This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, distant signal, signal, maritime signal, ball signal, signal shape, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

The bosun’s chair is a typical piece of equipment included on board a vessel in the late 19th and early 20th century. The nautical word 'bosun' is an abbreviation of the word 'boatswain' who is the person responsible for the repair and maintenance of the vessel. It could be used when rigging the sails and for rescue at sea, along with a thick rope anchored on shore or a rope between ships. It could also be used to move passengers to and from a ship as well as cargo on, to and from the vessel. A bosun's chair is a simple piece of equipment made from a short plank of wood and a sturdy piece of rope. It looks a little like a child's swing but usually has a pulley system that allows the user to adjust the length of the hanging piece of rope, and in so-doing adjusts the height above the floor or ground or sea. In modern times a harness would also be worn by the bosun’s chair user for safety reasons. Bosun's chairs are also used by window cleaners, construction workers and painters. The bosun’s chair is sometimes just a short plank, or even a canvas sling. The bosun's chair is significant for its association with maritime equipment carried on board a vessel in the late 19th and early 20th century for maintenance and safety purposes. It was occasionally used to save lives. The bosun's chair is also significant as an early version of equipment still used today. Since its invention there have been many safety features added in certain industries such as window cleaning and painting.Bosuns chair; flat smooth rectangular piece of wood, with rope passing through two holes at each end of plank and looped together above plank to form a suspended seat swing. Loops a are joined with knot work and ends are spliced together under the seat.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, bosun's chair, bosuns chair, boatswains chair, rigging, maritime equipment, bosun's seat, life saving, marine technology, ship rigging

This foot grip was made and owned by Frederick William McDowell (Fred) (1880 to 15-6-1967). It would be been joined to the stafe or frame of a jinker and used to step up from the ground and onto the seat. He was a wheelwright by trade. He made and repaired vehicles such gigs, buggies, jinkers, sulkeys, spring carts and farm wagons. His workshop was on the corner of Cramer Street and Raglan Parade in Warrnambool., previously the site of Fotheringhams, and after McDowell's, and still in 2023, occupied by Reece Plumbing Fred's workplace prior to retiring was at Bryant & Waterson's in Kepler Street, opposite the Criterian Hotel, making rubber tyred horse-driven farm wagons.This jinker's foot grip id part of a jinker or two-wheeled carriage. It is a rare item, made by a local wheelwright Frank McDowell who operated his buggy making and repair business in Warrnambool's CBD in the early twentieth century. It is an example of the equipment used on horse-drawn vehicles for safety and convenience.Foot grip, iron with silver plate finish. Rectangular metal plate with textured crossed over diagonal lines on the top surface and inset rectangles with impressed text. the curved and shaped ends have a drilled round hole. the length of the plate is an inverted 'v' shape towards the base. Made by F. McDowell, Warrnambool."F McDOWELL" "WARRNAMBOOL"flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, fred mcdowell, frederick mcdowell, wheelwright, gig, buggy, jinker, sulkey, spring cart, farm wagon, 2-wheeled cart, horse cart, horse cart parts, jinker buggy, transport, vehicle, horse drawn, horse jinker, bryant & waterson, jinker part, jinker foot grip, step, foot plate, horse cart part, stafe, 2-wheeled carriage

