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Flagstaff Hill Maritime Museum and Village
Ceramic - Stoneware Bottle, Dundas Pottery, Late 1800s to early 1900s
This bottle was made in Scotland and recovered decades later from a shipwreck along the coast of Victoria. It may have been amongst the ship's cargo, its provisions or amongst a passenger's personal luggage. It is now part of the John Chance collection. Stoneware bottles similar to this one were in common use during the mid-to-late 19th century. They were used to store and transport. The bottles were handmade using either a potter's wheel or in moulds such as a plaster mould, which gave the bottles uniformity in size and shape. The bottle would then be fired and glazed in a hot kiln. Makers often identified their bottles with the impression of a small symbol or adding a colour to the mouth. The manufacturer usually stamped their bottles with their name and logo, and sometimes a message that the bottle remained their property and should be returned to them. The bottles could then be cleaned and refilled. DUNDAS POTTERY WORKS - The Dundas Pottery works were established in 1828 by William Johnstone in partnership with John Forsyth and John Mc Coll. Located where the Forth and Clyde Canal joined the Monkland Canal, North of Glasgow. Johnstone sold the pottery in 1835 to Robert Cochran and James Couper. Mc Coll was retained as manager until 1837when in 1839 Cochran & Couper sold the pottery and purchased the St Rollex Glass Works. George Duncan took over briefly but died in 1841, with the pottery possibly being run by his widow Helen and a potter named Alexander Paul. James Miller was the manager at the time and he bought the pottery in 1856, in partnership with John Moody. Miller's long and careful stewardship of the pottery saw success from the export market which allowed him to purchase the North British pottery in 1867 until 1874 when it was sold. In 1875, Miller, in partnership with John Young, leased part of Caledonian Pottery, naming it Crown Pottery, however, it burned down in 1879. In the early 1880s, Young extended the pottery and named it Milton Pottery. Miller’s son, James W., became a partner in Milton pottery in 1905. James Miller Snr died in 1905 and the company continued as a limited liability company, being sold to the Borax Consolidation Ltd in 1929, but it was unsuccessful and Possil pottery purchased some of the company's equipment before it finally closed in 1932. From 1828 until the James Miller period of circa 1856, the pottery produced salt-glazed stoneware for the local industrial trade; mainly bottles and drain pipes. James Miller produced various bottles, whisky and acid jars, casks, butter crocks, jam jars and domestic wares in Bristol glaze. He streamlined the water filter manufacturing, which had become a specialty of the pottery, and a dedicated section of the pottery was created solely for their production, which was exported worldwide.This stoneware bottle is historically significant for its manufacture and use in the late 19th to the early 20th century. This bottle is historically significant for its connection with the well-known stoneware manufacturers, Dundas Pottery of Glasgow, Scotland. The bottle is also significant as it was recovered by John Chance, a diver, from a wreck on the coast of Victoria in the 1960s-70s. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value.Bottle, salt glazed stoneware, beige, sealed with cork, no discolouration . Inscriptions stamped near base.Stamp: [symbol of concentric ovals], text within the symbol "PORT DUNDAS POTTERY COY." and "GLASGOW". Stamp:[Symbol - square with short vertical line in centre of base line]flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john chance, shipwreck artefact, stoneware, ironstone, pottery, bottle, port dundas pottery, glasgow, antique bottle, william johnstone -
Flagstaff Hill Maritime Museum and Village
Ceramic - Stoneware Bottle, Dundas Pottery, Late 1800s to early 1900s
This bottle was made in Scotland and recovered decades later from a shipwreck along the coast of Victoria. It may have been amongst the ship's cargo, its provisions or amongst a passenger's personal luggage. It is now part of the John Chance collection. Stoneware bottles similar to this one were in common use during the mid-to-late 19th century. They were used to store and transport. The bottles were handmade using either a potter's wheel or in moulds such as a plaster mould, which gave the bottles uniformity in size and shape. The bottle would then be fired and glazed in a hot kiln. Makers often identified their bottles with the impression of a small symbol or adding a colour to the mouth. The manufacturer usually stamped their bottles with their name and logo, and sometimes a message that the bottle remained their property and should be returned to them. The bottles could then be cleaned and refilled. DUNDAS POTTERY WORKS - The Dundas Pottery works were established in 1828 by William Johnstone in partnership with John Forsyth and John Mc Coll. Located where the Forth and Clyde Canal joined the Monkland Canal, North of Glasgow. Johnstone sold the pottery in 1835 to Robert Cochran and James Couper. Mc Coll was retained as manager until 1837when in 1839 Cochran & Couper sold the pottery and purchased the St Rollex Glass Works. George Duncan took over briefly but died in 1841, with the pottery possibly being run by his widow Helen and a potter named Alexander Paul. James Miller was the manager at the time and he bought the pottery in 1856, in partnership with John Moody. Miller's long and careful stewardship of the pottery saw success from the export market which allowed him to purchase the North British pottery in 1867 until 1874 when it was sold. In 1875, Miller, in partnership with John Young, leased part of Caledonian Pottery, naming it Crown Pottery, however, it burned down in 1879. In the early 1880s, Young extended the pottery and named it Milton Pottery. Miller’s son, James W., became a partner in Milton pottery in 1905. James Miller Snr died in 1905 and the company continued as a limited liability company, being sold to the Borax Consolidation Ltd in 1929, but it was unsuccessful and Possil pottery purchased some of the company's equipment before it finally closed in 1932. From 1828 until the James Miller period of circa 1856, the pottery produced salt-glazed stoneware for the local industrial trade; mainly bottles and drain pipes. James Miller produced various bottles, whisky and acid jars, casks, butter crocks, jam jars and domestic wares in Bristol glaze. He streamlined the water filter manufacturing, which had become a specialty of the pottery, and a dedicated section of the pottery was created solely for their production, which was exported worldwide.This stoneware bottle is historically significant for its manufacture and use in the late 19th to the early 20th century. This bottle is historically significant for its connection with the well-known stoneware manufacturers, Dundas Pottery of Glasgow, Scotland. The bottle is also significant as it was recovered by John Chance, a diver, from a wreck on the coast of Victoria in the 1960s-70s. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value.Bottle, salt glazed stoneware, beige, large chip on lip of bottle. Inscription stamped near base.Stamp: [symbol of concentric ovals], text within the symbol "PORT DUNDAS POTTERY COY." and "GLASGOW". Stamp:[Symbol - square with short vertical line in centre of base line]flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john chance, shipwreck artefact, stoneware, ironstone, pottery, bottle, port dundas pottery, glasgow, antique bottle, william johnstone -
Flagstaff Hill Maritime Museum and Village
Ceramic - Stoneware Bottle, Dundas Pottery, Late 1800s to early 1900s
This bottle was made in Scotland and recovered decades later from a shipwreck along the coast of Victoria. It may have been amongst the ship's cargo, its provisions or amongst a passenger's personal luggage. It is now part of the John Chance collection. Stoneware bottles similar to this one were in common use during the mid-to-late 19th century. They were used to store and transport. The bottles were handmade using either a potter's wheel or in moulds such as a plaster mould, which gave the bottles uniformity in size and shape. The bottle would then be fired and glazed in a hot kiln. Makers often identified their bottles with the impression of a small symbol or adding a colour to the mouth. The manufacturer usually stamped their bottles with their name and logo, and sometimes a message that the bottle remained their property and should be returned to them. The bottles could then be cleaned and refilled. DUNDAS POTTERY WORKS - The Dundas Pottery works were established in 1828 by William Johnstone in partnership with John Forsyth and John Mc Coll. Located where the Forth and Clyde Canal joined the Monkland Canal, North of Glasgow. Johnstone sold the pottery in 1835 to Robert Cochran and James Couper. Mc Coll was retained as manager until 1837 when in 1839 Cochran & Couper sold the pottery and purchased the St Rollex Glass Works. George Duncan took over briefly but died in 1841, with the pottery possibly being run by his widow Helen and a potter named Alexander Paul. James Miller was the manager at the time and he bought the pottery in 1856, in partnership with John Moody. Miller's long and careful stewardship of the pottery saw success from the export market which allowed him to purchase the North British pottery in 1867 until 1874 when it was sold. In 1875, Miller, in partnership with John Young, leased part of Caledonian Pottery, naming it Crown Pottery, however, it burned down in 1879. In the early 1880s, Young extended the pottery and named it Milton Pottery. Miller’s son, James W., became a partner in Milton pottery in 1905. James Miller Snr died in 1905 and the company continued as a limited liability company, being sold to the Borax Consolidation Ltd in 1929, but it was unsuccessful and Possil pottery purchased some of the company's equipment before it finally closed in 1932. From 1828 until the James Miller period of circa 1856, the pottery produced salt-glazed stoneware for the local industrial trade; mainly bottles and drain pipes. James Miller produced various bottles, whisky and acid jars, casks, butter crocks, jam jars and domestic wares in Bristol glaze. He streamlined the water filter manufacturing, which had become a speciality of the pottery, and a dedicated section of the pottery was created solely for their production, which was exported worldwide.This stoneware bottle is historically significant for its manufacture and use in the late 19th to the early 20th century. This bottle is historically significant for its connection with the well-known stoneware manufacturers, Dundas Pottery of Glasgow, Scotland. The bottle is also significant as it was recovered by John Chance, a diver, from a wreck on the coast of Victoria in the 1960s-70s. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value.Bottle, salt glazed stoneware, beige, sealed with cork and wax, discolouration on upper part. Inscription stamped near base.Stamp: [symbol of concentric ovals], text within the symbol "PORT DUNDAS POTTERY COY." and "GLASGOW". Stamp:[Symbol - square with short vertical line in centre of base line]flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john chance, shipwreck artefact, stoneware, ironstone pottery, bottle, port dundas pottery, glasgow, antique bottle, william johnstone -
