This item is from a collection donated by descendants of John Francis Turner of Wodonga. Mr. Turner was born on 6 June 1885. He completed all of his schooling at Scotts Boarding School in Albury, New South Wales. On leaving school, he was employed at Dalgety’s, Albury as an auctioneer. In 1924 John was promoted to Manager of the Wodonga Branch of Dalgety’s. On 15/03/1900 he married Beatrice Neal (born 7/12/1887 and died 7/2/1953) from Collingwood, Victoria. They had 4 daughters – Francis (Nancy), Heather, Jessie and Mary. In 1920, the family moved From Albury to Wodonga, purchasing their family home “Locherbie” at 169 High Street, Wodonga. "Locherbie" still stands in Wodonga in 2022. The collection contains items used by the Turner family during their life in Wodonga. The registration number on the fork Rd. 758470 indicates that this design was first patented in 1930, therefore helping to establish provenance of this set.A set of 6 cake forks in a hinged brown box with apricot silk lining. The box has 2 metal clasps. A label "Best Electro Plate on Nickel Silver - Made in England" is in the box.On forks: "MADE IN ENGLAND" "Rd 758470"silver cutlery, electro plate

Lamson was established in Australia in 1898 with the idea for a store security money handling system being patented in the latter part of the 19th century.The practise of taking money from the counter and customer to the cashier was time consuming and cumbersome.Some bright ideas were employed including tying the money and dockets in a hankerchief and throwing it to the cashier. The first attempt to improve this was the ball system where a ball containing the cash was rolled to the cashier on an elevated track. The rapid wire system superseded this in the early 1900's and for the next 50 years it became a popular part of money handling in stores around Australia. This particular Lamson's cash carrier was installed in Youngers department store which was situated in Liebig Street. The success of Youngers store was partly responsible for the shift to Liebig St as the main commercial district. The Warrnambool Standard reported in 1901 that Younger and Co would operate on a wholly cash basis replacing incidental trades of goods such as potatoes and other farm produce.This item has strong social and historical significance. Apart from having strong links to one of Warrnambool's largest and longest running businesses, the object itself is of considerable interest with thousands of the original ball systems and Rapid Wire cash carriers being in use around the world. Cylindrical brass top with central circular part with section either side which have two small pulleys. A wooden cylindrical section slots in below with a wire clip attached at the bottom.Lamson is cast into the brass on either side of therim of the top circular section. . AUS is on the side of this same section. warrnambool,, youngers, youngers warrnambool, lamson, lamson rapid wire cash carrier, wire cash carrier

The Bentwood chair has been called ‘the world’s most popular chair’. The original Bentwood chair, was designed by German-Austrian cabinet maker and Master Joiner, Michael Thonet (b.1796 - d.1871) and introduced to the market in 1859. Thonet started his business in his home town of Boppard as an independent cabinet maker in 1819. In the 1830’s he began trying to make furniture from glued (laminated) and bent wooden slats. Over the next few years his attempts to patent this process failed in Germany, Great Britain, France, and Russia. He then began using lightweight, strong wood and bending it into elegant, comfortable furniture. The Bentwood technology took Thonet years to perfect. In simple terms, the wooden rods or lengths were wet by soaking or steaming, bent into shape and then held in place until they hardened into the moulded curved shape or pattern. The wood usually chosen for the bentwood chairs was maple or beech. Thonet had revolutionised an older process by industrialising the process. The dowels of wood were cut and prepared as components of furniture, treated by the ‘bentwood’ process, then ready immediately for assembling with very little extra workmanship needed. Thonet held 2 patents for this process, the second one ended on 10th July 1869 and was non-renewable. At the Trade Fair at Koblenz of 1841 Prince Klemens Wenzel von Mettemich was very impressed with Thonet’s furniture, especially the chairs. In 1842 Thonet sold his Boppard business and emigrated to Vienna, and began working, along with his sons, on the interior decoration of the Palais Leichtenstein, for the Carl Leistler establishment. In 1849 he began his own business again, the Gebruder Thonet to include his sons (translated “Brothers Thonet”). He produced the “No. 1” Bentwood chair. He received a bronze medal for his Vienna bentwood chairs at the World Fair in London in 1851, and a silver medal in Paris in 1855. In 1856 he opened a new factory in Koritchan (Moravia), where there were extensive woods of beech trees available for his enterprise. In the next years, five more Eastern European production sites were established in Bystritz (1862), Nagy-Ugrócz (1866), Wsetin (1867), Hallenkau(1867) and Nowo-Radomsk(1880). Thonet’s 1859 No. 14 “chair of chairs” (or “Konsumstuhl Nr. 14” – coffee shop chair no. 14) was the most famous of all of Thonet’s Bentwood chairs. In 1867 he received a gold medal at the Paris World Fair. This new style of furniture making became very popular. Up until 1830 50 million of these chairs had been produced. By the 1870’s Thonet owned offices in almost 20 countries, with sales locations across Europe, in Chicago and New York. In 1889 he set Thonet set up a head office in Frankenberg, Hesse. Bentwood models designed in the mid to late 19th century featured hand-caned or laminated wood seats and were usually stamped with the country of origin. The Bentwood elements were the backrest, seat rim and legs. Typically the seat was covered with ‘bucket’ leather. After the Patent ran out in 1869, companies such as Jacob & Josef Kohn began the production of bentwood furniture.The popularity of the Bentwood chair that was introduced by Michael Thonet in the 1850s 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, pair of two. Backrest has full length inverted U inside frame. Support rail and wire reinforcing between legs. 3692.01 seat has floral pattern pressed into wood 3692.02 seat is plain (replacement seat). Made by Harnison & Co.3692.01 chair's marks; Label ""HARNISON & CO./ NEUSOL / BUDAPEST" and "WIENER NOBEL" and "(symbol) N inside circle, under Crown" flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, domestic furniture, dining furniture, bentwood chair, harnison & co., neusol, budapest, wiener nobel

