Showing 43 items matching electrical fitting
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NMIT (Northern Melbourne Institute of TAFE)
Photographs - Collingwood Technical School, Mounted photographs of Trade School (Electrical) CTS, circa 1940, c1940
... machines. Captions: 1. Collingwood Technical School / Electrical.... Photographs depict various aspects of electrical fitting and mechanics... School / Electrical fitting apprentice operating a lathe [2 ...Collingwood Technical School trained apprentices in many trades. These photographs depict apprentices operating various machines. Captions: 1. Collingwood Technical School / Electrical fitting apprentice operating a lathe [2 copies] 2. Collingwood Technical School / Electrical mechanic apprentice testing in the electrical laboratory. These are high quality professional photographs taken circa 1940. 3 black and white photographs mounted on brown card. Photographs depict various aspects of electrical fitting and mechanics work.Each photograph has a hand written caption on the front. collingwood technical school, cts, apprentices, students, lathes, electrical trade, nmit, -
Federation University Historical Collection
Books, H.E. Daw Government Printer, Ballarat School of Mines and Industries Departmental Papers, 1914-1950
... electrical fitting..., Electrical Fitting, Electrical Trades, Food Analysis, Geology..., Electrical Fitting, Electrical Trades, Food Analysis, Geology ...Used at the Ballarat School of Mines and the Ballarat Technical Art SchoolThis collection of examinations is significant because of its completeness with the full range of examinations between 1914 and 1950.Large leather bound books, with leather spine, containing all examinations held at the Ballarat School of Mines (including the Ballarat Technical Art School and Ballarat Junior Technical School). The examination papers were supplied and printed by the Education Department, Victoria. Examinations include: Agriculture, Algebra, Architecture, Arithmetic, Applied Mechanics, Assaying, Biology, Botany, Boilermaking, Building Design, Blacksmithing, Bricklaying, Carpentry and Joinery, Coachbuilding, Cabinet Making, Civil Engineering, Cabinet Making, Commercial, Chemistry, Engineering Drawing, Economics, English, Electrical technology, Electricity and Magnetism, Electric Wiring, Electric Welding, Electrical Fitting, Electrical Trades, Food Analysis, Geology, Geological Mapping, Graphics, Geometry, Heat Engines, Heat Treatment, Hydraulics, Hand Railing, Instrument Making, Millinery, Milling and Gearouting, Machine Shop Practice. Metal Founding, Mining, Metallurgy, Mineralogy, Mathematics, Motor Mechanics, Mine Surveying, Mining Mechanics, Petrology, Physics, Painting and Decorating, Pattern Making, Plastering, Plumbing and Gasfitting, Printing, Refrigeration, Spelling, Science , Shorthand, Surveying. Signwriting. Sheet Metalwork, Toolmaking, Ladies Tailoring, Trigonometry, Typewriting, Welding, Commercial Geography. Millinery, Dressmaking, Needlework, Decorative Needlework, Architecture, Building Design and Construction, Art (Composition in Form and Colour), Art (Casting Clay MOdels) Art (Drapery), Art (Drawing the Human Figure From Casts), Art (Drawing the Antique from Memory), Art (Drawing from Memory); Art (Drawing Plant Forms from Nature, Art (Drawing Plant Forms From Memory), Art (Drawing from Models and Objects), (Drawing From a Flat Example). Art (Drawing in Light and Shade from a Cast of Ornament or Lower Nature), Art (Drawing Ornament from the Cast), Art (Drawing from Models or Objects), Art (Drawing fro Dressmakers' and Milliners' Fashions), Art (Drawing With the Brush), Art (Drawing from a Flat Example); Art (Modelled Design), Art (General Design), Art (Embossed Leatherwork), Art (Practical Plane Geometry), Art (Practical Solid Geometry), Art (Geometrical Drawing), Carpentry and Joinery, Art (Human Anatomy), Art (Historic Ornament), Art (House Decoration), Art (LEttering), Signwriting, Art (Light Metalwork), Art (Modelling), Art (Modelling the Human Figure from a Life), Art (Stencilling); Art (Wood Carving) Refrigeration, Teaching, Boilermaking, Blacksmithing, Carpentry and Joinery, Coachbuilding and Carriage Drafting, Electric Wiring, Electrical Fitting, Graining and Marbling, Instrument Making , Machine Shop Practice, Metal Founding, Milling and Gear Cutting, Motor Mechanics, Painting and Decorating, Sheet Metalwork, Toolmaking, Printing, Pattern Making, Plumbing and gasfitting, examinations, ballarat school of mines, ballarat technical art school, trades, education department victoria, agriculture, algebra, architecture, arithmetic, applied mechanics, assaying, biology, botany, boilermaking, building design, blacksmithing, bricklaying, carpentry and joinery, coachbuilding, cabinet making, civil engineering, commercial, chemistry, engineering drawing, economics, english, electrical technology, electricity and magnetism, electric wiring, electric welding, electrical fitting, electrical trades, food analysis, geology, geological mapping, graphics, geometry, heat engines, heat treatment, hydraulics, hand railing, instrument making, millinery, milling and gearouting, machine shop practice, metal founding, mining, metallurgy, mineralogy, mathematics, motor mechanics, mine surveying, mining mechanics, petrology, physics, painting and decorating, pattern making, plastering, plumbing and gasfitting, printing, refrigeration, spelling, science, shorthand, surveying, signwriting, sheet metalwork, toolmaking, ladies tailoring, trigonometry, typewriting, welding., dressmaking, needlework, decorative needlework, architecture, building design and construction, art (composition in form and colour), art (casting clay models), art (drapery), art (drawing the human figure from casts), art (drawing the antique from memory), art (drawing from memory), art (drawing plant forms from nature, art (drawing plant forms from memory), art (drawing from models and objects), (drawing from a flat example), art (drawing in light and shade from a cast of ornament or lower nature), art (drawing ornament from the cast), art (drawing from models or objects), art (drawing for dressmakers' and milliners' fashions), art (drawing with the brush), art (drawing from a flat example), art (modelled design), art (general design), art (embossed leatherwork), art (practical plane geometry), art (practical solid geometry), art (geometrical drawing), art (human anatomy), art (historic ornament), art (house decoration), art (lettering), art (light metalwork), art (modelling), art (modelling the human figure from a life, art (stencilling), art (wood carving), teaching, coachbuilding and carriage drafting, graining and marbling, milling and gear cutting, commercial geography, exams, examination book -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Functional object - Lamp fitting double holders, Middy's Aust, c 1930
