Showing 741 items
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Flagstaff Hill Maritime Museum and Village
Instrument - Clock, 1900's
In August 1884, Alfred Hirst who had started his trade as a watch repairer and was described as a watchmaker extraordinaire established Hirst Brothers and Company, on Union Street in Oldham Manchester. He took his two stepbrothers into the business and the company was set up to produce timepieces and jewellery as well as importing “Limit company” Swiss watches and precision machine tools for the watch and clock trade. By 1902 Hirst Brothers. had become a limited company and was still growing, adding other businesses in Manchester in 1904 and at Birmingham in 1907. The quality of the clocks and watches was such that Alfred Hirst realised his greatest ambition in 1912 with a range of watches which carried the "Limit" trademark. These watch movements had originally been made in Switzerland and shipped to Hirst Bros. to be put into British made “Dennison” cases. This trade brought even more growth with additional sales offices opening in London and Glasgow. At the outbreak of the First World War in 1914 found them manufacturing aircraft parts including revolution counters and optical instruments. The firm had been tasked by the Ministry of Munitions to solve the problem of pilots dropping bombs by hand and as a result, they effectively created the first bomb rack. After the war, the company once again began to prosper and with the demand for their products increasing they looked to build a new purpose-built factory to manufacture their products. In 1917 they purchased a seven-acre field site at Tame Side Dobcross, the designing of the new factory was passed onto local architect AJ Howcroft. His brief for the design of the clockworks would have been prompted by Alfred Hirst who having visited modern factories in the United States was inspired by the latest factory designs providing as much daylight as possible during working hours. The factory was eventually completed in 1920, by the mid-1920s there were cheap clock imports from Germany and production turned to radio sets and other components as well as counter and gas meters for the "Parkinson and Cowan" company who was later to take over the business. In 1926 came the cotton crash and the District Bank who had loans with the company foreclosed on the Hirst loan. The company did survive and throughout the second World, War II were involved in munitions work at the factory as well as making instruments for various aircraft. In the 1950’s they were producing meters and high grade measuring equipment but by the 1970's the business had closed and the factory was demolished in the mid-1980 "s The item is a good example of the later use of an early mechanism “Fusee” that was originally invented around 1525 in Prague. This type of clock mechanism was replaced as watchmakers looked for mechanisms that could reduce the size of clocks and watches, it appears England was the only country to continue making clocks with a Fusee device until around 1900,s of which our clock is an example. The use of a Fusee movement eventually became obsolete in 1970,s. The item is significant for the collection as it is a clock with a movement that has long since been made obsolete. Fusee type gallery wall clock made by Tame Side with an 8-day mechanical fusee movement. The white enamel dial is a little crazed and some of the Roman Numeral numbers are fading due to over-cleaning. The movement has a hexagonal iron pendulum bob hooking onto a pendulum rod with a spring-wound anchor escapement.Only mark is stamped on the movement believed to be a production number "13490" and made in Tame Side. (If the clock had been made after 1912 it would have had a trade mark "Limit")flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock, wall clock, fusee, gallery clock, alfred hirst, tame side -
Bendigo Historical Society Inc.
Plan - SANDHURST BOYS CENTRE COLLECTION: PLAN OF MAINTENANCE WORKSHOPS
Victoria Public Works Department. Sandhurst Boys Centre. Maintenance workshops plan, elevation & section, Scale 1:100. Elevation includes tea room, lockers bathroom; ladder store; glaziers workshop; paint shop & paint store; carpentry workshop; machine area; offices, store rooms; mechanical workshop. Location unknown 16.02.2023.bendigo, institutions, sandhurst boys centre, sandhurst boys centre site plans; maintenance workshops; loddon-campaspe regional service; victoria public works department -
Bendigo Historical Society Inc.
