Model of a pump (water?) and drive shaft for motor showing inlet/outlet valves at top. Used for teaching Arboriculture. Bolted to a metal stand. Painted bright contrasting colours.arboriculture, teaching, pump, drive shaft, motor, artifact

Probably used to drive machinery as part of milling process.From left to right along long centre pole (horizontal) is a small wide wheel, on a narrow arched stand.At the centre of the pole is a larger, slimmer wheel followed by a smaller wheel.

Interior view of showing machinery at Foster Valley Mill. Shows a wall mounted drive shaft which runs the machinery.Drive shaft for textile machinery within the Valley Mill.T. Lockwood Lockwood / GEELONGtextile mills - operation, valley worsted mill

Used to drive the belt for machines.A long shaft with five wheels of varying height attached to it. The largest wheel has six spokes, the second to last in size has five curved spokes. One wheel is made of hard rubber. The shaft extends beyond the largest wheel, where it has a big bolt. The shaft extends an inch or two beyond the wheel at the other end. All wheels are bolted on.

Humble and Nicholson Ferrier wool press (Serial No. 1141) with associated drive shafts fabricated by Alan Hill of Geelong . Humble and Nicholson Ferrier wool press (Serial No. 1141) parts. Humble and Nicholson Ferrier wool press parts (Serial No. 1141) with associated drive shafts fabricated by Alan Hill of Geelong. Humble and Nicholson Ferrier wool press parts (Serial No. 1141) with associated drive shafts fabricated by Alan Hill of Geelong

Used in an orchard workshop to cut metal.Belt driven power hacksaw or metal cutting saw with overhead drive shaft and a section of canvas drive belt.'Drawcut' make, on bow and 'adjust tension' etc on adjuster.trades, metalworking

Depicts the woollen spinning room from one of the Godfrey Hirst mills in 1966. In 1966 McKendrick Consolidated Industries Ltd purchased Godfrey Hirst Ltd to operate a carpet manufacturing company and this photo was taken at the time of the takeover.Photograph, black and white. Depicts a room filled with horizontal spinning machinery, powered by drive shafts. There are cases and skips in the foreground.Proof IAN HAWTHORNE / PHOTOGRAPHER / Commercial, Portrait, Wedding, Colour Processor / Upstairs, 140 Moorabool St., Geelong Ph. 98096godfrey hirst and co. pty ltd, spinning, spinning machinery

Sepia toned, mounted on green board. Interior of engine room, showing machines with large pistons, drive shafts and fly wheels. Inscription: plague on front of machine 'A. Harkness & Co | Engineers | 1907 | Bendigo'.A. G. Levy, (Eaglehawk photographer)organization, business, a.harkness + co

Photograph of the interior of a Melbourne cable tram engine house showing the rope drives and the drive shafts. Location not known, though it could be Brunswick given the location of a doorway. Also known as winding houses or power houses.Yields information about the interior of an engine house.Black and white print with plain backtramways, engine houses, cable trams, winding houses

The log winch is a rare and unusual item of considerable interest in the context of the Echuca and Murray River Red Gum industry The winch is of historical significance for its association with the Evans Sawmill from early to mid-twentieth century, It helps demonstrate the role of the industry in the exploitation of the Murray River red gum timber, the process of converting the forests to a saleable commodity and the relationship between the industry the river Echuca township and the transport facilities of the wharf, paddlesteamers and the railway,The log winch is a rare and unusual item of considerable interest in the context of the Echuca and Murray River Red Gum industry, and the transport industry of Victoria,The structure is composed of red gum timber with four main posts with diagonal braces supporting a cog system and winch cable on the drive shaft at the top of the structure There is a platform on one side of the structure to enable the operator to reach the operating levers. There was also a rod control to regulate the winch engine and boiler.

