Showing 59 items matching machine driven
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Puffing Billy Railway
Tool - Drag Saw, New Record Drag Saw, circa 1920s
Circa 1920s petrol driven cross saw. It was mainly used cross cutting felled logs The Land on which the Menzies Creek railway station and Museum are built on was once apart of James Hermon's & his son William Hermon's property on which this Drag Saw was used. reference : Jinkers and Whims: A Pictorial History of Timber-Getting By Jack BradshawHistoric - Industrial Timber working petrol driven cross saw - Drag SawLarge, mechanical saw mounted on a steel shaft connected to tin fuel and water containers. The machine has two large spoked wheels, a rotating Crankshaft and an extended arm/rod attached to a crank and flywheel.New Record puffing billy, drag saw, timber cutting, early mechanical equipment, james hermon & sons, menzies creek, 1920s -
National Wool Museum
Textile - Onkaparinga Blanket, Waffle Collection, Unknown
Onkaparinga started in South Australia in 1869. Migrating from Germany, two brothers, Heinrich and Edward Kramm, both weavers, purchased and brought with them some machinery and established themselves in Hahndorf in a mud hut. Their original plant consisted of one carding machine, one spinning mule of 30 spools and 2 hand looms. The spinning mule was horse driven, the others all hand operated. The wool was washed by hand and dried in the sun then teased by hand. Now 145 years later the brand name Onkaparinga, is known all over the world, the products reflect the experience, passion and ingenuity of over a century's tradition in providing luxurious home wares. Donated to the National Wool Museum by Joyce GrayLight orange waffle weave woolen blanket, with nylon trimming. Product tag included with plastic case. On product tag - The better way to sleep. Onkaparinga onkaparinga, blanket, wool, kramm -
National Wool Museum
Machine, carding
Used for carding samples.Carder with small roller missing at coiling end. Driven by three horse power motor. Wooden slated feed table synchronised to overall gearing. -
Puffing Billy Railway
The Quasi Arc Co Ltd Generator - Flat Belt Driven D.C, 1900s
QUASLARC Generator Built by the Quasi-Arc Co. Ltd. Victoria London SW.1, This generator is believed to have been used for welding purposes. The generator is driven by a belt from a nearby steam plant. The quasi-arc co ltd 6 kw. d.c generator 60/30 volts 0/200 amps 1200 rpm comp cont rating No 4696 Historic - Industrial Generator Large casting with a drive pulley on one end, cast aluminum covers, bronze makers plaque. The quasi-arc co ltd 15,grasyenor ????ens. Victoria,London,S.W.1 This machine is designed for use with ????? Arc electrodes 6 kw. d.c generator 60/30 volts 0/200 amps 1200 rpm comp cont rating No 4696puffing billy, generator, welding, quasi - arc -
Puffing Billy Railway
New Record Saw Bench, circa 1930's
Saw Bench - New Record Saw Bench Timber framed with steel wheels, belt driven saw blade powered by a Rosbery internal combustion engine. The Rosebery Engine No C28437 R.P.M 800 H.P. 6 Manufactured By Westinghouse Rosebery Pty.Ltd. Sydney Rosebery Engine Works Ltd began as the engine and pump manufacturing division of Buzacott & Company, and in 1923 became an incorporated company. In 1935, Westinghouse gave Rosebery Engine Works the right to manufacture and sell nearly all Westinghouse products. The name of the company then changed to Westinghouse Rosebery Ltd From the late nineteenth century, petrol engines gradually supplanted steam engines for running a wide range of machines, and in turn petrol engines were largely supplanted by electric motors. The Champion was a successful small petrol engine made by the large Sydney company, Westinghouse Rosebery, based on the American-designed Fuller and Johnson engine. With hopper cooling and a fuel tank between the skids, and weighing only 240 pounds (109 kg), it was easy to mount on wheeled transport, making the Champion a self-contained mobile source of power. Engines of this type were used in rural areas for driving chaff cutters, small saw benches, pumps and orchard sprayers. These engines were also commonly used in both rural and urban areas for powering concrete mixers. Both Westinghouse Rosebery in NSW and Toowoomba Foundry in Queensland made these engines in large quantities, beginning in the 1920s when tariff protection made local manufacturing viable. The production of small petrol engines continued in Australia until the 1970s, when reduced tariff protection led to increased competition from cheaper imported engines. Historic - Industrial Timber working - belt driven saw blade powered by a Rosbery internal combustion engine. Timber framed with steel wheels, belt driven saw blade powered by a Rosbery internal combustion engine. The Rosebery Engine No c28437 R.P.M 800 H.P. 6 Manufactured By Westinghouse Rosebery Pty.ltd. Sydneysaw bench, puffing billy, new record, internal combustioin, westinghouse rosebery pty.ltd., rosebery pty, internal combustion engine. -
