8479.1 - Metal cylinder with cotton wick encased in glass and a curl of metal for a handle. N. B. C. C.

Safety lamp made for underground miners to replace naked flame lightingUsed in underground mining in Ovens or Buckland mining districtsmetal and glass oil powered lamp(partly obscured on glass) BRITISH MFP. ( on brass) 3BB BOSS ( on screw off base) 56 and 10mining, lamp, oil, safety, kerosene, underground

Used by miners at SCM to test for gas.Davey Safety Lampon side: EP 82

Blue soft covered book.duncan gillies, mining, safety cages, timbering in mines, ballarat minin district, statistics, chinese, fossil plants, wolf's miners' safety lamp, thorneburry safety lamp, wood's point, clunes, chiltern valley, underground survey, wire ropes, ballarat, warrenheip, dowling forest

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

This lamp is typical of lamps used in Welsh Coal Mines. It was purchased from the supplier around mid 1995. The Welsh Miners’ Lamps were ingeniously designed over 180 years ago to alert coal miners to danger. It ensures the burning of a protected flame in the presence of explosive gas, by regulating the necessary supply of atmospheric air, and by allowing the products of combustion to pass through without igniting the gaseous atmosphere. If the atmosphere is so heavily charged that noxious gas enters the lamp, its presence will be indicated by a change in the length and color of the flame, and (unless there are exceptional circumstances), the miner has sufficient warning to secure his safety. (http://www.welshminerslamps.com/info_lamp_personaluse.shtml, accessed 06/05/2015) E. Thomas & Williams, Ltd. mining lamps have been in continuous production since 1860. Cambrian Lamps are approved for use in coal mines where methan gas and oxygem deficinecy are hazards.Solid Brass traditional miners Flame Safety Lamp with Copper Chimney. The base of this lamp is tooled from solid brass because brass does not spark when it hits rock and is therefore the safest metal to use underground. The lamp burns lamp oil (kerosene). R. Thomas and Williams Ltd Makers Aberdare Wales Cambrian No 152897mining lamp, miner's lamp, thomas and williams, wales, welsh, welsh miners lamp, mining, cambrian lampworks, miners flame safety lamps

Booklet about the Edison Model J Miners Electric Safety Cap Lamp. Small booklet with black and blue text, appears to be the manual for the lamp (SCM 0004)

This helmet worn by SEC Victoria workers in the Kiewa Hydro Electricity Scheme is a mandatory safety requirement by all personnel employed by government and statutory agencies who worked on or around "dangerous" apparatus or underground location sites. This type of pressed fibre helmet was later superseded by moulded plastic helmets. The start of the project (late 1940's) was not greatly covered by later introduced health and safety regulations. This has been demonstrated by photos of workmen outside using heavy machinery and other apparatus, see KVHS 0396, KVHS 0405 and KVHS 0392. However in the tunnels and underground safety helmets were mandatory, see KVHS 0403.This safety helmet was used by workers during construction of the generators and tunnels of the Kiewa Hydro Scheme was issued once only to each worker during his employment covering the 1940's to 1960's period. The attitude to health and safety during this period, can be summed up by this "initiation" ritual. When the helmet had been instrumental in saving a bad accident to a worker, that worker would be "invested" into the "Turtle Club". Although a safety helmet was only issued once to a worker this changed when modern moulded plastic helmets and greater Health and Safety requirements were introduced. Helmets now are replaced bi-annually.This safety helmet is made from pressed fibres with eyelets for airflow to the head. On the base of the helmet (before the rim) are 15 metal eyelets and three quarters up are six other eyelets (3 on each side). A thick leather strap is fastened by two rivettes to the main helmet. This strap has a metal bar rivetted on to affix a "safety" lamp, for underground work (Tunneling). There are two additional metal prongs and a metal bar to secure the lamp on the rim of the front of the helmet.sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth

Used in S.C.M by an unknown minerStainless steel battery case, black lead to lamp fitting. See (SCM 0938) for printed manual.On front of lamp fitting " EDISON SAFETY LAMP MFD. BY THOMAS A. EDISON. INC. WEST ORANGE. N.J. UNITED STATES OF AMERICA" On top of battery case "EDISON" The side of the top of the battery case has "365" stamped on it showing that it was not the original top. The battery case has "M78". Side of battery has the "Thomas A Edison" seal. Below that reads "MODEL J CAP LAMP Approved Under Lighting Schedule Approval issued to THOMAS A EDISON CAUTION The battery and headpiece housings shall not be unlocked or opened by the lamp user."

