Two sighted women sit in an outside porch at the Braille Library in South Yarra, transcribing the books in front of them into Braille, using a stylus and frame. This image shows sighted volunteer Braille transcribers. At this time all Braille was manually transcribed using a hand frame and metal stylus. These volunteers worked at Australia's first Braille Library created by the Victorian Association of Braille Writers.Black and white image of two Braille writersbraille equipment, victorian association of braille writers

Coin collections have a long and varied history. Coins were often collected in churches in a box located near the entrance/exit, and later via a collection plate that was passed amongst the congregation Funds were used to repair the church or feed the poorest of the parish. The donation of coins is and was considered part of religious life and mentioned in Christian, Jewish and Islamic texts. With the need and expansion of charitable works occurring outside religious life, charity boxes began to spread into hospitals, orphanages and asylums. The need for non-fixed boxes grew with the rise in charities and their activities outside a fixed building. Collection boxes could be large (and therefore hard to move) or could be held by individuals acting as collection agents, working at a specific location, moving between dwellings or at events. In this example, the RVIB tin could be used gathering coins at events such as Carols by Candlelight, White Cane day or other special marketing days.1 metal coin collection tin with handle and paper wrapYour Donation Supports the Work of The Royal Victorian Institute for the Blind RVIB lighthouse logo 557 St Kilda Road, Melbourne, Telephone 9529 3544royal victorian institute for the blind, equipment

This hammer was used by workers on the ski lifts to clear them of ice. The hammer was turned by the Ski Lift Company and had a long reach. It was mainly used on the Summit T-Bar and the International Poma before they had catwalks to enable easier access for maintenance. This item was donated by Douglas Zolla. He has worked in Falls Creek for over 30 years. From 1987 until 2002. Doug worked as a De-icer with the Falls Creek Ski Lifts Company. For many years he has been a guide with Falls Creek Snowmobile Tours.This equipment is significant as it was created by the Falls Creek Ski Lift Company to ensure safe operation of their ski lifts.A metal hammer with orange tape on the handle and a rope attached.ski lift maintenance, falls creek ski lifts, de-icing ski lifts

The attached card states - 'Mother's knitting stick'. There is a brass hole one end with four brass nails where the tip of a knitting needle is inserted for support. The curved and fits into a belt or tape around the waist. Knitting was carried out on curved metal needles, one of these needed to be kept rigid by being held between the hand and knitting sheath held at the side of the body either tucked into a belt or held under the armpit. The sheath would allow someone to to knit with one hand whilst performing chores with the other. They also took the weight of the work and stopped stitches from slipping off the bottom of a double ended needle. Many were given as love tokens but there were plenty made by men for their daughters or other close family members.An antique curved carved wooden knitting stick or treen Knitting Sheath for hand knitters. It is approximately 23cm (9 inches) long with simple carving on one side of M H R in large letters as well as a nine pointed star next to them. There is a brass hole one end with four brass nails where the tip of a knitting needle is inserted for support. The curved end fits into a belt or tape round the waist. 'M H R' and a 'nine pointed star' is carved into the curved part of the stick . There is an attached card - 'Grandma's (crossed out) Mother's knitting stick. When using four needles the "working" one goes into the hole at the brass end of stick. Curved end fits into belt or tape round waist'accessories, knitting equipment, knitting

An adjustable metal headed hand scarifier with a wooden handle attached with a screw. It has nine teeth with the middle one lower, fixed and wider. It could be altered to suit the width of the row being worked. It was patented 1905.Patented 1905agricultural tools, agricultural equipment, tools, rakes, scarifiers, gardening tools, hand tools

These types of metal and glass railway signalling lamps were used for communication, safety and lighting by train guards, shunters and signalmen, as well as station staff in the late 1880s to the early 1900s. They were hand operated and used fuel such as kerosene.The three railway signalling lamps have local significance as a set donated by a resident of Wodonga who worked for the Victorian Railways, as well as national significance as examples of the communication and safety equipment used by the railways in Australia in the late 19th century and early 20th century.Set of three painted black metal and glass railway signal lamps used for various purposes during train journeys. The largest signal lamp has circular blue and red glass filters and a turning mechanism on the top under the handle. "A y" on a small copper plate on one side of the largest signal lamp - Lamp 1.railway lamps, signalling lamp, train signal lamps