University of Melbourne, School of Chemistry
Microbalance
An original Kerr-Grant Microbalance, modified by E.J.Hartung This balance was invented in the chemistry department by Bertram Dillon Steele, later first Professor of Chemistry at the University of Queensland 1910-1930, in collaboration with Professor Kerr Grant, Physics. The design was widely used by other chemists, including Masson's mentor, Professor Ramsay, working in London on newly discovered rare gases (especially Radon), and Professor Hartung in Melbourne, investigating the chemistry of the decomposition of silver salts in photographic processes. The principle of the microbalance was to measure the change in density of a gas by the shift in the balancing beam due to a change in pressure of the gas in the balance case. The quartz balancing beam was made by Bertram Steele who was particularly skilled in glassblowing. A quartz beam is the beam of the Aston microbalance based on the Steele/Grant instrument, and described by F.W. Aston, the inventor of the mass spectrometer. The bulb at one end of the beam contained a fixed amount of air, so that a change in the pressure of gas in the balance case changed the buoyancy of the beam, yielding a displacement in the beam which could be measured. By this means, differences in weight of about 10 nanogram could be measured, in amounts of up to 0.1 gram. Such differences are significant the increase in weight of a metal sample due to surface oxidation (Steele's interest) in the weight loss due to radioactive decay of Radium (Ramsay's work), and in the estimates of density change due to the isotopic distribution of Neon (Aston). Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).An original Kerr-Grant Microbalance, modified by E.J. Hartung. -
Flagstaff Hill Maritime Museum and Village
Domestic object - Wooden Bread Board, Not known
In the high tech, fast paced society that we live in, it’s easy to take some things for granted. Case in point: the wood cutting board on which you’ll probably be preparing the evening’s dinner. Have you ever taken the time to think about the history of the cutting board? Where did it come from, and what did ancient civilizations use to cut their meats, fruits and vegetables? Wood throughout the ages Since the dawn of time, wood has been one of the most available materials used by mankind to build tools and lodgings, so it’s not really surprising to know that wood has been used in the preparation of food since the prehistoric ages. Of course, back then, cavemen probably used an unpolished slab of tree trunk to cut the kill of the day on and they probably didn’t think twice about saving it once the meal was over. Chances are they probably threw it in the fire with the rest of the wood needed to kindle it. Advances in technology Throughout the centuries, mankind evolved and started creating machines from steam, electricity and metal. When the circular saw was invented, nicer, cleaner slabs of wood were cut and used as cutting boards. Since soft wood was the most available type of wood at the time, it was the material of choice for to be used for cutting boards. Boards were made smaller since the slab of wood could now be cut to any desired size. Since they were made smaller, they were also used to eat off of and some people referred to them as trenchers. Trenchers were originally pieces of stale hard bread that were used as substitute plates. Wood trenchers quickly became the replacements of the eatable dinnerware. The butcher block: the cutting board’s larger cousin In the industrial ages, many industries rapidly developed, and the butchery industry followed this trend as well. Before the invention of the cutting board, butchers used tree rounds to carve their meat on. The rounds were often too soft and they rapidly became unsanitary. Hard maple wood butcher blocks were the preferred choice of the industry. They were made to be extremely thick and durable, so durable in fact, that a butcher could use the same block for almost his entire career. Cutting boards around the world As cutting boards began to be more and more used in kitchens around North America, the rest of the world crafted such boards from different materials. The East used thick bamboo as their material of choice. Despite its frail appearance, bamboo is quite strong and made durable cutting boards and butcher blocks. Europe used maple in the crafting of their cutting boards while Persia used flat pieces of polished wood in their kitchens. The world then saw cutting boards that were being made from other materials like plastic and they came in all shapes and sizes, but they always served the same purpose, to provide a household with a safe, clean surface on which to prepare meals for their friends and family members. https://www.woodcuttingboards.com/news/quick-history-of-the-cutting-board-47.aspxThe use of the wooden chopping board over time. Wooden Rectangular Bread board . Worn (concave in centre). Raw wood.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chopping board, cooking -
Flagstaff Hill Maritime Museum and Village
Domestic object - Bread Board
In the high tech, fast paced society that we live in, it’s easy to take some things for granted. Case in point: the wood cutting board on which you’ll probably be preparing the evening’s dinner. Have you ever taken the time to think about the history of the cutting board? Where did it come from, and what did ancient civilizations use to cut their meats, fruits and vegetables? Wood throughout the ages Since the dawn of time, wood has been one of the most available materials used by mankind to build tools and lodgings, so it’s not really surprising to know that wood has been used in the preparation of food since the prehistoric ages. Of course, back then, cavemen probably used an unpolished slab of tree trunk to cut the kill of the day on and they probably didn’t think twice about saving it once the meal was over. Chances are they probably threw it in the fire with the rest of the wood needed to kindle it. Advances in technology Throughout the centuries, mankind evolved and started creating machines from steam, electricity and metal. When the circular saw was invented, nicer, cleaner slabs of wood were cut and used as cutting boards. Since soft wood was the most available type of wood at the time, it was the material of choice for to be used for cutting boards. Boards were made smaller since the slab of wood could now be cut to any desired size. Since they were made smaller, they were also used to eat off of and some people referred to them as trenchers. Trenchers were originally pieces of stale hard bread that were used as substitute plates. Wood trenchers quickly became the replacements of the eatable dinnerware. The butcher block: the cutting board’s larger cousin In the industrial ages, many industries rapidly developed, and the butchery industry followed this trend as well. Before the invention of the cutting board, butchers used tree rounds to carve their meat on. The rounds were often too soft and they rapidly became unsanitary. Hard maple wood butcher blocks were the preferred choice of the industry. They were made to be extremely thick and durable, so durable in fact, that a butcher could use the same block for almost his entire career. Cutting boards around the world As cutting boards began to be more and more used in kitchens around North America, the rest of the world crafted such boards from different materials. The East used thick bamboo as their material of choice. Despite its frail appearance, bamboo is quite strong and made durable cutting boards and butcher blocks. Europe used maple in the crafting of their cutting boards while Persia used flat pieces of polished wood in their kitchens. The world then saw cutting boards that were being made from other materials like plastic and they came in all shapes and sizes, but they always served the same purpose, to provide a household with a safe, clean surface on which to prepare meals for their friends and family members. https://www.woodcuttingboards.com/news/quick-history-of-the-cutting-board-47.aspxThe bread board is an example of kitchen equipment used during Victorian times and similar to those used today.Bread board. Wooden, octagonal, plain sanded light wood. Has decoration around edge and indented circular line to delineate round cutting board section.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bread board, cutting board, pastry board, kitchen utensil, kitchen equipment, baking equipment, food preparation -
Flagstaff Hill Maritime Museum and Village
Plaque - Nameplate, James & Alexander Brown, 1849 – 1931