This is a bottle that contained Dr Law’s medicine for diseases of the liver and kidney. In the late 1800s Richard Kennedy, the Warrnambool chemist, had the sole rights to produce Dr. Law’s medicines in his manufacturing business. Dr Law, from Boston, U.S.A., was a prolific and popular producer of patent medicines. This bottle may have been produced during the time of Richard Kennedy or later on the 20th century when the business of R.F.Kennedy and Co., was still operating or it may have come from any local chemist selling Dr Law’s products in the 20th century. The fact that the label on the bottle has an image of a lighthouse on it is a further link with Richard Kennedy who used a lighthouse image as his trademark (albeit a different image).Richard Kennedy came to Warrnambool in the late 19th century and established a retail, wholesale and manufacturing pharmaceutical business in Timor Street. This business was regarded as one of the largest and finest in Victoria. Richard Kennedy was prominent in community and civic affairs in Warrnambool. This bottle is of interest as a good example of the many patent medicines available in the 19th century. Dr Law’s remedies were sold world-wide. It is also of interest because of its possible link s with the prominent Warrnambool chemist, Richard kennedy. This is a glass bottle with a cork stopper that has been pushed into the neck. The glass was originally clear but it is now very black and stained from the dried liquid that was in the bottle. The label on the front of the bottle, pasted on, has black and white printing with an image of a lighthouse in the middle. The label on the back is pasted on and contains directions for use of the medicine. Both labels are very stained. ‘Dr Law’s Great Cure for Diseases of the Liver and Kidneys’dr law of boston, history of warrnambool, richard kennedy, chemists of warrnambool

This 'Dayton Scale' was used in a grocery shop in Moorabbin Shire in 20thC to measure grain, sugar, fruit, vegetables, lollies, etc as required by the shopkeeper for the purchase by customers. The Dayton Scale Company, originally known as the Computing Scale Company, built and marketed the first computing scale in 1891. It was part of the Computing-Tabulating-Recording Company formed in 1911, and became an IBM division in 1933. The Dayton Scale Division was eventually sold to the Hobart Manufacturing Company when IBM decided to stop marketing scales to retail stores. The Computing Scale Company of Dayton was operated from 1891-1914 by two businessmen from Dayton, Ohio who purchased patents on the recently invented computing scale. It was merged with other companies to become the forerunner company for IBM. On July 20 1897 Mr CC Hobart & Herbert L. Johnson formed the Hobart Electrical Manufacturing Company in Troy, Ohio USA. 1915 Hobart continues its growth into the World market, opening a sales office in Australia. Dayton grocery scales, capacity 2 pounds, Imperial Measure. It is made from white painted steel with a large metal scoop that sits on 2 steel rods attached to a balance beam connected to a recording mechanism that displays the ‘weight’ in a glass framed gauge. In window of glass framed gauge ; DAYTON SCALE CO. / OHIO USA ; Computed from 0 – 2LB in 1oz sections weights, measures, shops, scales. balances, grocery stores, early settlers, moorabbin, bentleigh, cheltenham, dayton scales company, ibm pty ltd., hobarrt electrical manufacturing company, hobart c.c., johnson herbert l, computing scale company ohio

