Showing 168 items
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Puffing Billy RailwayBlackstone Oil Engine, 6 November 1908
8HP Blackstone Lamps Start Oil Engine engine number 71076 Engine Details Maximum operating RPM of 240. Fitted with a 3'9" Flywheel Tested on the 6th of November 1908. Shipped to Cluter buck South Australia for installation on concrete base. Recovered and restored during the 80's in South Australia Purchased privately in 2013 in Tailem Bend South Australia and transported to Victoria. Currently on loan to the Puffing Billy Museum at Menzies Creek as an operating exhibit. Blackstone & Co. was a farm implement maker at Stamford, Lincolnshire, United Kingdom. In 1896 they built lamp start oil engines. The Lamp or hot-bulb engine (also hotbulb or heavy-oil engine) is a type of internal combustion engine. It is an engine in which fuel is ignited by being brought into contact with a red-hot metal surface inside a bulb, followed by the introduction of air (oxygen) compressed into the hot-bulb chamber by the rising piston. There is some ignition when the fuel is introduced, but it quickly uses up the available oxygen in the bulb. Vigorous ignition takes place only when sufficient oxygen is supplied to the hot-bulb chamber on the compression stroke of the engine. Most hot-bulb engines were produced as one-cylinder, low-speed two-stroke crankcase scavenged units Historic - Industrial - single cylinder, horizontal, 4 stroke, hot-bulb ignition oil engine Blackstone 8HP Oil Engine made from steel, wrought iron and brassOval Plate with Black Stones and Clutter Buck Brass Plaque engine number 71076blackstone, oil engine, clutter buck, black stone, puffing billy, hit and miss, engine, blackstone & co -
Federation University Historical CollectionTool - Object, J.K. Dey & Sons, Mining Safety Lamp, c1967
The Mining Safety Lamp is used in flammable atmospheres, and consists of a wick lamp with a mesh screen enclosing the flame. It was created for use in coal mines, to reduce the danger of explosions due to the presence of methane and other flammable gases, called firedamp or minedamp. J. K. DEY & SONS was established in 1947 and manufactures Safety Lamps, Torches and Carbide Lamps. In 1967 the Mining Authority of India issued approval of the Velox GL5 Flame Safety Lamp ( Kerosene burning ) self-extinguishing type. At that time J.K. Dey captured the whole mining market of safety lamps in India. (http://www.jkdey.com/history.html, accessed 06/05/2015)Metal mining safety lamp with copper bas and hanging hook. The Dey Velox GL5 Gas Testing Flame Safety Lamp boasts sharp detection of methane gas; detection of the shortage of oxygen; detection of the presence of Carbon-dioxide, is magnetically unlocked; ncludes a top feed device for testing Methane Gas close to the roof; contains an auto extinguisher. J.K. Dey & Sons Calcutta Velox Velox Gmining lamp, safety lamp, miners lamp, calcutta, india, mining -
Geoffrey Kaye Museum of Anaesthetic HistoryPhotograph
This photograph was reproduced in the book One Grand Chain : The History of Anaesthesia in Australia 1846 - 1962 : Volume 2 1934 - 1962, Gwen Wilson, edited by Jeanette Thirlwell Jones, on page 89.Black and white photograph depicting a dentist's office with a woman patient sitting in a chair receiving anaesthesia. Behind the chair is a fully gowned and masked anaesthetist operating a DM Machine with CIG oxygen cylinders. The male dentist is seated to the left of the patient holding equipment near the patient's mouth. A woman dental nurse is standing to the left of the dentist holding a suction tool.•Stamped in red ink on reverse: C.I.G. Equipment Pty. Ltd. •Handwritten in blue ink on reverse: CG13 •Handwritten in grey pencil on reverse: Dr H.N. Matthews / Essendon / Return to F Biggs •Handwritten in grey pencil on reverse: 6 [in a circle]dentist, anaesthetist, dental nurse, patient, cig, oxygen cylinder, shipway, dm machine -
Geoffrey Kaye Museum of Anaesthetic HistoryEquipment - Sight Feed Type Water Depression Flowmeter, 1925
This object dates back to 1925 and was sectioned by Dr Geoffrey Kaye in 1938. Flowmeters were attached to an anaesthetic machine to measure the flow rate of gas or liquid.Metal cylinder with glass inner chamber and gauge inside. The object has been sectioned for teaching purposes.Manufacturer's marks and instructions on the top screw valve state, K/38, Screw Lightly, Oxygen Fine. Direct Ox. is inscribed on the back of the top valve. G.Kaye fecit. 1938 is inscribed in handwriting on the top of the flowmeter tube. flowmeter, water depression, gas, sectioned, slight feed, anaesthetic machine -
Geoffrey Kaye Museum of Anaesthetic HistoryPhotograph