... Bakerlite electrical fitting... electrical fitting Middy - Made in Australia Made in Australia ...Made in Australia by Middy's Used by a pioneer family in Moorabbin. Manufactured by Middy's: Arriving in Australia at age 19 by ship at Port Melbourne, Dutch immigrant Petrus Cornelis Nicolaas Middendorp (1891-1963) settled in Melbourne to apply his trade as a cigar maker for the British American Tobacco Co. Retiring from the cigar industry and following his work as an honorary orderly tending WW1 Australian casualties in Paris and Melbourne, Petrus began selling Dutch manufactured light globes, vacuum cleaners and other electrical products imported from Holland and England. Warehousing and sales of the goods were undertaken from 1928 by the ‘Middendorp Goods Supply Company’ initially located in Flinders Lane in Melbourne’s CBD, then moving to McKillop Street, followed by a basement store at 148 Queen Street. During the 1940s a manufacturing plant known as ‘Middendorp and Sons’ was established in the Melbourne suburb of Preston, where Petrus’ three teenage sons Peter, Nick and Hugh joined him. Peter and Hugh worked with a small team of staff to produce rubber plug tops, extension sockets, double adaptors and a small range of bakelite accessories, whilst Nick became the first sales rep calling on customers and construction sites. The products were sold under the brand name of ‘Middy’. A name change of the distribution business took place in the late 40s and Middendorp Electric Company Pty Ltd was officially registered in 1948. The manufacturing operation ceased during the late 50s due to the introduction and acceptance of plastic and injection moulding. However, the Middendorp family had positioned itself to further establish its electrical wholesale business with the first branch and Head Office opening in 1956, located at 520 Latrobe Street, Melbourne. By 1962 there were five trading branches, growing to 25 in 1986 and 101 by 2018 Australia wide. Middendorp Electric, more commonly known as Middy’s and readily identified by its trademark colour of Middy’s pink, has developed into the largest privately owned Electrical Wholesaler in Australia. In 2015 Middy’s acquired Mekolec lifts fire and electrical adding presence and sector expertise in Melbourne’s inner south. In Sep 2018 Middy's acquired Salmon Brothers Electrical, with 5 Branches in Sydney's Metro region and in 2019 they acquired Goulburn Electrical Wholesalers greatly adding to Middy's location coverage in NSW and providing Middy’s the ability to better service NSW contractors. Bakerlite electrical fittingMiddy - Made in Australiamiddy's, moorabbin pioneers, electrical, bakerlite -
Kew Historical Society Inc
Equipment - Travel iron, Birko, 1960s
... Birko travel iron with its original electrical fittings... electrical fittings and vinyl case. Birko iron Birko is an Australian ...Birko is an Australian brand, manufacturing and retailing appliances since before the Second World War.Birko travel iron with its original electrical fittings and vinyl case.Birko iron birko, travel irons -
Federation University Historical Collection
Document - Technical School Reports, Ballarat School of Mines and Ballarat Junior Technical School Term Reports on Apprentices, 1949-1969
... electrical fitting... car painter fitter and turner k.g. comrie electrical fitting ...Numerous reports for students at the Ballarat Junior Technical School . Lists many students, and results in a range of subjects and techniques.apprentice, ballarat junior technical school, neil williams, eclipse motors, j.a> hoskin and son, s. wilson, victorian railway apprentices, g.r> middleton, n.g. tappscott, n. thomson, l.m. cook, m.r.duncan, j.w. halliday, p.e. kelly, b.g. matthees, p.m. nestor, d.c. sharp, g.g. anglow, d.f. barton, d.a. ewens, r.g. parry, b. jennings, d.b. wilkie, blacksmiths, d. blake, p.j. lattom, coppersmithing, car painter, fitter and turner, k.g. comrie, electrical fitting, boilermaker, springmaker, d. baddeley, a.w. bradley, a.r. burns, h.w. goldsmith, engineering, d. vurlow, electrical wiring, aca, j. dellaca, b. penhall, p.w. stoddart, a. segrott, b.d. ritchie, a.j. rinaldi, k. mcilvena, c. van caans, t. vorstenbosch, m. wasley, j. bell, p. van beveren, h. van dreven, w. butterworth, j. salziel, r. alston, g. boak, k. eddy, b. schoenberg, s. steenhuis, r. eastman, panel beating, r. singleton, plumbing and gasfitting, ivan f. crowley, g.d. sleep, printing, composing, r.e. littlehales, carpentry and joinery, p.w. lamb, john gallagher, ian lepp, donald tozer, john m. blight, r.w. richards, richard w. richards, dick richards, a. petrie, apprenticeship commission of victoria, a.j. vagg, j.c. anwyl, p. lattin, r.a. hazlett, james skilbeck, parrern making, b.s. blenkiron, e.j. twaits, t.k. dunster-jones, i.m. parrott, william cutter, william creati, maurice forte, a. mong, k.f. canny, donald f. snowden, john r. czynski, laurence chisholm, r.d. alston, b. bosworth -
Federation University Historical Collection
Document - Technical School Reports, Ballarat School of Mines and Ballarat Junior Technical School Term Reports on Apprentices, 1949-1969
... electrical fitting... electrical fitting boilermaker springmaker engineering electrical ...Numerous reports for students at the Ballarat Junior Technical School . Lists many students, and results in a range of subjects and techniques.apprentice, ballarat junior technical school, victorian railway apprentices, blacksmiths, coppersmithing, car painter, electrical fitting, boilermaker, springmaker, engineering, electrical wiring, p. van beveren, r. eastman, panel beating, plumbing and gasfitting, printing, composing, carpentry and joinery, dick richards, apprenticeship commission of victoria, parrern making, leslie furlong, james pierce, maxwell r. lette, r.l. eva, b. foy, william tumney, anthony houlihan, n.r. beddgood, w. loo, r. collingan, j.g. degroot, d.g. kelso, e. demarco, s. steenhuis, j. whitcher, d.s. howie, walter gercovitch, p.m. collier, b.r. bedgood, r. singleton, s.r littlehales, r.w. samson, w.h. pearce -
Federation University Historical Collection
Document - Technical School Reports, Ballarat School of Mines and Ballarat Junior Technical School Term Reports on Apprentices, 1949-1963
