Showing 100 items matching instrument manufacturers
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Flagstaff Hill Maritime Museum and Village
Instrument - Ship Log, Early 20th Century
In times past the only way to measure a ship’s speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this, they could estimate the vessel's speed through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. Various manufacturers of nautical equipment had sought over the years to perfect the operation of determining a ship's speed and it wasn't until Thomas Walker and his son Ferdinand developed a mechanical system that eventually made this task became easy for marine navigators. Thomas Walker & Son were internationally renowned in the manufacturing of ship logs the founding father, Thomas Walker (1805–1871), an engineer in Birmingham, patented his mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial then recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kickstarting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ship’s log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (a British-based organisation promoting ties and trade with the British Caribbean), being the most common log in use for two generations. It took until 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log (Trident) and the Walker factory was one of the first to introduce the 48-hour work week for employees.The ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades.Ships Log, Walker Trident electric motor, in wooden box with instructions inside box. The motor dial with electric cord is still inside box.Inscription "Admiralty patent number 3332" and "Walker Trident Electric Ship Log (Mark III), 15-25 volt". On top of lid, hand written, is "G TAYLOR"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ships log, thomas walker & son, electric ships log, marine navigation, thomas ferdinand walker, ship log -
Flagstaff Hill Maritime Museum and Village
Instrument - Musical, Piano, Renardi, c. 1900
This solid, late Victorian era piano is branded Renardi, which is a German name. In the late 19th century thousands of pianos were exported from Germany to Australia. Some, unfortunately, were amongst the cargo of shipwrecks. It seems that the Renardi pianos were not made by a Renardi company but made to order by any of a number of German piano manufacturer and branded for distribution by Australian music stores.This Renardi piano represents an era where musical gatherings were part of domestic entertainment. Pianos were ialso installed in clubs, public halls and hospitality businesses for song nights and concerts were encouraged for community unity.Piano, upright, walnut veneer with floral design on panels. Turned columns, hinged lid and two metal pedals. Branded Renardi, a German name, made c. 1900. "RENARDI"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, musical instrument, upright piano, german, renardi, victorian era, late 19th century, entertainment -
Kiewa Valley Historical Society
Meter Volt, mid to late 1900's
This analog voltmeter is quite a large (industrial type) apparatus which permits the easy monitoring of electrical variations within the large SEC Victoria Hydro Scheme's electrical generators. These generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This hydro scheme was instigated by "the Government of the day" as a bold move and was the major force of the World War II refugee and "technical" workforce inclusion of skilled and unskilled migration into the Australian environment. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual multi-cultural diversity of later years. This voltmeter is very significant to the Kiewa Valley as its use was introduced during the Kiewa Hydro Scheme. Although only a small apparatus it was part of the explosion of human resources into the valley. This influx of population transformed the region from that of a basically quiet rural region to one which evolved into both an industrial and a larger residential community. This evolution in the valley created a change, not only in the "physical" landscape but also the socio-economic expansion which permitted other "tourist" based industries into the valley. This analog volt meter has two metal rods protruding from the "back" of instrument with screw on points for the negative and the positive leads allowing the "current" to flow across the calibrated resistors to indicate on the "face" side the strength of the voltage "power". The "face" of the instrument has a zero point and then five evenly graduated marks from Zero to the "100, 200 and 300" marked points of measures. A large "V" below these pointers indicates that they represent levels of voltage. Three small screws hold the "face" in place. At the back of the meter is an aluminium "clasp" with three protruding screws (positioning fasteners) and a a screw tightening fixture for the correct fastening of the "clasp" into the correction location on the meter "board".Manufacturer's logo "CSG" underneath "ITALIA"kiewa valley tourism, victorian alps, alternate energy supplies, alpine population growth -
Kiewa Valley Historical Society
Tester Direct Current, mid 1900's
This tester was used between 1950 and 1980's. As part of the Occupation, Health and Safety requirements, equipment used to monitor the performance of electricity producing generators, regularly, hand held testers were used to check the insulation and the "earth" pin were up the the required operational levels. As the generators and their ancillary monitoring equipment was spread over a large area and cumbersome to service small hand held devices were required. These had to always be safe for the user to operate. A selected range of high quality meters were recalibrated every two years in the Meter and Calibration Laboratory at Yarraville(near Melbourne) This meter is very significant to The Kiewa Hydro Electricity Scheme because it was an integral part of maintaining the electricity producing water driven generators of the power stations. The reason why this meter was so essential is that provided the safety check on equipment used to monitor each Hydro Generator that they were complying within the grid network parameters. Grid parameters are set so that if there is an electrical fault on the system, that fault can be attended to with a very small change in the output stability of each generator. It is essential that the voltage of the network remain within the set limits. Generators are at Dartmouth, Mackay, Clover, West Kiewa, Yarrawonga, Cain Curran and three Power Stations in the Thornton area.This hand driven current generator produces 500 volts by winding the handle(on funnel curved side) to keep the voltage constant(one minute per test). The whole body is made from caste aluminium. One of the functions of this meter is to test the isolation resistance of any equipment being tested. This is to see if that equipment is safe to handle(no electrical shocks). The second function is to test the earth pin of any portable electrical equipment. The turn key on one side can direct which function is required(marked insulation or continuity). On the top side(enclosed in a glass fronted marked scale) is a continuity scale(top) and an insulation scale(bottom). This is covered , when not in use by "flip up" lid with manufacturer's details and name of the instrument. Opposite the winder are two screw tight knobs. One marked earth(left side) and one marked line(right side). On the top and next to the glass windowed scales in a post manufacture SEC Vic equipment equipment ID number. For carrying purposes there is chromed steel (fold together) handle.The bottom of the unit has two metal "feet" 150mm long by 114mm wideManufacturer's details on top side "MEG" underneath "INSULATION AND CONTINUITY TESTER" below this "constant 500 VOLT pressure" below this "REGISTERED MEG MEGGER TRADE MARK" below this "REG DESIGN NO. 690326" below this "UNITED KINGDOM PATENT Nos. 193746, 197178, 198182, 202062, 202398, 204649, 350715" below this "SUPPLIED BY THE GENERAL ELECTRIC Co. Ltd OF ENGLAND" below this "MAGNET HOUSE, KINGSWAY LONDON W.C.2" 'sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall -
