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National Wool Museum
Undervest, c.1960
These wool undervests were purchased by Edith Bender for her husband Edwin, prior to 1963. Edwin would catch a ‘Red Rattler’ train along the North Shore line to go to work in Pitt Street., Sydney. Edith was concerned Edwin would catch a cold in the unheated train or in his unheated office, so she brought these woollen undervests for him to wear to work. Edwin would wear the undervests under a woollen suit and with a woollen overcoat. Edwin passed away in 1963, at which point Edith stored the undervests away. They were passed to Edith’s daughter when Edith passed away in 1980. They were then passed to Tanya Davis on the death of her mother. Tanya donated the undervests to the National Wool Museum in 2021.2x cream wool undervests. Henley style with short sleeves and three buttons at the front. Labels from the maker ‘Braemar’ have been stitched to the neckline of both vests. An additional label is stitched under the first button on the front of both undervests. Label stitched to neck of vest: BRAEMAR / MADE IN SCOTLAND / OPTIMUS / PURE WOOL / TREATED TO RESIST / SHRINKAGE / QUALITY / B. OPTIMUS Label stitched to front buttons of vest: MADE IN SCOTLAND / FOR FARMER’S / SYDNEY Attached swing tag: BRAEMAR / The WASHING of WOOLLENS / PREPARE a bath of good bar or flake soap, thoroughly dissolved in water not hotter than the hands can bear. Squeeze the garments through the hands several times in the bath. Don’t rub them on a board. Rinse in warm water until soap is thoroughly removed. Wringing should be done in the hands. Stretch well to width and length and dry at once, preferably in the open air Stretch again in the hands when dry. Attached swing tag. Reverse: IMPORTANT POINTS / Do not use soda or washing powders. / This garment must not be subbed on a board, or subjected to mechanical friction.red rattler, wool clothing -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Manufactured objects, Cigarette lighter metal, 20thC
A cigarette lighter is a portable device used to generate a flame. It consists of a metal or plastic container filled with a flammable fluid or pressurized liquid gas, a means of ignition, and some provision for extinguishing the flame. A spark is created by striking metal against a flint, or by pressing a button that compresses a piezoelectric crystal (piezo ignition), generating an electric arc. In naphtha lighters, the liquid is sufficiently volatile, and flammable vapour is present as soon as the top of the lighter is opened. Butane lighters combine the striking action with the opening of the valve to release gas. The spark ignites the flammable gas causing a flame to come out of the lighter which continues until the top is closed (naphtha type), The Beney Company was founded by Robert Ernest Beney of London, England. R. E. Beney invented and marketed the first Beney mechanical lighter in 1919. Beney also designed and manufactured numerous luxury lighters and striker boxes for Alfred Dunhill of London as well as Hermes of Paris. In 1938, Beckenham based Beney Lighters was acquired, adding utility lighters and precision tools to the company's (Winn & Coates) ever growing list of products. The biggest selling line manufactured by Beney was the Economic Gas Lighter which hung on the side of housewife's gas cookers and was also used for lighting Bunsen burners in laboratories. In 1939-1940 the company moved its administration to the Beney Lighter premises in Beckenham after the Head Office at Trinity Square along with many company records were destroyed in a 'doodlebug' flying bomb attack. Beney Ltd. continued producing lighters at least through the late 1954. A green metal cigarette lighter that used fuel and a striking action arm to produce a flame .base: BENEY / COMPANION / PATENT 568897 / BRITISH MADEtobacco, cigarettes, cigarette lighters, fuels, moorabbin, cheltenham, bentleigh, early settlers, beney pty ltd, beckenham england -
Federation University Historical Collection
Document - Document - Information, VIOSH: Ballarat College of Advanced Education; Notice of Seminar, "Product Safety and Product Liability", 1982
Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Notice advertising a seminar to be held at Ballarat College of Advance Education on Friday 16th July, 1982. Registration is at 9.00 to 9.30am, It is planned to conclude at 5.00pm. The speaker will be Professor Ralph Vernon from the Industrial Hygiene and Safety Engineering Division, Texas A&M University U.S.A. Topic is "Product Safety and Product Liability". The growth in product liability litigation in the U.S.A. is a major concern to manufacturers. Australian manufacturers should be aware and protect themselves. Cost of Seminar - $50.00 (including lunch). Those wishing to attend to return slip to Mr T Norwood, Head of Mechanical Engineering by 1st July.A4 sheet - printed sheet - rust colour ink. Small return slip re attendanceBCAE Letterheadviosh, victorian institute of occupational safety and health, seminar, ballarat college of advanced education, professor ralph vernon, texas a&m university, product safety and product liability, t d norwood, industrial hygiene and safety engineering division, department of mechanical engineering -
Federation University Historical Collection
Document - Document - Presentation, VIOSH: Social History; Introduction to Sociology of Work and Technology Presentation, post 1997
Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Brief outline of the history of the development of VIOSH, and those responsible. They were Derek Viner (the initial Course Co-ordinator), Mr Tom Norwood (Head of the Mechanical Engineering Department), Mr Eric Wigglesworth (Chairman of the Education Committee of the Safety Institute of Australia) and Mr Zig Plavina (Technical Officer in the School of Engineering and Secretary of the Campus Safety Committee). Dr Dennis Else from the University of Aston, Birmingham arrived to establish the Victorian Institute of Occupational Safety and Health within the Engineering division of the University. Following the introductory speech, the talk gave information on the development, problems and theory of designing safe workplaces.One A4 page typed.viosh, victorian institute of occupational safety and health, social history, sociology, derek viner, course co-ordinator, tom norwood, head of mechanical engineering, eric wigglesworth, chairman, education committee of the safety institute of australia, zig plavina, technical officer, school of engineering, campus safety committee, university of aston, dennis else -
Puffing Billy Railway
Heinrici Hot Air Motor, 1900s