This container of 11 boxes of safety matches would have been a common item in a household during the first half of the 20th century and would have been used for the safe lighting of lamps, candles, room heating (fires), bath heaters, cigarettes, pipes etc. Safety matches came into use in the first half of the 19th century and the safety aspects have been improved after that time. Safety matches are still used today - for instance, when camping or in times of power failure. These matches are of interest as an example of household items in common use in the past. These are eleven boxes of safety matches (one box missing) wrapped in a buff-coloured paper cover with a label in red, blue and white colours with printing and an image of a dark-haired woman set against a white flame. Each box contains about 60 matches with a label similar to the one on the outside packaging. The matches are wooden with pink tips. The boxes have a rough surface on the side acting as a striking mechanism. The back of each box has a message containing some thoughts from thinkers and philosophers from the past.Ever-Brite Safety Matchesvintage lighting, safety matches, everbrite matches

Bryant and May was a United Kingdom (UK) company created in the mid-nineteenth century specifically to make matches. Their original Bryant and May Factory was located in Bow, London. They later opened other match factories in the United Kingdom and Australia, such as the Bryant and May Factory, Melbourne; and owned match factories in other parts of the world.Bryant and May survived as an independent company for over seventy years, but went through a series of mergers with other match companies and later with consumer products companies. To protect its position Bryant and May merged with or took over its rivals. In 1971 the Northern Ireland factory, Maguire & Patterson closed down following a terrorist attack.. In the 1980s, factories in Gloucester and Glasgow closed too leaving Liverpool as the last match factory in the UK, until December 1994. The former Australian match factory, in Melbourne, closed in the mid-1980s. The registered trade name Bryant and May still exists and it is owned by Swedish Match, as are many of the other registered trade names of the other, formerly independent, companies within the Bryant and May group. The British match brands continue to survive, as brands of Swedish Match, and are made outside the UK. Matches were first produced by Bryant & May in Australia in 1909. The Redhead name applies to the red striking heads of the matches which were introduced to Australia in 1946. The logo on the matchbox depicted the head and shoulder of a redheaded woman and has had four major updates since that time with a number of special issues depicting animals, birds and notable persons also producedThe Bryant & May Ltd factory in Church St Richmond is a listed building and has been converted to apartments following the closure of the Company 1980. Bryant & May's Ltd were influential in fighting against the dreadful disease known as Phossy jaw which was caused by white phosphorus used in the manufacture of the early matches. They were also the object of the 'Match Girls Strike' in London 1888, which won important improvements in working conditions and pay for the mostly female workforce working with the dangerous white phosphorus. The public were slow to purchase these safety matches because of the higher price .A box of safety matches with unused matches made by Bryant & May Pty Ltd , Richmond Victoria Australia. The tray containing the matches slides inside the open ended cover.. The striking patch is on both sides of the cover.PREVENT FIRES/ BRYANT & MAY'S / a crown in an oval shape / SAFETY MATCHES/ MOTORISTS USE ASHTRAY/ AV. CONTENTS 60 / Made in Australiasafety matches, bryant & may's pty ltd, phosy jaw disease, early settlers, moorabbin, bentleigh, richmond, cheltenham, lights, lamps, tobacco

