A steam boiler like this one, made in the late 18th century, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This boiler is a fire tube type, in which the heat from the fire travels through the tubes and water circulates around them. Another kind of boiler is a water tube boiler, in which the water is inside the tubes and the heat of the combustion surrounds the tubes. The boiler in our collection burned wood as fuel but others of this design could also burn coal, coke, gas and liquid fuels. The boiler was made by T & F Johnson, boilermakers. In 1922 their factory was located at Coventry Street, South Melbourne. They were still advertising their 'Colonial, multi, vertical boilers, all sizes' at the same address in 1934. The connected pressure gauge, made in London by Dewrance, measures 0 to 400 pounds per square inch. John Dewrance is renowned as a pioneer of the steam locomotive in the early 19th century. He founded John Dewrance & Co. in South London in 1844. His son Sir John Dewrance took over in 1879. In 1939 the company became a subsidiary of Babcock & Wilcox, and was eventually owned by Emerson. How the boiler works: - A boiler is about two-thirds filled with water and heat is applied, in this case in the form of burning wood. The heat is transferred through the metal of the boiler to the water. When the water boils the steam rises to the top, and as it escapes from the boiler the steam pressure builds up in the steam space to later be released to do work; drive machinery such as ship and train engines, turbines, presses, wheels, and driving belts to operate looms and saws. The heat associated with the boiler can be used for preserving food, sterilising, factory manufacturing processes, and steaming wood for shipbuildin. Every boiler has several components fitted for safe operation: - - Safety valves - Gauge glass - Pressure gauge - Main steam stop valve - Water check valve - Blowdown valve - Manhole doorThe boiler is a significant item that gives us a snapshot of early Melbourne's industrial history. It is an example of the technological advancement during the Industrial Revolution where steam-driven machinery and motors could perform tasks more efficiently than manual labour. The makers were one of many boilermaker businesses in Melbourne during the early late-19th andearly 20th centuries. The maritime trade and skills of boilermaking are still learned and applied today. The Dewrance steam pressure gauge connected to the boiler was made by the London firms foundered by John Dewrance. He was renowned for developing the steam locomotive in the early 19th century.Boiler; a horizontal cylindrical underfired steam boiler. It is a multi-tubular design and is timber plank-clad, with brass fittings and pressure gauges. The boiler has an iron door at one end with a metal chimney above it. It is installed over a brick-enclosed solid fuel furnace. Two large, wood-mounted pressure gauges are connected to the boiler and have inscriptions. An inscription is on a red, cast iron plaque above the boiler door. The boiler's maker is T & F Johnson, South Melbourne. One of the pressure gauges was made by Dewrance, London..Maker's plate: "T & F JOHNSON / BOILERMAKERS / SOUTH MELBOURNE" Pressure gauge: "POUNDS PRESSURE / PER [square] INCH / DEWRANCE LONDON"flagstaff hill, warrnambool, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, boiler, multi tube boiler, steam boiler, steam technology, underfired boiler, horizontal boiler, timber clad boiler, steam power, industrialisation, boilermakers, south melbourne, dewrance, john dewrance, pressure gauge, dewrance pressure gauge, t & f johnson, london, steam engine, steam locomotive, pounds per square inch, 19th century, steam machine

Steering Gear Operation: All steering was done from the stern of the ship and a steering mechanism was used to connect the rudder to the ship's wheel, often housed in a box-like construction behind the helm. The rudder was, in turn, mounted on a pintle or stern-post held in place by gudgeon's (sockets). The steering was activated with lines attached to the blocks on the two threads (half left hand, half right hand) of the steering gear. As the helmsman turned the helm in the direction in which he wished the ship to travel, the central screw of the steering gear, which was attached to the back of the helm, turned horizontally. This caused the rods on either side of the gear to move backwards or forwards at the same time, which then turned the pintle and rudder to port or starboard. A brief history of the Newfield (1889-1892): - The Newfield was an iron and steel sailing barque of 1306 tons, built in 1889 by Alexander Stephen & Sons Dundee (Yard No 89) for Brownelles & Co., Liverpool. The Newfield was on a voyage from Sharpness to Brisbane on 29 August 1892, with a cargo of 1850 tons of fine rock salt. The Cape Otway light had been sighted in squally, bumpy weather, but the captain was under the impression it was the King Island light. The ship’s chronometers were wrong, and orders were given to tack the ship away from the light, which headed it straight for the cliffs of the Victorian coast. The vessel struck rocks about 100 yards from shore, and five feet of water immediately filled the holds. The captain gave orders to lower the boats which caused a disorganised scramble for safety among the crew. The panic resulted in the deaths of nine men, including the captain when they drowned after the boats capsized in heavy seas. The seventeen men who regained the ship decided to wait until daylight and rowed to Peterborough in the ship’s jolly boat and gig after locals had failed to secure a rocket apparatus line to the ship. The Marine Board inquiry found the wreck was caused by a "one-man style of navigation" and that the captain had not heeded the advice of his crew.The Newfield wreck and its collection of recovered items are heritage listed and are regarded as historically significant. They represent aspects of Victoria’s shipping history and their potential for us today to interpret the maritime history and social themes of the time. The assemblage of various Newfield artefacts held in the Flagstaff Hill Museum is not only significant for its association with the shipwreck but helps archaeologists when examining the relationship between the objects to better understand our colonial marine past.Ship’s steering gear, cast iron, consists of a long round metal rod into which gears have been machined. The thread of the gear from one end to almost the centre winds in a left hand direction while the thread of the gear from the other end to almost the centre winds in the right hand direction. Each end of the rod has a metal coupler attached and two narrower round rods are also attached to the coupling, one each side of the gear rod, the same length as it and parallel to it. Two more ‘S’ shaped couplers are joined to the gear rod. Each of these have an opening through which the gear rod is threaded and can move along. There is another opening in these couplers through which one of the narrower rods is threaded. The other end of this coupler has half length metal rod attached to it by a bolt through the ring at the end of the rod. One end of the steering gear still has the brass hub of the ship’s wheel solidly attached. The hub no longer has its wooden spokes but the ten holes for the spokes can be easily recognised.Noneflagstaff hill, maritime museum, shipwreck coast, warrnambool, peter carmody, carmody, newfield, shipwreck, peterborough, south west victoria, rocket, rocket crew, shipwreck artefact, flagstaff hil maritime museum, steering, steering gear, screw steering gear, sailing ship