... electrical fitting... electrical fitting boilermaker springmaker engineering electrical ...Numerous reports for students at the Ballarat Junior Technical School . Lists many students, and results in a range of subjects and techniques.apprentice, ballarat junior technical school, victorian railway apprentices, blacksmiths, coppersmithing, car painter, electrical fitting, boilermaker, springmaker, engineering, electrical wiring, panel beating, plumbing and gasfitting, printing, composing, carpentry and joinery, apprenticeship commission of victoria, d. baddelry, s. bridges, r. vincent, j. burrow, w. prowse, w. twaites, r.e. crump, bruce linklater, l.l. wood, john g. schepis, b. antonio, j. colligam, l. goldsmith, d. gilbin, r. skinner, w. vagg, p.w. stoddart, a.g. yarwood, d. england, w. loo, p.j. reidy, g.d. sleep, p. frempton, d.g> kelso, m.m.l. boersma, geoffrey hayes, a. blackburn, w. liddicoat, r.s. pike, a. bamford, v. mason, r. adriaans, j. gullock, j.p. dellaca, j. rinaldi, j. minehan, n. spicer, keith mcilvena, chris van gaans, william warren, instrument maker, ivan f. crowley, r. eastman, c. maccann, r.s. young, kevin bell, g. carroll, g. waldron, l.w. wilson, r. morrison, s. ellis, r.h. holmes, b. hubbard, r. quick, k. roberrts, j. blood, k. peacock, w. mott, r.f. rea, j. colligan, n. d'angri, s. fumberger, john gallagher, donald tozer, james skilbeck, a.j. mong -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Electrical, fittings 3 bakelite 1 brass c1930, c1931
... 3 Electrical, fittings c 1931 a) a bakelite plug..., fittings 3 bakelite 1 brass c1930 3 Electrical, fittings c 1931 ...As supply of electricity became available in the Moorabbin Shire c 1920 homes gradually changed from Gas lighting to Electrical lighting and bakelite was used for fittings. Bakelite was a safe non-conductor of the electric current. Housewives, who had ironed clothes with flat irons heated on the hearth of open fires, were delighted to be able to stand on a chair and remove the light globe and plug in their new clean and efficient electric iron. The supply of electricity to homes in the City of Moorabbin in the early 20th Century brought many welcome changes to domestic and commercial life 3 Electrical, fittings c 1931 a) a bakelite plug and socket Made in Australia b) a bakelite bayonet fitting Made in England ;c) Bakelite screw type with no markings d) A large brass and porcelain screw type with no markings L8 a) Australian Made / PIMI b) British Made in England c) No marks d) no marks electricity, electric lights, electric irons, bakelite, market gardeners, early settlers, moorabbin shire, mechanics institute cheltenham, postworld war 11 settlers, housing estates moorabbin 1950, bentleigh, ormond, moorabbin, cheltenham, clark judy, reed gladys, reed george -
Ballarat Tramway Museum
Document - List, State Electricity Commission of Victoria (SECV), :Geelong Tramways - Overhead Electrical Fittings Etc", late 1940;s
... - Overhead Electrical Fittings Etc", providing a list of Geelong... Tramways - Overhead Electrical Fittings Etc" List - 3 typed quarto ...List - 3 typed quarto sheets titled :Geelong Tramways - Overhead Electrical Fittings Etc", providing a list of Geelong tramways overhead equipment details - Drawing number, title and date. Provides details of overhead construction at various locations. Drawings dated up to 1946.secv, drawings, overhead, geelong -
Flagstaff Hill Maritime Museum and Village
Equipment - Stevenson Screen, Thomas Stevenson, ca. 1910
... /C0032" On instrument’s electrical fitting; “CD2” [within oval..." On instrument’s electrical fitting; “CD2” [within oval ‘+’ above S ...Stevenson screens were first introduced in Australia in the 1880s and were widely installed by 1910. The screens have been used to shelter and protect thermometers and other meteorological instruments from rain and direct heat while the holes and double-louvre walls allowed air to flow around them. Sometimes other meteorological instruments were included in the weather stations, so there were different Stevenson Screen sizes. This authentic, original Stevenson screen was previously owned by the Australian Bureau of Meteorology and was used for many years for weather readings at the Cape Otway Light Station in southwest Victoria. The Lighthouse Keepers recorded the readings for minimum and maximum temperatures at 9 a.m. every day from January 1865 until April 1994. The equipment was sheltered in a Stevenson Screen from 1902 until April 15 1994, when the mercury thermometer was replaced by a platinum resistance probe within an Automatic Weather Station (AWS). This Stevenson screen is one of the two screens that then became redundant. The other Stevenson screen was kept to display to visitors. Lightkeepers were no longer required at the Cape Otway Light station either, due to the automated system. The meteorological instruments donated with the screen were used for measuring temperature and humidity. They are mounted on a metal bracket that fits across the screw holes on the screen’s internal frame. The glass-covered Relative Humidity (RH) sensor was made by the renowned precision instrument maker, Rotronic AG of Switzerland, which was founded in 1965. The firm made its first electronic temperature and humidity instrument in 1967. Meteorological records have been collected in Australia from the 1800s. The records were collated, published and used as a basis for weather forecasts. Many sectors, such as maritime and agriculture industries, have relied on these figures for making important decisions. The quality and placement of the meteorological instruments used to measure temperature and humidity are of utmost importance for accuracy. In early colonial times, there were no national standards for meteorological instruments that would allow for accurate figures and comparisons. Once the Bureau of Meteorology was established (around 1908 to 1910) the department installed Stevenson screens throughout Australia, many at lighthouses and light stations, and the measuring instruments were standardised. The Stevenson Screen was named after its inventor, Scottish Civil Engineer Thomas Stevenson (1818-1887) who was also the father of Robert Louis Stevenson, author. Stevenson developed the small thermometer screen around 1867. It had double-louvred walls around the sides and a top of two asbestos sheets with an air space between them and was thickly painted with a white coating that reflected the sun’s rays. This design was modified in 1884 by Edward Mawley of the Royal Meteorological Society. Standards were set for the locations of the screens and instruments, including their distance above ground level and the direction the door faced.Stevenson screens played a significant part in providing a standardised shelter for all meteorological instruments used by the Australian Bureau of Meteorology from about 1910 until 1994. The readings from the instruments gave the meteorological statistics on which weather forecasts throughout Australia were based. This