Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020 The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. 1850's Pontiled Black Glass Stout/Porter/Ale Beer Bottle, solid colour brown glass,concave base with Pontil scar, tapering slightly wider towards shoulder then inwards towards neck; ring of glass just below opening cork and wire type.Label "c.1850's "Stubby ale" hand made in England flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, brown glass bottle, handmade glass bottle, handmade beer bottle, handmade late 19th century bottle

Cyrus Chambers was a self-described mechanic who started out winding bobbins in his father's woollen mill and went on to invent machines that changed their industries. Cyrus Chambers came from Quaker parents the ninth of thirteen siblings, he once said a year before his death. “I believe I have succeeded because, first, I was industrious; second, because I made a study of the subject that was before me.” At age 7, Chambers went to work in his father’s mill. His job was to monitor bobbins—wooden spindles around which thread was wound and to remove and replace them as they became full. "There was no child labour law at that time," he later recalled. Chambers loved machinery and always regarded himself as a mechanic rather than an inventor. At age 16, Chambers was sent to learn dentistry with an older brother, (Edwin) who was already in the field and willing to take him on as an apprentice. Chambers was talented at working with small parts. He used his brother's dental instruments to build a miniature high-pressure steam engine of silver. It ran at 3,000 revolutions per minute and weighed less than a half-ounce. At that time it was the smallest engine that had ever been constructed. The engine was displayed at the 1876 Centennial and is now in a permanent collection at the Franklin Institute USA. Chambers major invention was the paper folding machine and came from reading that school teachers made less than the young girls who were employed to fold book pages as they came off the press. He told friends that his first efforts were to make the machine that would fold newspapers after demonstrating his device he met with Horace Greeley of the New York Tribune who advised Chambers would never invent the machine that would be able to fold his newspaper or books. In less than a year Chambers had built a full-size machine capable of folding large newspapers and books and was installed at J B Lippincott & Co folding pages for the "Comly Speller" this machine ran successfully for twenty-five years until the printing works burnt down. Chambers then went into partnership with a brother and they established the firm "Chambers, Brother & Co" at a plant in Philadelphia. It was also observed in 1910 and a fact that there was not a periodical or newspaper printed or recently published book that had not gone through one of Chambers inventions. Chambers went on to produce many mechanical inventions and improvements to existing tools and machinery most notable was his invention for the machine that would make clay bricks. This machine made forty bricks per hour and by the end of Chambers life after many improvements, it could make more than four hundred. Although there were a large number of bold cutters made of this patent at Cyrus Chamber’s foundry in Philadelphia, the item is associated with a notable American inventor of the nineteenth century. This particular patent for a bolt and rivet cutter won Chambers the prestigious Elliott Cresson Medal. This cutter is just one of the many inventions and mechanical improvements that Cyrus Chambers made during his lifetime, contributing to the ongoing development of mechanical improvements that were occurring in American industry of the time and therefore a notable addition to the Flagstaff collection.Cast iron bolt cutter with removable tempered steel cutter. Chambers New No. 2.Raised embossed lettering on cast body of cutter "New No 2" on one side, "Chambers Bros & Co" on the other sideflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cyrus chambers, bolt cutter, paper folding machine, brick making machine, elliot cresson, elliot cresson medal, franklin institute, gold medal, rivet cutter

This is the 1854 fourth edition of a book on diseases of the eye by William MacKenzie (1791-1868) first published in 1830. William MacKenzie was surgeon oculist in Scotland to Her Majesty (Queen Victoria), lecturer in the University of Glasgow and a surgeon in the Glasgow Eye Infirmary. This fourth edition appeared just after Helmholtz's invention of the ophthalmoscope, but Mackenzie did not at this stage have much understanding of the internal diseases of the eye. Nor did he properly understand refractive errors which were soon to be elucidated by the work of Donders. MacKenzie did however recognise the hardness of the eye as being an essential sign of glaucoma.This book is significant historically as it shows contemporary understanding of eye disease in the early nineteenth century. It is not rare as copies still turn up at book markets and also are held in other Australian institutions.This book, bound in full calf leather (probably later 19th Century) with 1107 pages including an index and is followed by a publisher's catalogue. It is the 1854 fourth edition of William MacKenzie's 'A practical treatise on the diseases of the eye' first published in 1830. It has a long (32 pages) introductory section on the anatomy of the eye by Thomas Wharton Jones, FRS. There are 27 chapters on eye disease. Chapter 24 is on refractive errors and presbyopia.eye, ocular anatomy, ocular disease