These remains of a block, shackle and wire are from the sailing ship Newfield. This would have been one of the hundreds of blocks and shackles used in the rigging of the vessel. The Newfield was a three-masted iron and steel barque, built in Dundee, Scotland, in 1869 by Alexander Stephen and Sons. It was owned by the Newfield Ship Company in 1890 and later that year It was registered in Liverpool to owners Brownells and Co. The Newfield left Sharpness, Scotland, on 28th May 1892 with a crew of 25 under the command of Captain George Scott and on 1st June left Liverpool. She was bound for Brisbane, Australia, with a cargo of 1850 tons of fine rock salt. On the night of 28 August 1892, the Captain mistook the Cape Otway light for that of Cape Wickham (King Island) and altered tack to the north and east putting the vessel on a collision course with the Victorian coast. At around 3:40 am the Newfield struck rocks about 100 yards from shore, and 5 feet of water filled the holds immediately. The captain gave orders to lower the boats which caused a disorganised scramble for safety among the crew. The starboard lifeboat was cleared for lowering with two seamen and two apprentices in her, but almost as soon as she touched the water she was smashed to bits against the side of the vessel, and only one of the four reached safety ashore, able seaman McLeod. The rough sea made the job of launching lifeboats very difficult. The first two lifeboats launched by the crew were smashed against the side of the ship and some men were crushed or swept away. The third lifeboat brought eight men to shore. It capsized when the crew tried to return it to the ship for further rescue The rescue was a difficult operation. The Port Campbell Rocket Crew arrived and fired four rocket lines, none of which connected with the ship. Peter Carmody, a local man, volunteered to swim about one mile offshore to the ship with a line to guide the fourth and final lifeboat safely to shore. He was assisted by James McKenzie and Gerard Irvine. Seventeen men survived the shipwreck but the captain and eight of his crew perished. The Newfield remained upright on the reef with sails set for a considerable time as the wind slowly ripped the canvas to shreds and the sea battered the hull to pieces. The Marine Board inquiry found the wreck was caused by a "one-man style of navigation" and that the Captain had not heeded the advice of his crew. For his heroic efforts, Peter Carmody was awarded the Bramley-Moore medal by the Liverpool Shipwreck and Humane Society for Saving Life at sea on January 21st 1893. The medal and a letter of congratulations were donated to Flagstaff Hill Maritime Museum by Peter Carmody's granddaughter Norma Bracken and her son Stuart Bracken on 25th May 2006. Flagstaff Hill’s collection of artefacts from the Newfield is significant for its association with the shipwreck Newfield, which is listed on the Victorian Heritage Registry. The collection is additionally significant because of the medal awarded to a local man Peter Carmody. The Newfield collection historically also represents aspects of Victoria's shipping history and its association with the shipwreck.This is what remains of a block, shackle and wire from the wreck of the sailing ship “Newfield”. The object is heavily encrusted. The exterior (cheeks) of the block is missing. The disc of the block has a channel part way around its face, about 2 cm from the edge. Two long, narrow plates are joined onto the centre of the disc’s face with a bolt through the centre. The other ends of the two plates join onto the elbow of the shackle. The elbow of the shackle is also joined onto a rod. At the other end of the rod can be seen the ends of thick wire strands.block, 1893, flagstaff hill, flagstaff hill maritime museum, peter carmody, newfield, 1892, port campbell, shipwreck, ship, victorian shipwrecks, barque, ship wreck, peterborough, sailing ship, 29 august 1892, block and shackle, curdies river, bramley-moore medal