Kiewa Valley Historical Society
Whistle Penny, circa 1950s
This item is a cheap Penny Whistle made in Thailand Circa 1955. The item was one of the first wave of imports from the growing Asian steel producers. This was an era where cheaper Asia based steel companies did not compete against the stronger, and well established Australian ones. This Penny Whistle was "roughly" made and possibly purchased by the Victorian Education Department for use in school bands and music classes. Schools within the Kiewa Valley would have used them to integrate students the fundamentals of reading music and playing basic musical scores. Later conversion from steel to plastics would have been more conducive to multiple users in a classroom environment (more hygienic and rust proof.This item shows how the "cheaper" invasion of all types of manufactured goods from the Asian regions have altered the purchasing patterns of rural Australians(the more traditional consumer). The cost imbalance of purchasing from "The Mother Country (England)" or European supply versus the Asian manufacturers was due to not only the financial pressures post World War II but also in the elimination of Tariff restrictions placed on non favoured suppliers.This tin Penny Whistle is made from rolled tin(steel), cylindrical in shape, with a wooden Fipple plug at the mouth end and six note holes starting half way down the front side evenly spaced and ending 35mm from the bottom. This whistle is in the key of D"G steel & Co. D"music, wind instruments, whistle, celtic music -
Frankston RSL Sub Branch
Bugle, 1911
The bugle was most likely used in the First World War for ceremonial and military operational functions. Bugles were an effective means of passing fixed messages and times over the noise and distance of battles and battlefields. Henry Potter & Co was a well known manufacturer of military bugles for the First World War. Military copper bugle with brass trim and silver (?) mouthpiece with brass retaining chain. inscribed "Henry Potter & Co" "38 West Street, Charing X Road, London 1911"world war one, ww1, brass, musical instrument, bugle, henry potter -
Frankston RSL Sub Branch
Bugle, 1911
The bugle was most likely used in the First World War for ceremonial and military operational functions. Bugles were an effective means of passing fixed messages and times over the noise and distance of battles and battlefields. Henry Potter & Co was a well known manufacturer of military bugles for the First World War. Copper bugle with brass trim, mouthpiece and brass retaining chain. inscribed "ANZACS" "The Great War, 1914 - 1918"world war one, ww1, brass, musical instrument, bugle, henry potter -
Upper Yarra Museum
Razor, Cut throat
Sharped Edged instrument used for cleaning hair from the skin. http://en.wikipedia.org/wiki/Straight_razor A straight razor is a razor with a blade that can fold into its handle.[1] They are also called open razors and cut-throat razors. HISTORY The first modern straight razor complete with decorated handles and hollow ground blades was constructed in Sheffield, England, by Benjamin Huntsman in 1740. Huntsman's process was adopted by the French sometime later. The English manufacturers were even more reluctant than the French to adopt the process and only did so after they saw its success in France.[5] Straight razors were the most common form of shaving before the 20th century and remained that common in many countries until the 1950s. TODAY Straight razors are still manufactured. DOVO, of Solingen, Germany, and Thiers Issard of France are two of the most well-known European manufacturers. Feather Safety Razor Co. Ltd. of Osaka, Japan makes a razor with the same form as a traditional straight, but featuring a disposable blade that can be installed through an injector-type system. Modern straight razor users are known to favor them for a variety of reasons. Some are attracted to the nostalgia of using old and traditional methods of shaving. It is a masculine ritual comparable to pipe smoking. Others profess an interest in reducing the waste of disposable blades.[11][22] Still others agree that straight razors provide a superior shave through a larger blade and greater control of the blade including the blade angle. Straight razors cover a much greater area per shaving stroke because their cutting edge is much longer than any of the multiblade razors. Ivory cut throat razor, with cream case 00121.3.Known as a straight razor.Razor with square point, full hollow ground 5/8” blade and double transverse stabiliser. The centre pin adds stability and rigidity to the handle---I think this is it ROM Parts The narrow end of the blade pivots on a pin, between 2 pieces of ivory forms the handle. LONG EXTRACT FROM WIKI _ SHORTEN to describe 00121 The parts of a straight razor and their function are described as follows: The narrow end of the blade rotates on a pin called the pivot, between two protective pieces called the scales or handle. The upward curved metal end of the narrow part of the blade beyond the pivot is called the tang and acts as a lever to help raise the blade from the handle. One or two fingers resting on the tang also help stabilize the blade while shaving. The narrow support piece between the tang and the main blade is called the shank, but this reference is often avoided because it can be confusing. The shank sometimes features decorations and the stamp of the country of origin. The top side and the underside of the shank can sometimes exhibit indentations known as fluting, or jimps for a more secure grip.[8] The curved lower part of the main blade from the shank to the cutting edge is called the shoulder.[9] The point where the shoulder joins the cutting edge is called the heel. A thick strip of metal running transversely at the junction where the main blade attaches to the shank is called the stabiliser. The stabiliser can be double,[10] single or can be absent in some razor models. The first stabiliser is usually very narrow and thicker and runs at the shank to blade junction, covering the shank and just spilling over to the shoulder. The second stabiliser can be distinguished since it is considerably wider and narrower, appearing after the first stabiliser and running lower into the shoulder. The non-cutting top of the blade is called the back or the spine while the cutting part of the blade opposite the back is called the cutting edge.[11] Finally the other free end of the blade, at the opposite end of the tang, is called the point and, sometimes, the head or the nose.[9][12] There are two to three pins in any handle. The middle pin, if present, is plastic coated and is called the plug.[13] Its function is to stabilise the sides of the handle so that they cannot be squeezed in the middle. When folded into the scales, the blade is protected from accidental damage, and the user is protected from accidental injury. During folding, the back of the blade, being thick and normally with a curved cross-section, acts as a natural stopper and prevents further rotation of the blade out of the handle from the other side shaving, lever, handle, blade, pivot, razor, tang -