Louis Heinrici, Germany, circa 1900 a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici hot air engines are of the valveless, closed cycle type, generally called Stirling cycle engines, after Robert Stirling, the Scottish Presbyterian minister who pioneered their development in the early 1800's. They operate by alternately heating and cooling a quantity of air, called the working fluid, contained in the engine's internal spaces. Heat is applied externally and passes through the cylinder wall, heating the working fluid, which is then expanded against a piston to do mechanical work. After heating and expanding, the working fluid is moved to a cool space where it cools and contracts before being returned to the hot space for the cycle to repeat. It has a displacer (just a loose piston), below and in the same cylinder as the power piston to which it is connected via cranks and linkages so as to lead by 90degrees of crankshaft angle. The displacer space and the piston space are connected by the annular gap around the loose fitting displacer so that the working fluid moves between these spaces and changes volume by the appropriate ratio as the engine rotates. Because they have no valves and experience no sudden pressure changes, Stirling engines are noted for quietness and reliability. Heinricis use air at atmospheric pressure for their working fluid, but for higher specific output (power for size) and better efficiency, modern Stirling cycle engines use pressurised gas- air, nitrogen, helium or hydrogen.Historic - Hot Air Engine - MotorHot Air Motor made of Steel with two drive wheels. a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici Motorheinrici hot air motor, puffing billy -
Federation University Art Collection
Painting - Oil on Canvas, Johnson, George, 'Symbols of Life' by George Johnson, 1965
George JOHNSON (18 August 1926- ) Born Nelson, New Zealand Arrived Australia 1953 George Johnson's formalised abstractions usually feature a pattern of small related geometrical shapes which give life, luminosity and fluidity to forms which might be mechanical and lifeless. Later his forms become become much larger and more architonic. The work of George Johnson debuted at the Herald Outdoor Art Show in 1953. The George Johnson Mural was commissioned by the Ballarat Teachers' College Students' Representative Council in 1965. It was purchased with funds raised by staff and students. At the unveiling of this work at the Ballarat Teachers' College Johnson's work was described at belonging to the "Hard Edged" school of abstract painters who had set themselves far above the mass of abstract painters by the vitality and artistic ability displayed in their work. Of the work John JOhnson said "We are all part of life and are growing and developing in many different ways, the process of development is often taking place without us even being aware of it. In my painting the embryo shapes appear and grow. I have tried to make the mural symbolic of life and growth. I do not thank that anything has been left to chance in the mural. Everything is working, and, I feel, working well. It has balance and harmony - and perhaps discord, as does life - one malfunction or imbalance throws everything out." This item is part of the Federation University Art Collection. The Art Collection features over 2000 works and was listed as a 'Ballarat Treasure' in 2007.A painted mural in three panels, including hession collage. art, artwork, george johnson, johnson, ballarat teachers' college art collection, mural, hard edged -
Flagstaff Hill Maritime Museum and Village
Tool - Tilting Saw Bench, W F & John Barnes, 1874 to 1880
he subject item is a pedal-powered rip saw with a tilting table made in the USA by W.F. & John Barnes Co. of Rockford, Illinois, between 1874 and 1890. The saw's blade moves rapidly in a circular motion and is driven by a pedal that spins a heavy flywheel with a leather belt attached to a gear drive that in turn drives the circular saw blade. The operator holds a wood workpiece on the table and moves it forward so the blade cuts it to the desired width and length. Company History: WF & John Barnes Co. was established in 1869, by making a formal partnership between William F. Barnes and John Barnes in 1872, and then incorporating in 1884. This company was an early manufacturer of pedal-powered equipment. By 1881 they were also making powered machinery such as lathes and pedestal drills. Many companies were making lightweight foot-powered equipment, but Barnes and the Seneca Falls Co. were the only ones to also make professional-grade workshop machines. From the beginning of their existence, they focused on pedal-powered machinery and specialised in making scroll saws. By 1937 the company focus had completely shifted to automotive assembly machinery, and custom-built machinery, machine tools, electrical, hydraulic, and mechanical controls and systems, including nuclear hardware. their production of foot-powered machinery had ceased. In the intervening years, they have got out of manufacturing completely. After a series of ownership changes, their equipment parts and stock were purchased in 1998 by LeBlond Ltd. of Amelia, Ohio. An item that although incomplete gives a snapshot into the manufacture and use of early woodworking machinery before the introduction of electricity or electric motors to power machines.A Treadle powered tilting table saw benchWF & J Barnes, Rockford Ill USA flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Churchill Island Heritage Farm
Functional object - Engine
The Moffat Virtue Company was founded by John Moffat (1841 – 1918) and William Virtue (1863 – 1926) in Sydney. Both men were born in Scotland, John Moffat was a mining entrepreneur who migrated to Queensland in 1861 and began mining in the far north of Queensland. William Virtue was a talented mechanical engineer who became acquainted with John Moffat through their mutual involvement with the New Jerusalem Church and the teachings of theologian Emanuel Swedenborg. Moffat invited Virtue to migrate to Queensland, which he did with his young family but they finally settled in Sydney. Moffat had become interested in shearing machines and Virtue’s engineering skills enabled the registration of several patents in 1891 – 1894. The Moffat Virtue alliance grew and prospered and by 1911 all the entrants in the first sheep shearing competition at the Sydney Royal Show chose the company’s machines. By 1914 Moffat Virtue was a household name in rural Australia due to manufacture of agricultural machinery and household appliances. The company began making petrol engines in 1920 at 205 Clarence Street, moved to 11 – 25 Palmer Street in 1929 and later moved to Rosebery. The petrol-kerosene engine was popular as the use of kerosene made it very cheap to run. The motor starts by using petrol and once the engine is warmed, the vaporiser is activated which enables the use of kerosene as the running fuel. The carburettor and cylinder head are designed to ensure thorough vaporisation and complete combustion of fuel, resulting in maximum horsepower at lowest fuel consumption The serial number indicates 1944 as the approximate date of manufacture.Green petrol engine with red trim and crank handle. Attached to green grain grinder“Moffat Virtue Petrol Kerosene Engine No. 9142 1000RPM 3HP Change oil every 90 working hours SAE 40 For severe service and in Summer SAE 30 Warranty void unless above instructions followed” farm, machinery, stationary engine, crank, belt driven, engine, churchill island -
Wodonga & District Historical Society Inc
Domestic object - Lehmann Tin Lithographed Windup Zikra Zebra Cart, Ernest Lehmann Co, 1920s
