Vietnam eraA metal hand held electrical firing device for remote firing of the Claymore mine. It has a two pole male electrical connector fitted with a dustproof cap and a steel safety bar to prevent inadvertent operation. This device is complete with cable for connection to the mine.Stamped on one side are the words FIRING DEVICE ELECTRICAL M57vietnam, firing device, clacker

A faded blue coloured cardboard cover with black information on the front. The top right hand corner reads 7610-66-027-8937. Under the Australian Coat of Arms insignia is the description of the booklet. There are two punch holes and two metal staples down the left hand side.australian military forces, field engineering, mine warfare, firing device, demolitions, combination booby trap

Colour photo of mine devicecolour photo

Three part exhibit featuring mine body, curved block of C4 explosive and firing device. Olive drab in colour and metal composition.Front towards enemy - on mine body. Test set electrical M18. Firing device electrical.m18 claymore mine, sas

Souvenired by Leonard John Young No 3793454 (National Serviceman) John served with the 8th Batt RAR in Malaya for approx 6 months from 1968 to 1969 while training for service in Vietnam. He then served in A Coy 8 RAR Vietnam from 17.11.69 to 25.3.70 returning home then with the rank of L/Cpl as his 2 years service was due to finish..1) Clacker - the ignition system that sets off a claymore mine. .2) Cable - Part of a Claymore mine .3) Bag for carrying ignition system with green canvas carry strap..1) Firing Device Electrical M57arms - mines, military histoyr, claymore, clacker

Assorted firing devices - included are command fired (blue) trip wire devices, various detonators.Command firing device - metal blue colour and three pieces of string, four metal trip switches and several parts and whole metal firing devices (brassy metal )BLUE - Firing device.Pull - Release Tipe ms inery Lot Nonedetonator

A carrying bag to carry the Claymore mine and firing device.

Perspex display featuring sequential firing device for Claymores. The Box Mk2 with green plastic claymore case and photos of Lt. Moose Dunlop and Pte. Lyal Mitchell. An explanation of features and use are also included.claymore mine, lt. moose dunlop, private lyal mitchell

Vietnam eraClaymore anti personnel mine collection consisting of : 00173.1 a replica of the mine proper 00173.2 the standard hand held firing device 00173.3 a sample of shrapnel from an exploded mine 00173.4 carrying bag 00173.5 Australian Army training handbookvietnam, claymore mine, cable

Dial sight used with QF 25 pdr field gun. This delicate device was mounted on a fitting beside the barrel of the gun and used to accurately aim the weapon when firing. This device has an eyepiece and has a circular, rotatable scale ring which is graduated in degrees.ww2, dial sight, sight, 25 pdr, qf 25 pdr, 25 pounder, field gun

Before the introduction of electricity, irons were heated by combustion, either in a fire or with some internal arrangement. An "electric flatiron" was invented by American Henry Seely White and patented on June 6, 1882. It weighed almost 15 pounds (6.8 kg) and took a long time to heat. The UK Electricity Association is reported to have said that an electric iron with a carbon arc appeared in France in 1880, but this is considered doubtful. Two of the oldest sorts of iron were either containers filled with a burning substance, or solid lumps of metal which could be heated directly. Metal pans filled with hot coals were used for smoothing fabrics in China in the 1st century BC. A later design consisted of an iron box which could be filled with hot coals, which had to be periodically aerated by attaching a bellows. In the late nineteenth and early twentieth centuries, there were many irons in use that were heated by fuels such as kerosene, ethanol, whale oil, natural gas, carbide gas (acetylene, as with carbide lamps), or even gasoline. Some houses were equipped with a system of pipes for distributing natural gas or carbide gas to different rooms in order to operate appliances such as irons, in addition to lights. Despite the risk of fire, liquid-fuel irons were sold in U.S. rural areas up through World War II. In Kerala in India, burning coconut shells were used instead of charcoal, as they have a similar heating capacity. This method is still in use as a backup device, since power outages are frequent. Other box irons had heated metal inserts instead of hot coals. From the 17th century, sadirons or sad irons (from Middle English "sad", meaning "solid", used in English through the 1800s[4]) began to be used. They were thick slabs of cast iron, triangular and with a handle, heated in a fire or on a stove. These were also called flat irons. A laundry worker would employ a cluster of solid irons that were heated from a single source: As the iron currently in use cooled down, it could be quickly replaced by a hot one. https://en.wikipedia.org/wiki/Clothes_ironThis iron is typical of the clothes iron used before electric irons superseded it.Salter iron no. 6, painted black but with rust showing through. Salter iron no. 6.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, iron, clothes, laundry

