Metal tongue depressor with anaesthetic tube attachment. Consists of proximal and distal blades, and a blade shaft. "4" marking on the upper distal end of the blade. There is a short metal tube alongside the proximal flange, attached to the upper section of the flange, which is turned inwards and down with a small bulb on the end. Plastic or rubber tubing can be attached to this bulb. There is a smaller rounded flange at the distal end of the shaft.

The Slingsby T31 is a two seat training glider that came available in 1951. It is, in effect, a two seat version of the single seat Kirby Tutor. The T31 was marketed by Slingsby Sailplanes both as complete aircraft and kits of parts for assembly. The Australian Gliding Museum’s example (currently registered as VH-GDB) is one of five of this type to grace Australian skies. Three including GDB were assembled in Australia from kits supplied by Slingsby’s in England, the other two were delivered as completed airframes. To date only four remain of which two are airworthy. This aircraft began flying in at Caversham in Western Australia (the then home of the Gliding Club of Western Australia) in July 1956. It was badly damaged in a crash in June 1958. The wreckage was sent to Schneiders in Adelaide for repair. However, the Club decided against having the repairs done, opting instead to buy a new ES52 Kookaburra. After a couple of years, the wreck was purchased by a member of the Waikerie Gliding Club whereupon the glider was rebuilt with some modifications, including a more rounded and better streamlined fuselage nose. It returned to the air in October 1961 at Clare in South Australia. The ownership of VH-GDB passed through a number of clubs, including at Dubbo in New South Wales, Wimmera in Victoria and Pioneer Valley at Mackay in Queensland. Eventually, it came into the hands of Bill Riley of Tocumwal in New South Wales who held it in storage for many years. Riley donated the aircraft to the Museum. It has been restored to airworthiness and is flown at vintage glider rallies and on Museum open days. This exhibit is an excellent example of a Slingsby T31 Tandem Tutor, a type of glider that was used by a number of clubs in the 1950s and 1960s for dual training of pilots to the solo capability.The Slingsby T31b Tandem Tutor is an open cockpit, tandem, two-seater glider with high, pylon mounted two piece wing supported by double, wire braced, steel tube struts. The glider is fitted with a main wheel, rubber-block sprung, wooden nose skid and steel leaf sprung, brass shod tailskid. The basic controls of aileron, rudder and elevator are not supplemented with pitch trim. Wing lift spoilers and both aerotow and winch releases are fitted. The instrument panels in both cockpits are fitted with an airspeed indicator, cosim variometer and altimeter. This red and silver painted wood and fabric covered aircraft is in excellent condition having been restored to full airworthy status by the Australian Gliding Museum. SLINGSBY – T31b (nose – both sides) DB Australian Gliding Museum (rudder – both sides) It has been given Serial Number GFA/HB/12 and is registered as VH-GDBaustralian gliding, glider, sailplane, slingsby, tandem tutor, t31, gliding club of western australia, waikerie gliding club, wimmera soaring club, pioneer valley soaring club

Cupping glasses were in use from the early 1700s onwards. Their purpose was to draw the nipple out from the areola in preparation for breast feeding. They were also used for expressing small quantities of breast milk. Other possible uses include drawing fluid from other parts of the body for conditions such as oedema of the limbs or abdomen.Mary Howlett (1840-1922) began practising as a country midwife in 1866 in the western district of Victoria. She qualified as a 'ladies monthly nurse' in 1887 and continued to practise as a nurse and midwife until 1920. She began her six months training at the Melbourne Lying-In Hospital. She was known by many as 'Auntie', and her career spanned more than 50 years. Mrs Howlett's midwifery box and contents were given to Dr Frank Forster, and he donated them to the museum collection in 1993. Cupping glass, consisting of a glass tube connection and red rubber hand pump.midwifery, infant feeding