Book - ERROL BOVAIRD COLLECTION: FORDSON TRACTOR MANUAL
Fordson Tractor Manual with a light brownish cover and brown line borders on the front and back. Written on the front cover is Started on the 16 March 1928. G. J. McLean. Book is a 1927 edition Ford Motor Company, Detroit, Michigan. Book contains Important Instructions for Operators, Diagrams of different parts, Operation, and mechanical parts.Ford Motor Companybook, john bovaird collection - fordson tractor manual, ford motor company, g j mclean -
Flagstaff Hill Maritime Museum and Village
Equipment - Rope Block, Mid to Late 19th
A sailing block is single or multiple pulleys with one or more sheaves that are enclosed in an assembly between cheeks or chocks. In use, a block is fixed to the end of a line, to a spar, or a surface. A rope line is reeved through the sheaves, and maybe through one or more matching blocks at the far end, to make up what's known as a tackle. The purchase of a tackle refers to its mechanical advantage. In general, the more sheaves in the blocks that make up a tackle, the higher its mechanical advantage. The matter is slightly complicated by the fact that every tackle has a working end where the final run of rope leaves the last sheave. More mechanical advantage can be obtained if this end is attached to the moving load rather than the fixed end of the tackle. Various types of blocks are used in sailing. Some blocks are used to increase mechanical advantage and others are used simply to change the direction of a line. A ratchet block turns freely when a line is pulled in one direction but does not turn the other direction, although the line may slip past the sheave. This kind of block makes a loaded line easier to hold by hand, and is sometimes used on smaller boats for lines like main and jib sheets that are frequently adjusted. A single, large, sail-powered warship in the mid-19th century required more than 1,400 blocks of various kinds and sizes. An item from an old sailing vessel from the late 19th to early 20th century, unfortunately, the item cannot be identified as to what vessel it belonged to. It does however give an insight into a piece of sailing equipment that's design is still in use today on pleasure sailing craft. Wooden closed spelter double rope block with two pully's between sheaves, block has metal frame around outside of the sheaves and 4 metal pins, 2 each side of the frame at top and 2 at bottom, joining the sheaves together. The shaft between the sheaves is also wooden. Remnants of orange and black paint on outside of block. Shafts are chipped, wood has borer holes. (NOTE: Block was rediscovered after relocating objects to new storage area)Noneflagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, sailing ship, pulley, block, sheave, ship equipment, rope block, sail rigging -
Flagstaff Hill Maritime Museum and Village
Equipment - Block, Late 19th to early 20th century
A sailing block is single or multiple pulleys with one or more sheaves that are enclosed in an assembly between cheeks or chocks. In use, a block is fixed to the end of a line, to a spar, or a surface. A rope line is reeved through the sheaves, and maybe through one or more matching blocks at the far end, to make up what's known as a tackle. The purchase of a tackle refers to its mechanical advantage. In general, the more sheaves in the blocks that make up a tackle, the higher its mechanical advantage. The matter is slightly complicated by the fact that every tackle has a working end where the final run of rope leaves the last sheave. More mechanical advantage can be obtained if this end is attached to the moving load rather than the fixed end of the tackle. Various types of blocks are used in sailing. Some blocks are used to increase mechanical advantage and others are used simply to change the direction of a line. A ratchet block turns freely when a line is pulled in one direction but does not turn in the other direction, although the line may slip past the sheave. This kind of block makes a loaded line easier to hold by hand and is sometimes used on smaller boats for lines like main and jib sheets that are frequently adjusted. A single, large, sail-powered warship in the mid-19th century required more than 1,400 blocks of various kinds and sizes.A historic item from an old sailing vessel from the late 19th to early 20th century, unfortunately. It represents part of the rigging required to set the sails on a wind-powered vessel.A two sheave wood sailing block with metal hook and becket. One sheave missing. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, block, sailing block, two-sheave block, 2 sheave wood block, marine technology, sailing equipment, rigging, rigging block -
