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Kiewa Valley Historical Society
Case Leather, circa mid to late 1900's
When this AVOMETER leather case was being utilised in the early 1950's it contained the "leading" edge of electrical measuring instrumentation.The first meter was produced by Automatic Coil Winder and Electrical Equipment Co. in 1923. This model was produced in the time from 1933 to 1951 when it was superseded by the most popular model, Model 8 (1951 to 2008).This leather case which holds its AVO Meter brought the measuring of three electrical power indicators i.e., amps, volts and ohms into one measuring unit. By using a "one fits all" unit, the carrying of separate measuring devices was reduced considerably. The need for a mountainous and a large area of operational requirements, such as the SEC Vic Kiewa Hydro Electricity Scheme, to minimise the weight of equipment carried by electricians and technicians was of the utmost relevance. The significance of this meter to the Kiewa Valley region relates to the impact of modern technology (at that time) upon a mainly rural environment. This equipment shows how the boost of "modern" equipment into the area because of the "Hydro Scheme" was facilitated a lot faster than would have taken under "normal" evolutionary time. The speed of information on all "new technology" had a relatively slow assimilation rate to those living in rural communities. The use of solid leather carrying bags for transporting equipment up and down the mountains provided some form of protection against bumps and dust.This carry case for its AVO meter has an outer leather covering with an inner thick cardboard liner. The case has two mild steel buckles but stitched onto one side but no lid to fasten down. The sides are stitched together with strong tick twine. On either side there are small strap holds. On the bottom are four large chromed metal lugs acting as feet to keep the bottom from lying flat on any floor. The outside bottom has been branded "SOLID COWHIDE"Between the front two buckles is a identification plate riveted onto the cowhide "STATE ELECTRICITY COMMISSION OF VICTORIA ELECTRICAL ENGINEERING SECTION"electrical meters, electrical equipment, sec vic., state electricity commission of victoria, mount beauty, bogong village -
Kiewa Valley Historical Society
Core Rock Samples
The core samples in the display cabinet were obtained from the various sites at which drilling into the rock surface was carried out (under the control of design and structural engineers of the SEC Kiewa Hydro Scheme - late 1940's). This function was a precursor to the decision where to locate, in this case, the McKay Creek Power Station. The information gained by structural engineers from the core samples would be used also for the placements of underground tunnels entry and exit points and the overall effective size of the generator plant. This would have included drill and blast techniques (rock characteristics play an import part of explosion control), requirements for support structures and reinforcing cement/steel forms. The use and replenishment of diamond drill bits(the strongest available, see KVHS 0280) was dependent on the "type" of rock found (harder rock required greater numbers of drill bits). Support beams for reinforced ceilings and floors was also a necessity.These rock core samples are very significant in the formulation and placement of the underground Power Stations and their maze of tunnels (in and out) for a successful implementation of the Hydro Scheme. The amount of pre-planning and engineering studies required for such a large scheme must be undertaken to ensure that a "white elephant" was not the result.There are nine columns of rock cores, each 30mm in diameter, set in a wooden display rack. A clear plastic (slide out) protective panel is installed to the front section. Within each column are block details of the depth from which that section was brought from. See KVHS for the appropriate sketch details.Depth levels (retrieved from) are shown for each section on wooden Blocks: 1st Block: "7'10" (seven feet, ten inches), 2nd Block:"9'4" (nine feet, four inches), 3rd Block: "19'3" (nineteen feet, three inches), 4th Block: "24'2" (twenty four feet, two inches), 5th Block: "25'7"( twenty five feet, seven inches) and last block: "30' (thirty feet)"alternate energy supplies, alpine feasibility studies temperature, rainfall, sec, kiewa hydro scheme, electricity -
Kiewa Valley Historical Society
Photographs x 2 - Clover Dam, Circa 1940's
As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) implemented the conversion strategy from mainly brown coal supply to hydro - electricity. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. Clover Dam and Power Station were built by the State Electricity Commission of Victoria as part of the Kiewa Hydro Electric Scheme from the late 1930's to the early 1940's. This dam was constructed to supply water to feed four turbines (62 mega watts) at the West Kiewa Power Station. This was at the forefront of sustainable "Green" energy. Costs associated with power supplies is still a major incentive of governments, however environmentally friendly alternatives such as wind and nuclear have also made inroads. The Kiewa valley and its surrounding alpine catchment were looked at(Victorian State Government), from the beginning of the twentieth century as a source of alternate power for an ever-increasing demand for electricity by growing population and heavy industrial areas within Melbourne City and State regions. Construction of dams, such as Clover Dam provided the large quantity holding areas of water required to turn the turbines at the various power stations to provide the electricity needed. The impact of these controls by moderating water run-off from the alpine regions is beneficial in reducing flooding from thawing of snow on the alps. This by-product allows agriculture and grazing to be less vulnerable to seasonal flooding thereby resulting in a more stable annual production level. Photographs also document early engineering and building techniques used in the construction of dams and power stations during the 1940’s and 1950’s. Note the lack of safety equipment and suitable work attire worn by construction workers on the sites 1. Black and white photograph of Clover Dam under construction. Has a .5cm white border around photo 2. Black and white photograph of Clover Dam under construction showing workmen at work. Has a .5cm white border around photo Written in pencil on back of both photographs - Clover Damclover dam, secv -