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, Model “Panther” distinct patterned side red and green lenses. These lamps were also known as acetylene gas lamps. They work off a chemical reaction between calcium carbide and water.Model 75flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting

A plastic, costume jewellery, fashion accessory for early 20th Century ladies Plastic is a material consisting of any of a wide range of synthetic or semi-synthetic organics that are malleable and can be moulded into solid objects of diverse shapes. Due to their relatively low cost, ease of manufacture, versatility, and imperviousness to water, plastics are used in an enormous and expanding range of products. They displaced many traditional materials, such as wood, stone, horn and bone, leather, paper, metal, glass, and ceramic, in most of their former uses including jewellery. Parkesine is considered the first man-made plastic. The plastic material was patented by Alexander Parkes, In Birmingham, UK in 1856.The world's first fully synthetic plastic was bakelite, invented in New York in 1907 by Leo Baekeland who coined the term 'plastics'. After World War I, improvements in chemical technology led to an explosion in new forms of plastics, with mass production beginning in the 1940s during World War 11 due to shortages of silk and ivory. A small, black plastic brooch with a verticle pin at back and diamante decoration .fashion, costume jewellery, personal effects, moorabbin, bentleigh, cheltenham, early settlers, jewellery, plastic

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, marine pattern burner housing and reflector missing Carbide Lamp, metal. Has plate for attaching to wall, & gimbal to allow lamp to remain vertical. Noneflagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting, marine lighting

This desk or table-top electric fan marked is typical of the fans popular in the 1930s through to the 1950s. The fans were made for use in the home, office or factory and were produced in a variety of sizes. They were available in both fixed and oscillating models with different speeds. The fans cost several weeks of a man's average wage at the time and were promoted not only as improving comfort in the home but also increasing efficiency at work. With the development of air-conditioning from the 1960s and its increasing use in the workplace and then into the home, fans declined in popularity. This fan was manufactured by the Engineering & Construction Company (ELCON) an Australian owned and patented company originally based in Melbourne, Victoria in the late 1920s. The company became a subsidiary of the Electricity Meter & Allied Industries Ltd (EMAIL) in 1939. Then in 1946 they were decentralised to Orange, New South Wales. EMAIL brands included Email, Emailair, Westinghouse, Carmichael, Elcon, Metters and Weatherall. Electrolux purchased the major appliance division of Email in 2001.This item is representative of early electric fans manufactured in Australia in the early to mid 20th century. They were widely used throughout Australian homes and workplaces prrior to the development of airconditioning.This early electric table fan has four metal blades attached to an egg shaped enclosed motor. Each blade is attached with three rivets. The fan has a wire safety guard surrounding the blades. This is attached to a circular metal base.There is a switch in the centre of the base to adjust speed. A knob at the back of the fan enables its position to be adjusted. There is no longer any branding visible on the fan but it has been identified as an ELCON fan manufacured in Australia. The electrical cord is not the original which has been replaced.electric fans, home appliances, elcon fans

'The German Contribution to Early Bendigo' ( 23rd Feb) 1986 lecture by Frank Cusack on the occasion of the 130th anniversary of the first Lutheran service in Bendigo). Origins of the large flow of Germans to the goldfields (failure of liberalism at home; conscription threat). Mention of George Bruhn, Menge (opal discoverer), Jacob Brahe; Ballerstedt; Wittscheibe; Schlemm; Ernst Mueller; Morris Collman; Louis Samuels; Gustave Adolphus Hugo Thureau; Backhaus; Pastor Friedrich Leypoldt; various German vignerons; ''The Hamburg'' (hotel); ''The Berlin'' (hotel); ''The European'' (hotel); Deutsche Verein; Paul Bucholz; Herr Gollmick; Early architects - Getzschmann, Bosselmann, Nicolai, Emil Mauermann, Friedrich Lehmann; Medical people - Dr Barnett; , Dr Landvoigt. Dr Sandner Snr.; others - Conrad Meyerhoff (patent gold cradle), Benno Sluytmann (first electricity plant in Bendigo), Gustavus con Tempsky (re Burke & Wills expedition), Ludwig Becker (Burke & Wills expedition); Josef Von St. Nicolai (Freemasonry); Captain Von Paleski.Frank Cusackbendigo, mining, early german history, german diggers, diamond hill, mangurang, mexican enclave at eaglehawke, irish town, back creek, ironbark gully, white hills, georg bruhn, menge, jacob brahe. old bendigo cemetery.