Flagstaff Hill Maritime Museum and Village
Book - Reference, William J Goudie, D. Sc., Professor (William john Goudie), Steam Turbines, 1922
This textbook was written for engineering students by Scottish Professor, William J Goudie, D. Sc., (1868-1945). He was a member of the Institution of Mechanical Engineers, a member of the Institution of Engineers and Shipbuilders in Scotland, an Associate Member of the Institution of Civil Engineers, James Watt Chair of Mechanical Engineering, University of Glasgow, and Professor of "The Theory and practice of Heat Engines" in the University of Glasgow. He wrote several papers and books on the topics of mechanical speed and power. The publisher firm, Longmans, Green & Co., was originally founded in 1724 in London by Thomas Longman under the name Longman. In August of that year, he bought the two shops and goods of William Taylor and set up his publishing house there at 39 Paternoster Row. The shops were called Black Swan and Ship, and it is said that the 'ship' sign was the inspiration for Longman's Logo. After many changes of name and management, the firm was incorporated in 1926 as Longmans, Green & Co. Pty Ltd. The firm was acquired by Pearson in 1968 and was known as Pearson Longman or Pearson PLC. The first practical steam turbine was built in 1884 by Charles Parsons and this became the beginning of generating electricity and powering large ships. The author of Steam Turbines, Professor William John Couldie D. Sc, was a mechanical engineer who had practical experience in a marine consulting engineering service and lectured in the theory and practice of mechanical engineering.This book is an example of the development of technology that contributed to the evolution of steam turbines. The book is also significant for its connection to the publisher Longmans, Green and Co., of London, a firm that has been established for over two centuries, renowned for publishing encyclopedias, dictionaries, books on English grammar, textbooks, poetry, reference books, novels, magazines and more.Steam Turbines, by William J. Goudie, D. Sc., Second edition, rewritten and enlarged. Published by Longmans, Green & Co. in 1922. The book has a textured green hardcover with a printed black title on the front cover and a gold embossed title on the spine. The fly page describes the contents. It states the author's credentials and the book's features - 329 illustrations and numerous examples.. The logo of Longmans, Green & Co. is on the fly page. It is a line drawing of a shield above a leafy wreath border surrounding a sailing ship at sea with a plaque below. Inscriptions are on the shield and plaque.On the shield: "L & Co" [Longman Green & Co.] On the plaque: "1724" [date business was established]flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, steam turbines, longmans green and co, paternoster row london, ship logo, engineering studies, textbook, 1922, longmans green and co., l & co., 1724, institution of mechanical engineers, institution of engineers and shipbuilders scotland, institution of civil engineers, james watt professor of "the theory and practice of heat engines", thomas longman, paternoster row, william goudie, william j goudie, professor william j goudie d. sc., james watt chair of mechanical engineering, steam turbine, marine turbines, steam power -
Federation University Historical Collection
Clothing - Costume, Ballarat College of Advanced Education T-Shirt, 1983
This T-shirt was worn by John Barker who was the son of E J Barker who from 1949-1960 was a Lecturer in Mechanical Engineering at the Ballarat School of Mines (SMB). Then from 1960-1964 was Vice Principal at SMB and was Principal of SMB from 1964-76. Then from 1976-1987 was Foundation Director of the Ballarat College of Advanced Education (BCAE) until his retirement. The Library at Federation University was named in honour of E J Barker. John completed a Diploma of Mechanical Engineering at the Ballarat College of Advanced Education and a few years later a Bachelor of Engineering. John was a keen sportsman particularly enjoying hockey and sailing.White t-shirt with blue coloured ribbed neck and cuff bands and stencil of logoPrinted on front - Ballarat C.A.E. Australian Inter Collegiate Championships - Sydney - 1983 ballarat college of advanced education, t-shirt, john barker, e j barker, australian inter collegiate championships, sport, costume, uniform, textiles -
Federation University Historical Collection
Photograph - Photograph - Black and White, Ballarat school of Mines, Lydiard Street, c1960
