The Fluotec vaporizer was made to administer only halothane (Fluothane). It was one of the first vaporizers made for use with only one anesthetic, and one of the first to use a bimetallic coil for temperature compensation.The bimetallic coil is part of the valve that controls how much of the carrier gas enters the vapor chamber to vaporize the anesthetic.Modern vaporisers still use this bimetallic coil technology today. Serial No: 5040 Patent No: 814427 A ready reference “calibration card” came attached to these vaporizers. The card was printed with a scale that indicated the concentration of halothane produced at different flow rates and dial settings.This item does not have a reference card with it.This Flotec vaporiser holds historic significance as a very good example of an early model piece of equipment for halothane only administration. Modern vaporisers still use the bimetallic coil technology and therefore this object has scientific and research significance.Small metal stand with 3 rubber feet, Main metal cylinder body housing the bimetallic coil. Inlet valve with a brass attachment and metal outlet valve. Metal dial that controls % Penthrane. Dial notches range from OFF to 1.5. Small silver chain hangs from the top of the dial lever. Small silver metal box held by 4 screws and a round bakelite window with FULL inscribed in white text located on the front of the main cylinder Fluothane Cyprane vaporiser. Fluotec Mark II by Pentec, with stand. Royal Children's HospitalStamped on Inlet and outlet valve: INLET OUTLET Stamped on to a plate on the front of the vaporiser: KEEP UPRIGHT / PENTHRANE / WHEN CHARGEDinhaler, fluotec mark ii

This vaporiser is enclosed in a portable black cylindrical bakelite carry case with moulded handle, woven fabric strap and single steel latch. The item comprises a three-chambered vaporiser, an assortment of attachments including black ribbed rubber tubing, light brown rubber rebreather bag, facemask, black rubber mask harness, Connell pharyngeal airway with connector, an attachment for an endotracheal or nasal tube, as well as spare thermometer and other parts.Stencilled in white paint on the outside top lid is 'THIS SIDE UP / WITH CARE / SEE INSTRUCTIONS / INSIDE LID'. Serial number is inscribed on metal plate inside the lid and printed in white on the inside lid is 'IMPORTANT / The Oxford Vaporiser is a scientific apparatus'vaporiser, oxford, anaesthetic, portable, bakelite, connell pharyngeal airway, heated vapor, endotracheal, nasal, rebreather bag, thermometer, facemask

Used by mothers during childbirth, the anaesthetic Trilene (trichloroethylene) was inhaled through a face mask [missing] attached to the rubber tubing [missing] and the vaporising chamber. The Trilene was poured into the chamber to be turned into a vapour. The machine was used in the obstetric wards at University College Hospital, London. Trilene was introduced in the 1940s. The machine was made by Cyprane Ltd.Khaki metal multi layered cylinder. Set on top of khaki metal plate with four (4) rubber feet.Stamped in red on top level of vaporiser: Cyprane Ltd •Stamped in red on serial plate: TECOTA MARK 6 / CHARGE WITH TRICHLOROETHYLENE B.P. / CYPRANE LTD. SERIAL No / KEIGHLEY / YORKS. / T1469 •Clear sticker with red printed text stuck on metal plate: PAT No 646680 / PATENTS PENDINGtrichlorethylene vaporiser, tecota mark 6

The Anti-moth crystals were sold with the Electrolux Vacuum, along with the many other attachments, including the vaporiser. The crystals were made of paradichlorobenzene which is used in mothballs. Electrolux, founded in Sweden, has been manufacturing vacuum cleaners since 1919. Electrolux Pty Ltd used 'door to door' salesmen to sell their labour saving products to housewives in the City of Moorabbin and throughout Victoria c 1950 Metal tin with blue metal lid and red and white labelFRONT: Electrolux Anti-Moth Crystals. BACK: Poisonous - Not to be taken - Electrolux Pty. Ltd., Melbourne - When used in conjunction with the vaporiser supplied with the Electrolux cleaner in this tin, Electrolux anti-moth crystals will destroy moths and moth larvae and are also effective against silverfish and other similar pests. Crystals or vapour will not harm fabrics in any way. Keep tin in cool place. - Kills Mothscleaning, anti-moth crystals, electrolux, vacuum cleaner