Robin Boyd was involved in creating several TV series for the ABC University of the Air. 'Design in Australia' was an eight part series. (Items D184-D193 contain all the manuscripts except part six titled 'Communications'.) In Part 3, seeing successful and original industrial designs from other countries, Boyd reflects on the standard and production capacity of the Australian manufacturing industry. He urges the industry to take up the responsibility of invention and to design in a stronger and more permanent Australian artistic style, in contrary to mere imitation and importation. (Same content as D192, differing side notes on left side of pages)This is a draft script for the ABC television program 'University of the Air', subtitled 'Design in Australia', broadcast in 1965.Typewritten (c copy), foolscap, 16 pages (compared to D192, 11 pages)university of the air, design in australia, robin boyd, industrial design, australian manufacture, colin barrie, the industrial design council of australia, manuscript

The Kodak powders inside this tin were used in the production of dry plate photography. Dry plate photography was a photographic technology invented by R.L. Maddox in 1871. Images were captured on a glass plate covered in a gelatin emulsion, which acted as a photographic negative. A negative could then be stored to develop at a later time in a dark room. The introduction of this technology allowed for greater flexibility in photographic practice outside of indoor studios, as earlier wet plate photographic technology required immediate exposure and development. Dry plate photography was superseded by the invention of celluloid film in the early twentieth century.This item forms part of a significant and representative historical collection which reflects the local history of Wodonga. It contributes to our understanding of social life in early twentieth century Wodonga, as well as providing interpretative capacity for themes including local history, social history, and the history of photography.A silver toned alloy tin with hinged lid. Inside are two packets of Kodak brand dry plate developer powder. On face of tin lid "20 BELLMETAL REEDS/B.C DUNLOP SYSTEM/CRACKAJACK/HAND FITTED AND TURNED/MADE IN (SENIOR) GERMANY"photography, wet plate photography, dry plate photography, photos, haeusler collection, history of photography, historical photographs, technology, wodonga

This bottle is sometimes referred to as a black glass 'Gallon' bottle. It is used for storing and transporting liquor such as stout, porter or ale. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020. The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases and other medical issues before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, glass, solid dark brown (black), round, matt surface. Glass ring below mouth, neck is slightly bulbous, seam line around shoulder, body tapers slightly inward from shoulder to base. Base is concave with pontil mark. Bottle has a white mark down the side. No inscription. Generally used for storing stout, porter or ale.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, handmade bottle, handmade english beer bottle, pontil bottle, black glass, gallon

This bottle is sometimes referred to as a black glass 'Gallon' bottle. It is used for storing and transporting liquor such as port or madeira. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020. The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in Flagstaff Hill Maritime Museum collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases and other medical issues before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, glass, solid dark purple (black), round, matt surface. Glass ring below mouth, neck is slightly bulbous, body tapers slightly inward from shoulder to base. Base is concave with pontil mark. Bottle has no inscription. Generally used for storing port.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, handmade bottle, handmade english beer bottle, pontil bottle, black glass, gallon, purple bottle, ale bottle, porter bottle

Hand written data on the safety cage. The first page is a memorandum to Mr J H Seymour from the International patent & Trade Marks Office informing Mr Seymour that the Provisional Specification of his invention has been accepted in Victoria, dated 17 Oct 1892. The second page is a copy of a card from John H Seymour, City Foundry, Wattle St. Sandhurst outlining the safety cage, the lives it has saved and orders will receive prompt attention and further information may be had from the above address. W. Holmes, Printer. The third page is to Miss Kingerlee from Allan Llewellyn with reference to the memorandum and card dated Sept 1, 1972. He says he copied the memorandum and card for her and Mr F Fitzpatrick has the originals. The fourth page is a typed copy of Claim Holders and expenses.document, gold, safety cage, memorandum - safety cage, edwd waters, j h seymour, international patent & trade marks, city foundry, w holmes, miss kingerlee, mr frank fitzpatrick, allan llewellyn, jno t caldwell, geo staley, neil walker, a n hamilton, william holland, j w weddle, jas lawes, wm hopwood, jas lawes, wm parker, r w pollard, wm nan & co, hope & co, mrs morgan, j w & g williams

This automotive circular saw was designed to allow trees to be sawn into planks at the site they were felled, rather than requiring them to be carted to a lumber mill first. It was invented by Robert John (Bob) Pyle in 1936 and patented in 1937 (serial number 101975). This picture depicts Clarrie Howell (left) and Bob Pyle (right), standing with the sawbench between them. What was special about Bob’s new invention was that it not only allowed a circular saw to be portable and set up at a logging site, but that it allowed the circular saw to be run using the car motor, and that the saw could be detached, allowing the car to be used for carting or other purposes. This photograph is significant because it shows an early instance of an emerging technology, portable sawmills, and is evidence to the innovations that the people of Beechworth have achieved throughout history, as well Black and White rectangular photograph printed on matte photographic paper. Incription on cream paper stapled to bottom left of photographObverse: On left Clarrie Howell / Right Bob Pyle / with sawbench built by Bob Pyle / Patent 1936 / Rosalie Pyle has the original / [redacted]bob pyle, robert pyle, r j pyle, clarrie howell, howell, pyle, invention, patent, sawmill, saw, sawbench, wood, timber, forestry, automobile, car, 1930s, 1930s beechworth, industry, wooden, convenience, innovation