This is one of two cast brass nameplates of James & Alexander Brown in our collection. The Newcastle, NSW, firm was renowned for its coal mining and exporting business established in colonial Australia in 1843. The firm had an office in Melbourne and sold coal for commercial use and from the Wharf for the domestic market. The coal was then distributed along the southwest coast of Victoria in steamships or steam packets and into the regional areas of Victoria by cart and wagon. In 1890 there was a strike of coal workers but the Geelong Advertiser, September 1, 1890, announced that “a firm of coal merchants only recently received some large cargoes from Newcastle”. This supply of coal could have originated at the colliery of James & Alexander Brown. About James & Alexander Brown: - James (1816-1894), John (1823-1846) and Alexander Brown (1827-1877) migrated with their parents from Scotland to Sydney, Australia, in 1842. The next year James leased land and was assisted by his brothers Alexander and John in mining coal in the area near Maitland. The market was very competitive, with the government controlling prices. James was instrumental in a legal battle that resulted in the introduction of open competition for coal mining. James and Alexander had become business partners by 1852 and moved south of Newcastle where they established and worked a profitable mining enterprise. Their assets by 1857 included a ships’ chandlery, a fleet of steamships and an overseas trading business. They were the first firm to import rum, sugar and coffee into Newcastle. By 1892 they were exporting coal to New Zealand, China, North America, and various colonial ports. They had elaborate workshops to service their own steam engines and steamships. They were the first to use a steam collier vessel in Australian waters and they set up the second tug boat in Newcastle, the beginning of being owners of many more tug boats and performing a towing business. By 1868 James & Alexander Brown was the largest coal producer in the colony. James focused on managing the colliery and Alexander on overseas trade. It was estimated that the firm had produced over eight per cent of coal in New South Wales by 1914. James & Alexander Brown advertised in the Melbourne Herald in the early 1900s and kept an office at Queen Street, Melbourne as well as at the Wharf, stating their telephone numbers for both places. The coal was available for ‘Immediate Delivery’ for household and industrial purposes. The advertising claimed that their Pelaw Main coal was the famous household coal that met the highest test in Australia and burned bright and clean. Domestic customers could purchase the coal at the wharf or pay for delivery. Commercial customers could load their purchases into their steamships or wagons for further distribution into regional Victoria. After James’s death in 1894 his son John managed the firm, which was also known as J & A Brown. John passed away in 1930 and his sons took over. In 1931 the firm amalgamated with Abermain Seaham and the new name was J & A Brown & Abermain Seaham Collieries Ltd. commonly abbreviated to JABAS, which merged with Caledonian Collieries Ltd in 1960 and Coal & Allied Industries Ltd. was formed. The pair of nameplates is significant for its connection with the firm James & Alexander Brown. The firm was established in 1845 and became one of the largest collieries in colonial Australia. It was involved in trading within Australia and overseas. James was involved in the introduction of open competition for coal mining prices. They were the first to use a steam colliery in Australian waters and the first to import goods such as rum, sugar and coffee into New South Wales. The firm had a Melbourne office in the early 1900s, selling and distributing coal throughout Victoria, which likely included the Port of Warrnambool, which opened in 1890. The nameplates are likely to have originated from the Melbourne location.Brass Entrance Name Plate, one of a pair. Eight holes are formed through the plate; one in each corner, and four more holes are within the inscription area. The cast plate has three rows of text with the company’s name and type of business. The plate was owned by James & Alex. Brown. "JAMES & ALEXR. BROWN / COLLIERY PROPRIETORS / & STEAMSHIP OWNERS"flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, nameplate, james & alexander brown, j & a brown, james & alexr brown, colliery proprietors, steamship owners, ship chandlers, coal mine, coal export, australian import, australian export, newcastle, colliers, coastal trade, steamships -
Flagstaff Hill Maritime Museum and Village
Plaque - Nameplate, James & Alexander Brown, 1849 – 1931
This is one of two cast brass nameplates of James & Alexander Brown in our collection. The Newcastle, NSW, firm was renowned for its coal mining and exporting business established in colonial Australia in 1843. The firm had an office in Melbourne and sold coal for commercial use and from the Wharf for the domestic market. The coal was then distributed along the southwest coast of Victoria in steamships or steam packets and into the regional areas of Victoria by cart and wagon. In 1890 there was a strike of coal workers but the Geelong Advertiser, September 1, 1890, announced that “a firm of coal merchants only recently received some large cargoes from Newcastle”. This supply of coal could have originated at the colliery of James & Alexander Brown. About James & Alexander Brown: - James (1816-1894), John (1823-1846) and Alexander Brown (1827-1877) migrated with their parents from Scotland to Sydney, Australia, in 1842. The next year James leased land and was assisted by his brothers Alexander and John in mining coal in the area near Maitland. The market was very competitive, with the government controlling prices. James was instrumental in a legal battle that resulted in the introduction of open competition for coal mining. James and Alexander had become business partners by 1852 and moved south of Newcastle where they established and worked a profitable mining enterprise. Their assets by 1857 included a ships’ chandlery, a fleet of steamships and an overseas trading business. They were the first firm to import rum, sugar and coffee into Newcastle. By 1892 they were exporting coal to New Zealand, China, North America, and various colonial ports. They had elaborate workshops to service their own steam engines and steamships. They were the first to use a steam collier vessel in Australian waters and they set up the second tug boat in Newcastle, the beginning of being owners of many more tug boats and performing a towing business. By 1868 James & Alexander Brown was the largest coal producer in the colony. James focused on managing the colliery and Alexander on overseas trade. It was estimated that the firm had produced over eight per cent of coal in New South Wales by 1914. James & Alexander Brown advertised in the Melbourne Herald in the early 1900s and kept an office at Queen Street, Melbourne as well as at the Wharf, stating their telephone numbers for both places. The coal was available for ‘Immediate Delivery’ for household and industrial purposes. The advertising claimed that their Pelaw Main coal was the famous household coal that met the highest test in Australia and burned bright and clean. Domestic customers could purchase the coal at the wharf or pay for delivery. Commercial customers could load their purchases into their steamships or wagons for further distribution into regional Victoria. After James’s death in 1894 his son John managed the firm, which was also known as J & A Brown. John passed away in 1930 and his sons took over. In 1931 the firm amalgamated with Abermain Seaham and the new name was J & A Brown & Abermain Seaham Collieries Ltd. commonly abbreviated to JABAS, which merged with Caledonian Collieries Ltd in 1960 and Coal & Allied Industries Ltd. was formed. The pair of nameplates is significant for its connection with the firm James & Alexander Brown. The firm was established in 1845 and became one of the largest collieries in colonial Australia. It was involved in trading within Australia and overseas. James was involved in the introduction of open competition for coal mining prices. They were the first to use a steam colliery in Australian waters and the first to import goods such as rum, sugar and coffee into New South Wales. The firm had a Melbourne office in the early 1900s, selling and distributing coal throughout Victoria, which likely included the Port of Warrnambool, which opened in 1890. The nameplates are likely to have originated from the Melbourne location.Brass Entrance Name Plate, one of a pair. Eight holes are formed through the plate; one in each corner, and four more holes are within the inscription area. The cast plate has three rows of text with the company’s name and type of business. The plate was owned by James & Alex. Brown. "JAMES & ALEXR. BROWN / COLLIERY PROPRIETORS / & STEAMSHIP OWNERS"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, nameplate, james & alexander brown, j & a brown, james & alexr brown, colliery proprietors, steamship owners, ship chandlers, coal mine, coal export, australian import, australian export, newcastle, colliers, coastal trade, steamships -
Flagstaff Hill Maritime Museum and Village
Domestic object - Bread Board
