This type of cast iron kettle was used by pioneer families, mainly rural in the early 1900's upon open fires. It provided a source of boiling water, in or mainly outside the kitchen of homesteads. Early homes often had an open fire containing a fountain, buckets and kettles that hung from a hook in the fireplace. These containers supplied hot water for cooking, washing and cups of tea. The fountain was placed on hob until needed and then hung over fire.This water fountain would have been used by early settlers in Orbost before the connection of electricity.A large cast iron water fountain. It has a hook on the curved swinging handle and a tap at the front. This large cast iron camp pot or cauldron has a long tap connection located at the bottom end at the front. The tap has a simple control swivel at the end to control the water flow.On lid 1934.1 - 3 to 4 On base 1934.2 - A. Kenrick & Sons 4 Gallskettle cast-iron kenrick domestic kitchen

Megger as the device was called, is in fact its brand name. It is a device that supplies a DC (direct current as per car batteries) voltage to enable testing of electrical apparatus. This particular device produces 250volts DC when the handle is turned vigorously. If an electrical device, such as a kettle or toaster, blew a fuse or tripped a circuit breaker, when switched on, then it must be checked electrically before any more use. Following the repair of the faulty item a megger would be used to check if either of the AC 240volt plugs leads were touching the metal case (earth). The output leads of the megger would be connected with one to the earth (metal case) and the other to each of the power connections in turn. A good megger reading of 50,000 ohms (resistance) would enable the device to be returned to service. A reading of zero ohms resistance would mean that it would again blow a fuse, and was therefore unsafe to use. In the electrical industry e.g. the former State Electricity Commission, a megger would be used to test lots of similar item in sequence. Because of the vigorous job of winding the handle, two persons were often used to save time. One would crank madly whilst the other shifted the leads. This particular megger is of a small voltage, but other meggers are bigger and have a few ranges of DC voltages able to be selected. The optimal megger for large Generating machines was motor driven megger. This was applied to the device being tested for a duration of approximately 30 minutes with reading of the resistance taken at regular intervals.All equipment belonging to the State Electricity Commission of Victoria was labelled with a metal plaque attached to it. The SECV constructed the Kiewa Hydro Electric Scheme in the Upper Kiewa Valley and on the Bogong High Plains. The scheme began in 1938 and finished in 1961 when this megger was used and also possibly later as the SECV remained to maintain and operate the Scheme. This megger is of significance in relation to the advancement of technology.A rectangular box in dark brown bakerlite casing. It has an agent's plaque fixed to the left of the face and on the right is the marker's recessed stamp. In the middle in a transparent window so the level of ohms can be read. The front also has two recessed fixing knobs in black. On one side is a crank handle with a knob that lifts up and is turned vigorously to create the voltage. The back has four recessed screws and four small leather pads. There is a hole on each side to insert wires. There are two copper insulated wires. The SECV Plaque states: State/Electricity Commission/of/Victoria/ Electrical Engineer's Section/ No.1747 The Agent's Plaque states: H. Rowe & Co. Pty Ltd/Melbourne & Sydney/Sole Agents/in Australia for/Evershed & Vignoles Ltd Maker's states: 500 volts/Megger/Regd Trade Mark/Made in England/Patent No/400728electrical meters, electrical equipment, fuses, safety, state electricity commission of victoria, mt beauty, bogong village

Jan Burnett worked in the SECV office during the 1980's and 1990's. Her notes include the telephone numbers of locals, duty statement, monthly reports required, hierarchy of the staff, SECV memos, names of workers at the SECV and at the Shire of Bright etc. Names of local people living and working in the local area is useful for research.Green Folder containing a collection of Jan Burnett's papers and notes in connection with her work as a typist for the SECV.jan burnett. typist. state electricity commission of victoria.

The switchboard was located in the office of the switchyard. This switchboard was used by the State Electricity Commission of Victoria on the Kiewa Hydro Electric Scheme in Mt Beauty. Employees living in the towns and in the Kiewa Valley who had telephones were connected to the switchboard and were able to speak after dialling a number and then being connected by an operator working at the switchboard. This connection pre dated automatic connections. This switchboard was used by the S.E.C.V. for their employees on the Kiewa Hydro Electric Scheme and is an example of communications used in the 1940s and 1950s using telephones and operators prior to automatic 'stations'. To prevent operators from listening to conversations, a tone was introduced so that those on the phone became aware of someone listening in to their conversation.switchboard. mt beauty. state electricity commission of victoria. kiewa hydro electric scheme. telephones. communication.