Kiewa Valley Historical Society
Photograph - Folder of Photographs – Photocopied set of 10 black and white photographs (pages 29 - 38) from the display folder put together by KVHS to document life on the Kiewa Valley Hydro-electric Scheme
Although the Kiewa Hydro-Electric Scheme was first proposed in 1911, construction did not commence until 1938. As part of the push to cut electricity costs and diversify supply, the Victorian Government (circa 1930) initiated the conversion from primarily brown coal supply to hydro – electricity. Field investigations during the 1940’s resulted in a new proposal for a scheme that had more than double the capacity of the 1938 scheme. The Kiewa Hydroelectric Scheme became the largest scheme of its kind in the State Of Victoria and the second largest scheme in Australia. The number of personnel involved in the planning and construction of the scheme increased dramatically. During the late 1940’s, most activity centred around the construction of the West Kiewa Power Station, Rocky Valley Reservoir, McKay Creek Power Station and the Bogong Creek Aqueduct.A common thread across all the larger hydro scheme constructions was the need for workers, both qualified and unqualified who came from around the world seeking a new life for themselves and their families. New accommodation and facilities were required for the army of workers engaged in construction in often remote and wild areas. The SEC had a high demand for timber, and set up the first of a number of sawmills at Bogong Creek in 1939 and set up the first hardwood logging in the headwaters of the Kiewa River. These new ‘towns’ such as Mt Beauty and Bogong, survived, serving the needs of operational personnel and their families, and expanding with growth of new industries. Mount Beauty, and to a lesser extent Bogong, are among these places. Large A3 size spiral bound display folder containing 21 pages of photocopied black and white photographs of various aspects of the early days of the Kiewa Valley Hydro-electric scheme including equipment, various work sites and photographs of workers and their families. 1-Mt Beauty Pondage inlet-Regulating weir 2-Langfords Gap Basalt Hill-Tunnel in quarry face.3-Rocky Valley Camp-from Engineering Office 4-Basalt Hill tunnel portal 5-No 1 Pressure Shaft Works Bench 6-No 1 Power Station 7-Overturned haulage wagons on the side of an embankment 8- Group of workers dressed in wet weather gear inside a tunnel 9-Workmen and vehicle in tunnel 10-Howman’s Gap campsite at 4,150 feet 1-1954 – Mt Beauty Pondage inlet – Regulating weir Page number 29 2-28/10/54 – Langfords Gap Basalt Hill – Tunnel in quarry face K7860 Page number 30 3-STATE ELECTRICITY COMMISSION OF VICTORIA Date: 17.8.55 Time: No K8132 Kiewa Hydro Electric Works ROCKY VALLEY CAMP – FROM ENGINEERING OFFICE Page number 31 4-28/10/54 – Basalt Hill tunnel portal K7859 Page number 32 5-No.1 Pressure Shaft Works Bench 5.7.56 Page number 33 6- No. 1 Power Station 26.4.59 Page number 34 7- No markings Page number 35 8-No markings (Wooden board on ground printed with - POLAR A.N.GELATINE DYNAMITE “75” DE 28.8.40) Page number 36 9-No markings Page number 37 10-Howman’s Gap campsite at 4,150 feet Page number 38 secv; kiewa hydro electric scheme; mt beauty; bogong; construction area -
Kiewa Valley Historical Society
Ron White's Collection - 1920 - 2019
Ron White was born in 1920. He received a Diploma of Mechanical Engineering at Footscray Technical School in 1946. He started work as a laboratory assistant and after several promotions was appointed Senior Operator in 1948. In 1949, he was Engineer, Grade 1 (Hydro Areas). After further promotions he became Assistant Area Engineer, Rubicon at new Eildon Power Station and Area Engineer, Kiewa in commissioning Mt Beauty Terminal Station and West Kiewa Power Station.. By 1956, he was the Area Operations Engineer at Kiewa and four years later the Kiewa Electrical Superintendent (Operations and Maintenance) . In 1961, he was officially recognised as deputy for the General Superintendent, Kiewa. In 1966 he was appointed General Superintendent Kiewa and Kiewa became 'a branch of the Transmission Department'. In 1974, the Rubicon / Eildon Area was also under Ron's control. His title was "Principal Hydro Engineer, Hydro Division, Transmission Operations Department. He held this position until his retirement in 1985.Ron White was an important identity in his role as Principal Hydro Engineer from 1966 to 1985 after the completion of the Kiewa Hydro Electric Scheme. His long period of service involved him in the construction, operation and maintenance of the SECV's Hydro Electric Schemes and administration of related catchment areas. He had a close association with the local communities and care for the welfare of employees. He lived in Mt Beauty and was well respected in the community and beyond. He passed away on 30 September 2019, aged 99 years.A) History of Ron White's Working Life: including papers relating to "Promotion & Staff Appointment" B) Ron White's Retirement - 11th Jan. 1985: papers, cards, letters, photos, disc/plaque C) Ron White's Certificates: Diploma of Mechanical Engineering; First Aid; D) Ron White's Correspondence - miscellaneous E) Ron White's History of the 'Kiewa Scheme' from 1936- 1966. Written 1986 F) Ron White's Photo