The illuminated signs in this photograph were erected over the main Lydiard Strert entrance to the Ballarat School of Mines somewhere around 1960. The signs were erected by Principal Harry Arblaster in an attempt to emphasis the Diploma Courses were of a tertiary level. Black and white photograph of Ballarat School of Mines building in Lydiard (south) Street, Ballarat. The photo features to signs. The first one includes the word 'The Ballarat School of Mines and Industries, and well as the Ballarat School of Mines shield. The other sign includes the word 'Professional courses, Geology, Chemistry, Civil Engineering, Mechanical Engineering, Electrical Engineering, Metallurgy, Art"ballarat school of mines, professional courses, gology, chemistry, civil engineering, mechanical engineering, electrical engineering, metallurgy, art, trades, arblaster, harry arblaster, illuminated sign -
Kiewa Valley Historical Society
Square Headed Wrench
Used to tighten fasteners. This wrench is large so may have been used for fasteners on farm machinery or in the SECV workshop.Used by residents and workers in the Kiewa Valley.Cast iron or steel - 1 and three sixteenth of an inch embossed on one side and 8 and a quarter inches long on the other. This wrench has a square hollow (box ring) at one end which is used ro provide grip and mechanical advantage in applying torque to turn objects - usually rotary fasteners, such as nuts and bolts - or keep them from turning.embossed measurement on the handlewrench, tool -
The Ed Muirhead Physics Museum
Mechanical equivalent of heat(J): remnant of torque mechanism
From label: Remnants of the “J” Apparatus beam balance for the measurement of the mechanical equivalent of heat. The solid object is the rotating magnet the construction of which is illustrated on the cover of \\\"A man Ahead of his Times\\\". Made in the Nat. Phil. Workshop for J experiment.Three components of “J” Calorimeter made of metal and covered in green enamel. One small weight from 33.3 has become detached from string. -
Cheese World Museum
Catalogue, To Dairymen & Agriculturalists: Milk Cream and Butter
This catalogue belonged to Alderdice Brass Foundry in Warrnambool. It was donated to the museum by John Downing from the foundry. The catalogue is for the firm of J Bartram & Son who were suppliers of dairy equipment. They were one of the earliest suppliers of mechanical milking machines in Victoria.The catalogue is significant as it is from an early dairy supplier and shows early dairy equipment. The Alderdice Brass Foundry has been in operation since the 19th century.Blue covered catalogue booklet with white text and illustrations of a cow, separator, butter maker and butter slicer machines.To Dairymen &/Agriculturalists/Milk/Cream/and/Butter J.BARTRAM & SON. PTY. LTD./586-588 BOURKE ST./MELBOURNEcatalogues, dairy industry, j bartram & son pty ltd, dairy machinery, milk, cream, butter -
Warrnambool and District Historical Society Inc.
Musical Instrument, Edison Phonograph, 1905
The phonograph is a mechanical device for the recording and reproduction of sound and originally used a tinfoil sheet wrapped around a rotating cylinder to produce the sound. It was invented by Thomas Edison of U.S.A. in 1877 and was the model for all phonographs or gramophones made and developed throughout the 20th century. This machine is of particular interest to the Warrnambool and District Historical Society as it is an Edison phonograph and an earlier model of this phonograph was used in Warrnambool late in the 19th century to make an important recording. In 1896 Thomas Rome, an employee in a Warrnambool boot and shoe shop, purchased an Edison phonograph that could both play and record sounds. At the Warrnambool Industrial and Art Exhibition of 1896-7 visitors to the Exhibition paid a fee to listen to music on this phonograph. But Rome also recorded some local Warrnambool people singing and speaking and these recordings survive today. They are regarded as the oldest surviving recordings made in Australia. Thomas Rome later became a shoe shop proprietor in Warrnambool and was a well-known person in the town/city for a great number of years. This is an Edison Gem Phonograph. It has a black-painted wooden base, now detached from the main mechanism. The phonograph is made of metal which is now heavily rusted. It has a cylindrical turntable for playing the Edison cylindrical records and a handle with a wooden knob. The turning mechanism and belt are now broken. The name of the manufacturer and details of the patents are on a metal plate attached to the side of the phonograph. The amplifier mechanism at the top of the machine is missing. The cover of the machine is made of wood and has a wooden handle attached with a piece of metal and two metal screws. There are also two metal screws on the side of the cover. The cover has a slot on the side to allow the turning handle to be accommodated outside of the cover. The cover is much stained and spotted. ‘Edison Gem Phonograph’ thomas edison, history of sound recordings, thomas rome (warrnambool) -