Cheese World Museum
Scales, Persinware, Post Office scales
These scales were used in the post office which was located at Warrnambool Cheese & Butter Factory.Red Post Office wedge-shaped scales with rectangular base and spring-loaded top plate; white dial face marked to 16oz by 1/8 oz increments. Marked Domestic Use Only. Manufacturer's details marked in gold on the front of the scales.No.63 (on base) POST OFFICE/Persinware/Made in Australiaallansford, warrnambool cheese & butter factory, wcb, post offices, scales, weighing instruments -
Melbourne Athenaeum Archives
Barometer, Given the plaque affixed to the instrument states Royal Arcade as the premises’ address it is assumed that the barometer was manufactured no sooner than1869
... to the British Isles. A local manufacturer of scientific instruments... to the British Isles. A local manufacturer of scientific instruments ...Stick mercury barometer, named after Admiral Robert Fitzroy of the Royal Navy (1805 - 1865) for his detailed instructions on interpreting the weather that are included with the instrument. Fitzroy was the captain of the Beagle, a weather forecaster to Charles Darwin and the second Governor of New Zealand. He developed many different types of barometers and was the first person to introduce the science of weather forecasting to the British Isles. A local manufacturer of scientific instruments, Thomas Gaunt, produced the barometer and it was adapted for the southern hemisphere by Robert Ellery, the State Astronomer based at the Melbourne Observatory. Described as "Gaunt's Fitzroy Barometers" in the original sale catalogue, it was priced from 25/- to ₤9.9s. [See Miller, M., Gaunt’s Time, 2014]. Thomas Gaunt's business was originally located at 14 Bourke Street East from 1858. In 1869-1870 he moved to new premises in the Royal Arcade, Collins Street. Gaunt's business became an institution in Victorian Melbourne and Gaunt its leading clock maker. PROVENANCE According to official minutes the barometer was purchased by the Melbourne Athenaeum in 1874. In particular, at the March meeting of the General Committee the House Subcommittee was instructed to "obtain a Fitzroy or other reliable barometer" to be "fixed in the Reading Room". The 1874 Annual Report records the purchase at ₤3.10.0. The barometer is historically significant as an example of the work of Melbourne’s leading scientific instrument maker, Thomas Gaunt. The barometer has social significance as an example of the type of accoutrements provided by the committee of the Melbourne Athenaeum for the comfort of its members. Further social significance lies in the fact that Robert Ellery, the Government Astronomer, who designed the local version of the barometer, has a direct connection with the Athenaeum being a subscription member and committee member of the Athenaeum during the 1870s. There are also records of a T Gaunt as a subscription member of the Athenaeum during the 1870s and 1880s which may be Thomas Gaunt, however, this is yet to be verified. Stick mercury barometer known as the Admiral Fitzroy Barometer. It comprises an oblong wooden case with glass front panel, ornate pediment, barometer with bulb cistern (empty of fluid),printed instructions for interpreting information given by the gauge affixed to left and right face of instrument. Includes a thermometer. The barometer appears to be intact except for the turning knobs which are missing and the mercury in the tube which is not present. Whether the instrument could be restored to working order is unknown. Front right panel, metal plaque: "Thos Gaunt, Barometer Maker, Royal Arcade, Melbourne"melbourne athenaeum, barometer, thermometer, admiral fitzroy, thomas gaunt of melbourne, robert ellery -
Flagstaff Hill Maritime Museum and Village
Rangefinder, E R Watts & Sons, 1930-1945
E. R. Watts and Son, makers of theodolites and other surveying instruments, of 123 Camberwell Road, London. The company was established in 1856 by Edwin Watts at twenty-three he had saved £100 from his earnings to start the business with his staff consisting of one boy and later Alexander Clarkson as an apprentice with the workshop a small room over a Bemondsey stable. Watts' first order was from Negretti and Zambra for a mining dial Alexander Clarkson In the early days the firm worked mainly on marine compasses. Edwin Watts would go down to the Docks to adjust the compasses once they had been installed on the ships. In May 1873 the business moved to larger premises a house with a garden. The workshop was also the home of Mr and Mrs Watts and their five sons and three daughters. By now there were fifteen to twenty men employed by the firm. The company were commissioned to supply the Theodolites and Levels for the construction to the Canadian Pacific Railway in 1881. Towards the end of the century, the firm began to make heliographs continuing to produce them for the government until just before the Second World War when by agreement assigned their manufacture to another firm. 1904 The first dividing engine was completed by George William Watts. It was so remarkable an instrument at the time and for years afterwards, In 1907 Arthur Ames went to Canada and started an organisation in Winnipeg in 1909 this became a separate company called E. R. Watts and Son Ltd. of Ottawa. This firm developed considerably and was eventually with the co-operation of three other instrument companies (Cambridge Instrument Co, Ross, and Negretti and Zambra), were reconstituted as ”Instruments Ltd” of Ottawa and Toronto. During the next ten years, the firm expanded greatly to include glass grinding, leather work, dividing and engraving, testing, adjusting and packing. This expansion was continued during the First World War when workshops were completed and the machinery installed and running within eleven weeks from the start of construction. During the war, a Sergeant Coles, among the rats, lice and mud of the trenches, fitted various bits of scrap into his cocoa tin and made the first Flash Spotter for plotting the positions of enemy guns. Coles was rushed home to the firm's factory where he and George William Watts designed a spotter not made out of a cocoa tin and as a result, the Watts Vertical Force Variometer was developed during WWI. Other Watts instruments made in the First World War included the Light Mountain Theodolites which were taken on Mt Everest expeditions. In 1919 ER Watts and Sons was incorporated as a limited company and in 1939 G. A. Whipple joined the Board of Directors. Shortly afterwards, Frank Charles Watts died having been Chairman of the firm for over 37 years and seen it through the First World War with all its expansions and difficulties. He was succeeded by his brother George William Watts with the vacant post of Managing Director being filled by G. A. Whipple. During the Second World War, the company expanded further and the number of employees rose to well over 1,300. In 1946 Watts acquired 78% of Adam Hilger and the microscope maker James Swift and Son Who were Manufacturers of Theodolites, Levels, Alidades, Meteorological Instruments, Variometers, and many other types of scientific instruments Then in 1948 the company amalgamated with Adam Hilger as Hilger and Watts which was then incorporated as a public company.Naval Rangefinder with a vertical wooden handle, and an arrangement of optical lenses. Three reversible brass inserts calibrated on both sides in yards, correspond to various base heights, (20 and 25 feet, 30 and 35 feet and 40 and 50 feet). They are fitted along the axis of the instrument. When the scale for the appropriate base height is selected and inserted, the carriage can be slid for coincidence and the distance read at the index mark on the sliding carriage.inscribed "Rangefinder Cotton Type Mk II" Calibrated scale up to 5000 yds (50 ft), 5000 yds (35 ft), 4000 yds (25 ft) made by E. R. Watts & Son.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, rangefinder, cotton type, e r watts & sons, naval range finder, marine equipment -