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

Braun was originally founded in Germany in 1921, making components for radio sets. After World War 2 they extended their range to include audio and camera equipment. By the 1950s and 1960s the company branched out into electric shavers, kitchen appliances and hair care products. Home hair styling sets and hot rollers became popular in the 1960s and continued to be an important woman's styling appliance throughout the 1970s and 1980s. In 1975 this product was advertised at a price of $37.95. From 1984 until 2007, Braun was a wholly owned subsidiary of Gillette, which had purchased a controlling interest in the company in 1967. Braun is now a subsidiary of Procter & Gamble, which acquired Gillette in 2005.Personal grooming items such as this became important personal accessories and grooming tools for women throughout the mid 20th century across Australia.This hair styler set contains 20 hair rollers which were heated by placing them on the 20 heating posts fitted inside the unit in the case. An electric cord supplied was attached to an electric socket. A red dot on top of each posts darkened when the rollers were sufficiently heated. A detailed instruction booklet is included. A mirror is attached to the inside of the lid.On 2 metal plates on back of unit: Plate 1: MANUFACTURED FOR BRAUN ELECTRICS (AUST) PTY. LTD. / 24 JOHNSTON ST., FITZROY, VIC. 650-WATT 240 V. A. C. ONLY 50 CYCLE CAT. NO. B102 Plate 2: VOLT 240 AC ONLY FREQUENCY 50 H Z. 0.66 AMP / RETURN TO SUPPLIER FOR REPAIR Across bottom: PATENTS PENDING / MADE IN HONG KONGbraun electrics, personal appliances, hair styling

.1 Red circular tin .2 Elastoplast bandage insideLid: "S&N" Side: Elastoplast trade mark/Elastic Adhesive/Bandage/B.P.C. with porous adhesive/British Patent No. 713 838/for the medical profession/Directions for use enclosed/width 3in (7,6cm) Length unstretched 3yd (2.70m)/Length stretched 5/6yd (450/550m) Order No. 1003 Made in England by T.W. Smith & Nephew ltd., Hall & Welwyn Garden City. Keep in a cool place bandage, medical item

The inhaler can be used in hospitals in the labour ward for the patient to absorb trichloroethylene. The inhaler can be mounted on the bracket which can be secured to the leg of a labour bed. The inhaler contains a wick which absorbs trichloroethylene and will function for several hours.This inhaler was used in the Tawonga District Hospital.Wooden box with corners strengthened with steel plate and lid on 2 hinges. Lid has 3 rectangular lengths of wood attached to enhance packing and a yellow piece of paper with red writing stapled on. Box contains 2 metal clamps, a light metal stand/bracket with screw and holder and a hard black plastic mask. In the other side: 2 sheets including Instructions, a small paper bag with spare washers, a light brown extendable hose with metal attachment at one end and a light brown oval rubber bladder with a hole at one end to fit over the hose. Light metal Inhaler - 3 cylinders of different diameters attached to a plate. Red markings / writing and plate incl. serial no. Yellow paper on lid explains "...packing box is supplied free with the Tecota mark 6 Inhaler..." Mask: Cyprene Ltd / Keighley /Made in England Instructions / for the preparation of / Tecota / Mark 6 / Trichloroethylene B.P. / Inhaler Bladder: A Cig Product / 4 litre / Made in England to Inhaler: Cyprane Ltd. / Max Min / Pat No 646680 / Patents Pending / Tecota Mark 6 / Charge with / Trichloroethylene B.P. / Cyprane Ltd. / Serial No. / Keighley / Yorks.medical. hospital. inhaler. trichloroethylene. childbirth.tawonga district hospital

Before drills and braces, T-shaped augers were used to poke holes into wood, while smaller gimlets were used to start them. Auger handles were usually made of a piece of hardwood that was sanded, rounded, or even contoured to give the user a firm grip. Bits on spoon augers essentially carved a hole in the piece of wood, and had to be periodically removed to clear the chips. Spiral-bit augers were precursors to modern drills, whose bits cleared the hole of chips as the user drilled. A significant advance on the auger was the brace, which was originally designed with a single, permanently fixed bit at its end. Eventually, though, braces were designed with sophisticated chucks to accommodate replacement bits, as well as bits of different sizes and for various purposes. Chucks were patented as vigorously as the braces themselves The braces themselves also evolved for particular trades, from furniture makers to surgeons. The operator holds the ‘head’ in one hand, positions the drill in the wood , applies pressure and rotates the ‘centre piece’ to cause the drill to pierce the wood. A steel revolving hand tool for boring and screw-driving with wood handles * pioneers, early settlers, market gardeners, moorabbin, bentleigh, cheltenham, brighton, tools, craftsman, carpenters, , blacksmiths, builders, farmers, metalwork, woodwork, screws