Robin Boyd was involved in creating several TV series for the ABC University of the Air. 'Design in Australia' was an eight part series. (Items D184-D193 contain all the manuscripts except part six titled 'Communications'.) In Part 3, seeing successful and original industrial designs from other countries, Boyd reflects on the standard and production capacity of the Australian manufacturing industry. He urges the industry to take up the responsibility of invention and to design in a stronger and more permanent Australian artistic style, in contrary to mere imitation and importation. (Same content as item D186, differing side notes on left side of pages)This is a script for the ABC television program 'University of the Air', subtitled 'Design in Australia', broadcast in 1965. Item D186 is the draft version.Typewritten, foolscap, 11 pages, (compared to D186, 16 pages)university of the air, design in australia, robin boyd, industrial design, australian manufacture, colin barrie, the industrial design council of australia, manuscript, ohm2022, ohm2022_30

The most secretive experiments of the most secretive scientists were carried out in Room Z at the Woomera Range Space Rocket Division. The only people with a key were the topmost scientist, the Prime Minister and the cleaning lady. They had to wait until 5pm for the cleaning lady to arrive so they could get Crafty Carson Carpetbag out, who was hiding from The Flying Dogtor. The Flying Dogtor could hear Crafty making whistling, humming noises and the Secret Service Man said he was messing with Mixture 8X, the most secretive invention of them all, Special Reducing Mixture for use when travelling in small satellites.The Flying Dogtor" series was broadcast on Australian Television Network (later becoming the Seven Network) between February and April 1964 (see item D254 for schedule).Handwritten in pencil, foolscap, 2 pagesThe title is crossed out and it is noted that this is a contraction (eliminating sound effects) of Episodes 23, 24, and 25. Many edits.the flying dogtor, robin boyd, crawford productions, manuscript

Norway, around 1840, was the first country to produce and use glass fishing floats. Many of them can still be found in local boathouses. Christopher Faye, a Norwegian merchant from Bergen, is credited with their invention. The earliest floats, including most Japanese glass fishing floats, were handmade by a glassblower. Recycled glass, especially old sake bottles in Japan, was typically used and air bubbles/imperfections in the glass are a result of the rapid recycling process. Glass floats have since been replaced by aluminum, plastic, or Styrofoam. Today most of the glass floats remaining in the ocean are stuck in a circular pattern of ocean currents in the North Pacific.By the 1940s, glass had replaced wood or cork throughout much of Europe, Russia, North America, and Japan. Japan started using the glass floats as early as 1910. Now they are still highly sought after as decoration.A glass float with intact knotted rope net attachedfishing, floats, glass floats

A slide rule is an instrument which is used to carry out mathematical calculations. William Oughtred is credited with its invention in 1621, however many others including Isaac Newton have made improvements or modifications over the years. From 1625 to 1800 there were approximately 40 different styles brought forward. with the following 100 years sees over 250 designs created.There have been different versions and modifications to suit scientific, mathematical and engineering requirements. It is interesting to note that many of the buildings of the 19th and 20th centuries have been designed with the use of slide rules. Their use has declined in the last 25-30 years with the advent of computers and specialist calculators.While not directly linked in any way to the history of Warrnambool, this slide rule would have been a item in use by students doing maths at upper secondary level as well as other applications which would make it a familiar object to many people.Coated bamboo with sliding metal framed glass panel or cursor . The bamboo is in three sections with the middle section movable. It is marked in various graduated measurements mainly in dark blue but with some in green and red.It is inside a dark grey rectangular box with a slide off lid on one end.There is a celluloid panel on the back with a conversion table printed on it. There is an accompanying 67 page manual with a pale green cover with black text. On slide rule:Sun Hemmi Japan No 2664S On box: Sun Hemmi Japan No 2664S warrnambool, hemmi slide rule, bamboo slide rule