This large brass porthole is from the sailing ship Newfield this would have been one of the many port holes in the vessel used for light and ventilation. The Newfield was a three-masted iron and steel barque, built in Dundee, Scotland, in 1869 by Alexander Stephen and Sons. It was owned by the Newfield Ship Company in 1890 and later that year It was registered in Liverpool to owners Brownells and Co. The Newfield left Sharpness, Scotland, on 28th May 1892 with a crew of 25 under the command of Captain George Scott and on 1st June left Liverpool. She was bound for Brisbane, Australia, with a cargo of 1850 tons of fine rock salt. On the night of 28 August 1892, the Captain mistook the Cape Otway light for that of Cape Wickham (King Island) and altered tack to the north and east putting the vessel on a collision course with the Victorian coast. At around 3:40 am the Newfield struck rocks about 100 yards from shore, and 5 feet of water filled the holds immediately. The captain gave orders to lower the boats which caused a disorganised scramble for safety among the crew. The starboard lifeboat was cleared for lowering with two seamen and two apprentices in her, but almost as soon as she touched the water she was smashed to bits against the side of the vessel, and only one of the four reached safety ashore, able seaman McLeod. The rough sea made the job of launching lifeboats very difficult. The first two lifeboats launched by the crew were smashed against the side of the ship and some men were crushed or swept away. The third lifeboat brought eight men to shore. It capsized when the crew tried to return it to the ship for further rescue The rescue was a difficult operation. The Port Campbell Rocket Crew arrived and fired four rocket lines, none of which connected with the ship. Peter Carmody, a local man, volunteered to swim about one mile offshore to the ship with a line to guide the fourth and final lifeboat safely to shore. He was assisted by James McKenzie and Gerard Irvine. Seventeen men survived the shipwreck but the captain and eight of his crew perished. The Newfield remained upright on the reef with sails set for a considerable time as the wind slowly ripped the canvas to shreds and the sea battered the hull to pieces. The Marine Board inquiry found the wreck was caused by a "one-man style of navigation" and that the Captain had not heeded the advice of his crew. For his heroic efforts, Peter Carmody was awarded the Bramley-Moore medal by the Liverpool Shipwreck and Humane Society for Saving Life at sea on January 21st 1893. The medal and a letter of congratulations were donated to Flagstaff Hill Maritime Museum by Peter Carmody's granddaughter Norma Bracken and her son Stuart Bracken on 25th May 2006. Flagstaff Hill’s collection of artefacts from the Newfield is significant for its association with the shipwreck Newfield, which is listed on the Victorian Heritage Registry. The collection is additionally significant because of the medal awarded to a local man Peter Carmody. The Newfield collection historically also represents aspects of Victoria's shipping history and its association with the shipwreck.Heavily encrusted large brass porthole, complete with glass intact object is a circular, thick glass window surrounded by a round brass frame and attached to a round brass porthole frame with 9 bolt holes. This porthole was recovered from the wreck of the NEWFIELD.Nonewarrnambool, peter carmody, newfield, port campbell, shipwreck, nineteenth century, ship, victorian shipwrecks, peterborough, peter ronald, dog screw, newfield porthole, bramley-moore medal, flagstaff hill maritime museum, shipwreck artefact, ship fitting, ship window

This skylight frame would have been fitted on the Newfield’s poop deck (or raised deck that forms the roof of a cabin at the aft or rear of the ship). It would have covered and protected a glass pane that allowed light to enter the area below desk. The glass pane from the skylight is missing. The Newfield was a three-masted iron and steel barque, built in Dundee, Scotland, in 1869 by Alexander Stephen and Sons. It was owned by the Newfield Ship Company in 1890 and later that year It was registered in Liverpool to owners Brownells and Co. The Newfield left Sharpness, Scotland, on 28th May 1892 with a crew of 25 under the command of Captain George Scott and on 1st June left Liverpool. She was bound for Brisbane, Australia, with a cargo of 1850 tons of fine rock salt. On the night of 28 August 1892, the Captain mistook the Cape Otway light for that of Cape Wickham (King Island) and altered tack to the north and east putting the vessel on a collision course with the Victorian coast. At around 3:40 am the Newfield struck rocks about 100 yards from shore, and 5 feet of water filled the holds immediately. The captain gave orders to lower the boats which caused a disorganised scramble for safety among the crew. The starboard lifeboat was cleared for lowering with two seamen and two apprentices in her, but almost as soon as she touched the water she was smashed to bits against the side of the vessel, and only one of the four reached safety ashore, able seaman McLeod. The rough sea made the job of launching lifeboats very difficult. The first two lifeboats launched by the crew were smashed against the side of the ship and some men were crushed or swept away. The third lifeboat brought eight men to shore. It capsized when the crew tried to return it to the ship for further rescue The rescue was a difficult operation. The Port Campbell Rocket Crew arrived and fired four rocket lines, none of which connected with the ship. Peter Carmody, a local man, volunteered to swim about one mile offshore to the ship with a line to guide the fourth and final lifeboat safely to shore. He was assisted by James McKenzie and Gerard Irvine. Seventeen men survived the shipwreck but the captain and eight of his crew perished. The Newfield remained upright on the reef with sails set for a considerable time as the wind slowly ripped the canvas to shreds and the sea battered the hull to pieces. The Marine Board inquiry found the wreck was caused by a "one-man style of navigation" and that the Captain had not heeded the advice of his crew. For his heroic efforts, Peter Carmody was awarded the Bramley-Moore medal by the Liverpool Shipwreck and Humane Society for Saving Life at sea on January 21st 1893. The medal and a letter of congratulations were donated to Flagstaff Hill Maritime Museum by Peter Carmody's granddaughter Norma Bracken and her son Stuart Bracken on 25th May 2006. Flagstaff Hill’s collection of artefacts from the Newfield is significant for its association with the shipwreck Newfield, which is listed on the Victorian Heritage Registry. The collection is additionally significant because of the medal awarded to a local man Peter Carmody. The Newfield collection historically also represents aspects of Victoria's shipping history and its association with the shipwreck.Skylight, frame only. The heavily encrusted brass framework has eight bolts around the long side, and four metal bars forming two ‘v’ shapes across the centre. The frame is, slightly concave towards the inner side. The shorter ends of the frame each have a ‘U’ shaped bracket attached in the centre. The shorter ends are wider on one end and taper towards the other end to about a quarter of the thickness. The frame was recovered from the wreck of the NEWFIELD.Noneflagstaff hill maritime museum, newfield ship wreck, alexander stephen & sons, brownells & co, captain george scott, great ocean road ship wreck, peter carmody, bramley-moore medal, liverpool shipwreck and humane society, skylight cover, skylight frame, ship fitting, light cover, newfield