The Epstein, Macintosh, Oxford vaporizer (EMO) was designed in 1952 by Dr H. G. Epstein and Sir Robert Macintosh of the Nuffield Department of Anaesthetics at the University of Oxford, with the aid of their technician, Mr Richard Salt. It was essentially a refinement of their earlier Oxford vaporizer and designed specifically to deliver ether in known concentrations, irrespective of the temperature of the ether. Robert Macintosh was born at Timaru New Zealand in 1897. In December 1915 he travelled to Britain and was commissioned in the Royal Scots Fusiliers, soon transferring to the Royal Flying Corps. He was shot down behind enemy lines on 26 May 1917 and taken prisoner, escaping several times. When the war ended he returned to medical school and qualified in 1924 as MRCS LRCP. Macintosh's initial intention was to be a surgeon, but soon after qualifying he developed an interest in the field of anaesthesia. Macintosh became the first professor of anaesthetics at Oxford although the university was at first against the appointment. He recruited the scientists Dr Kurt Mendelssohn and Dr H G Epstein and together they designed and built the Oxford vaporiser, a simple, portable, and accurate means of delivering varying concentrations of ether which was to see service in the second world war. He was knighted in 1955 and died at Oxford in 1989.The apparatus is a round, barrel style object with three small rubber feet and a moulded handle over the top. It consists of a vaporising chamber, wick, ether level indicator, temperature compensating value, air bypass chamber and mixing chamber. Manufacturer's label on reverse: EMO, Longworth Scientific Inst. Co. Ltd. England. Serial No. 5878macintosh, epstein, oxford, vaporiser, nuffield, ether

Black and white photograph of a drawing of a portable drawover apparatus. There are two vaporisers with metal valves, one made of glass, connected to the ends of two corrugated tubes which are connected to a face mask at the other ends. A small rebreathing bag is connected to the underside of one of the vaporisers.Handwritten in black ink on surface of photograph the letters A - H, J, labelling each part of the apparatus.drawover apparatus, vaporiser, anaesthetic apparatus

The item was donated by Dr K McCaul of the Royal Women's Hospital, Melbourne, in 1966.Anaesthetic trilene was administered to the patient via rubber tubing from the Trilene inhaler, within which the anaesthetic was converted into a vapor. The cylindrical metal apparatus sits atop a flat, square stand with four black rubber feet. Item includes ports and valves for connection to a face mask and vaporising chamber, as well as mask attachment and metal pouring jug with spout.Red markings identifying the manufacturer and the measurement scale are located on both the stand and top twist dial. The base of the mask attachment piece is inscribed with the manufacturer's details: 'Cyprane Ltd'. The metal beaker is engraved with a line marked at the 15cc level. trilene inhaler, tecota, anaesthesia, beaker, mask, vaporise, obstetrics, childbirth, dr k mccaul royal women's hospital melbourne, 1966, vapor, face mask, vaporising chamber, cyprane ltd, keighley

This is an early example of the Boyle's Anaesthetic Machine which was to become widely used throughout the world. The plaque on the wooden plinth suggests it was a display model from the medical equipment distributor Charles A King of London.The gas anaesthesia apparatus is mounted to a rectangular wooden base. It comprises two long, vertical glass cylinders held in place with metal brackets which are connected to a glass chloroform vaporiser container via metal tubes and associated valves and connections. The bottom of the glass flasks have outlet connections and inscriptions on the glass to measure volume. The chloroform vaporiser and adjacent glass ether vaporiser also have volume measurements etched on the glass, and the latter is the same height as the former but is larger in diameter. Both are connected via metal tubes and include outlet pipes that have associated cork stoppers. The maker's details are provided on a brass plaque attached to thewooden platform.A. Charles King Ltd. London, W1.henry edmund gaskin boyle, vaporiser, rotameter, chloroform, ether, anaesthetic apparatus, charles king ltd, plenum, sectioned, dr geoffrey kaye