A mining safety cage was used in a mine lift. It was fitted with mechanisms to prevent the cage from dropping if the lifting rope broke. In the 1870s in Victoria, deaths and injuries from falling cages in vertical shafts of gold mines were a major problem. The inventor of this safety cage was Robert Allan, a machinery maker of Creswick Rd, Ballarat. He said his cage featured a ‘dissolving’ fulcrum. Others called it an eccentric (off centre) system. Note the pair of clutch levers designed to grab the side guides if tension ceases in the suspending rope from the poppet head pulley. Also, the hinged ‘lids’; designed to protect miners trapped in a braked cage from falling rope, and to enable rescue of the miners. This model was presented to The Ballarat School of Mines Council in November 1876. This model was shown at the Smeaton Show in November 1874, Ballarat School of Mines Museum from 1876, and examined by the 1879 Victorian Board of Inquiry (Pg 15 of FedUni Catalogue 3437) From the Argus of 13 November 1874: At Smeaton Show, Robert Allan of Ballarat won 1st prize for a Model of a Mining Cage, a Butter working machine, a Cheese press and a Curd Mill. By 1878 an Allan Safety-Cage was in operation in the Number 6 shaft of the Band and Albion Consols mine in Ballarat. This cage was judged the best inspected by the Victorian Board of Inquiry by 1879, p. 39.Mining was a big industry in Ballarat in the late 1800s and a lot of deaths were recorded because of mining accidents, the development of the mining safety cage brake limited the deaths and injuries from falling cages in vertical shafts. The model also has links to the Ballarat School of Mines, being presented to the council in 1876. Ballarat School of Mines is the oldest Technical School in Australia and is a predecessor of Federation University. The model is significant to Ballarat's mining history.Model of a mine safety cafe. A grey painted wooden frame with metal model of cage and safety brake system. When tension ceases in rope a pair of crutch levers grab strongly onto the wooden guide strips which run down the sides of a vertical shaft. This safety cage was discussed in "Safety Mining Cages. Report of the Board of Enquiry on Safety Cages 1878-9; together with proceedings of the Board and Appendices".safety cage, mine cage safety brake, robert allan, model, safety cage model, machine maker, millwright, mining, gold mining, tools, equipment, victorian board of inquiry

Pioneer xrays were conducted at the Ballarat School of Mines in 1896.Two X-ray tubes used in pioneering x-rays at the Ballarat School of Mines in 1896. They have been boxed for safety. x-ray, xray, xray tube, john m. sutherland, ballarat school of mines, xray demonstration, pioneer xrays

Emergency survival kit made safe and watertightThe kit represents equipment used around the time of World War II to aid the safety and survival of seafarers.Survival kit, 1973. Rectangular metal box with round screw top lid that has wing handles with a red cross on both ends of box (one end is heavily rusted). Contents of box includes booklet 1943 "Advice to Those in Lifeboats and Rafts of Merchant Ships" and one rectangular piece of water resistant paper with "Advice-books" written on it (separated from booklet), cylindrical stainless steel container with wire handle, cotton bandage. Also inside, one Sun-flash Distress Signal Mirror (instructions adhered to back) with padded pouch, labelled "MIRROR" in white paint, and a card inside pouch, adhering to insides. Metal is corroding.White painted label on pouch 'MIRROR". Paper instructions on back of mirror headed "_ _ FSON SUN-FLASH DISTRESS, SIGNAL DEVICE". Printed on waterproof cover "ADVICE BOOKS". warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, shipwreck-coast, survival kit, commonwealth of australia, sun-flash distress signal mirror, survival advice book, military supplies, emergency kit, survival kit.