This item is from a collection donated by descendants of John Francis Turner of Wodonga. Mr. Turner was born on 6 June 1885. He completed all of his schooling at Scotts Boarding School in Albury, New South Wales. On leaving school, he was employed at Dalgety’s, Albury as an auctioneer. In 1924 John was promoted to Manager of the Wodonga Branch of Dalgety’s. On 15/03/1900 he married Beatrice Neal (born 7/12/1887 and died 7/2/1953) from Collingwood, Victoria. They had 4 daughters – Francis (Nancy), Heather, Jessie and Mary. In 1920, the family moved From Albury to Wodonga, purchasing their family home “Locherbie” at 169 High Street, Wodonga. "Locherbie" still stands in Wodonga in 2022. The collection contains items used by the Turner family during their life in Wodonga. The Ernest Lehmann Co was founded in 1881 by Ernest Paul Lehmann in Brandenburg, Germany. Lehmann exported vast quantities of toys to the United States from 1895 to 1929 (excluding years of WWI). In 1921, Mr. Lehmann’s cousin, Johannes Richter joined the firm and built on the Lehmann reputation by patenting toys. Lehmann specialized in lithographed tinplate, mechanical transportation toys, and figures known for colorful patina. This toy was manufactured between 1924 and 1935. The Lehmann catalogue describes the toy as “[a] Mexican zebra team. The zebra refuses to be tamed and leaps about wildly.” It is believed to have been inspired by an unsuccessful German stud farm in Dar es Salaam that attempted to cross-breed zebra with domesticated horse.This item comes from a collection used by a prominent citizen of Wodonga. It is representative of popular children's toys in the 1920s and 1930s.This is a tin, lithographed, windup toy featuring a zebra and Mexican style driver. The seated driver has a green top and cream trousers and yellow and green pointed hat, zebra with red ears and cord tail. The cart is red and cream, embossed with the Lehmann company emblem and other patent information. The number 1881 on the back of the cart represents the year Ernest Lehmann Co was founded.On back of cart" ZIKRA/ 1881/LEHMANN" Behind driver: "PAT USA APP FOR" and PATENT USA 22 JAN 07/ 2 DEC 13" On side of cart:"DEUTCHES REICH PATENT" Around wheel rim: "LEHMANN MARKE SCHULTZ MUSTER"tin toys, zikra the zebra, ernest lehmann co -
Flagstaff Hill Maritime Museum and Village
Instrument - Chronometer, 1987
First State Watch Factory: This factory was founded in 1930 under orders from Joseph Stalin, the "First State Watch Factory" was the first large-scale Soviet watch and mechanical movement manufacturer in the USSR. Via its USA-based trading company (Amtorg), the Soviet government bought the defunct Ansonia Clock Company of Brooklyn, New York in 1929, and the "Dueber-Hampden Watch Company of Canton", based in Ohio. The soviets moved twenty-eight freight cars full of machinery and parts from the USA to Moscow in order to establish the factory. Twenty-one former "Dueber-Hampden" watchmakers, engravers and various other technicians helped to train the Russian workers in the art of watchmaking as part of the Soviet's first five-year plan. The movements of very-early products were still stamped "Dueber-Hampden, Canton, Ohio, USA" (examples of these watches are very collectible today). In 1935 the factory was named after the murdered Soviet official Sergei Kirov. During the second world war, as the Germans closed in on Moscow in 1941, the factory was hurriedly evacuated to (Zlatoust USSR). By 1943 the Germans were in retreat, and the factory was moved back to Moscow, adopting the "First Moscow Watch Factory" name. In 1947 the first wristwatches under the brand name "Pobeda" and the first Marine Chronometers and Deck watches were produced. By 1951 the production of wristwatches had increased to 1.1 million. In 1975 new machinery and equipment for manufacturing complex watches were imported from Switzerland. The first chronograph called "Okean" (3133) was produced for the space station "Soyuz-23."The Chronometer is of recent manufacture and an excellent example of the type of instrument used to navigate the seas in the 19th century. It is of good quality and of a type regarded as very accurate and well made. The maker, First Watch Factory, has a dept that is still producing the "8916" standard Chronometer for horologists and collectors. Marine chronometer of Russian make in wooden case, metal handles on sides, inscription on a metal plaque on the front of the case. Polished square wooden outer case with green felt lining and, a leather carrying strap and buckle. Outer case is hinged and has a metal latch on the front. Outer case has a red velvet covering with a button and loop closure. Inscription on box are in Russian & translate as follows: ХРОНОМЕТР, = CHRONOMETER МОРСКОЙ, = NAUTICAL ГОСТ, 8916-77 = Gost ЛОЛ ЕТ, on dial face = LOL ETflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chonometer, russian, watch factory, marine, navigational instrument -
Federation University Historical Collection
Pamphlet - Course Pamphlets, Ballarat Institute of Advanced Education Course Pamphlets, 1970s
Ballarat Institute of Advanced Education (BIAE) is a predecessor of Federation University .1 White A5 pamphlet for Business Studies with crest, black writing and matt gold square and lines .2 White A5 pamphlet for Art with crest, black writing and burnt orange square and lines .3 White A5 pamphlet for General Studies with crest., black writing and pink square and lines .4 White A5 pamphlet for Mechanical Engineering with crest, black writing and red square and lines .5 White A5 pamphlet for Mining Engineering with crest, black writing and grey square and lines .6 White A5 pamphlet for Electrical Engineering with crest, black writing yellow square and lines .7 White A5 pamphlet for Civil Engineering with crest, black writing and magenta square and lines .8 White A5 pamphlet for Applied Geology with crest, black writing and lemon yellow square and lines .9 White A5 pamphlet for Applied Chemistry with crest, black writing and green square and lines .10 White A5 pamphlet for Malting and Brewing (Post-Graduate) with crest, black writing and peach square and lines .11 White A5 pamphlet for Metallurgy with crest, black writing and blue square and lines .12 White A5 pamphlet for Appled Physics with crest, black writing and maroon square and lines course information, ballarat institute of advanced education, business studies, art, general studies, mechanical engineering, mining engineering, electrical engineering, civil engineering, applied geology, applied chemistry, malting & brewing, metallurgy, applied physics -
Frankston RSL Sub Branch
Drift Recorder, W & G, A M Drift Recorder MKII, 1930 - 1939
Purpose built mechanical calculation machine for determining the drift of aircraft when operating in crosswind conditions. This device has an eyepiece and a prismatic periscope for viewing a distant feature being tracked. This device has calibrated rotary scales for height, speed (in KNOTS and MPH), and an adjustment to preset the 'crab angle' of the aircaft for cross wind compensation. The device can be opened for cleaning or maintenance purposes. Refer to the following extracts for information about bomb drift: "Crosswinds brought into the bombing problem a new factor, "drift" In order to fly a given ground track in a crosswind, an aircraft had to "crab" into the wind; the angle formed between the aircraft's true heading and its ground track was called the "drift angle" In a crosswind, the bomb would impact directly behind the aircraft and along its longitudinal axis at the moment of release. But this meant that the bomb would strike the ground at some point downwind of the aircraft's ground track. Thus, in order to score a hit, the bomber had to fly a ground track that ran upwind of the target." "Air resistance acting on a bomb after release caused it to lag behind the drop point and hit somewhere behind the bomber. The distance from a point beneath the aircraft at the instant of bomb impact to the point of bomb impact was called "trail." Trail increased as the bomber's airspeed increased or as its altitude increased. Furthermore, since different bombs encountered different resistance in the air, trail was also a factor of bomb shape."A. M. Drift Recorder MKII REF. No 6B/190 No 2668/41 X/ 3606 3E4H28 -