This gas lamp light and stand came from the original manufacturer in Melbourne. Gas street lights such as this one were used in Melbourne from the mid-19th century. The lights enabled safer after-dark travel for pedestrians and vehicles and were a deterrent to crime. A lamp lighter was employed to keep the lamps lit, sometimes with little success due to weather conditions and the pranks of youths. WARRNAMBOOL Gasworks In Warrnambool prior to 1874 there were about twenty rare, individually lit street lights in Warrnambool, each with its own supply of kerosene. These lamps were in the central business area of Timor, Koroit and Liebig Streets. The Warrnambool Gas Company Ltd. was registered as an incorporated company in 1873. It was a private, locally owned business. It was located at 209-215 Merri Street, Warrnambool, on the land, which is just west of the later-built railway station. The first managers of the Gas Company lived in a substantial stone house on site, but later the managers lived in a residence in Henna Street between Merri and Timor Streets. The original home, which still stands, became a residence for the Railway Station Master from about 1890. In August 1874 the construction of the gasworks was complete and at the end of that month gas was supplied to all of the existing lamps in Warrnambool for the first time. The Warrnambool Gas Company wound up in 1880-1881 and was purchased by the Warrnambool Borough Council with money raised by a loan – the Borough’s first ‘loan transaction’. The Council established a piped network to supply gas to other street connections. The gasworks were privatised and upgraded in 1952. In 1972 the town supply was converted to liquid petroleum gas and by the early 1980s the gasworks were closed down. In 1986 Warrnambool was supplied with natural gas from a site near Port Campbell. The Warrnambool gasworks supplied all street and shop lighting and most domestic lighting until 1923 when electricity was available for lighting. Bromfield Street in Warrnambool was named after the director of the gasworks, James Astley Bromfield (1823-1903). He arrived in Warrnambool from Worcestershire, England, in 1852 and was very active in the local council and community. Cockman Street was named after the first secretary of the gasworks in 1874, Walter Cockman (c.1821-1892). He was a Mayor and businessman. The second Manager, Luther Rodgers, worked for the gas company for about twenty years and both Rodger Place and Rodgers Road in Warrnambool have been named after him. LAMP LIGHTS IN MELBOURNE In the 1820s Melbourne's innkeepers were legally required to have a lamp light outside their premises from sunset to sunrise. This was the first instance of street lamps being used in Melbourne. In 1847 the first oil lamp was used in the city. In 1849 a gas lamp was installed on the Swanston Street Bridge and much of the city had oil lamps installed by then. In August 1857 the installation of street gas lamps began in Melbourne. They were welcomed for the much brighter illumination they gave. By 1860 there were 414 lamp pillars. The phrase was quoted often - "A light was as good as a policeman". The first gas burners used for street lighting were called 'fishtail' gas burners. These were replaced in the early 1900s by gas mantles. The City of Melbourne Gas Coke Company was formed in 1850 but due to the Gold Rush the manufacture and distribution of the gas supply was delayed until January 1856. By the 1890s the gas supplying the lights was supplied by three companies in Melbourne. In 1879 a football match was played at the MCG under electric lighting and gradually electric arc lights were installed inside and outside buildings in the city. Lamp lights such as the one in Flagstaff Hill’s collection were no longer needed. (References: John Lindsay re Lamp Light history 2019-01-29, Former Warrnambool Gas Company Limited, Victorian Heritage Database Report, Heritage Number 149746 https://vhd.heritagecouncil.vic.gov.au/places/149746/download-report ) The lamp light is representative of the lamps used in Melbourne from the mid-nineteenth century to light the streets at night and make Melbourne a safer city. The lamp is also representative of the gas street lighting in Warrnambool from the mid-1870s-1920s.Lamp light or gas light. Street light, one of the last gas street lights removed from Melbourne. (Reconditioned by Friends of Flagstaff Hill, 2013)flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, lamp light, gas light, gas lamp, street lamp, street light, gas street light, melbourne street lighting, warrnambool street lighting, melbourne gas street light, warrnambool gas company, warrnambool gasworks, james bromfield, walter cockman, luther rodgers, city of melbourne gas coke company