This sheath knife belonging originally to German seaman Julius Gebauhr and an artifact associated with the story of the survivors of the wreck of Fiji. A three-masted iron barque Fiji had been built in Belfast, Ireland, in 1875 by Harland and Wolfe for a Liverpool based shipping company. The ship departed Hamburg on 22nd May 1891 bound for Melbourne, under the command of Captain William Vickers with a crew of 25. The ship’s manifest shows that she was loaded with a varied cargo consisting of cases of dynamite, pig iron, steel goods, various spirits, sailcloth, tobacco, coiled fencing wire, concrete, 400 German pianos and other musical instruments. On September 5th, one hundred days out from Hamburg in a squally and boisterous south-west wind, the Cape Otway light was sighted on a bearing differing from Captain Vickers' calculation of his position. At about 2:30 am, Sunday 6th September 1891 land was reported 4-5 miles off the port bow. The captain tried to put the ship on the other tack, but she would not respond. He then tried to turn her the other way but just as the manoeuvre was being completed Fiji struck rock only 274 meters from shore. The place is known as Wreck Bay, Moonlight Head. Efforts were made to lower boats but all capsized or became swamped two of the younger crewmen volunteered to swim for the shore, taking a line. One, a Russian named Daniel Carkland, drowned after the line broke. The other, 17-year-old able seaman Julius Gebauhr, a German, reached shore safely on his second attempt without a line, which he had cut loose with his sheath-knife when it becomes tangled in kelp. He rested on the beach a while then climbed the cliffs in search of help. At about 10 am on Sunday a party of land selectors including F. J. Stanmore, Leslie Dickson found Gebauer. They were on their travels back from Princetown towards Moonlight Head. Gebauer was lying in the scrub in a poor state, bleeding and dressed only in a singlet, socks, belt and his sheath-knife. His rescues gave him food and brandy and some clothing and gain information about the wreck. Some of the men took him to Rivernook, a nearby guest house owned by John Evans, where he was cared for. Stanmore and Dickson rode off to try and summon help. Messages for rescuing the rest of the crew were sent both to Port Campbell for the rocket rescue crew and to Warrnambool for the lifeboat. The S.S. Casino sailed from Portland towards the scene. After travelling the 25 miles to the scene, half of the Port Campbell rocket crew and equipment arrived and was set up on the beach below the cliffs. By this time the crew of Fiji had been clinging to the jib-boom for almost 15 hours. Mr Tregear from the Rocket Crew fired the line the light line broke and the rocket was carried away. A second line was successfully fired across the ship and made fast. The anxious sailors then attempted to come ashore along the line but, as many as five at a time, however, some were washed off. Only 14 of the 24 men who had remained on the ship made it to shore. Many onlookers on the beach took it in turns to go into the surf and drag half-drowned seamen to safety. The wreck of Fiji has smashed apart within 20 minutes of the last man being brought ashore, and it settled in about 6 m of water. Of the 26 men on Fiji, 11 in total lost their lives. The remains of 7 bodies were washed onto the beach. They were buried on the clifftop above the wreck. Captain Vickers was severely reprimanded for his mishandling of the ship and his Masters Certificate was suspended for 12 months. At the time there was a great deal of public criticism at the slow and disorganised rescue attempt to save those on board. The important canvas ‘breech buoy’ or ‘bucket chair’ and the heavy line from the Rocket Rescue was in the half of the rocket outfit that didn’t make it in time for the rescue: they had been delayed at the Gellibrand River ferry. Communications to Warrnambool were down so the call for help didn’t get through on time and the two or three boats that had been notified of the wreck failed to reach it in time. Captain Vickers presented Bill Robe who had dragged the captain out of the surf with his silver cased pocket watch, the only possession that he had left, as a token for having saved his life and the lives of some of the crew. Years later Bill passed the watch to his brother in law Gilbert Hulands as payment of a debt. Since that time it has been passed down the family to Gilbert Hulands’ grandson, John Hulands. Seaman Julius Gebauhr later gave his knife, in its hand crafted leather sheath, to F. J. Stanmore for caring for him when he came ashore. The knife handle has a personal inscription on it. A marble headstone on the 200 m high cliffs overlooking Wreck Beach, west of Moonlight Head, paying tribute to the men who lost their lives when Fiji ran aground. The scene of the wreck is marked by the anchor from the Fiji, erected by Warrnambool skin divers in 1967. Amongst the artefacts salvaged from the Fiji are china miniature animals, limbs from small china dolls, rubber balls, a glass bottle, sample of rope from the distress rocket and a candlestick holder. These items are now part of the Fiji collection at Flagstaff Hill Maritime Museum, along with this sheath knife and Captain Vickers’ pocket watch. Flagstaff Hill’s collection from the wreck of the Fiji and Julius Gebauhr knife is of historical significance at a State level because of its association with the vessel, which is on the Victorian Heritage Register (VHR S 259). The Fiji is archaeologically significant as the wreck of a typical 19th-century international sailing ship with cargo. It is educationally and recreationally significant as one of Victoria's most spectacular historic shipwreck dive sites with structural features and remains of the cargo still evident. Also the story of the heroic attempt by many to save the crew of the Fiji. The knife also represents an aspect of shipping history and fits in well with Victoria's framework of historical themes of living with natural processes as items such as these contribute to a better understanding of Victoria’s cultural history.Knife, metal with black wooden handle. Handle is riveted to knife in 3 places, with shaft of knife between the 2 parts of the handle. The handle also has a carved ring around the end, possibly for attaching a wrist strap. Knife blade is pointed in the centre of the tip and is rusty. The knife has a rectangular metal plaque on handle with inscription. The hand crafted dark brown, soft leather sheath is shaped to fit the knife and joined at the back with cross stitching. The sheath also has a leather belt strap that has come away from the sheath at one end.Metal plaque “FROM JULIUS GEBAUHR/”FIJI” /TO F.J.S.” (F J Standmore recipient)1891, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwrecked artefact, flagstaff hill maritime village, shipwreck coast, warrnambool, knife, fiji, pocket watch, moonlight head, gebauhr, stansmore, wreck bay, sheath knife