Black and whit photo of the Inside of old Battery at Victoria Hill, Long Gully. Photo shows some men working among the belts and pulleys, one is about to upend a tub. There is another part upstairs. A high long shaft drives another shaft near the floor level.bendigo, history, long gully history group, the long gully history group - inside of old battery at victoria hill long gully

The woollen industry has always been of the utmost importance in Australia. Although exports have declined over the past decades the production of fine wool still remains important in our economy. The great increase in wool production in the mid to late 19th century in Australia led to the need to replace the hand shears with some mechanized form of shearing. The first sheep shearing machine in Australia was patented in 1867 and improvements to this early model were made over the ensuing years. The early 1890s saw the introduction of flexible drive shafts. The two items here described show this innovation. These two items are of interest as examples of handpieces used early in the 20th century in the mechanized shearing of sheep. They would be typical of the pieces used in the wool industry in the early 20th century in Western Victoria. There are today many local shearers living in Warrnambool and nearby towns and working in the district. .1 This is a metal handpiece for a sheep shearing mechanism. It has a toothed blade attached with metal screws at one end and a jointed metal pipe at the other end for attachment to the shearing machine. The middle section has been covered with black leather for easier gripping. .2 This is a metal handpiece for a sheep shearing mechanism. It has a toothed blade at one end and a flexible metal attachment at the other end to connect it to the shearing machine. Both items are rusted and stained. ‘Sunbeam Flight Lister’sheep shearing in the western district, warrnambool

A concave wooden racquet with red, black, and gold whipping and stem wraps, and short, leather handle grip. Inscription across base of head on obverse: AEROFLIGHT. Company monogram 'B' situated below on throat. Inscription across base of head on reverse: "BENTLEY"/NIAGARA/FALLS. Decal of company coat-of-arms below on throat. Inscription along right side of stem: MADE IN CANADA, followed by patent details. On left side of stem: SPRING DRIVE SHAFT. Materials: Wood, Nylon, String, Metal, Ink, Glue, Lacquer, Leather, Cloth tape, Adhesive tapetennis

Wattle Gully Gold Mine was at Chewton. A footwall in mining is the underlying rock mass beneath an inclined fault, vein, or mineral deposit. It is named because miners typically walk on this lower surface while the hanging wall lies above them. In mining operations, it serves as a crucial, stable reference point, often housing underground drives and shafts. Transverse section showing W.W. Gully and Phillips Reef. Seperate transverse diagrams of north and south of xcut. Additions by W. Edwards, 30.7.45, Plan forms part of the Margaret Roberts Collection of mining records. margaret roberts, gold, chewton, shaft, gold mine, phillips reef, w.w. gully, footwall

Victoria Quartz Gold Mine was situated on Victoria Hill, Bendigo. Victoria Hill is situated on the Marong Road, opposite the Gold Mines Hotel. Victoria Hill was one of the richest areas on the Bendigo Goldfield. It had many successful mines, including Lansell's '180' and the Victoria Quartz, once the deepest gold mine in the world. At the turn of the century, this was the site of one of the premier mines on the Bendigo goldfield. In 1908, it boasted the world's deepest shaft - 4,478 feet (1,365 metres). The shaft reached a depth of 4,613 feet (1,406 metres) in 1910. In 1857 eight small claims in this area had been merged to form the Victoria Reef Quartz Mining Co. Another merger in 1877 led to the formation of the Victoria Quartz Co. For the next three decades, the mine produced consistent profits. In 1910, water burst into the claim, flooding the shaft and halting operations. The company baled water for six months then handed the mine over to the tributers who worked the upper levels for the share of the profits. The mine closed in 1913, having produced over 48,000 ounces of gold and paid dividends of £99,600.Printed in black text on light tan paper: 'Underground workings, Victoria Quartz Co''. Written on accompanying label: "Victoria Reef, underground plan'. Plan shows shaft, drives and geological features. Plan forms part of the Margaret Roberts Collection.gold mining, gold, bendigo, victoria quartz gold mine, victoria reef

Newspaper article, Bendigo Advertiser, Thursday October 13, 1988, page 1. It was said in the 'heyday of Bendigo's gold mining it was possible to walk underground from Spring Gully to Eaglehawk' Article describes a walk done in 1988 from the 8th level of the Central Deborah Gold Mine shaft (270 m) through a series of tortuous and at times hazardous drives, stopes, shafts and cross overs to the 8th level of the North Deborah Gold Mine. Steven Hinde, Bendigo Mining's Chief Geologist lead the trek, which proved it was still possible to go down one shaft and emerge up another. When Bendigo Mining dewatered the Central Deborah shaft it uncovered the old connecting passages.bendigo, mining, central deborah gold mine