A ship's compass played an extremely important role in navigating the ship from the port to its destination. If there was a slight inaccuracy in its calibration the ship could miss its destination and crash or be wrecked. The Falls of Halladale was an iron-hulled, four-masted barque, used as a bulk carrier of general cargo. She left New York in August 1908 bound for Melbourne and Sydney. In her hold was general cargo consisting of roofing tiles, barb wire, stoves, oil, and benzene as well as many other manufactured items. After three months at sea and close to her destination, a navigational error caused the Falls of Halladale to be wrecked on a reef off the Peterborough headland on the 15th of November, 1908. The captain and 29 crew members survived, but her cargo was largely lost, despite two salvage attempts in 1908-09 and 1910. The Court of Marine Inquiry in Melbourne ruled that the foundering of the ship was entirely due to Captain David Wood Thomson's navigational error, not too technical failure of the Clyde-built ship. The Falls of Halladale was built in1886 by Russell & Co., at Greenock shipyards on the River Clyde, Scotland for Wright, Breakenridge & Co of Glasgow. She was one of several designs of Falls Line of ships named after waterfalls in Scotland. The company had been founded between 1870- 1873 as a partnership between Joseph Russell, Anderson Rodger, and William Todd Lithgow. During the period 1882-92 Russell & Co. standardised designs, which sped up their building process so much that they were able to build 271 ships during that time. The Falls of Halladale had a sturdy construction built to carry maximum cargo and able to maintain full sail in heavy gales, one of the last of the 'windjammers' that sailed the Trade Route. She and her sister ship, the Falls of Garry, were the first ships in the world to include fore and aft lifting bridges. Previous to this, heavily loaded vessels could have heavy seas break along the full length of the deck, causing serious injury or even death to those on deck. The new, raised catwalk-type decking allowed the crew to move above the deck in stormy conditions. The Falls of Halladale shipwreck is listed on the Victorian Heritage (No. S255). She was one of the last ships to sail the Trade Routes from Europe and the Americas. Also of significance is that the vessel was one of the first ships to have fore and aft lifting bridges as a significant safety feature still in use on modern vessels today. The subject model is an example of an International Cargo Ship used during the 19th and early 20th centuries to transport goods worldwide and represents aspects of Victoria’s shipping industry. The compass sections are also significant for belonging to the compass of the Falls of Halladale. It was a critical part of the ship's equipment. Compass sections, two; brass disc with a round object on a pedestal, together with a glass disc with a metal frame and insert in the centre. Both items were recovered from compass on the wreck of Falls of Halladale. Nonewarrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, compass sections, falls of halladale, wreck of halladale, ship compass

The bosun’s chair is a typical piece of equipment included on board a vessel in the late 19th and early 20th century. The nautical word 'bosun' is an abbreviation of the word 'boatswain' who is the person responsible for the repair and maintenance of the vessel. It could be used when rigging the sails and for rescue at sea, along with a thick rope anchored on shore or a rope between ships. It could also be used to move passengers to and from a ship as well as cargo on, to and from the vessel. A bosun's chair is a simple piece of equipment made from a short plank of wood and a sturdy piece of rope. It looks a little like a child's swing but usually has a pulley system that allows the user to adjust the length of the hanging piece of rope, and in so-doing adjusts the height above the floor or ground or sea. In modern times a harness would also be worn by the bosun’s chair user for safety reasons. Bosun's chairs are also used by window cleaners, construction workers and painters. The bosun’s chair is sometimes just a short plank, or even a canvas sling. The bosun's chair is significant for its association with maritime equipment carried on board a vessel in the late 19th and early 20th century for maintenance and safety purposes. It was occasionally used to save lives. The bosun's chair is also significant as an early version of equipment still used today. Since its invention there have been many safety features added in certain industries such as window cleaning and painting.Bosuns chair, rectangular slab of wood with two holes at both ends through which rope ends are threaded for support and the loops above the seat are tied with sailor's knotting to form a triangle. flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, bosun's chair, bosuns chair, boatswains chair, rigging, maritime equipment, bosun's seat, life saving, marine technology, ship rigging

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.distant signal, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This cast brass deck inspection cover with housing is made for the marine environment. Inspection plates have been incorporated into the ship's design since at least the late 19th century. Modern deck inspection posts have a similar design and can be made from stainless steel, aluminium or plastic. The deck inspection plate gives marine vessel owners and inspectors easy access to the areas below the deck to check for signs of damage, wear or corrosion. This mid-20th-century inspection plate with housing shows the importance of marine safety. Inspections on marine vessels today are still carried out via inspection ports made from modern materials. Inspection plate; a round brass marine inspection screw-out cover and housing with a slotted recess in the lid.warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, brass marine inspection plate, marine equipment, inspection housing, boat plate, inspection port, marine plate, deck plate, marine safety