Metal and glass railway signalling lamps were used for communication, safety and lighting by train guards, shunters and signalmen, as well as station staff in the late 1880s to the early 1900s. They were hand operated and used fuel such as kerosene.The railway signal lamp has local significance as part of a set of three lamps donated by a resident of Wodonga who worked for the Victorian Railways. It also has national significance as an example of communication and safety equipment used by the railways in Australia in the late 19th century and early 20th century.Exterior casing of a black painted metal railway signal lamp with circular blue and red glass filters and a turning mechanism on the top under a circular handle. Small copper plate with the letters "A y" stamped on it, on one side of the lamp. "A y"railway lamps, signalling lamp, train signal lamps

Metal and glass railway signalling lamps were used for communication, safety and lighting by train guards, shunters and signalmen, as well as station staff in the late 1880s to the early 1900s. They were hand operated and used fuel such as kerosene.The railway signal lamp has local significance as part of a set of three lamps donated by a resident of Wodonga who worked for the Victorian Railways. It also has national significance as an example of communication and safety equipment used by the railways in Australia in the late 19th century and early 20th century.Black painted metal signal lamp with a circular metal cover over a clear glass disk at the front and an elongated oval shaped handle at the back. The circular metal cover has a vertical slit in it. There is an inscription on the top of the lamp with the date 1917 and the company name "Eli Griffiths & Sons, Birmingham"."ELI GRIFFITHS & SONS / 1917 / BIRMINGHAM"railway lamps, signalling lamp, train signal lamps, railway equipment

These types of metal and glass railway signal lamps were used for communication, safety and lighting by train guards, shunters and signalmen, as well as station staff in the late 1880s to the early 1900s. They were hand operated and used fuel such as kerosene.The railway signal lamp has local significance as part of a set of three lamps donated by a resident of Wodonga who worked for the Victorian Railways. It also has national significance as an example of communication and safety equipment used by the railways in Australia in the late 19th century and early 20th century.Black painted metal signal lamp with a clear glass lens secured at the front and one thin elongated oval shaped handle showing at the back. The metal appears to be tin plated iron under the black paint layer. There is an oval plate with an embossed inscription on the proper left side of the lamp that is partly covered by the door at the front which holds the clear glass lens. The inscription includes the date 1901."...NARIPPINGILLE STOVE / CO LTD 1901 / PATENT...S & / ...NUFACTURERS / RMINGHAM" on an oval shaped plate on the proper left side, which is partly covered by the door with the clear glass lens.railways wodonga, victorian railways

This is a suitcase known as a Gladstone bag. It is named after William Gladstone (1809-1898), a Prime Minister of England. Gladstone bags were first produced by Edward Cole in London in 1854. These bags were commonly used, mainly by men, for business, work and sporting purposes. As it was compact and stored a large amount of material , it was a popular choice for men travelling to their workplace or carrying clothes and equipment to sporting event.This bag has significance as it was widely used by men throughout Australia. The original owner of this bag was a police officer in Bright, Victoria, although it is typical of those used by many local men in their daily life.This is a small suitcase, called a Gladstone bag, made of stiffened brown leather built over a rigid metal frame. It has a leather handle on top of the metal frame and a metal lock on the side of the frame. There are metal clips at each end of the frame.. Metal straps attached to the sides of the case. The bag is lined with light blue material and there are two pockets on one side of the bag, It is accompanied by a matching leather address label.gladstone bag, luggage, work bag

Braille hand frames and styluses were the primary way to produce Braille for over a century. The stylus was used to make a separate indentation for each dot, and the hand frame to keep dots within the same cell. Braille rows are produced from right to left. The process was very time consuming. Volunteer transcribers for the library could take an average of ½ hour to produce one page of Braille using this method. For example: “Oliver Twist” required approximately 600 sheets equating to 300 hours of work! This wooden slate, which was used to make the system portable, served as a firm base needed to sustain puncture pressure. The frame can also be slotted into both sides of the slate, thereby ensuring that the lines of Braille were straight across the page. The metal clasp at the top of the frame held the wooden which kept paper from slipping. In this example, the Rules of Membership for the Victorian Braille Writers were attached to the board.1 wooden back board with metal hand frame and stylus156 carved into wooden framebraille equipment, victorian association of braille writers