In the high tech, fast paced society that we live in, it’s easy to take some things for granted. Case in point: the wood cutting board on which you’ll probably be preparing the evening’s dinner. Have you ever taken the time to think about the history of the cutting board? Where did it come from, and what did ancient civilizations use to cut their meats, fruits and vegetables? Wood throughout the ages Since the dawn of time, wood has been one of the most available materials used by mankind to build tools and lodgings, so it’s not really surprising to know that wood has been used in the preparation of food since the prehistoric ages. Of course, back then, cavemen probably used an unpolished slab of tree trunk to cut the kill of the day on and they probably didn’t think twice about saving it once the meal was over. Chances are they probably threw it in the fire with the rest of the wood needed to kindle it. Advances in technology Throughout the centuries, mankind evolved and started creating machines from steam, electricity and metal. When the circular saw was invented, nicer, cleaner slabs of wood were cut and used as cutting boards. Since soft wood was the most available type of wood at the time, it was the material of choice for to be used for cutting boards. Boards were made smaller since the slab of wood could now be cut to any desired size. Since they were made smaller, they were also used to eat off of and some people referred to them as trenchers. Trenchers were originally pieces of stale hard bread that were used as substitute plates. Wood trenchers quickly became the replacements of the eatable dinnerware. The butcher block: the cutting board’s larger cousin In the industrial ages, many industries rapidly developed, and the butchery industry followed this trend as well. Before the invention of the cutting board, butchers used tree rounds to carve their meat on. The rounds were often too soft and they rapidly became unsanitary. Hard maple wood butcher blocks were the preferred choice of the industry. They were made to be extremely thick and durable, so durable in fact, that a butcher could use the same block for almost his entire career. Cutting boards around the world As cutting boards began to be more and more used in kitchens around North America, the rest of the world crafted such boards from different materials. The East used thick bamboo as their material of choice. Despite its frail appearance, bamboo is quite strong and made durable cutting boards and butcher blocks. Europe used maple in the crafting of their cutting boards while Persia used flat pieces of polished wood in their kitchens. The world then saw cutting boards that were being made from other materials like plastic and they came in all shapes and sizes, but they always served the same purpose, to provide a household with a safe, clean surface on which to prepare meals for their friends and family members. https://www.woodcuttingboards.com/news/quick-history-of-the-cutting-board-47.aspxThe bread board is an example of kitchen equipment used during Victorian times and similar to those used today.Bread board wooden round with carved inner circle and carving an outer rim in old English lettering "Bread"None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chopping board, cooking, kitchen equipment -
Ballarat Tramway Museum
Book, "Flame proof air break switches for Voltages Not Exceeding 600Volts"s", 1926-1932
.1 - Book - 20 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Air-break knife switches and laminated brush switches for voltages not exceeding 660Volts" - C23 - 1926, August 1926" .2 - Book - 24 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Flame proof air break switches for Voltages Not Exceeding 600Volts", C25-1926, October 1926. .3 - Book - 24 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Flame proof air break circuit breakers for Voltages Not Exceeding 600Volts", C26-1926, October 1926. .4 - Book - 24 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Totally Enclosed air-break Circuit Breakers for Voltages not exceeding 660 Volts" - C27 - 1926, September 1926. .5 - Book - 24 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Totally Enclosed air-break Switches for Voltages not exceeding 660 Volts" - C28 - 1926, December 1926. .6 - Book - 24 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard "Metallic Resistance Materials for Electrical Purposes" - C29-1926, November 1926. .7 - Book - 28 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Face Plate controllers and resistances for use therewith Electric Motors (DC and AC Slip ring)" - C31-1926 - December 1926. .8 - Book - 28 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Australian Standard "Contactor Controllers and Resistances for use therewith Electric Motors (DC and AC Slip ring)" - C32-1926 - December 1926. .9 Book - 36 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Electrical Performance of Industrial Electric Motors and Generators with class A insulation" - C34-1927, October 1927 with a green label dated September 1932 advised that the tentative standard has been endorsed as a Standard with amendment. .10 - Book - 56 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard - "Electrical Performance of Large Electric Generators and Motors - Rating permitting overloads" - C35-1927, April 1927 with a green label dated September 1932 advised that the tentative standard has been endorsed as a Standard with amendment. On top right hand corner has the date stamp of the "The Electric Supply Co. of Victoria Ltd Ballarat" trams, tramways, power station, standards, materials, electrical systems -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Flagstaff Hill Maritime Museum and Village
Functional object - String Dispenser, Lovell Manufacturing Company, 1900-1948
The string has long been a household and office utility, but an easily tangled one. generations of manufactures have devised cast-iron string holders and string reels in an attempt to distribute this material more efficiently. Many different designs of cast-iron string holders exist some nickel, others painted many had an open pattern so clerks behind the counter of the general store could see at a glance if he or she was about to run out of string. In the 20th century, string holders became more decorative, morphing into novelty items for the home. History: Starting from 1869, the young carpenter by trade, Melvin Newton Lovell (1844-1895) from Erie, Pennsylvania, later a manufacturer and successful businessman, was granted numerous patents for various devices, between them several patents for adding machines and cash registers in 1891. The Lovell Manufacturing Company was founded by Melvin Newton Lovell who was born in Allegheny, Venango county, Pennsylvania, on 31 August 1844, to Darius T. Lovell (1815-1855) and Susan B. (Conover) Lovell (1827-1883). When Melvin Lovell was a boy, the family moved to Kerrtown, a village located in the vicinity of Titusville, Pennsylvania. There Melvin served an apprenticeship as a carpenter's and his natural mechanical talent, soon enabled him to become a skilled workman. In 1861, at seventeen years of age, Melvin left home, without parental authority, and joined the Union Army soon after the outbreak of the Civil war, in August 1862, he enlisted as a private in the 127th Pennsylvania Volunteer Infantry, and was discharged the end of May 1863. In 1865 he took up residence in Erie, where he worked as a carpenter for some years. In 1869 Melvin Lovell invented and patented several useful articles for household use, and in that year he began the manufacturing certain of these inventions, in partnership with Franklin Farrar Adams, another inventor. The company's principal products were washing machines and step-ladders but also made many other cast iron household items known as the “Anchor Brand” when manufacturing began in earnest in 1881. As a result, the Lovell Manufacturing Company grew to be one of the largest industrial concerns of its kind in the country, recognized as being the most extensive manufacturer of clothes-wringers in the entire world. Lovell established sales agencies for his products in all parts of the country, and these branches were known as the Lovell stores. These goods were sold on the instalment plan, an innervation at the time for which Lovell was credited as the originator. Lovell invented and patented the famous wringer which bears his name, and in later years he confined his operations largely to the manufacture and improvement of this invention. Lovell was also one of the organisers and stockholders of the Combination Roll & Rubber Manufacturing Co, of New York, which was formed to manufacture his patents. With headquarters in New York and a factory at Bloomfield, New Jersey. Unfortunately, during a trip to Atlanta, while representing the state of Pennsylvania at a trade exposition, he passed away in his prime, on 21 November 1895, and was buried in Erie Cemetery, Erie, PA. Today the Lovell Manufacturing Company and foundry is preserved and situated at Lovell Place 1301 French Street Erie Pennsylvania, the site is regarded as a historic complex and national historic district. It includes nine contributing buildings built between 1883 and 1946 and has now been converted to luxury apartments.An item used in shops, offices etc to dispense string although the item was commonly found in many areas of general commerce. It was made by a factory and patented in the USA by Melvin Lovell who had invented the first adding machine and the original mangle or wringer washing machine used in every house throughout the world from 1891 and the forerunner to our modern day washing machines. Its age and connection to this once notable maker and his company and it's age makes it an interesting item from a historical view point.Dispenser,cast iron for string with a central rod & 2 curved handing hooks. Marked Anchor Brand & blue in colour.flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, melvin newton lovell, string dispenser, string, packaging, anchor brand -
Victorian Interpretive Projects Inc.
Photograph - digital, Murtoa Stick Shed 00031, 13/08/2011