album Includes photos of him and the 2003 bushfires G) Miscellaneous Photos (not labelled) from Ron's photo album. Possibly relatives including nieces and nephews. H) Pewter Mug presented to Ron - Water Board I) Wall hanging presented to Ron - Scouts J) Ron White's Slide Ruler & Mathematical Instruments K) Collection of 7 books owned by Ron L) Starting Pistol Caps box M) Ice-cream serverF) One photo of Ron with 'Ken Connors'. One photo with 'l to r: Norm Middleton, Graham Napier, Ron White, Les Peart.' G) 2003 fires has a note re time, date and whereabouts of fires H) "Presented To / Ron White / In Appreciation For Service / To The / Kiewa Valley / Water Authority / And / Its predecessor Bodies / December 1994 I) Wall hanging: On emblem - "Lord Baden-Powell Society / The Scout Association of Australia". On Name Plate below - Ronald K. White 1989" J) mathematical Instruments have 'R. W' embossed in red on the corner of the cover M) 100 Straitline, Starting Pistol Caps N) National Ice-cream Server with stainless steel spring Size 20 ron white, hydro engineer, kiewa hydro electric scheme -
Ringwood and District Historical Society
Photographs, 1979-80 MMBW pipe line project at Hubbard Reserve, North Ringwood � Line of sewer work with mole power pack near Hibberd's shed
Part of a 43-photo record of the MMBW�s engineering feat in drilling a 12 inch pipe line up to 40 feet deep through rock hardened by volcanic action associated with geological fault that occurs along the line. The work took place from October 1979 to May 1980 on the southern boundary of Hubbard Reserve, North Ringwood. The collection was presented to the Ringwood Historical Research Group by J Clarke on 9th June 1980.E560 N28 Jan 1980 A43 Line of sewer work with mole power pack near Hibberd's shed -
Ringwood and District Historical Society
Photographs, 1979-80 MMBW pipe line project at Hubbard Reserve, North Ringwood � hydraulic mole
Part of a 43-photo record of the MMBW�s engineering feat in drilling a 12 inch pipe line up to 40 feet deep through rock hardened by volcanic action associated with geological fault that occurs along the line. The work took place from October 1979 to May 1980 on the southern boundary of Hubbard Reserve, North Ringwood. The collection was presented to the Ringwood Historical Research Group by J Clarke on 9th June 1980.E565 N10 28 April 1980 A43 The "muscles" of the mechanical mole, driven by a hydraulic line from a powerful "power pack". -
Warrnambool and District Historical Society Inc.
Document, Albion woollen mills, C 1926
Thomas Broadbent $ sons Ltd was established in 1864 in Huddersfield England. They are an engineering firm , specialists in heavy duty engineering products. By 1893 Broadbent had progressed to steam powered engines for the textile industry. Some of these machines operated for upwards of 50 years Today Broadbent is a leading world designer in the manufacture and maintenance of advanced centrifuges. This document is a manual for a suspended direct steam driven hydro extractor. It shows the various parts , maintenance instructions and erection and working instructions. While it is stamped as Albion Woollen mills which were situated at Geelong, it is likely to have connections to the Warrnambool Woollen Mills.This document is a good example of machinery manual. It is possibly linked to the Warrnambool Woollen Mill. The fact that the company which manufactured these items is still in existence today after 150 years is testament to the quality of the items produced.Cream coloured document with mainly black text with some red text for headings contained in the document. It is printed front and back and is folded in three sections.Stamp at top "Albion Woollen mills Pty Ltd" .4H x 4 in red pencil in top RHC. Printed on front page. Thomas Broadbent & Sons Ltd Central Iron Works Huddersfield. warrnambool, warrnambool woollen mill, broadbent direct steam driven hydo extractors,, broadbent centrifuge -
Warrnambool and District Historical Society Inc.
Book, Star Printing Service Pty Ltd, Dear Adam and Jasmine, 2015
This book contains information on the environmental problems facing the world. The effects of climate change, over-population and fossil-fuel use are discussed and some alternatives to coal production and the use of nuclear power for peaceful purposes and for defence are proposed. The book has been written for, and is dedicated to, the author’s grandchildren. This book is retained as it was written by Graham Keith, a local Warrnambool resident who has had considerable experience in the engineering field.This is a soft cover book of 158 pages. It has a blue cover with black printing on the front and a colour photograph of two children on the back. The book has 18 chapters of text and an index. The book contains some black and white photographs and a sketch. environmental issues, warrnambool -
Port of Echuca
Postcard, Early 20th Century
The water tower on the corner of Pakenham St and High Street Echuca, was designed by Sir John Monash, who was an innovator in the use of reinforced concrete. The tower cost £2,973 and was completed in 1915. It is 108 feet high and holds 150,000 gallons. it was originally connected to the steam powered pumping plant at Echuca East. John Monash was a war hero at Gallipoli in 1915 and also went on to be the Manager of the Victorian State Electricity Commission. Monash University was named after him.The water tower was a revolutionary design in 1915. It also brought tapped water to people's homes. Sir John Monash made a huge contribution to engineering and social concepts, which was why he was knighted. As well as these contributions to social development, he was also a war hero.Black and white postcard featuring the water tower in Packenham Street. The photograph was taken from Alton Reserve. The background shows a conglomeration of buildings and the foreground shows shaped lawns and park benches. The postcard has a thick border in a cream colour all around it.On the reverse is printed ; POST CARD. Write here for Inland Postage only. Tha Address to be written here. In pen is hand written the words View of Water Tower Pakenham St. Taken from Alton Reserve?echuca east pumping station, echuca water tower, monash, sir john, alton reserve, engineering, reinforced concrete -