Geoffrey Kaye Museum of Anaesthetic History
Photograph
The Lidwill machine was designed by Mark Lidwill in 1913, for the purpose of mechanical or insufflation anaesthesia. It was manufactured by Elliott Bros. of Sydney. Shortly afterwards, the Anaesthetic and Portable Machine Company of Sydney devised a machine that was functionally the same but also contained an electric lamp heater.Colour photograph of a modified Lidwill anaesthetic machine sitting on carpet, taken from above. The vaporiser is metal and circular, and has metal valves and controls and two orange tubes. The machine has an electric cord and power plug which is coiled on the floor.anaesthetic equipment, lidwill anaesthetic machine, mark lidwill, ether vaporiser, anaesthetic and portable machine company of sydney, vaporiser -
National Vietnam Veterans Museum (NVVM)
Clothing - Pyjamas, Army issue
Army pyjamas as issued to soldiers in training during the Vietnam conflict. This set was worn by Craftsman Russell Alex Walker, No: 3789575 during his service in Royal Corps of Australian Electrical and Mechanical Engineers, 17th Construction Squadron, Vietnam 1967-68.Blue, white and red striped pyjamas issued by the Australian Department of Defence. Jacket is long- sleeved with a collar, and fastens with 4 plastic buttons. Long pants fasten with a cord.royal corps of australian electrical and mechanical engineers., 17th construction squadron, pyjamas, raeme, walker, army uniform -
Lara RSL Sub Branch
Plaque - RAEME Plaque
RAEME Corps was first established in 1942 when the Ordnance Corps and the Service Corps were combined. The royal ascent was granted in 1948. Ref: www.raeme.org.au The Royal Australian Electrical and Mechanical Engineers (RAEME) is a technical corps tasked with the maintenance of the Army's modern hardware and equipment. RAEME personnel are represented in most Army units, with the representation varying in size from one or two tradespersons, to small groups of 20 to 30 tradespersons, to large maintenance units with over 150 personnel and a totally integrated military and civilian workforce. The Royal Australian Electrical and Mechanical Engineers corps motto is ‘Arte et Marte’, which is Latin for ‘With Skill and Fighting’. Ref: www.army.gov.auVarnished Wooden BoardRAEME Badge Jan Zyla George Zyla 2020 -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Measuring Equipment, circular slide-scale, 20thC
A mathematical slide rule Calculator used by engineers, mechanics, and similar tradesA typical precision slide rule used in City of Moorabbin 20thCA plastic, circular slide-ruleon face ; CIRCULAR 'CONCISE' SLIDE RULE MADE IN JAPAN on protector sleeve ; BASIL V R GREATREX PTY LTD / SYDNEY MELBOURNE / STEAM TRAPS / AIR DRYERS / ROTARY JOINTS / TEMPERATURE REGULATORS / HUMIDIFIERS / SPIRAL WOUND GASKETS,/ MECHANICAL PACKINGSmeasurements, slide-rule, slide scale, moorabbin, cheltenham, bentleigh, precision instruments, concise pty ltd -
Kiewa Valley Historical Society
Facit Calculator, Office Equipment
This calculator is like a modern calculator style keypad with a traditional pinwheel calculator. In operation it is similar to other Facit machines. The design from the 1930s was produced without interruption with only slight modifications until the early 1970s.This one hasn't a serial number or Model Number so date is unknown but probably the 1940s - 1950s when the SEC were constructing the Kiewa Hydro Electric Scheme.Used by the SEC Office Staff when the SECV were constructing the Kiewa Hydro Electric SchemeBox shape with grey steel top and sides on a black base. Three thin strips of stainless steel embossed with numbers on the top and clear panels beside them. Front has 3 red and 10 black knobs with arrows on the red and numbers on the black. Sides have stainless steel pedals and winders. The machine is very heavy. See on-line "mechanical calculators.wordpress.com"'Facit' on the front.calculator, facit -
Melbourne Tram Museum
Drawing, The Met, "Tramcar Data", c1984
Drawing - two A2 sheets, "Tramcar Data", listing all vehicles in use c1984, including A and B class data. Though not numbered similar to drawing X1537 held in the Mechanical drawings. Lists class, numbers, total in service, type, capacity (seated and crushed), Trucks, wheel and truck centres, motors, tare weight, controller, compressor and length over bumpers.trams, tramways, drawings, tramcars, class -
Bendigo Historical Society Inc.