The east end of Nyora bewteen Stokes Place and Reynolds Road was unsealed. This section was only a fire access track as evidenced by the trees growing in the middle of the road. Real Estate agents would advertise homes as down a (dusty) country lane. The Nyora Road Resident Action Group arose to address concerns with Council regarding the dangerous conditions and traffic from outside the area using it as a 'rat-run' to avoid Main Road. Council traffic monitors showed that the amount of traffic was only 20% less than that of Mt Pleasant Road. The Action Group wanted the road closed at reynolds Road however Council elected to install speed calming devices along the sealed section between Stokes Place and Eucalyptus Road. Chicanes were added at several locations and a roundabout installed at Stokes Place in 2004. This remaining dirt section was sealed post 2004.35mm colour positive transparency Mount - Black and Whiteinfrastructure, roads, eltham, nyora road

A Vesta case is a small, portable box / safe to carry matches that came into use around the 1830s and was produced extensively between 1890 and 1920. During this period, almost everyone carried strike-anywhere matches, so they could light stoves, lanterns and other devices. Early matches were unreliable and prone to ignite from rubbing on one another or spontaneously. Accordingly, most people carried a match safe / box to house their matches. Wealthy people had match safes made of gold or silver, while common folk had ones made of tin or brass.C 1900 A small silver vesta case, with a roughened strike plate, to hold matches for lighting fires, lamps, cigarettes or pipes. The tin case has been embossed with a bird and floral design on the front and back Embossed with bird and floral design on the front and back .jewellery, personal effects, craftwork, vesta case, lights, candles, safety matches, moorabbin, brighton, bentleigh, cheltenham, early settlers, pioneers

This rocket launching machine is used in conjunction with the Dennett Rocket Set. Both are part of the rocket rescue equipment that launches the line-throwing rescue rockets. A light line is threaded through the carved holes in the 8 foot long shaft and attached to the scribed channel at the base of the shaft. The rocket head is fitted to the shaft and inserted into the machine. The machine is set at an angle determined by the person in charge of the rescue crew, and the legs and base of the machine are adjusted accordingly with the use of the quadrant, or protractor, and plumb-bob on the side of the machine. The rocket is then ignited and fired across the vessel in distress. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This rocket launcher machine is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Rocket launcher, named a Rocket Machine, and storage box. Launcher has a long open metal channel with a spike at the base, and narrow, rectangular device, which is the line-firing rocket machine, at the top, all painted blue. Two hinged wooden legs are attached where the channel and machine meet. The side of the machine has an oval cut-out window and an attached quadrant, or protractor, with a plumb-bob on it. The quadrant has angles marked in degrees. The long protective box has white stencilled letters along the side. Its lid has three hinges and is fastened with two metal latches.On box “ROCKET MACHINE” On quadrant “10” “20” “30” “40”flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, protractor, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, welsh hand barrow, rocket set

This hand barrow, sometimes called a Welsh hand barrow, was used to transport a load of marine rescue equipment from the beach cart to the rescue site, particularly over hilly, uneven or rough terrain. Hand barrows were in common use in the 19th century. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest them. This hand barrow is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Hand barrow; a transporting device carried between two people walking one in front of the other. A wooden ladder-like frame with two handles at each end, blue painted body with unpainted handles. Seven equal-length slats are joined at equal distance between two parallel poles, and two longer slats are attached diagonally between the first and last slats as a brace. flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, breakwater, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, lifeboat warrnambool, hand barrow, manual transport, welsh hand barrow