From the Victorian Heritage Register statement of significance H0791 The Marmalake/Murtoa Grain Store, originally the No.1 Murtoa Shed, is located within the Murtoa Grain Terminal, adjacent to the grain elevator tower and railway line. The shed is 280m long, 60m wide and 19m high at the ridge with a capacity of 3.4 million bushels. The hipped corrugated iron roof of the shed is supported on approximately 600 unmilled hardwood poles set in a concrete slab floor and braced with iron tie rods. These poles are the reason for use of the term "stick shed". With its vast gabled interior and the long rows of poles the space has been likened to the nave of a cathedral. An elevator at one end took wheat from railway trucks to ridge level where it was distributed by conveyor along the length of the shed, creating a huge single mound of grain. Braced internal timber bulkheads on either side took the lateral thrust of the wheat, and conveyors at ground level outside the bulkheads took wheat back to the elevator for transport elsewhere. Wheat had been handled in jute bags from the start of the Victorian wheat industry in the mid nineteenth century. Bulk storage had been developed in North America from the early 1900s. NSW began building substantial concrete silos from 1920-21. In Western Australia, farmers' co-operatives, who had to supply their own bulk storage from 1934-5, pioneered the use of low-cost horizontal sheds of timber and corrugated iron for bulk storage. Following its establishment in 1935 the Victorian Grain Elevators Board (GEB) planned a network of 160 concrete silos in country locations, connected by rail to the shipping terminal at Geelong. By the outbreak of the Second World War there was a worldwide glut of wheat, and Australia soon had a massive surplus which it was unable to export. Only 48 silos had been established under the Victorian Silo Scheme so far, and wartime material and labour restrictions prevented progress with this scheme. The storage deficit had become an emergency by 1941 as Britain obtained its imports from North America, rather than over the lengthy and difficult shipping route from Australia. In 1941 the GEB, under chairman and general manager Harold Glowrey, proposed large temporary versions of the horizontal bulk storage sheds already in use in Western Australia. The proposal was approved by the Victorian Wheat and Woolgrowers Association, who considered the use of shed storages as a longer term proposition. After initial resistance from the Australian Wheat Board, some of whose members represented wheat bagging interests, the Commonwealth and Victorian governments agreed to split the costs, and Murtoa was chosen as a suitable site for the first emergency storage. The main contractor, Green Bros, commenced work on the No.1 Murtoa Shed in September 1941, deliveries of bulk wheat began in January 1942, and the store was full by June of the same year. In the following years the Council for Scientific and Industrial Research (later CSIRO) conducted valuable research and experiment on the impacts and control of insect pests at the Murtoa No.1 shed. With these discoveries, and the development of more effective pesticides, use of the No.1 shed and the larger No.2 shed, erected in 1942/43, continued for many years. The No.2 shed was demolished in 1975. By the 1990s, pest resistance to pesticides and requirements for both pest free and insecticide free grain rendered open storage of this type unviable. The No. 1 store was also becoming increasingly expensive to maintain, and its use was phased out from 1989.Image of the Marmalake/Murtoa Grain Store which is of historical, architectural, scientific (technical) and social significance to the State of VictoriaDigital colour image of the interior of the Marmaduke . Murtoa grain storage facility better known as the Stick Shed. The shed was constructed in World War Two to store grain. The supporting columns are trees.marmalake, murtoa grain store, wheat store, stick shed, murtoa -
Flagstaff Hill Maritime Museum and Village
Container - Medicine Glass, late 1880's
This medicine glass was previously owned by Sybilla Margaret Kucks (1904-1978), daughter of Henry and Julia Kucks, and granddaughter of William and Sibilia Kucks. Sibilla was born in Warrnambool and lived there until 1917 when she moved to Armadale, Victoria, with her family. The medicine glass was among her effects left to her nephew William when she passed away and has been looked after by his wife Eva and treasured as a memento of their Warrnambool heritage. Mrs Sibilla Kucks sold sweets and fancy cakes in her Liebig Street shop from 1873 until the 1880s. She operated one of Warrnambool’s earliest dedicated confectionery shops at a time when sweets were more commonly found in a fruiterer’s shop. Her window display would have been full of brightly coloured sweets in shiny glass jars tempting passers-by. Sibilla (née Leyendecker) married Johann Wilhelm Kucks in New York, USA in 1856. Both were originally from Prussia. They sailed to Australia on the Ocean Rover and arrived in Melbourne June 10th, 1858. Seventeen days later their second child, William Jnr., was born. Warrnambool’s population was around 2,000 in 1859 when Sibilla and Johann (known as “William”) settled here. William was employed as a tailor by Cramond & Dickson. In 1859 the couple bought George Fergusson’s bakery in Timor Street and opened it as “W. Kucks Baker”. Along with fancy breads and biscuits, he advertised baked dinners to order. William supplied bread to the Warrnambool Hospital until the 1880s. In 1873 William built a row of four shops at 140-146 Liebig Street, one of which became Sibilla’s confectionery shop, and another was the new home to W. Kucks Baker. In 1877 William constructed a building in Liebig Street for the Warrnambool Steam Packet Company, which has since been incorporated into the Warrnambool Art Gallery. Its western wall shows to older construction and design. William and Sibilla had five other children. By 1896 their sons William Jnr. and Henry operated the business as “Messrs Kucks Bros., Bakers & Confectioners”. They employed six staff and used three carts for deliveries over a thirty-mile radius. They catered for clubs and functions including the Exhibitors’ Picnic Luncheon for the Warrnambool Industrial and Arts Exhibition (1896-7). In 1907 Messrs Kucks Bros. baked a monster Pyramid Cake for a local bazaar. It contained coins of various sizes and weighed 84lbs (38kg). Everyone buying a slice hoped to be lucky enough to end up with a coin! William Kucks Jnr. also became licensee of Terang’s ”Wheatsheaf Hotel”, its name and logo connecting it to the family’s bakery in Warrnambool. William (1825-1911) and Sibilla (1833-1910) Kucks and three of their seven children are buried at the Warrnambool Cemetery in a family grave. John Sambell migrated from England and established his chemist and dentist business in Warrnambool around 1890 in his premises in Fairy Street. The business later included his son Herbert. The maker, Whitall Tatum & Co, is clearly marked on the base of the bottle. The company was a a well known maker of prescription bottles. He used the brand "W. T. & Co. from Mid-1870's until the late 1880's, moulded into his glassware. This medicine glass is significant as one of very few remaining items from the history of John Sambell, chemist and dentist, Warrnambool. It is also significant as an example of medical equipment that has a design still used today. It is also significant for its association with William and Sibilla Kucks, a colonial family in Warrnambool that was greatly involved in the community and commerce of early days in Warrnambool.Medicine glass, (measuring glass or dose cup), clear glass, round. The antique chemist measuring glass is wide at the top and tapers to a narrow base. The glass has side seams and an uneven base. The glass has imperfections ans bubbles. The base is uneven. The measuring scale lines have been scored into the glass and the measurements and other inscriptions have been moulded into the glass. Glass is from J. Sambell, chemist and dentist in Warrnambool. On the back there is a measuring scale in tablespoons and teaspoons. There is also an inscription of the maker on the base. The glass was made in the late 1880's by Whitall Tatum & Co., America.Embossed within a round border "J. SAMBELL / CHEMIST / AND / DENTIST / WARRNAMBOOL" The scale on the back has "TABLE" "1" and "2", and "TEA" "8", "4", "2" and "1" The base has "W.T. & CO." around the edge.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, medicine glass, measuring glass, dose cup, medicine dispensing, medicine measurement, sambell pharmacy warrnambool, sambell chemist and dentist, warrnambool chemist, history of warrnambool, early 20th century chemist, john sambell, medical equipment, warrnambool medical services, kucks family in warrnambool, william and sibilla kucks descendant, mrs kucks' confectionery, william kucks baker, warrnambool dentist, herbert sambell, whitall tatum & co, w. t. & co., warrnambool steam packet, warrnambool art gallery -
Bendigo Historical Society Inc.
Photograph - NICHOLAS CAIRE VIEWS OF BENDIGO
Full set (52 photos) of Nicholas Caire ''Views of Bendigo'' photographs. 1) Sandhurst East with a portion of the City Reserve. 2) New Chum line of reef. 3) Sandhurst-North part as seen from the top of the Masonic Hall. 4) The Hustler's line of reef seen from Redan Hill. 5) Battery of stampers for crushing quartz 6) View of Sandhurst as seen from the top of the New Masonic Hall. 7) Excavation of quartz reef near Ironbark Hill. 8) St. Paul's Church, tower and belfry. 9) View of the Camp Reserve as seen from the Court House. 10) View of North Old Chum showing surface excavations. 11) View as seen from the Camp Hill near the lodge. 12) Garden Gully amalgamated claims. 13) Shamrock Hotel, Sandhurst. 14) View as seen from Court House showing the willows & East Pall Mall. 15) Wesleyan Church, Golden Square. 16) Savings bank, Sandhurst. 17) The Bendigo district hospital. 18) Interior of the Wesleyan Church, Golden Square. 19) View of Golden Square township. 20) The Town Hall, City of Sandhurst. 21) The City Hotel, Sandhurst. 22) Pall Mall, Sandhurst. 23) Sandhurst City Market. 24) Pall Mall, Sandhurst looking west. 25) View from Camp Hill looking north - east 26) View of Charing Cross, Sandhurst. 27) View of Sandhurst as seen from Knipe's Castle. 28) Township of Long Gully. 29) View taken from St. Paul's tower. 30) View of the Sandhurst cemetery at back creek. 31) Kock's pioneer quartz crushing plant, Long Gully. 32) The New Masonic Hall, Sandhurst. 33) The Bendigo benevolent asylum and industrial school. 34) Bendigo flat as seen from Wattle Hill. 35) View of Old Chum Hill. 36) New Chum Gully as seen from Specimen Hill. 37) Township of Eaglehawk. 38) View from St. Paul's tower looking south west. 39) View of the railway tunnel through the Big Hill, near Mt. Herbert. 40) View taken from St. Paul's looking south. 41) Scene taken from St. Paul's tower looking eastward. 42) View of Sandhurst from St. Paul's tower looking north-west. 43) The great extended Hustler's co's. quartz mining claim. 44) View from the Big Hill showing the line of railway to Melbourne. 45) View from St. Paul's Church tower looking westward. 46) View from St. Paul's Church tower looking north-west. 47) Scene near the Big Hill ranges taken from Mr. Buick's residence. 48) View from St. Paul's Church tower looking north eastward. 49) Township of Eaglehawk 50) View of Mitchell Street, Sandhurst. 51) Botanical gardens near the White Hills. 52) View Point, Sandhurst.bendigo, streetscape, various views, nicholas cairne -
Bendigo Historical Society Inc.