Stevenson screen was used locally at Cape Otway, along the Great Ocean Road in southwest Victoria, so contributed towards our local forecasts and weather warnings.Stevenson screen, original, from the Australian Bureau of Meteorology’s weather station at the Cape Otway Lighthouse. The screen is a white wooden cupboard with a slanted cover raised above the top. The top has ten drilled ventilation holes, and the sides and door are made of downward-slanting double louvres. Two brass hinges join the door to the lower edge of the screen and a metal fitting at the top edge allows for a padlock closure. The screen is supported on four short legs, each with a hole drilled from side to side for fitting to a frame. Inside the screen are two wooden frames fitted with hooks and screws. The floor has three boards; one across the back and one across the front at the same level, and a board wider than the space between these boards is fitted higher, overlapping them slightly. Inside the screen, a pair of electronic instruments with short electric cables is mounted on a metal bracket with drilled holes in it. One of the instruments is a Relative Humidity (RH) probe. It is 26 cm long and is a glass tube with a filter on one end and an electrical connection on the other. It has inscriptions on its label, showing that was made by Rotronic AG, Switzerland. The other instrument is a Resistance Temperature Device (RTD) thermometer. It is 22.5 cm long and has a narrow metal probe joined to a hexagonal metal fitting. A brass plate on the front of the screen has impressed inscriptions. The screen is Serial Number 01/C0032, Catalogue Number 235862.Stamped into brass plate "CAT. NO. / 253862 / SERIAL NO. 01/C0032" On instrument’s electrical fitting; “CD2” [within oval ‘+’ above S] “Serie693 op65 / 220/380V~16A” On instrument’s glass; “rotronic ag” “SWISS MADE” “CE / CH-8303 / Bassersdorf” Symbol for [BARCODE] “ART NO MP 101A_T4-W4W” “POWER 4.8.30VDC“ “OP. RANGE: 0-100%RH/-40+60° C” “OUT H 0-100% 0-1V” “OUT T -40+60°C -0.4..+0.6V” “SERIE NO 19522 009”flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, cotton region shelter, instrument shelter, thermometer shelter, thermoscreen, thermometer screen, measuring instruments, meteorological instrument, weather recording, weather station, lighthouse equipment, light station equipment, stevenson screen, marine instruments, mercury thermometer, platinum resistance probe, aws, automatic weather station, rotronic ag, swiss made, meteorological device, weather forecast, weather prediction, weather records, meteorological forecast, meteorological record, australian bureau of meteorology, bureau of meteorology, bureau, bom, relative humidity, rh, relative humidity probe, resistance temperature device, rtd, thermometer, temperature, humidity, cape otway, cape otway lighthouse, cape otway light station, rotronic, switzerland, swiss instrument, thomas stevenson, double-louvered walls, edward mawley, royal meteorological society, 01/c0032, serial number, cat. no. 235862, serial no. 01/c00323 -
Flagstaff Hill Maritime Museum and Village
Functional object - Marine Lamp, William W M Mc Geoch Ltd, 1910 to 1925
... and electrical fittings for ship, railway and domestic use. In the 1900s... of lamps and electrical fittings for ship, railway and domestic use ...In 1832 William McGeoch & Co., Ltd was established, by William McGeoch senior at 113 Argyle St Glasgow as hardware merchants and exporters, and later were manufacturers of lamps and electrical fittings for ship, railway and domestic use. In the 1900s the company had expanded and had offices at 28 West Campbell Street Glasgow with a factory and warehouse located at the Warwick Works, 46 Coventry Rd, Birmingham. In 1922 the company had expanded and were employing 400 to 500 people. William seniors three sons had joined their father in establishing the business around 1888. The business was run by William McGeoch senior with Williams three sons Alexander, William and Andrew also taking an active part in the day to day running of the company. The company had expanded to such a degree that they were now manufacturing a variety of ships' hardware. This included metal cabin furnishings, signal lamps, ships' oil and candle lamps, motor lamps, switches, switchboards, electrical accessories and fittings. In 1982 William McGeoch & Co., Ltd was acquired by Bowthorpe Holdings Ltd.A lamp made by a significant manufacturer of marine equipment that made fittings for many famous ships including the Titanic.Marine oil Lamp with glass panels. Front panel missing. Access through glass panel door at side flat metal back. Metal fuel reservoir and no burner. Metal rounded chimney on top. Embossed McGeogh Maker Glasgowwarrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lamp, ships lamp, wm mc geoch ltd, hardware merchants, ships outfitters -
Flagstaff Hill Maritime Museum and Village
Functional object - Navigation Side Lamp, early 20th century
... and an electrical fitting inside. The starboard lamp also has a hole in each... and an electrical fitting inside. The starboard lamp also has a hole in each ...This pair of navigational lamps or lights was fitted to the vessel S.S. Rowitta when it was renovated to become a display passenger ferry at Flagstaff Hill Maritime Village from 1976-2015. Navigation lamps are used to indicate a vessel’s position and direction of travel to other vessels nearby. This system of coloured lamps is standardised throughout the world for all marine vessels, red is for port and green for starboard, (red is for the boats right hand side). These navigation lamps were not the original fittings for this vessel but had come from a similar vessel of the same era of the early 1900’s. The history of the lamp fittings at this time is unknown. SS ROWITTA: - The 1909 steam ferry, SS Rowitta, was installed as an exhibit at Flagstaff Hill in 1975 and was enjoyed by many visitors for 40 years. Rowitta was a timber steam ferry built in Hobart in 1909 using planks of Huon and Karri wood. She was a favourite of sightseeing passengers along Tasmania’s Tamar and Derwent rivers for 30 years. Rowitta was also known as Tarkarri and Sorrento and had worked as a coastal trading vessel between Devonport and Melbourne, and Melbourne Queenscliff and Sorrento. In 1974 Rowitta was purchased by Flagstaff Hilt to convert into a representation of the Speculant, a historic and locally significant sailing ship listed on the Victorian Heritage Database. (The Speculant was built in Scotland in 1895 and traded timber between the United Kingdom and Russia. Warrnambool’s P J McGennan & Co. then bought the vessel to trade pine timber from New Zealand to Victorian ports and cargo to Melbourne. She was the largest