The kerosene lamp was one of the most common oil lamps used and was manufactured until the 1980s. An anchor lamp like the lamps in this pair would be raised on the highest ship mast at night to signal other seafarers that the ship was at anchor or sailing at night. The metal loops on opposing sides of the lamp could hold a pair of rods or ropes. and be used to raise the lamp.The lamp is made to the design of a 19th and early 20th-century kerosene anchor lamp carried as essential marine equipment and used as a signal lamp on sailing ships. Lamps; a pair of cylindrical kerosene anchor lamps. Each has a flat back, a hinged door, a metal handle and two metal loops or guides fixed on each side. The glass window is convex and inside the lamp is a wick in an enamel wick holder.brass lamp, lamp, anchor kerosene lamp, kerosene lamp, marine equipment, marine lamp, navigation, light, ship light, ship lamp, lantern, maritime, nautical, safety lamp

A safety razor is a shaving implement with a protective device positioned between the edge of the blade and the skin. The initial purpose of these protective devices was to reduce the level of skill needed for injury-free shaving, thereby reducing the reliance on professional barbers for providing that service and raising grooming standards. The term was first used in a patent issued in 1880, for a razor in the basic contemporary configuration with a handle attached at right angles to a head in which a removable blade is placed (although this form predated the patent). 1847 William S. Henson. patented a "comb tooth guard or protector" which could be attached both to the hoe form and to a conventional straight razor. May 1880 by Fredrik and Otto Kampfe of Brooklyn, New York, improved the 'safety razor' and it differed from the Henson design in distancing the blade from the handle by interposing,, "a hollow metallic blade-holder having a preferably removable handle and a flat plate in front, to which the blade is attached by clips and a pivoted catch. 1900 King C. Gillette had the revolutionary idea of disposable blades so thin and so strong they were deemed impossible to forge by MIT-trained scientists. By 1901, he’d proven them wrong with his breakthrough innovation. The success of Gillette's invention was largely a result of his having been awarded a contract to supply the American troops in World War I with double-edge safety razors as part of their standard field kits (delivering a total of 3.5 million razors and 32 million blades for them). The returning soldiers were permitted to keep that part of their equipment and therefore easily retained their new shaving habits. The subsequent consumer demand for replacement blades put the shaving industry on course toward its present form with Gillette as a dominant force. Plastic disposable razors and razors with replaceable disposable blade attachments, often with one to three cutting edges (but sometimes with four and as of recently, five cutting edges), are in common use today. A steel 'Gillette' safety razor gillette co ltd, cheltenham, moorabbin, maynard dennis, sfety razors, safety razor blades

This cast brass deck inspection cover with housing is made for the marine environment. Inspection plates have been incorporated into the ship's design since at least the late 19th century. Modern deck inspection posts have a similar design and can be made from stainless steel, aluminium or plastic. The deck inspection plate gives marine vessel owners and inspectors easy access to the areas below the deck to check for signs of damage, wear or corrosion.This mid-20th-century inspection plate with housing shows the importance of marine safety. Inspections on marine vessels today are still carried out via inspection ports made from modern materials.Inspection plate; a round brass marine inspection screw-out cover and housing with a slotted recess in the lid.warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, brass marine inspection plate, marine equipment, inspection housing, boat plate, inspection port, marine plate, deck plate, marine safety

These marine diver's boots are made to weigh down the diver's feet to the bottom of the seabed, at the same time protecting his feet. The different pieces are joined with nuts, bots and washers. The boots are part of the protective clothing worn by marine divers to enable them to go to depths where others had not been. The Great Ocean Road along the southwest coast of Victoria is renown for its treacherous seas and tragic shipwrecks. Decades after the occurred divers began to explore the wreck sites and discovered hundreds of lost ships. The ships' skeletons and sprawled wreckage tell many stories of the type of ships used, the cargo and luggage carried onboard. They are valuable source of primary history. Many artefacts were recovered from local shipwrecks by the Flagstaff Hill divers and they have been preserved for historical records. Since that time many historic shipwrecks have become protected by Australian law. However, divers are able to still visit the sites.The boots are an example of diver's apparel in the 20th century and show the process of evolving protective and safety wear for underwater divers today.A pair of marine diver's boots. Boots are made of brass alloy and leather. The toes are metal and the metal soles are rippled. The sides have a short bar along the inner and outer sides of the foot, designed to fit a leather strap across the boot to hold it in place. A leather piece is attached to the back of each boot and extends around the ankle area to fasten with a buckle. flagstaff hill, warrnambool, maritime village, maritime museum, shipwreck coast, great ocean road, diver's boots, marine diving, underwater diving, deep sea diving, diving equipment, diving accessory, shipwreck exploring