Book - IAN DYETT COLLECTION: THE LOCAL HEROES
66 page booklet titled The Local Heroes real people, real lives, real stories… Front cover is off white at the top and patterned yellow shades at the bottom with the title in the centre, City of Greater Bendigo above. Background to the Local Heroes Project, drafted by Dr Gan Che ng PhD. MA. Inside the front cover. Photos, names of Students, Principal and Teachers of Bendigo South East College Team, Catholic College Bendigo Team, Eaglehawk Secondary College Team, Girton Grammar School Team and Weeroona College Bendigo team are in the front of the book. There is information about the project. Photo and information about Simmon Pang - Project Initiator/Photographer. Foreword by The Hon. Martin Dixon MP - Minister for Education Victoria with photo and Foreword - Cr Lisa Ruffell - Mayor of the City of Greater Bendigo. The following pages have a short synopsis and photo of Barry Ackerman - Expert in the Rubber Industry & Twice Mayor, Joanne Baker - Founder of Righteous Pups Australia, Linda Beilharz OAM - Intrepid Adventurer, Valerie Broad OAM - Founder & Artistic Director of Youth Choir, Paul Chapman - Co-Founder of The Australian Turntable Company, Susanne Clarke - Passionate about Community Engagement, Patrick (Pat) James Connolly - Bendigo Amateur Boxing Club Coach, Robert Jackson (Cookie) Cook - Founder of Horizon House, Geoff Curnow - Farmer & Community Volunteer, Merna Curnow - Farmer & Agricultural Consultant, Jenny Dawson - Accounting & Banking, Laura Dusseljee - Choir Director & Music Teacher, Ian Maxwell Dyett JP - Life Dedicated to Volunteering, Donald James Erskine - Founder of Industrial Conveying Australia, James Victor Evans - Teacher, Historian & Actor, Rod Fyffe - Champion of Arts & Culture, Richard Guy OAM - banker & Philatelist, Edwin Richard (Dick) Hazeldene OAM - Chicken Farmer to Poultry Entrepreneur, Robert (Rob) Hunt AM - Head of Bendigo Adelaide Bank and Founder of Community Banking Model, Russell Goldfield Jack AM - Founder of Golden Dragon Museum, Jack Kelly - Teacher Sharing Experience, Ian George Mansbridge - Farmer, Accountant & Banker, Ken Marchingo - Instigator of Haven; Home Safe, Elizabeth (Beth) McKerlie OAM - Dedicated to Scouting, Gordon McKern OAM - Founder of McKern Steel, Sharelle McMahon - Netballer Extraordinaire, Lola Mary Miller AM BEM - Teacher of Health & Physical Education, Julie Millowick - Accomplished Photographer, Educator & Artist, Dennis Reginald O'Hoy - Academic & Historian, Margaret O'Rourke - A Champion for Connected Communities, Karen Quinlan - Director of Bendigo Art Gallery, Jonathan William Ridnell - Broadcaster, Leon Maxwell Scott OAM - Business Entrepreneur & Rotary Volunteer, Margot Elizabeth Spalding - Co-founder of Jimmy Possum Designer Furniture, Wendy Diane Stavrianos - Painter, Sculptor & Installation Artist, Jack Taylor OAM JP - An Eaglehawk Legend, Wes Vine - School Principal & Vigneron, Lynn Warren - Aboriginal Elder, Raymond James Wild - A Plumber's Story, Diana Williams - Founder of Fernwood Fitness and John Wolseley - International Artist. The back cover also has small photos and the names of people mentioned.ian dyett collection - the local heroes, city of greater bendigo, dr gan che ng, la trobe ubiversity bendigo, bendigo south east college, catholic college bendigo, eaglehawk secondary college, girton grammar school, weeroona college bendigo, simmon pang, the hon martin dixon mp, cr lisa ruffell, bendigo art gallery, city of greater bendigo, the capital - bendigo's performing arts centre, la trobe university australia, catholic kiocese of sandhirst, haven home safe, the hotel shamrock bendigo, hazendene's, bendigo & district aboriginal co-operative, mr baillieu myer ac, bendigo advertiser, australian broadcasting corporation, bendigo chinese association inc - lion team, wannik dance academy dancers, bendigo forever young choir, bendigo youth choir -
Federation University Historical Collection
Pamphlet - Promotional brochure, Bachelor of Visual Arts, Graphic Design/Multimedia, c1999
Promoting the Graphic Design/Multimedia program being offered by the University of Ballarat at the Mt Helen Campus. Promoted course as "one of the smallest and arguably the best three year programs of its kind in Australia and the South Pacific region." The brochure lists student awards received including Platinum and Gold in the AGFA International Young Designer Contest, 1999; two meritorious awards in The Art Directors Club Student Awards, New York, USA 1999; Graphis New Talent 1999; two Gold in Souther Cross Packaging Awards, 1998. At time of publication, the School of Arts, Visual Arts reportedly had 210 students with majors in Graphic Design/Multimedia, Ceramics/3D, Painting, Drawing, and Multidiscipline. Minors studies included Printmaking, Photography, 3D, 2D, and Graphic Communication. ___ Course aimed to train "independent, flexible thinkers". The course promised to "Promote creativity, originality and imaginative thinking; Develop self-directed learners, displaying initiative in the formation of ideas and the confidence to construct personal responses; Develop appropriate conceptual, technical and professional skills; Develop the student's critical process: ability to undertake research, and to make informed decisions; Clarify thinking, concepts and understanding and deep knowledge, attitudes and skills enabling the designer to respond to community needs." Studio and working environment described as "one open space with working facilities for approximately 75 students across 3 year levels. The area is divided up into work stations where 1st, 2nd and 3rd year students intermix, allowing a natural interaction. These workstations are configurations of six, consisting of two students from each year level. This reinforces the area's ongoing development with an open ethos and cross-level delivery and learning. This maximises the use of information in order for it to be applied throughout all levels of the learning process, whilst allowing a natural mentor arrangment to be developed for all first year students, " "The open ethos approach also encourages students and staff to freely express their opinions in relation to design via cross-level critiques, whilst allowing for a liberal arts approach and structure to the development of the creative process." "Emphasis is placed on experimentation, innovation, expression and the development of the individual's design philosophies, concepts and style." Also notes the 24 hour access Macintosh laboratory, with 34 Power Macintosh computers, ratio of one for every 2.5 students. Each with a Fujitsu Dyna Magneto Optical drive for file storage and transport. Two Sharp scanners, Phaser Dye-Sublimation Extra Tabloid colour printer and Ricoh A3 colour printer. Two large format printers. Digital and video cameras. Software: Adobe Photoshop, Illustrator, Acrobat; QuarkXpress; Macromedia Freehand; Pagemaker; Premier; Director; 3D Extreme; Sound Eidt, Shockwave, Infinite 3D and After Effects. Approx 4.5 staff, "all of whom are practicing designers. They have a full understanding of industry requirements and trends which assists in the development of industrial contacts when specialists are required." Prospective students interviewed in late Nov/ early Dec, face to face. Present a "comprehensive folio of work", academic records, references. "Selection is determined by the perceived potential of the student, their motivation and reason for study within the field as well as their previous experience in the Visual Arts. Folio work should be representative of the individual's ideas and abilities. Qualities of importance are: originality, innovation, imagination, experimentation and a competent display of the basic skills associated with visual arts [evidence of drawing skills should be included]." Demonstration of GD/MM computer skills an advantage. Students also asked to bring sketch books. Promotional brochure for prospective students. 8pp Double fold brochureuniversity of ballarat, federation university, graphic design, multimedia, bachelor, degree -
Flagstaff Hill Maritime Museum and Village
Clock, 1867-1870
Chauncey Jerome (1793–1868) was an American clock maker in the early to mid 19th century. He made a fortune selling his clocks, and his business grew quickly. Jerome was born in Canaan USA in 1793 son of a blacksmith and nail-maker. He began his career in Plymouth, making dials for long-case clocks where he learned all he could about clocks, particularly clock cases, and then went to New Jersey to make seven-foot cases for clocks mechanisms. In 1816 he went to work for Eli Terry making "Patent Shelf Clocks," learning how to make previously handmade cases using machinery. Deciding to go into business for himself, Jerome began to make cases, trading them to Terry for wooden movements. In 1822 Jerome moved his business to Bristol New Haven, opening a small shop with his brother Noble and began to produce a 30-hour and eight-day wooden clocks. By 1837 Jerome's company was selling more clocks than any of his competitors. A one-day wood-cased clock, which sold for six dollars had helped put the company on the map. A year later his company was selling that same clock for four dollars. The company also sold one line of clocks at a wholesale price of 75 cents and by 1841 the company was showing an annual profit of a whopping $35,000, primarily from the sale of its brass movements. In 1842 Jerome moved his clock-case manufacturing operation to St. John Street in New Haven. Three years later, following a fire that destroyed the Bristol plant, Jerome relocated the entire operation to Elm City factory. Enlarging the plant, the company soon became the largest industrial employer in the city, producing 150,000 clocks annually. In 1850 Jerome formed the Jerome Manufacturing Co. as a joint-stock company with Benedict & Burnham, brass manufacturers of Waterbury. In 1853 the company then became known as the New Haven Clock Co, producing 444,000 clocks and timepieces annually, then the largest clock maker in the world. Jerome's future should have been secure but in 1855 he bought out a failed Bridgeport clock company controlled by P.T. Barnum, which wiped him out financially, leaving the Jerome Manufacturing Co. bankrupt. Jerome never recovered from the loss. By his admission, he was a better inventor than a businessman. When Jerome went bankrupt in 1856 the New Haven Clock Company purchased the company. One of the primary benefits of Jerome