Flagstaff Hill Maritime Museum and Village
Machine - Lawn Mower, Alex Shanks & Sons Ltd Engineers Arbroth London, 1903-1925
The firm of Alexander Shanks & Sons Ltd of Arbroath, were engineers, founders and boiler makers the company was incorporated in the year 1893. At the Dens Iron Works, purchased by the firm in the same year, a wide variety of products was manufactured including cranes, hoists, pumps and lawnmowers. In the 1960s the firm was taken over by Alexander Shanks (1801-1845) was an Inventor of the modern lawnmower, who lived in Arbroath Scotland. While credit is usually given to the Englishman Edwin Budding (1795-1846) for the invention of the lawnmower, it is Shanks' machine which was the direct predecessor of the modern mower. Shanks' innovation was a machine which rolled the grass as well as mowing it. Although Shanks himself died at a young age, his son showed the mowers at the Great Exhibition in 1851 which led to a successful business that continued into the 20th century, supplying mowers to cut the tennis courts of Wimbledon, the cricket grounds at Lords and the Old golf course at St Andrews. The firm was also well known for the manufacture of portable steam engines and steam cranes. In 1968, the company was taken over by Giddings & Lewis Fraser Ltd, Engineers of Arbroath. The subject item is a good example of an early lawn mower made by the company that is credited with being the first to patent and manufacture such a machine. The company Alexander Shanks founded was known throughout the world as significant manufactures of large steam machines used from the middle of the 19th century to the first quarter of the 20th century. The subject item is now regarded as a collector's item.Lawnmower, cast iron handles has two wooden ends and two wooden rollers at front. Blades driven by chain fixed to metal roller. Shanks's Standard Chain. Shanks's Standard Chain Arbroth London. Alex Shanks & Sons Ltd Engineers Arbroth Londonflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, hand mower, lawn mower, mower, shanks, arboth -
Flagstaff Hill Maritime Museum and Village
Drill Press, Champion Blower & Forge Co
Bench drill belt driven with stand. Pat no 767.282.Aug.9.1804. Champion Blower & Forge Co USA. Painted red and green. Machine number No.201. large bench type. Circa 1900flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bench drill, champion blower & forge co -
Flagstaff Hill Maritime Museum and Village
Gramophone, 1911
Until late 1925, all record players reproduced sound by purely mechanical means and relied on a so-called "amplifying" horn to efficiently couple the vibrations of the stylus and diaphragm to the space occupied by the listeners. In 1906, the Victor Talking Machine Company, Columbia's arch competitor, introduced a line of models in which the horn and other hardware were concealed within a cabinet, made to look like fine furniture rather than a mechanical device. They named the new style a "Victrola". It quickly proved to be very popular and successful. Other makers, adopting the distinctive suffix, introduced their own "-ola" internal horn machines, such as Edison's Amberolas and Columbia's Grafonolas. They were soon outselling the external horn models. At first, like nearly all other early record players, all Grafonolas were driven by a spring motor that the user had to wind up with a crank before playing a record. In 1915, Columbia began to introduce electric-motor-driven models, as a majority of urban areas had been wired to electrical grids. The electrified Grafonolas supported both alternating and direct currents from 110 to 220 volts. Electrified Grafonolas never gained the popularity enjoyed by the spring motor-driven versions due to substantially higher prices and a lack of electrical service in rural areas. Grafonolas were manufactured under the 1886 United States Letters Patent No. 341,214 which Columbia Graphophone company acquired through its predecessor American Graphophone Company. Two models were available; a portable table model and bigger stationary floor model, offering limited mobility through the application of casters. The most notable table models included Grafonola Favorite introduced in 1911 and Grafonola Savoy introduced in 1915. The most notable floor models included Grafonola Symphony Grand introduced in 1907, Grafonola Regent introduced in 1909, Columbia Mignon introduced in 1910, Grafonola Princess introduced in 1911, Columbia Colonial introduced in 1913. Various period Grafonolas were introduced in 1917 to cater to an increasingly prosperous clientele. Columbia Phonograph Company began to manufacture a series of ornate, limited edition period machines. These were highly priced (some as high as US$2,100 ) special orders that provided consumers with options to choose styles which matched their