The St Mungo mine was a historic gold mine located on the New Chum line of reef in Eaglehawk, part of the greater Bendigo goldfields. It was positioned in the vicinity of Victoria Street and Upper Road, and near Baldock Court, Eaglehawk. Hand drawn plan on cream map paper, on top of plan: St. Mungo Mine, Eaglehawk. Plan shows poppet head, shaft and drives. Written on side: 'Section across line of reef' and 'Old workings'. Poppet head has St. Mungo flag on top. Plan forms part of the Margaret Roberts Collection.gold mining, gold, transverse section, st. mungo mine, eaglehawk, baldock court

These are sales photographs for William Tatham Ltd. of Rochdale. These photographs are taken in the fitting shop at William Tatham Ltd. where final assembly would have taken place. A Tape Condenser is a device that receives the wide fibre web from a woollen card, divides it, and rubs each section into a sliver. The photographed machine was made by William Tatham Ltd, a textile engineering company based in Rochdale, UK. Established in 1866 Tatham developed innovative textile machinery and send their products to Australia and other countries around the world.Two black and white photos of a Tape Condenser in a landscape format. The first photo is of the front of the machine, the second is of the rear.8038.1 - Front - top margin: For description see over. Front mid right edge - Wm. TATHAM Ltd. ROCHDALE. Machine Maker Front bottom right corner - 1138 Rear - Showing new model Tape Condenser with all-Perspex Guards, new gear box type of main drive to Condenser. New mounting of all Tape Rollers, cross shaft drive to Variable Speed Gear Box for drive to rubber shaft and many other improved features. 8038.2 - Front mid right edge - Wm. TATHAM Ltd. ROCHDALE. Machine Maker Front bottom right corner - 1140 Rear - New Model Four-teir Tape Condenser showing rubbing motion side Note greatly improved guarding completely enclosing rubbing motion and gearing, also Variable Speed Drive to Rubbing Motiom via heavy ‘V’ Belt. The drive is taken by cross-shaft from the main gearing of the Condenser. Rubbing Motion has all roller bearing eccentrics throughout.textile machinery, tatham, wool manufacture, tape condenser

Reports to Directors of Snowball Gully Gold Mining Co re Mining Details and Winding Up (sale); 1. 10 pages of details of mining progress (shaft sinking, drives etc) in the period 1905 - 1907 submitted by D Gummell, Manager; 2. Two pages listing the tools and implements on the mine when closed with attached letter to Directors (31/10/1907) submitted by D Gummell, Manager. Note: comment by Ralph Birrell on this second document (19/3/2013) - he observes that the sale of ''68 drills'' on the submitted list indicates that at this mine in 1905/07 they were still using drills and hammers.document, gold, snowball gully gold mining company, snowball gully gold mining company. d. gummell. ralph birrell.

Climax geared locomotive No. 1694 in active service on special occasions - stored at Emerald Station A Miraculous Survivor Climax locomotive No.1694 is a miraculous survivor of a rare breed of steam locomotive. For about 100 years from the mid-1850s sawn timber was carted from Victorian sawmills to the nearest railway station by timber tramway. These tramways were generally very rough, steeply graded, sharply curved, and of narrow gauge. Many had wooden rails, and horses provided haulage. The better ones used steam locomotives. In all about fifty steam locomotives are known to have worked on Victorian timber tramways. These locomotives were usually somewhat peculiar - made to cope with arduous, rough conditions, rather than speed. Climax locomotive No.1694 is the only one of these locomotives to survive intact. It was built in 1928 by the Climax Manufacturing Company, Corry, Pennsylvania, USA, for the Forests Commission of Victoria. The distinctive feature of the Climax locomotive is that the cylinders do not directly connect to the driving wheels. Instead they drive a cross shaft near the centre of the locomotive. From there the drive is transmitted to the small driving wheels through rotating shafts, universal joints, and bevel gears. The driving wheels are mounted in two four-wheel bogies so that they can easily follow sharp curves in the track. None of these features are found in normal steam locomotives. The result is a locomotive that is extremely powerful for its size, and that will cope with sharp curves and steep grades with ease. But this is at the cost of speed, Climax locomotive No.1694 is just about flat-out at 13 km/h (8 mph). Climax Locomotive Built in 1928 for the Forests Commission of Victoria and painted all-over black with the name CLIMAX painted on the sides of the cab in white block letters, this locomotive was issued to the Tyers Valley tramway which branched off the Moe to Walhalla line at Collins Siding. This locomotive was withdrawn from service in 1949 following the closure of the tramway and in 1950 it travelled from Tyers Junction to Collins Siding to Erica where it remained stored until 1965. Loaned to the Puffing Billy Preservation Society for its Steam Museum, it was taken to Menzies Creek in 1965 where it remained until 1982 when the Emerald Tourist Railway Board bought it and transferred it to Belgrave for restoration. It was returned to service for special use on the Belgrave to Gembrook line in 1988 painted in its original all-over black livery, except that the word “Climax” on the sides of the cab was now painted in the style of the Climax Manufacturing Co., a style that this locomotive had never carried.Historical - Industrial railway - Forests Commission of Victoria, Timber Logging Climax Locomotive Climax geared Steam locomotive made of steel and wrought iron Climax 1694climax locomotive works, climax, geared steam locomotive, puffing billy, climax locomotive no. 1694, steam locomotive