purchasing New Haven in the first place was the good reputation of the Jerome brand and the network of companies that remained interested in selling its clocks. In England, Jerome & Co. Ltd. sold Jerome clocks for the New Haven company until 1904, when New Haven purchased the English firm outright. After his involvement with the New Haven Company in 1856, Jerome traveled from town to town, taking jobs where he could, often working for clock companies that had learned the business of clock making using Jerome's inventions. On returning to New Haven near the end of his life, he died, penniless, in 1868 at the age of 74. The company struggled on after Jerome's bankruptcy until after World War II, when the company endeavored to continue through disruptions caused by a takeover along with poor sales, finally having to fold its operations in 1960 a little more than 100 years after it had been founded. The item is significant as it is associated with Chauncey Jerome who had made a historic contribution to the clock making industry during the 19th century when he began to substitute brass mechanisms for wooden mechanisms in his clocks. This was said to be the greatest and most far-reaching contribution to the clock industry. Because of his discovery of stamping out clockwork gears rather than using castings, Jerome was producing the lowest-priced clocks in the world. That can only add to his significance as the major clock manufacture of the 19th century. Jerome may have made and lost, a fortune selling his clocks but was perhaps the most influential and creative person associated with the American clock business during the mid-19th century. Also, he had served his community as a legislator in 1834, a Presidential elector in 1852 and mayor of New Haven, Connecticut from 1854 to 1855.Eight day movement wall clock with Roman numerals, octagonal shaped rosewood veneered casing, hinged face with locking clip. Wound from front. Face has adjustment for Fast-to-Slow.Part paper label on back of case can just make out "Jerome" and "ight and One" probable meaning is "Eight and One Day" describing the movements operational time between winding the mechanism.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock maker, jerome & co, new haven, chauncey jerome, canaan -
Flagstaff Hill Maritime Museum and Village
Clock, 1867-1870
Chauncey Jerome (1793–1868) was an American clock maker in the early to mid 19th century. He made a fortune selling his clocks, and his business grew quickly. Jerome was born in Canaan USA in 1793 son of a blacksmith and nail-maker. He began his career in Plymouth, making dials for long-case clocks where he learned all he could about clocks, particularly clock cases, and then went to New Jersey to make seven-foot cases for clocks mechanisms. In 1816 he went to work for Eli Terry making "Patent Shelf Clocks," learning how to make previously handmade cases using machinery. Deciding to go into business for himself, Jerome began to make cases, trading them to Terry for wooden movements. In 1822 Jerome moved his business to Bristol New Haven, opening a small shop with his brother Noble and began to produce a 30-hour and eight-day wooden clocks. By 1837 Jerome's company was selling more clocks than any of his competitors. A one-day wood-cased clock, which sold for six dollars had helped put the company on the map. A year later his company was selling that same clock for four dollars. The company also sold one line of clocks at a wholesale price of 75 cents and by 1841 the company was showing an annual profit of a whopping $35,000, primarily from the sale of its brass movements. In 1842 Jerome moved his clock-case manufacturing operation to St. John Street in New Haven. Three years later, following a fire that destroyed the Bristol plant, Jerome relocated the entire operation to Elm City factory. Enlarging the plant, the company soon became the largest industrial employer in the city, producing 150,000 clocks annually. In 1850 Jerome formed the Jerome Manufacturing Co. as a joint-stock company with Benedict & Burnham, brass manufacturers of Waterbury. In 1853 the company then became known as the New Haven Clock Co, producing 444,000 clocks and timepieces annually, then the largest clock maker in the world. Jerome's future should have been secure but in 1855 he bought out a failed Bridgeport clock company controlled by P.T. Barnum, which wiped him out financially, leaving the Jerome Manufacturing Co. bankrupt. Jerome never recovered from the loss. By his admission, he was a better inventor than a businessman. When Jerome went bankrupt in 1856 the New Haven Clock Company purchased the company. One of the primary benefits of Jerome purchasing New Haven in the first place was the good reputation of the Jerome brand and the network of companies that remained interested in selling its clocks. In England, Jerome & Co. Ltd. sold Jerome clocks for the New Haven company until 1904, when New Haven purchased the English firm outright. After his involvement with the New Haven Company in 1856, Jerome traveled from town to town, taking jobs where he could, often working for clock companies that had learned the business of clock making using Jerome's inventions. On returning to New Haven near the end of his life, he died, penniless, in 1868 at the age of 74. The company struggled on after Jerome's bankruptcy until after World War II, when the company endeavored to continue through disruptions caused by a takeover along with poor sales, finally having to fold its operations in 1960 a little more than 100 years after it had been founded. The item is significant as it is associated with Chauncey Jerome who had made a historic contribution to the clock making industry during the 19th century when he began to substitute brass mechanisms for wooden mechanisms in his clocks. This was said to be the greatest and most far-reaching contribution to the clock industry. Because of his discovery of stamping out clockwork gears rather than using castings, Jerome was producing the lowest-priced clocks in the world. That can only add to his significance as the major clock manufacture of the 19th century. Jerome may have made and lost, a fortune selling his clocks but was perhaps the most influential and creative person associated with the American clock business during the mid-19th century. Also, he had served his community as a legislator in 1834, a Presidential elector in 1852 and mayor of New Haven, Connecticut from 1854 to 1855.Clock, marine, in octagonal rosewood veneer case. Roman numerals to dial, has a seconds dial. 2 key-winding holes slow-to-Fast adjustment pin through dial. Small lever in lower edge of case activates a chime. "8 day, 8 inch, Lever Striking escarpment " Paper label on the back of the clock "Jerome & Co, New Haven, Conn" "Manufacturers of every variety of Office and Home Clocks and Time Pieces".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock, jerome & co, new haven, clock maker, chauncey jerome -
Flagstaff Hill Maritime Museum and Village
Domestic object - Chair, Early 20th Century
The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair wooden varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned wood. Back rest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry -
Flagstaff Hill Maritime Museum and Village
Domestic object - Chair, Early 20th Century
The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair wooden varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned' wood. Backrest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry -
Flagstaff Hill Maritime Museum and Village
Domestic object - Chair, Early 20th Century
The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned wood. Back rest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry -
Eltham District Historical Society Inc
Photograph, Opening of the Railway Line; The arrival of the Governor-General, 6 June, 1902, 1902
Published: The opening of the railway line by His Excellency The Governor General, The Weekly Times, June 14, 1902, p10. Governor General was John Hope, Earl of Hopetoun THE HEIDELBERG TO ELTHAM RAILWAY. OPENING CEREMONY. The opening of the railway line from Heidelberg to Eltham took place on the 6th inst. The special train, containing a large number of members of Parliament, including Mr Trenwith, the Minister for Railways, left Prince's Bridge at half-past eleven, and arrived at Eltham at twenty minutes past twelve. The party was accompanied by Mr Fitzpatrick, Acting Commissioner for Railways; Mr Lockhead, the Traffic Manager; and Mr Norman, Engineer for Existing Lines. On arrival, the visitors were entertained at a banquet in the marquee, of which a photograph is given, erected close to the railway station. Mr E. H. Cameron, M.L.A., the member for the district, occupied the chair, and, seated on his right, was Mr Mason, the Speaker of the Legislative Assembly, and on his left the Minister of Rail-ways. After the banquet His Excellency the Governor-General arrived, and was received and welcomed by Mr Cameron, the local State school children singing the National Anthem. The Governor-General, in declaring the line open, said that he felt highly honored at being asked to perform the opening ceremony, and he trusted that the railway would be a source of great convenience to the inhabitants of the district. He was sorry to say that this would be the last opportunity he would have of seeing them. It cost him a great deal to leave them. (Hear, hear.) He had a great many friends amongst all sections of the community, and he could hardly bear to trust himself to speak about leaving them. (Hear, hear.) He was sorry Lady Hopetoun was on the high seas, and unable to accompany him that day. Mr Cameron thanked his Excellency for performing the opening ceremony, and hoped the trip home would have the effect of restoring His Excellency to good health again. In replying. Lord Hopetoun thanked them sincerely for the cordial vote of thanks. He hoped Providence would shower her blessings over them, and that they would have a series of good seasons. He would always keep a warm corner in his heart for the people of Victoria. (Loud cheers.) THE COUNTRY. In our illustrations, views are given of a couple of sections of the new line, and glimpses of the surrounding country are shown. The line is eight miles in length, and cost £51,000 in construction. Eltham, which is the terminus, possesses many of the features that go to make a favorite holiday resort. It is a quiet picturesque little hamlet, snugly ensconced on the slope of one of many sombre-tinted hills by which it is sur-rounded. Even when viewed under ad-verse conditions one could not fail to be-impressed with the natural, rugged beauty of the place. It is situated about sixteen miles from Melbourne, and the line takes a circuitous course through a continuation of pretty undulating country. At intervals on the slopes of the surrounding green-mantled hills, patches of brown, freshly tilled soil indicate that for all its serene reposeful-ness Eltham possesses its phases of industrial life as well. Looking down into this valley from the main road which skirts the slope of a hill, distant something less than a quarter of a mile from the railway station is one of the prettiest pieces of scenery in the district. Verdure-clad hills ascend on all sides, whilst beneath stretches a broad expanse of carpet-like green sward, dotted here and there with picturesque homesteads, each with its patches of tilled soil. In the township itself the dwelling-houses are comparatively few, the larger portion of the inhabitants residing in the scattered homesteads. Eltham is as yet only in its youth, but energetic and un-tiring public men can effect wonders in a community's prosperity, and Eltham, whatever other real or imaginary advantages it may lay claim to, certainly possesses this one. The railway is the result of their endeavor. 