interior décor. Although the Gramophone does not have a large monetary value, it is of social significance as it demonstrates the progress made in audio reproduction from the first Edison cylinder machines to improvements that allowed ordinary people to be able to buy music discs and enjoy music in their own homes. Gramophone with internal horn, floor model, mechanically operated by a crank handle. Colombian Grafonola Princess (Type F2) brand. Gramophone is in a wooden display cabinet with room for record storage underneath and is complete with handle. Manufactured in 1911 by Columbia, USA."Columbia Grafonola Type 2 Made in USA"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, record player, gramophone, mechanical gramophone, floor model gramophone, gramophone record, columbia graphophone company, american graphophone company, columbia, grafonola, grafonola princess, music, playing music, audio reproduction, sound equipment, domestic entertainment, 1911 gramophone -
Flagstaff Hill Maritime Museum and Village
Audio - Phonograph, Thomas A. Edison, Edison Laboratory, c.1909
The Edison Fireside Phonograph Combination Type A model phonograph was an open horn model. This machine was produced around 1909, just after the introduction of 4-minute record cylinders in 1908.; the selection lever on the front was either 4 or 2-minute choice. This Fireside model has a fluted octagonal horn that attaches to the reproducer on the machine and is suspended by on ring by a horn crane attachment. The phonograph machine is powered purely by mechanical means, winding the crank handle on the side of the machine to start the belt-driven, spring-loaded motor inside. The sound comes from a pre-recorded, vertical cut record cylinder, which slides over the Mandle, a smooth rotating drum. The reproducer, an all-in-one needle, amplifier and speaker, is lowered onto the cylinder, the needle picks up the sound and plays it on the speaker and the attached horn amplifies the sound. The phonograph machine was invented by Thomas Alva Edison in the late 19th century. Edison adopted the idea from the technology of the telegraph machine. He patented the phonograph in early 1878. It was able to record sound and play it back. This amazing invention opened up a whole new world of entertainment, where wax cylinders of pre-recorded sound could be purchased with a wide variety of music and played over and over. The first wax cylinders were white and used a combination of bees' wax and animal fax or tallow. By 1892 Edison was using 'brown wax' cylinders that ranged from cream through to dark brown. The Edison Phonograph Company was formed in 1887 to produce these machines. He sold the company in 1855 to the North American Phonograph Company but bought that company in 1890. He then started the Edison Spring Motor factory in 1895, and the National Phonograph Company in 1896. In 1910 the company became Thomas A. Edison Inc. In 1898 Edison produced the Edison Standard Phonograph, the first phonograph to carry his own trade mark. He began mass producing duplicate copies of his wax cylinders in 1901 using moulds instead of engraving the cylinders. The wax was black and harder than the brown wax. The ends of the cylinders were bevelled so that the title's label could be added. The last phonograph machine to use an external open horn was produced in 1912 due to the much more robust round records being invented. In 1913 Edison started producing the Edison Disc Phonograph. The company stopped trading in 1929.This Edison Fireside Phonograph model is significant for being one of the last models to have an external horn. It is also significant for its connection with the invention of the phonograph, which made music and sound available for domestic enjoyment. It was used for entertainment and education, even teaching languages. It signalled a new era of music that could be reproduced and played anywhere. It is also significant for its short time span of popularity, just a few decades, due to the growing use of records, which gave a much higher quality sound and were more robust.Phonograph; Edison Fireside Phonograph, Combination Type, Model A. It is in a wooden case with a domed lid, metal catches on each side and a folding wooden handle. It has a metal drum and a reproducer mechanism. The metal and wood crank handle starts the machine’s motor. A sliding lever at the front selects the speed for four- or two-minute cylinders. The inscribed plate has the maker, serial number, patents and other information. The reproducer also has an inscription. It has a curved metal open horn attachment. Made in Orange, New Jersey in c.1909. NOTE: the fluted octagonal horn is catalogued separately.Case front, in script, Edison’s early ‘banner’ decal “Edison” On the front of the machine “Thomas A Edison TRADE MARK” On the maker’s plate; "Edison Fireside Phonograph Combination Type" Serial number “14718” Around sound outlet; “C 4076” “REPRODUCER LICENCED FOR USE ONLY ON EDISON PHOTOGRAPHS SOLD BYT.A. EDISON INC.” At the front edge “4 MINUTES 2flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck coast, gramophone, phonograph, music player, entertainment, audio equipment, edison, thomas a edison, horn, phonograph horn, amplifier, audio, sound recording, sound playback, phonograph machine, phonograph cylinder, external horn, edison phonograph company, wax cylinders, sound reproduction, edison spring motor factory, national phonograph company, thomas a. edison inc, crank-operated motor, open horn phonograph, 4 speed, 2 speed -