Document - BILL ASHMAN COLLECTION: CORRESPONDENCE
Letter, dated 17 August, 1938 from E. C. Eyers to Mr. H. A. Abbott. He refers to a previous letter, addressed to the Chief Mechanical Engineer, that the Commissioners had approved of a settlement of £270 for 52 scalebuoys supplied for engine No. 875 and that a cheque would be sent in the next few days. Letter has printed letter head with Victorian Railways logo at the top.sciences, instruments - general, scalebuoy, bill ashman collection - correspondence, victorian railways, h a abbott, bendigo electronic company of australia pty ltd, e c eyers -
Bendigo Historical Society Inc.
Document - SANDHURST SCHOOL OF MINES COLLECTION: LETTER FROM L B MCGRATH, 20/02/1907
SANDHURST (BENDIGO) SCHOOL OF MINES LETTER from L B McGrath , Mining Exchange Bendigo dated 20.2.1907 'Experienced Mechanical and Mining Engineer Advise on purchase , supervision or erection of machinery of any class and how to economise fuel .Plans prepared & commissions executed .' //to D Clark Director School of Mines re extra marks instruction for metal working classdocument -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Musical Equipment, Gramaphone Edison c1900, late 19C / early 20C
A Gramophone / Phonogram is a device for the mechanical recording and reproduction of sound. The phonograph was invented in 1877 by Thomas Edison. in USA and Alexander Graham Bell's Volta Laboratory made several improvements in the 1880s and introduced the graphophone, This Edison was donated to CMHs by the family of John Box 1841-1913This gramophone belonged to John Box 1841-1913 an early settler in the area of Henry Dendy's Special Survey Brighton 1841A wooden cabinet with a lift up lid enclosing a turntable , record , trumpet and handle . This cabinet stands on another storage cabinet with shelf and doorEDISONmanufactured objects, music, musical records, long playing records, gramophone, phonogram, wireless, edison thomas, edison pty ltd, electric lights; -
Federation University Historical Collection
Costume, Ballarat School of Mines Windcheater, c 1980
This windcheater was worn by John Barker who was the son of E J Barker who from 1949-1960 was a Lecturer in Mechanical Engineering at the Ballarat School of Mines (SMB). Then from 1960-1964 was Vice Principal at SMB and was Principal of SMB from 1964-76. Then from 1976-1987 was Foundation Director of the Ballarat College of Advanced Education (BCAE) until his retirement. The Library at Federation University was named in honour of E J Barker. John completed a Diploma of Mechanical Engineering at the Ballarat College of Advanced Education and a few years later a Bachelor of Engineering. John was a keen sportsman particularly enjoying hockey and sailing. He died as a result of an accident on 16 June 1994.This orange coloured cotton knit windcheater has a built-in v-shaped rib fabric inset at the top front. The rib is also at the round neck, cuffs and waist. On the front is printed in black, the crest with the words 'School of Mines' around the crest and 'Ballarat' underneath. john barker, edward john barker, ballarat college of advanced education, wincheater, ballart school of mines -
Federation University Historical Collection
Instrument - Scientific Instrument, Pajari Instruments, Boxed Tropari
This item was most probably used at the Ballarat School of Mines. Pajari Instruments Ltd. grew from a partnership established in 1945 when the first EX-AX surveying instrument that provided accurate azimuth and inclination was made available to the diamond drilling industry. The partnership between Charles Trotter and George Pajari Sr. was known as Trotter-Pajari Instruments and the EX-AX Instrument was dubbed the "TROPARI" by the diamond drilling industry. Charles Trotter, a mechanical engineer, was also a marketing genius who developed substantial demand in Australia, Africa and South America in the 1940's and early 1950's. In fact the sales to each of these continents