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

Augustus Mueller was a medical practitioner in Yackandandah and District who was convinced of the efficacy of strychnine as an antidote for snakebite. He believed that small doses of strychnine would stimulate the nervous system while being insufficient to cause the death of the patient by poisoning. The patent for his antidote was granted on May 10th 1891. His treatment gained some acceptance in the general community but was widely condemned in the medical profession. Dr Mueller investigated treatments for typhoid following a local outbreak in Beechworth, Victoria. He also received several prizes for his work as a vigneron. Dr Mueller died in Yackandandah, Victoria on 31st December 1898. The instructions included the following information:- "Inject now only half a syringe full, or, if the patient objects to the needle, let him take ten drops of the antidote in a little cold water every half-hour, until he or she feels a little stiffness about the jaws, slight pain in the back of the neck, and jerking of arms and legs on moving them. These are the effects of the antidote. They are quite harmless, and must be produced to ensure the safety of the patient".This item is significant because it was A leather case embossed with gold embossed writing. It contains items as part of a snake bite kit and detailed instructions for its use.On lid DR. MUELLER'S ANTIDOTE FOR SNAKE BITE WITH HYPODERMIC SYRINGE & DIRECTIONS FOR USE. PREPARED BY M. S. ROME YACKANDANDAH.snake antidotes, doctor augustus mueller, northeast victoria identities

Boxed card game Sawpit's. Seven groupings of cards with different marked 'Value' for each group;, each group has nine cards - Rye (70), Corn (75), Flax (40) , Wheat (100), Barley (85), Oats (60), Hay (50) Plus two cards - Bull and Bear (no value attached) - these two (Wildman's) cards are marked as 'Patent Pending' and copyright 1904 by Parker Brothers Google search: The Game Catalogue 8th Edition 1998 lists Sawpit's,as copyright 1903(???) - see the picture/image on each card for men bidding in an Exchange (the Pit, Chicago). Also a 'struth?? Card with the game on one side - Quack Quack and this card being 'White Leghorn' - there is no manufacturer(no game of Quack Quack is listed in the US 1998 Game Catalog - so may be English?. Cards are in a box divided in two with damaged top titled they'd Great Game - Pit's. On back of box is feint handwritten inscription- Stephens Family; W?a?k? ora?? (name of house?); Parsonage Gve; Eaglehawk; Victoria.recreations, games, card

Clothing. Dark navy blue and red peaked hat or cap, with peaked shade over the face, featuring two heavy gold leaves 12 cm long, and curved from the sides of the shade, to meet in the centre. These may be woven or moulded gold work.A 1 cm wide black patent ribbon is held across the lower crown of the cap, with 2 x 2 cm diameter brass buttons - one at each end. Narrow braid (probably once gold braid) edges the 5.5 cm deep crown of the cap, which is dark navy in colour. A flat dark navy top of the crown is lined, and shaped on the underside with red woollen fabric. This is shaped to be wider and higher at the centre front. Two eyelets on either side of this section, ventilate the crown of the cap. A brass metal ''music stand'' topped by a crown and an oak leaf and acorn wreath at the sides is attached to centre front. A 5 cm wide leather band lines the crown, which is also lined with red cotton fabric, and a diamond shaped plastic ''hair-oil protection'' at the top of the crown.Inside crown, on a plastic protector, is a small white sticker, showing the number 7, this is probably an indication of size.costume, male uniform, civilian, cap

White China milk jug with MMTB logo with a small handle. Made from China clay, glazed and vitrified or fired. Has a small formed spout, MMTB logo in dark green. On the underside has the words "Grindley Hotel Ware, England, Vitrified, Loftus Moran Pty Ltd, Melbourne. Patent. Has a crown or manufacturers mark on the top of the lettering. Possibly made for use at the Wattle Park chalet or head office. http://www.thepotteries.org/mark/g/grindley.htm - accessed 14-08-2014 indicates it was the mark used by the company from 1946. The photo on the website also had a date mark on the underside. http://museumvictoria.com.au/collections/items/259893/serving-plate-cream-ceramic-grindley-hotelware-co-england-loftus-moran-melbourne-1952 - accessed 14-08-2014, indicates that the item was made: Grindley Hotelware Co., Tunstall, Stoke-on-Trent, Staffordshire, England, Great Britain and imported by Loftus Moran Pty Ltd, South Melbourne, Victoria, Australia. See Reg Item 6068 for another example.trams, tramways, mmtb, crockery, grindley hotelware, loftus moran, wattle park