This lifebuoy is part of the lifesaving equipment that would be carried on vessels in the late 19th and early 20th century. The strips of cork wood have been joined together to make the ring shape. The broad arrow symbol indicates that it was once the property of the British or Australian defence force. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria. The lifebuoy was once the property of the British or Australian defence force.Lifebuoy, round cork object with canvas wrapped around it and rope attached to one side. Broad arrow mark and other red marks indecipherable. Painted white.Symbol of broad arrow. indecipherable markings.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, government lifebuoy, broad arrow

This lifebuoy is part of the lifesaving equipment that would be carried on vessels in the late 19th and early 20th century. The strips of cork wood have been joined together to make the ring shape. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria.Lifebuoy, round cork object covered with white stiffened material wound around it. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifebuoy, life rings, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment

This lifebuoy is part of the lifesaving equipment that would be carried on vessels in the late 19th and early 20th century. The strips of cork wood have been joined together to make the ring shape. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria.Lifebuoy, round cork object with no covering. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment

This lifebuoy is part of the lifesaving equipment that would be carried on vessels in the late 19th and early 20th century. The strips of cork wood have been joined together to make the ring shape. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria.Lifebuoy; round, cork filling of lifebuoy. The nails joining the layers are visible. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment

This lifebuoy is part of the lifesaving equipment that would be carried on vessels in the late 19th and early 20th century. The strips of cork wood have been joined together to make the ring shape. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria.Lifebuoy, round cork filling inside white canvas cover with four reinforced bands. Four ropes are attached.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment

Shaving soap scuttles are distinguished from shaving mugs by having a separate area for hot water. The hot water is for dipping a shaving brush into to make a lather with the soap which is then applied to the skin before using the razor. Vintage scuttles are often elaborately decorated. Between 1880 and 1920 is the original time period for the occupational shaving mug. Most men owned a shaving mug, either at home or at a barber shop. Mugs purchased for home use typically were purchased through local stores, had more variety in style but usually went without a name. Barber shops sold mugs with the owners’ names on them partly because they thought that shaving rash came from sharing the same soap. In reality, the rash was not a result of soap but of unsterilized razors. Transfer ; The Duryea Motor Wagon was among the first standardized automobiles and among the first powered by gasoline. Fifteen examples were built by the Duryea Motor Wagon Company of Chicopee, Massachusetts, between 1893 and 1896. Their enterprise followed the first commercially available automobile which was patented by Karl Benz on January 29, 1886, and put into production in 1888. The Duryea Motor Wagon remained in production until 1917. The Duryea brothers entered their horseless carriage in many shows and races. A china shaving mug / scuttle with a car transfer. The mug has a wide spout to hold / insert the shaving brush , a perforated tray opening at the top to hold the soap and a bulbous base for the hot water. car transfershaving equipment, safety razors, cheltenham, early settlers, moorabbin, shaving soap sticks, shaving brushes, shaving scuttles, shaving rash, infectious diseases, barber shops,