The water cart was in itself a complete invention of John Furphy and was first made in the 1880's. At the time no similar article was used in Australia. Few houses of the time were designed to collect rain water from the roof and hence, water needed to be collected elsewhere and transported for stock and domestic use. The method of carting water was then confined to horse drawn drays or sleds with mounted wooden barrels or casks. At the same time the growing demand for agricultural implements, led to the establishment of a foundry with a furnace to cast components rather than the time consuming task of forging. This became the catalyst for the efficient production of the robust and mobile water carrier known then, and now, as the Furphy Farm Water Cart.Four colour photographs showing a tank made by Furphy and Sons, Shepparton.furphy, shepparton, water storage

Seed broadcaster were used to distribute seed across a small area or to fill in patches where seeding has been missed. This method does not ensure a uniform distribution of seeds unless the person using the machine walks at a very measured pace. It also requires a lot of time and manual labour if used in larger areas. It was most used for planting cover crops, grains, grasses and similar plants that do not need to be in neat rows. The hand-crank broadcast seed spreader was invented in 1868 by Samuel S. Speicher (aka. Spyker) in Indiana, USA. By 1955 new developments included the invention of a seed broadcaster on wheels and these smaller spreaders started to disappear.This item is representative of agricultural machinery used on a local, national and international level in the late 19th and early 20th century.A metal hand seed broadcaster. A hopper at the top was the receptacle for seed. The wheel with a handle on the side when turned drives the cogs attached to an axle. This action rotates the attached spindle with blades to propel seed out the front of the broadcaster. The broadcaster would have had a shoulder strap and a bag of seed would have been added to the hopper and secured with twine through the holes around the top.agricultural tools, farm machinery

Opera Glasses came into existence as a result of a long line of inventions, and further improvements upon those inventions. The process started in the year 1608 when a Dutch optician by the name of Hans Lipperhey developed the first pair of binoculars with a magnification capability of X3. Less than a year later, a well-known inventor and philosopher by the name of Galileo developed what became known as the Galilean telescope. Advertisements were first found for opera glasses and theatre binoculars in London as early as 1730 in the form of a long collapsible telescope. The "Opera Glass" as it was referred to; was often covered in enamel, gems, ivory, or other art and paintings. For almost 100 years opera glasses existed merely as telescopes. In Vienna, in 1823 the first binocular opera glasses and theatre binoculars began to appear. They were two simple Galilean telescopes with a bridge in the centre, each telescope focused independently from the other by extending or shortening the telescope until the desired focus was achieved, which was useful, yet very cumbersome. Two years later in Paris, Pierre Lemiere improved on this design and created a centre focus wheel. This allowed the focusing of both telescopes together. After this development, opera glasses and theatre binoculars grew in popularity because of the superior view they facilitated in opera and theatre houses. The beautiful design of the glasses themselves also added appeal to the opera-going crowd. By the 1850's opera glasses and theatre, glasses had become a must-have fashion accessory for all opera and theatergoers.Not very significant as not associated with a historic event or person and made during the first half of the 20th Century and many are still available and easily sourced.Vintage Pair of Opera Glasses, with cow bone barrels and eyepieces, both barrel pieces have split in them, both metal end barrels each have a minor dent, optics are pretty clear no mould although have very minor dust spots inside, they look like they were gilded at some point but most of this has rubbed off glasses have a black leather case with blue lining. No markings whatsoever anywhereflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, binoculars, opera glasses, theatre glasses, optical instrument, cow bone

Opera Glasses came into existence as a result of a long line of inventions, and further improvements upon those inventions. The process started in the year 1608 when a Dutch optician by the name of Hans Lipperhey developed the first pair of binoculars with a magnification capability of X3. Less than a year later, a well-known inventor and philosopher by the name of Galileo developed what became known as the Galilean telescope. Advertisements were first found for opera glasses and theatre binoculars in London as early as 1730 in the form of a long collapsible telescope. The "Opera Glass" as it was referred to; was often covered in enamel, gems, ivory, or other art and paintings. For almost 100 years opera glasses existed merely as telescopes. In Vienna, in 1823 the first binocular opera glasses and theatre binoculars began to appear. They were two simple Galilean telescopes with a bridge in the centre, each telescope focused independently from the other by extending or shortening the telescope until the desired focus was achieved, which was useful, yet very cumbersome. Two years later in Paris, Pierre Lemiere improved on this design and created a centre focus wheel. This allowed the focusing of both telescopes together. After this development, opera glasses and theatre binoculars grew in popularity because of the superior view they facilitated in opera and theatre houses. The beautiful design of the glasses themselves also added appeal to the opera-going crowd. By the 1850's opera glasses and theatre, glasses had become a must-have fashion accessory for all opera and theatregoers. A vintage pair of 1920s opera glasses probably made in France by an unknown maker the item is significant due to it's provenance that can be traced and it's completeness as a useful social item and fashion accessory used by theatergoers from the mid 19th century and well into the 20th century. Some people still use modern variants of theater glasses today to improve their enjoyment of the theater.Both glasses and case are covered with black and white snake skin. Case lined with purple velvet, and has brass closure clip.Noneflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, flagstaff hill maritime village, great ocean road, opera glasses, serpentine opera glasses, binoculars, accessories, optical instrument, scientific instrument, theater glasses, french opera glasses, hans lipperhey