This textbook was written for engineering students by Scottish Professor, William J Goudie, D. Sc., (1868-1945). He was a member of the Institution of Mechanical Engineers, a member of the Institution of Engineers and Shipbuilders in Scotland, an Associate Member of the Institution of Civil Engineers, James Watt Chair of Mechanical Engineering, University of Glasgow, and Professor of "The Theory and practice of Heat Engines" in the University of Glasgow. He wrote several papers and books on the topics of mechanical speed and power. The publisher firm, Longmans, Green & Co., was originally founded in 1724 in London by Thomas Longman under the name Longman. In August of that year, he bought the two shops and goods of William Taylor and set up his publishing house there at 39 Paternoster Row. The shops were called Black Swan and Ship, and it is said that the 'ship' sign was the inspiration for Longman's Logo. After many changes of name and management, the firm was incorporated in 1926 as Longmans, Green & Co. Pty Ltd. The firm was acquired by Pearson in 1968 and was known as Pearson Longman or Pearson PLC. The first practical steam turbine was built in 1884 by Charles Parsons and this became the beginning of generating electricity and powering large ships. The author of Steam Turbines, Professor William John Couldie D. Sc, was a mechanical engineer who had practical experience in a marine consulting engineering service and lectured in the theory and practice of mechanical engineering.This book is an example of the development of technology that contributed to the evolution of steam turbines. The book is also significant for its connection to the publisher Longmans, Green and Co., of London, a firm that has been established for over two centuries, renowned for publishing encyclopedias, dictionaries, books on English grammar, textbooks, poetry, reference books, novels, magazines and more.Steam Turbines, by William J. Goudie, D. Sc., Second edition, rewritten and enlarged. Published by Longmans, Green & Co. in 1922. The book has a textured green hardcover with a printed black title on the front cover and a gold embossed title on the spine. The fly page describes the contents. It states the author's credentials and the book's features - 329 illustrations and numerous examples.. The logo of Longmans, Green & Co. is on the fly page. It is a line drawing of a shield above a leafy wreath border surrounding a sailing ship at sea with a plaque below. Inscriptions are on the shield and plaque.On the shield: "L & Co" [Longman Green & Co.] On the plaque: "1724" [date business was established]flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, steam turbines, longmans green and co, paternoster row london, ship logo, engineering studies, textbook, 1922, longmans green and co., l & co., 1724, institution of mechanical engineers, institution of engineers and shipbuilders scotland, institution of civil engineers, james watt professor of "the theory and practice of heat engines", thomas longman, paternoster row, william goudie, william j goudie, professor william j goudie d. sc., james watt chair of mechanical engineering, steam turbine, marine turbines, steam power

This newspaper article was produced at a time when newspapers were the main source of local information. The period before the explosion of mobile communication technology and the cost effectiveness of communication by "texting" and internet "social connections, eg. facebook and other social media networkings" The newspapers were the main links between and within large regions. The Hydro Courier was first printed in 1950 as a YMCA community service publication by Mr. Albert Clarke YMCA Officer and Mr. Alex McCullough a State Electricity Commission employee. This paper was one very important publication that provided relevant community information to all and was the major contributer to the "Valley" cohesive fibre and unity. This article not only records the celebration (centenary) of the Tawonga School but also presents the history of the school and important events such as various relocations of classrooms and how the region was settled and developed from the 1870's onward. The yawonga school opened in 1880 on 8 acres of land. It consisted of one large wooden building (22 ft x 11 ft). It had two windows, one brick chimney, bare wooden floor and a shingle roof. This article also presents the time when Mount Beauty area was likened to an island and occasionally school children could not attend school because of a flooded Kiewa river. The article also covers the changes brought about by the increased employment opportunities from SEC Kiewa Works(1935), the Sawmill(1946), the Gold mine(1949) and the Tobacco Industry (largest growing area in Australia).This item is a one page (original) article of the centenary celebrations for Tawonga Primary School came from the Alpine Observer and incorporated the Hydro Courier. It covers the arrangements for the celebration of the 100 years of the school's existence. The printed layout is typical of the typeset in use in 1980's. There are seven distinctive type collumns separated by a printed line. Three photographs are published with one photograph of a demountable classromm ,circa 1980, and the other two of student class photos of 1899 and 1914. Teacher and student names are listed below each photograph. On the back of this page are "specials" for "Sam's Cut Price Stores", specifically the Myrtleford store. Of interest is the advertisement of "Cartons of Cigarettes at cut prices". The page was produced as part of a "run" with "telltale" holes at each corner for stabilising the page in the printing process."Centenary Celebrations For Tawonga Primary School" below this in an enclosed heading "ALPINE OBSERVER" underneath in smaller print "WITH WHICH IS INCORPORATED" below this in larger print "THE HYDRO COURIER" and below this from left to right, "No. 719 (Vol. 3) THURSDAY, 23rd OCTOBER, 1980" next "in smaller print Recommended Price Single Copy, 20c "(cents)rural school development, tawonga school centenary, kiewa valley development 1880 to 1980