In 1913, Mark Cowley Lidwill designed a machine for the purpose of mechanical or insufflation anaesthesia. The Lidwill machine was a portable machine weighing 7kg that could easily be packed into two small bags. The machine involved compressed air being delivered to an ether vaporiser. An ether/air control device allowed varying concentrations of ether to be delivered. The ether vaporiser could be immersed in hot water to prevent cooling and the ether temperature was measured. From the vaporiser, the ether/air mixture went through a trap bottle, then to a crude mercury blow-off valve and subsequently to the patient.Large leather suitcase style bag divided into two levels containing and insufflation anaesthesia machine.insufflation, mark cowley lidwill, thoracic surgery, positive pressure

Black and white photograph of a man sitting at a table where he is studying the workings of an Oxford vaporiser which is in parts, and reading the accompanying information panel. There is other anaesthetic equipment around him.•Handwritten in black ink by Geoffrey Kaye on reverse: Frame 20. •Handwritten in grey pencil on reserve: 23. 20 has been crossed out. •Caption on bottom of photograph written in white ink on black paper and glued down: HOW THE WHEELS GO ROUND. oxford vaporiser, anaesthetic equipment

Black and white photograph of a drawing of anaesthetic equipment, a flowmeter and an ether vaporiser. On the right is the ether vaporiser inside a glass cylinder, with a control tap on top of it. It is attached to a metal cylinder which houses the flowmeter which is measuring the Oxygen and Nitrous Oxide. There is a round Oxygen control and a Nitrous Oxide control attached underneath the metal cylinder, as well as an Oxygen Bypass and a Nitrous Oxide Bypass. The diagram has each part of the apparatus named with an arrow pointing to the parts.ether vaporiser, anaesthetic equipment, flowmeter, nitrous oxide, oxygen

This Cresolene vapouriser is an "American" product when "home" based remedial products were of a high demand due to lack of specialised medical facilities such as a hospital in rural communities. "An apparatus for reducing medicated liquids to a state of vapor suitable for inhalation or application to accessible mucous membrane A device for volatising liquid anesthetics." The only criteria used by Health authorities in the decision to provide a community with hospitals was and still is the size of the population it feeds. The introduction of the SEC Victorian Hydro Electricity Scheme started in the 1940's, was the impetus for health planners to build a hospital in the Kiewa Valley. Rural regions especially those considered semi or fully remote locations had to rely on farm based remedial health "alternative medical treatment". This product is such a remedy.This vapouriser is very significant to a rural area such as the Kiewa Valley as it demonstrates the "home" remedies that were available to rural communities such as the cattle and sheep stations before the Kiewa Valley had a hospital(1949). The influx of workers employed by the SEC Vic. Hydro Electricity Scheme(circa 1940's onward) changed dramatically the need for a hospital and specialised medical treatment. The reliance of "health products" such as this vaporiser were still in high demand especially when on the box of this product was printed "Guaranteed under the Food and Drugs Act, June 30, 1906, Serial no. 436". Also on the packaging is printed "A remedy Whooping Cough also Asthma, Catarrh, Colds Diptheria, Croup, Coughs Hay Fever, Sore Throat, Influenza, Etc." An additional benefit of this product "Is obnoxious to Moths, Flies, Mosquitos, Ants, Cock Roaches, Hen Lice, and other Troublesome insects." This advertising is dated before a tightening in the "advertising" legislation of post mid 1900's. However it was a good attraction for rural communities wanting relief of "rural" pests. This vaporiser stand with its cradle and dish is made from cast iron (stand) and tin (dish). At the bottom of the "dish" is a flame diffusion port with eight heat directional holes. The stand upright is painted gold in colour.See KVHS 0342 (B) for markings and advertising material printed on the box which contains this item.home based vaporisers, first aid, home nursing, over-the-counter medicines