Flagstaff Hill Maritime Museum and Village
Audio - Gramophone Cylinder, National Phonograph Co, Poor old England, 1908
Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 13619, the recording “Poor old England” published by Castling and Godfrey, sung by Billy Williams. Made by National Phonograph Company USA. C.1907On lid “Edison Record” and “This record should turn at 160 revolutions per minute, no faster” Written on lid in blue pen “Trumpet”, “EDISON AMBEROL RECORD / FOUR MINUTE”warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison -
Flagstaff Hill Maritime Museum and Village
Audio - Gramophone Cylinder, B & H Jack, 1907
Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 49, “B & H Jack” and was made at the Edison Laboratory USA. C. 1905On lid “Edison Record No. 49”, written in pencil “B & H Jack” (it looks like this) On cylinder “EDISON GOLD MOULDED RECORDS ECHO ALL OVER THE WORLD” Patents listed for 1904 & 1905warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison -
Queenscliffe Maritime Museum
Machine - Outboard Motor
Featured variable pitch propeller for reverse, exposed gear driven magneto, steering via a rudder.Single cylinder water cooled 2 stroke Waterboy outboard motor. outboard motor, waterboy -
Churchill Island Heritage Farm
Functional object - Paling/shingle splitter's axe
The splitter's axe was used to cleave timber apart into shingles or palings. A timber handle or haft would have been inserted through the socket. The cast iron blade was placed vertically into the timber end. The blade was then driven into the timber with a rough mallet while the haft was used to guide the split along the grain. As the timber split, the haft could be twisted to lever the two pieces apart. This tool is sometimes called a froe or frow.Machine made, painted black, cast. No handle. Shows signs of use. Socket warpedchurchill island, farm, tool, tools, splitter, splitter's, axe, paling, shingle -
Churchill Island Heritage Farm
Functional object - Lister Stationary Petrol Engine Serial No. 31805, Lister Stationary Engine
Robert Ashton Lister was born in England in 1845 into an industrial family. After attending the Paris Exhibition in 1867, Robert argued with his father and formed the R.A. Lister Company to produce agricultural machinery at his factory in Dursley, England. In 1889 he linked his machine with Pederson’s cream separator which now ran at a consistent speed due to a spinning centrifugal separator thus producing consistency of cream. It was marketed through the Commonwealth and Robert himself drove right across Alberta in Canada with horse and buggy to promote the machine. He also expanded the use of his machine to sheep shearing. In 1909 the Company acquired the rights to manufacture petrol driven engines. When World War 1 began in 1914 the Company focused on producing petrol engines, lighting plants and munitions for the War Department, the workforce was mainly female as the men enlisted and left for the Front. After the War, Robert Lister retired, and the Company was taken over by his grandsons Robert, Frank, George and Percy with A.E.Mellerup. Their father Charles represented the Company in North America and Europe. Foreign competition and over supply of second-hand ex-military engines and lighting sets saw profits drop but the Company managed to recover under the leadership of Managing Director Percy. In 1929 the Company designed the CS (cold start) diesel engine producing 6-7kW which became known as the Lister 9-1. The engines were all painted the same shade of Brunswick green. By 1936 Lister was producing a wide range of petrol and diesel engines most of which were small at 1.5 to 3 horsepower. These could be bought ‘stand-alone’ or powering a complementary range of pumps, churns, cream separators, auto-trucks, generating plant and sheep shearing equipment. The most successful was the D Type Lister introduced in 1937 most of which were rated at 1.5hp at 700rpm. More than 250,000 were sold up to 1964 and although RA Lister ceased production many years ago, hundreds of these engines are still in use today.Green Lister stationary engine with petrol engine Size 71J, 3 HP, 450 RPM painted Brunswick Green. Used to power pump or similar purpose. The engine was made in1928, Dursley, UKfarm machinery, churchill island, engine, stationary engine, lister -