Robert James Minnitt introduced the concept of self-administered analgesia, using an apparatus designed and built in conjunction with London scientific instrument-maker, Charles King. The Minnitt apparatus met with considerable success and led to further modifications, including the introduction of the Queen Charlotte gas-air analgesia apparatus in 1936, manufactured by the British Oxygen Company.Black and white photograph of a Minnitt gas/air analgesia apparatus, in a Queen Charlotte case. The case is standing open with the apparatus inside. A label with instructions is on the left side of the case, and the apparatus is on the right side of the case. A nitrous oxide cylinder tank and valve is connected to a small box with a regulator. A tube with a breathing mask is attached to the box. The Queen Charlotte case has hinges on the side and a handle on the top.minnitt gas air apparatus, minnitt, nitrous oxide, queen charlotte case, anaesthetic equipment -
Port of EchucaBlack and white photograph, Approx. 1980
Black and white photograph of an unknown lock scene where 3 men are working from a hollow platform structure, with one person being a diver coming up or going down a ladder. Another person appears to have hold of a hose (could be oxygen) and the back view of the other person appears to be working with them watching what is happening. This could be part of lock construction as there appears to be cranes and a tripod in the distance.This black and white photograph demonstrates historical and social significance in that it gives a close up view of workmen in the process of lock construction. It appears that there is a diver suited up with helmet on, descending the ladder and a person holding what appears to be hose connected to the person diving. This scene is possibly from the beginning of the 20th century and could be about the development of the irrigation industry.Black and white photograph , portrait format, of 3 men on a hollow platform structure in a river. One man is a diver and is on a ladder which steps down into the water. Copy of an original photograph. On reverse in pencil: Price, Lock scene, location Unknown. lock scene, lock construction, price family collection, irrigation industry -
Federation University Historical CollectionCeramic Crucible, Morgan Fluxing Pot
A crucible is a vessel made of a refractory substance such as graphite or porcelain, used for melting and calcining materials at high temperatures. (http://www.thefreedictionary.com/crucible) Morgan Crucible was established in 1856. See http://ubshwiki.ballarat.edu.au/index.php/Morgan_Crucible_Co. A crucible is used to hold small amounts of chemicals during heating at high temperatures. The lid covers the bowl so nothing escapes, or to keep oxygen out of the reaction. (http://wiki.answers.com/Q/What_is_a_crucible_and_how_is_it_used_in_a_laboratory)Two used narrow high shape crucibles with small spouts made by Morgan of England. They are heat-resistant containers used to melt ores, metals, and other materials. One has green (copper origin?) glaze like material on the base and sidecrucible, assaying, morgan -
Federation University Historical Collection
Ceramic Crucible, Morgan Fluxing Pot
A crucible is a vessel made of a refractory substance such as graphite or porcelain, used for melting and calcining materials at high temperatures. (http://www.thefreedictionary.com/crucible) Morgan Crucible was established in 1856. See http://ubshwiki.ballarat.edu.au/index.php/Morgan_Crucible_Co. A crucible is used to hold small amounts of chemicals during heating at high temperatures. The lid covers the bowl so nothing escapes, or to keep oxygen out of the reaction. (http://wiki.answers.com/Q/What_is_a_crucible_and_how_is_it_used_in_a_laboratory)Four used narrow high shape crucibles with small spouts made by Morgan of England. They are heat-resistant containers used to melt ores, metals, and other materials. One has green (copper origin?) glaze like material on the base and sideMorgan England stamped on side as well as letters indicating size.crucible, assaying, morgan, metallurgy -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)Lights, candle snuff, c1900
A candle snuffer is an instrument used to extinguish burning candles. This is accomplished by smothering the flame with a small metal cup that is suspended from a long handle, and thus depriving it of oxygen. The use of a candle snuffer helps to avoid problems associated with blowing hot wax. Candle snuffers are still commonly used Churches. Prior to the introduction of gas and electricity, candles and kerosene lamps were used for lighting in households after sunsetEvery Early settlers depended on candlelight after sunset and candle snuffs were a safe, clean and efficient way to extinguish the candle flameThis candle snuff has a brass handle with a turned polished wood tip. The brass cup, that is placed over the flame to extinguish it, is decorated with an engraved brass moth.early settlers, pioneers, moorabbin, bentleigh, ormond, market gardeners, lights, lamps, candles -
Geoffrey Kaye Museum of Anaesthetic HistoryEquipment - Draeger Pulmotor, c.1920