Braille hand frames and styluses were the primary way to produce Braille for over a century. The stylus was used to make a separate indentation for each dot, and the hand frame to keep dots within the same cell. Braille rows are produced from right to left. The process was very time consuming. Volunteer transcribers for the library could take an average of ½ hour to produce one page of Braille using this method. For example: “Oliver Twist” required approximately 600 sheets equating to 300 hours of work! Various metal hand frames accompanied by a metal stylus with wooden handle. Some include a wooden slate, which was used to make the system portable as a firm base was needed to sustain puncture pressure. The frame can also be slotted into both sides of the slate, thereby ensuring that the lines of Braille were straight across the page. Transcribing maths was an extremely complex task and a metal grid was utilised to reproduce graphs and diagrams.1 wooden hand frame with metal grid and metal and wooden stylus, 1 metal maths grid with metal pegs in metal container inside a brown suitcase and numerous sheets of Braille paperT.C. Coughlin 5 doz sausage rolls Wilmington Southend is written inside the lid of the suitcasebraille equipment, james murphy

Braille hand frames and styluses were the primary way to produce Braille for over a century. The stylus was used to make a separate indentation for each dot, and the hand frame to keep dots within the same cell. Braille rows are produced from right to left. The process was very time consuming. Volunteer transcribers for the library could take an average of ½ hour to produce one page of Braille using this method. For example: “Oliver Twist” required approximately 600 sheets equating to 300 hours of work! This wooden slate, which was used to make the system portable, served as a firm base needed to sustain puncture pressure. The frame can also be slotted into both sides of the slate, thereby ensuring that the lines of Braille were straight across the page. The metal clasp at the top of the frame held the wooden which kept paper from slipping.Brown plastic rectangular hand frame with holes evenly spaced on either long side. Hinged Braille metal guide with space for 2 rows of Braille, each 35 cells long. braille equipment, rnib

Used by the MMTB Supply Department for photograpy. Based on the wikipedia reference and the markings on top of the front face of the camera, made prior to the Second World War. Camera takes 120 film.Demonstrates the type of equipment the MMTB used to record their work, problems and to illustrate reports etc.Camera - metal frame, twin lenses folding view finder within a leather caseMarked "Melbourne Tramways Australia" on the top of the leather cover, and the full name of the MMTB , Melbourne Australia on one side of the camera.mmtb, camera, photography

Braille hand frames and styluses were the primary way to produce Braille for over a century. The stylus was used to make a separate indentation for each dot, and the hand frame to keep dots within the same cell. Braille rows are produced from right to left. The process was very time consuming. Volunteer transcribers for the library could take an average of ½ hour to produce one page of Braille using this method. For example: “Oliver Twist” required approximately 600 sheets equating to 300 hours of work! This wooden slate, which was used to make the system portable, served as a firm base needed to sustain puncture pressure. The frame can also be slotted into both sides of the slate, thereby ensuring that the lines of Braille were straight across the page. The metal clasp at the top of the frame held the wooden which kept paper from slipping. This donation includes the signature of Miss Bertha Yoxon, who was a student that transcribed braille around the 1920's for the Victorian Association of Braille Writers, and the owner of this board and textbook. Some originals of her work and a translated letter from her friend James Grubb accompany the frame. 1 wooden board and Braille paper, with 1 Braille text bookbraille equipment, victorian association of braille writers

The State Electricity Commission of Victoria 1921 to 1993 was responsible for electricity generation in Victoria and the operation of three Provincial Tramways. It had a strong safety focus for the time. This first-aid box would have been provided to work places containing first aid equipment and materials. It has been made with interior slots or dividers to hold items. Images of contents of a box that went to auction in Feb. 2025 collected.Demonstrates an SECV First Aid Box.First aid box made from sheet metal, with hinged lid, press locking clamp on the front, with a divided interior or fitting to hold items, painted white on the inside and black on the outside. Has the SEC logo, marked "First Aide" in red letters on a white background and numbered "2787" on the front side.Has SEC logo and number 2787. Has a hand date stamp of "16 Apr 1970" on the inside of the lid, top left hand corner.secv, tramways, first aid, equipment