Flagstaff Hill Maritime Museum and Village
Instrument - Letter Scale, Philip Jakob, Maul, 1930s
... oz philip jakob, maul scale manufacturer german industry ...Jakob Maul (1866-1953) founded a metal works factory in 1912 at Zell in Odenwald not far from Frankfurt. He was born the son of a winegrower from the Rheinhessen region of Germany that lies on the left bank of the river Rhine. At the age of 45, he started a metal works factory to produce various types of scales but during the second world war the factory was bombed and production ended. Production for the manufacture of scales resumed in 1948. In 1953 at his death Jakobs son Fritz Scharmann an engineer who had been working with his father since 1923 took over the management of the Maul companies. In 1970 the production responsibilities for Philip J Maul was taken over by Porti Office Equipment who was based in Hamburg. The company has undergone several integrations with subsidiary companies. Today the company has diversified into different areas one of which is manufacturing solar scales. An original postal scale made in Germany before the Second World War and regarded today as a collector's item. It is significant as it is a snapshot into the past and how everyday vintage items were used and interacted within society in the 1930s.Antique German Jacob Maul "Concav" brass postal or letter scale, quadrant type, with pendulum, measuring up to 9ozs. The scale has a level-adjusting screw.The balance is marked "CONCAV" and graduated in imperial ounces to 9 ozflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, scale, quadrant scale, postal weight, 9 oz, philip jakob, maul, scale manufacturer, german industry, weighing instrument, inclination scale -
Flagstaff Hill Maritime Museum and Village
Gauging Rod, 1903-1938
The firm Dring and Fage were active from 1790 to 1940 in London and were manufacturers of hydrometers and mathematical instruments they became established in London in 1790 by John Dring, who was a brass worker and hydrometer maker, and William Fage. Dring and Fage manufactured also saccharometers and other instruments used to measure the strength of alcohol. These instruments were primarily used to calculate excises. They traded at various addresses in London and they were at 56 Stamford St. between 1903 and 1938. By 1850 the company was owned by Edward Hall and Edward Jenkin and in 1940 the company became Dring & Fage Ltd, trading till the 1960s. Historically, gauging has meant measuring a volume, these gauging instruments were used by Customs and Excise and manufacturers for determining the volume and contents of liquid containers. For Customs the determination and collection of duty on imported goods which has had a very long history. Chaucer was a Customs Officer as was his father and grandfather, excise was first officially introduced in 1643, with the aim of maintaining military forces raised by the English Parliament at that time. Excise was initially a duty on home produced alcoholic beverages and soap but being easily applied, spread rapidly to a wide range of goods including imports of varying kinds. The government departments of Customs and Excise merged only in 1909 and it is from around this time that our instrument was made and used. The item demonstrates a long social history of the practice of Government's collecting duty on alcoholic beverages and thereby makes this item historically significant as it was used locally at Port Fairy by the ports Customs agents. Gauging rod or bung rod; ullaging gauge. Long brown wooden gauging rod with brass tips and sliding brass marker. Measurements are marked along the length of the rod. Used for measuring volume of liquor in casks in order for Customs to calculate excise (tax) on the contents. Made by Dring & Fage, London.Engraved “Dring & Fage 56 Stamford St London flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, gauging rod, ullaging rods, measuring instruments, customs tax, dring & fage, alcohol measurement -
Flagstaff Hill Maritime Museum and Village
Theodolite, Troughton & Simms, Mid 19th Century
... , and manufacturer of scientific instruments, whose head office and showroom..., and manufacturer of scientific instruments, whose head office and showroom ...The theodolite was sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See further details below.) History for Troughton & Simms: Edward Troughton & William Simms established a scientific instrument making business in London in 1826. Edward Troughton (1756-1835) had previously had his own scientific instrument business, inherited from his father. His achievement's included a transit telescope for Greenwich Observatory (1816) and the precision surveying instruments for the Ordnance Survey of Britain, Ireland and India. William Simms (1793-1860) had trained as a goldsmith and began to gain work dividing circles on fine astronomical instruments. When William Simms died in 1860, the business was taken over by his son James and nephew William. Troughton & Simms shop in Fleet Street became the hub of the finest scientific instrument made in London, in a period in which there was an expanding demand for precision instruments, for astronomy, surveying and precision measurement. They made instruments for Greenwich Observatory, for imperial surveys and exploring expeditions. When fire destroyed the Houses of Parliament in 1834, the firm was commissioned to create new standard lengths, this required 10 years of testing against the remaining old measurements. Troughton and Simms made several of the main instruments for Melbourne Observatory, including an 18 inch azimuth used of the Geodetic Survey, portable transit instrument (circa 1850), zenith sector (1860), a 4.5 inch equatorial telescope (1862), an 8 inch equatorial telescope (1874) spectroscope (1877) and an 8 inch transit instrument in (1884). While the firm had an excellent reputation for quality the company exasperated many of its customers with delays of years in delivering some instruments. History for Thomas Gaunt: Thomas Ambrose Gaunt (1829 – 1890) was a jeweller, clock maker, and manufacturer of scientific instruments, whose head office and showroom were at 337–339 Bourke Street, Melbourne, Victoria, Australia. Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade, Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Significance: With the rapid urban expansion, one of the most important needs of the new colony was to survey and map the landscape of the Australian Colony’s interior. Theodolites, such as this one, made by Troughton and Simms, who were significant scientific instrument makers of the 19th century were instrumental to the colony's surveyors and would have played an important part in their everyday work. This transit theodolite remains of national significance due to its pioneering role in Australian science and its association with Australia's earliest surveyors and astronomers. It is also significant for its association with nineteenth-century surveying instruments and instrument makers. Theodolite, Vernier repetition theodolite with enclosed horizontal circle (of about 130 mm diameter). Vertical circle exposed and somewhat corroded (diameter about 115 mm). Plate level 20" per division. Altitude bubble 20" per division. Horizontal and vertical circle intervals 20". Original (blue/grey) paint. Altitude bubble setting screw disabled. Tribrach allows movement of theodolite by 15 mm inside tribrach (for centering).Inscribed on the inner mounting plate,“Specially made in England for T Gaunt & Co Melbourne” and inscribed a little lower “Troughton & Simms London”flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, theodolite, t. gaunt & co, troughton & simms, scientific instrument, measuring instrument, surveyor's instrument -
Flagstaff Hill Maritime Museum and Village
Functional object - Telescope, 1752-1900
... manufacturer of optical instruments. For a time in the eighteenth... manufacturer of optical instruments. For a time in the eighteenth ...The discovery of the first telescope in 1608 can be attributed to Hans Lippershey of the Netherlands when he discovers that holding two lenses up some distance apart bring objects closer. He applies for a patent on his invention and this becomes the first documented creation of a telescope. Then in 1668, Newton produces the first successful reflecting telescope using a two-inch diameter concave spherical mirror. This opened the door to magnifying objects millions of times far beyond what could ever be obtained with a lens. It wasn’t until 1729 that Chester Moor Hall develops an achromatic lens (two pieces of glass with different indices of light refraction combined produce a lens that can focus colours to almost an exact point resulting in much sharper images but still with some distortion around the edges of the image. Then in 1729 Scottish instrument maker James Short invents the first parabolic and elliptic, distortion-less mirror ideal for reflecting telescopes. We now come to John Dollond who improves upon the achromatic objective lens by placing a concave flint glass lens between two convex crown glass lenses. This had the effect of improving the image considerably. Makers Information: John Dollond (1707-1761) London England he was a maker of optical and astronomical instruments who developed an achromatic (non-colour distorting) refracting telescope and practical heliometer. A telescope that used a divided lens to measure the Sun’s diameter and the angles between celestial bodies. The son of a Huguenot refugees Dollond learned the family trade of silk weaving. He became proficient in optics and astronomy and in 1752 his eldest son, Peter joined his father in an optical business, in 1753 he introduced the heliometer. In the same year, he also took out a patent on his new lenses. He was elected a fellow of the Royal Society in May 1761 but died suddenly in November and his share in the patent passed to his son Peter. In subsequent squabbles between Peter and the many London opticians who challenged his patent, Peter’s consistent position was that, whatever precedents there may have been to his achromatic lenses, his father had independently reached his practical technique on the basis of his theoretical command of Newtonian optics. As a result of maintaining his fathers patent, Dollond s became the leading manufacturer of optical instruments. For a time in the eighteenth and nineteenth century the word 'Dollond' was almost a generic term for telescope rather like 'Hoover; is to vacuum cleaner. Genuine Dollond telescopes were considered to be amongst the best. Peter Dollond (1731-1820) was the business brain behind the company which he founded in Vine Street, Spitalfields in 1750 and in 1752 moved the business to the Strand London. The Dollonds seem to have made both types of telescopes (reflecting and refracting), possessing the technology to produce significant numbers of lenses free of chromatic aberration for refracting telescopes. A Dollond telescope sailed with Captain Cook in 1769 on his voyage to observe the Transit of Venus. Thomas Jefferson and Admiral Lord Nelson were also customers of the Dollonds. Dollond & Co merged with Aitchison & Co in 1927 to form Dollond & Aitchison, the well-known high street chain of opticians, now fully part of Boots Opticians. They no longer manufacture but are exclusively a retail operation. John Dollond's experiments in optics and how different combinations of lenses refract light and colour gave a better understanding of the divergent properties of lenses. That went on to inform and pave the way for the improvement of our understanding of optics that are represented today. Dollond was referred to in his time as the "Father of practical optics" as a leader in his field he received many prestigious awards. The telescope in the collection is a good example of one of Dollonds early library telescopes and its connection with one of England's 18th-century pioneers in optical development is in itself a significant and an important item to have within the collection. One tube ships day & Night Telescope brass inner tube with timber main tube covered in leather. Unavailable to inspect Inscriptions to determine authenticity.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, telescope, dolland, shipwreck-coast, flagstaff-hill-maritime-village, royal national life boat institution -
Flagstaff Hill Maritime Museum and Village
Compass, c. 1930s
The nautical compass is used for determining directions, using a free moving magnetised needle, indicating north and south. This is a medium sized compass and was suitable for mounting in a fixed brass binnacle or a portable wooden box. The compass fluid was typically lamp oil, or a mixture of alcohol and water. This compass, based on its pattern, was probably manufactured around the 1930s. The compass’s maker, Bergen Nautik, was a 20th Century compass manufacturer, making compasses from the 1900s but no longer in business.The factory was located in Hordaland County, Bergen, on the west coast of Norway. This compass is not a very significant marine item as it was made in the 20th century. Examples of the same compass that have been salvaged can be purchased today mounted either in a wooden box or a brass pedestal.Compass; marine or ship's compass, brass, gimbal mounting, in blue metal casing. Manufacturer’s inscription is on the face. Made by Bergen Nautik of Bergen in Norway. Circa 1930s."BERGEN . NAUTIK", "BERGEN", "NORWAY" flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, compass, nautical compass, marine compass, maritime compass, technical instrument, navigation instrument, bergen nautik, 20th-century marine compass, gimbal compass, ship's compass, bergan nautik, norway, 1930s marine compass -
Flagstaff Hill Maritime Museum and Village
Barometer, 1858-1869