This is a modified version of the original Clover inhaler. Joseph Thomas Clover preferred this modified version over his later, portable regulating ether inhaler.This modified Clover's ether and chloroform inhaler is composed of metal and is cylindrical in shape. There is a gas distribution control key on the top and a metal hook enables the operator to hang the vaporiser from a strap around his/her neck. Stamped on top tap: COEXETER LONDONjoseph thomas clover, inhaler, ether, anaesthetic, portable, nitrous oxide, modified, gas, coexeter london, chloroform, rebreather bag, face mask

The Lidwill machine was designed by Mark Lidwill in 1913, for the purpose of mechanical or insufflation anaesthesia. It was manufactured by Elliott Bros. of Sydney.Colour photograph of a Lidwill anaesthetic machine sitting on carpet. A circular metal ether vaporiser sits on a brown wooden base, with brown tubes connecting to a trap bottle and metal valves, and a brown tube connected to the valve is coiled on the floor.anaesthetic equipment, lidwill anaesthetic machine, mark lidwill, ether vaporiser, elliott bros sydney

Black and white photograph of anaesthetic apparatus inside a portable case which is standing upright and open. Inside the right half of the case is a flowmeter connected to several rubber tubes and a small Vinyl Ether vaporiser with a lever switched to ON. The left half of the case has four shelves with equipment on each shelf. The top shelf has an oropharyngeal airway tube. The second shelf has a metal facemask inhaler and a glass vaporiser. The third and fourth shelves hold metal cylindrical inhalers. In front of the case is a metal inhaler with face mask, attached to a rebreathing bag.Handwritten in grey pencil on reverse: Fig 17 new bookanaesthetic equipment, portable case, flowmeter, inhaler, vinyl ether

The Lidwill machine was designed by Mark Lidwill in 1913, for the purpose of mechanical or insufflation anaesthesia. It was manufactured by Elliott Bros. of Sydney. Shortly afterwards, the Anaesthetic and Portable Machine Company of Sydney devised a machine that was functionally the same but also contained an electric lamp heater.Colour photograph of a modified Lidwill anaesthetic machine sitting on carpet, taken from above. The vaporiser is metal and circular, and has metal valves and controls and two orange tubes. The machine has an electric cord and power plug which is coiled on the floor.anaesthetic equipment, lidwill anaesthetic machine, mark lidwill, ether vaporiser, anaesthetic and portable machine company of sydney, vaporiser

The inner dome of the Ferguson's mask was covered in an ordinary vaporising surface of gauze, while the outer tower (circular ring) was enveloped in a domette bag closing at the top to exclude the air so that the ether vapor could be concentrated.Wire mask for ether inhalation. The handle for the mask is made from the same wire as the mesh and there is a circular wire ring above the mask.mask, ether, robert ferguson, inhalation, ramsay surgical limited

The heavy twin tanks formerly contained vaporised kerosene which was used as a fuel to light the lantern. Kerosene became available in the 1860s as the oil industry in the United States developed, and vaporised kerosene soon became the most common system of illumination. The kerosene vapour lamp was perfected by Chance Bros. for burning the light in their renowned lenses. The system involved vaporising kerosene under pressure and mixing it with air and then burning the vapour to heat an incandescent mantle. The lamp had to be watched throughout the night in case a mantle broke, and the tanks needed to be maintained by hand-pumping each hour or so. Kerosene tanks like these were developed in the early twentieth century, and kerosene as a fuel was phased out by electricity, with the last kerosene system in Australia eventually replaced in 1985. The wick lamp in Gabo Island’s light was altered to a vaporised incandescent kerosene mantle burner in 1909. They would have been in use until 1935, when the light was electrified and the original first-order lens was replaced by a fourth-order lens. The Gabo Island tanks, which are presumed to be those used in the lighthouse between 1909 and 1935, are not attached to the optical apparatus and are no longer in the lighthouse. They are also missing the pressure gauges that were formerly attached to the top of each cylinder. Cape Schanck has a pair of unattached tanks, which are not historically associated with the lighthouse. Point Hicks has an iron stand that formerly supported its lighthouse oil tanks. Despite their lack of intactness, the Gabo Island tanks have first level contributory significance for their provenance to the lightstation and historic association with the lantern’s original Chance Brothers first order lens, which was removed in 1935Two large green cylinders standing in a metal frame. There is also a pumping mechanism attached to the stand with a wooden handle.