The Dräeger Pulmotor was developed in 1907. It addressed previous concerns about lung injury, by limiting both the inspiratory and expiratory pressures. Although still controversial, the Pulmotor was widely distributed and commercially successful. Oxygen from cylinders provided both the inspiratory gas flow and the driving mechanism. Expiration was an active process and gases were sucked from the lungs by negative pressure created by a Venturi effect. This device came with a facemask and harness, with a caution that the operator should take care to prevent air entering the stomach.Draeger resuscitation kit, inside wooden case with handle. Case contains small heavy gas cylinder with large beige handwritten 'S. M E' inscription on one side. Due to water damage case missing pieces of plywood in corner and floor of case bubbled and swollen.|Rubber decomposed rigidinspiratory, expiratory, pulmotor, negative pressure -
Geoffrey Kaye Museum of Anaesthetic HistoryInhaler, Ether, Small
Dr Thomas Small designed this ether anaesthesia and analgesia machine while he was an Honorary Medical Officer at the Royal Women's Hospital in Sydney during the 1930s. The inhaler is compact and portable. Initially, Small experimented with other agents for the relief of labour pain but was not happy with any of them. He also tried various agents on himself, including nitrous oxide/oxygen, chloroform and ethyl chloride. Finally he settled on ether via a Clover inhaler as the best analgesic. This inhaler is only described in use in Australia and New Zealand, although it was used for almost 40 years. Black leather box with leather handle, lockable latches on either side and drop down front case panel containing a metal ether inhaler and length of black corrugated rubber hose with one end attached to the inhaler and the other end open for attaching a mask. The metal inhaler drum is circular and attached to the floor of the case with a small tap/lever to one side and a mixing valve on the top near the hose connection. The lever has incised gradings of quarter increments from 0 to 1. The box is designed for the ether inhaler to be portable.ether, small, thomas, analgesia, obstetrics, anaesthesia, anaesthetic, royal women's, sydney, queen victoria, melbourne -
Geoffrey Kaye Museum of Anaesthetic HistoryPhotograph, Specialized Photographic Company Pty. Ltd
Black and white photograph depicting a labour ward in a hospital, with two men in business suits standing on the left of the photograph next to an nitrous oxide machine. A woman patient is lying in a hospital bed on the right, wearing a hospital gown and holding the mouth-piece of the apparatus to her face. The two men are looking down at the equipment and the man on the left, Dr Kevin McCaul, is pointing at the patient, demonstrating the use of the demand flow nitrous oxide/oxygen apparatus. A lamp is above the bed and there are curtains behind the men on the left.•Handwritten on reverse in grey pencil: 1 [in a circle] •Printed stamp in blue ink on reverse: 51 4776 / PHOTOGRAPHED BY SPECIALIZED / PHOTOGRAPHIC / COMPANY PTY. LTD. / REF. No .................... 240 CHAPEL STREET / TAKE ........................ PRAHRAN, VICT., S1 / PHONE 51 4776 / 51 1752 •Handwritten in black ink on reverse: 4874 [next to REF. No] / D [next to TAKE]nitrous oxide apparatus, demand flow apparatus, kevin mccaul, anaesthetic equipment -
Geoffrey Kaye Museum of Anaesthetic HistoryEquipment - Inhaler, Hewitt, George Barth & Co. Ltd, c. 1895
Sir Frederic W. Hewitt (1857-1916), an accomplished and well respected English anesthesiologist, was an expert in the function and use of the Clover Ether Inhaler. In 1901, Hewitt described his modification of the Clover Inhaler. Often referred to as the Hewitt Wide-Bore Inhaler, Dr. Hewitt introduced changes in order to make it easier to breathe through the device and improve the ventilation of oxygen and carbon dioxide. In 1901, Hewitt was recruited to anesthetize King Edward VII for emergency abdominal surgery. This was just a day or so before the new King was to be coronated. He recovered well, and Hewitt became the first anesthesiologist ever to be knighted. (Source: Wood Library Museum)Tall black round topped box with brass hooks at the sides and brass hinges at rear. There is a brown fabric handle on the top. The box has red padding inside the lid and red lining inside the base and sides. There is a round section in the base of the box for holding the round clear glass bottle for ether. There is also a ellipse-shaped metal inhaler on small metal base with a thin metal handle and pipe with bakelite plug attached via a small metal chain. A brown mask is made of brown leather and celluloid which is connected to the inhaler. There is a metal ether measure for pouring the ether.On notecard in box: (B) HEWITT'S INHALER 1895, MADE BY GEO. BARTH & CO LTD., ADVERTISED AS THE SOLE MAKERS OF THE INHALER AND RECOGNISED BY HEWITT IN HIS TEXT BOOK - ANAESTHETICS AND THEIR ADMINISTRATION - AS THE MAKER OF HIS INHALER. / GIVEN BY DR. E.S. HOLLOWAY IN 1951, WHO ACQUIRED MUCH OF HOWARD JONES' EQUIPMENT AFTER THE LATTER'S DEATH. Stamped on underside of glass bottle in a circle: WUBW [illegible] Blue sticker on inhaler: O.2.13. Printed on inhaler under handle: Geo Barth [illegible] / SOL [illegible] Printed on body of inhaler: Full Printed on body of inhaler: 1/2 Printed on inside of leather mask: F35hewitt, sir frederic, jones, howard, inhaler, geo. barth & co. ltd., ether -