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine. On the brake is returned serviceman Norman WIlliam Ludbrook (Diploma Electrical Engineering, 1952). Far right is Roy E. Mawby (Diploma Electrical Engineering, 1950)steam engine, model steam engine, davey paxman, electrical engineering, laboratory, scientific instrument, norman ludbrook, norman william ludbrook, roay mawby, roy e. mawby

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine installed at the Ballarat School of MInes. steam engine, model steam engine, davey paxman, thomas bath, experimental steam engine

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only. Black and white photograph of an experimental steam engine which was produced for the Ballarat School of Mines. It was designed for experimental purposes, such as testing of efficiency, etc. The laboratory which housed the steam engine was lit with gas lighting. davey paxman experimental steam engine, model steam engine, davey paxman, steam, thomas bath, thermodynamics

The photo depicts one shift of mine hands at Hanlon Consols Mine Rokewod in 1901. ist on the left is George Edgar Yung. George was born in Ararat the son of Yohann Godlip and Christina (b Weller)Yung. They lived at Happy Valley near Linton. and Piggoreet. Yohann was a miner and died in the All Nations Mine collapse at Derwnt Jack's in 1877. Interesting to note in the following information that the Hanlon Consol mamager, William Maughan was also the manager of the Try Again Mine in Piggoreet. He was also on the six man school committee of Piggoreet Common School No. 726. (Is this why George Yung ended up working in Rokewood because of a previous connection at Piggoreet? George married Clara Emma Smith from Happy Valley and worked in a mine at Allendale. They later moved to Yendon) About the Hanlon gold mining company near Rokewood. 1901 - Information Bendigo Prospecting Club, 21/08/2020. Information provided once again by Peter McCarthy. Christopher Hanlon had put down a line of bores south of the Rokewood main street, looking for a continuation of the Break O’Day lead which had been worked for two or three miles with highly payable results, though in a primitive manner. Ground was being paddocked 30 feet deep and made to pay. The bores suggested the sinking would be about 70 feet and a shaft site was selected at the back of Stanbrook’s Hotel. The Hanlon Gold Mining Company was formed in March 1895 and the shaft was bottomed at 68 feet, getting just over an ounce of gold from the shaft bottom. By January 1896, the poppet heads were up, and steam plant was nearly ready. The mine produced 846 oz by September, which was not as good as expected, but they installed a second puddling machine. The mine was profitable for the next three years, with periods of prospecting and the need to install steam pumps in 1897. A second shaft was sunk in 1899, which bottomed at 86 feet on good wash and was sunk on to 109 feet. 1743 oz of gold had been produced in six months to September 1899, but the No1 shaft was let on tribute as the No2 workings were opened and machinery installed the following year. The No1 shaft tributors broke even in 1900 and in 1901 the shaft was shut down, with the No1 shaft machinery sold late in 1902. By September 1901, the mine had produced gold worth £66,124 and the No2 shaft main drive was in 346 feet, with gold being found mainly in crevices in the hard floor. Mining continued, but once the No2 shaft workings met up with the old No1 shaft workings at the end of 1902 there was not much wash remaining. The mine was let on tribute in June 1903 and a drive was put in to test deeper ground. The company was wound up in February 1904 and the plant sold. From what they discovered, the manager concluded that the mine sat at the edge of an ancient coastline and the gold was in a beach deposit. The total gold production from the mine was worth £73,294. J Lee Archer JP, shareholder, was the manager of the Bank of Victoria in Ballarat. Born in Tasmania, he came to Victoria with his parents and first came to Ballarat in 1855 as a junior clerk with the bank. He died in 1902 aged 64. Alexander J. Peacock was a legal manager and a share broker. In 1897 Peacock, born in Creswick, had been elected as one of the Victorian delegates to the Constitutional Convention which wrote the Australian Constitution. He later became a politician, state treasurer and three times state premier of Victoria and was knighted KCGM. He died in 1933 aged 72. William Maughan, director, was an English miner who came to Victoria in the 1850s and became a mine manager, managing the Try Again at Piggoreet, Ryan’s Freehold and the Madam Berry, among others. He died in Williamstown in 1915 aged 85. Sepia photographRhs front of photo: R. Millist Phto & Lanternist Geelong Verso (upside down): ONE SHIFT OF MINE HANDS HANLON CONSOLS MINE ROKEWOOD 1901 Grandfather Yung 1st on left rokewood, hanlon consols mine, shift of mine workers 1901, gold mines, george edgar godlip yung, william maughan