ship registered with Warrnambool as her home port, playing a key role in the early 1900s in the Port of Warrnambool. In 1911, on her way to Melbourne, she was wrecked near Cape Otway. None of the nine crew lost their lives.) The promised funds for converting Rowitta into the Speculant were no longer available, so she was restored back to her original configuration. She represented the importance of coastal traders to transport, trade and communication in Australia times before rail and motor vehicles. Sadly, in 2015 the time had come to demolish the Rowitta due to her excessive deterioration and the high cost of on-going repairs. She had given over 100 years of service and pleasure to those who knew her. These lamps are an historical example of navigational equipment used in the early 20th century, adhering to a navigational standard that is worldwide, and a design similar to what is still being used today. They were used on the display vessel at Flagstaff Hill Maritime Village as an aid to maritime education. The Rowitta represents the importance of coastal traders to transport, trade and communication along the coast of Victoria, between states, and in Australia before rail and motor vehicles. The vessel was an example of a ferry built in the early 20th century that served many different roles over its lifetime of over 100 years. Two side navigation ship's lamps, quarter circle shaped metal boxes with glass window and removable lid. The lid attaches to the box using four brackets, wingnuts and screws that swing down out of the way. The window of double-thickness glass is inserted on the curved side of the box and attached by screws around the frame. The inner glass panel is coloured according to the lamp’s use; port is red and starboard green. The port lamp has a round hole cut into each of the two straight sides and an electrical fitting inside. The starboard lamp also has a hole in each straight side (one with a threaded fitting). Its lid has an additional cross bar on top that has a circular space in the centre, nuts and screws fit through holes in the ends and a folding handle is attached across the centre space. The lamps were once fitted onto the vessel Rowitta. The starboard lamp has an inscription stamped into the metal. Impressed on 3689.2; “STARBOARD PATT 8025” flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, flagstaff hill maritime village, navigation lamp, navigation light, navigation equipment, starboard patt 8025, ship’s fitting, rowitta, tarkarri, speculant, purdon & featherstone of hobart, passenger ferry 1909, vessel, display rowitta, display passenger ferry, sorrento -
Ballarat Tramway Museum
Functional Object - Electrical conduit, 21/01/2018 12:00:00 AM
... in houses c1920, to contain wires for electrical lamps and fittings... in houses c1920, to contain wires for electrical lamps and fittings ...Yields information about the materials and the methods of installing electrical domestic cables in Ballarat houses during the 1920's.Section of timber or wooden electrical conduit used in houses c1920, to contain wires for electrical lamps and fittings. Consists of a timber base (very light softwood - ??) with two slots that was nailed to a wall and after the cable installed a cover strip applied. Has one end mitred or cut at 45 degrees. See Early Electrical wiring systems in American buildings - L. D. Mitchelltrams, tramways, esco, electrical equipment, house extensions, houses, electricity -
Melbourne Tram Museum
Document - Report, Metropolitan Transit Authority (MTA), "Metropolitan Transit Authority of Victoria - Tram and Bus Division - Tram Repair Policy", c1988
... . Includes notes on Bogies, bodywork and fitting, electrical.... Includes notes on Bogies, bodywork and fitting, electrical ...Document - policy - report - 28 A4 pages, stapled in the top left hand corner titled, "Metropolitan Transit Authority of Victoria - Tram and Bus Division - Tram Repair Policy". Has table of contents. Looks at the identification of tasks between the tram construction and maintenance branch of the Tram Servicing branch. Includes notes on Bogies, bodywork and fitting, electrical and electronic equipment, W class air equipment and W class mechanical braking equipment.Has a list on the top right hand corner for distribution and "c1988" in ink.trams, tramways, mta, w class, maintenance, construction -
Ballarat Tramway Museum
Book, British Insulated Cables Limited and Prescot and Lancashire, "The B.I. Hand-Book", Jan. 1927
... , specifications and information on electrical products, including overhead..., specifications and information on electrical products, including overhead ...Fourth edition of the British Insulated Cables Engineering Handbook, January 1927. Book is full bound in blue Rexene with round corners and end papers, sewn in 32 page signatures or sections. Cover has BI symbol in gold embossing and on spine. Outside of the pages have edged in gold leaf. Printed material consists of 452 pages, comprising many tables, illustrations, specifications and information on electrical products, including overhead fittings of the British Insulated Cables Limited and general electrical information. Gives company information and address and representative details.On inside end cover, two signatures, "G. Laurens 1927" and "P. M? 1939"trams, tramways, cables, electrical engineering, british insulated cables, handbooks -
Federation University Historical Collection
Document, List of Subjects
School of Mines Ballarat is predecessor of Federationn University Foolscap sized list of Subjects from Ballarat School of Mines with handwritten names.8S3S in large writng on the back school of mines ballarat, practical chemistry, mr. walker, theoretical chemistry, theoretical agricultural chemistry, practical agricultural chemistry, technical chemistry, metallurgy, alfred mica smith, metallurgical calculations, metallurgy of gold and ore dressing, assaying practical, assaying dry, mr. murphy, ore dressing practical, mining, mining geology, mineralogy, geology, petrology, botany, applied mechanics, mr hart, mine surveying, land surveying, steam and gas engines, mr gilchrist, elementry electricity & magnetism, electrical technology, mr sutherland, turning and fitting, mr connon, engineering drawing, mr kerr, geometry, algebra, trigonometry, physics, conics, calculus, mr whitington, building construction, plane and solid geometry, plumbing grade, mr hall, mr mullins, carpentry, wool classing, materia medica, mr gutheil, technical arithmatic, mr hutchison, telegraphy, mr williams, sloyd, mr slater, photography, mr campbell, manual training, cyanide, mr deane, mr brittain, mr martell, english, astronomy, list of subjects -
Federation University Historical Collection