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

‘Strike anywhere’ or ‘Waterproof’ matches are still used today all around the world, including many developing countries and are widely used for camping, outdoor activities, emergency/survival /military situations, and stocking homemade survival kits. Anton Schrötter von Kristelli discovered in 1850 that heating white phosphorus at 250 °C in an inert atmosphere produced a red allotropic form, which did not fume in contact with air. It was suggested that this would make a suitable substitute in match manufacture although it was slightly more expensive. Two French chemists, Henri Savene and Emile David Cahen, proved in 1898 that the addition of phosphorus sesquisulfide meant that the substance was not poisonous, that it could be used in a "strike-anywhere" match, and that the match heads were not explosive. British company Albright and Wilson, was the first company to produce phosphorus sesquisulfide matches commercially. The company developed a safe means of making commercial quantities of phosphorus sesquisulfide in 1899 and started selling it to match manufacturers. Bryant and May was a United Kingdom (UK) company created in the mid-nineteenth century specifically to make matches. Their original Bryant and May Factory was located in Bow, London. They later opened other match factories in the United Kingdom and Australia. On 15th December 1909, Bryant & May, Australia’s first match factory at Church Street, Richmond, Victoria. was opened by The Honorable Alfred Deakin, Prime Minister of Australia, and Mrs. Deakin The Bryant & May Ltd factory in Church St Richmond is a listed building and has been converted to apartments following the closure of the Company 1980. Bryant & May's Ltd were influential in fighting against the dreadful disease known as Phossy jaw which was caused by white phosphorus used in the manufacture of the early matches. They were also the object of the 'Match Girls Strike' in London 1888, which won important improvements in working conditions and pay for the mostly female workforce working with the dangerous white phosphorus. The public were slow to purchase these red phosphorus sesquisulfide safety matches because of the higher price1 box of unused Bryant & May safety matches 'Greenlite' waterproof Greenlites / waterproof / matches / CONTENTS 47 / MADE IN AUSTRALIA BY BRYANT & MAY / E 2994 photograph of a man and woman beside a camp fire on the beachsafety matches, bryant & may pty ltd, phossy jaw disease, early settlers, moorabbin, bentleigh, cheltenham, lights, lamps, tobacco, white phosphorous, red, phosphorus sesquisulfide, swedish match pty ltd, pitt william, savens henri, cahen emile david , richmond victoria,

On 15th December 1909, Bryant & May, Australia’s first match factory at Church Street, Richmond, Victoria. was opened by The Honourable Alfred Deakin, Prime Minister of Australia, and Mrs. Deakin. It was heralded by the first Commonwealth Government of newly-federated Australia because the government of the day was anxious to encourage secondary industry and pledged tariff protection of local manufacturers. The building was constructed in 1909 as the Empire Works to a design by prolific Melbourne architect William Pitt and was purchased soon after by British safety match manufacturer Bryant and May, who significantly expanded the building, adding another level and the landmark clock tower. Bryant and May were unique in that they operated as a model factory, providing workers with conditions and amenities that even today seem generous. These included a dining hall and sports facilities such as a tennis court and bowling green which were constructed in the 1920s. Bryant and May ceased Australian match manufacture in the early 1980s as a result of import competition. Their iconic Redheads matches are now imported from Sweden. The complex has since been converted for use as offices and showrooms but is extremely well preserved. It is listed on the Victorian Heritage Register. Bryant and May was a United Kingdom (UK) company created in the mid-nineteenth century specifically to make matches. Their original Bryant and May Factory was located in Bow, London. They later opened other match factories in the United Kingdom and Australia, such as the Bryant and May Factory, Melbourne; and owned match factories in other parts of the world. Bryant and May survived as an independent company for over seventy years, but went through a series of mergers with other match companies and later with consumer products companies. To protect its position Bryant and May merged with or took over its rivals. In 1971 the Northern Ireland factory, Maguire & Patterson closed down following a terrorist attack.. In the 1980s, factories in Gloucester and Glasgow closed too leaving Liverpool as the last match factory in the UK, until December 1994. . The registered trade name Bryant and May still exists and it is owned by Swedish Match, as are many of the other registered trade names of the other, formerly independent, companies within the Bryant and May group. Two French chemists, Henri Savene and Emile David Cahen, proved in 1898 that the addition of phosphorus sesquisulfide meant that the substance was not poisonous, that it could be used in a "strike-anywhere" match, and that the match heads were not explosive. British company Albright and Wilson, was the first company to produce phosphorus sesquisulfide ( Red Phosphorous) matches commercially. The company developed a safe means of making commercial quantities of phosphorus sesquisulfide in 1899 and started selling it to match manufacturers. Matches were first produced by Bryant & May in Australia in 1909. The Redhead name applies to the red striking heads of the matches which were introduced to Australia in 1946. The logo on the matchbox depicted the head and shoulder of a redheaded woman and has had four major updates since that time with a number of special issues depicting birds, animals and notable persons also produced.The Bryant & May Ltd factory in Church St Richmond is a listed building and has been converted to apartments following the closure of the Company 1980. Bryant & May's Ltd were influential in fighting against the dreadful disease known as Phossy jaw which was caused by white phosphorus used in the manufacture of the early matches. They were also the object of the 'Match Girls Strike' in London 1888, which won important improvements in working conditions and pay for the mostly female workforce working with the dangerous white phosphorus. The public were slow to purchase these safety matches because of the higher price .A box of safety matches with unused matches made by Bryant & May Pty Ltd , Richmond Victoria Australia. The tray containing the matches slides inside the open ended cover.. The striking patch is on both sides of the cover. Av. CONTENTS 50 MADE IN AUSTRALIA / Brymay / 1/3 / Safety Matches / Redheads / a colour picture of a Kookaburra / Laughing KOOKABURRAsafety matches, bryant & may pty ltd, phossy jaw disease, early settlers, moorabbin, bentleigh, cheltenham, lights, lamps, tobacco, white phosphorous, phosphorus sesquisulfide, swedish match pty ltd, pitt william, savens henri, cahen emile david , richmond victoria,