The object has been identified as a vaginal (douche) irrigator. The glass tube is similar in appearance, however, to one of the four types of Brewer's glass cannula used in direct blood transfusion. (Reference Down Bros, page 958A)Mary Howlett (1840-1922) began practising as a country midwife in 1866 in the western district of Victoria. She qualified as a 'ladies monthly nurse' in 1887 and continued to practise as a nurse and midwife until 1920.She began her six months training at the Melbourne Lying-In Hospital. She was known by many as 'Auntie', and her career spanned more than 50 years. Mrs Howlett's midwifery box and contents were given to Dr Frank Forster, and he donated them to the museum collection in 1993.Glass tube, which functions as a vaginal irrigator. There is a curve in the tube, and it gets wider at proximal (far) end. The distal (near) end is round and blunt for attachment to rubber tubing.irrigation, midwifery

Mary Howlett (1840-1922) began practising as a country midwife in 1866 in the western district of Victoria. She qualified as a 'ladies monthly nurse' in 1887 and continued to practise as a nurse and midwife until 1920.She began her six months training at the Melbourne Lying-In Hospital. She was known by many as 'Auntie', and her career spanned more than 50 years. Mrs Howlett's midwifery box and contents were given to Dr Frank Forster, and he donated them to the museum collection in 1993.Made of a heavy white metal. Metal cap covers the actual spray applicator. There are two curved metal tubes leading to the outlet spray. In addition to the metal object there is a small metal connection with a small metal insertion. The metal connection is attached to a piece of old red rubber tubing.midwifery

The De Ford Inhaler was introduced in 1913 and was designed to allow anaesthesia to continue through the nose while dental surgery was happening.This inhaler is composed of metal and rubber. The oral mask and rubber covered nasal mask are connected to a curved rubber covered support that was placed on the patient's forehead to hold the inhaler in place. The gas was administered via a long tube; the terminus designed to allow for the placement of a vial containing the anaesthetic drug and a rebreather bag mount. Inscribed on the back of the mouth inhaler: 'Dr De Ford's Universal Inhaler for Somniform Nitrous Oxide etc. E. De Trey & Sons Phila. PA U.S. Pat. Pending.'anesthesia, dentistry, somniform, surgery, medical instrument, de ford, 1913, e de trey and sons, vial, rebreathr bag mount, inhaler

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

Metal tube with a flat plate across the top with two additional metal tubes coming out of it and curved toward the right. The main tube is covered in rubber.airway, insufflation, gilbert brown, pharyngeal

The Laryngeal Mask Airway was invented in 1983 by British anaesthetist, Archie Brain.Yellow plastic tubing with a pink rubber laryngeal mask attached. There is an additional fine yellow tube threaded through the base of the rubber mask. Printed in black in along side: #4 LARYNGEAL MASK AUTOCLAVABLE INTAVENT 3:1laryngeal, brain, archie, endotracheal intubation, autoclavable

Francis Percival de Caux invented this endotracheal tube which was devised for use during nitrous oxide/oxygen anaesthesia. Though he wasn't the first to use a two-tube method of anaesthesia, de Caux's invention was particularly effective; in 1930 he reported having given 20,868 nitrous oxide/oxygen anaesthetics in a four year period without a fatality. A long flexible metal tube formed from tightly wound metal with a small bulbous introducer at the distal end. The tube is mostly encased in a metal and rubber sheath. The proximal end has a finger ring and screw clamp.endotracheal, de caux, airway, nitrous oxide, anaesthesia

This is the first iteration of a pharyngeal tube devised by Hewitt in 1913.Round metal tube with a brown rubber tubing sleeve around the outside.Engraved on flat portion of metal tube: MEDICAL SUPPLY / LONDONfrederick hewitt, pharyngeal, intubation, medical supply, london, alfred hospital, melbourne

This is an early example of an endotracheal tube (c.1932) invented by Ivan Magill. The shattered faces and jaws of wounded soldiers presented real difficulties for the administration of anaesthesia. Ivan Magill and Stanley Rowbotham developed endotracheal tubes for these procedures that were more efficient and practical than the earlier insufflation catheters.The attached safety pin was used to prevent the loss of the tube down the patient's nose. Orange/brown rubber tubing with a bevelled edge at one end a safety pin stuck through the other end. This tube was used for nasal endotracheal intubation.Printed in black ink on tube: NO. 5 NASAL A. CHARLES KING LTD. MAGILL'S TUBE 27 / BRITISH MADEmagill, endotracheal, intubation, nasal, a. charles king ltd, england