Churchill Island Heritage Farm
Functional object - Petrol engine
The Underwood Motor Manufacturing Co started making 3hp 2-stroke engines, in either marine or stationary styles from about 1946 at 135 Queensberry St, North Melbourne. By about 1949 the 3.5hp 4-stroke engine was introduced. this engine was sold by Baltic Simplex as the Simplex Challenger, replacing the RB&T built S type. By the mid 1950's the firm had shut up shop. In the Sands & McDougall directories of 1948 & 1949 they were listed as Underwood Petrol Engine Co. The following years they were back to Underwood Manufacturing Co. The two-stroke version came in such variations as marine, stationary, tank, hopper cooled and air cooled, each believed to have run on a mixture of 30 parts Standard grade petrol to one part oil. Most but not all water cooled two stroke engines feature a water circulating pump. The 3-4hp four stroke engine used petrol for starting then switched to kerosene when warmed up. Most were 3hp. From a 1947 advertisement the machine was noted with rope start, quickly detachable magneto and the angled spark plug which would have been a marine version with a clutch and hand throttle. The stationary engine had the clutch replaced by a governor. The magneto on these engines did not rotate. it was oscillated by an eccentric on the crank and a link to an arm on the magneto drive shaft. There were other variations including a hopper cooled one with a normal marine base and a chain driven magnet. Dark green with surface rust "Underwood" in white lettering on red background on tank.farm machinery, stationary engine, petrol engine, churchill island -
Churchill Island Heritage Farm
Functional object - Stationary engine
This engine has a blue green casing and has been made portable as it is mounted on a tray supported by four red metal wheels. It could be moved around the paddocks or sheds pulled by horses or oxen. There is no identification plate on the engine and there are no maker’s stamps or marks therefore it is difficult to name the company responsible for its manufacture. Engines like this were invaluable on farms to operate threshing and milling machines, pumps, saw benches, hay balers and chaffcutters, among other things. This engine is currently attached to a chaff cutter. The value is also in the fact that it has two belt drive wheels so could be used to perform two different operations simultaneously depending on available horsepower.Blue green casing; two belt drive wheels; red wheels. Attached to green chaff cutterchurchill island, farm machinery, stationary engine, belt driven -
Geoffrey Kaye Museum of Anaesthetic History
Bird Anaesthesia Assistor/Controller Mark 4
The Bird Mark 4 is an anaesthesia assistor or controller with pressure and volume controller to be driven by a respirator. Combination of Mark 4 with respirator makes an automatic anaesthesia respirator eliminating manual bagging. The machine can work through Boyle anaesthetic system. It is designed for both paediatric and adult application. (Drugs and Equipment in Anaesthesia Practice, Aruna Parameswari, 2019)Green metal box atop a clear plastic unit with a black bellows inside, which forms one part of the overall unit. The unit is attached to a pole, enabling height adjustment. The pole is, in turn, attached to a set of four castors [not original].White text on black stick on strip on top of metal box: DO NOT PULL APART / FOR USE IN THEATRE ONLY A series of instructions are printed in white text over the unit.anaesthesia assistor, anaesthesia controller, pressure controller, volume controller, paediatric, adult -
Moorabbin Air Museum
Machine - Gloster Meteor T7 A77-707 (WH118)
Historical Details: . Description: The Gloster Meteor T7 trainer was built in England during the early 1950s, and was designed to facilitate the training of pilots in the transition from propeller-driven combat aircraft to jets. From 1951 until the early 1960s the principal jet fighter. Level of Importance: State -
Clunes Museum
Machine - COMPTOMETER, Felt & Tarrant Manufacturing Company, Prior to 1957
THIS ITEM IS A KEY-DRIVEN MECHANICAL CALCULATOR Metal plate inscribed; Comptometer Manufactured in the United States of America Felt & Tarrant Mfg. Co. Chicago adding machine, felt & tarrant manufacturing company, calculator -
Ballarat Tramway Museum
Photograph - Colour Print/s, 12/10/1974 12:00:00 AM
Yields information the first tram to be driven from the BTPS depot building under power.Colour photograph of the inauguration of No. 27 to be moved under power on 12 Oct. 1974 - Vice President Bill Jessup drove the tram - see Page 2 of the 1974/75 Annual report and page 23 of December 1974 Trolley Wire for a similar photo by Bob Prentice. Richard Gilbert on the "podium", prior to the launch. Printed on Kodak paper.On Rear in red ink machine printed "Nov 74.M"trams, tramways, depot construction, btps, operations, tram 27 -
Whitehorse Historical Society Inc.