This transformer lamp system, which has a dial to transform 240 volts to a minimum of 32 volts was used by electrical technicians to inspect internal parts of the large generators (even in small confined spaces). The reason for the reduction of the 240 volts to the 32 volts was for the safety of the inspector. The SEC Victoria Hydro Scheme's electrical generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this the point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This hydro scheme was instigated by "the Government of the day" as a bold move and was the major force of the World War II refugee and "technical" workforce inclusion of skilled and unskilled migration into the Australian environment. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual multi-cultural diversity of later years.This transformer lamp is very significant to the Kiewa Valley as it was introduced as a very small part of the explosion of human resources into the valley. This influx of population transformed the region from that of a basically quiet rural region to one which evolved into both industrial and larger residential community. This evolution in the valley created a change, not only in the "physical" landscape but also the socio-economic expansion which permitted other "tourist" based industries into the valley. This is also a specific electronic item which was manufactured in Melbourne and not sourced from Europe or Asia. This demonstrates the fast evolution of Australian technology to a high standard compatible to that of the rest of the world.This heavy hand held electrical transformer (transforms 240 volts to 32 Volts) an has one leather handle on the top with three small (gauze filtered) air holes. It also has two 2 pin directional cable distribution (clipsal) in/out points 10amps / 240 volts. There is one glassed in volts/ac meter and one variable switch (180 to 150 voltage in settings of 10 volt increments.There are two vents (one on each of the smaller sides). There is also one three pin electrical lead coming out from the top.On one side is a manufacturer's plaque with "ELECTRONIC A & R EQUIPMENT MELBOURNE" and underneath "TYPE 1719, PRI V. 180 250" underneath "V.A. 1250" underneath "CYC 50" underneath "SEC V. 115" underneath "SEC A. 10 . 8". The label on topside "CAUTION SET SWITCH TO 250 v BEFORE CONNECTING TO MAINS THEN, WITH EQUIPMENT OPERATING, SET METER TO RED LINE.kiewa hydro electricity scheme, victorian state electricity commission, transformers

Originally these mantles where produced to be used in gas street lights in Europe and North America cities.There use started in 1891. These mantles were used before electrical power street lighting was installed. They have been used ever since until safety concerns regarding radiation from their thorium infused particles made alternate mobile lamps more attractive. The age of open flame recreational lighting is fast coming to a close. The greater use of battery and generator powered lighting(ease of operation) has brought the costing of these alternative lighting to an acceptable level. The age of miniaturisation and volatility of the open flame has seen a greater swing to smaller and more stable lighting. These incandescent gas mantles were initially used in the Coleman White Gas LanternsThe Kiewa Valley, with its closeness to the Victorian Alps, allows greater opportunity for the "happy" campers to enjoy the outdoors. The lighting provided by the incandescent gas lamps allow the adventurer at heart to enjoy an alternative lifestyle and still having the comforts of "home" at their finger tips. The numerous camping facilities in the Kiewa Valley and the upper alpine region is testament that those living in the cities need a break from the day to day grind and go to a quieter and more spiritual environment. Artificial lighting, as provided by mobile apparatus, is highly valued by the urban gypsy. The outdoor recreational industry has significantly provided for, if only at holiday time, an industry that has a relatively high employment rate and beneficial to local communities.The gas mantle is in a fabric, pear shaped, of rayon fabric impregnated with cerium. It's appearance is similar to a very small fishing net. The fabric is very ply-able until it is heated by an open flame then it becomes more rigid and lets out an incandescent white light. Its colour is white to off white. It has a draw string fastened a t the bottom (to wrap around the flame source)lighting, gas, heating, camping, outdoor equipment lamp