Parks Victoria - Gabo Island LightstationResuscitator kit & case
For medical emergencies at Gabo Island. Unsure if ever used. The portable, manual resuscitator kit is contained in its original green vinyl, hinged case that has corner protectors and two metal front fasteners. Information on the case indicates that it is an ‘Air CIG Viva Resuscitator’. It was used for manual force feeding oxygen into a person’s lungs with the use of a breathing bag, and there are instructions for using the resuscitating bag. The kit was produced by the Commonwealth Industrial Gases Limited, Alexandria, NSW, a company active between 1935 and 1994. An identical kit, which has been accurately dated to 1951, remains at the Cape Otway Lightstation . Another identical kit is held by the Ambulance Historical Society Victoria.Both kits have first level contributory significance for their historic values and provenance.Resuscitator box, green vinyl, hinged handle at top. Two metal fasteners on front, metal plated corners on lid. White thread stitching around edges. Case contains a resuscitator kit.On case "Air CIG Viva Resuscitator. "On sticker "C. of A. D.O.T. 141545" -
Ambulance Victoria MuseumHumidicrib, CIG, Port-O-Cot, The Commonwealth Industrial Gases Limited
Humidicribs are used to transport sick babies from small hospitals to major hospitals for specialist care. They work by maintaining normal body temperature and provide oxygen if needed during ambulance transit. Known by a variety of commercial names, earlier humidicribs were ones heated with water bottles. Not part of an ambulances standard equipment, humidicribs are kept in ambulance stations and carried if babies needed to be transported. In the early days before humidicribs came into use and when air ambulances did not exist, many more babies died during emergency transits than do today Manufactured by the Commonwealth Industrial Gases Limited (better known as CIG), Australian-made Port-O-Cot brand humidicribs came replaced timber home-made humidicribs. They had electrical heating and easy to control oxygen flow and humidity control equipment. CIG also noted that noted that: Once the baby has been placed inside, the cot need not be opened, all nursing operations being carried out through the iris armholes. Even though the baby is in complete isolation nursing is a straight forward matter… The iris armholes allow nurses to feed, weigh, take temperatures, change napkins or, in fact, carry out any procedures without changing or disturbing the atmosphere within the cot. Happily for ambulance officers and nurses, the new Port-O-Cots were also much lighter and easy to carry than their old timber ones! metal box with carry handles and Perspex opening top. Carry handles at each end.PORT-O-COTinfant -
Geoffrey Kaye Museum of Anaesthetic HistoryEquipment - Cylinder, Nitrous Oxide
Nitrous oxide has been used for anaesthesia in dentistry since December 1844, where Horace Wells made the first 12–15 dental operations with the gas in Hartford. Its debut as a generally accepted method, however, came in 1863, when Gardner Quincy Colton introduced it more broadly at all the Colton Dental Association clinics, that he founded in New Haven and New York City. Hospitals administer nitrous oxide as one of the anaesthetic drugs delivered by anaesthetic machines. Nitrous oxide is a weak general anaesthetic, and so is generally not used alone in general anaesthesia. In general anaesthesia it is used as a carrier gas with oxygen for more powerful general anaesthetic drugs.Medium size empty blue coloured cylinder with rounded base and painted white neck once containing Nitrous Oxide. A large blue on white diamond shaped label is adhered onto the main cylinder body.Printed on manufacturer's label: 'CIG [logo] / [blank weights table] / DRY / NITROUS OXIDE / C.I.G. (Victoria) PTY. LTD. / 50 LA TROBE STREET, MELBOURNE C3 / Telephones: FJ 6681 / FJ 4164 / USE NO OIL / OR GREASE'nitrous oxide, dental anaesthesia, dental anesthesia, gardner quincy colton, colton dental association -
Geoffrey Kaye Museum of Anaesthetic HistoryTongue Depressor, Boyle-Davis Gag
Chrome plated metal "L" shaped tongue depressor. The depressor arm downside has cross-hatched grooves to facilitate adherence to the tong. A small metal tube is attached to the upper-side of the depressor through which anaesthesia or oxygen could be administered. The lateral arm handle has grips engraved to attach the mouth gag frame which is missing. This item has a stamp inscription on its handle about maker's details, size and material. Black spots of dust are present inside the metal tube and out near the extreme of the tube. It has accumulated dust between the cross-hatched grooves. Minor scratches around the piece.Stamped in the depressor handle, D.H.A. / 6 / STAINLESSboyle-davis, tongue depressor, airway management -
Bendigo Military MuseumHeadwear - FLYING HELMET, C.1939 - 45