This aluminium kettle was manufactured between 1940 to 1960's and replaced the heavier caste iron "open fire" stove ones (in doors or in the bush). A cast iron flat base between the open fires and the kettle was required. This kettle was used extensively with indoor open fire places. It was part of the evolution in "tea" making kettles. These were the only method of making hot beverages before introduction of electric kettles. For the Kiewa Valley the connection to the major electricity grid was post 1950's.This kettle is significant demonstrating the type of kitchen utensils required before electrical home connections became a reality. The aluminium structure of the kettle was an advancement over the heavier caste iron kettles. This type of kettle is still in use for bush and mountain hikers/climbers due to the light weight. This kettle was used by the Tawonga C.W.A. Branch. The C.W.A. motto "Honour our God, Loyalty to the throne, Service to the country, Through country women, For country women, By country women."This 99% aluminium hot plate kettle with lid (bakelite handle) is Australian made for flat stoves (cooking or room heating). It has a "tea style" spout and a bakelite hand grip(knob) on the top of the lid. The lid has nine ridges (for strength) radiating from the central hand grip. The two handle prongs are bop riveted onto the the body of the kettle. The bakelite hand grip has been fashioned to fit the natural contours of a clutching hand.On both sides of the aluminium handle "HOT PLATE WARE" and covering an oblique shaped triangle "99% PURE ALUMINIUM" and below that "MADE IN AUSTRALIA".Within the triangle "DURALIFE"cwa, homeware aluminium kitchen utensils, made in australia cook ware

This resistor was part of the Hydro generator control metering system which displays what electricity is produced at the underground generators. The control centre can be hundreds of meters above the generators and this resistor reduces the large current to a small voltage entering a calibrated control monitor. This resistor is highly significant to the Kiewa Valley because it represents a major construction and ongoing operational industry dealing with the supply of hydro electricity to Victoria. Although it is relatively small in size it is part of the controlling mechanism for the supply of a non polluting energy source for home and industrial use.This mainly metal and wire resistor has been built of copper and brass and designed to carry a current of 2000 Amperes. Wires are wound around a non conductive cement block which has grooves on the top and bottom ledges to hold the wires snuggle into place. At the rear there are three connection rods which have long 5mm thick screws (to fasten cable ends)On one side it is scribed "0.2 OHMS" and underneath this "10 AMPS"kiewa hydro electricity scheme, victorian state electricity commission, transformers

This Favag Timer apparatus was a part of the first electronic control system -(1960's), in Victoria), which worked using telephone stepping selectors to convey a change in voltage providing a regulated pulse from the control centre(Mount Beauty) to the remote Power Stations opening and closing (stop/start) of various devices at the Power Station and a return signal confirmed the action taken. Testing of this unit was carried out using a "dummy" device at the remote Power Station so as not to disrupt the power plant's operation. This timer was one of many electrical apparatus connected to the large SEC Victoria Hydro Scheme's electrical power producing generators. These 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 early 1900's to the 1960's. At this 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 Favag Timer was one of the crucial pieces of equipment that made it possible for the Mount Beauty Terminal Station to control the operations of these Power Stations; McKay, Clover, West Kiewa Power Stations and the Dederang Terminal Station.This aluminium and anodised "FAVAG" (pulse) timer is fastened to a base structure which comes with its own metal cover that is fastened by two metal hooks. From the top of these hooks runs a thick leather "carry" strap.The instrument, itself, a small "micro motor" at one end tape feeding spool on the other. Aluminium metal structures offer a preventative barrier against any electronic spikes from static electricity sources. There are two toggle switches to the bottom right hand side and twelve coloured "pin" connection points.There is a sliding access sleeve which exposes a circuit board.with various leads fastened on each side. In front of one of this slide are two "screw in" fuses, spare fuses are in a small envelope taped above. Circuit diagrams are etched white on black background on the top face of the main structure. At the base of the back section is a two pronged input terminal. There is a fine black rubber layer (cushioning) for the mian top cover.On the cover fastened with two rivets "FAVAG" underneath in small print "Fabrique d'appareils electriques S.A." underneathe "NEUCHATEL-SUISSE". on one end is a "STATE ELECTRICITY COMMISSION OF VICTORIA" metal label screwed on.The back label has manufacturers' type and model number.sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth

This line connector tool is part of the erecting of electricity cables from the power stations to the ultimate distribution sub stations throughout Victoria. It is used to extend cable length and secure cable to tower points. This type of equipment has been in use in this region since power production commenced in the 1950'sThis connection tool is a vital part in the distribution of hydro produced electricity from its mother power plant to its ultimate destination be it rural towns, industry or city. It has been used in the Kiewa valley and its Alpine regions.This power line connection tool was required to extend the length of the power line and is made up from a "compression sleeve" with its connecting lug and at the other end the suspension eye.Stamped on the compression sleeve "4/7/.1297"sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth

This linesman belt was used under the 1947 Electricity Regulations and before tighter Occupation and Health regulations (late 1990's early 2000's) were introduced that mechanical lifting platforms(wherever possible) replaced the belt up the pole method.The safety concern was that it required that tools needed by the linesman had to be placed in a large canvas bag and attached to the belt (extra weight) then the linesman had to climb the ladder. Ladders had to be at the correct angle and not able to "slip" from their initial footings. A full harness and a secondary fall belt is now mandatory for pole linesmen. The safety of fellow workers could be compromised if they were required to assist or recover the first linesman if needed. In 2006 an additional 269 registered lineworkers were employed. Please note that the terminology of linesman has become unisex. The linesman's belt enabled the linesman to place his feet against the pole adjust the belt (if needed) and lean back securely allowing both hands to be free to work with. This linesman belt is very significant to the Kiewa Valley due to the numerous poles and high voltage overhead power structures that needed maintenance for the extensive "mushroom" installation of electrical power polls(wood and metal). On high poles (steel) climbing pegs were welded on, however in the Alpine areas snow in winter caused an OH&S problem which were hard to overcome. The safety of a linesman when maintenance of electricity line on poles can be highlighted by the New Zealand linesman who survived an 11,000 volt shock when carrying out maintenance. For the record 11,000 volts is four times more powerful than execution by "the electric chair". The maintenance of the linesman's belt was his responsibility (keeping it clean and in "good" condition). Labour laws change this initial responsibility, from the linesman, to the employer. Climbing pegs were installed on higher poles that extended beyond the reach of ladders.This thick leather linesman belt is made from two lengths of heavy lengths of leather straps sewn together to make up 80% of the belt. The remaining 20% is "the belt tonge" which has eleven holes for three (solid steel tang) buckle connections.kiewa hydro electricity scheme, victorian state electricity commission, relays, generators, electrical pole maintenance

Radio Telephone was minuted during the war. It was approved in 1944 for State Electricity Commission of Victoria use only. It was completed by the end of 1946. Used by the State Electricity Commission of Victoria at Bogong during the construction of the Kiewa Hydro Electric Scheme to connect with head office in Melbourne. It allows one conversation at a time using traffic controls in an unusual system of radio telephone providing communication. At the time it was unique in Australia and installed by the S.E.C.V. technicians. It provided an unattended shortwave radio link between two ordinary telephone switchboards, connecting any of the S.E.C.V.'s internal lines with the telephone system at Bogong and the construction camps beyond. From Bogong, radio phones connect to the outpost stations on the High Plains far above the snow-line. In operation, the service is similar to a normal telephone system but dispenses with the physical connection of wires and poles between the main terminals. Historical: This type of headphone was recommended for amateurs. It may have been used by operators on the Switchboard at Bogong or one of the construction camps on the Kiewa Hydro Electric Scheme. The S.E.C.V installed this unique system of communication to operate their branches especially at Bogong and beyond where the distance was great and often limited by the terrain and weather.Used for a transmitter radio or Radio Telephone as installed by the State Electricity Commission of Victoria 2 round ear pieces. Outside of ear piece has the brand inscribed and 3 points where wires are attached. On opposite edges of the earpieces a metal piece with handle is attached from which the 2 earpieces are connected with curved wire covered by leather to fit on top of the head. Each earpiece has a cord hanging from the middle attachment (on the outside) which joins and then continues as one to 2 metal pins that would fit into holes in the switchboard. On outside of each earpiece - 'Brunet & Co. / Paris' in oval 'Type f' underneathradio telephone. ear phones. head phones.communications.state electricity commission of victoria. kiewa hydro electric scheme. bogong. switchboards.