The early settlers of Victoria depended on horse drawn vehicles to farm, make roads and railways, deliver produce and transport people. Horse harnesses were an important requisite for all drivers and could be found wherever there were working horses. Horse Harnesses have played an essential role in different cultures throughout history. Simple, utilitarian horse harnesses made of leather straps and iron rings were being used in early China before AD 500 as well as ancient Greece and Rome, allowing horses to pull chariots and ploughs. The Greeks and Romans were the first to use a "horse collar" which distributed the weight of the harness evenly across the horse's chest rather than relying on a "throat harness" that could damage a horse's throat or choke them. During the medieval period, European horse harnesses became more elaborate and decorative. Variations of different horse harnesses were also found in Native American and Middle Eastern cultures. Horse Harnesses usually have four basic components which include - 1. Communication - the bridle, bit and reins allows the driver to communicate instructions and commands to the horse, guiding its movement and direction. 2. Draft - the collar, hame straps, hames, traces and chains enables the horse to draw and pull the load efficiently by distributing the weight and transferring the pulling force to the vehicle. 3. Stopping - the breeching band, pole straps and breast strap helps to control or stabilise the horse and vehicle when moving downhill or stopping. 4. Support - the back pad, backband, belly band and back saddle keep the harness in the correct position and proper alignment. This show harness was used by Mr. Andy Bourke when showing his Clydesdales at shows or demonstrations. Although a more modern example with decorative embellishments, it still has many essential components traditionally found in an everyday working horse harness. The original purpose of the "housen" for example, was to run rain or drizzle off the horse's neck when they had to work in wet conditions - it was laid flat for this purpose on the top of the collar. Nowadays it is purely for show and is often used to advertise a business or stud. Horse brasses and fly terrets were fastened to various parts of a horse's harness. In the early days they probably began as amulets to ward off evil and to bring good luck and continued to be used as a festive decoration. The heyday of horse brasses was between the years 1851 and 1900. Horse brasses are fastened to various parts of the harness with many of their designs being symbolic. The ornamentation on this harness (although not authentic horse brasses) are based on the horse brasses that were popular in the 19th century. This horse harness is a significant example of the equipment that was needed wherever heavy horses were being used - particularly in the early years of Victoria's settlement by white settlers. Harnesses such as this example were used with stage coaches, drays, farming equipment, delivery carts and personal transportation.A leather and metal horse harness used when showing a Clydesdale (or other breed of heavy horse). It is made up of a number of components. 1. Decorative leather cart saddle with two large cloth pads underneath (which have a scalloped leather and stud border), a raised leather pommel and a silver and red coloured metal back strap holder across the top. It has two symmetrical sets of ornamentation (silver hearts and circles) in the front and a wide strap or girth (with a maker's stamp reading "R. Mitchell Saddler") and buckle which attaches the saddle to the horse. 2. Pair of steel hames which are gently curved (to fit on a horse collar) and are topped with steel knobs. They have several steel rings and lugs (to hold straps and chains) and a "Made in England Warranted Steel" stamp. 3. Breeching harness which consists of a number of leather straps, chains and metal rings including a wide padded leather strap with a scalloped edge that sits on the back of the horse and a thick leather strap that goes around the hind quarters of a horse which is joined to the back strap with four shorter vertical straps and buckles. These straps feature silver and red patent leather trim and silver heart shaped ornamentation. The strap also features the maker's stamp of "R. Mitchell". 4. Decorative leather bridle with blinkers featuring the same silver and red patent leather trim on the cheek piece, brow band and throatlatch. It has a stainless steel "Liverpool Driving Bit" with a curb chain, a variety of decorative silver ornaments (rosettes, diamonds plus a heart and two circles) on each end of the forehead band, dropper and strap as well as a silver metal bell (sometimes known as a "fly terret" or "swinger") that sits on the headpiece of the bridle. 5. Leather "violin shaped" dropper (or hanger) with two silver rosette shaped ornaments and a stainless steel clip on the top 6. Stainless steel "Liverpool Driving Bit" with a straight mouthpiece which is ribbed on one side. It has three rein spots (spaces) and a curb chain. 7. Leather arch shaped "Housen" covered in black and red patent leather and decorated with silver studs (some spelling out F H) and bordered with a red fringe. It has a leather strap at the back and two leather loops on the front. 8. Leather padded backband (Australian style "Stallion Draught Roller") decorated with two groups of nine metal "horse brasses" or harness ornaments displaying horseshoe, starburst and horse head designs on blue, red and white striped webbing. The backband has three notched straps at each end, a buckle near the centre and the initial B stamped in two places underneath. 9. Bellyband made of leather and red, white and blue striped webbing. It has a set of three buckles at each end (which correspond with the notched straps of the backband). 10. Wide, thick leather strap which has a buckle and notches at each end. It also has the maker's stamp of "R. Mitchell Saddler". 11.One pair of long leather traces - each with a buckle and notched loop at one end, decorated with a small silver diamond shaped harness ornament. 12. Length of stainless steel heavy duty chain with two swivel connectors.Saddle - "R.MITCHELL / SADDLER" Hames - "MADE IN ENGLAND / WARRANTED / STEEL" "MADE IN ENGLAND / WARRANTED / unclear" Breeching Straps - "R. MITCHELL / MAKER / R. MITCHELL MAKER" Housen - "F H" Backband "B / B' Wide leather strap - "R. MITCHELL / SADDLER"flagstaff hill maritime museum and village, warrnambool, great ocean road, shipwreck coast, harness, horse harness, show harness, clydesdale horses, andy bourke, horse drawn cart, housen, bridle, hames, breeching straps, dropper, bit, liverpool bit, backband, harness ornamentation, bellyband, back saddle, fly terret