This Tangye B-size, single-cylinder, horizontal steam engine was likely manufactured in England around the mid-1880s. It was distributed by Melbourne machinery merchants Cameron & Sutherland, which also operated in Bendigo and Ballarat. A local cheese maker once used the engine to drive factory equipment. It was later donated to the Warrnambool Technical School, which then donated it to Flagstaff Hill to add to its historical steam engine collection. Between its manufacture and its donation to Flagstaff Hill, the governor had been replaced by the current Pickering governor. This engine design was very popular in the late 19th and early 20th centuries. When connected and powered up, the engine could drive an overhead line shaft via a flat belt off its flywheel. The line shaft would then drive the machinery via flat belts. It could drive virtually any type of machinery, such as water and sewerage pumps, mine elevators, winches, cranes, metal forges, air blowers, and marine machinery. This engine features a mechanical governor, which controls the speed of the engine regardless of whether it is under load. It also has a water pump built into the valve rod, which is used to supply the boiler with water. Steam enters the cylinder via a slide valve and applies pressure to the piston; it is like a modern internal combustion engine, but in the case of the steam engine, the pressure is exerted in turn on either side of the piston. In other words, the connecting rod is pushed by steam via the piston and piston rod and then pulled back again by steam pushing on the opposite side of the piston. Thus, power is exerted almost continuously, except at the end of each piston stroke, when it reverses direction. In the 1880s, many local butter and cheese manufacturers installed Tangye steam engines to power their machinery. A comprehensive article in the Gippsland Mercury in September 1889 extolled the magnificence of the Farnham Butter Factory in Dennington, Warrnambool, and described how one Tangye engine was used to drive several machines in the cheese- and butter-making processes. A report in the Warragul Guardian in December 1890 notes that the newly opened Warrnambool Butter Factory used a Tangye steam engine to pump water from a 60-foot well. Tangye: Richard Tangye (1833–1906) and four of his brothers—James, Joseph, Edward, and George—were the sons of Joseph Tangye, a Quaker Cornish miner. In 1857, they founded the engineering firm Richard Tangye & Brothers in Birmingham, UK. In 1860, the firm became Tangye Brothers and moved to Cornwall Works in Birmingham. The business encouraged inventors to join the company and develop their patents there, as happened with Weston’s differential pulley block, invented by the Englishman Thomas Aldridge Weston in 1854. Tangye bought the patent in 1858, giving the firm the sole right to manufacture it. The design received a medal for “original application, practical utility and success” at the 1862 International Exhibition in London. Also in 1858, the Tangye firm was commissioned by Brunel’s shipping company to manufacture hydraulic lifting jacks, or rams, to launch the steamship SS Great Eastern. The success of this project brought favourable attention to the firm, and it became involved in other notable projects, including the erection of Cleopatra’s Needle in London in 1878 and work on the Forth Road Bridge in Scotland. The firm underwent several name changes