This is an early example of a cuffed pharyngeal tube. The cuffed airway was a significant development in pharyngeal tubes as it helped to protect the airway from blood and secretions. Black rubber tubing with spiral metal inner tube and red rubber pump mechanism attachedMoulded onto rubber bulb: Tycos Moulded onto rubber connector: MADE ONLY FOR PATENTEE / INDIA TYRE AND RUBBER CO / INCHINNAN / SCOTLAND Moulded into metal connection: Tycos / LONDONpharyngeal, ndia rubber & tyre company, airway, cuffed, scotland, tycos

The glass phial contained liquid ethyl chloride, little pressure being required to liquefy the gas at room temperature. By directing the nozzle downwards at the skin or mucous membrane to be analgesed, a stream of liquid squirts out, vaporising on contact, thus producing transient local temperatures of approximately -10 qc. Ether's unpleasant smell agitated patients. Ethyl chloride's pleasant odour reduced agitation. It could be used for induction and worked quickly without irritating respiratory passages. Ethyl chloride spray could also be used as a local anaesthetic. Faded rectangular burgundy box containing a glass phial with metal and rubber lid that forms a spray nozzle. The lid of the box had a mustard coloured manufacturer's label wtih burgundy writing. The phial has a discoloured white label with red writing and a blue label with white writing.Printed in white ink on blue label: IMPORTANT / NOT DESTROY THIS TUBE, IT CAN / BE REFILLED FOR / 2/10bengue & co. ltd., london, ethyl chloride, 1900, local anaesthesia

This Boyle’s machine was made by the British Oxygen Company (BOC) in the 1950’s. The original Boyle's machine was invented by the British anaesthetist, Henry Boyle in 1917. His machine was a modification of the American Gwathmey apparatus of 1912, and became the best known early continuous flow anaesthetic machine. The Boyle’s machine was first made by Coxeter and Sons, under the direction of Lord George Wellesly, which was later acquired by the British Oxygen Company (BOC). Though a lot of changes have been made to the original design of the Boyle’s machine, the basic structure remains the same today.Green trolley on casters with flowmeter and vaporiser bottles attached to a stainless cross bar. There is a glass shelf at top of the trolley and a second glass shelf at base of trolley, above a pull out drawer. The pull out drawer contains 4 x black rubber masks, 3 x black rubber tubing connectors, 4 x seals, 1 a black corrugated rubber hose with red rebreather bag, red tube and masonite support board.Tin plate attached to upper portion of trolley: THE / BOYLE / apparatus / BY THE BRITISH OXYGEN CO. LTD.henry boyle, anaesthetic machine, gas, oxygen, flowmeter, nitrous oxide, british oxygen company, boc, coxeter and sons

Recognising that warmed ether was less irritating to the airway and patients receiving it were less likely to experience shock, Francis Shipway developed the Shipway's apparatus which was used during World War 1 and continued to be used through to World War 2. Reduction of shock for patients who had experienced trauma was crucial to their later recovery, particularly during war times. This example of the Shipway's apparatus also has the facility for administering chloroform.A triangular metal stand with two glass jars sitting in a metal tub and a green metal jar that looks like a thermos, also sitting in a metal tub. A metal pole has been screwed into the centre point of the stand, with a circular top to act as a handle. One of the jars has a rubber stopper in the neck with metal tubing attached to the stopper. The other glass jar has a metal screw top with a dropper spout. The two glass jars are connected via red rubber tubing. The apparatus has been sectioned in parts to show the inner mechanisms.Typed in black ink on white paper and adhered to metal bath: SHIPWAY'S APPARATUS •Typed in black ink on white paper and adhered to metal bath: ETHER VAPORISER •Typed in black ink on white paper and adhered to metal bath: THERMOS WITH HOT WATER •Typed in black ink on white paper and adhered to glass bottle: CHLOROFORM VAPORIZER •Typed in black ink on white paper and adhered to metal connector: TO AIR BELLOWS •Typed in black ink on white paper and adhered to tube in thermos: DELIVERY TUBE •Moulded into base of thermos: THERMOSshipway, world war i, warmed ether, endotracheal, chloroform

