – K.u.K.- Mark / NEUSOHLER FABRIK FUR MOBEL/ AUS MASSIV GEBOGENEM HOLZE, vorm. HARNISCH & Co / NEUSOHL (BESZTERCaZEBANYA) UNGARN ' Hand written under seat "T H" in black paint, "T H " in white chalk. flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, bentwood chair, café chair, restaurant chair, meeting hall chair, thonet design chair, harnisch & co, k.u.k., neusohler fabrik fur nobel, approved manufacturer, neusohl (besztercazebanya) ungarn -
Flagstaff Hill Maritime Museum and Village
Domestic object - Kettle, T & C Clarke and Co Ltd, 1880 to 1900
T. & C. Clark & Company Limited was based at Shakespeare Foundry in Wolverhampton England and was founded in 1795 by Thomas and Charles Clark. The company grew to be one of the largest iron foundries in Wolverhampton and were pioneering in the manufacture of enamelled cast iron cookware and sanitary wares. The company's product range included thousands of items, both domestic and industrial. T. & C. Clark were pioneers in the use of enamelled cast ironware, after taking out a patent in 1839 guaranteeing their products to be free of lead or arsenic. The company became the largest employer in Wolverhampton employing between 600 to 700 people.The item is significant as it was used as a domestic kitchen item to boil water safely without the concern that the metal may contain lead or arsenic as earlier cooking utensils had.Kettle, cast iron ware, black with some rust. . With lid of questionable origin. Made by "T & C Clark "C" inside 6 pointed star, England RD 665875 3 quarts No 3 First Quality"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Flagstaff Hill Maritime Museum and Village
Oar, early 20th century
This oar is from the Lifeboat Warrnambool, which is on sit at Flagstaff Hill Maritime Village. The construction of the lifeboat ‘Warrnambool’ began 15th September 1909 and was completed almost 12 months later, 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by the Great Britain’s Royal Lifeboat Institution, and included whaleback decks fore and aft, mast and centreboard, and rudder and tiller hung from the sternpost. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. The boat was described as “… a fine piece of workmanship and does credit to her builders and designers…” It had all the latest improvements in shape, disposition of weight and watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat’s construction are pencilled on the raw timber 'plaque' found in the hull in the early 1990’s when the lifeboat was being restored. It is interesting that the ‘Melbourne Directory’ of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, (Victorian Heritage Database, ‘Contextual History, Maritime Facilities’), It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill’s documentation also mentions that the keel was laid at ‘Harry Myers, boat builders, Williamstown, Melbourne’ – the name ‘Myers’ can also be spelled ‘Meiers’, which could be the same person as the Meiers in “McAuley and Meiers” (as mentioned in genealogy lines of Myers). The new lifeboat, to be named ‘Warrnambool’ was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. A winch was used to bring it in and out of the water. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, build and sea-going qualities such as greater manoeuvrability. The ‘self-righting, self-draining’ design was “practically non-capsizeable” and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has “… plenty of freeboard, high watertight spaces between the deck and bottom… through which pipes lead…” The backbone timbers were made of Jarrah. The lifeboat Warrnambool was one of several rescue boats used at Port Fairy and Warrnambool in early 1900's. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares, and were able to discover the body of one of the crewmen, which they brought back to Warrnambool. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be manned by a strong and competent crew, ready for action in case of emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River, bolted to the Port Fairy lifeboat. Flagstaff Hill obtained the Warrnambool in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990 she was lifted from the water and placed in a cradle for restoration. The name ‘WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The oar is significant for its association with the lifeboat WARRNAMBOOL, which is significant for its half century service to the local community as a lifesaving vessel. She was also used to help retrieve the body of a shipwrecked crew member of the ANTARES. Large wooden oar, shaped two handgrip with tapering shaft to large flattened blade, (2) copper reinforcing strips on blade. Sweep oar is from the Lifeboat Warrnambool. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, oar, lifeboat warrnambool, sweep oar