Radio Telephone: Minuted during the war. It was approved in 1944 for State Electricity Commission of Victoria use only. It was completed by the end of 1946. Used by the State Electricity Commission of Victoria at Bogong during the construction of the Kiewa Hydro Electric Scheme to connect with head office in Melbourne. It allows one conversation at a time using traffic controls in an unusual system of radio telephone providing communication. At the time it was unique in Australia and installed by the S.E.C.V. technicians. It provided an unattended shortwave radio link between two ordinary telephone switchboards, connecting any of the S.E.C.V.'s internal lines with the telephone system at Bogong and the construction camps beyond. From Bogong, radio phones connect to the outpost stations on the High Plains far above the snow-line. In operation, the service is similar to a normal telephone system but dispenses with the physical connection of wires and poles between the main terminals.Historical: This type of headphone was used by operators on the switchboards at Bogong, Mt Beauty or on one of the construction camps on the Kiewa Hydro Electric Scheme. The S.E.C.V. installed this unique system of communication to operate their branches especially at Bogong and beyond where the distance was great and often limited by the weather and terrain.Used for a transmitter radio or Radio Telephone as installed by the State Electricity Commission of Victoria 2 round ear pieces. Outside of each ear piece has the brand inscribed, 4 screws and 1 small piece of metal. The metal has 2 screws attaching the the cord that goes to the 'switchboard'. On opposite edges of the earpieces is a thick metal piece that curves up to which the curved metal headpiece is attached and therefore connecting the earpieces. Each earpiece has a cord hanging from the small metal piece of earphone. This cord joins and then continues as one to the end where there are 2 metal pins coming out of the soft cover.'C-LR ST & C of Sydney'radio telephone. ear phones. headphones. communications. state electricity commission of victoria. kiewa hydro electric scheme. bogong. switchboards.

Radio Telephone was minuted during the war. it was approved in 1944 for the State Electricity Commission of Victoria's use only. it was completed by the end of 1946. used by the State Electricity Commission of Victoria at Bogong during the construction of the Kiewa Hydro Electric Scheme to connect with head office in Melbourne. It allows one conversation at a time using traffic controls in an unusual system of radio telephone providing communication. At the time it was unique in Australia and installed by the S.E.C.V. technicians. It provided unattended shortwave radio link between two ordinary telephone switchboards, connecting any of the S.E.C.V.'s internal lines with the telephone system at Bogong and the construction camps beyond. From Bogong, radio phones connected to the outpost stations on the High Plains far above the snow-line. In operation, the service was similar to a normal telephone system but dispensed with the physical connection of wires and poles between the main terminals.Historical: This headphone set superseded headphones with two earpieces and those without a microphone. This one may have been used by operators on the switchboard at Bogong or Mt Beauty or one of the construction camps on the Kiewa Hydro Electric Scheme. The S.E.C.V. installed this unique system of communication to operate their branches especially at Bogong and beyond where the distance was great and often limited by the terrain and weather.Radio Telephone for SECV switchboard. Black plastic earpiece with microphone. Ear side circular with inscription on outer side then formed into elongated shape narrowing to the curved speaker piece at the narrow end. On top of the narrow end a long rubber cord is attached to a thick brass pin. On top of the wider end a thin stiff wire is attached to curve around the head to a blank rubber earpiece. This head piece has a piece of rectangular rubber attached at the top for comfort.'4408A IW61 / 1'radio telephone, ear phones, head phones. head set. communications, state electricity commission of victoria. kiewa hydro electric scheme. bogong. switchboards

Used in the Orbost district prior to electricity being connected (early 1960s). Used for ironing clothes.This is an example of a domestic appliance commonly used before electricity connection was widespread.A metal iron enamelled in blue colour, with a silver coloured fuel reservoir shaped like a bowl. This most likely stored Shellite which was the fuel to heat the iron. The handle is also blue and made of wood. iron shellite-iron clothes-iron

Without refrigeration, storage of meat was difficult. Flies were a problem, and it was important to keep meat cool and out of the way of pests. One way of doing this was to use a meat safe: a kind of cupboard designed to store meat and keep it fresh enough to eat. Meat safes are ventilated. They were sometimes made with sides of wire mesh or perforated metal, so that air could circulate around the meat while keeping flies and other animals out.The Coolgardie safe was invented in the late 1890's by Arthur Patrick McCormick, who used the same principle as explorers and travelers in the Outback used to cool their canvas water bags Originally they were handmade using materials to hand. In the early 20th century, Coolgardie Safes were manufactured commercially across Australia, and found their way into homes in both rural and urban areas. These safes incorporated shelving and a door, had metal or wooden frames and Hessian bodies. The feet of the safe were usually placed in a tray of water to keep ants away. (refs ABC-Home; Museum Victoria)This item is an example of a common domestic appliance used before the widespread connection of electricity to homes and refrigeration. The Coolgardie meat safe is an Australian invention used widely in rural areas from the 1890's until the mid 20th century.A metal meat safe, painted white. It has a shelf inside. The door has two perforated rectangular sections metal framed in solid metal. The base is flat.storage domestic coolgardie-safe