The steam engine indicator, or dynamometer, is an instrument used on a steam engine (such as that of a vessel or train) to measure and record the change in the pressures of the engine’s cylinders during their operating cycle. The engineer would use it to identify problems or defects such as bad valve settings or constricted steam pipes. It could indicate the difference in efficiency caused by adjustments made to the engine, being able to instantly measure the variation of pressure from the engine stroke at any given time. This force of power would be registered by a pencil, fitted to the adjustable arm, which would trace a line on paper wound around the cylinder. The recorded information could be used in conjunction with mathematical tables. This particular instrument was made by T.S. Mc Innes, one of the better manufacturers of engine indicators. Mc Innes engine indicators were still being used in the mid 1900’s. This specific instrument was used by Mark Forsythe of North Berwial, Scotland and late of Ararat, Victoria when he was chief engineer on the “SS Talawena” in 1892. The Port of Warrnambool, in Victoria, harboured steam ships that carried both passengers and cargo along the south west coast in the late 1800’s and into the 1900’s. The engineer of a steam ship was responsible for reaching and maintaining the optimum level of steam energy to serve the locomotion and efficiency of the steam ship. The engineer would use a steam engine indicator to measure and record information to achieve this purpose. Engine Dynamometer or Steam Engine Indicator in square, fitted oak case. This brass instrument is used to measure and record steam pressure for setting up and adjusting valves on a steam engine. It has an oscillating recording drum with vertical, silver clip attached for holding paper in place around the drum. The drum oscillates left to right. There is a pulley attached to a length of cord, which is attached to the drum. Beside the drum is a fine metal arm, vertically adjustable, small hole in the end to hold a pencil. Inscription stamped into bracket of the arm. The engine indicator is mounted on a hinged side of the case that swings out ready for use. Attached chains prevent the side from opening past vertical. There is storage for other accessories and an empty compartment in the base (where a scale or ruler may have been located). The case has a collapsible wooden handle, brass hinges and two brass, hook-shaped catches. There is a code stamped inside the lid. It contains a brass, ‘T’ shaped steam-cock (or stop cock) with two open ends made of metal pipe with different sized threads. (Turning the handle on top opens and closes the space in the pipe and would close off the flow of steam from one end to the other.) Also inside the case are three different spiral springs, each with a threaded nut on the end that has a threaded hole inside it. Used by Mr Mark Forsythe when chief engineer on the SS Talawena in 1892 “T.S. MC INNES PATENT” and “522 _ _” (last 2 digits are unreadable) pressed into the arm of the brass indicator. “[ ] X ’ stamped inside the lid of the case. The 3 springs all have a number stamped into them: (1) “32” and “12” (2) “12” and “16” [above] “12” (3) “64” and “150” Card that came with instrument “This instrument was used by Mark Forsythe of North Berwial Scotland and late of Ararat, Victoria when chief engineer on the SS Talawena in 1892" dynamometer, steam engine indicator, t.s. mcinnes, glasgow, dobbie mcinnes, port of warrnambool, warrnambool, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, shipwreck coast, great ocean road