... to the British Isles. A local manufacturer of scientific instruments... manufacturer of scientific instruments, Thomas Gaunt, produced ...The barometer was either made or sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See below for further details.) Admiral Fitzroy Pattern Barometer History: The stick mercury barometer was named after Admiral Robert Fitzroy of the Royal Navy (1805-1865) for his detailed instructions on how to interpret the weather, which were included with the instrument. Fitzroy was the captain of the HMS Beagle, also a weather forecaster to Charles Darwin and the second Governor of New Zealand. He developed many different types of barometers and was the first person to introduce the science of weather forecasting to the British Isles. A local manufacturer of scientific instruments, Thomas Gaunt, produced the barometer that was adapted for the southern hemisphere by Robert Ellery, the State Astronomer based at the Melbourne Observatory. In the original sale catalogue for Gaunt's, the item is described as "Gaunt's Fitzroy Barometers" and it was priced from 25/- to ₤9.9s. History of Thomas Gaunt: Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade. Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. His main horological manufacturing was directed at turret clocks for town halls, churches and post offices. These tended to be specific commissions requiring individualised design and construction. He made the clock for the Melbourne Post Office lobby, to a design by Government Astronomer Robert Ellery, and won an award at the 1880-81 Melbourne International Exhibition for his turret clock for the Emerald Hill Town Hall. He became well known for his installation of a chronograph at Flemington Racecourse in 1876, which showed the time for the race, accurate to a quarter of a second. The firm also installed the clockwork and figures for Gog and Magog in the Royal Arcade. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Another department specialised in electroplating for trophies, awards and silverware, and the firm manufactured large amounts of ecclesiastical gold ware and silverware, for the church including St Patrick's Cathedral. There are no records that disclose the number of employees in the firm, but it was large enough for Gaunt to hold an annual picnic for the watchmakers and apprentices at Mordialloc from 1876; two years previously they had successfully lobbied Gaunt to win the eight hour day. Gaunt's workforce was reportedly very stable, with many workers remaining in the business for 15 to 30 years. Gaunt's wife Jane died on September 1894, aged 64. They had one son and six daughters, but only three daughters survived to adulthood. Two became nuns at the Abbotsford Convent and one daughter, Cecelia Mary Gaunt (died 28 July 1941), married William Stanislaus Spillane on 22 September 1886 and had a large family. Gaunt died at his home in Coburg, Victoria, leaving an estate valued at ₤41,453. The business continued as T. Gaunt & Co. after his death. The barometer is historically significant as an example of the work of Melbourne’s leading scientific instrument maker, Thomas Gaunt. The barometer has social significance as an example of the type of scientific equipment that Thomas Gaunt expanded his horology business into producing. Further social significance lies in the fact that Robert Ellery, the Government Astronomer who designed the local version of the barometer, had a direct connection with the Melbourne Athenaeum founded in 1839 as the Melbourne Mechanics' Institution. Its purpose was "the diffusion of literary, scientific and other useful information". There are also records of a T Gaunt as a subscription and committee member of this the Athenaeum organisation during the 1870s and 1880s which may be Thomas Gaunt, unfortunately still unverified.Stick mercury barometer known as the Admiral Fitzroy Barometer. It comprises an oblong wooden case with glass front panel, ornate pediment, barometer with bulb cistern (empty of fluid), cleaning brush with printed instructions for interpreting information given by the gauge affixed to left and right face of instrument. Includes a thermometer. The barometer appears to be intact. Adapted to the Southern Hemisphere. Special remarks by Admiral Fitzroy. Made by Thomas Gaunt, Melbourne. Manufacturer's details are on back of wooden casing. Rear has upper and lower brass screw plates for securing to vertical surface."Manufactured by Thomas Gaunt, 14 Little Bourke Street, Melbourne. "flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, barometer, admiral fitzroy, thomas gaunt, thomas gaunt of melbourne, clockmaker, admiral fitzroy barometer, barometer instructions, gaunt’s fitzroy barometer, gaunt’s of melbourne, gog and magog designer, horological manufacturer, meteorological instrument, melbourne athenaeum, melbourne mechanics' institution, melbourne observatory time signal, robert ellery government astronomer, scientific instrument, stick mercury barometer, thermometer, weather forecast, t gaunt & co -
Orbost & District Historical Society
button accordion, 1930's
This instrument was given to Allan White on 24.8.1935 by his grandfather. Allan White came to Orbost in 1946. He was firstly a share fvarmer on 3 farms then in business - saddler and bike shop with his brother Eric. Then withG.P. Motors as the RACV man. Allan was a "ham radio" operator and involved with Rotary, Rifle and Bowling clubs, also with the Presbyterian Church.A Mezon button accordion with a tan coloured canite carrying case. it has 3 bass valves and 10 treble valves.On front of case : MEZON Superior Manufacturer On accordion : MEZON accordion Made in Germany On end : steel reeds Hand engraved : 24.8.35 Corner pieces : MEZON Trade mark Made in Saxony musical-instrument button-accordion white-allan -
Warrnambool and District Historical Society Inc.
Instrument, Microscope - J Aitken, c. 1850
This microscope belonged to James William Manifold Aitkin (1835-1905) who was born in Tasmania and came to Warrnambool in 1852. He was a shopkeeper, produce merchant and flour miller who came to live at the property of Carracoorte, Grasmere in the late 1880s. He was a member of the Warrnambool Municipal Council from 1861 to 1868 and was Chairman of the Borough in 1863 when Warrnambool was declared a town and an early Mayor. The microscope was an improved model of a design by Benjamin Martin, an 18th century instrument maker considered one of the greatest designers and manufacturer of microscopes of his time. This microscope is of great significance because: 1. It is a beautiful object with high antiquarian and scientific interest 2. It has strong local significance as it belonged to James William Manifold Aitkin, a prominent Warrnambool and district businessman and farmer 3. It has social significance as it demonstrates the interest in natural history by the more affluent and educated men of the time. This microscope is in a polished wooden box with a metal lock (no key). The microscope is an English Martin Improved drum microscope (c. 1850) and made of brass. Inside the box there are two divisions, one to house the microscope. The other has a drawer containing six slide samples made of ivory or bone and five glass slides (with the listed material missing) and five other small items. On top of the drawer is a section for the microscope attachments contained in ten small inserts. The ten attachments are made of brass. There are also six items not in any particular inserts. There are two small slots for the pincers and slides etc. The only writings are the names and information on the slidesjames aitkin, microscope, benjamin martin, benjamin martin microscope, warrnambool -
Warrnambool and District Historical Society Inc.