The Anti-moth crystals were sold with the Electrolux Vacuum, along with the many other attachments, including the vaporiser. The crystals were made of paradichlorobenzene which is used in mothballs. Electrolux, founded in Sweden, has been manufacturing vacuum cleaners since 1919. On the back of the tin - 'Poisonous - Not to be taken - Electrolux Pty. Ltd., Melbourne - When used in conjunction with the vaporiser supplied with the Electrolux cleaner in this tin, Electrolux anti-moth crystals will destroy moths and moth larvae and are also effective against silverfish and other similar pests. Crystals or vapour will not harm fabrics in any way. Keep tin in cool place. - Kills Moths'A small empty vintage red, white and blue round lidded tin, 'Electrolux Anti-Moth Crystals'. The brand is printed in blue text on the middle white and red bands of the tin, with a moth shape included. The manufacturer is printed inside a white star shape on the blue lid. Detailed instructions for use is printed on the back in blue and red lettering. 'Electrolux Anti-Moth Crystals'. On the back of the tin printed in red 'POISONOUS - Not to be taken Electrolux Pty. Ltd. Melbourne' Full details for use is also provided. vacuum cleaners, cleaning equipment, domestic equipment, electrolux

Black and white photograph of an anaesthetic machine, likely to be a portable Foregger anaesthesia apparatus. Flowmeters with glass cylinders including Oxygen and Nitrous Oxide sit on a metal benchtop of a trolley with two drawers. A glass vaporiser is attached undernath the metal benchtop and there are metal valves attached on either side of the benchtop.anaesthetic apparatus, anaesthetic machine, foregger anaesthesia apparatus, flowmeter

The McKesson Nargraf anaesthetic record was introduced in 1930, created by Dr Elmer I. McKesson.Black and white photograph of a drawing of the head of a McKesson Nargraf anaesthetic record, Model J. The view is from the top looking down onto the machine, showing a round vaporiser with a valve attached to it and two round pressure gauges on either side. The recorder on the machine does not have a chart attached to it.Handwritten in black ink the letters A - H on the surface, labelling each part of the machine.anaesthetic equipment, mckesson nargraf anaesthetic record

The McKesson Nargraf anaesthetic record was introduced in 1930, created by Dr Elmer I. McKesson.Black and white photograph of a drawing of the head of a McKesson Nargraf anaesthetic record, Model J. The view is from the top looking down onto the machine, showing a round vaporiser with a valve attached to it and two round pressure gauges on either side. The recorder on the top of the photograph does not have a chart attached to it.Each part of the machine has been labelled and handwritten in black ink the letters A - H and J - M on the surface.mckesson nargraf anaesthetic record, anaesthetic equipment

Atomiser tube and attachment head for a perfume bottle. Atomizers, which vaporised liquid into fine droplets using air, were first used in the medical field around c. 1859. By the late 1870s, French perfume makers were using vaporizers to scent the air in their sales booths.This item is part of a collection that represent the urban development occurring in the Warrnambool.Container brass for perfume bottle. Ribbed cylinder with screw lid. Blue and white stones inlaid on top. warrnambool, shipwrecked-coast, flagstaff-hill-maritime-museum, shipwreck-coast, brass container, perfume bottle, perfume

The glass phial contained liquid ethyl chloride. By directing the nozzle downwards at the skin a stream of liquid squirts out, vaporising on contact.. Ether's unpleasant smell agitated patients. Ethyl chloride's pleasant odour reduced agitation. It was used for controlling pain associated with injections and in minor surgical procedures. This item was used at Orbost Hospital.This item reflects the changes and development in medicine over the last century.A blue cardboard box containing a glass phial with metal lid that forms a spray nozzle. The lid of the box has a white manufacturer's label with blue writing. The phial has a discoloured white label with red writing.Ethyl chloride (pure) 100cc Woolwich for local anaestheticethyl-chloride chemical woolwich-eliott anaesthesia medical health orbost-hospital