Machine - Household Chopping Machine, Mechanical Chopper, c1886
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 -
Whitehorse Historical Society Inc.
Machine - Lawn Mower - Motor, c1930
... Mitcham melbourne Lawn Mower - Motor Machine Petrol driven motor ...Given by Harold Bake and was used by him.|2007 - Seized gearbox repaired.Petrol driven motor Qualcast lawn mower (motor - Villiers Midget made in England) with a large roller.Qualcastdomestic items, gardening, machinery, engines - internal combustion -
Whitehorse Historical Society Inc.
Machine - Food Mixer, Lemon Squeezer
Hinged food mixer with egg beater blades of chrome plated steel. Brass handle, chromed. Base worked steel painted with hammertone paint. White plastic base to hold missing lemon squeezer. Bowl to mix in missing. Has five small rubber legs.Has a planetary action and is hand driven. Beats eggs, cream and potatoes. The juice can run down into the basin when lemon is squeezed.domestic items, food preparation -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Magneto Electric Machine
Experimentation with electricity for medical purposes has its origins in the late 18th Century. Throughout the 19th Century it became more common, including as a proposed treatment for 'nervous' disorders. This device is a small, portable, 'at-home' device.Device for administering electric stimulation to patients. Consists of a wooden box containing a hand driven generator, with terminals for the attachment of electrodes that may be held by the patient or placed against the patient's skin. The directions for use include information about wetting the sponges and the patient's hands before cranking the machine to produce a small electric shock. -
National Wool Museum
Gill Box
Textile machine - Gill box. Combs and brushes driven by electric motor. Name plate of machine is missing. -
Whitehorse Historical Society Inc.
Machine - Saw
Used in an orchard workshop to cut metal.Belt driven power hacksaw or metal cutting saw with overhead drive shaft and a section of canvas drive belt.'Drawcut' make, on bow and 'adjust tension' etc on adjuster.trades, metalworking -
Flagstaff Hill Maritime Museum and Village
Machine - Fusee Clock Mechanism, early 20th Century
The origin of the fusee is not known. Many sources credit clockmaker Jacob Zech of Prague with inventing it around 1525. The earliest dated fusee clock was made by Zech in 1525, but the fusee appeared earlier, with the first spring-driven clocks in the 15th century. The idea probably did not originate with clockmakers, since the earliest known example is in a crossbow windlass shown in a 1405 military manuscript. Drawings from the 15th century by Filippo Brunelleschi and Leonardo da Vinci also show fusee mechanisms. The earliest existing clock with a fusee, also the earliest spring-powered clock, is the Burgunderuhr (Burgundy clock), a chamber clock whose iconography suggests that it was made for Phillipe the Good, Duke of Burgundy about 1430. Springs were first employed to power clocks in the 15th century, to make them smaller and portable.[1][5] These early spring-driven clocks were much less accurate than weight-driven clocks. Unlike a weight on a cord, which exerts a constant force to turn the clock's wheels, the force a spring exerts diminishes as the spring unwinds. The primitive verge and foliot timekeeping mechanism, used in all early clocks, was sensitive to changes in drive force. So early spring-driven clocks slowed down over their running period as the mainspring unwound. This problem is called lack of isochronism. Two solutions to this problem appeared with the first spring-driven clocks; the stack freed and the fusee. The stack freed, a crude cam compensator, added a lot of friction and was abandoned after less than a century. The fusee was a much more lasting idea. As the movement ran, the tapering shape of the fusee pulley continuously changed the mechanical advantage of the pull from the mainspring, compensating for the diminishing spring force. Clockmakers empirically discovered the correct shape for the fusee, which is not a simple cone but a hyperboloid. The first fusees were long and slender, but later ones have a squatter compact shape. Fusees became the standard method of getting constant force from a mainspring, used in most spring-wound clocks, and watches when they appeared in the 17th century. Around 1726 John Harrison added the maintaining power spring to the fusee to keep marine