Booklet - Printed Programme, Ballarat School of Mines Prize Night Programs, 1961-1975, 1960-1975
The Ballarat School of Mines Prize Night was held at the Ballarat Town Hall Trench Room from 1960-1971, the Lower Civic Hall 1972, Wendouree Municipal Hall 1973-1975. The prizes awarded were for the work done in the previous year. Guest speakers: 1960 J. Lonsdale, Production Manager, M.B. John & Hattesley Ltd. 1961 E.J. Neale, Manager Ballaarat Gas Company 1962 W.G. Smith, Director, Myer Empirium (Ballarat) Pty Limited and Member of the School of Mines Council 1963 K.C. Webb, Member of the School of Mines Council 1964 A.E. Stohr Vice-President of the School of Mines Council 1965 B.J. Nicholson, Factory Manager, Australian Timken Pty Ltd and Chairman of the Ballarat PRoductivity Group 1966 L.C. Yandell, District Inspector of Schools 1967 J.L. Trevenen, Vice-President, Victorian Automobile Chamber of Commerce 1968 A.C. Eldridge, Assistant Director of Technical Commission of Victoria 1969 W.J. Anderson, General Manager, Bendix Mintex Pty LtdS. Martin-Brown, Managing Director, Firth Cleveland Pty Ltd 1971 S.F. Newman, Manager Director, Engineering Products Pty Ltd, Employer Representative, Metal Trades Division, Apprenticeship Commission 1972 R.J. Dobell, Regional Directorof Education, Ballarat 1973 B.J. McCulloch, Manager, ELectrical Supply, Mid-Western Regions, State Electricty Commission. 1974 W.J.C. North, Managing Director, Australian Timken Pty Ltd 1975 I.D. McCoy, Managing Director, James Selkirk Pty Ltd Four page booklets listing students who won a trade prize at the Ballarat School of Mines. From 1960 to 1971 the awards were held at the Ballarat Town Hall Trench Room, in 1972 it was held at the Lower Civic Hall, and from 1973 to 1975 it was held at the Wendouree Municipal Hall. ballarat school of mines, prize night, ballarat town hall, trench room, lower civic hall, wendouree municipal hall, commercial, awards, dressmaking, woolclassing, turning and fitting, tool and die-making, oxywelding, electric welding, boiler making, panel beeting, motor mechanics, electrical mechanics, arpentry and joinery, plumbing and gasftting, m.b. john, h.e. arblaster, harry arblaster, w.g. smith, a.e. stohr, ken webb -
Federation University Historical Collection
Book - Ledger, Ballarat School of Mines Trade Meetings?
... and magnetism fitting and turning electrical calculations geology ....2) Timetable book of the Ballarat School of Mines, associated with H.H. Smith, and student fees.ballarat school of mines, trades, h.h.smith, sheet metalwork, plumbing, gasfitting, carpentry, joinery, cabinet making, manuel training, photography, architecture, engineering drawing, dressmaking, assaying, chemistry, electricty and magnetism, fitting and turning, electrical calculations, geology, geometrical drawing, hydraulics, applied mechanics, mining geology, metallurgy, mineralogy, printing, physics, petrology, surveying, steam and gas engineers, turning and fitting, trigonometry, telegraphy, telephone fitters, woolclassing -
Federation University Historical Collection
Document, Apprentice Commission of Victoria Technical School Term Report on Apprentices, 1950, 1951, 1952, 1954, 1950, 1951, 1952, 1954
... and Mechanical Engineering, Electrical Mechanics. fitting and turning ...Carbon copies of a foolscap form with Ballarat School of Mines apprentice name, attendance, examination results and general remarks and Victorian Railway Reports. The originals were signed by the Head of Department and Principal. Some heads of departments signed the copy including. H. Goldsmith. Subjects include Fitting and Turning and Mechanical Engineering, Electrical Mechanics. fitting and turning, mechanical engineering, trades, apprentices, school report, h. goldsmith -
Federation University Historical Collection
Booklet, The Ballarat School of Mines and Industries 1870-1920 Jubilee Booklet, 1920 (estimated)
The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee -
Federation University Historical Collection
Booklet, Ballarat School of MInes Certificate Book, 1911-1912
A Certificate stubb book, the stub recording when a Ballarat School of MInes certificate was collected, and the right hand section signed by the person who picked it up. g.o. ramsay, assaying, mining engineering, reginald a. roberts, virgil tucker, thomas sim, fitter and machinist, john worthington, ernest h. fraser, metallurgy, george w. cornell, thomas r. williams, mt morgan, jubilee hill, e. morshead, engineering drawing, norman buley, p.e. marmion, loyal h. finch, engineering draughtsman, elsie lewis, dressmaking, dresscutting, harold h. bieske, chemistry, mineralogy, leslie james middleton, f.v. retallack, a.g. campbell, mining engineering, leslie j. coulter, w. baragwanth, geology, w. moon, w.j. sayer, john f. foster, j.h. thomas, algebra, geometry, electrical technology, francis c. hall, chemistry, dynamics and heat, applied mechanics, vincent m. booth, turning and fitting, fitting and turning, steam and gas engines, h.i.w. dixon, colin c. corrie, f.v. retallack, r.a.j. roberts, v.e. mellington, j. sides, trigonometry, h.j. whittingham, w.h hull, milton williamson, a.c. stanger-leathes, w.j. mckenzie, e.s. anderson, richard g. walker, h.g. cornell, r.h. achison, s.h. mayo, allan o'meara, r.m. serjeant (jnr), j.h. thomas, l.h. finch, leslie j. middleton, virgil tucker, h.e. hawkesworth, r. ingram moore, reginald e. callister, rudolph bieske, j.f. roy, william geldard, w. richardson, l. trahar, albert j, robin, tongala, mine surveying, land surveying, john l. sampson, edgar c. hurdsfield, george e. stephenson, sherbourne hal. sheppard, oliver w. williams, e. mowbray boyer, first aid to the injured, lilliam nankervis, alan j. perry, albert e. coates, r. hamlyn, r. ironbridge, s.e. ellsworth, j.m. matthews, ross ironbridge, sarag e. ellsworth, frncis r. mcgregor, f.g. middleton, dora furness, v. matthews, george farmer, d. owen, ethel m. woolcock, r.j. walker, port pirrir, n. buley, electricity and magnetism, l.s. anderson, aubret simmons, william f. williamson, robert n. allan, jack blackie, nelson h. ferguson, ronald ferguson, w. mckenzie, david w. bonar, harry j. myles, charters towers, howard hall, r.a. roberts, william baragwanath, guy o. ramsay, harold bieske, leslie coulter, john foster, francis hall, vincent booth, colin corrie, milton wiliamson, albert coates, francis r. mcgregor, ethel woolcock, aubrey simmons, ronald j. ferguson -
Federation University Historical Collection
Booklet, The Ballarat School of Mines and Industries 1870-1920 Jubilee Booklet, 1920 (estimated)
The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee -
Federation University Historical Collection