Port of Echuca
Colour Photograph, Approx.1979
The water tower on the corner of Pakenham St and High Street Echuca, was designed by Sir John Monash, who was an innovator in the use of reinforced concrete. The tower cost £2,973 and was completed in 1915. It is 108 feet high and holds 150,000 gallons. it was originally connected to the steam powered pumping plant at Echuca East. John Monash was a war hero at Gallipoli in 1915 and also went on to be the Manager of the Victorian State Electricity Commission. Monash University was named after him.The water tower was a revolutionary design in 1915., being constructed of reinforced concrete. It also brought tapped water to people's homes. Sir John Monash made a huge contribution to engineering and social concepts, which was why he was knighted. As well as these contributions to social development, he was also a war hero. Colour photograph of water tower on the south east corner of High and Pakenham street, Echuca. The St Andrews church tower can be seen in the background.On the front of the photograph on the bottom facade of the water tower is painted "E.W.T." (Echuca Water Trust). Printed on the reverse:" this paper manufactured by Kodak"echuca, water tower, echuca-historical buildings, monash, sir john, reinforced concrete building construction -
RMIT GSBL Justice Smith Collection
Report, Abella, Rosalie Silberman, Human rights and the judicial role, 1998
Ninth AIJA oration in judicial administration Delivered by Madam Justice Rosalie Silberman Abella Court of Appeal for Ontario at School of Electrical Engineering and Computer Science The University of Melbourne Friday 23 October 1998ISBN: 1875527249human rights -- history, discrimination, human rights, judicial power, judicial process, political questions and judicial power -
National Wool Museum
Machine - Shearing Motor, Sunbeam, 1960-69
With more and more woolsheds being connected to power lines, the need for electric shearing gear markedly increased from the 1960s onwards. The greater economy made electric gear an attractive proposition to many graziers. Requiring only an electric shearing motor, for small and medium scale operations, electric shearing motors were a more economical way of shearing a wool clip. The other option for graziers was Overhead shearing gear, which also required an Engine to provide shared power to a row of shearing stations. Still working, this Sunbeam Electric Shearing Motor – Heavy Duty Model, features a slow speed motor totally enclosed for protection against dust and insects. The full bearing down tube is easily removed and stored to be out of the way when not in use (not pictured). Providing 0.5 hp, which is twice the power ever needed for shearing sheep, this buffer allows for fluctuations in voltages that can occur in rural districts. Inventor Frederick Wolseley made the world's first commercially successful power-shearing system in Australia in 1888. US company Cooper, which had been founded in 1843 as a maker of sheep dip, began selling Wolseley equipment in the USA in 1895. The Chicago Flexible Shaft Company successfully entered the power-shearing market a few years later and entered into a joint venture with Cooper. It set up a branch in Sydney and sold shearing sets, and engines to power them, into the Australian market. In 1921 the US parent company, realising it needed to make products whose sales were not as seasonal as those of shearing equipment, made its first household appliances and branded them Sunbeam. In 1933, changes in exchange rates and taxes led the company to manufacture engines and shearing equipment in Australia via subsidiary Cooper Engineering, which changed its name to Sunbeam in 1946. Although most Australians know of this company as a major manufacturer of household appliances, its rural division flourished and retained the Sunbeam name for shearing equipment even after it was taken over by New Zealand company Tru-Test in 2001. This 0.5 horsepower vertical brushed motor air-cooled engine was designed to drive a single shearing plant. From the central cylinder which features a yellow “Sunbeam” sticker, a grey 240v power lead can be found on the left-hand side. A blue capacitor is located next to this power lead. Below, two legs extend and meet to form a foot which is fastened to a wall. On the right-hand side of the engine, a specification plate is located on the central cylinder. A yellow directional arrow sticker is located on the rotating section of the engine below the specification plate (location for photography, this section is designed to rotate and hence this sticker is not fixed in this location). At the rear of the cylinder, a plastic cap with small air cut outs protects the air-cooled engine from contaminants. At the front of the engine, the location for securing the bearing down tube is located. On the right-hand side of the lock for the bearing down tube is the handle, to which a string is often attached for switching the motor on and off by a shearer bent at the waist (not pictured). Sticker. Gold writing. Front of shearing motor “Sunbeam” Plate. Inscribed. Side of shearing motor. “Sunbeam / SHEARING MOTOR / MADE IN AUSTRALIA / 0.5 H.P. / 220/240 V / 1 PHASE A.C. / 4.0 AMPS / 50 C/S. / CONT. RTG. / 1425 R.P.M. / CLASS A INSUL / NO. J244560 / TYPE: NSB5C2/49." sheep sheering, shearing equipment, sunbeam, electric shearing motor -
National Wool Museum
Tool - Grinder, 1960-69