Jackson Boilers Ltd., brass founders, electro platers and sheet metal works made this tube water boiler. It was a fitting in the vessel Reginald M, a small cargo ship built at Port Adelaide in 1922 and named after her builder and first owner, John Murch. The Reginald M was launched at Largs Bay, South Australia, in 1922 to carry cargo around South Australia that included guano, barley, wool, horses, cattle, timber, explosives, potatoes, shell grit, and gypsum. It passed through numerous owners over the years and primarily maintained its purpose as a cargo vessel. In 1975, the decommissioned Reginald M was purchased by Flagstaff Hill Maritime Museum as an attraction. Although restoration efforts were undertaken and maintained for the craft above the water line, deterioration occurred below the surface and resulted in the ship being unsafe for visitors to board. It was broken up and removed from Flagstaff Hill in 2018, but items such as the historical boiler remain in Flagstaff Hill’s Collection. JACKSON BOILERS LTD.: - In 1911, Henry Jackson was the Managing Director at Jackson Boilers Ltd. He had gained around 30 years’ experience as a tin plate worker, plumber and gas fitter at Ilkey in 1881, then at Leeds by 1901. By 1921, he had changed employment from Jackson Boilers to Managing Director of Patent Water Boilers. During World War I, Jackson Boilers Ltd of Leeds performed war work like many other manufacturers at that time. The firm made cases for the explosive picric acid and electroplated fuse hole plugs. In 1918, the firm employed 15 males and 19 females. Jacksons Boilers became very successful throughout the first half of the twentieth century with showrooms and sales offices in Scotland, the Midlands and Southern England. It also had an office in Dublin, Ireland. In the post-war 1920s, the firm’s production included instantaneous water boilers and coffee machines for cafes, restaurants and canteens. Jackson Boilers also began to supply shipping lines with catering water boilers for their ships. The firm applied for a USA patent for the tube boiler in 1930, for the design which appears to have been invented in 1926. A 1971 advertisement adds the credentials, Members of the Catering Equipment Manufacturers’ Association. The tube water boiler was designed specifically for use in a ship's restaurant or dining area and patented by Jackson Boilers Ltd. of Leeds. The boiler is significant as a patented design, illustrating the evolution of maritime, commercial and domestic water boilers that have led to many innervations and improvements in today's boilers that are used in heating and in producing hot water for domestic and catering use. It is also significant as it is one of the earlier boilers the Jackson company made in the early 1920s before they applied for a US patent on their revised design in 1926.Water boiler, free standing Jackson's Tube boiler. A tall metal cylindrical stand with a metal sphere on top and several pipe fittings on the sides. A brass tap with a lever handle is connected to the front. A plaque with maker's details is attached under the tap. Details are also impressed into the cylinder above the tap.Jackson Boilers Leeds Ltd. "JACKSON'S PATENT" . Other details indecipherable. flagstaff hill maritime museum and village, flagstaff hill maritime museum, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, leeds, jackson boilers ltd, jackson boilers, henry jackson, brass founders, electro platers, sheet metal works, patent water boilers, leeds manufacturer, tube water boiler, domestic boiler, tube domestic boiler, tube boiler, water heaters, water boilers, self-feeding water boilers, sheet metal work instantaneous water heaters, engineering, allied trades, metal workers, metal trade, food machinery, hospitality equipment, ship equipment, ship water boiler, ship heater, catering boilers, café boiler, restaurant boiler, canteen boiler, catering equipment manufacturers’ association, cema, kitchen equipment, kitchen appliance, war work, world war i, wwi, picric acid, picric acid cases, fuse hole plugs, electro plated fuse hole plugs, reginald m, cargo ship, port adelaide, 1922, john murch