The invention of a hand drill is credited to Arthur James Arnot and William Blanch Brain of Melbourne, Australia who patented the electric drill in 1889. In 1895, the first portable handheld drill was created by brothers Wilhem & Carl Fein of Stuttgart, Germany. Hand-powered devices have been used for millennia. However, during the last quarter of the 19th century a radically improved generation of tools appeared. These tools took advantage of modern mass production machinery and processes (like interchangeable parts) and an increased availability in superior material (metal instead of wood). One of the outcomes included an array of new drilling machines. These human-powered tools were a vast improvement over earlier tools.This item is an example of a commonly used domestic tool - pre power tools.A Stanley hand drill with two wooden handles. The red wheel is painted metal. On red wheel - STANLEY ENGLANDwoodwork tool hand-drill

An example of good invention in an era of innovation in Australian manufacture and production. Levers raise the height of the cutter, disengaging the drive from the blades. The moveable blades under the fixed ‘fingers’. An eccentric rod changes circular motion to linear back and forth of the blades. Such a machine is now known as a mower for cutting grass for hay, and other grasses for storing as sheaves. 'Gift for Museum - The School of Mnes committee has accepted the offer from mr H.B. Munro, of Elsternwick, of a model reaping machine made in 1887 when the Munro machinery business was in operation in Alfredton. The model, which has won gold medals at various exhibitions, is to be placed in thr school museum. (Ballarat Courier 22 April 1932) Metal model with red paint detail in sectionsM263ballarat school of mines, ballarat school of mines museum, munro machinery, model, munro reaper

Used in kitchen to cut carrots, cheese slices, onions. boiled eggs, etc.Painted black guillotine on a wooden stand. An iron pole keeps the guillotine in vertical position at one end of the block. Driven by two wheels when a handle is turned. A tilting beam moves the guillotine up and down to cut vegetables, etc. Blade 18cm long by 6.5cm wide. Metal plate missing under blade. A rotatable drum to contain the food to be chopped, which is rotated by a cog at the base (also missing) turns the container. The upright holding chopper blade e is a modification made because of the missing container.|The following description is from Ken Turner Booklet referred to under 'Reference'. ----|The Starrett food chopper would certainly have to be considered one of the more interesting inventions, which incidentally is now considered the ultimate in kitchen collectables. Laroy Starrett in later years' told of how the design of his food chopper was inspired by the action of the walking beam engine used on the Mississippi steam boats. When the crank handle of the chopper is turned, this sets in motion a mechanism which is just fascinating to watch. The crank activates a flywheel which in turn, by a series of cogs and levers, simultaneously rotates a food holding container and raises and lowers within the rotating container, a guillotine like 'chopping blade - the action does not only look like that of a beam steam engine, it even in a way sounds like one, although somewhat noisier. Starrett produced seven different models of these choppers, ranging in size appropriate for domestic use to heavy duty models for butchers, restaurants and for hotel use. The small model was capable of chopping 3lbs in three minutes, and the largest had a capacity for chopping something like 100 lbs in an hour. The mechanical chopper, which became affectionately known as the 'hasher', was the first of some one hundred of Starrett's inventions, and these include a washing machine patented in 1865 which had a similar action to his food chopper, a food press patented in 1873, and a device for lacing shoes he patented in 1886.domestic items, food preparation

Although the exact creation of this pocket watch is unknown, the pocket watch was first invented in 1510, in Nuremberg, Germany. The inception of this invention can be attributed to Peter Henlein, a master locksmith who continued producing timepieces until the 16th century when their manufacturing expanded to other parts of Europe. During the 15th century, pocket watches served as a means of distinguishing between the lower classes and the affluent members of society since only the wealthy could afford them. In this era, an early version of the pocket watch was typically worn around the neck, as opposed to being attached to a pocket watch chain like the Albert T Bar chain. Furthermore, the increasing use of the railways during the latter part of the 1800s significantly accelerated the popularity of pocket watches.This pocket watch is significant as they relate to the social history within the Burke Museum's collection playing a vital role in narrating the history of Beechworth, demonstrating the past of the town through insights into its social, cultural, and economic dimensions.A silver pocketwatch with a leather strap attached at the clasp.A01153clock, pocketwatch, timepiece, burke museum