Cooper S.E. Ball Bearing Grinder made and guaranteed by Sunbeam Corporation Limited. Grinders like this example have been made the same since the early 1900s, with this grinder thought to have been produced in the 1960s. It is belt driven, with the other end of the belt being attached to an engine; the same engine that would have powered the overhead shearing equipment in shearing sheds. It was common for shearing teams to bring their own equipment, especially pre-1960 as most shearing sheds were not connected to power, and shearers preferred to work with their own equipment. The engines that powered the shears and grinder were typically fuelled with kerosene or petrol. The large circular disks are attached to the bolt that protrudes from the grinder and fastened tightly with a nut. An example of seeing a similar grinder in action can be found on the following link - https://www.youtube.com/watch?v=O7eimI_Gm9o. Inventor Frederick Wolseley made the world's first commercially successful power-shearing system in Australia in 1888. US company Cooper, which had been founded in 1843 as a maker of sheep dip, began selling Wolseley equipment in the USA in 1895. The Chicago Flexible Shaft Company successfully entered the power-shearing market a few years later and entered a joint venture with Cooper. It set up a branch in Sydney and sold shearing sets, and engines to power them, into the Australian market. In 1921 the US parent company, realising it needed to make products whose sales were not as seasonal as those of shearing equipment, made its first household appliances and branded them Sunbeam. In 1933, changes in exchange rates and taxes led the company to manufacture engines and shearing equipment in Australia via subsidiary Cooper Engineering, which changed its name to Sunbeam in 1946. Although most Australians know of this company as a major manufacturer of household appliances, its rural division flourished and retained the Sunbeam name for shearing equipment even after it was taken over by New Zealand company Tru-Test in 2001. The grinder is formed from a central arch shaped block of green painted metal. Much of this paint has been lost to age, leaving the grinder in a ‘farm used’ condition with much surface oxidation present. On the front of the arch is a specification plate, reading “Cooper S.E. ball bearing grinder. Made and guaranteed by Sunbeam”. At the foot of the arch, three bolt holes are found for securing the grinder to the base of a solid wooden surface. Two of the bolt holes are found on the front of the grinder, with another found on the rear. From the central arch, a bolt protrudes to the right of the grinder. This large bolt is for securing a grinding plate to the grinder. Above the central arch is a pendulum which holds the comb / cutter that is being sharpened. From the pendulum, a large arm extends down (not pictured) to meet and strike the plate spinning at a rapid speed. On the left-hand side of the central arch of the grinder, a wheel is found which a belt is attached to for power. This belt is then attached to a separate engine, spinning the wheel and hence powering the grinder. The wheel is partially covered with a section of protective bent tube, designed to provide protection from the rapidly spinning wheel. Below this wheel is the belt shifter. It is designed to move the protective bent tube from one side of the grinder to the other, to accommodate the grinder in the setup of different shearing sheds. The two separate grinding plates are identical. They have a slight slope for sharpening the comb and cutters in the correct method, with a slight bias towards the base, or “tooth”, of the equipment. The disks have a large central bolt for attaching to the grinder. They have tags on the horizontal axis of the grinding plates, for securing the plates in transportation, and to help with initial alignment when setting up the grinder. The reverse of these grinding plates has the same green painted metal finish found on the grinder. This paint is also in a ‘farm used’ condition, with surface oxidation present. The grinder would be provided from the factory with a comb holder, shifter for securing the grinding plates, emery cloth and emery glue. The emery cloth is what does the actual grinding and is applied to the grinding disks, replacing once well worn. These items can be seen in the final images in the multimedia section, showcasing advertising for this grinder. Plate. Inscribed. “Cooper / S.E. BALL BEARING GRINDER / MADE AND GUARANTEED BY / Sunbeam / CORPORATION LIMITED / SYDNEY MELBOURNE / ADELAIDE BRISBANE ”sheep shearing, shearing equipment, sunbeam, grinder -
Chiltern Athenaeum Trust
Farewell Trophy RAEME (Royal Australian Electrical and Mechanical Engineers) Australian Army : F. LE' Compte, 1979
To signify a service members contribution to their Corps (RAEME) of the Royal Australian Army and upon their leaving at 15 years of service. The name plate indicates member F. LE' Compte. Royal Australian Army - RAEME Corps, member F. LE' Compte, 4 Base Workshop Battalion. Wooden trophy with synthetic plate signifying a farewell remembrance from fellow service personnel within the Number 4 Base Workshop Battalion. RAEME being "The Royal Australian Army Electrical and Mechanical Engineering Corps. From CO and Members 4 Base Workshop Battalion May 64 - 79. F. LE' Compte. The synthetic name plate also has the RAEME Corps emblem which is : : 'Upon a lighting flash a horse forcene gorged with a coronet of four fleur-de-lis, a chain reflexed over its back and standing on a globe. ... The horse forcene and chain are symbolic of power under control and the lightning flash, of electrical engineering.raeme corps, royal austrlaian army 64-79, f. le'compte -
Puffing Billy Railway
Greenbat Battery Loco, Greenwood & Batley ltd