NMIT (Northern Melbourne Institute of TAFE)
Plumbing tools: CTS and PTS 1920s onwards, Plumbing tools and texts used in teaching 1920s
A number of Plumbing tools dating from 1880s-1970s and used in teaching at Collingwood Technical School then also at Preston Technical School and at Northern Metropolitan College of TAFE's Heidelberg campus. Includes: Kerosene blow torch X 2 (1930s-); Stillson Grips; Pipe Cutter; Mash hammer; Adjustable spanner X 3 different sizes; Caulking tool; 5 way tee, 2X3 way tee, 4 way tee (1930s-); Old Handmade lead traps (student work) X 2; Metal tool tray holding; Offset adjustable spud spanner; Pear shaped lead working mallet; Bossing tool for lead work (1880s-1920s); Soldering iron (1920s-); Set square; Large screwdriver; Also Plumbing texts: • Problems for elementary physics, new rev. edn., by Thomas Tasker and Alexander Boden, Science Press, Sydney, 1966. • Gasfitting. Printed and published by McCarron Bird Pty. Ltd. [Melbourne] • Trade science for plumbing apprentices, Education Dept. Victoria, 1954 • Sanitary Plumbing and water supply, Dept. of Labour • Gasfitting, produced by members of the Colonial Gas Association Limited, Gas and Fuel Corporation of Victoria, and the Technical Division of the Education Department of Victoria. Rev metric edn. 1976 • Mechanical world year book 1953, Manchester Emmott & Co., 1953 collingwood technical school, preston technical school, northern metropolitan college of tafe, plumbing tools, plumbing texts, nmit -
Ballarat Tramway Museum
Book, State Electricity Commission of Victoria (SECV), Instructions or Rules to Motormen, post 1945
Handmade book with light green covers made from a cut file holder with brown paper glued on the inside, containing 39 typed (original) sheets of paper giving Instructions or Rules to Motormen. Has five page index, then 34 pages, with 104 rules or instructions, covering Tramcar Equipment (electrical), location of faults, tramcar braking, failure of the mechanical brakes, tramcar emergency braking, automatic braking, automatic electric signals and general instructions for Ballarat. The brown paper appears to have been placed on the outside, as it is cut and glued on the inside of the book. Individual sheets held into the book with a metal clip. On the rear of the book, a small piece of cardboard has been glued over the back of the metal strip. Notes mentions bogie trams, so therefore post 1945. Gives details of route electric signals, use of doors on the trams relevant to the central median strip. On page 4, has hand drawn diagram showing the motors in series and parallel. On page 8 has a hand drawn diagram showing the car lighting circuit arrangements. Has been folded in the middle so as to store in pockets of a coat. Images show .1 - book, .2 - inside front cover and index sheet, .3 - hand made drawing - car lighting circuit. See Destination Eaglehawktrams, tramways, secv rules, rules, motormen, conductors -
Ballarat Tramway Museum
Book, State Electricity Commission of Victoria (SECV), Ballarat Motorman (Driver) Training Manual or Guide - not a formal title, 1960's?, 1950's?
Demonstrates aspects of the Ballarat Tramways system of training Motorman or drivers in the 1960's and the information there were given on driving trams. Shows the training methods of the time. 3486.1 - also details "Dead Man Brakes"Thirty Three page - carbon copy - within stapled light card covers - Ballarat Motorman (Driver) Training Manual or Guide - not a formal title. On front cover is large letter "G" and words "To be returned to the inspectors office after completion of Training as Motorman" First four pages has index and covers: (A) Tramcar Equipment - electrical - items or clauses 1 to 28 (B) Location of Faults - items 29 - 41 (C) Tramcar Braking - items 42 to 59 (D) Failure of the Mechanical Brakes - items 60 to 67 (E) Tramcar Emergency Braking (Accident Prevention) - items 68 - 72 (F) Automatic Electric Signals - items 73 - 82 - gives locations of signals. (G) General Instructions - items 83 to 98. See condition notes - not in the best condition - needs careful handling. 3486.4 - ditto - similar to above, but 34 pages through to instruction 104. Added section (F) after (E) - "Automatic Braking - clauses 72 - 79, possibly an earlier version of above when trams were fitted with dead man controls. Held within a cardboard folder with a metal binder. Cover has been covered with brown paper and adhesive tape, but only remains on the inside of the cover. Item added 3/10/2007. See Reg Item 8110i for a Bendigo, c1940 version.See above 3486.1 - has "Hall G - M.Cond" on front cover. Another name has been rubbed out.trams, tramways, driver training, sec, signals, braking, equipment, emergency, dead man controls -
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 -
Thompson's Foundry Band Inc. (Castlemaine)
Work on paper - Sheet Music, Shipley Douglas et al, The Arcadians
20 parts for Brass band. This piece is a selection of pieces from the 1909 Edwardian style musical comedy - the Arcadians. Selected and arranged by Shipley Douglas includes: Opening Chorus, Chorus of Waitresses, Back your fancy, The girl with a brogue, the joy of life, my Motter, Bring ma a rose, Charming Weather, Fickle Fortune and Arcady is every young.20 parts for Brass band. This piece is a selection of pieces from the 1909 Edwardian style musical comedy - the Arcadians. Selected and arranged by Shipley Douglas includes: Opening Chorus, Chorus of Waitresses, Back your fancy, The girl with a brogue, the joy of life, my Motter, Bring ma a rose, Charming Weather, Fickle Fortune and Arcady is every young. Parts: E♭ soprano cornet Solo cornet in B♭ Repiano cornet in B♭ 2nd cornet in B♭ 3rd cornet in B♭ Flugel horn in B♭ 1st horn in E♭ 2nd horn in E♭ 3rd horn in E♭ 4th horn in E♭ 1st baritone in B♭ 2nd baritone in B♭ 1st euphonium 2nd euphonium 1st tenor trombone 2nd tenor trombone Bass trombone B♭ bass (2 copies) E♭ bass (2 copies) Drums.fiction20 parts for Brass band. This piece is a selection of pieces from the 1909 Edwardian style musical comedy - the Arcadians. Selected and arranged by Shipley Douglas includes: Opening Chorus, Chorus of Waitresses, Back your fancy, The girl with a brogue, the joy of life, my Motter, Bring ma a rose, Charming Weather, Fickle Fortune and Arcady is every young. edwardian musical, musical, shipley douglas, lionel monkton, howard talbot, chorus of waitresses, back your fancy, the girl with a brogue, the joy of life, my motter, bring me a rose, charming weather, fickle fortune, arcady is ever young, chappel & co, chappell's bras and reed journal -
Warrnambool and District Historical Society Inc.