William Thomas George was born in Birmingham in 1884 and was a tin plate worker. He and his wife Ellene had a son Leslie Thomas George. The firm W T George & Co was formed sometime later. In 1939 his firm produced ship lamps. The Patent Number GB546575 on the lamp's plate was assigned to Leslie Thomas George in 1941 for improvements in, or relating to, ships' lanterns. From that time the patent number was affixed to their namufactured Meteorite lights. The ship navigation lamp is important as an example of the evolution of marine safety technology. Countries began passing laws and regulations in the 1830s that required ships to show navigation lights at night or in poor weather. From the late 1840s colours were standardised; red for portside of the vessel and green for starboard, a white masthead light, and a white light at anchor. By 1914 the International Convention for the Safety of Life at Sea was formed and continues, with decisions and notifications on improvements and changes.. Lamp; Portside ship's lamp is rounded in the front with two flat sides coming to a point at the rear. Glass has circular ridging. Metal handle with lid and clasp. The reflector has red colouring. Inscribed on fixed plates on the front, with maker's details and Patent number. This Meteorite lantern was made by W T George and Co Ltd, of Birmingham. "Port" "W T George and Co Ltd" "Sherlock Street Birmingham" "Meteorite 68990 Patented No 546575 and others pending"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, portside ships lamp, portside, port lamp, ship's lamp, marine lamp, navigation lamp, w t george & co, coloured lens, red lens, ship fitting, marine technology, navigation light, signal lamp, leslie thomas george, gb546575, patent gb546575, meteorite, lantern, lamp, light