This butter ram appears to have been made locally and was probably hand-made at a local factory. It was used to ram or mould butter into 56 pound butter boxes for bulk supply or for later cutting up into smaller quantities. Warrnambool was, and is still today, the centre of an important dairying industry with several large milk, cheese and butter factories in the area. The Warrnambool Cheese and Butter Factory at Allansford is the oldest operating factory of this type in Victoria and was established in 1888. The production of butter in the area was greatly accelerated by the invention of refrigeration in the early 1880s, enabling butter to be transported overseas. Warrnambool had two butter box factories which both closed in the 1920s. Up to the mid 1950s the production of butter was largely a hand process.This butter ram is of considerable interest as an example of the early tools used in the local butter industry.This is a heavy solid wooden block in a rectangular shape with the top shaped in the form of a pyramidal base. The edges of the base are worn from constant pounding. A long round wooden handle or rod is inserted into the top of the block. dairying industry in western victoria

The original Hall Braille writer was modelled on the typewriter and was the first successful mechanical point writer. Frank Haven Hall, Superintendent of the Illinois Institution for the Blind, introduced his invention to the public on 27 May, 1892 at Jacksonville, Illinois. It was manufactured by Harrison and Seifried, Chicago, ca 1892. The carriage moves one space to the left as the keys are released. The styli in the embossing heads are controlled by the keys as are the bars on a typewriter. The styli operate from the back so that letters appear in the normal position for reading. Braille writers enable all dots in a Braille cell to be created simultaneously. This model was found in the Braille and Talking Book Library in South Yarra prior to the staff departure in 2000. Presumably used by either staff or volunteers at the library.Braille writer with a key board like a piano with black wooden keys on an ivory board. The body is made from heavy cast iron with a black lacquer.Painted in gold on top of the machine: "The Hall Braille Writer / patent pendingbraille equipment, assistive devices

This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in 1850's - 1900's. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020. The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, solid colour brown glass,concave base, tapering slightly wider towards shoulder then inwards towards neck; ring of glass just below opening. Base is blown glass; pontil mark on base. Label "c.1850's STUBBY ALE", "ENGLISH HAND MADE, CORK & WIRE SEAL", "PONTIL MARK ON BASE $6" flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, brown glass bottle, handmade glass bottle, handmade beer bottle, handmade late 19th century bottle

This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in 1850's - 1900's. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020 The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, opaque brown glass, concave base, tapering slightly wider towards shoulder then inwards towards neck; ring of glass just below opening. Base is blown glass; pontil mark on base. "STUBBY 1850-1900 SMALL SIZE", ENGLISH 3 PIECE MOULD, HAND MADE TOP", "PAPER LABEL, CORK & WIRE SEAL $6flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, brown glass bottle, handmade glass bottle, handmade beer bottle, handmade late 19th century bottle

Sad irons of the 19th century were so named because of the weight 1.8Kg that was needed to press wrinkled clothes and sheets. They were made of solid metal, including the handle. When the iron was heated, this meant that the handle would also heat up. The user would have to use a thick cloth or a mitt of some sort before they could pick up the iron. Even so, burns and blisters, as well as strained, tired arms, were a normal part of the “ironing day.” Mrs Mary Florence Potts of Ottumwa, Iowa, brought a change to the world of ironing. At the age of 19, in 1870, she invented her first sad iron. It had a hollow metal body that could be filled with a non-conducting material such as plaster of Paris. In 1871, Mary invented the removable wood handle, so that it could be changed from the cool iron to one that was hot and ready to use. A final improvement was the shape: Mary made both ends pointed so its user could iron in either direction. All of these inventions were patented under her name, a rarity for the time. Mary, with the help of her husband, tried unsuccessfully to market her invention on her own. It wasn't until she sold the sales rights to the American Manufacturing Company that sales took off. Advertised as "Mrs Potts' sad iron," it became a sensation. The company manufactured the iron from about 1876 to 1951. Mrs Potts' sad iron became a household word and a standard for future inventors to have to surpass. This didn't happen until 1882 when Henry W. Seely patented the first electric iron. The item is significant not only as a usable domestic tool, but it was, at the time of its creation, a revolutionary labour-saving device. Mrs Potts invention remains associated with a housewife's answer to the domestic drudgery of ironing.Iron,"Mrs Potts" pattern iron. Semi-circular or 'D' shaped wood handle and wood knob.Mrs Pottsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, iron, clothes iron, flat iron, laundry, sad iron, mrs potts