Medal - Medal VHAS, Villiers and Heytesbury Agricultural Association, Circa 1880
Historical information: this medallion has historical details on three fronts. Firstly the Villiers & Heytesbury Agricultural Association. This association began with the first meeting held on May 17th 1853 at Woodford. The minutes of that meeting read “That in the opinion of this meeting, the formation of an agricultural association would be of great benefit to persons in this district engaged in farming and pastoral pursuits. It initially embraced the following: ploughing, agricultural produce, machines and implements, and livestock of all descriptions. The first show was held at Warrnambool on April 10th 1855 on a green bounded by Fairy, Henna, and Koroit Streets. It was held there until 1875 when it moved to the present Showgrounds site in Koroit Street. At the 37th Annual show in 1890 Warrnambool held its first Grand National Show, being granted by the Chamber of Agriculture in turn, in Victoria. It became known as the Warrnambool Agricultural Society in 1911. Secondly the winner, Mr Hugh Lennon. He was one of the most successful innovators and manufacturers of agricultural implements in early Australia. Although born in Ireland, he served an apprenticeship in Scotland in mechanical engineering. The Lennon plough became known Australia wide. For many years he operated his business at the northern of Elizabeth Street in Melbourne. He was active in local affairs. He died in 1886 at the age of 52. Thirdly, Stokes and Martin. Thomas Stokes came to Australia in the 1850’s and established a successful business at Mincing Lane Melbourne, manufacturing buttons, medals and tokens. Martin joined the partnership in 1873, which lasted until a disastrous fire in 1893. The business was renamed Stokes & Sons Pty Ltd and it became a public company in 1962. It is currently situated at Ringwood in the business of spare parts for electrical equipment The Villiers and Heytesbury Agricultural Association was a significant event and organisation within the Western District over a large number of years. It was one of the earliest organisations in the district and is testament to its importance to the agricultural, social, and cultural life of the district. It is significant that this particular medallion was awarded to an innovator in the ploughing industry and that it was made by a company which is still in business 130 years later. Circular copper medallion cast with Villiers & Heytesbury Agricultural Assoctn around edge with winner and event details engraved in centre. The reverse is cast with horse, cow and sheep standing above wheat sheaf and farm implements. The edge of the medallion is plain.Villiers & Heytesbury Agricultl Assoctn around rim. 1st Prize awarded to Hugh Lennon for double furrow plough, Warrnambool Oct 19 1880. Stokes & Martin Melbourne in small lettering on the reverse.warrnambool, villiers & heytesbury, hugh lennon, stokes & martin, lennon plow, lennon plough -
Puffing Billy Railway
NRT1, Ruston & Hornsby Diesel Locomotive, 1951
NRT1 - Ruston & Hornsby Diesel Locomotive Built in 1951 to a gauge of 3', this Ruston diesel locomotive or rail tractor operated on the State Electricity Commission of Victoria’s Kiewa scheme. Some years later, it was regauged to 2'6" and was operated by the Melbourne & Metropolitan Board of Works. NRT1 is a Ruston & Hornsby diesel locomotive, built in England in 1951 to a gauge of 3 feet, and was initially employed by the State Electricity Commission of Victoria. It was later re-gauged to 2' 6" and ended it's working life in 1977 when it was transferred to Puffing Billy. In 1977, it was taken to the P.B.P.S. Steam Museum and stored until 1978 when it was taken to the Emerald Carriage Workshops. Later in 1983 it was returned to service as NRT1 following the V.R. classification procedure as a narrow-gauge rail tractor, but it had number plates installed and was painted Hawthorn green. It will eventually be painted the red of V.R. rail tractors with the number & class painted on in black. This type of locomotive was popular in many industrial locations, with their unique clutch-less 3 speed gearbox meaning the driver could control them whilst walking alongside, a bonus when shunting. Adjustable tie rods meant that as the axles moved on the springs, they followed the radius of the drive chains, reducing the chances of chain snatch LOCOMOTIVE DETAILS NRT class No. originally constructed : No. in service : 1 No. stored: Wheel arrangement : 0-4-0DM Roadworthy weight : 9T 3cwt. Maximum axle load : 4T 15cwt. Tractive effort (85%) : Length overall: 15' 6" Height overall: 10' Driving wheel diameter: 18" Date of manufacture: 1950 Manufacturer : Ruston Hornsby Place of manufacture: Lincoln, England Locomotive type : Diesel Mechanical Manufacturers classification : 48 DL Historic - Industrial narrow Gauge Railway - Ruston & Hornsby diesel locomotive used by State Electricity Commission of Victoria - NRT1 - Ruston & Hornsby Diesel Locomotive NRT1 - Ruston & Hornsby Diesel Locomotive made of steel NRT1 ruston & hornsby diesel locomotive, nrt1 diesel locomotive, nrt1, puffing billy -
Flagstaff Hill Maritime Museum and Village
Functional object - Sculling Oar, Mid to late 19th century
An oar is an implement used for water-borne propulsion. Oars have a flat blade at one end. Rowers grasp the oar at the other end. The difference between oars and paddles is that oars are used exclusively for rowing. In rowing the oar is connected to the vessel by means of a pivot point for the oar, either an oarlock, or a hole. The oar is placed in the pivot point with a short portion inside the vessel, and a much larger portion outside. The rower pulls on the short end of the oar, while the long end is in the water. By contrast, paddles, are held in both hands by the paddler, and are not attached to the vessel. Rowers generally face the stern of the vessel, reach towards the stern, and insert the blade of their oar in the water. As they lean back, towards the vessel's bow, the blade of their oars pivots in the oarlock, and the end in the water moves towards the stern, providing forward thrust. There also is another way of propelling a small craft it's called a sculling oar which is attached to the transom and used to propel a small vessels rather than using two oars as previously described. It is believed the subject item is just such an oar given it’s long blade associated with a sculling oar. For thousands of years vessels were powered either by sails, or by the mechanical work of rowers, or by paddlers. Some ancient vessels were propelled by both oars and sail, depending on the speed and direction of the wind. Wooden oars, with canoe-shaped pottery, dating from 5000–4500 BC have been discovered in a Hemudu culture site at Yuyao, Zhejiang, in modern China. The history of man using wooden oars to propel a boat has a considerable record in marine archaeology going back many centuries. The item is significant for marine archaeology as it gives a snapshot into how a small row boat was powered using a wooden sculling oar. A method of propelling a small boat still used today an example is the gondoliers in Venice using a sculling oar in a circular motion to propel his craft. Single sculling oar with long flat blade, two copper bands, on blade with rowlock fittingNoneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, boat oar, sculling oar, row boat -
Flagstaff Hill Maritime Museum and Village
Vehicle - Tip Dray, Prior to 1930s