This lifebuoy is part of the lifesaving equipment from the sailing ship the Falls of Halladale. It is filled with cork and covered with canvas and reinforcing bands. The name of the ship and its origin is printed on the lifebuoy. It has been sealed with several coats of white paint. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The Falls of Halladale 1886-1908 The vessel ‘Falls of Halladale’ was a four-masted iron-hulled barque, launched in July 1886, by Russell & Co of Greenock, Scotland and owned by the Glasgow Falls Line, which named its ships after Scottish waterfalls. The ship was built for long distance cargo trade. The Falls of Halladale was one of the last windjammers that sailed the Trade Route. The ship was on its way from New York to Melbourne via the Cape of Good Hope when, after 102 days at sea, its journey suddenly ended. During the night of November 14, 1908, in calm seas with some coastal fog, an ocean swell raised the vessel up then let it down on a submerged reef wrecked at Curdies Inlet, Peterborough. The ship was stranded and the Port Campbell Rocket Crew were sent for, to perform a rescue. However by the time they arrived, all on board had already travelled by lifeboat to the nearby beach at the Bay of Islands. The sight of the slowly disintegrating ship on the rocks attracted many sightseers. This lifebuoy is significant for its association with the famous ship the Falls of Halladale. It is significant for its association with lifesaving equipment used on board vessels in the early 20th century. The Falls of Halladale shipwreck is listed on the Victorian Heritage Register (No. S255). She was one of the last ships to sail the Trade Routes. She is one of the first vessels to have fore and aft lifting bridges. She is an example of the remains of an International Cargo Ship and also represents aspects of Victoria’s shipping industry. The wreck is protected as a Historic Shipwreck under the Commonwealth Historic Shipwrecks Act (1976).Lifebuoy; round white canvas ring, joined with hand stitching. Stencil with inscription is printed in black on first and third quadrant. The canvas has been repainted in white but avoiding the inscription in the lifebuoy. A hanging board for display is attached with white rope. Lifesaving equipment from the Falls of Halladale.“FALLS OF HALLADALE” “GLASGOW”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, falls of halladale, glasgow falls line, rocket crew, lifeboat, peterborough

This boat hook head is in very good condition and has been manufactured. It would be attached to a pole or handle to give it a long reach. A boat hook is a common piece of marine equipment and many have been made by boat owners to suit their own purpose. They would also have been forged byblacksmiths and shipsmiths and have been available from ship's chandlers over the centuries. A boat hook can be used for many situations such as catching mooring ropes and chains, reaching rigging, pulling things or people out of the water, and a variety of fishing applications.This boat hook head is an example of equipment carried on vessels over hundreds of years for safety purposes and for general applications. Marine boat hook head, all brass. The body is a conical shape with a pointed end and curved, horn-shaped hook moulded into the side. The body is hollow until it reaches the hook's height. A screw hole is close to the base, in line with the hook.flagstaff hill, warrnambool, maritime village, maritime museum, shipwreck coast, great ocean road, boat hook, marine, fishing, boating, equipment, boat hook head, rigging, safety equipment

Product of locomotive firebox company - glossy printed brochure Circ 1931. Title 'Syphon Safety from boiler explosions caused by low water' advert for the Thermatic Syphon.document, memo, railway, (x ref 1325.39) locomotive firebox company / thermatic syphon

Commonly known as Miner's Complaint, silicosis, tuberculosis or a combination of both resulted in phthisis. This was directly caused by the inhalation of silica dust resulting from drilling into quartz reefs. Lungs weakened by silicosis were more susceptible to the TB bacterium. At first the difference between these two ailments was unknown as was the mode of the spread of TB. In 1903 there was a call for better ventilation in mines and for the use of water hoses to dampen down the dust. It is estimated that the rate of associated deaths in Bendigo was six times that of the national average.A 12 page paper by Frank Cusack detailing the extreme rates of death by Silicosis and Tuberculosis among the early settlers of Bendigo and the willful lack of action by the mine managers to improve health and safety.frank cusack, silicosis, tuberculosis, bendigo mining

A damaged blue account by The Department of Goldfields at Hepburn made out to the McKinnon Brothers. Goods sold were fuel, light and water and were valued at One pound and ten shillings. Signed by Lachlan McKinnon. Signed by the Head of the Department. Dated 1857.Stamp of Royal Historical Society 1960 Bendigo Branch 228gold mining, miners' safety cage, lydia chancellor, collection, mining, the department of goldfields, account, sales, commerce, energy, gold mining

“Sundial 2hp engine, open crank, 600rpm, serial number 6420.” These small 4 stroke engines were widely used on Australian farms through the 20th century to power chaffcutters, grinders, saws, lighting plants, pumps, shearing plants, milking machines and cream separators easing much of the drudgery of farm work. They were also used in garages and workshops and by bush fire brigades. The engine was made by H.V.McKay Massey Harris. At one time Hugh Victor McKay’s Sunshine Harvester Works was the largest factory in Australia but in 1930, to ensure survival during the Great Depression, elected to merge with the Australian arm of a Canadian firm, Massey Harris. The Sundial is fitted with twin flywheels, making it a compact and convenient power source as either wheel could double as a drive wheel. Its connecting rod, crankshaft and flywheel spokes are covered, a safety measure that was not standard at the time. These engines were advertised as simple, dependable, low in price and cheap to run. They had the additional advantage that a bolt-on kit was made by the manufacturer to convert them to run on kerosene. ‘The engine's output is two horsepower (1.5 kW) at 600 rpm. The compression ratio is 5:1 and the spark plug is activated by a high tension magneto. The fuel tank holds 3.3 litres and the cooling water hopper holds 6.6 litres. Cylinder bore is 101 mm and piston stroke is 115 mm.’ In a catalogue of HV McKay Massey Harris agricultural machinery published in March 1942, the engine is described as follows: 'The cylinder head is of the hot, turbulent type, giving the finest fuel atomisation and heat distribution. The carburettor, of special design, has an automatic air valve controlling the amount of air. The supersensitive, high speed, flyball-type governor provides an ample range of speed.'Typical of units used on local farms. RepresentativeSundial 2 h.p. engine, open crank 600 rpm Seral number 6420, red. Attached to yellow grain grinderSunshine McKay, 1939 Serial no. 6420farm machinery, stationary, machine operated, belt driven