This Gestetner Cyclostyle duplicating machine was invented and manufactured by David Gestetner. He claimed in 1922, once he had released several models, that if a Gestetner Durotype stencil was used together with his Cyclostyle machine, then 10,000 copies could be made from the one Durotype stencil, an amazing claim for office technology of that era. David Gestetner (1854-1939), was born in Csoma, Hungary. He has been called the “founder of the worldwide office copying and duplicator industry.). He moved to London and in 1879 filed his first copying patent. In 1881 he patented the Cyclostyle stylus (or pen), which was used in conjunction with his Cyclograph device for copying text and images, He established the Gestetner Cyclograph Company in England at this time (1881) to protect his inventions and to produce his products; stencils, stylos (stylus or pen) and ink rollers. HIs inventions included nail-clipper and the ball-point pen (although the latter is more commonly associated with Laszlo Biro). Gestetner’s patented Cyclograph duplicator was used with his Cyclostyle Stylus or pen to write or draw on special thin wax-coated stencil paper (originally used for kite making paper) in the following way; 1. The Cyclostyle stencil was placed on a lower, framed metal plate of the Cyclograph 2. An upper frame was clipped over the top 3. The Cyclostyle pen, with its tip being a small metal-spiked or toothed wheel, was used to write or draw on the stencil, punched small holes into the paper and removed the wax coating in those places 4. The upper frame and stencil was then removed and a piece of blank paper was placed onto the metal plate in the lower frame and the upper frame with stencil was replaced 5. A roller was given an even distribution of Cyclostyle ink and rolled by hand over the stencil in the frame. This forced the ink through the holes in the stencil to and made a copy of the stencil on the paper 6. The upper frame was raised, the printed paper removed and another blank sheet was put into place. The whole process was repeated until enough copies were made. Gestetner’s invention developed further in 1894, with a stencil that could be placed on a screen on a revolving drum. The drum was manually rotated, the stencil then wrapped around another drum and was fed between cloth-covered rollers on which ink was evenly spread. Each revolution of the drum forced ink through the holes in the stencil and transferred the ink onto paper that had been fed between rollers and pressed against the drum. The process was repeated for each page. The paper was still fed and removed manually in this earlier invention but became more automatic in later models. In 1902 Gestetner duplicator model 6 was put onto the market. This model included the improvement of an automatic paper feed that synchronised with the rotation of the stencil. The Gestetner machine was the first office printing machine. It was easily installed and it made exact copies of the sane document quickly, effectively and inexpensively. This changed the way offices operated, making information easily available to many more users. The machines were commonly used in small businesses, schools, churches, clubs and other organisations for the wide distribution of a wide variety of information in the form of worksheets, newsletters and more. In 1906 the Gestetner Works were opened in Tottenham Hale, North London, and thousands of people were employed there up until the 1970’s. Due to the fast growing success of the Gestetner Duplicator machines many international branches for sales and service centres were established. David Gestetner was succeeded by his son Sigmund, followed by his grandson’s David and Jonathan. Further advancement was made by using a manual typewriter with specifically designed stencils. The end product was a printed, typewritten copy similar to the print from newspapers and booklets. In the next few years there were further developments of this revolutionary invention. The Gestetner Cyclostyle duplicator in our Collection is dated c.1922 - 1929 and it uses Gestetner Durotype stencils The 1922 British Industries Fair’s catalogue contained advertising for the Gestetner Rotary Cyclostyle “The World’s Premier Duplicator”, demonstrated at Stand K 86.” A Notice at the foot of the advertisement’s page boasts "Important - D Gestetner's latest invention, the "Durotype" Stencil, enables you to obtain 10,000 copies from one original if desired. It contains no wax of any description, is indestructible, can be stored indefinitely and printed from as required” In 1929 the look of the Gestetner machines changed; American designer Raymond Loewy was invited by Gestetner to improve the look of his duplicators, resulting in a very streamlined appearance. Eventually, around 1960’s, offices replaced their Gestetner with small photocopying machines and printers. Gestetner took over ownership of other office machine companies over time, including Nashua, Rex Rotary, Hanimex and Savin and eventually all came under the holding company name of NRG (Nashuatech, Rex Rotary and Gestetner). In 1996 Ricoh acquired the Gestetner Company, and it was renamed the NRG Group. REFERENCES Cyclostyle, Stencil Duplicating Machines, antique Copying Machines, Early Office Museum, http://www.officemuseum.com/copy_machines.htm Duplicating machines, Wikipedia Duplicator, Collection online, Canada Science and Technology Museums Corporation http://techno-science.ca/en/collection-research/collection-item.php?id=1989.0229.001 Gestetner duplicators, Totterham-Summerhillroad.com http://tottenham-summerhillroad.com/gestetner_duplicators_tottenham.htm Gestetner Duplicator, V&A Museum http://collections.vam.ac.uk/item/O322014/gestetner-duplicator-duplicator-loewy-raymond-fernand/ Gestetner, Grace’s Guide to British Industrial History, http://www.gracesguide.co.uk/Gestetner Duplicating machines such as this one revolutionalised access to copies of printed material, changing the way that educational bodies, offices, small businesses and community clubs and charities operated.Duplicating machine, Gestetner Cyclostyle Durotype, a stencil-method duplicating machine with two rotating drums plus rollers. Hand operated, tabletop office machine. Front has folding Bakelite handle, oil filling hole, calibrating gauge with scale, and copy counting meter. Right side has printed manufacturer’s plate that slides out as a paper output tray. Left side has metal plate with protrusions and perforations, plus another similar plate that is detached. It also has a metal frame attached [that would have been used to hold a paper input board, adjusted for various sizes of paper]. Cover, metal, with folding wooden handle on top, attaches to base with metal clips. Inscriptions printed on machine, mostly in gold-coloured paint. Round metal manufacturing plate is stamped with Serial Number 95759. Made by D. Gestetner, London, c.1922-1929Maker’s plate “MANUFACTURED / BY / D. GESTETNER LTD, / No. 95759 / CYCLOSTYLE WORKS / TOTTENHAM HALE / LONDON, N” Copy counting meter shows “1 4 6 4 8 [space]“ copies. Calibrating gauge has divisions with numbers “0 1 2“, labelled “← [left arrow] “TO PRINT LOWER” and “→ [right arrow], TO PRINT HIGHER”. “The Gestetner”, “Cyclostyle”, “Gestetner” (Trade Mark), Right side print of manufacturing details includes “The / Gestetner / TRADE MARK” And “THE FOLLOWING TRAFE MARKS / - - - OF INK, STENCILS / - - - AND GUARANTEE OF PERFECT / - - - BOTH - - - AND MACHINE” and “CYCLOSTYLE / DUROTYPE / GESTETNER” and “D. Gestetner” flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, office machine, copying machine, gestetner machine, duplicating machine, duplicator, stencil machine, gestetner cyclograph company, cyclograph, cyclostyle, d. gestetner ltd, gestetner durotype stencils, gestetner cyclostyle, printing machine, office technology, durotype stencils, david gestetner, raymond loewy, roneo, rotary duplicatorten, mimeo, mimeograph machine, roneograph copier