In the industrialized world, as stoves replaced open fires and braziers as a source of more efficient and reliable heating, models were developed that could also be used for cooking, and these came to be known as kitchen stoves.  The first manufactured cast-iron stove was produced at Lynn, Mass., in 1642. This stove had no grates and was little more than a cast-iron box. About 1740 Benjamin Franklin invented the “Pennsylvania fireplace,” which incorporated the basic principles of the heating stove. The Franklin stove burned wood on a grate and had sliding doors that could be used to control the draft (flow of air) through it. Because the stove was relatively small, it could be installed in a large fireplace or used free-standing in the middle of a room by connecting it to a flue. The Franklin stove warmed farmhouses, city dwellings, and frontier cabins throughout North America. Its design influenced the development of the pot-bellied stove, which was a familiar feature in some homes well into the 20th century. The first round cast-iron stoves with grates for cooking food on them were manufactured by Isaac Orr at Philadelphia, Pa., in 1800. The base-burning stove for burning anthracite coal was invented in 1833 by Jordan A. Mott. The subject item is a mid to late 19th century settlers stove probably of Canadian manufacture imported into Australia around this time. The stove gives us a social snapshot into what life must have been like for our early colonialists using this device for heating and cooking in their meagre homes. Cast iron stove with four-legs, 2 plates on top and a hinged front door. The door has been cast with a maple leaf design and the sides have a pattern cast into them.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, stove, domestic heating, domestic cooking, heater, cooking unit, pot belly stove, wood fired stove, wood stove

A foghorn is a device that uses sound to warn of navigational hazards like rocky coastlines, or boats of the presence of other vessels, in foggy conditions. The term is most often used with marine transport. When visual navigation aids such as lighthouses are obscured, foghorns provide an audible warning of rocky outcrops, shoals, headlands, or other dangers to shipping. An early form of fog signal was to use a bell, gong, explosive signal or firing a cannon to alert shipping. From the early 20th century an improved device called the diaphone was used in place of these other devices, The diaphone horn was based directly on the organ stop of the same name invented by Robert Hope-Jones, creator of the Wurlitzer organ. Hope-Jones' design was based on a piston that was closed only at its bottom end and had slots, perpendicular to its axis, cut through its sides, the slotted piston moved within a similarly slotted cylinder. Outside of the cylinder was a reservoir of high-pressure air. Initially, this air would be admitted behind the piston, pushing it forward. When the slots of the piston aligned with those of the cylinder, air passed into the piston, making a sound and pushing the piston back to its starting position, whence the cycle would be repeated. This method of producing a low audible sound was further developed as a fog signal by John Northey of Toronto and these diaphones were powered by compressed air produced by an electric motor or other mechanical means that admitted extremely powerful low-frequency notes. The example in the Flagstaff collection is an early cased and portable diaphone used on pleasure or sailing craft. By manually turning the crank handle air is produced and fed into valves that direct air across vibrating metal reeds to produce the required sound. in foggy weather, fog horns are used to pinpoint a vessels position and to indicate how the vessel is sailing in foggy conditions. One blast, when sailing on starboard tack and two blasts, when sailing on a port tack and three dots, when with wind is behind the vessel. Since the automation of lighthouses became common in the 1960s and 1970s, most older foghorn marine installations have been removed to avoid the need to run the complex machinery associated with them, and have been replaced with an electrically powered diaphragm or compressed air horns. The example in the collection is significant as it was used in the early 19th century for sailing vessels was important but these portable crank fog horns have also been superseded by modern electric varieties. Therefore the item has a historical connection with sailing and maritime pursuits from our past.English Rotary Norwegian Pattern nautical foghorn within a boxed pine varnished case with exposed corner dovetailing, original leather carrying strap, brass side crank, and original copper trumped horn. Card accessory with Directions for Use in both English and French.Noneflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, foghorn, maritime technology, maritime communication, marine warning signal, portable foghorn, bellows foghorn, crank handle, robert hope-jones, john northey