This lantern could have been used for railway lighting. Railway lighting illuminated not only stations but also 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. This is a hand-held light.Railway lamps of this kind were significant railway items in their period of use as essential tools to the safe-working operations of the railway. Used domestically these lanterns were common in the period before the widespread connection of electricity. A painted red metal "hurricane" lamp which has a glass shade. This is a portable oil lantern which has an oil tank on the bottom that forms the base of the lamp. The tank has a door for filling and it also houses the wick and knob that increases or decreases the length of the wick.On base : No. 707 Globe Brand (globe of world) World Light MFY LTDlantern lighting hurricane-lamp

The Ballarat School of Mines trained electricians.Correspondence on State Electricity Commission of Victoria letterhead between the State Electricity Commission of Victoria to Ballarat School of Mines in 1937. .1) Dated 16/01/1937 this item relates to the licensing of Electrical Mechanics Regulations 1935 and is signed by W.J. Price .2) Dated 24/08/1937 this item relates to the practical portion of examination 37/2 in connection with Licensing of Electrical Mechanics at Ballarat on 23 September 1937 and is signed by W.J. Price .3) Dates 18 October 1937 this three page foolscap letter relates to radio interference suppressors, and the increasing us of earth leakage circuit breakers for the protection of installations, and is signed by D. Dunhamstate electricity commission of victoria, ballarat school of mines, electricity, trades, electricians, w.j. price, d. dunham, sec

Black and white soft covered book including information on Graham Beanland's connection to Stawell, Yallourn, Ballarat, University of Melbourne, Electricity Commission, Electrical Insulators, Latrobe Valley, TAFE BOard, Hawthorn Institute, Footscray TAFE, Ballarat School of Mines, Family History, preserving the history of the Ballarat School of MinesINSIDE FRONT COVER 'with complements G. Beanland'graham beanland, graham howard beanland, ballarat school of mines principal, ballarat school of mines history, family history, genealogy

This photograph was found in the archive of Newman College, a residential college at the University of Melbourne. It is not currently clear what the connection is between Newman College and the Yallourn School. Was one of the teachers at the school a former resident of Newman? Or did a student from the school come to Newman later in life, bringing this photograph? The town of Yallourn in the La Trobe Valley Victoria no longer exists except in photographs, records and memories. The town was established by the State Electricity Commission from the 1920s to the 1950s and was removed in the 1980s to make way for coal mining.Black and white photograph pasted onto brown mount board. The image shows children in four rows and their teachers in front of their weatherboard school building. Three rows of children are standing, the front row is seated and the middle child in the front row holds a sign saying Yallourn School No. 4085 23.2.23yallourn, yallourn school, newman college

Demonstrates an aspect and yields information about the reconstruction of the depot during the reconstruction by the SEC of the Ballarat Tramway system.Set of nine black and white prints of the reconditioning of the tramway depot building during 1936 mounted onto a grey light cardboard sheet. Each photo about 65 x 90. Marked as "Series D2" in ink and a label - in on white paper - "Ballarat Tram Depot / Reconditioning of Buildings" at the top of the sheet. Produced by the SEC c1936. See Reg Items 1349 and 1350 for larger prints of these photographs for six of these photographs. The top row of photographs show the depot prior and post to refurbishment and show a view taken from the south side of Wendouree Parade. These three photographs have been scanned at a higher resolution - see 3902i2 - i4. 3902i2 - shows remnants of the triangle connection at the depot? and that the western track may not have been electrified or laid. 390i4 - has trams 30 and 31 out the front of the depot. See In pencil above the photograph of the depot prior to refurbishment - "1934?" trams, tramways, depot, reconstruction, wendouree parade, trackwork, tram 30, tram 31