The photograph is of the Powder Magazine and gorge in Beechworth. The Magazine was built for six hundred and ninety-seven pounds in 1859 by "T Dawson and company." However, the walls were constructed later in 1860 by "Atchison and Lumsden," a different building firm. The Beechworth Magazine was one of many made by the government for the storage of gunpowder. However, the building eventually stopped being used as the mining decreased in the area, finally becoming unsused with the invention of nitro-glycerine compounds. The magazine was created to hold large quantities of gunpowder and much of its design was to hinder the prospective of damage. These safety features included double arched foundations and an arched inner roof, which would move a possible explosion upwards. Also, a process of lighting conductors, ventilation and heavy granite walls were incorporated in the designThe photograph shows historic significance due to its association with the mining era in Beechworth in the late 1800s. The photo shows the Powder Magazine after construction, most likely when it was storing gunpowder during a signifiant time period for the region.Black and white photograph printed on paper.beechworth, powder magazine, gunpowder, mining, beechworth powder magazine, explosives, atchison and lumsden, t dawson and company, gorge, granite, granite building, 1860

The photograph is of the Powder Magazine and gorge in Beechworth. The Magazine was built for six hundred and ninety-seven pounds in 1859 by "T Dawson and company." However, the walls were constructed later in 1860 by "Atchison and Lumsden," a different building firm. The Beechworth Magazine was one of many made by the government for the storage of gunpowder. However, the building eventually stopped being used as the mining decreased in the area, finally becoming unsused with the invention of nitro-glycerine compounds. The magazine was created to hold large quantities of gunpowder and much of its design was to hinder the prospective of damage. These safety features included double arched foundations and an arched inner roof, which would move a possible explosion upwards. Also, a process of lighting conductors, ventilation and heavy granite walls were incorporated in the designThe photograph shows historic significance due to its association with the mining era in Beechworth in the late 1800s. The photo shows the Powder Magazine after construction in 1960, most likely when it was storing gunpowder during a signifiant time period for the region.Black and white rectangular postcard printed on cardObverse: No 2 POWDER MAGAZINE BEECHWORTH. BUILT OF LOCAL GRANITE IN 1859-60. Reverse: KODAK / POST CARD / CORRESPONDANCE. ADDRESS ONLYbeechworth, powder magazine, gunpowder, mining, beechworth powder magazine, explosives, atchison and lumsden, t dawson and company, gorge, granite, granite building, 1860