The Soulevac sterile glass drip tube was used for blood transfusions.Clear glass bulb with rubber caps at each end and blue manufacturer's information stamped onto bulb. Drip tube is housed in original packaging.blood transfusion, world war i, first world war

In 1937, the engineer Holger Hesse founded Testa Laboratory, which later became Ambu. Hesse developed products that made a difference to patients and doctors. The real breakthrough came in 1956 when the Ambu ventilation bag reached the market, developed together with anaesthetist Henning Ruben. It was the world’s first self-inflating resuscitator and a major milestone in emergency medical equipment. The Ambu bag became a permanent part of hospital and emergency services product ranges. Brown rubber bag with a round metal filter at one end and a connector tube at the other. There is a blue plastic connector between the rubber bag and the metal tube.Moulded into blue plastic connector: AMBU-INTERNATIONAL / Ruben-Resuscitator Stamped into filter: Ambu logo - large capital A with AUER inside the legs of the Aambu, ruben, self-inflating, resuscitator, emergency, henning, ruben

Between 1867 and 1920, anaesthesia for dental operations was often maintained by blowing the vapour of ether or chloroform into the patients' oral or nasal pharynx. Junker's inhalers are a "blow over" device used with a hand-held bellows to bubble air through liquid chloroform and to the patient. It was initially intended for use with bichloride of methylene, a mixture of chloroform and methyl alcohol. Ferdinand Ethelbert Junker introduced his inhaler in 1867 as appointed physician to Samaritan Free Hospital for Women (although it didn't have that name until c.1904). Glass jar with liquid measure markers etched onto. The jar has a metal lid, with a metal tube descending into the jar. Two metal tubes are protuding out of the top of the lid, and each has a small section of rubber tubing attached. There is also a metal hook, used to attached the jar to the physicians (anaesthetist's) lapel.Stamped into frame of metal lid: LONDON MADEjunker, blow over, chloroform, samaritan free hospital for women

Track cycle built by Eugene Cowley in 1949 for Ken Jenkin from the Geelong Amateur Cycling Club.Gene Cowley began building cycles in the 1890s and continued until the middle 1950s. He was the first president of the Geelong Amateur Cycling Club.Velos Track and Road Cycle. It has a steel frame, steel rims, rubber tyres, Brookes saddle, pedals with toe straps, handle bars for track racing and dual brakes. This machine is equipped with an early derailler gear- note change lever on down tube. The frame is painted grey and has a Velos badge on the seat stem and a V in white with a red background on the head stem. The word Velos is also outlined on the frame in white with red shadowing."Velos/V"ken jenkin; eugene cowley; geelong amateur cycling club; track cycle; velos track and road cycle; brookes saddle; geelong cycling club;

Black rubber ring with bulbous insert in middle of tube (tubing broken and rubber perished) Solid black bakelite attachment plus brown rubber attachment. Stored in a blue cardboard box with instructions printed on box. Called Ingrams Perfex Enema plus leather ring. 13 items to the set.medicine

Belong to Mary Cruickshank, Peter Simmenauer's mother-in-law.Victa motor mower UTILITY series 70. Four rubber wheels, front smaller than rear. All wheel adjustable for height. Two stroke motor with a cord pull start. Petrol tank is mounted on top of motor with transfer advising the use of BP Zoom Green petrol mix. Plastic tube connects tank with top of carburetter on motor. Long handles which can be collapsed for storage. Breather tube and air filter mounted on handle together with controls for starting and running.VICTA - cast into housing|Series 70 - transfer|UTILITY - orange and white transfer on front of motor.|BP Zoom Green - transfer on tank|CAUTION Transfer on back of tankmachinery, engines - internal combustion, domestic items, gardening