A Vesta case is a small, portable box / safe to carry matches and came into use around the 1830s and were produced extensively between 1890 and 1920. During this period, almost everyone carried strike anywhere matches, so they could light stoves, lanterns and other devices. Early matches were unreliable and prone to ignite from rubbing on one another or spontaneously. Accordingly, most people carried a match safe / box to house their matches. Wealthy people had match safes made of gold or silver, while common folk had ones made of tin or brass.c1860 A small tin Japanesque vesta case, with a roughened strike plate, to hold matches for lighting fires, lamps, cigarettes or pipes. The tin case has been embossed with a Japanese type bird design on the front and back and then coated with copper and brass to decorate and highlight different parts of the design.Embossed with a Japanese type bird design on the front and back . jewellery, personal effects, craftwork, vesta case, lights, candles, safety matches, moorabbin, brighton, bentleigh, cheltenham, early settlers, pioneers

The line throwing apparatus has been in use for several centuries, in a wide variety of forms. It initially started off as manually launched lines that had shorter ranges and were not very accurate. They faced problems on wind-powered boats and ships since they were dependent on wind speed, wind direction, and the operator accuracy.Modern-day line throwing apparatus are powered using rockets, pneumatic systems, or slingshot mechanisms. They fall under two main categories of propulsion- pyrotechnic, and pneumatic. Pyrotechnic systems make use of an ignition that is used to launch the line, whereas pneumatic systems make use of built-up pressure. Pyrotechnic systems are volatile and can be extremely dangerous due to accidental ignition. In response to growing concerns about the safety of pyrotechnic systems, pneumatic based launchers were invented and widely implemented in the late 20th century.Yellow line throwing device consisting of a canaster containing rolled rope and a firing mechanismPains-Wessex Speedline International. Pt No 5151-01/02speed line, line throwing, marine rescue, pyrotechnics

Solid fuel stove, with stovetop cooking device, ash tray and oven, with two opening doors. Fire flu at back which extends up the chimney.Lux' on fuel cabinetdomestic items, cooking, stove, lux, fire, kitchen

The Minimax conical fire extinguishers were manufactured until 1960 and then removed from the company’s product range. The earliest model had been produced with a simple handle made of folded pressed metal that is similar if not the same as that on the Point Hicks extinguisher. Later handles were moulded and had more substance to the way they were cut and then folded to form a solid grip. The Point Hicks Minimax extinguisher is an early model that probably dates from the years when these devices were demonstrated across parts of Australia. While numerous examples of the extinguishers survive in public and private collections in northern hemisphere countries, few appear to exist in Australian museum collections. However, the auction house records confirm that some do survive in private collections. The Point Hicks extinguisher was found by lighthouse keepers in 1974 buried in the sand in a flattened but surprisingly intact condition. It was beaten back into its original shape but the body still retains various dents. In 2010, AMSA located the extinguisher at the National Trust’s Polly Woodside historic ship museum and it is now at the Point Hicks Lightstation. The Minimax conical extinguisher has first level contributory significance as a historic item of early fire-fighting equipment from the lightstation that dates from the early twentieth century.Conical shaped brass fire extinguisher painted red with small nozzle at one end and a pump section at the other end. There is a handle on one side with closely spaced rivets down one side. Brass plaque with instructions attached to the body. There ia a square hook to hang the object form a wall or similar." ...ANKS ... / QUENCH.../ FOR FIRE / DRIVE IN PLUNGER / AT BIG END / ...ON GROUND /..../..../..."