The helmet belonged to Henry Victor Evans No 418655 RAAF. Refer 1760.4. Type B flying helmet made of dark brown leather and lined with chamois. There is a leather chin strap fastened on the left with a white metal buckle. On the inside of the helmet on either side of the face are two snap fasteners with a strip of chamois backed webbing fastened between them for securing an oxygen mask or face protector. There is a buckled strap across the back of the neck with two thinner buckled straps running vertically above it. Another thin buckled strap is secured across the front of the helmet. A circular ear piece is sewn on either side of the helmet with a zippered opening. Inside each piece is a brass fitting for attaching gosport tubes. Brown leather Flying Helmet, yellow suede lined inside."N361". Hand written "V.H.Evans".flying helmet, raaf, headwear, leather -
Geoffrey Kaye Museum of Anaesthetic HistoryHewitt's Gas-Air Stopcock and Mask, 1887
Sir Frederick William Hewitt was a great advocate of nitrous oxide anaesthesia, mainly for short procedures. In 1885, he reviewed the methods of administration and concluded that accurately fitting valves were essential at the commencement of the inhalation, in order to ensure the rapid washout of air from the lungs; and there was a distinct advantage in allowing some rebreathing of nitrous oxide towards the end of inhalation. He thus devised the stopcock. The stopcock consists of a cylinder with two rotating sleeves and two rubber flap valves. The arrangement allows air to be breathed either through the valves or rebreathed to and from the bag; nitrous oxide to be breathed either through the valves from the bag and out to the atmosphere or rebreathed to and from the bag. Soon after the introduction of this stopcock, there was an increased interest in administering oxygen in combination with nitrous oxide.Amber coloured ether inhaler, with leather mask, celluloid shield and inflatable cushion with attached Hewitt's stopcock.hewitt, stopcock, celluloid, ether, inhaler, mask, rebreathing -
Warrnambool and District Historical Society Inc.Document, Docket Dr Bright's Phosphodyne, Mid 19th century
This label accompanied a bottle of Dr Bright’s Phosphodyne. It was a form of medicine also known as ozonic oxygen which was developed and patented in 1869 by Dr Charles Bright, a 19th century Resident Surgeon at St Mary’s Hospital London, The medicine claimed to ease ‘indigestion, liver complaints, nervous debility, female complaints, premature decline, local weakness and spermatorrhea’. It was widely sold by chemists throughout Australia in the 19th century and in this case was supplied by the Warrnambool chemist, James Astley Bromfield. He was a significant person in Warrnambool’s history as he produced the 1856 map of the Warrnambool district showing all the original landholders, a seminal resource for historians today. Bromfield had a chemist shop in Warrnambool from 1854 to the late 1880s, initially in Timor Street and then in Liebig Street (number 80 and later number 78). Bromfield was very active in local community affairs. This label is of considerable interest as it shows the use in the 19th century of medicine that today would be labelled ‘quack’. It is of particular interest as it was supplied by James Astley Bromfield’s chemist shop and he is an important early identity in Warrnambool, involved in many activities in the town. He was a Justice of the Peace, a Trustee of the Savings Bank, Chairman of the Western Steam Navigation Company, a Director of the Gasworks and on the committees of the Harbour Committee, the Fire Brigade and the Anglers Protection Society. He was a Warrnambool Councillor (1858-60; 1865-1870) and a Shire Councillor (1875-1883). This is a sheet of paper that accompanied a bottle of Dr Brights’ Phosphodyne medicine. It is buff-coloured with black printed material. It is in two pieces and dog-eared at the edges.warrnambool, dr bright's phosphodyne, james bromfield chemist, warrnambool chemists -
Mission to Seafarers VictoriaArtwork, other - Stained glass window, William Aikman (1868-1959), In memory of William Digges Latouche Balden, 1947
William Digges Latouche Balden was an 18 year-old cadet on the Samarkund. He and three other crew members: William Archibald Jones, 35 (ship mate), Christopher Ewbank, 19 (third officer) and George P. Worsp, 45 (chief steward) died of oxygen starvation in the ballast tank of the ship on 20 August 1945 while in Geelong. Padre Oliver delivered a service in the St Peter chapel, on the 26th of August 1945, in the 4 men's memory. The window commissionned by his parents, was made by William Aikman (1868-1959), a reknown scottish stained-glass artist, and sent from England. Padre Oliver had met them during a voyage to England. It was unveiled on the 10 April 1949. This is the only imported window and according to Brownwyn Hughes the best quality one from all the opter windows.Arched windows depicting St Nicholas, patron Saint of Ships and Sailors, floating on the sea with a gallon shilling in the background. The small portrait of William Digges La Touche Balden, set within a laurel wreath in the window’s lower section.st peter chapel, flinders street, mission to seafarers, seamen's mission, mission to seamen, st peter, sailors, seamen, stained glass windows, win, memorial chapel, ww2, samarkand, william digges latouche balden, cadets, officers, geelong, deaths, victory ship, merchant navy, st nicholas, galleon, william aikman (1868-1959), christopher ewbank, george p. worsp, william archibald jones -