1902 'THE HEIDELBERG TO ELTHAM RAILWAY.', Weekly Times (Melbourne, Vic. : 1869 - 1954), 14 June, p. 14. , viewed 26 Sep 2018, http://nla.gov.au/nla.news-article221230719This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book,"Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as the 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital image Negative black and white film 120 6x9 format 2 stripsAgfa APX 100sepp, shire of eltham pioneers photograph collection, eltham, heidelberg-eltham railway extension, earl of hopetoun, john hope, opening day, railway line construction -
Melton City Libraries
Newspaper, Lack of support may close hall, 1977
"The Mechanics Institute movement flourished in Victoria from 1839 to 1950. It was based on the development of Mechanics’ Institutes in Scotland and England from the 1820s, which were intended to educate and enlighten the working classes. The term ‘mechanic’ in those days meant an artisan, craftsman or working man, especially those who had moved from rural areas to work in new city factories during the Industrial Revolution. The early Institutes were usually equipped with a reading room, a library and a lecture room. Although enjoying mixed success in Britain, they contributed to the development of public education and library services. The movement was adopted more enthusiastically in the colonies. It began slowly in Victoria but its expansion after the gold rushes population influx was rapid, especially in rural areas. Every suburb and town wanted to have a Mechanics’ Institute. During the 1850s approximately forty Institutes were established, with even greater growth in the period 1860 to 1900. By 1900 there were 400 Institutes in Victoria. The establishment of a Mechanics’ Institute was often a great achievement for a local community, requiring organising committees to raise substantial funds for a building site (where this had not been granted by the Government), and the building. Once built, the committee then had to purchase books, provide a caretaker or librarian, and finance the ongoing use of and improvements to the building. ‘The history of many Institutes is a story of tremendous community effort, and often, financial difficulties’. In addition to being monuments to local enterprise and community life, the Mechanics’ Institutes played a vital role as an intellectual forum, and in contributing to an informed and participatory democracy in the late nineteenth and early twentieth centuries. They provided journals and other reading matter on local, state, national and international issues, and hosted of lectures and held debates about wider issues such as Federation, colonial nationalism, defence, female suffrage, the price of land and labour. With the development of the school and technical education in the latter part of the nineteenth century, the need for community technical and adult education declined. As a result of the introduction of government library grants in 1867, many Mechanics’ Institutes incorporated a free library in their buildings to finance collection of their books. By 1884-85, there were 257 free libraries in Victoria. However, government support and library grants dropped off in the 1890s depression. Entertainment took on a greater role in the 1890s, with the introduction of moving pictures, billiards rooms, games rooms (chess), concerts and dances. The First World War had a devastating impact on many rural communities, and some Mechanics’ Institutes were no longer viable. On the other hand the early twentieth century was also a time of agricultural development, and many country towns were growing in this period. The 1930s depression further limited growth of many libraries and reduced grants substantially. In response many Mechanics’ Institutes were renamed, for example as memorial halls, in order to retain and attract more patrons (eg at nearby Sunbury). The diminishing role for Mechanics’ Institutes and the preference for larger and better appointed halls (with supper rooms, cloak rooms etc) resulted in demolition of some small Institutes. The advent of cars, radios, and television also provided other opportunities for recreation, learning and entertainment. The greater role of municipalities in providing library services also eroded the need for free libraries. While over 500 Mechanics’ Institutes or halls are extant, very few of these retain their original role as ‘diffusers of useful knowledge’. Most are still available for community purposes, as venues for meetings, socials, civic occasions etc, while others are employed as museums, shops and theatres. Most buildings are on Crown land, and managed by a delegated committee of management, who are responsible for raising revenue to maintain aging buildings. Many of those which were originally established on private land, such as Melton, have since reverted back to the Crown, and municipal Councils. The most common Mechanics Institute building form is the simple weatherboard gable building with iron roofs, notable for their ‘honest simplicity’ rather than as ‘monuments of the ancients’. At the other extreme there are some magnificent two storeyed brick and stucco structures with elaborate ornamentation (as was apparently envisaged by some in Melton in 1905-10)". The future of Melton Mechanic Institute Gazette articlelocal architecture -
Federation University Historical Collection
Book - Booklet, The Institute of Physics Handbook: Exhibition of Scientific Instruments and Apparatus, 08/1960
The Exhibition of Scientific Instruments and apparatus was set up to show the professional scientist the latest tools of trade and glimpses of future developments in the field of instrumentation .Cream soft covered book of 198 pages relating to an exhibition of scientific instruments and apparatus held at the School of Chemistry, University of Sydney. Exhibitors in the exhibition include: Advance components, Airmec, Akashi, Aladdin Industries, Amalgamated Wireless, Applied Physics Corporation, Ardente, Austral Engineering Supplies Pty Ltd, Avo Limited, Baird Atomic, Baker, Baldwin Instrument Co., B. and Relays, Barnstead Still and Steriliser Co., Beckman, Bender, Boonton Radio Corporation, Bosch, British Electric Resistence, British Physical Laboratories, Buccho, Bundenberg, Buehler, Bureau of Analysed Samples Ltd, Business Equipment Pty Ltd, Cambridge Instrument Co, Casella, Chamberlain and Hookham, Cossar, Cooke Troughton, Counting Instruments Co, CSIRO, Dawe Instruments, Difco, Duff and Macintosh, Dumont, Dupree, Dynatron Rodio Ltd, East Lancashire Chemical Co., Edwards High Vacuum Ltd, Eletircal Equipment Australia, Electronic Industries, Electroscientific Industries, Electrothermal Heating, Elema Schonanda, EMI, Englehard, Epprect, ERD Engineering, Ericsson Telephones, Esdaile, Ether Ltd, Evershed and Vignoles, Faraday Electronic Instruments, Federal Products, Filtron, Fischer, Fluke, Foot, Fortiphone, PX Fox, Foxall Instruments, Gambrell Bros, Gardener and Salmon, Garlick, Gelman , Gossen, Griffen and george, Gurr, Guthrie. Hasler, Headland Engineering Developments, Heraeus, Hersey Sparling Meter Co, Hewlett Packard, Heyneco, Hilger and Watts, Instron Engineering, Institute of Physics, Intermetal, Internation Resistance Corporation, Jacoby Mitchell and Co, Janke and Kinkel, JENA-er Glasswerke Schott and Gen, Keithly Instruments, Kelvin and Hughes, Kent, Kipp and Zonene, Kovo, Krautkramer, Kruss, Lambrecht, Land Pyrometers Leeds and Northrup, Leeds Meter Co, Leybold, Liddle and Epstein, Long Industrial Equipment, macdougall, McKinlay Fletcher, McLellan, Marconi Instruments, Masruements, Metrimpex, Metrohn, Metron, Mettler, Mica Corporation, Minneapolis Honeywell Regulator Company, Moisture Regulator, Morganite, Morris, Moseley, Muirhead, Mullard- Australia, Nagard, National Instrument Co, National Standards Laboratory, Negretti and Zamba, Nira, Northeastern Engineering, Nuclear Equipment Ltd, Ronald payne, Philbrick, Philips, Physik Instruments, Pincombe, Precision Tools and Instrument Co., Printed Electronics, Pye, Quicfit, Radion Corporation of Amerixa, Radio Frequency Laboratories, Radiometer, Rank Cintel, record Electric Co., Reichert Optische Werke, Rhode and Schwarz, Ridsdales and Co, Rocol, Rotameter, Rototherm, Rowe, George Sample, Santon, Sanders, Sartorious-Werke, Sauter August, Schneider, Scruttons, SEFRAM, Selby, Sensitive Research, Servomax Controls, shckman, Shimadzu, Siemens, Simpson, Sodeco, Soiltest, Solartorn, Southern Instruments, Albert Speck, Stanford X-Ray, Sunvic Controls, Sweda, Sydney County Council, Tamson, techne Cambridge, Tektronix, Telefunken, Telequipment, Andrew Thom, Thompson J, Langha,, Thronethwaite, Tinsley, Tokyo Opptical co., Townsen and Mercer, Treacerlab, Tylors, Unicam, Union OPtical Co, Varian Associated, Venner Electronics, Vidler Thornethwaite Engineering, Crosweller, Wandel and Golterman, Watson Victor Limited, Wayne Kerr Laboratories, waveforms, West Instruments, Herman Wetzer, Wild Instrument Supply Co, Yokagawa Electrical Works, Carl Seiss, Zwick.science, instruments, apparatus, scientific objects