Hand written page of notes (incomplete) on Lansell's 222 Mine. Notes on the shaft, plant, winding engine, indicator, boilers and engine house. Yield 20,322 ounces of gold. Signed by A Richardson 3/1/68.gold mining, miners' safety cage, lansell's 222 mine, lansell's 222 mine, mining equipment, 'denis ' shaft, koch's & hildebrandt, fortuna battery, a harkness & co, victoria foundry, mines report 1884 page 49, a richardson

The Wessex was used between 1964 and 1984 by the Australian Navy in Australia and Oceania. This helicopter, no 31, also use for disaster relief in Darwin after Cyclone Tracy.Manufactured in Britain from a USA design, the Wessex was jet powered (Napier Gazelle), a multi-role helicopter used in air sea rescue, anti-submarine, ambulance, troop and freight carrying. Dependent on the mission profile, the aircraft carried a crew from three to five including two pilots.Includes a full set of Royal Australian Navy insignia and carries the Serial No. N7-221 and Navy Side No. 31.RAN Roundel. Navy Registration N7-221. No31, a/c safety markings. Tiger Head Unit Logo of 816 Sqnhelicopters, military equipment, wedssex, troop carrier, navy

Created as American motor vehicle first aid kit in World War 2 but used in Vietnam. Green metal first aid box with hinge, two metal clasps and metal carry handle. Inside lid has label "24 Unit Kit" and general first aid instructions.Kit contains 11 cardboard boxes containing: 3x 4 inch bandage compress, 2 inch bandage compress, eye dressings, 3 eye dressing sets, 3x burn injury set each with 2 orange tubes of ointment and small wooden spatula , 2 large first aid dressing, I card with 5 safety pins, one tourniquet with instruction label attached, jar of Vaseline, 2 x pieces of cotton fabric ( possibly cut from a singlet)'First aid for emergency use only"/ U.S. Army Medical departmentfirst aid, medical, united states equipment, kit, us army, bandages, tourniquet

Two page document for Kirkland Lake Gold Open day 2019. Open Day activities include: bus tours, technical services display, geology, exploration, processing, community and environment display, minerals council of Australia, Swick drilling, Central Deborah Gold Mine, Face painting, Goldfields Re-vegetation, Delecca's hire equipment, MacMahon underground mining services, Sandvik, and ISH24 safety specialists. Map of 'Fosterville Gold Mine Site Map' with activities highlighted. Fosterville is Victoria's larges gold producer and in 2918 a records 356,230 ounces at an average grade of 24.9 g per tonne. The mine has over 600 full time employees in 2019. Entry for '9 levels of darkness' tour at Central Deborah Mine attached.bendigo, mining, fosterville gold mine

Alan Doney darkroom collection: 40a dartk room equipment collection 40b four film devreloping cannisters, adapts to adjustable film sizes (35mm, 120mm etc) 40c spool winder in two parts, stored in scotch tape tin 40d developer lens holder and fil/negative constraint for enlarging photos 40e darkroom light shade with electricity chord 40f red darkroom safety light for developing film with the darkroom 40g three developing items - two lens caps, thremometer caps/containers, & photo developing tongs 40h leather pouch for protection of flat ground glass panes 40i steel slide cover & bracket 40j two sets of steel film weights to hold/hang developed photograph films 40k rubber tubes and syphons 40l two plastic measuring beakers & two (yellow & blue) plastic spoons for developing process 40m KODAK film flow solution (Keogh's Camera Store $1.02) & KODAK plus-X pan film tin container 40n three darkroom miscellaneous items (includes Uniprint eqipment knob)