Greenbat Battery Loco Built by Greenwood & Batley Ltd Builders No. 420363/2 This Greenbat Battery Loco has been loaned to the Museum by the Walhalla Goldfields Railway, who had acquired it in 2013 along with a large quantity of narrow gauge trollies and light rail from Orica’s now closed munitions factory in Melbourne’s western suburbs. The trolley on display was one of two in use from the 1970s. Orica - Deer Park Munitions factory Orica Deer Park in Melbourne’s west has been used since circa 1875 for various forms of manufacturing and storage of chemicals. Although the site is bounded by Ballarat Road, Station Street, Tilburn Road and the Western Ring Road, the current entry point for industrial operations is situated at Gate 6 off Tilburn Road. Operations include: • a specialty chemicals facility producing products for mining services operations • quarry services • other chemical manufacture activities. The Deer Park factory complex is of historical significance as the location of the first plant for the manufacture of high explosives in Australia and has been, for its entire history, the most important, if not only, commercial manufacturer of high explosives in Australia. It commenced operation under the importer Jones Scott and Co, and then the Australian Lithofracteur Company (Krebs Patent), a rival to Nobel's dynamite patent. The factory was producing nitro-glycerine based explosives in Australia only a couple of years after Nobel's Ardeer factory began operating in Scotland. The explosives factories complex is of historical significance for the association with the Australian Lithofracteur Company, Australian Explosives and Chemicals, the Nobel company and later ICIANZ, which grew to become one of the largest explosives, chemical and plastics manufacturers in Australia. It was the pioneer of the industry and retained its dominance through monopolistic practices, taking over most of its competitors in the Australasian region. Substantial parts of the pre-Second World War layout of the site remain which, with a number of significant buildings dating back to the 1920s and '30s, indicate past and present processes of manufacturing, the necessary safety measures required and the integrated nature of the explosives and chemical industry. The narrow gauge tramway, which ran through the explosives section, was a rare survivor of nineteenth century materials-handling methods into the 21st Century. Greenwood & Batley were a large engineering manufacturer with a wide range of products, including armaments, electrical engineering, and printing and milling machinery. They also produced a range of battery-electric railway locomotives under the brand name Greenbat. The works was in Armley, Leeds, UK. Greenbat was the trade name for the railway locomotives built by Greenwood & Batley. The company specialised in electric locomotives, particularly battery-powered types for use in mines and other hazardous environments. Historic - Industrial Narrow Gauge Railway - Battery Locomotive - Orica - Deer Park Munitions factory - Deep park, Victoria, Australia Battery Locomotive - made of iron puffing billy, greenbat battery loco, battery locomotive, industrial narrow gauge railway, orica - deer park munitions factory -
Maldon Vintage Machinery Museum Inc
DC Generator - Steam Powered
Siemens DC generator driven by a Thompsons two cylinder steam engine. The engine has vertical cylinders and there is a flywheel between the generator and engine. Generator painted grey, engine painted red. The system is connected to low pressure steam and can be run very slowly. Brass plate on generator "Siemens Brothers / Dynamo Works Ltd. / London Stafford / Direct Current Generator", followed by specifications. Thompsons Engineering in relief on steam engine side plates. "60" on base of engine.machinery; generator; steam engine; metalwork -
National Wool Museum
Photograph, Cooper 2-stand semi-poratble sheating plant
Photograph of Coooper shearing plant.Photograph of Coooper shearing plant.Cooper 2-stand semi-poratble sheating plant powered by pilot air cooled petrol engine circa 1949 Photography by Athol Shmith Pty Ltd 125 Collins St. Melbourne No. ......shearing machinery, cooper engineering company pty ltd athol shmith pty ltd -
National Wool Museum
Photograph, Cooper 2-stand self contained shearing plant
Photograph of Cooper shearing plant.Photograph of Coooper shearing plant.Cooper 2-stand self contained shearing plant powered by 1 H.P. electric grinder motor circa 1948 Athol Shmith Studio Illustrative Photography 125 Collins Street Melbourne C.I. Cent. 27 No. ..... Position ....... 2/F/18512shearing machinery, cooper engineering company pty ltd -
National Wool Museum
Photograph, 4-stand self contained shearing plant
Photograph of Cooper shearing plant.Photograph of Cooper shearing plant.4-stand self contained shearing plant powered by 4 H.P. Cooper petrol engine designed for use in South Africa circa 1950shearing machinery, cooper engineering company pty ltd -
Puffing Billy Railway
Steam Engine - Tangye single cylinder vertical, Circa 1920
Used by the Malvern city council until 1969 to drive a rock crushing plant. While large horizontal steam engines predominated in major factories, small vertical steam engines like this were the workhorses of industries that had modest power requirements. This reliable little engine, made by leading UK manufacturer Tangye Bros of Birmingham Steam engines had the advantage that any fuel could be used to fire their boilers, but they were less convenient and efficient than internal combustion engines, required operators with higher skill levels, and had lower power to weight ratios. Tangye Limited was founded in 1857 in Birmingham by businessman Richard Tangye (1833-1906) and his mechanic brothers James and Joseph; brothers Edward and George joined them later. Richard was born near Redruth in Cornwall and educated at the Friends School at Sidcot, Somerset, where he became a pupil-teacher. From there he moved to Birmingham to work as a clerk for an engineering firm. In 1856 he started a hardware factor and commission agent business in Birmingham whose customers were mainly Cornish mine-owners in the Redruth district. From 1858 Tangyes concentrated on the manufacture of machinery and secured the sole