over the years, including James Tangye and Brothers (1857), Tangye Brothers and Price (1859), Tangye Brothers (1860), Tangye Brothers & Holman (1876), Tangye Brothers (by 1878), Tangye Ltd. (1881), and then simply Tangye. Its machinery and equipment were exported worldwide. In 1884, a branch with showrooms, offices, and a warehouse was opened in Melbourne at Cornwall House, Collins Street West. The firm was well known for producing high-quality machinery for agriculture and industry. Even today, new Tangye machinery is available for a subsidiary of Allspeeds. An extensive account of the firm’s history, names, inventions, and further references is available in Grace’s Guide, which also includes references to and diagrams of the Tangye horizontal steam engine. The horizontal steam engine was made by the well-known engineering firm Tangye, known for its high quality of manufacture. It was an important development in machinery because it helped improve productivity. Engines of this type are still used in some parts of the world today. This engine is a good example of a late 19th-century steam engine used in industry and agriculture and adapted for many different purposes. It is also important locally because it was connected to a local cheese making business and part of the thriving western district dairy industry. It may have been one of the Tangyes engines used at the Farnham butter factory or the Warrnambool Butter Factory, which was reported to be one of the most important in the Colony. It is also connected to the Warrnambool Technical School, established in 1968. Steam engine: stationary Tangye Size B, single-cylinder, horizontal Mill type steam engine. It has a 4-inch diameter cylinder with an 8-inch stroke. The body is painted green, and the Pickering governor is red. It was manufactured in Birmingham, England, in accordance with Tangye's Patent 238930, and distributed by Cameron and Sunderland, Melbourne, in the mid-1880s. TANGEYS PATENT BIRMINGHAM B SIZE 238930 CAMERON & SUTHERLAND MELBOURNE THE PICKERING PORTLAND . GOVERNOR . CONN. U.S.A.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum and village, shipwreck coast, great ocean road, machine, invention, engine, steam, steam engine, horizontal steam engine, tangyes horizontal steam engine, stationary steam engine, single cylinder steam engine, manufacturing, farming, pumps, lifting equipment, engines, machine tools, hydraulic rams, hydraulic pumps, steam pumps, differential pulleys, mill type steam engine, 4 inch cylinder, weston’s differential pulley, thomas aldridge weston, 1862 international exhibition in london, brunel, ss great eastern, cleopatra’s needle, forth road bridge, cornwall house, collins street melbourne, agricultural machinery, industrial machinery, allspeeds, dairy, pump, richard tangye & brothers, james tangye and brothers, tangye brothers and price, tangye brothers, tangye brothers & holman, tangyes ltd., tangye, richard tangye, james tangye, joseph tangye, edward tangye, george tangye, cornwall works, birmingham, pickering governor, pickering portland connecticut usa, 19th century, dairy plant, steam power, tangye's patent 238930, tangye b size engine, cameron & sutherland, machine merchants, 1880s, mid-1880s, cheese manufacturer, butter manufacturer, diary industry, warrnambool technical school, belt driven machinery, agriculture, mechanical governor, farnham butter factory, warrnambool butter factory