A Dray is a type of dead axle wagon that was used to transport heavy loads or objects. They had a flat level floor and while some had no sides, others had box bodies and sides. Tip Drays (also known as Tip Carts, Muck Cart, Scotch Cart, Tumbrel or Putt in different parts of England) were smaller than other drays as their loads were heavy and usually only pulled by one horse. Their basic design included two wheels, a tipping body and shafts. The Tip Dray has a unique mechanism that allows the top to tip backwards to tip the load out of the back of the dray. The tipper was activated by a handle at the front allowing the driver to operate it while still having control over the horse. A Tip Dray was an indispensable piece of equipment in the days before tractors and mechanical trucks. They were used by farmers and carters to transport hay, rocks, bricks, gravel and rubbish etc. and because they were useful for dumping loads, they were favoured for use in road and railway construction. A photo in the collection of the Lorne Historical Society shows a tipping dray being used during the construction of the Great Ocean Road. They were part of the daily street traffic in towns and cities around Australia from the early days of settlement. In Australia in the early 1900's, carters began to join unions to protect their jobs and pay. N.S.W. had a "Trolley, Draymen and Carters Union", Queensland had a "Tip Dray Men's Association" and in W. A. the "Top Dray Driver's Union" had a "cessation of work" in 1911 when they were fighting for an increase in their day's wages. In 1910 a meeting of Tip Carters was held in Geelong at the Trades Hall to discuss the formation of a union (The Geelong Tip Dray Carters) which was a success and a schedule of rates for all carting, whether by contract or day labor, was fixed. By 1912 they had "labelled" more than 50 drays and had representatives on the "Trades Hall and Eight Hours Committee". By the mid 1930's and early 1940's, tip drays were being superseded by mechanical trucks and utes. However tip drays continued to be used in some circumstances. They were a practical solution to the problem of petrol rationing during W. W. 2. It was noted in a letter to the editor in the "Sunshine Advocate" in 1938 that a positive argument for continued use of Tip Drays for rubbish collection related to the idea that a horse drawn vehicle involved with lots of stops and starts at different houses (very like a milkman's delivery route) often involved the horse "driving itself" while the driver picked up the rubbish - something a motor truck was unable to do! Another article written in August 1935 and published in the Age in a parliamentary report into the rubber industry noted "tip drays had almost disappeared and in their place, metal was carted in 5 ton motor trucks" but the report went on to say that as a part of the Government relief work (during the Great Depression) the Government had "to some extent reintroduced the tip drays so that a greater number of men would be employed". This particular tip dray was owned by Mr. Oswald (Jack) Bourke. He used it to deliver dry goods from Sunbury to the Queen Victoria Market in Melbourne several times a week in the 1930's and then (between 1945 and 1962) Mr. Bourke used it on the garbage round in Springvale Victoria for the Springvale Council. The Council owned three drays and the "No. 3" painted on this dray is in recognition of its original number. After the death of Mr. Bourke in 1990, one of Mr. Bourke's sons (Andy) found the dray in a shed and restored it. The sign writing on the back and side panels were added during the restoration. This Tipping Dray is a significant example of a horse drawn vehicle that was used by workers from the early days of white settlement through to the 1940's and even into the early 1960's. It was used in a range of "working class" occupations - road construction, railway construction, carting goods, rubbish collection etc. and would have been found in cities, country towns and on farms.A wooden and metal tipping dray with a box body and four sides. It has two iron and wooden wheels (with 14 spokes), two wooden shafts and a metal tipping mechanism. The back panel folds down to allow loads to be dumped out. It is painted in green and cream with sign writing on one of the sides and on the front and back panels. It features decorative painted lines and designs in burgundy, cream and light blue on most of the wooden parts. The tipping mechanism is on the front of the dray's left side and consists of a metal pin secured with a metal ring, and a lever.Front of dray - "No. 3" Side of dray - "A. & M. BOURKE / Contractors / LONGWARRY" Back of dray - "G.T. ANDREWS / QUEEN VICTORIA MARKET - Stand C23 / Phone DANDENONG 225"flagstaff hill maritime museum and village, warrnambool, shipwreck coast, tipping dray, dray, tip dray, tip cart, vehicles, horse drawn vehicle, springvale council, jack bourke, muck cart, scotch cart, tumbrel, putt, box body, oswald bourke, sunbury, queen victoria market, melbourne, no. 3 -
Federation University Historical Collection
Document - Document - Proposal, VIOSH : Ballarat College of Advanced Education; Proposal for a Post-Graduate Diploma Course in OHM, 1977
Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Documents relate to the planning for the introduction of a Graduate Diploma in Occupational Safety and Health to begin in 1978. It was developed for the Victorian Institute of Colleges 1977-81 Academic Master Plan. The working party submitted a Third Draft in April 1977. The Course Co-ordinator was Derek Viner, Senior Lecturer, School of Engineering. The internal working party was Dr E Phillips, Head of School of Applied Science; Derek Woolley, Head of School of Engineering; Tom Norwood, Head of Department of Mechanical Engineering; Max Brooke, School of Business Studies; G Fernandez, School of Business Studies; J Harvey, School of Applied Science; B Rollins, School of Community and General Studies. An External Advisory Panel was also formed was different safety and injury bodies. Eric Wigglesworth - Injury Research Project became lectured at BCAE when the course began.Typed pages - A4 and foolscapviosh, victorian institute of occupational safety and health, graduate diploma in occupational safety and health, victorian institute of colleges, academic master plan, derek viner, course co-ordinator, school of engineering, dr e phillips, head of applied science, internal working party, derek woolley, head of school of engineering, tom norwood, head of department od mechanical engineering, max brooke, school of business studies, g fernandez, j harvey, school of applied science, b rollins, school of community and general studies, external woking party, s barklay, loss control officer, dr w cooper, medical officer gmh, f davis, risk management consultant, w jinkins, industrial safety advisory council, h jones, f mccabe, c polglaze, sec, w spratt, royal insurance co., f turley, national safety council victoria, eric wigglesworth, royal australian college of surgeons, c willis, loss control consultant -
Puffing Billy Railway
Smiths Setric Electric Clock, circa 1937
Electric Clock - Smiths Setric Clock From 1937 the trademark "Sectric" appears on their synchronous models.Usually on the dial but sometimes also on the back cover. Early clocks had a prominent "T" in sectric. Smiths English Clocks 1931 Smiths, then called S. Smith and Sons (Motor Accessories) Ltd, entered the domestic clock market and formed a new company, Smiths English Clocks Ltd, as the Clock and Watch division with Cricklewood as the main factory. Smiths were one of the first companies to produce synchronous electric clocks. These were put on the market towards the end of 1931. Smiths formed a subsidiary company called Synchronous Electric Clocks to produce these clocks as the first models carry this name. 1932 Smiths purchased English Clock and Watch Manufacturers of Coventry, and acquired the trade names Astral and Empire. 1934 Smiths produced a synchronous alarm clock which they named the Callboy. 1934 They bought the Enfield Clock Co. The Smith's 8 day Calotte clock made its debut at the British Industries Fair in 1934. Prior to this date calottes had been exclusively of foreign manufacture. Also that year, Smiths introduced the Batriclock which was intended for areas where the synchronous clock could not be used. 1935 They introduced the Synfinity, which Smiths described as "the clock that never stops". They said it was "the remarkable combination of a synchronous electric movement with the essential elements of a fine precision lever escapement". If the electric supply failed the clock would run for up to six hours and rewind when the power returned. Apparently the synchronous motor also corrected the mechanical time train at intervals. Smiths produced a synchronous electric chiming clock. 1937 The trade name Sectric appears on Smiths electric clocks. Also the introduction by Smith's of a calotte clock with an alarm movement.Historic - Smiths English Setric Electric Clock Electric Clock - Smiths Setric Clock It is round with the numbers one to twelve, three hands with a white face. Smiths Sectricpuffing billy, clock, time, smiths sectric -