right to manufacture Weston's differential pulley block (object 2003/45/1). They established their Cornwall Works in the Birmingham suburb of Smethwick in 1864 and soon developed a huge range of products. It was stated that 'there are perhaps no other works in the kingdom so largely employed upon so great a variety of specialities as the Cornwall Works of Messrs Tangye Bros.' The Tangyes attracted creative people to work for them. They wrote: 'We are in a position to offer unusual facilities to Inventors for carrying out their patents.' Info about Tangye Bros of Birmingham from Powerhouse Museum https://ma.as/207954 Donated by Malvern City Council in 1969 Of Interest : The Vertical and Horizontal Tangye engines on display are of the design that won a Gold Medallion at the Paris Industrial Exhibition of 1878.Historic - Industrial Steam Engine Equipmentsingle cylinder vertical Steam Engine made of Cast Iron, (Painted)Tangye Birmingham Builder's number 2462tangye, vertical steam engine, steam engine, puffing billy, stone crushing, george and george, malvern -
Puffing Billy Railway
Day's Petrol Rail Tractor, Petrol Rail Tractor Gauge 2'0", circa 1926 - 1940
Rail tractors were popular with Victorian sawmillers. They were generally cheaper than a steam locomotive, required no special qualifications to drive, and used proven power plants for which spares were available locally. The tractor was constructed by Day’s Engineering of South Melbourne which, although better known for its pumping equipment, built more than fifty rail tractors for Victorian sawmillers and other industrial tramway users. W. Day & Sons is believed to have constructed its first light railway locomotive in 1926. From then until the mid 1940s, the firm appears to have built at least fifty locomotives at its premises in South Melbourne, of which roughly half were four-wheel locomotives and roughly half were six-wheel locomotives like the restored Day’s rail tractor formerly operated by Ruoak Timbers. Of the four-wheel locomotives, ten were 2-ft (610mm) gauge locomotives similar to this one. Today, only two survive, a complete example at the Puffing Billy Railway Museum at Menzies Creek, and one at Alexandra Timber Tramway Museum This 2-ft gauge 4wPM locomotive is believed to have been one of two Day's Petrol Rail tractors formerly used by Cheetham Salt, possibly at the Moolap works near Geelong. Service History :owned by Cheetham Salt, Moolap ( dates unknown ) Geelong Steam Preservation Society , Belmont 1973 ? Puffing Billy Steam Museum , Menzies Creek Historic - Industrial Narrow gauge Railway - Rail Tractor used by Cheetham Salt Company works at Laverton, Moolap and Geelong, Victoria , Australia Petrol Rail Tractor made of Iron , wrought iron, steel puffing billy, industrial narrow gauge railway, rail tractor, days engineering, cheetham salt,, petrol rail tractor -
Puffing Billy Railway
Portable Compound Steam Engine, Marshall & Son's - Builders Number 48317, circa 1908 / 1909
Portable Compound Engine - Marshall & Son's. Builders Number 48317 Built by Marshall Sons & Co., Ltd., Gainsborough, England (Builder’s Number 48317 of approximately 1908/1909), to the order of Robison Brothers, Engineers, South Melbourne. It was used for operating a pump to supply irrigation water at Robinvale in Northern Victoria. Robison Bros & Co. P/L was founded by James McFarlane Robison and his brothers in 1854, initially as plumbers and coppersmiths, the firm expanded into general engineering, boiler-making and brass, iron and steel founders and became one of Melbourne's most important engineering firms. They constructed railway bridges, gold mining equipment, railway locomotives, pumping stations, brewing vessels, abattoir machinery, amongst much else and including the first turnstiles at the Melbourne Cricket Ground. A portable engine is either a steam engine or an internal combustion engine, that remains in one place while operating (providing power to machinery), and can be easily moved from one work site to another. Mounted on wheels or sometimes skids, it is required to be towed between work sites.Historic - Industrial Portable Compound Engine - steam engine - Marshall & Son's. Marshall & Son's Portable Compound Engine - Builders Number 48317 made of steel Marshall & Son's. Builders Number 48317puffing billy, state rivers and water supply commission of victoria, portable compound engine - marshall & son's., portable compound engine, marshall sons & co., ltd., robison bros & co. p/l -
Ambulance Victoria Museum
Light, portable, Litemaster, Burstall Engineering Company, Circa 1970s
Held in ambulance stations and taken out when ambulances attended night time jobs. When fitted with barriers these items were heavy. They did not remain long in service and were replaced by the Ever Ready Dolphin brand torch. Source Chas Martin AHSV curatorFlorescent light tube in bronze coloured box. Power on and off buttons at topVIC CIVIL AMBULANCE -
Surrey Hills Historical Society Collection
Photograph, Harley Tarrant and his 1905 Tarrant car, 1905
Col. Harley Tarrant was an astute businessman and a part-time soldier. He was born at Clunes in 1860 and as a young man worked with an engineering firm in Sydney. He later joined the Board of Works in Melbourne. and later entered the early car manufacturing and retailing trade. In 1905 Harley Tarrant built the first car to be built and sold in Australia. For a time he was a surveyor and worked in Surrey Hills but motoring became his prime interest. In the early 1890s he set up a workshop in what was then Post Office Place, Melbourne. He built stationary engines which ran on kerosene and in the first years of the twentieth century, with partner W Howard Lewis, built the first petrol driven car in Australia. This photo is of his sixth car and was taken after the finish of the 1st Sydney to Melbourne Dunlop Reliability Trial, which Tarrant won. Harley Tarrant produced cars between 1901 and 1907 at the