exceeded those to North America during those early years. Pajari is located in Orillia, Ontario, Canada and offer services and products that assist customers with their individual requirements. After the death of Charles Trotter in 1956, George Pajari Sr. with the assistance of his wife Hilda continued the business under the title of Pajari Instruments. George Sr. set most of the tenets that comprise our present Mission Statement. If it wasn't user friendly or if it had to have experts to operate it, that instrument design was doomed. If the customer wasn't getting good value in his opinion, manufacturing and repair procedures were examined to see where efficiency could be improved to cut costs without sacrificing Quality. George Pajari Jr and his wife Darlene assumed the reins of Pajari Instruments Ltd. in 1981 when George Sr. decided on semi-retirement. George Jr. brought the "client geologist's" perspective to the company. The company moved from Toronto to a 30 hectare (80 acre) site near Orillia shortly afterward. This site provided the high magnetic latitude earth field environment without magnetic pollution that is necessary for accurate compass setting. The park like setting of this location is a positive psychological benefit for our staff. George Sr. passed away in 2002 being preceded by Hilda only by 3 months, George Jr. continues at the helm of the company. With dedication from long term employees/contractors and third generation family members, Pajari Instruments Ltd. continues operations/new product development in Orillia. (http://www.pajari.com/about.html) Brass levelling compass in green velvet lined hinged timber box. Known as a Tropari - a single-shot, micro-mechanical borehole surveying instrument operated by a timing device. Borehole direction is measured from the earth's magnetic field. The Tropari provides both direction and inclination which can be used to define the attitude of the borehole at the survey depth. Regular surveys at intervals as the borehole progresses will allow a plot of the borehole to be drawn from the data. The Tropari is easy to use and maximizes profits by minimizing capital and operational costs. The Basic Survey Train Consists of: PDSI / Tropari Container, 6m (20 ft) Nonmagnetic Rods, Impact Foot, and Connector at Top. (http://www.pajari.com/tropari.html) A sticker on the lid of the hinged box states: "A.E. Parsons 107 Leicester St., Carlton 3053 Telephone 347 5844"scientific instrument, compass -
Ambulance Victoria Museum
Suction Unit, Laerdal, Pre 1997
Mobile suction unit with power. Possibly used from the late 1970s and into the 1980s for mechanical suction control. Possibly used in non MICA rural ambulances. Maintenance sticker on object indicates that it was last serviced in 1997. This suggests that the equipment may have been in use to that date.Grey plastic case with handle containing suction equipmentCHEMTRONICS P/L SAFETY TESTED PERFORMANCE TESTEDsuction -
Kiewa Valley Historical Society
Milking Cups - Dairy
This milking equipment was used in the early days of milking using machines. The dairy industry is and has been one of the major industries of the Kiewa Valley. This equipment was used on local farmers, P & R. Creamer's dairy farm.Set of early mechanical milking cups. 4 cups - 2 each side of 2 hollow metal (steel) rods which are attached to hollow rubber tubes that lead towards the main milking machine. The metal cups have black ends at the opening where they are attached to the cow. The outlet from the cups is via 2 metal tubes that lead into the rods that in turn lead to the tubes.At opening at end of cups: "Utility" possibly more but too difficult to read. milking machinery; dairy; kiewa valley; creamer family; -
Ballarat Tramway Museum
Functional Object - Tramcar, Duncan and Fraser, ESCo Tram No. 12, 1892 & 1905