The Davey Paxman Experimental Steam Engine was purchased by the Ballarat School of Mines as the result of a bequest from Thomas Bath.The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.davey paxman experimental steam engine, model steam engine, steam, thermodynamics laboratory, thomas bath, bequest

Sprockets are used in machinery either to transmit rotary motion between two shafts where gears are unsuitable or to impart linear motion. This one was probably used on farm machinery.A black painted steel chain drive sprocket. It has six triangular shaped holes around a circular centre hole. The rim has teeth / cogs that mesh with a chain.machinery chain-drive-sprocket

The largest gold mine in the area originated from a find in 1862. The mine was closed January 20, 1915 when a fire destroyed nearly all the above ground plant. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p75 Beneath Mine Hill, as locals call it, runs a network of tunnels once of central importance to the fledgling township of Diamond Creek. These are relics of gold mines, which transformed early Diamond Creek.1 The tiny settlement of about 20 families soared to more than 200 because of gold. For around 50 years, from 1862, gold mining was Diamond Creek’s major source of employment. On September 7, 1854 The Argus newspaper reported a find of a four pound (1.8kg) gold nugget in Nillumbik (an early name for Diamond Creek). Exactly where, is not known.2 The largest mine in the district, the Diamond Creek Gold Mine, apparently originated from a find in 1862. It is said Joe and Dave Wilson were visiting former tailor then cook, Charles Orme, at the southern end of Fraser Street. Sitting on a stump outside the front gate on land belonging to Dr A. E. Phipps the Wilsons found a vein of gold-bearing quartz, which led to the discovery of four quartz reefs varying in width to eight inches (20cm), running north and south. A reef found at the foot of the hill opposite Challenger Street became the Union Mine. This reef was traced south to Allendale Road where a small mine began operations.3 Other smaller mines later operated as well. Dr Phipps immediately began to mine and also built the Diamond Reef Hotel as a boarding house for miners. But Charles Orme, who owned the land alongside, leased his mine to Dr Phipps probably because of insufficient funds and business skills. By mid 1865 the mine had produced 2530 ounces of gold – a 100% profit on the original outlay. Of course there were problems. When the local dam dried up a Blake pump was installed to draw water from the creek. The Union Mine operated under the Diamond Creek Gold Mine management except when disputes sometimes resulted in separate management. However disagreements had to be resolved as the Union Mine depended on Diamond Creek Gold Mine pumps to remove underground water from common reefs. In 1912 the main shaft of about 380 yards (350m) employed 200 men recovering an average of 5000 ounces (141.7kg) of gold a year. But not everyone did well out of gold. Records of failed mining companies in the Victorian Public Record Office, reveal that owner Dr Phipps leased his Right to others. Companies came and went over the next 40 years, most sponsored by Melbourne businessmen who sold shares to gullible locals and then became insolvent. Although there were some good profits, financial returns were haphazard until 1905. Some local residents, who were share holders in short- term companies, became well-known names in modern Diamond Creek such as Scott, Haley, Butler, Alder, Ryan, Wadeson, Reeves, Alston, Paul and Edwards. Gold mining was brought to a disastrous end on January 20, 1915 at 3 pm, when fire destroyed nearly all the above-ground plant. Fortunately no lives were lost. But reopening the mine was almost impossible because of the increasing depth of water in the main shaft. The closed mine destroyed the livelihood of 200 families and the debris took many years to clear.4 In 1946 the Diamond Creek Gold Mine was reopened by the Golden Hind Mining Company, but money ran out before the 600 feet (182.8m) or so of water could be removed. Gold remains in the mine but enormous capital would be needed to buy the land, equipment and to remove the water. Today 12 known sealed shafts along the ridge of the hills on private property extend west for around one kilometre from the corner of Fraser and Haley Streets, crossing Norma and Fyffe to Dering Streets. As recently as 1987, heavy rains revealed a former Union Mine shaft in the Georgiadis family Fyffe Street back yard.5 Allendale Mine, south of Allendale Road, is still open and one of the Union Mine’s main drives (horizontal excavation) remains unsealed, on the Creek Reserve.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, diamond creek, diamond creek mine, fraser street, gold mining, james cook drive, mine hill

This postcard depicts the set-up of an abandoned gold mine. This includes a water wheel and other mining implements next to a creek. The postcard inscription indicates that this image is of the remains of the Wallaby Reef battery and water wheel. Wallaby Reef was discovered in 1864, and a prospecting claim established a four head battery and water wheel. Quartz was mined there, with gold also discovered at this location at a later date. By 1878 the mine was no longer resulting in rich deposits, this resulted in the miners moving their search for gold closer to the river where they were able to access more gold. This was in approximately 1879. In 1882 a rich deposit was found. In 1908 the battery was closed, and the mine finished. This photo was taken in 1920 and shows the deterioration of the site since its closure. Gold mining was crucial to the development of the Beechworth area. It has strong research and historical value because the clarity of the photo shows all the minute details of the mining equipment. The text on the back also indicates the mine is the Wallaby Mine, which was used for 45 years to find gold and quartz. Therefore, due to the location being quickly abandoned, this site is a rich location for historical study on gold mining during the 1900s. It can provide important information on the types of tools utilised and the impact of the mining on the environment.Black and white postcard photograph on card.8169 Be / Also near Wallaby Reef Workings / Relics of Rechabite Reef (locality) workings. / Shaft in bed of creek. Wheel used to drive sheadd (?) / stamp battery too I believe near B'worth 1920?beechworth, mining, gold mining, quartz mining, wallaby reef mine, mine battery head