Respirator, Anti-Gas, General Civilian, Type C1:Civilian, British. Respirator thin black rubber mask, made of a single piece folded around into a tapering tube with the join sealed by a brown cloth patch. Plain cardboard box for a respirator (also used as a carrier), inside the box is a card insert with a large hole cut in the centre, on the inside of the lid are instructions for packing a respirator (From Imperial War Museum website) The rubber has perished and the straps are no longer able to be attached to the headpiece. 12 8 38, POPPE LOT 2984

.1 - Book - 12 pages + brown covers, side stapled, issued by the Australian Standards Association, "AC Electric Arc Welding Plant - Transformer type", C97-1942, July 1942. .2 - Book - 40 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B1 - "Brass water fittings - stop, bib, globe and ferrule or main taps", B1-1928, August 1928. .3 - Book - 20 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B4 - "Vegetable tanned leather belting", B4 - 1929, January 1929. .4 - Book - 16 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B3 - Rubber Conveyor and Power Transmission Belting", B3 - 1929, March 1929. .5 - Book - 8 pages + green covers, side stapled, issued by the Australian Standards Association, "Maintenance of Portable Chemical Fire Extinguishers of the Acid-Alkali and Foam Types", CA 18-1941, May 1941. .6 - Book - 16 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B2 - "Copper Tubes", B2 - 1928, July 1928. .7 - Book - 28 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Australian Standard A2 - "Portland Cement", includes tests, A2-1926, December 1926. On top right hand corner has the date stamp of the "The Electric Supply Co. of Victoria Ltd Ballarat" .2 - 3 Sep 1928 .3 - 19 Jan 1929 .4 - 3 Apr 1929 .5 - SEC Stamp - ? 1941 .6 - 20 July 1928 .7 - 17 Apr 1934trams, tramways, power station, standards, materials

A badminton racquet with wooden head and handle, and metal shaft, reinforced with conical plastic tubes. Shoulders and shaft feature string whipping, and handle features rubber grip. Model logo and emblem feature on throat on obverse, whilst head photo image of Budge features on throat on reverse. Materials: Wood, Lacquer, Nylon, Ink, Adhesive tape, Metal, Paint, Rubber, Plastic, Glue, Stringtennis

A badminton racquet with wooden head and handle, and metal shaft, reinforced with conical plastic tubes. Shoulders and shaft feature string whipping, and handle features rubber grip. Model logo and emblem feature on throat on obverse, whilst head photo image of Budge features on throat on reverse. Materials: Wood, Lacquer, Nylon, Ink, Adhesive tape, Metal, Paint, Rubber, Plastic, Glue, Stringtennis

A badminton racquet with wooden head and handle, and metal shaft, reinforced with conical plastic tubes. Shoulders and shaft feature string whipping, and handle features rubber grip. Model logo and emblem feature on throat on obverse, whilst head photo image of Budge features on throat on reverse. Materials: Wood, Lacquer, Nylon, Ink, Adhesive tape, Metal, Paint, Rubber, Plastic, Glue, Stringtennis

An empty Pennant cardboard tennis ball tube with flat metal lid and metal base. Balls missing. Materials: Metal, Ink, Wool, Rubber, Cardboardtennis

A sealed plastic tube of Stolle Emerson Tennis Co. (SET) two-tone tennis balls. Has intact metal ring-pull seal and plastic reclosure cap. Contains three pink & blue balls. Materials: Metal, Ink, Rubber, Composite Materials, Plastictennis

Comprises two calibrated cylinders mounted on a board for measuring inches of water. Gauges measure air velocity. Cylinders are of steel with calibrations on aluminium casings. Flexible tubes are connected to reservoirs at the back of the mounting board, one black rubber the other red plastic. A reference barometer is mounted at the bottom right hand corner of the backing board. Reservoirs at the rear are of metal, coloured blue.instruments, air flow