This equipment was located in the outpatients department (Philip Block) until September 2021 when it was deemed obsolete by Infection Prevention. Hubert Ingham Clements (1886-1969) was an Australian engineer who established his own engineering business in NSW in 1908 manufacturing combustion engines. He became interested in anaesthesia equipment and from the 1920s Clements worked on improving ether apparatus and manufacturing portable suction machines for use in hospital operating theatres. The latter machines were to earn an unrivalled reputation for reliability; many remained in service over thirty years after their date of production. The business became H. I. Clements & Son when his son William joined the company. (https://adb.anu.edu.au/biography/clements-hubert-ingham-12846)Item is an example of equipment from its time period and is of historic significance.Portable Clements Suction & Pressure Pump built by H I Clements & Son Ltd Consists of motor with attached carry handle, attached pressure regulator, attached disposable drainage cannister with tubing and power cable mounted on a trolley with castors.H I Clements & Son Pty. Ltd. Metal Manufacturing label with: Serial Number 1725FS and SAA Certificate Number BCG/4S/60194 on motor (front side) Ward 11 engraved on motor handle AH Biomedical Engineering orange test due sticker and AH Biomedical blue test sticker (reverse side)suction, clements, portable suction, respiratory, pressure pump, surgical drainage

This Minnitt machine was owned by Dr Mary Clementina DeGaris. Dr DeGaris qualified from medicine, MB BS, at the University of Melbourne in 1905. She continued her studies, becoming only the second woman in Victoria to qualify MD, in 1907. With the outbreak of war, DeGaris attempted to enlist as a doctor with the Australian Army but was refused. Undeterred she travelled to England, where she joined the Scottish Women's Hospitals for Foreign Service, a medical group made up entirely of women. After the war, she returned to Australia and set up practice as an obstetrician in Geelong, Victoria. Subsequently, the Geelong Hospital named a wing after her, "DeGaris House", which is now part of Geelong Private Hospital. DeGaris was awarded the St Saba medal, 3rd class, for her work during WWI. 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.Brown leather suitcase with brass locks and leather handle. Inside the case is metal equipment, with arms for attaching cylinders. On top of the case, located underneath the handle, is a small brass plate, bearing the name of the owner in black printed script on a piece of card or paper held inside the plate.Printed in black ink on name plate: Dr Mary C. De Garis.minnitt, geelong, scottish women's hospitals, world war i, obstetrician

The Bird Mark 4 is an anaesthesia assistor or controller with pressure and volume controller to be driven by a respirator. Combination of Mark 4 with respirator makes an automatic anaesthesia respirator eliminating manual bagging. The machine can work through Boyle anaesthetic system. It is designed for both paediatric and adult application. (Drugs and Equipment in Anaesthesia Practice, Aruna Parameswari, 2019)Green metal box atop a clear plastic unit with a black bellows inside, which forms one part of the overall unit. The unit is attached to a pole, enabling height adjustment. The pole is, in turn, attached to a set of four castors [not original].White text on black stick on strip on top of metal box: DO NOT PULL APART / FOR USE IN THEATRE ONLY A series of instructions are printed in white text over the unit.anaesthesia assistor, anaesthesia controller, pressure controller, volume controller, paediatric, adult

Manufactured for the first batch of W-class trams starting with tram No. 219. Later W-class trams had a separate raised section in the roof. See Appendix 4 of Destination City 5th Edition for details of tramcar numbers.Demonstrates sheet metal work and equipment fitted to the first batch of W class trams.Sheet metal-formed and riveted object manufactured to provide a roof ventilator. Has been painted silver and mounted onto a timber sheet with white taped edges.Lable in ink "Torpedo Roof ventilator salvaged from W2 228, Burnt PWS 1965"tramways, mmtb, w class, tramcar fittings, equipment

This endobronchial tube was invented by Sir Ivan Magill. It can be identified as pre 1948, as from that time on the wire spiral was eliminated from the body of the tubes. Sir Ivan Magill is famous for his involvement in modern anaesthesia. He worked closely alongside plastic surgeon Harold Gillies in the treatment of facial injuries sustained in World War 1. He was responsible for many items of anaesthetic equipment, but most particularly the single-tube technique of endotracheal anaesthesia.Tightly wound wire spiral tube with metal 'T' nozzle at the opposite end.magill, endotracheal, tube