TROVE : Evening News (Sydney, NSW : 1869 - 1931), Thursday 11 October 1928, page 13. NEW COMPANIES The following new companies were registered this afternoon :- Australian Essential Oils Ltd : Nominal capital. £50,000, in 93.000 ordinary and 7,000 deferred shares at 10/-. to engage in business of distillers, manufacturers of, and dealers in oils from vegetables and other sub-stances, chemists etc. First directors: N. H.B.Keynor, R.K.Allport, E.M Humphries, and H. James. Head office Sydney. TROVE : Government Gazette of the State of New South Wales (Sydney, NSW : 1901 - 2001), Friday 26 July 1968 (No.89), page 3028 IN the matter of the Companies Act, 1961-1966, and in the matter of AUSTRALIAN ESSENTIAL OILS LTD (Receiver and Manager Appointed).—Roy Leslie Pegler, Receiver and Manager of Australian Essential Oils Ltd (Receiver and Manager Appointed)„ appointed by debenture holders on the 11 th July, 1966, hereby gives notice that any debenture holders and others having any claim against or to Australian Essential Oils Ltd (Receiver and Manager Appointed) are required to send particulars of their debenture or claim to the Receiver, Roy Leslie Pegler, at c.o. Messrs Pegler, Ellis & Co., Chartered Accountants, 235-7 Elizabeth Street, Sydney, N.S.W., on or before the 27th September, 1968, at the expiration of which time the Receiver and Manager will distribute the assets of the said Company to the persons and/or companies entitled, having regard only to the claims of which he then has notice.—Dated 24th July, 1968. PEGLER, ELLIS & CO., Chartered Accountants, 235-7 Elizabeth Street, Sydney, N.S.W. 8744—$5 White cardboard box printed in dark green with a round blue and white sticker on one side, containing a cream paper leaflet printed in dark green, wrapped around a greaseproof paper wrapped rectangular cake of translucent brown soap with impressed text on one side.Impressed on one side of the cake of soap ' A PRODUCT OF AUSTRALIAN ESSENTIAL OILS LTD SYDNEY'. On reverse of soap impressed 'TI-TROL ANTISEPTIC TOU\ILET SOAP'. Printed on the box 'TI-TROL ANTISEPTIC AND GERMICIDAL TOILET SOAP. Printed Leaflet wrapped around cake of soap 'Germicide TI-TROL Antiseptic, Toilet Soap ELEVEN TIMES MORE POWERFUL THAN CARBOLIC. NON IRRITANT ………NON POISONOUS. “Ti –Trol” GERMICIDAL ANTISEPTIC SOAP is the most modern of all toilet soap …..Distilled and manufactured by Australian Essential Oils Ltd., the pioneers of Tea-Tree Oil Industry in Australia, and manufacturers of that famous antiseptic solution Melasol. It has taken years of patient research, of test, trial and experiment to reach the pinnacle of perfection which Ti-Trol Soap is now offering to the public. Ti-Trol is a hand-made glycerine base soap in which only the finest ingredients are used. One of its most attractive features is that it contains a full three per cent. of “Ti-trol”. In medical and clinical practice, both in Australia and abroad, Ti Trol has given remarkable results…particularly in its cleansing properties: its soothing HEALING action on dirty and inflamed septic wounds. By incorporating Ti-Trol in a glycerine base soap, experts are agreed that the result….. Ti-Trol soap is unequalled-anywhere- for its soft soothing healing and germicidal properties. Ti-Trol soap is non-irritant and non-poisonous and can be used on the tenderest skins…babies’ or the most delicate peach-bloom complexions, with most excellent results. . PRODUCT OF A SOAP MAKER OF INTERNATIONAL EXPERIENCE Australian Essential Oils Ltd., have been fortunate in procuring the services of a soap-maker of International experience and world-wide knowledge of Soap Production, whose genius has produced Ti-Trol, and whose uncanny sense of blending has made Ti-Trol the most famous of all Germicidal Toilet Soaps. Ti-Trol is non-irritant and non-poisonous and has been proved by medical and specialised authorities top\ possess great healing and cleansing properties. It is a powerful Germicide and antiseptic….ELEVEN TIMES QUICKER THAN PURE CARBOLIC. . DANDRUFF CAN’T LIVE WITH Ti-Trol. Dandruff ......that horrible “give away” which many men and women suffer from…..can easily be dispelled by using Ti-Trol Soap this way : Rub a little Olive Oil into the scalp before retiring at night, and the following morning wash your head thoroughly with Ti-Trol Soap, allowing the lather to remain on the scalp for about a minute and a half. Then rinse the hair thoroughly in warm water. .WASH BRUSHES AND COMBS WITH Ti-Trol SOAP When you’ve done this and dried your hair, wash all your brushes and combs in a strong, soapy solution made with Ti-Trol Soap, and then carefully sponge the inside of the hat bands with a flannel or cloth moistened with this soapy solution. Follow these directions and you’ll never need to fear dandruff. .Ti-Trol…WONDERFUL HEALER OF CUTS. SORES, WOUNDS, ETC. There never was a more patent healer of CUTS, SORES, WOUNDS, ABRASIONS AND SEPTIC SORES than Ti-Trol… Here’s how to use it : Wash the affected parts with a fairly strong Ti-Trol soapy solution made with warm water, and then apply with lint soaked with Melasol, which is the miscible form of Ti-Trol (Melasol is obtainable at all chemists and stores everywhere). . Ti-Trol SOAP……..A DEODORANT, A BEAUTIFIER……a safeguard for tender skins Ti-Trol Soap, because of its delicate, pungent, aroma and antiseptic properties, is unequalled as a deodorant, and is never failing when used for this purpose. Ti-Trol Soap can be used on the tenderest skins, and even baby’s skin, with greatest safety. It’s delightful fragrance will give added pleasure to your toilet. . DO NOT WASTE Ti-Trol Soap is too valuable to waste. Therefore, use it carefully. Do not leave it in the water. To obtain greatest economy it is preferable to use a face cloth when using Ti-Trol Soap. For health, for the most economical means of insuring against disease, use Ti-Trol Ointment…..for cuts, bruises etc. Ti-Trol….for boils, cuts, sores, abrasions and septic conditions. MELASOL…..for Tinea, Mouth Wash and as a Dentifice. . All are products containing Ti-Trol, distilled and provided by Australian Essential Oils Ltd. 18 Loftus Street, Sydney. N.S.W.'. tea tree oil, soap, glycerine, antisptic, germicide