As the Yarra became unsuitable as a source of water, several attempts were made to find alternative sources for the growing population of Melbourne. It was not until 1891 that the efforts to sewer Melbourne came to fruition with the setting up of the Melbourne Metropolitan Board of Works (MMBW), now known as Melbourne Water. From 1891 until 1992, it was the responsibility of the MMBW to safeguard public health by providing a sewerage system and a safe water supply system. In 1992, The MMBW merged with a number of smaller urban water authorities to form Melbourne Water.This first aid kit is of historical significance for its association with the former Melbourne and Metropolitan Board of Works (MMBW). The kit is relatively intact and a rare surviving object of standard Board issued equipment. The kit is significant for its representativeness of the theme of Safety that continues to resonate strongly within Melbourne Water today. First Aid Kit (plastic lunch box)MMBW 1339 (burnt into plastic) Board of Works Decalmelbourne metropolitan board of works, melbourne water, first aid kit, mmbw, safety, water, sewerage

Part of the laparoscopy equipment donated by Dr Geoff Bishop. Dr Geoffrey Bishop, whilst at the Department of O and G, University of Liverpool, UK, began laparoscopy in 1969. On returning to Australia, Bishop and Grimwade together with Mr Peter Paterson introduced gynaecological laparoscopy to Melbourne, practising at the Queen Victoria Memorial Hospital (QVMH), Melbourne in 1969. The College, through the Victorian State Committee of the Australian Council, RCOG, ran training courses in laparoscopy for local and interstate gynaecologists. These were conducted by Bishop, Grimwade and Paterson. They established protocols, with particular reference to safety, for the conduct of laparoscopy. Laparoscopy was used initially for diagnosis and for limited treatment using diathermy for conditions such as endometriosis. The real impetus came with the great upsurge of tubal sterilization in the early 1970s. Early techniques included diathermy and division of the Fallopian tubes using the Palmer forceps. [Dr Peter Renou, former honoury curator.]Palmer's diathermy forceps. It has two pronds for grasping that retracts with a screw mechanism. Purchased by Geoff Bishop as an additional part of original laparoscopy set, also included in this accession 1999005.laparoscopy, tubal ligation, infertility investigation

Part of the laparoscopy equipment donated by Dr Geoff Bishop. Dr Geoffrey Bishop, whilst at the Department of O and G, University of Liverpool, UK, began laparoscopy in 1969. On returning to Australia, Bishop and Grimwade together with Mr Peter Paterson introduced gynaecological laparoscopy to Melbourne, practising at the Queen Victoria Memorial Hospital (QVMH), Melbourne in 1969. The College, through the Victorian State Committee of the Australian Council, RCOG, ran training courses in laparoscopy for local and interstate gynaecologists. These were conducted by Bishop, Grimwade and Paterson. They established protocols, with particular reference to safety, for the conduct of laparoscopy. Laparoscopy was used initially for diagnosis and for limited treatment using diathermy for conditions such as endometriosis. The real impetus came with the great upsurge of tubal sterilization in the early 1970s. Early techniques included diathermy and division of the Fallopian tubes using the Palmer forceps. [Dr Peter Renou, former honoury curator.]This Spackman's cannula was used by Dr Geoff Bishop during gynaecological laparscopioc surgery.He used this decice as a uterine elevator. Also, for testing tubal patency by inserting dye through it. Manufacturers stamp: ANAX.laparoscopy, tubal ligation, infertility investigation