The glass phial contained liquid ethyl chloride. By directing the nozzle downwards at the skin a stream of liquid squirts out, vaporising on contact.. Ether's unpleasant smell agitated patients. Ethyl chloride's pleasant odour reduced agitation. It was used for controlling pain associated with injections and in minor surgical procedures. This item was used at Orbost Hospital. This item reflects the changes and development in medicine over the last century.A blue cardboard box containing a glass phial with metal lid that forms a spray nozzle. The phial has a discoloured white label with red writing.ethyl-chloride chemical woolwich-eliott anaesthesia medical health orbost-hospital

This vaporiser has a main cylindrical body with a step up to the dial plate with a small red latch to lock dial in to place.On the front of the body sits a square gauge to indicate the level FULL along with a long rectangular shape.There is an Inlet and outlet valve that sits behind the metal dial.There is a manufacturers plate sitting on top of the dial and the inlet/outlet valve. Inscribed on top plate: KEEP UPRIGHT/ PENTEC 2/ WHEN CHARGED •Inscribed on inlet & oulet valve plate: PENTEC 2/ SERIAL NO 252939/ PATENTS PENDING •MADE IN / ENGLAND BY/ CYPRANE LTD / KEIGHLEY •Metal dial has inscribed: OFF/.2 .5 1 1.5 2 Max •Inscribed on front plate in green writing: USE ONLY/ PENTHRANE/ (METHOXYFLURANE)penthrane, vaporizer, anaesthesia, anaesthetic machine

The McKesson Nargraf anaesthetic record was introduced in 1930, created by Dr Elmer I. McKesson.Black and white photograph of a drawing of the head of a McKesson Nargraf anaesthetic record, Model J. The view is from the top looking down onto the machine, showing a round vaporiser with a valve attached to it and two round pressure gauges on either side. There are blood pressure tubes attached to the sides of the machine. The recorder on the top of the photograph has a chart attached to it with written details.Each part of the machine has been labelled and handwritten in black ink the letters A - H and J - P on the surface.mckesson nargraf anaesthetic record, anaesthetic equipment, anaesthetic apparatus

The stove was the property of John Biggart, who lived in Avonsleigh. He travelled Victoria from 1920 to the 1940's. The stove was used at a work camp site.Brass base containing the kerosene fuel tank, above which rises a burning tube and burner assembly. The steel top rings are held above the burner by 3 support legs. To light the stove, a small amount of alcohol is put into the spirit cup, just below the burner to preheat it. Kerosene was then vaporised, mixed with air and it burns with a soot less, blue flame.PRIMUS No. 1. MADE IN SWEDEN. TRADEMARK PRI-MUS. PATENT SB. No 48624. ENG No 171536, all on the top of the tank. On the side is engraved; A/B B. AHJORTH AND CO. STOCKHOLM SWEDEN - SOLEMAKERS OF THE GENUINE

This gas anaesthesia machine comprises a four yolk manifold, two circular metal components for nitrous oxide and two for oxygen. It is mounted atop a four pointed stand on casters for portability. In addition to reducing valves and regulators, the main stand also supports a cream-coloured, cylindrical Austox fractional rebreather and an ether vaporiser with variable bypass control within a circular glass container. portable, anaesthesia, midwifery, dentistry, obstetrics, oxygen, nitrous oxide, commonwealth industrial gases ltd, cig, austox fractional rebreather, ether vaporiser, variable bypass control, 1950

Black and white photograph of a Boyle's anaesthetic machine. The light-coloured metal frame on castors has a metal top with a flowmeter attached to the top, and there is one drawer at the bottom of the trolley. One side of the trolley has two vaporisers connected to two corrugated tubes with a facemask. An oxygen cylinder and two nitrous oxide cylinders are on the other side of the machine along with a small cyclopropane cylinder.anaesthetic equipment, boyle's machine, anaesthetic machine, nitrous oxide, oxygen, flowmeter