Australian Commando Association - VictoriaThe Sea Devils. Operation STRUGGLE and the last great raid of World War II
July 1945. Eighteen young British, Australian and New Zealand special forces from a top-secret underwater warfare unit prepare to undertake three audacious missions against the Japanese. Using XE-craft midget submarines, the raiders will creep deep behind Japanese lines to sink two huge warships off Singapore and sever two vitally important undersea communications cables. Success will hasten ultimate victory over Japan; but if any of the men are captured they can expect a gruesome execution. Can the Sea Devils overcome Japanese defences, mechanical failures, oxygen poisoning and submarine disasters to fulfill their missions? Mark Felton tells the true story of a band of young men living on raw courage, nerves and Adrenalin as they attempt to pull off what could be the last great raid of World War Two.ww2, special operations, submarine operations -
Geoffrey Kaye Museum of Anaesthetic HistoryOrmsby's Inhaler, 1877
Lambert Ormsby was a New Zealand surgeon who migrated to Ireland. He described his inhaler in a letter to the Lancet in 1877.Ormsby listed the advantages of his inhaler as simple, inexpensive, small quantity required to produce sleep, prevents evaporation of ether, portable and small (can be carried in pocket), short time to complete anaesthesia (two minutes) and safe. Disadvantages of this apparatus were that it had to be removed in order to recharge the sponge with ether or when anaesthesia becomes too deep. Considerable carbon dioxide accumulation developed and there would also be some oxygen lack. In thirty years of use, Ormsby's Inhaler underwent certain modifications, an exhalation valve was fitted to the mask and device for recharging the sponge with ether was later added. The Ormsby inhaler was modified by Carter Braine in 1898 with the aim of making it easier to clean. Essentially it is very similar except there is no net around the bag.The inhaler consists of an india-rubber flexible bag enclosed within a net bag to limit expansion. There is a soft metallic mouthpiece with india-rubber tubing around the edge. The tubing had to be purchased separately from the manufacturer. The body contains a wire cage with a similarly shaped hollow sponge into which ether was poured.Maker's details inscribed into metal ring around the bore: Barth Co. London.ormsby, new zealand, carbon dioxide, carbon accumulation, carter braine, portable -
Mont De LanceyDomestic object - Clothes Iron with Funnel, c19th century
This rare vintage clothes iron is not just a functional item but a testament to the craftsmanship and ingenuity of an earlier era of the 19th century. Crafted from cast iron and featuring a wooden handle, it is a unique piece that adds a touch of authenticity and history to our collection. The inclusion of a funnel and chimney showcases the attention to detail in the design. A rare cast iron charcoal clothes iron with a wooden handle, complete with a funnel and chimney. The goose neck iron has a hollow base into which charcoal is placed. The small hole at the back has a sliding cover that was used to regulate the draft and temperature of the iron. To keep the charcoal glowing, the cover could be opened to allow more air or oxygen in to encourage the charcoal to burn. The iron could be swung back-and-forward to revive the charcoal. The fumes produced by the charcoal are carried away from the clothes by the large funnel that acts like a chimney at the front of the iron. The holes that line the base allow air to circulate and keep the charcoal ambers burning. This vintage clothes iron is not just a functional item but a testament to the craftsmanship and ingenuity of an earlier era. 'S' is stamped in a circle on the back of the iron.flatirons, laundry irons, cast iron laundry irons -
Ambulance Victoria MuseumHumidicrib, CIG, Thermocot, The Commonwealth Industrial Gases Limited, Circa 1970s