Before the introduction of electricity, lighthouses had a clockwork mechanism that caused the lens to rotate with a light source inside that was either powered by Kerosene or Colza oil. The mechanism consisted of a large weight attached by a cable through the centre of the lighthouse to the top where the cable wrapped around a barrel, drum or wheels that controlled the speed of the lights rotation by a clockwork mechanism. The keeper would crank the clockwork mechanism, which would lift the weight ready for the next cycle similar to an old grandfather clock mechanism. Once the weight lifted to its apex at the bottom of the first landing, the keeper would let it fall, which would pull on the cable, which would, in turn, operate a series of gears activating the rotation of the Fresnel optical lens, which would then rotate to create the lighthouse’s unique light speed of rotation characteristic. Creating a specific characteristic required a way to regulate the speed of the rotation, and was important as sailors could identify a particular light by its speed and time between flashes. The weight had to fall at a certain rate to create the proper rotation speed of the lens and a regulator within the mechanism accomplished this. History: From 1851, Chance Brothers became a major lighthouse engineering company, producing optical components, machinery, and other equipment for lighthouses around the world. James Timmins Chance pioneered placing lighthouse lamps inside a cage surrounded by Fresnel lenses to increase the available light output these cages, are known as optics and they revolutionised lighthouse design. Another important innovation from Chance Brothers was the introduction of rotating optics, allowing adjacent lighthouses to be distinguished from each other by the number of times per revolution the light flashes. The noted English physicist and engineer, John Hopkins invented this system while employed at Chance Brothers. Chance Brothers and Company was a glass works and originally based in Spon Lane, Smethwick, West Midlands England. The company became a leading glass manufacturer and a pioneer of British glass making technology. The Chance family originated in Bromsgrove as farmers and craftsmen before setting up a business in Smethwick near Birmingham in 1824. They took advantage of the skilled workers, canals and many other industrial advances taking place in the West Midlands at the time. Robert Lucas Chance (1782–1865), known as 'Lucas', bought the British Crown Glass Company's works in Spon Lane in 1824. The company specialised in making crown window glass, the company ran into difficulty and its survival was guaranteed in 1832 by investment from Chance's brother, William (1788 – 1856). William owned an iron factoring business in Great Charles Street, Birmingham. After a previous partnership that Lucas had dissolved in 1836, Lucas and William Chance became partners in the business which was renamed, Chance Brothers and Company. Chance Brothers invented many innovative processes and became known as the greatest glass manufacturer in Britain. In 1848 under the supervision of Georges Bontemps, a French glass maker from Choosy-le-Roi, a new plant was set up to manufacture crown and flint glass for lighthouse optics, telescopes and cameras. Bontemps agreed to share his processes that up to then had been secret with the Chance Brothers and stayed in England to collaborate with them for six years. In 1900 a baronetcy was created for James Timmins Chance (1814–1902), a grandson of William Chance, who had started the family business in 1771 with his brother Robert. Roberts grandson, James became head of Chance Brothers until his retirement in 1889 when the company became a public company and its name changed to Chance Brothers & Co. Ltd. Additional information: Lighthouses are equipped with unique light characteristic or flashing pattern that sailors can use to identify specific lighthouses during the night. Lighthouses can achieve distinctive light characteristics in a few different ways. A lighthouse can flash, which is when brief periods of light interrupt longer moments of darkness. The light can occult, which is when brief periods of darkness interrupt longer moments of light. The light can be fixed, which is when the light never goes dark. A lighthouse can use a combination of flashing, oscillating, or being fixed in a variety of combinations and intervals to create individual light characteristics. It is a common misconception that a lighthouse's light source changes the intensity to create a light characteristic. The light source remains constant and the rotating Fresnel lens creates the various changes in appearance. Some Fresnel lenses have "bulls-eye" panels create beams of light that, when rotated between the light and the observer, make the light appear to flash. Conversely, some lenses have metal panels that, when rotated between the light and the observer, make the light appear to go dark. This Dioptric clockwork apparatus used to turn a lighthouse optical lens is very significant as it is integral to a lighthouses operation, we can also look at the social aspect of lighthouses as being traditionally rich with symbolism and conceptual meanings. Lighthouses illustrate social concepts such as danger, risk, adversity, challenge and vigilance but they also offers guidance, salvation and safety. The glowing lamp reminds sailors that security and home are well within reach, they also symbolize the way forward and help in navigating our way through rough waters not just on the oceans of the world but in our personal lives be it financial, personal, business or spiritual in nature. Nothing else speaks of safety and security in the face of adversity and challenge quite the way a lighthouse does. Revolving dioptric clockwork apparatus used to turn a Fresnel optical lighthouse lens. A cylindrical cast metal pillar and cabinet painted green with 3 glass doors enclosing the top section. Inside the pillar/cabinet is a large clockwork mechanism used to turn and regulate a lighthouse light by means of weights and a chain attached to same. One door has the name "Adams Mare" in metallic dots similar to "Braille" to the inside edge of door frame.shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, flagstaff hill, maritime-museum, shipwreck-coast, warrnambool, flagstaff-hill-maritime-village, revolving dioptric mechanism, dioptric mechanism for lighthouse, lighthouse clockwork timing mechanism, acetylene lighthouse light mechanism, 19th century lighthouse mechanism, kerosene light, fresnel lenses, colza oil, chance brothers