Musical Instrument, Edison Phonograph, 1905
The phonograph is a mechanical device for the recording and reproduction of sound and originally used a tinfoil sheet wrapped around a rotating cylinder to produce the sound. It was invented by Thomas Edison of U.S.A. in 1877 and was the model for all phonographs or gramophones made and developed throughout the 20th century. This machine is of particular interest to the Warrnambool and District Historical Society as it is an Edison phonograph and an earlier model of this phonograph was used in Warrnambool late in the 19th century to make an important recording. In 1896 Thomas Rome, an employee in a Warrnambool boot and shoe shop, purchased an Edison phonograph that could both play and record sounds. At the Warrnambool Industrial and Art Exhibition of 1896-7 visitors to the Exhibition paid a fee to listen to music on this phonograph. But Rome also recorded some local Warrnambool people singing and speaking and these recordings survive today. They are regarded as the oldest surviving recordings made in Australia. Thomas Rome later became a shoe shop proprietor in Warrnambool and was a well-known person in the town/city for a great number of years. This is an Edison Gem Phonograph. It has a black-painted wooden base, now detached from the main mechanism. The phonograph is made of metal which is now heavily rusted. It has a cylindrical turntable for playing the Edison cylindrical records and a handle with a wooden knob. The turning mechanism and belt are now broken. The name of the manufacturer and details of the patents are on a metal plate attached to the side of the phonograph. The amplifier mechanism at the top of the machine is missing. The cover of the machine is made of wood and has a wooden handle attached with a piece of metal and two metal screws. There are also two metal screws on the side of the cover. The cover has a slot on the side to allow the turning handle to be accommodated outside of the cover. The cover is much stained and spotted. ‘Edison Gem Phonograph’ thomas edison, history of sound recordings, thomas rome (warrnambool) -
Australian Gliding Museum
Machine - Glider – Sailplane, 1963
This aircraft is one of 9 single seat ES 59 advanced club sailplanes manufactured by Edmund Schneider Pty Ltd in the 1960s. It was first flown in August 1963 and delivered to the Darling Downs Soaring Club at Toowoomba Queensland. At that Club it had 2603 flights and recorded a total airtime of 1475 hours. In addition to many local circuits and soaring and cross country flying, it was used at gliding competitions, including Nationals at Benalla in December 1964, State Championships at Oakey in April 1965, at Warwick in April 1966, and at (Inverell?) in March 1967. On at least 15 occasions flight times in excess of 5 hours duration were achieved. On 5 October 1970, the glider had a new life when it was relocated to Wollongong in New South Wales. It recorded 1927 flights with a total airtime of 1179 hours at the club between October 1970 and June 1988. Competition appearances included the State Championships held at Forbes in January 1972. Places away from Wollongong where the glider was launched include Cootamundra, Wagga, Temora, Marulon, Narromine, Leeton, Nowra, Goulburn, Horsham, Greenthorpe. On 15 June 1988 it was transferred to Ron Geake who transported it to Warrego in Northern Territory (flown once at Alice Springs), and then to Gympie in Queensland where it was flown about 20 times by the end of 1995. It was also flown on a small number of occasions at Forbes in New South Wales in 1996 and 1997. During 1998 and 1999 the glider was sparsely used (9 flights) at locations that have not been recorded. From May 1999 until transfer to the Australian Gliding Museum in May 2011 it apparently was not flown. Aggregate airtime hours for the glider stand at 2702 hours 53 minutes. It has been launched 4569 times. A good example of a Schneider ES59 sailplane from the 1960s. This type is of note because it was the first Australian designed and built sailplane to be used in a world gliding competition (Jack Iggulden in Argentina in 1963). This Schneider ES59 Arrow is a single seat wooden sailplane with one piece wing. The instruments are not present except for altimeter. Fin and rudder are of swept back design. Colour scheme is white with lemon yellow fuselage underbelly. The aircraft came to the museum on an open trailer that had been designed to carry the one piece wing. Plate in cockpit with details of manufacturer states; manufactured by E. Schneider Ltd, Adelaide SA; Type ES 59; Serial Number 62; Date August 1963.australian gliding, glider, sailplane, schneider, es59, arrow, darling downs soaring club, wollongong gliding club, ron geake -
Creswick Museum
Musical Instrument, Lachenal & Co
The concertina was owned by Simon McDonald. He gave the concertina to Myrtle Porter in exchanged for town water. Simon McDonald lived in Melbourne Rd., Creswick.Simon McDonald (1906 - 1968) was a noted self taught Australian folk musician whose home was in Creswick. Consider in the industry as the most important.20 Button Anglo Concertina & Case. Hexagon shaped Concertina. Both sides have fretwork and 10 bone buttons making it a 20 plus single button Anglo concertina. The leather straps have at sometime been replaced with white plastic strap. It has 5 bellows in black and white pattern leather. The hexagon wood case is lined, although the lining is showing wear.One side: small disc with Lachenal & Co., Patent Concertina Manufacturers, London. Opposite side: Initials on red card J.W.Gsimon mcdonald, anglo concertina, creswick -
Royal Australian and New Zealand College of Obstetricians & Gynaecologists (RANZCOG)
Cannula, infertility, c1969
Part of the laparoscopy equipment donated by Dr Geoff Bishop. Dr Geoffrey Bishop, whilst at the Department of O and G, University of Liverpool, UK, began laparoscopy in 1969. On returning to Australia, Bishop and Grimwade together with Mr Peter Paterson introduced gynaecological laparoscopy to Melbourne, practising at the Queen Victoria Memorial Hospital (QVMH), Melbourne in 1969. The College, through the Victorian State Committee of the Australian Council, RCOG, ran training courses in laparoscopy for local and interstate gynaecologists. These were conducted by Bishop, Grimwade and Paterson. They established protocols, with particular reference to safety, for the conduct of laparoscopy. Laparoscopy was used initially for diagnosis and for limited treatment using diathermy for conditions such as endometriosis. The real impetus came with the great upsurge of tubal sterilization in the early 1970s. Early techniques included diathermy and division of the Fallopian tubes using the Palmer forceps. [Dr Peter Renou, former honoury curator.]This cannula has two points for tubal attachments at one end. At yhe other end, a bell cap with a nossel.This was used by Dr Geoff Bishop during gynaecological laparscopioc surgery. This instrument is commonly used for suction. Also, for testing tubal patency by inserting dye through it. Manufacturers stamp: PRECIOUS.laparoscopy, tubal ligation, infertility investigation -