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. A sling psychrometer is a simple device for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. When the sling psychrometer is spun rapidly in the air, the evaporation of the water from the wick causes the wet bulb thermometer to read lower than the dry bulb thermometer. After the psychrometer has been spun long enough for the thermometers to reach equilibrium temperatures, the unit is stopped, and the two thermometers are quickly read. A psychrometric scale on the side of the instrument is then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. The thermometers fold back into the plastic handle when not in use. Used to measure temperature and relative humiditySling PsychrometerBACHARACH INSTRUMENTS - Pittsburg PAbushfire, forests commission victoria (fcv)

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. This device is used for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. Once the thermometers to reach equilibrium temperatures the two thermometers are quickly read. The figures are then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. Relative humidity meter in wooden box two stainless steel tubes contain wet and dry thermometers A small clock drives a fan motor in the base to circulate airforests commission victoria (fcv), weather, bushfire

Standard issue item as used by Australian servicemen during the conflict in Vietnam. A plotting board is a mechanical device used as part of a firing control system to track the observed course of a target, project its future position, and derive the azimuth (or direction) and range needed to direct the fire of the guns of a battery to hit that target.White plastic base. A circle marked with grid lines is printed on the base and a vernier for finding azimuth deflections in along top edge. Rotating disc pivots at the centre atop the disc with distances measured radially form 0 at the centre to 3400 metres around the rim range form 0-6400 metres. A scale pivoted at the centre assists in reading distances.Nth and Sth top and bottom on rotating disc. East and West in centre distances in black on outer of disc. Distances in green on inner North, South, East, West. Varn W left bottom of disc. varn E on right bottom of disc.plotting board, m16

These mid-1960s Peacock and Gold brand lighter fuel hand warmers were used in Falls Creek to keep out the cold. The concept behind the hand warmer is that through combustion (ignition) of lighter fluid (light petrol distillate) it becomes a catalytic heater, relying on a catalysed chemical reaction to break down molecules and create heat. The devices could get quite hot, not hot enough to set paper on fire, but hot enough to give a nasty burn if sustained contact against your skin occurred. The construction of the device is very simple. There is very fine rolled wire mesh which fits on top of the reservoir body. After you fill the reservoir with lighter fluid, vapor pressure builds up. The device ignites by heating the grill with a match or lighter until it glows red. There is no open flame. The hand warmer also had a velvet bag to place it in after igniting to prevent direct skin contact. They were able to generate heat for up to a whole day. The Japanese company Yamato Shokai Ltd was founded in 1923 in the city of Osaka. Destroyed during air raids in 1945, the factory was rebuilt in 1946. They manufactured the Peacock brand pocket-warmer and sold it internationally.These items are significant because they were commonly used at Falls Creek.The pocket warmer is a small, relatively flat device with a tank at the bottom and a burner mechanism a t the top. "PEACOCK/MADE IN JAPAN" is engraved near the burner. The warmer fits into a metal case which features a series of ventilation holes in the shape of a peacock's tail. JAPANESE PAT. 237413.483177 MADE IN JAPANhand warmers, ski equipment 1960s

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

Used to prepare fuel samples to measure their moisture content. Representative samples of fine fuel such as bark, leaves, twigs etc were minced first through a course mincing plate, then a fine plate and the moisture content measured with a Speedy moisture meter or other device. The availability of fuel to burn depends largely on its moisture content. When it exceeds 20-25% not much will burn, whereas 12-15% is generally ideal for fuel reduction burning, but if the moisture content drops as low as 7-10% virtually everything will ignite, and fire behaviour becomes extreme. During the afternoon of the Ash Wednesday bushfires on 16 February 1983 fuel moisture contents were recorded at Stawell as low as 2.7%. Fine fuels like leaves and bark can rapidly absorb moisture after a shower of rain, or from the air when the Relative Humidity (RH) is high, and the temperature is low. Conversely, they can also dry out very quickly. So even though the overall fuel quantity in the forest doesn’t change, the fine fuel availability can increase rapidly from zero after rain to many tonnes per hectare as the fuel dries out. This can happen over a few hours on hot and windy days. Heavy fuels like logs on the ground take longer to dry out. Spong No 10 food mincerforests commission victoria (fcv), bushfire, forest measurement