Humidicribs are used to transport sick babies from small hospitals to major hospitals for specialist care. They work by maintaining normal body temperature and provide oxygen if needed during ambulance transit. Known by a variety of commercial names, earlier humidicribs were ones heated with water bottles. Not part of an ambulances standard equipment, humidicribs are kept in ambulance stations and carried if babies needed to be transported. In the early days before humidicribs came into use and when air ambulances did not exist, many more babies died during emergency transits than do today The Thermocot Developed from the Port-O-Cot, CIG later produced the Thermocot. The new humidicrib had a number of advantages over the Port-O-Cot. Most importantly it had an over-temperature alarm and cut out. It was also calibrated in degrees Celsius as by then the metric measuring system had been introduced to Australia. It also had a front opening canopy which was easier for nursing staff to use. Metal box with Perspex opening top section. Carry handles at each end.Thermocot portable infant incubator CIGinfant -
Ambulance Victoria MuseumHumidicrib, CIG, Thermocot, The Commonwealth Industrial Gases Limited, Circa 1970s
Humidicribs are used to transport sick babies from small hospitals to major hospitals for specialist care. They work by maintaining normal body temperature and provide oxygen if needed during ambulance transit. Known by a variety of commercial names, earlier humidicribs were ones heated with water bottles. Not part of an ambulances standard equipment, humidicribs are kept in ambulance stations and carried if babies needed to be transported. In the early days before humidicribs came into use and when air ambulances did not exist, many more babies died during emergency transits than do today The Thermocot Developed from the Port-O-Cot, CIG later produced the Thermocot. The new humidicrib had a number of advantages over the Port-O-Cot. Most importantly it had an over-temperature alarm and cut out. It was also calibrated in degrees Celsius as by then the metric measuring system had been introduced to Australia. It also had a front opening canopy which was easier for nursing staff to use. Metal box with Perspex opening top section. Carry handles at each end.Thermocot portable infant incubator CIG -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)Lights, paraffin lamp c1950, c1950
A flat-wick lamp is a simple type of kerosene lamp, which burns kerosene drawn up through a wick by capillary action. A flat-wick lamp has a fuel tank (fount), with the lamp burner attached. Four prongs hold the glass chimney, which acts to prevent the flame from being blown out and enhances a thermally induced draft. The glass chimney needs a "throat," or slight constriction, to create the proper draft for complete combustion of the fuel; the draft carries more air (oxygen) past the flame, helping to produce a smokeless light which is brighter than that produced by an open flame. The lamp burner has a flat wick, usually made of cotton. The lower part of the wick dips into the fount and absorbs the kerosene; the top part of the wick extends out of the wick tube of the lamp burner, which includes a wick-adjustment mechanism. Adjusting how much of the wick extends above the wick tube controls the flame. The wick tube surrounds the wick, and ensures that the correct amount of air reaches the lamp burner. Adjustment is usually done by means of a small knob operating a toothed, metal sprocket bearing against the wick. A paraffin lamp with a green metal base to hold fuel with a side screw to adjust wick length. An opaque white glass shield sits in a metal frame attached to base* moorabbin, bentleigh, cheltenham, pioneers, early settlers, market gardeners, lights, lamps, paraffin, oil lamps -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)Containers, glass jar ‘Vince’ mouth hygeine, c1950
Vince® is an oral rinse and dentifrice used to cleanse and refresh your gums. Vince is pleasantly flavoured and buffered for safe daily use. It releases oxygen – a helpful adjunct in promoting better oral hygiene for the mouth, teeth and gums. Vince also helps promote healing of the mouth and gums to relieve occasional soreness and irritation from dental appliances such as braces or dentures or mouth sores and wounds such as a split lip.. Ingredients : Sodium Alum, Calcium Carbonate, Sodium Perborate Monohydrate, Sodium Carbonate, Magnesium Trisillicate, Tricalcium Phosphate, Sodium Saccharin, Flavor, D&CRed#28. Lee Pharmaceuticals (Lee) incorporated in 1971 may have bought Vince Pty Ltd. It is a manufacturer of personal care and cosmetic products and is based in South El Monte, California. The Company’s portfolio of products includes aloe vera products, antacids, cosmetics and douche, cough and cold products, cough and cold products, baby care, laxatives, lip balm products, men's personal care, Monticello drug division, oral care, pain relievers, personal care, skin care, tobacco accessories, topical ointments and creams and vitamins and nutritional items. Vince may still be available from the Monticello Drug Division of Lee Pharmaceuticals Ltd Bocasan (British market name) and Amosan (U.S. market name) are oral rinse preparations that are similar to Vince they are now made by Oral-B Laboratories. A small green glass jar, with a screw top lid, containing 'VINCE' mouth hygiene solutionFront label : VINCE / Regd. Trade Mark / FOR/ MOUTH HYGIENE / EFFECTIVE / REFRESHING / COMPLEMENTARY TRIAL SIZE Back label : DIRECTIONS ................./ VINCE LABORATORIES / LTD / NEW YORK N.Y. SYDNEY N.S.W.toiletries, mouth wash, medications, chemicals, pharmacy, cheltenham, moorabbin, vince laboratories ltd., sydney, new york, early settlers -