At an altitude of 340m, the picturesque village of Exogh in northern Ithaca, lies on the Homeric mountain of Neion. The village overlooks Aphales Bay and across the water the neighbouring island of Lefkada. During the Middle Ages and at the beginning of the Venetian rule, it was one of the most populated villages of the island, offering safety from the pirates, and an excellent view of the channel, the sea and the bays around the northern Ithaca.Some of the earliest Ithacan settlers in Melbourne were from the mountain village of Exoghi, including the founding president AJ.J. Lekatsas (Lucas). The village now has very few permanent residents with most having migrated or moved to the cities of Greece. A coloured photograph of a view overlooking the village of Exoghi and Aphales Bay on the island of Ithaca. The photograph was taken from the bell tower of the church of Panagias (the Virgin/Our Lady) sta Pernarakia located at the top of the mountain. The mountains which are visible across the skyline are the neighbouring island of Lefkada. mountain villages, ithaca

The O'Shannassy Reservoir supplies water to the Silvan Reservoir, which distributes it to most parts of Melbourne. The dam was completed in 1928 and is an earthfill embankment with a reinforced concrete core wall.This photograph is significant as it provides a detailed insight into the Boards activity and construction of one of Melbourne's most important water supply systems. Furthermore, it is of historical importance to the history of Melbourne while it is representative of shaping Melbourne's environments, transforming and managing land and natural resources, and providing urban infrastructure and services. This photograph also covers the theme of Safety, depicting the safety standards of the time particularly with clothing. Black and white photographmmbw, melbourne metropolitan board of works, melbourne water, silvan reservoir, o'shannassy reservoir, construction, work, men, infrastructure

Annual report of the Secretary for mines and water supply,, 1904. 122 pages.Hon. D. McLeod, MPgold mining, miners' safety cage, mines and water supply 1904, gold mining, gold mines, water supply.

Annual report of the secretary for mines and water supply, 1903. 107 pagesHon. D. McLeod, MPgold mining, miners' safety cage, mines and water supply 1903, gold mining, gold, mining, water supply

Annual Report Of The Secretary For Mines And Water Supply, Victoria 1896. Publisher: Government Printer, Melbourne. 71 pages. Maps & drawings. Inscriptions: Little 180, see page 59 (cover), A Richardson, 29 Harrison St, Bendigo (1st page).victoria, victorian mining report, mining machinery mine safety mining statistics bendigo mines

Annual Report For The Secretary For Mines And Water Supply, Victoria 1895. Publisher: Government Printer, Melbourne. 86 pages. Plans & drawings.victoria, victorian mining report, mining machinery mine safety mining statistics

Annual Report Of The Secretary For Mines And Water Supply, Victoria. Publisher: Government Printer, Melbourne. 122 pages. Plans & drawings.victoria, mines and water supply, mining machinery, mine safety, mining statistics, regulation inspection 1885

Damaged workers helmet. Head protection worn by construction worker damaged during a collapsed trench accident in Cherlin Drive 1979.The object illustrates the importance of wearing appropriate safety equipment.Grey plastic safety helmet, with fabric straps and rubber head fitting. Helmet has a large crack in the brim and a dent in the head area.Inscription : Protector Tuff master/approval G.M.E. HH22 BS2826-ASZ10-67warrnambool, safety equipment, water supply