Bradley and Hubbard established their company in 1852 in Meriden, Connecticut when Nathaniel and William Bradley, Orson and Chitten Hatch, and Walter Hubbard, formed Bradley, Hatch & Company. This incarnation of the company only manufactured clocks. The Hatch brothers sold their interest in the company in 1854 and it was renamed, Bradley & Hubbard. Clocks remained the firm's primary product into the 1860s. In addition to their line of clocks, Bradley & Hubbard also produced a wide range of household items including match safes, call bells, andirons, urns, bookends, frames, desk accessories and vases. Technological advances in drilling and refining crude oil in the late 1850s and early 1860s paved the way for the demise of whale oil as lamp fuel. Soon after Colonel Edwin Drake struck oil in Titusville, Pennsylvania on August 27, 1859, Nathaniel Bradley saw an opportunity to capitalize on the future of this new fuel. Nathaniel decided to produce an extensive line of kerosene burning lamps this proved to be a wise business decision. Kerosene was soon to become a widely used, safe and relatively inexpensive lamp fuel. Between April 7, 1868, and December 23, 1913, the company was listed as the assignee for at least 89 lighting patents. Many of these patents were for lamp and chandelier designs and various improvements in lamp burners. In 1875 the company reorganized to form the Bradley and Hubbard Manufacturing Company. Walter Hubbard served as President and Nathaniel Bradley as Treasurer. The firm enjoyed rapid growth throughout the 1880s. By 1888, the company employed over one thousand workers and had showrooms in major cities including New York, Philadelphia, Boston and Chicago. One of the most prolific of the B&H products was the Rayo lamp it produced under contract for Standard Oil. In keeping with the changing times, Bradley & Hubbard produced a variety of electric lamps as well. Walter Hubbard passed away in 1911 and Nathaniel Bradley in 1915. The company continued through the 1930s and was purchased by the Charles Parker Company, also of Meriden, Connecticut, in 1940. The Parker Company was quite diversified in its product line, also producing an extensive line of lamps and high-end chandeliers. Parker operated its acquisition as the "Bradley & Hubbard Division." Parker ceased production of the Rayo lamp in the early 1950s. In 1973, the Bradley and Hubbard buildings were demolished, effectively ending that chapter in American lighting manufacture.Early innovation in kerosene lamp burner design by Bradley and Hubbard lamp manufacturers who at the turn of the 20th century were the biggest lamp producers in the world. The item is significant due to its historic connection with a major innovator of lamp design.Lamp Burner, metal container with turning screw for wick and mesh walls. Is made in 2 parts. Raised embossing on wick adjustment screw " PAT APPLIED FOR" on top of burner "B & H Patented.July.1.90.Nov.20.94"flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bradley & hubbard manufacturing company, kerosene lamp burner, early lighting

This photo depicts a man standing next to a large piece of mining equipment identified as a hydraulic chisel (alternative name: drifter dill or power rock drill). This piece of machinery was used in mining to place holes in the walls of a mine which were then filled with dynamite or other explosives for rock blasting or to make holes for plug and feather quarrying. The additional tools to the right of the photograph and in front of the machinery can be identified as either picks or as feather and wedges, the latter of which were used to split stone drilled by the hydraulic or power chisel. Depending on the date of the photograph, which is not provided, this chisel was either powered by electricity or by hydraulics. The following is written on the drill "R.C. FORD'S PATENT No91 / MELBOURNE VICTORIA 1879". The man depicted in this photograph wears a wide brim hat, a loose fitting white shirt and loose pants. He wears boots and has a medium sized dark beard. This attire, along with his locality in the mine and proficiency with the mining equipment, identifies this man as a miner working in this particular, but unidentified, mine. It depicts an instance of hydraulic chiseling which makes this photograph valuable for the study of mining techniques from a date c1880.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portray the types of machinery used in mining can reveal important information for technology and highlight the methods used to break apart the earth in order to obtain access to gold and other precious materials during the period this photograph was captured. Further research into RC Ford can potentially reveal even further information pertaining to this photograph. This image is of important historical significance for its ability to convey information about the methods and machinery used to access gold or mine more in general. It also highlights the size of machinery at the time and allows us to compare this to the size of the person standing besides the machinery to better understand the manpower which would have been required to use and set-up this macinery.A black and white rectangular reproduced photograph printed on matte photographic paper.Reverse: 7816/ copy 1/3gold, sluicing, gold sluicing, hydraulic sluicing, gold and tin mine, mining, gold mining, beechworth, burke museum, melbourne, victoria, hat, mining machinery, machinery, r. c. ford