Document - Technical School Reports, Technical School Report on an Apprentice, 1966
Yellow printed apprentice reports issued by the Ballarat School of Mines. Report include parents name and address, and their examination results.ballarat school of mines, apprentice, trades, carpentry and joinery, electrical wiring, welding, printing, composing, motor mechanics, fitting and machining, bellingham, plumbing, gasfitting, canny, leviston, ludbrook, mcilvena, penhall, s.f. sartori, d.w.sartori, n. steinman, w.m. thege, richard thege, w.m. thege, g.h. lamb, panel beating, j. dellaca, j.v. dellaca, boilermaking, j. flood, i.w. flood, graeme hood, a.h. hood, j.w howell, vern howell, b.w. antonio, george bellingham -
Kiewa Valley Historical Society
Case leather
This case was used between 1950 and 1980's. As part of the Occupation, Health and Safety requirements, equipment used to monitor the performance of electricity producing generators, regularly, hand held testers were used to check the insulation and the "earth" pin were up the the required operational levels. As the generators and their ancillary monitoring equipment was spread over a large area and cumbersome to service small hand held devices were required. These had to always be safe for the user to operate. A selected range of high quality meters were recalibrated every two years in the Meter and Calibration Laboratory at Yarraville(near Melbourne)This leather case contains a meter which is very significant to The Kiewa Hydro Electricity Scheme because it was an integral part of maintaining the electricity producing water driven generators of the power stations. The reason why this meter was so essential is that provided the safety check on equipment used to monitor each Hydro Generator that they were complying within the grid network parameters. Grid parameters are set so that if there is an electrical fault on the system, that fault can be attended to with a very small change in the output stability of each generator. It is essential that the voltage of the network remain within the set limits. Generators are at Dartmouth, Mackay, Clover, West Kiewa, Yarrawonga, Cain Curran and three Power Stations in the Thornton area.This carry case is made from leather hide and cloth covered cardboard insert. The front side has a lockable English made suitcase fitting. It has a broken carry strap (leather) travelling from top and through leather strap holders both sides and on the bottom of the case. A State Electricity Commission of Victoria identification tag riveted onto the top lid "ELECTRICAL ENGINEERING SECTION No. 1483"sec vic kiewa hydro scheme, alternate energy supplies, alpine located electricity generators, mobile measuring equipment -
Kiewa Valley Historical Society
Portable Resuscitator Electric Therapy Unit
A shock of different voltages was delivered to a person using the two metal handles or two heavy soft wire combs (missing but known of) were moved across the skin. Perhaps this was an early TENS Unit. The unit came to the donor's grandfather (Roy F. Leibig - Chief Electrical Inspector of the Brunswick (Melbourne) Electric Supply) for repair and returned to his keeping once it had become obsolete (upgraded by newer machine). Donor often helped his Pa repair electrical equipment.Historical: The Resuscitator or Electric Therapy Unit was used in hospitals, possibly Mental hospitals. Provenance: The donor worked at Mt Beauty in the Kiewa Hydro Electric Scheme with the State Electric Commission of Victoria as an electrician. Black wooden smooth box with clip fastener which is screwed on - 3 screws for the base and 2 for the lid. On top of the box is a leather strap for the handle fastened by steel screwed into the box. Inside: A mask with attached strap. Tap fitting loosely into steel box. Metal cylinders and a Cardboard box. A wooden lockable case, housing electrical equipment suitable for issuing high voltage shocks.In red, middle of the side with fastener - "SPARKLETS RESUSCITATOR" Scruff marks inside the lid. A cream plastic tag is screwed on and inscribed"Manufacturers:- / SPARKLETS LIMITED / EDMONTON, LONDON, N.18 / Made in ENGLANDmedical, hospital equipment, resuscitator, tawonga district hospital, doctor -
Tatura Irrigation & Wartime Camps Museum
Stand - Lamp, 1940's
Used by internees at Camp 3Round wooden base slightly fluted upright formed to hold a ceramic fitting for electric light glove. Existing electrical cord fitted in more recent times (after WW2)lamp stand, wood, hornung g, frank g, camp 3, tatura, ww2, handcraft, woodwork -
8th/13th Victorian Mounted Rifles Regimental Collection
Functional object - Boiling vessel
The vessels boiling electrical was used by soldiers of 8/13 Victorian Mounted Rifles when it was equipped with Centurion tanks 1966-71. A boiling vessel fitted to British armoured fighting vehicles that permit the crew to heat water and cook food by drawing power from the vehicle electrical supply. It is often referred to by crewmembers (not entirely in jest) as the most important piece of equipment in a British armoured vehicle. The "Vessel Boiling Electric" or "BV" was an innovation at the very end of World War II, when the Centurion tank was introduced with the device fitted inside the turret. Previously, British tank crews had disembarked when they wanted to "brew-up" (make tea), using a petrol cooker improvised from empty fuel cans[4] called a "Tommy cooker". Use of the BV enabled the crew to stay safely inside the tank and reduced the time taken for breaks. The first version, known as VBE No 1, began to be replaced in the early 1950s by the stainless steel No 2 version. A VBE No 3 had improved electrical sockets and was less prone to leakage. The principal use of the BV is to heat ration pouches or tins; the hot water is then used for making drinks or washing. The BV is cuboid and accommodates four tins; typically matching the crew numbers of an armoured fighting vehicle. Ration tins are supplied without adhesive labels so the surrounding water is not contaminated. A vehicle with a defective BV is declared unfit for purpose. It is common practice for a junior member of a vehicle crew to be unofficially appointed "BV Commander", responsible for making hot drinks for the other soldiers. Example of article which improved efficiency and well-being of tank soldiers.Cilinderical metal vessel with close fitting lid, folding handle and electrical socket on side.military, tank, centurion, meals, boiling -
Flagstaff Hill Maritime Museum and Village
Equipment - Dentist Drill, Late 19th century