This is a current example of the 'Redhead' logo used by Bryant & May Ltd Richmond,Victoria, Australia c 1946 - 1980 On 15th December 1909, Bryant & May, Australia’s first match factory at Church Street, Richmond, Victoria. was opened by The Honourable Alfred Deakin, Prime Minister of Australia, and Mrs. Deakin. It was heralded by the first Commonwealth Government of newly-federated Australia because the government of the day was anxious to encourage secondary industry and pledged tariff protection of local manufacturers. The building was constructed in 1909 as the Empire Works to a design by prolific Melbourne architect William Pitt and was purchased soon after by British safety match manufacturer Bryant and May, who significantly expanded the building, adding another level and the landmark clock tower. Bryant and May were unique in that they operated as a model factory, providing workers with conditions and amenities that even today seem generous. These included a dining hall and sports facilities such as a tennis court and bowling green which were constructed in the 1920s. Bryant and May ceased Australian match manufacture in the early 1980s as a result of import competition. Their iconic Redheads matches are now imported from Sweden. The complex has since been converted for use as offices and showrooms but is extremely well preserved. It is listed on the Victorian Heritage Register. Bryant and May was a United Kingdom (UK) company created in the mid-nineteenth century specifically to make matches. Their original Bryant and May Factory was located in Bow, London. They later opened other match factories in the United Kingdom and Australia, such as the Bryant and May Factory, Melbourne; and owned match factories in other parts of the world. Bryant and May survived as an independent company for over seventy years, but went through a series of mergers with other match companies and later with consumer products companies. To protect its position Bryant and May merged with or took over its rivals. In 1971 the Northern Ireland factory, Maguire & Patterson closed down following a terrorist attack.. In the 1980s, factories in Gloucester and Glasgow closed too leaving Liverpool as the last match factory in the UK, until December 1994. . The registered trade name Bryant and May still exists and it is owned by Swedish Match Industries as are many of the other registered trade names of the other, formerly independent, companies within the Bryant and May group. Two French chemists, Henri Savene and Emile David Cahen, proved in 1898 that the addition of phosphorus sesquisulfide meant that the substance was not poisonous, that it could be used in a "strike-anywhere" match, and that the match heads were not explosive. British company Albright and Wilson, was the first company to produce phosphorus sesquisulfide ( Red Phosphorous) matches commercially. The company developed a safe means of making commercial quantities of phosphorus sesquisulfide in 1899 and started selling it to match manufacturers. Matches were first produced by Bryant & May in Australia in 1909. The Redhead name applies to the red striking heads of the matches which were introduced to Australia in 1946. The logo on the matchbox depicted the head and shoulder of a redheaded woman and has had four major updates since that time with a number of special issues depicting animals, birds and notable persons also producedThe Bryant & May Ltd factory in Church St Richmond is a listed building and has been converted to apartments following the closure of the Company 1980. Bryant & May's Ltd were influential in fighting against the dreadful disease known as Phossy jaw which was caused by white phosphorus used in the manufacture of the early matches. They were also the object of the 'Match Girls Strike' in London 1888, which won important improvements in working conditions and pay for the mostly female workforce working with the dangerous white phosphorus. The public were slow to purchase these safety matches because of the higher price An empty box of 'Redheads' safety matches made in Sweden for ST-Group, Springvale, Victoria, Australia c2015. The tray for the matches slides inside the open ended cover. The striking patch is on both sides of the cover. The matches have been removed. Matches were first produced by Bryant & May in Australia in 1909. The Redhead name applies to the red striking heads of the matches which were introduced to Australia in 1946. The logo on the matchbox depicted the head and shoulder of a redheaded woman and has had four major updates since that time with a number of special issues depicting animals, birds and notable persons also produced. Bryant and May ceased Australian match manufacture in the early 1980s.Top of cover ; Redheads / 45 safety / matches . Logo ; head & shoulders of a female with red hair Base of coverMade in Sweden / Redheads (R) is proudly marketed / by ST- Group Australia. / 718 Princes Highway Springvale Vic. 3171 / .............../ Readheads is a registered trademark / of Swedish Match Industries AB. / Complies ith European / Match Standard EN 1783-1997-SAF/ WARNING; / KEEP OUT OF REACH / OF CHILDREN. STRIKE / GENTLY AWAY FROM BODY . / barcode.redheads safety matches, safety matches, bryant & may pty ltd, phossy jaw disease, early settlers, moorabbin, bentleigh, cheltenham, lights, lamps, tobacco, white phosphorous, phosphorus sesquisulfide, swedish match pty ltd, pitt william, savens henri, cahen emile david , richmond victoria, match girls strike 1888,

A blowtorch is a fuel-burning tool used for applying flame and heat to various applications, usually metalworking. Early blowlamps used liquid fuel, carried in a refillable reservoir attached to the lamp. Modern blowtorches are mostly gas-fuelled. Their fuel reservoir is disposable or refillable by exchange. The term "blowlamp" usually refers to liquid-fuelled torches still used in the UK. Liquid-fuelled torches are pressurized by a piston hand pump, while gas torches are self-pressurized by the fuel evaporation. In 1882, a new vaporizing technique was developed by C. R. Nyberg in Sweden, and the year after, the production of the Nyberg blow lamp started. It was quickly copied or licensed by many other manufacturers. The US blowlamp was independently developed with a distinctive flared base and was fuelled by gasoline, whereas the European versions used kerosene for safety and low cost.The family of Mr Howcroft were early settlers in Moorabbin ShireA brass blow-torch B.A. HJOP Co. STOCKHOLM SWEDENblowtorch, stockholm sweden, welding, moorabbin, cheltenham, bentleigh, early settlers