Part of the laparoscopy equipment donated by Dr Geoff Bishop. Dr Geoffrey Bishop, whilst at the Department of O and G, University of Liverpool, UK, began laparoscopy in 1969. On returning to Australia, Bishop and Grimwade together with Mr Peter Paterson introduced gynaecological laparoscopy to Melbourne, practising at the Queen Victoria Memorial Hospital (QVMH), Melbourne in 1969. The College, through the Victorian State Committee of the Australian Council, RCOG, ran training courses in laparoscopy for local and interstate gynaecologists. These were conducted by Bishop, Grimwade and Paterson. They established protocols, with particular reference to safety, for the conduct of laparoscopy. Laparoscopy was used initially for diagnosis and for limited treatment using diathermy for conditions such as endometriosis. The real impetus came with the great upsurge of tubal sterilization in the early 1970s. Early techniques included diathermy and division of the Fallopian tubes using the Palmer forceps. [Dr Peter Renou, former honoury curator.]This cannula has two points for tubal attachments at one end. At yhe other end, a bell cap with a nossel.This was used by Dr Geoff Bishop during gynaecological laparscopioc surgery. This instrument is commonly used for suction. Also, for testing tubal patency by inserting dye through it. Manufacturers stamp: PRECIOUS.laparoscopy, tubal ligation, infertility investigation

Contains mossie headnet and mittens, tablets, safety pin, fire starting kit.0545 - c50 - 9500survival equipment, army

Mk. 3 Martin Baker ejection seat. Canberra bomber pilot reat. Consists of oxygen hose, safety harness, leg restraints, face blind, seat harness, head cushion, parachute back support padejection seat, canberra bomber

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

Professor Arthur Barrington (Barry) Baker was the first Australian anaesthetist to gain a DPhil in anaesthesia. He completed his DPhil at Oxford University at the Nuffield Department of Anesthesia in 1971, titled, Physiological Responses to Artificial Ventilation. The Waveform Ventilator is the machine developed to illustrate his DPhil. The waveform ventilator was used in several scientific studies on 'the effects of varying inspiratory flow waveforms and time in intermittent positive pressure ventilation (IPPV)', published in the 'British Journal of Anaesthesia'. Professor Arthur Barrington Baker had an extensive career in research and clinical practice including holding the position as the Nuffield Professor of Anaesthetics at Sydney university (1992 - 2005) and also as the Dean of the Australian and New Zealand College of Anaesthetists (ANZCA) (1987-1990).The variable waveform ventilator is of national significance, due to its association with Professor Arthur Barrington Baker (Prof. Baker) the first Australian academic anaesthetist, and the representation of historical social themes and research and design, in anaesthesia. Historic significance – It is a rare type of ventilator in good condition and well provenanced. It is a tangible record of the beginning of the long established and distinguished career of Prof. Baker, the first anaesthetist in Australia to gain a DPhil. Prof Baker has a strong involvement in the Australian and New Zealand College of Anaesthetists (ANZCA) organisation. The object is a product of Prof Baker’s Doctorate of Philosophy (DPhil) on respiratory physiology and is associated with the prestigious Oxford University and the well-known Nuffield Department of Anaesthetics. It also represents the social theme of migration to England from Australia in the 1960s and 1970s to access and experience academic and artistic opportunities limited in Australia at the time. Scientific Value – The object is of scientific value as it offers major potential for education and interpretation in anaesthesia. Although ventilators are common equipment, this specific design and construct prototype is one of a kind, designed and used specifically for research purposes. A rectangular shaped object on a trolley with four wheels. The top half of the object consists of two panels, one of cream coloured painted wood, the other black plastic, both containing several dials of different shapes and sizes. The wood surface also contains several gauges and a safety pressure clear plastic box. The plastic surface also contains a pin board. The bottom half of the object consists of two shelves. The whole object's perimeter is lined with perforated metals. The top wooden surface has several metal pieces of equipment and a long tube. The rear of the object contains numerous types of tubing and wire, a gas cylinder and two leather straps with buckles. The bottom half of one side of the objects has 3 electrical power outlets.Waveform Generator, Drs Colliss N Cowie, Dr Baker Dr Murray Willson, Dr Babbington, Safety Pressure, Error POS F/B, Position, Feedback, Set Balance, Reset, Full Stroke, Velocity, Converter Current, line Pressure, Low Pressure, Bias Pressure, Start, Stop, Stop, Reset Press, Max Press, W/G Output, A/CRO B/2.baker, arthur barrington, baker, barry, professor, academic anaesthetist, oxford university, nuffield department of anaesthesia