The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental handpiece that would be fitted with a dental tool. On the foot is painted lettering naming it "The Brentfield" and there is a fine line of light coloured paint creating a border around the name. The paint under the lettering is peeling off. The drill has a Y-shaped, three footed cast iron base, one foot being longer than the other two. A vertical frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from adjustable telescoping pipes, joins into the top of this frame. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up, down and around. There is a pulley each side of the joint of the arm and a short way along the arm is fitted a short metal pipe. A little further along the arm a frayed-ended cord hangs down from a hole. At the end of the arm is another pulley and a joint from which hangs a long, thin metal pipe with two pulleys and a fitting on the end. A treadle, or foot pedal, is joined to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle fits between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The foot pedal has a cross-hatch pattern on the heel and the ball of the foot has tread lines across it. The end of the toe and the instep areas have cut-out pattern in them. "The ____/ Brentfield / __ DE IN L___" (Made in London) painted on the long foot of the base. Marked on the drill connection is “Richter De Trey, Germany”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison, the brentfield, richter de trey, german dental fitting, london dental drill -
Federation University Historical Collection
Booklet, Berry Anderson & Co, The School of Mines and Industries, Calendar, 1914, 1913
... , Electrical Engineering for Post Office Mechanics, Turning, Fitting ...Contents of the Booklet: Associateship, Calendar, Certificate Courses - Science, Certificate Courses - Art, Draughtsman's Courses, Discipline, Discipline Board, Examination Results, Fees, Full Certificates Issued, General Regulations, Introduction, Junior Technical School, Railway Fares, Teaching Staff, Technical Art and Craft School, Subjects of Instruction - Department of Chemistry and Metallurgy, Geological Department, Engineering Department, Electrical and Electrical Engineering Department, Department of Mathematics, Department of Physics, Electrical Wiring, Electrical Engineering for Post Office Mechanics, Turning, Fitting and Blacksmithing, Telegraphy, Art and Applied Art Subjects, Architecture and Building Construction, Engineering Drawing, Carpentry and Manual Training, Dressmaking and Dresscutting, House Decoration and Signwriting, Photography, Plumbing, Sheet Metal Working Blue covered 176 page booklet relating to the School of Mines and Industries in the year 1914. school of mines and industries, william poole, professor a. mica smith, daniel walker, hubert r. murphy, a. e. c. kerr, e. j. a. mcconnon, john m. sutherland, ralph williams, e. gutheil, t. wlliams, herbert h. smith, a. m. lilburne, m. c. young, h. j. hall, d. t. johnson, e. j. cannon, g. clegg, c. e. campbell, w. j. hall, w. h. steane, j. wright, s. h. hodder, w. j. patterson, h. w. malin, r. v. maddison, science department, associate courses, certificate courses, technical art and craft department, associated trade classes, sir redmond barry, judge rogers, r m. serjeant, thomas bath, e. ballhausen, dr stewart, james oddie, associateship and final certificates, mining engineering course, metallurgy course, applied chemistry course, irrigation engineering course, certificate courses, geology course, electrical engineering course, municipal and hydraulic engineering course, chemistry, agricultural chemistry, technical chemistry, engineering chemistry, physical chemistry, metallurgy, assaying, minerology, petrology, engineering and mining department, turning and fitting, mining, electricity, electrical technology, graphical algebra and analytical geometry, physics, mechanics and heat, sound and light, technical, art, craft and trade schools, teachers' certificates, drawing, modelling, ballarat junior technical school, full certificates issued, examination results - 1910, 1911, 1912 -
NMIT (Northern Melbourne Institute of TAFE)
DVDs: Promotional DVDs NMIT 1990-2010
Instructional and promotional DVDs ranging in date from 1990-2010 promoting courses and services of NMIT. 1990s An Introduction to NMIT 1996 X 2 Building & Construction Heidelberg 1992 Building & Construction Heidelberg 1992 1, 2, 3 (Umatic) Concrete pour - Heidelberg 1992 Greensborough Music Promotional 1994 Making the move 1996 (also booklet) NMCOT College Promotion 1990 NMCOT College promotion 1992 NMCOT Corporate Video 1992 NMCOT Corporate video 1994 NMCOT Enrolment form 1991 (Umatic) NMCOT Enrolment Form 1992 NMCOT To Market to Market Promotional video 1993 NMCOT To Market to Market Promotional video 1994 NMIT School of Arts & Social Sciences 1996 NMIT School of Building & Construction 1996 NMIT School of Business 1996 NMIT School of Electrical, Electronics & Sciences 1996 NMIT School of Horticulture & Rural Studies 1995 NMIT School of Horticulture & Rural Studies 1996 NMIT School of Manufacturing Engineering 1996 NMIT School of Mechanical Manufacturing 1996 NMIT School of Tourism & Hospitality 1996 NMIT Faculty of Earch Sciences 1998 NMIT The Electrical Connection 1995 Open Day 1992 Student Information 2003-2008 Advanced Diploma of Music Performance (undated) Challenges accepted, NMIT Roadshow 2005 Mechanical manufacturing 2003 Promotional video (master) 2006 Songwriting competition NMIT 2008 The Electrical connection 2003 2009 Animal Studies 2009 Bachelor of Viticulture & winemaking 2009 Certificate III in Aged Care 2009 Children’s Services 2009 Courses through Design Drafting & Interior Fittings 2009 X2 Equine Studies 2009 (also accompanying book) Erection and Dismantling procedure for an Oldfields Mobile Scaffold 2009 Facilitate Individual Learning Activity The REV shop Case Study 2009 Formwork to Columns and Beams 2009 Green skills Centre of Excellence : Contributing to sustainability directly through the design, our actions and by educating future generations on sustainable technology, [DVD], NMIT Epping Campus, [2009] Interior design 2009 Locksmith Apprenticeships 2009 Secondary to Tertiary: the Journey begins 2009 X 2 Visual Arts at NMIT 2009 2010 Advanced Diploma of Building design 2010 Bachelor of Accounting 2010 Bachelor of Equine Studies 2010 Certificate III in Farriery (Trade) 2010 Civil Engineering 2010 Cloisonne Enamel 2010 Conservation and Land Management 2010 Health & Community studies 2010 Horticulture 2010 How to check and adjust a single stage Liquid Petroleum Gas Regulator 2010 Locksmithing more than a trade 2010 Music, Sound & Television 2010 Pragmatic Failures in Intercultural Communication 2010 Technical Education Centre, Youth Unit, NMIT 2010 Viticulture & Winemaking 2010 Why study Community Services at NMIT 2010 courses, handbooks, nmit