chronometers running during winding, and this was generally adopted. The fusee was a good mainspring compensator, but it was also expensive, difficult to adjust, and had other disadvantages: It was bulky and tall and made pocket watches unfashionably thick. If the mainspring broke and had to be replaced, a frequent occurrence with early mainsprings, the fusee had to be readjusted to the new spring. If the fusee chain broke, the force of the mainspring sent the end whipping about the inside of the clock, causing damage. The invention of the pendulum and the balance spring in the mid-17th century made clocks and watches much more isochronous, by making the timekeeping element a harmonic oscillator, with a natural "beat" resistant to change. The pendulum clock with an anchor escapement, invented in 1670, was sufficiently independent of drive force so that only a few had fusees. In pocketwatches, the verge escapement, which required a fusee, was gradually replaced by escapements which were less sensitive to changes in mainspring force: the cylinder and later the lever escapement. In 1760, Jean-Antoine Lépine dispensed with the fusee, inventing a going barrel to power the watch gear train directly. This contained a very long mainspring, of which only a few turns were used to power the watch. Accordingly, only a part of the mainspring's 'torque curve' was used, where the torque was approximately constant. In the 1780s, pursuing thinner watches, French watchmakers adopted the going barrel with the cylinder escapement. By 1850, the Swiss and American watchmaking industries employed the going barrel exclusively, aided by new methods of adjusting the balance spring so that it was isochronous. England continued to make the bulkier full plate fusee watches until about 1900. They were inexpensive models sold to the lower classes and were derisively called "turnips". After this, the only remaining use for the fusee was in marine chronometers, where the highest precision was needed, and bulk was less of a disadvantage until they became obsolete in the 1970s. Item is an example of clock mechanisms used until 1910 for many different styles of clocks and went out of fashion in the 1970s due to improvements in clock and watch making.Brass fusse clock movement, It has very heavy brass plates and wheels, high-count machined pinions, and a fusee. The mounting of the pendulum is missing and It has a recoil escapement. A fusee is a conical pulley driven through a chain by the spring barrel. As the spring runs down, the chain acts at a larger and larger radius on the conical pulley, equalising the driving torque. This keeps the rate of the clock more even over the whole run. It has motion work to drive an hour hand as well as a minute hand and the centre arbor is extended behind the back plate to drive some other mechanism.Inscription scratched on back"AM 40" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock mechanism, fusee mechanism, horology -
Federation University Historical Collection
Photograph, Farming scene in the Wimmera, c1915
A team of eight horses being driven by a man to prepare a paddock. In the background another horse is also yoked up to a machine.Black and white photograph of a farming scene in the Wimmera, VictoriiaVerso: Scene in the Wimmera about 1915farm, horse team, agriculture, wimmera c1915, ploughing, farming c1915 -
Flagstaff Hill Maritime Museum and Village
Equipment - Boiler, possibly 1918
... . This boiler is an example of equipment used for a steam driven machine ...This type of steam boiler is called a Scotch Marine boiler. It was manufactured in Dordrecht, Netherlands, possibly in 1918 by 'DeMan & Teveldhuis'. The only history that we have was that the boiler was found in an unknown paddock. It had an attached tag labelled "Melbourne Steam Club" but never collected by them. It was eventually brought to Flagstaff Hill Maritime Village for display.This boiler is an example of equipment used for a steam driven machine.Boiler, Scotch Marine Boiler design, cylindrical shape with rivets on the enclosed end, pipe fittings on top and apertures and open pipe ends on the other end.. Possibly manufactured by 'DeMan & Teveldhuis' in 1918 in Dordrecht, Netherlands. Inscription embossed on outside of boiler. "19 DE MANS & TEVEL-(D?)HUIS DORDRECHT 18"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, boiler, scotch marine boiler, steam boiler, ship's boiler, dordrecht netherlands, 1918 boiler, melbourne steam club