Set of two brass manufacturing / data plates from the BTM Isolating transformer that failed Oct. 2004 and sent to ABB's Yarraville Workshop for assessment. Recovered from the transformer by ABB staff following inspection. Plates detail Manufacturer (State Electricity Commission of Victoria), ratings, connection diagrams, windings and date of manufacture (1931). These plates did not reflect the re-winding characteristics, but its original manufacturer. Transformer No. 1267. Each plate has four corner holes. Transformer acquired by the BTPS 1973 for re-winding from the SEC. See Reg. Item 3018 for transformer photographs at ABB workshops. tramways, trams, btps, substation, depot, electric traction, electric failure, sec

Bob Hymans Collection Bob (Herman) Hymans (a former member of the Royal Netherlands Navy) was born in Bloemendaal, Holland on 30th September 1922. During World War II he fought against the Japanese in the Dutch East Indies (now Indonesia) and was imprisoned in Changi and on the Burma Railway. After gaining qualifications as a Ski Instructor, Bob arrived in Falls Creek in July 1950. Working as an Instructor and Supervisor at Bogong Lodge, Bob decided his future was in accommodation. He was successful in negotiating an indenture for land from the State Electricity Commission (SEC). It took Bob two years to build his Grand Coeur Chalet but, tragically, it was burned down in August 1961. Bob also built the first Chairlift in Australia. This was a single chairlift and the structure was built from wooden electricity poles. He was constantly full of new ideas and proposals for the village. Bob Hymans die on 7th July 2007. This Collection of documents and letters tells the story of Bob's endeavours to develop Falls Creek into the ski village it is today.This letter is significant because it documents the developments supported by the Management Committee for the winter season of 1961.A bulletin published by the Management Committee to inform licensees and residents of the most recent developments. These include:- negotiations with the SEC for new power connections; parking area extension and the Committee's approach to commercial development; and the announcement of the successful applicant for the new Ski School - Alpine Developments. It also reported on improved First Aid facilities and Parking Fees for the next season.falls creek tourist area management committee, amendment to regulations 1959

Mrs Jessie Beardmore, wife of the Shire President, Mr Henry Beardmore, was invited to switch on the electrical current at the power house in Wodonga on 15th January 1912. This was not the official opening of the newly installed system which took place a few weeks later. Disagreement existed amongst Shire Councillors about the official opening, several of them including Mr Beardmore believing the opening should only take place when the scheme was completed. However Dr Schlink, Mr D. M. Stavely, Cr Twomey and Mr C. Holloway, Engineer for the Electric Lighting Company, arranged a small ceremony to turn lights on for the first section of the scheme. This included street lighting along Sydney Street between South Street and the Shire Hall as well as a few business houses and private establishments, with the balcony of the Terminus Hotel illuminated by over 100 lights. Other areas and buildings were connected over the following weeks. Mr Beardmore was not present at the beginning of proceedings but joined the crowd in the street. During a small number of speeches, credit for his work to instigate and further the introduction of electricity to Wodonga was given to Councillor Twomey, referred to as “the father of the scheme”. This item is significant because it records the first connection of electricity to Wodonga in 1912.A hand written letter addressed to Mrs Beardmore of Wodonga. A portrait of Mrs Beardmore is also included. A transcript of the letter is included below. Wodonga 15 -1-12 Mrs Beardmore Wodonga Dear Madam, Mr Holloway, Engineer for the Electric Lighting Company, has invited me to invite you as the wife of the Shire President to switch on the electric supply for the town at the power house not later than 8.30PM (this evening). Hoping that you and Mr Beardmore can make it convenient to attend. I remain yours sincerely, R. H. Schlinkbeardmore family, electricity in wodonga

Drawing SEC Electricity Supply Department Ballarat Branch No. BA-T8-8142, "Connection Diagram B49CC Controller Scrubber Car" showing the controller, motor, and resistance grid connections for the Ballarat Scrubber tram. Dated 28-8-1939.Yields information about the controller wiring for the Ballarat Scrubber tram.Drawing - dyeline print SEC No. BA=T8-8142tramways, ballarat, wiring, wiring diagrams, controllers, scrubber tram, b49cc controller

Card with decoration of blue abstract electric lines on pale blue background. White square in centre of card with dark blue printing. Ticket is printed with details of an official ceremony, street procession, a banquet and a fancy dress ball to celebrate the connection and switching on of electricity to the township of Linton in 1939. Text: LINTON'S / GRAND SWITCHING-ON CARNIVAL / ON / THURSDAY, SEPTEMBER 7, 1939 / Official Ceremony 7.30 p.m. Street Procession 8 p.m. / BANQUET IN FIRE BRIGADE HALL 8.30 p.m.electricity, celebrations