Flagstaff Hill Maritime Museum and VillageCeramic - Teapot, First half of the 20th century
Lusterware is a type of pottery or porcelain with a metallic glaze that gives the effect of iridescence. The technique on pottery was first developed in Mesopotamia (modern Iraq) in the early 9th century. It is produced by metallic oxides in an overglaze finish, which is given a second firing at a lower temperature in a "muffle kiln", or a reduction kiln, excluding oxygen. The Lusterware effect is a final coating applied over the ceramic glaze, and fixed by a light second firing, applying small amounts of metallic compounds (generally of silver or copper) mixed with something to make it paintable (clay or ochre). This is then fired in a reducing atmosphere at a temperature high enough to "soften" the glaze from the first firing, and break down the metallic compounds, leaving a very thin ("perhaps 10 or 20 atoms thick") layer that is fused with the main glaze, but is mainly metal. Lusterware normally only uses one colour per piece, and the range is limited a "gold" derived from silver compounds was historically the most common. The process has always been expensive and rather unpredictable, always requiring two firings, and often the use of expensive materials such as silver and platinum. The very thin layer of luster is often delicate, and many types of Lusterware are easily damaged by scratching removing the metallic layer, or by contact with acids. Lusterware has therefore always been for display and occasional use, although by the 19th century it could be relatively cheap. Many pieces show the luster effect only working correctly on parts of the surface, or not at all. An item probably made in Staffordshire UK where this type of pottery was popular in the late 19th century by unknown pottery as the subject item has no marks. The teapot at this time cannot be associated with a historical event, person, or place, provenance regards manufacture is unknown, item assessed as a collection asset given it was produced before 1950.Teapot ceramic ornate copper lusterware abstract floral design handle has a protruding sculptured bird for thumb grip. Nonewarrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, teapot, tea set, kitchen ware, ceramic, lusterware, pottery, staffordshire uk, pottery finishes -
Federation University Historical Collection
Book, A Descriptive Catalogue of the Minerals in the Museum of the School of Mines, Ballaarat, 1882, 1882
The Museum of the Ballarat School of Mines was established in 1872. The curator in 1882 was Ferdinand M. Krause. Prefatory Notice by James Oddie). The want of a guide through the technical collections of The School Mines has long been felt by visitors and students - a guide , not so much to those who merely 'look' at the various exhibits in the Museum, but an instructor to those who desire to take away with them some practical information on the natural occurrence and economical value of the objects exhibited. This want is being filled by the labour of Mr. Krause, whose first installment - 'A Descriptive Catalogue of the Minerals' - is herewith represented to the visiting public." Introduction to the catalogue: " The collection is still in its early growth, and far from being a complete representation of the Mineral Kingdom; many varieties, species, and even whole groups are absent. This state of incompleteness will, no doubt, be adjusted in the sequence, and progressive lists issued from time to time. 'Ad interin' the present catalogue will, be found useful to students and visitors of the School. As far as practicable, the classifications of the minerals accords with that adopted at the Royal School of Mines, London. The numbers prefixed to the species in the catalogue agree with those on the descriptive labels which accompany each specimen, and also with those attached to the specimens themselves. On the descriptive labels the chemical composition of the minerals is expressed in formulae usually employed in standard mineralogical works. Students who have note paid attention to mineralogical chemistry will note that each dot over a symbol is equivalent to one atom of oxygen, .... A bar through a symbol denotes a double atom of the base, .... " In 1882 the collection was housed in 33 cases. The catalogue outlines the specimen types housed in each case. The classification of minerals accords with that adopted at the Royal School of Mines, London. Leather covered book of 94 pages with gold lettering on the front, including "F.M. Krause". The book includes a plan of the museum layout, plan of the grounds and buildings of the Ballarat School of Mines and a prefatory notice by James Oddie.ballarat school of mines, ballarat school of mines museum, museum, krause, ferdinand krause, fm krause, oddie, james oddie, geology, mineralogy, charles boyd, f.m. krause, minerals, curator