Flagstaff Hill Maritime Museum and Village
Pen Rack
The origins of the pen rack probably began when quill pens were being replaced by steel nib pens that were held at oblique angles for writing this method of writing started to gain popularity around 1820-1860. To understand the development of display racks to hold pens on a desk we need to understand the development of the pen itself. Before the early 19th-century steel pens were almost universally all barrel pens affixed to a holder pretty permanently. Pens were also not disposable. There were even steel pen repair services, just like the same services around at the time to repair you're fine quills. Individual slip nib pens which fit into a holder were originally pieces of a quill which came in a box of nibs and fit into a holder. These were disposable and meant to obviate the need to mend your quills. By 1831 you start to see more what they called “slip nib pens” or “portable pens” (easier to carry than a long barrel pen), but the idea of holding the nib at an oblique angle in the holder was an idea new enough that it warranted a patent. In 1831, an enterprising and very successful stationer and inventor, Sampson Mordan (inventor of the silver mechanical pencil) combined with one William Brockedon to patent the first oblique pen and oblique holder. In the patent application, they mention as the benefits that this would allow the writer to hold the pen more comfortably as well as it should allow the pen to last longer since both tines will be moving across the paper evenly. It appears at the time the idea of holding a pen obliquely was new. As a result of the popularity of the oblique pen many different designs of pen desk holders were being made, to keep pens suspended on a rack alleviated the possibility that the expensive new steel nibs with their holder could be damaged if left in a desk draw with other items.Double sided Pen Rack, decorative metal with four metal legsflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Churchill Island Heritage Farm
Tool - 10" Spofford Brace, Mathieson
This brace would be used to drill into timber. A drill bit would be inserted into one end of the brace and then placed on the timber where the hole is to be drilled. The other end of the brace would be placed against the user’s abdomen, with one hand holding the brace firmly then the free hand would be used to turn the centre of the brace and drill the hole. This type of drilling method was used prior to the use of the electric drill. This brace appears to have been made by the firm of Alexander Mathieson & Sons from Glasgow, Scotland. Alexander Mathieson & Sons Ltd ('& Sons', after c. 1890), of the Saracen Tool Works, Glasgow, advertised as 'manufacturers of planes, mechanical, engineering and edge-tools'. They received 'prize medals' at the London, Melbourne and Edinburgh International Exhibitions of 1851, 1862, 1880 and 1886, in their 'quest for perfection in tools'. Mathieson's vast output included specialised craft implements for coopers, ship's carpenters, tinsmiths and wheelwrights. The firm originated when master plane-maker John Manners opened premises in Saracen Lane, Glasgow, in 1792. 4 Alexander Mathieson (c. 1797–1852) took over his business in 1821, which he gave as the foundation date of his firm. He was later succeeded by his son, Thomas A. Mathieson (1822–1899), a prominent Glasgow magistrate and preceptor of Hutcheson's Hospital charitable institution. In 1854, Mathiesons moved to East Campbell Street, and had opened branches in Edinburgh, Dundee and Liverpool by 1876. The third generation comprised Thomas O. and James H. Mathieson (born 1867), the latter being a Glasgow bailie (councillor), whose estate totalled an enormous £150,939 in 1926. Mathieson's hand- and small machine-tools (e.g. bandsaws and beading machines) were exported worldwide, especially their 'heavy duty auger bits used... for boring railway sleepers'. Iron carpenter's brace, metal handle, rotating knob, thumb screw, rustedATMIEBON (x) Mathiesonbrace, woodwork, carpenter's tools, spofford brace, churchill island -
Federation University Historical Collection
Medal, Ballarat School of Mines Hillman Award (medal), c1992
Lindsay F.J. Hillman was born in Ballarat in 1910, and attended the Ballarat Junior Technical School. He became a cadet in Electrical Engineering Laboratory at the Ballarat School of Mines where he gained eventually gained a student Teachership for diploma studies at the School. Hillman was particularly active and excelled in a wide range of sporting interests and in student activities. In 1928 and 1928 he was awarded the Ballarat School of Mines Honour blazer by the Old Boys' association for all round athletic ability, leadership and scholarship. After spending two years with the Melbourne City Council Electric Supply Department gaining industrial experience Hillman was awarded his Diploma of electrical engineering in 1931, returning to the School in 1932 to teach apprentices and senior students. Hillman was appointed lecturer in Engineering Design and Graphics in 1937, lecturer in Engineering Design and Civil Engineering in 1944, Lecturer-in-Charge of Mechanical and Civil Engineering in 1948 and Head of the Electrical Engineering Department in 1949, a position he held until his retirement in 1973. In 1975 Lindsay Hillman was appointed to the Council of the Ballarat School of Mines and played an active role in school affairs.As Vice-President of Council from 1981 until his death in 1991 Hillman took a leading part in the implementation of many of the major building projects on the Lydiard Street Campus. The L.F.J. Hillman Award was established by the Ballarat School of Mines Council in conjunction with and through the generosity of the Hillman family in honour of the late Lindsay Frederick John Hillman. The bronze medal was presented annually to an enrolled student in an accredited course in the field of electrical/electronics studies at the Ballarat School of Mines. specific Criteria for the Award consisted of a balance of academic performance, leadership qualities, commitment to further study and involvement in sporting and/or community groups. Bronze medal designed depicting the portrait of Lindsay Hillman. The medal has a copper finish, and is presented in a blue hinged box. The first Hillman Award was presented in 1992. The recipients are: 1992 - Brett A. Hovey 1993 - Nil 1994 - Brent L. Ferguson 1995 - Kirsty McKenzie 1996 - Peter J. White 2000 - Roger Bush 2001 - Thomas Edward George 2002 - Mark William Holden 2003 - David James Hopwood 2004 - Leighton Dunn 2005 - Donald Pirouet 2006 - Mark Irvin 2007 - Ricky Wilson 2008 - Luther Dean 2009 - Daniel Thatcher 2010 - Craig Coulter 2011 - Sarah Draper 2012 - Rhys Hendrickson 2013 - Jayden Hooper "Lindsay Hillman Memorial Medal" Verso: "The School of Mines and Industries Ballarat, Est. 1870 Presented to "ballarat school of mines, hillman, lindsay hillman, medal, numismatics, honour blazer, electrical engineering, electronics, hillman medal, hillman award -
Trafalgar Holden Museum
Vehicle - VN Commodore, 1988