Mechanical resuscitation devices, such as the Pulmotor and Lungmotor, were popular in the early part of the twentieth century. Their use waned in the 1920s as significant bodies like the British Medical Research Council and American Red Cross refused to endorse them. The most popular of the resuscitators to emerge in the 1930s was the E&J (Ericson and Johnson) resuscitator. The device was soon widely available, vigorously promoted with support from many medical practitioners. They were soon to be found in hospitals, emergency services like the ambulance and fire brigade, and voluntary life-saving organisations. In Australia, Norman James, director of anaesthesia at the Royal Melbourne Hospital, developed an interest in equipment for ambulances and the resuscitation of drowning victims. Little in the way of practical, portable equipment was available to either the ambulances or the voluntary life-saving organisations, such as Surf Life Saving Australia (SLSA); American resuscitators, like the E&J, were expensive and bulky to import. James designed a simple portable resuscitation device for local use after being approached by Jack Conabere, secretary of the Elwood Life Saving Club (ELSC). The resulting Royal Melbourne Hospital resuscitator, or the R.M. resuscitator as it was marketed, was a simpler, manual version of those available overseas. It was gas driven with a plunger, marked “Press”, and a safety valve. The small working unit attached directly to the facemask. Once the patient was positioned facedown and the airway cleared of debris, the mask was placed firmly over the face. The plunger allowed gas to flow and lung inflation; releasing the plunger allowed expiration. This simple resuscitator was marketed by Commonwealth Industrial Gases (CIG) and became very popular in Australia with volunteer and professional rescue organisations. It represents one of the many innovations in resuscitation equipment that resulted from cooperation between volunteer life savers and medical practitioners. Norman James worked closely with Jack Conabere and the Government Pathologist to develop the equipment. ELSC was the first life saving club to use the resuscitator on the beach. While conducting an early training exercise on 23 December 1951, they used it to successfully resuscitate a man who had drowned after capsizing his home made yacht. The R.M. resuscitator was also used in more inventive ways. At Fairfield Hospital in Melbourne, a group of physiotherapists and doctors did some innovative work with polio patients, teaching them glossopharyngeal (or “frog”) breathing, as a means of becoming less dependent on ventilators. In 1981, the Australian Standards Association stated that the RM head failed to meet its revised standards and it was withdrawn from the market. Red leather suitcase with black leather trim with metal studs. There are clip locks for locking the suitcase in the closed position. The suitcase contains equipment for oxygen resuscitation. There is a space allocated for two oxygen cylinders, however there are no cylinders present.Embossed into metal plaque: The C.I.G. / Oxy-viva / PORTABLE UNIVERSAL OXYGEN RESUSCITATORresuscitation, portable, surf life saving australia, royal melbourne hospital, rm resuscitator

A cast iron hook was made for lifting heavy loads in a marine or warehouse environment. The hook would be attached to the end of a chain or rope around a heavy load such as a pallet or container. The other end may have been joined to a pulley or crane for lifting and moving it around. The inscription on the hook shows the SWL or Safe Working Load as 3 Ton. The SWL was used in the industry for many years to rate safe loads but it is no longer used to identify the maximum capacity of equipment. In 2002 the Australian Standard AS 1418 for Cranes, Hoists and Winches changed, and the term Safe Work Load was changed to Rated Capacity, which was defined differently.The hook represents the equipment needed on a ship or at a port, railyard, transport depot or warehouse in the 19th and 20th centuries to move cargo and loads. The inscription of SWL on the hook is significant for its use as a guide for many years to work out the weight of the load the hook could safely hold. However, time and experience have led to a change in Australian Standards and the load is now measured by another formula that gives the load's Rated Capacity.Hook; large iron hook with a ring formed in the top. Inscription stamped into the metal and indicates that the Safe Working Load (SWL) for the hook to lift is 3 Ton.Marked "ani" "SWL 3TON"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, lifting hook, maritime equipment, lifting equipment, warehousing, cargo, loads, rigging, marine technology, swl, safe working load, 3 ton, rated capacity, load limit