Tarrant Motor and Engineering Company in Queen's Bridge Street, South Melbourne. The first car had a rear-mounted two-horse power Benz engine. Two-cylinder models were later produced followed by 4-cylinder models. The only Tarrant car in existence in 1984 was owned by Harley Tarrant's grandsons, Kenneth and Peter Holmes of Melbourne. The 1906 Tarrant car featured on an Australia Post stamp in 1984. It was one of a series of 5 stamps featuring Australian veteran and vintage cars.Black and white photo of a car without a hood in the driver's seat of which is a man with cap, driving dust coat and goggles, identified as Harley Tarrant. Beside him is a young girl in a large frilly; she is identified as Doreen Tarrant, his daughter. Another man with cap and goggles is talking to him and a gentleman in a bowler hat looks on. There is a women and 2 children in the background in front of a large brick wall decorated in two coloured bricks. cars, inventions, dunlop reliability trial, tarrant motor and engineering company, mr harley tarrant, miss doreen tarrant, mrs doreen holmes, col harley tarrant -
Ringwood Secondary College
The 1999 RACV Energy Breakthrough Hybrid Powered Vehicles - section 2, 1999
... The 1999 RACV Energy Breakthrough Hybrid Powered Vehicles - section ...Trophy awarded to RSC as runner-up in the 1999 RACV Energy Breakthrough Hybrid Powered vehicle - section 2 competitionRecognition of RSC continued involvement in environmental sustainable power generation and automotive engineeringSmall wooden trophy with engraved metal plaque - light oak colour, freestandingThe 1999 RACV Energy Breakthrough Hybrid Powered vehicles - Section 2 Runner-uptrophy, vehicle, engineering, racv, conservation, hybrid, energy, automotive -
Flagstaff Hill Maritime Museum and Village
Ships Wheel, John Hastie et al, Early 20th Century
John Hastie Engineer and millwright John Hastie opened small manufacturing works in Greenock in 1845 and 1853 patented the first self-holding steering gear. The firm became known as John, Hastie and Co. Ltd. in 1898 after taking on limited liability status and their main works were at Kilblain Street, Greenock, where they specialised in ships' steering gear. The company also occupied works at Rue End Street, Greenock. Plans of this unit depict a stockyard to the east, with areas for welding; fitting and assembly; flame, cutting and fabrication; and a machine bay. The company was dissolved in 1991. Brown Brothers Brown Bros Rosebank Ironworks made the steering gears for many large ship's, including The Titanic. Andrew Betts Brown the founder was born in 1741 and closely associated with many improvements in marine engineering. He was educated in his native city and served his apprenticeship as an engineer in the locomotive works of the North British Railway Company at St. Margaret's. During his apprenticeship, he attended the evening classes at Watt College. subsequently going to Manchester to study chemistry. He went to London around 1863 and took over an old brewery, which he converted into an engineering works. During his time there he invented an overhead travelling crane, which was used on the construction of Blackfriars Bridge London. He went on to develop plant which used steam and hydraulic power for discharging ships as a result the company was contracted to install this equipment in Hamburg Docks. By around 1870 he continued to construct machinery in London but realised that conditions were more favourable in Edinburgh. He acquired land at Rosebank adjoining the North British Railway Company's line to Granton, and the necessary infrastructure was completed allowing him to finish the Hamburg contract. The works at Rosebank were eventually extended and added to until they became one of the largest engineering works in the East of Scotland. Mr Brown was a member of numerous engineering institutions, the best known at the time being the Institution of Naval Architects. He was also a Fellow of the Royal Society of Edinburgh, a member of the Institute of Mechanical Engineers and of the Institution of Marine Engineers he died in 1906 at the age of 67.An item made by two marine innovators of marine auxiliary machinery and itemsShip's wheel, brass, attached to brass pillar. Base has 6 holes in it for securing it in place.. Top of ship's wheel pillar has a brass, adjustable, arrow pointer that is positioned over a dial etched into the flat brass surface. The dial reads " PORT STABD". Lines and degrees are marked, with '0' in centre and every 5 degrees, from 0-35, in both Port and Starboard sidesInscription to wheel hub "Brown Brothers & Co. Ltd, Rosebank Ironworks, Edinburgh"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, john hastie, john hastie, andrew betts brown, ships wheel, ship steering gear, marine equipment -
Queenscliffe Maritime Museum
Machine - Outboard Motor
Popular small outboard motorEarly locally manufactured outboard motor by Aquatic Engineering Pty. Ltd of BrisbaneSingle Cylinder air cooled motor, Victa power head, no ID of leg and gearbox markers. 1950-60 outboard motors, victa power head -
Eltham District Historical Society Inc
Photograph, 39-45 Susan Street, Eltham, 16 May 2010, 16/05/2010
Colour photographindustries, banyule glass, fabrication and general engineering, kmb group (australia), nannymoos store, pattersons insurerbuild, poolpower, pumpworks, purple pepper, rv hoobin pty ltd, static power, susan court, susan street, swim zone, valley door and kitchen centre -
Port Melbourne Historical & Preservation Society
Photograph - Group of people looking at bottom halves of two cranes from Station Pier on land under West Gate Bridge, 2012
Coloured photograph of six (6) people and a child looking at bottom halves of two Station Pier cranes . Location is land under West Gate Bridge.west gate bridge, built environment - industrial, engineering, piers and wharves - station pier, cranes, margaret bride, glen cosham, jim power, graham bride