Single truck (4 wheel) straight sill combination tramcar with open ends, closed centre saloon, longitudinal seats. Centre section originally an 1892 Sydney cable car trailer ( No. 18 - North Sydney). No mechanical equipment of the 1905 tram has survived. For an article on the tram and progress during 2018 see August 2018 issue of Fares Please! See Conservation Plantrams, tram 12 -
Dandenong/Cranbourne RSL Sub Branch
Booklet, Victorian Railways Printing Works, Small Arms Training, May 1942
Brown booklet bound with 2 staples. Three hole-punch holes along left side. Brown text on cover with red text on inside cover and white pages with black text within.Front: ".... Small Arms Training / Volume 1, Pamphlet No. 7 / 303-inch Machine Gun / Part 1 - Mechanical Subjects / 1942 / .... MODIFIED FOR AUSTRALIA / GENERAL HEADQUARTERS (AUST.) / May 1942 / By Authority: Victorian Railways Printing Works, North Melbourne / 2242/42"small arms training, booklet, soldiers handbook, wwii, 303 machine gun -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Pharmacy , spatula spoon, 20thC
A Spatula is a flat, blunt, usually flexible instrument used for spreading plasters and for mixing ointments and masses. and to aid in mixing ingredients with a mortar and pestle. A Pharmacist using a Spatula usually involves the thorough mechanical mixing of the weighed bases on an ointment slab until a uniform preparation has been obtained. A metal spoon spatula used for mixing pastes in a pharmacy .pharmacy, medicines, ointments, mortar and pestle, pharmacy equipment. laboratories, moorabbin, bentleigh, cheltenham -
Ballarat Tramway Museum
Photograph - Digital Image, Neville Britton, Geelong tram No.2 at St Aidans, 10-11-2020
Shows Melbourne Electric Supply Co. tram No. 2 after its reconstruction to an operable condition at the Museum's St Aidans Drive terminus on 10-11-2020 following transport from Bendigo where the mechanical work was carried out. The body work was rebuilt from a farm shed in Canberra.Yields information about the appearance of the tram when it was delivered to the Museum. Further work was done to complete the interior.Digital image of Geelong tram No. 2 after its reconstruction and recommissioning at the St Aidans Drive terminus of the Museum's tram line on 10-11-2020geelong, mesco, trams, tramways, geelong no. 2, reconstruction, restoration, wendouree parade, st aidans drive, btm -
Flagstaff Hill Maritime Museum and Village
Equipment - Rope Block, Mid-20th century
A sailing or rope block has single or multiple pulleys with one or more sheaves enclosed in an assembly between cheeks or chocks. In use, a block is fixed to the end of the line, spar or load to be lifted such as at a transport dock. A rope line is reeved through the sheaves, and through one or more matching blocks at the far end, to make up what's known as a tackle. Generally, the more sheaves in the blocks that make up a tackle, the higher its mechanical advantage. Various types of blocks are used in sailing. Some blocks are used to increase mechanical advantage and others to change the direction of a line. A ratchet block turns freely when a line is pulled in one direction but does not turn in the other direction, although the line may slip past the sheave. This kind of block makes a loaded line easier to hold by hand.This rope block is an example of rope and tackle systems used in maritime settings to lift and move cargo and machinery, often with the help of a crane. It is also used on sailing vessels as part of the rigging, help to raise and lower the ropes and sails.Block; two sheave wooden rope block with ring and becket. It features a Closed Spelter Socket (CSS). Rings are galvanised metal. There is a compliance plate attached with an inscription. It was once owned by a government body, as indicated by the 'up-arrow" symbol.Compliance plate: stamped twice "CS" [Closed Spelter] and "↑"flagstaff hill, warrnambool, shipwreck coast, flagstaff hill maritime museum, flagstaff hill maritime village, lifting equipment, stevedoring, rope block, rigging block, sailing equipment, css, closed spelter socket