The VN Commodore was available in Executive, S, SS, Berlina and Calais specification levels, although a more basic SL model (opt. code A9K) was supposedly offered to government and fleet buyers, as it was not officially listed as part of the Commodore range. Changes in the relative values of the Australian dollar, the Japanese yen, and the US dollar made it impractical to continue with the well-regarded Nissan engine of the VL. Instead, Holden manufactured their own 90-degree V6 based on an old Buick design from the US, although initially it was imported. The 5.0-litre V8 remained optional and received a power boost to 165 kW (221 hp). Both these engines used multi point GM EFI and the V6 using 3 coil-packs for ignition. Holden and HSV developed this car as the basis for racing in Group A Confederation of Australian Motor Sport events. While the minimum number of cars built to qualify in Australian Touring car Championships, with modified body kit, brakes or engine is 500, only 302 VN were built but CAMS granted an exemption allowing them to compete.Holden and HSV had worked hard to develop this car to be a serious competitor to the Skyline, Ford Sierra and the BMW which had dominated in the previous years. This was to be the Holden’s answer and coincided with the return of Peter Brock back to the Holden team from 1987.Mechanically the cars were fitted with reworked version of Holden’s 4.9 litre V8. The engine block was cast for additional strength, modified cylinder heads roller rockers and high fuel flow fuel injection was applied. Output was 215 kw at 5200revs and, though at today’s standard, that is not that much it was very impressive at that time. The drive was through a six speed ZF gearbox with a heavy duty racing clutch and a limited slip differential.Under the Hawke government's Button car plan, which saw a reduction in the number of models manufactured locally, and the introduction of model sharing, the VN Commodore was rebadged as the Toyota Lexcen, named after the late America's Cup yacht designer, Ben Lexcen. Subsequently, the Toyota Corolla and Camry were, similarly, badged as the Holden Nova and Holden Apollo.Red executive 4 door sedanHolden Lion and stone emblem grille centre, Commodore boot LHS, Lion and stone emblem boot RHS.vehicle, vn commodore, holden, car -
National Wool Museum
Machine - Knitting Machine, Coppo, 1960s
The knitting machine is a recently designed instrument, especially when it is compared with its ancient counterpart, the loom. It enables the creation of many metres of fabric very quickly. A knitting machine is composed of a series of needles which mimic the process of manual knitting. The mechanism engages numerous mechanical elements simultaneously and enables the creation of many metres of fabric very quickly. In addition, a knitting machine can be setup to produce unique bolts of fabric. The density of the fabric may be modified and a knitting machine can produce double-faced effects. A doubled-faced effect creates colour combinations through the introduction of an additional colour to the knitting pattern. This knitting machine is a Coppo brand. It contains over five hundred needles and was produced in the 1960s. It is a representation of the best available in the world at that time. Originating from Italy, it was designed for commercial use. Through both precision and capacity, Italian artisans were seen to be the best in the world of textiles and knitwear. Through emigration, globalisation and the regularly available quantities of wool, Australia came to compete on this stage. The owner of this particular machine migrated from Italy in 1959. When she did, she brought with her a Dubied knitting machine. She later replaced it with this Coppo. When in Australia the owner began work as a piece worker, knitting jumpers and worked for some of the iconic names in the Australian knitting trade including ES Poratt and Alpin Manufacturing. The owner’s role progressed from a piece worker to a wool garment designer and she won many Wool Industry Awards in the 1970s and 1980s. Her high quality of work using and her individual custom designs were spoken about by many of her customers and she had a very large private clientele. She designed and knitted fully fashioned tailored jumpers for people for around 30 years.Knitting table sits on a stand with wide metal legs. Legs contain lettering 'COPPO torino'. Legs are connected via three thin metal poles as well as a metal band and the bed of knitting table at top. The connecting metal band has the lettering 'SUPER - COPTAL' attached. The Knitting table itself contains two beds and a bench at the rear. Attached to the bench is a thin metal structure for the elevation of yarn. It has four crane esk structures above on this metal structure. The bench is covered in a pale grey laminate in the imitation of wood. Attached to the knitting bed is a sliding contraptions containing two handles at the front followed by a complex semi-circle sliding mechanism used to move the knitting mechanism front and back.Left Stand. Lettering: Coppo Torino Right Stand. Lettering: Coppo Torino Centre Stand. Lettering SUPER - COPTALcoppo, knitting machine, design, italy, wool, business, migrants -
Bendigo Historical Society Inc.
Photograph - Gliding in Bendigo, Late 1930s
These are the recollections of Alan Menere (1915 – 2001). Alan grew up in Moonee Ponds, Victoria, and moved to Bendigo while in his early 20s. There he met some like-minded young men who enjoyed challenges and matters mechanical. Flying was the adventure of the time, and they decided to give it a go. There was no intention to be on the leading edge of gliding technology. The challenge was to fly, and by their own efforts. They were aided in this by the embryonic regulatory arrangements covering light aircraft construction and flying, a sense of optimistic can-do, and the cavalier estimation of risks that goes with being in your early 20s. The events described here took place against a darkening political background. Alan and his mates were politically aware, very left wing, and viewed the gathering storm in Europe with apprehension. They could see from early on that war was coming, and it would change everything. Prevented from joining the Air Force by his red-green colour blindness, Alan joined the Army the day after the Pearl Harbour attack. He served in an Armoured Reconnaissance Unit in Western Australia, then with the Army Education Service in New Britain. After the War he joined the Commonwealth Public Service. He moved to Canberra, but his Bendigo habits stayed with him, as he built sailboards and carved propellers, to the admiration of his sons. Alan developed macular degeneration in his mid-60s. He retired to Port Stephens, fishing and socializing when he wasn’t tinkering with wing-sails for his catamaran. As he could touch-type, he quickly learned to use a computer. Very aware that he was the last member of the Bendigo group still alive, he resolved to set down his flying experiences. The images he selected are included, but there are many more from the Bendigo days.A CD entitled "Alan Menere - Recollections of Gliding in Bendigo in the late 1930s". The CD contains 33 documents consisting of one word file, one PDF file (entitled "The Urge to Fly") and the rest are of either photos of the Bendigo Gliding club or generally around Bendigo itself. Also included are some paper clippings of accidents that happened and description of flights.history, bendigo, bendigo gliding club, alan menere -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Photograph - Back to Cheltenham State School - A memento 28.11.1936, 1936
A reunion gathering for past students of Cheltenham State School held in November 1936A black and white photograph of a large group of men and women in a semicircle on a school play yard beside a weatherboard building .They all appear to be smartly dressed, many women wearing hats and the men in suits. Cheltenham School Reunion. The third annual "Back to Cheltenham State school" reunion attracted an attendance of 600 former scholars to the school on Saturday afternoon. The proceedings were opened by tho mayor of Moorabbin (Cr. J. W. Allnut). The oldest teacher present was Mrs. Grant, of Sorrento, who, as Miss Fraser, had charge of the school from 1880 to 1883. Another old identity was Mr. T. Evans, of Kew, who is 82 years of age — he was the head teacher from 1802 to 1800. Photographs were taken of Mrs. Grant with fifteen of her former pupils, and of Mr. Evans, who mustered 72 of his old scholars. The roll call showed that there were 50 pupils present who attended tho school more than half a century ago. Mrs. Buckley, of Mentone, who is 84, and Mr. W. P. Fairlam, of Cheltenham, 80 years, were the oldest former scholars in attendance. Mr. Fairlam, notwithstanding his age, still carries on the business of an auctioneer. Bouquets were presented to Mrs. Grant and Mrs Buckley by the president of the mothers' club (Mrs. Marshall). An enjoyable day was wound up by a dance at night in the mechanical institute, when 200 attended. (Age, Monday 30 November 1936, page 5)cheltenham primary school, state school, charman road, cheltenham, school, charman stephen, gettens mary, spring grove, balcombe road, nepean road, dairy farmers, market agrdeners, poultry farmers, methodist church, cancel, 1936