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 lamp glass was recovered from the wreck of the Falls of Halladale. It was blown into a mould, as evidenced by ripples in the base of the glass. The frosted inside area is likely to be from abrasive sediment inside the glass on the sea bed. The encrustations has also come from the sea. 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 in 1886 by Russell & Co., at Greenock shipyards on the River Clyde, Scotland for Wright, Breckenridge & 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 around the world and representing aspects of Victoria’s shipping industry. Lamp glass, scalloped pattern around top lip, bulbous body. Slight encrustation on body. Glass has ripples in base area. Inside body is opaque in about a 1/5 ofr the area.flagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, falls of halladale, glass, russell & co., wreck, artifact, lamp glass, kerosene lamp, lighting

NSWTD Railway Marker OIl lamp, No.1 RA Oil burning lamps have always been an important part of Australian railway signalling systems and have been used for communication, safety and lighting. It is called a marker lamp and was hung on rolling stock (carriages and wagons) such as the guard’s van to indicate the rear of the train at night. They were also used to indicate the rear of steam locomotive tenders for identification and safety purposes. This type of lamp was introduced to the railways around 1860 and continued to be used for over one hundred years. Oil lamps were phased out on the railways during the late 1960s and early 1970s, when they were replaced by battery lamps. Railway lighting included not only stations but yards, engines, rolling stock, signals, signal-boxes and crossings. There were a number of different types of lamps used for a variety of railway purposes. Historic - New South Wales Transport Department.- Railway Marker Oil Lamp NSWTD Railway Marker lamp, No.1 RA made of metal and Glass Railway lamp, paraffin, metal/glass/fabric, used for attaching to railway rolling stock to mark the end of the train, made by the New South Wales Transport Department, Sydney, New South Wales, Australia, 1870 - 1970 This lamp comprises a hollow cube of metal. One lens at the front transmits light from an interior light source. Fuel was either signal oil or kerosene. The burner inside the lamp used either cotton or felt wicks to create the light source. The lamp has a carry handle for carrying by hand and a bracket with a slot on the back for hanging onto the hook of a locomotive or item of rolling stock. It is marked "NSWTD" which stands for New South Wales Transport Department.NSWTD 1 RApuffing billy railway , pbr, nswtd railway marker oil lamp, no.1 ra

Four NSWTD Railway marker Oil lamps at Nobelius Packing shed Item stamped numbers unknown Oil burning lamps have always been an important part of Australian railway signalling systems and have been used for communication, safety and lighting. It is called a marker lamp and was hung on rolling stock (carriages and wagons) such as the guard’s van to indicate the rear of the train at night. They were also used to indicate the rear of steam locomotive tenders for identification and safety purposes. This type of lamp was introduced to the railways around 1860 and continued to be used for over one hundred years. Oil lamps were phased out on the railways during the late 1960s and early 1970s, when they were replaced by battery lamps. Railway lighting included not only stations but yards, engines, rolling stock, signals, signal-boxes and crossings. There were a number of different types of lamps used for a variety of railway purposes. Historic - New South Wales Transport Department.- Railway Marker Oil LampFour NSWTD Railway marker Oil lamps made of metal and glass Railway lamp, paraffin, metal / glass / fabric, used for attaching to railway rolling stock to mark the end of the train, made by the New South Wales Transport Department, Sydney, New South Wales, Australia, 1870-1970 This lamp comprises a hollow cube of metal. One lens at the front transmits light from an interior light source. Fuel was either signal oil or kerosene. The burner inside the lamp used either cotton or felt wicks to create the light source. The lamp has a carry handle for carrying by hand and a bracket with a slot on the back for hanging onto the hook of a locomotive or item of rolling stock. It is marked "NSWTD" which stands for New South Wales Transport Department.NSWTDpuffing billy railway , pbr, four nswtd railway marker oil lamps

Set of two drawings (BA-T8-8100/1 and BA-T8-8100B) showing the installation of tail lights on SEC tramcars and modifications to the battery/trolley pole relay and battery. Both are dated 15/11/1949 and signed by the Manager Ballarat Branch. The actual relay used later was a Post Office type relay contained within a wooden box.Yields information about the modifications proposed to the tramcars to provide a rear tail light and lights when at a terminus.Drawing - dyeline print on plain papertramcars, safety, tail lights, lights, ballarat