The Ed Muirhead Physics Museum
Resistance Ratio Bridge, J.L. William
Machine-made/cut, appears to be lathe turned. Electroplated, no apparent decorative elements. 14 rotatable, removable nuts. Surface finish: Brushed metal. “Ratio Resistance’ Handwritten pen on paper adhered with sticky tape on top circular face. Medallion screwed to top circular face: “J.L. WILLIAM/SCIENTIFIC INSTRUMENTS/ SERIAL NO. TYPE/ MELBOURNE - AUSTRALIA.” Machine-made manufacturer’s label, enamel on brass plate (unconfirmed) screw fixed, “Resistance/between/the knobs/as shown/Resistances (+0.05 at most). Handwritten pen on aged paper label attached with coated twine. -
Geoffrey Kaye Museum of Anaesthetic History
Laryngoscope, MacIntosh, 1950
Object belonged to and was used by Dr Lennard Travers 1950-1970.Complete Macintosh laryngoscope piece with a curved medium sized attached blade with light bulb and a textured handle with serrated grip for easy of use and a screw in the blade connector. The handle is also a battery deposit to supply the led light bulb. The blade has general deep scratches on its surface and a slight metal deformation on top back of the blade. At the back of the blade is still attached the hinge that keeps in regular position the base and the blade, is also present a worn surface in this area. Green spots of dust and oxidation processes are present over the blade and the handle areas. A handle manufacturer stamp is located at the base of handle (see inscriptions for details).Stamped into base of handle: LONGWORTH INST. CO. / OXFORD / ENGLANDmacintosh, laryngoscope, blade, handle, longworth inst. co., england -
Geoffrey Kaye Museum of Anaesthetic History
Blade, Laryngoscope, Macintosh, Circa 1943
"First described by professor R. R. Macintosh in the Lancet of February 13th, 1943, this design is now the acknowledged leader throughout the world." (PENLON, 1969) Reference: PENLON. 1969. Anaesthetic Equipment - Longworth Scientific Instrument Company LTD. Abingdon, Berkshire, England. January 1969. Macintosh semi curved blade designed in a baby size, with an unfitted light bulb attached. Minor scratches and some slight hit marks over the piece surface caused by its previous use. It has the manufacturer name and the place where it was made along with the owner’s name engraved at the back of the blade. Engraved at the back of the blade near light bulb the owner details: R.C.H. / O.P.T. Stamped at the back blade base into metal the manufacturer's name and place: Longworth / MADE IN ENGLAND Stamped on light bulb base serrated surface, HEINE XHL / #059 2,5v paediatric blades, royal children's hospital, macintosh, light bulb, longworth, blade, laryngoscope -
Geoffrey Kaye Museum of Anaesthetic History
Blade, Laryngoscope, Macintosh, Model Circa 1943
The design of this item is associated to what was "first described by Professor R. R. Macintosh in the Lancet of February 13th, 1943, this design is now the acknowledged leader throughout the world." (PENLON, 1969) Reference: PENLON. 1969. Anaesthetic Equipment - Longworth Scientific Instrument Company LTD. Abingdon, Berkshire, England. January 1969. The manufacturer of this blade is the Boots UK Limited pharmacy company, they apparently had a branch in Australia to distribute their medical and pharmaceutical equipment and part of them was focused on the manufacturing of laryngoscopes blades. The Boots company reproduced this trending design used in the anaesthetic practice. URL Reference: https://en.wikipedia.org/wiki/Boots_UK / https://en.wikipedia.org/wiki/Alliance_Boots Macintosh semi curved blade designed in a baby size, without light bulb attached. Minor scratches and some slight hit marks over the piece surface caused by its previous use. It has the manufacturer name and brand and the place where it was made at the back of the blade base.Stamped at the blade back base area, BOOTS AUSTRALIA / MADE IN ENGLANDmacintosh, blade, boots australia, boots uk limited, england blade -
Geoffrey Kaye Museum of Anaesthetic History
Blade, Laryngoscope, Macintosh, Circa 1943
"First described by professor R. R. Macintosh in the Lancet of February 13th, 1943, this design is now the acknowledged leader throughout the world." (PENLON, 1969) Reference: PENLON. 1969. Anaesthetic Equipment - Longworth Scientific Instrument Company LTD. Abingdon, Berkshire, England. January 1969. Macintosh semi curved blade designed in a child size, with a light bulb attached. Minor scratches and some slight hit marks over the piece surface caused by its previous use. It has stamped the manufacturer name and the place where it was made at the back of the blade.Stamped on the back blade base, Longworth / MADE IN ENGLANDmacintosh, blade, longworth, paediatrics, light bulb -
Geoffrey Kaye Museum of Anaesthetic History
Laryngoscope, Lynah, Circa 1915
Lynah's Ovoid Laryngeal Speculum with the light bulb and part of the connection wires still attached. Its semi square shape is characteristic of this kind of instrument, also has an screwable pointed end attachment. It has dusty and grey spots inside the canal of the blade near the light bulb canal. Solder spots are visible at the top of the blade as attachment of the laryngeal speculum blade base. General discolouration over the surface of this piece and hit marks present at the base of the handle. It was roughly engraved over the handle the owner’s details and year. Stamped at the base of the handle are the manufacturer’s details partially visible. Engraved at the handle, U N N A M E T . A D E L A I D E . c. 194[6] . Stamped at the base of the handle, [first line worn away might be MADE BY] / E / A D / [might be an S] YDN [might be an EY] / CHROME PLAT [incomplete word due stamp near the edge]laryngeal speculum, laryngeal instruments, unnamet, adelaide, lynah, henry lowndes -
Geoffrey Kaye Museum of Anaesthetic History
Inhaler, Clover, The Holborn Surgical Instrument Company, 1877
Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII. Clover, to spare the patient the unpleasantness of induction with his "closed" inhaler (1877), suggested the "mitigated-ether" technique. The inhaler was fitted with a bypass tap for the reception of N2O. The bag was filled with the gas and anaesthesia was inducted a combination of N2O and asphyxiation. Ether was then admitted gradually by rotation of the bowl of the inhaler. When the patient had been duly "weaned over" to ether, the mask was lifted, the N2O allowed to escape, the bag refilled with exhaled air, and normal anaesthesia "a la Clover's inhaler" was continued.Metal domed chamber with a bulb attachment for rebreather bag, including a tap mechanism. Remnants of the paper rebreather bag are attached to the bulb. At the other end is a yellow facemask made of plastic (probably celluloid). The manufacturer's logo has been moulded into the dome of the chamber.Manufacturer's logo: THE HOLBORN / SURGICAL INSTRUMENT CO. LTD. / LONDON •Blue sticker with white writing: O.2.4.joseph clover, mitigated-ether, nitrous oxide, n2o, closed method