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

There is no information with this item. It appears to be a photograph of a quarry - mining or gravel extraction.This is a pictorial record of early quarrying activity using basic tools.A black / white photograph of a large group of workers with horses and empty carts at a quarry site surrounded by uncleared bush. There seems to be a gravel road leading into the site.quarry mining

The Ballarat Technical Art School building was opened in 1915. It is not known when the stained glass was put into position.Colour digital photograph showing the stained glass at the Ballarat Technical Art School. The mining lamp detail is on the entrance door to the Ballarat School of Mines Technical Art School building. The design features three tools associated with mining, the miners lamp and two hammers. Their is also stained glass on the entrance doors and a window by the entrance.ballarat school of mines, ballarat technical art school, stained glass, miners lamp, entrance

Document outlining the change of ownership of a Quartz Claim, all machinery and buildings at Spring Hill near Creswick, Victoria. This ownership transfer was between Misters Ferguson and others to Misters Lamble and McCallum. Each person mentioned signed the document. All machinery and parts thereof are listed, plus any buildings, tools, blacksmith's shop and tools, ropes and paints/tar, etcLarge cream coloured thick paper, Hand written in black ink. Twenty-four seals Signatures of owners.james ferguson, edward david, thomas barnett, edward jones, james archibald, john phelan, william innis, james collins, dick collier, charles talbot, joseph stevens, x (his mark) william thomas, x (his mark) thomas walters, john powell, thomas collier, a bach, e milligan, thomas knowles, x (his mark) john edwards, x (his mark) david davies, john evans, william lamble, james mccallum, james faulkner, evan sloyd

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995. J & M Ewan History: J&M Ewan was a Melbourne firm that began by selling retail furniture and wholesale ironmongery. They had substantial warehouses situated at the intersection of 81-83 Elizabeth and Little Collins Streets, the business was established by James M Ewan in 1852. Shortly afterwards he went into partnership with William Kerr Thomson and Samuel Renwick. When Ewan died in 1868 his partners carried on and expanded the business under his name J & M Ewan. The business was expanded to provide a retail shop, counting-house and private offices. Wholesale warehouses adjoined these premises at 4, 6 and 10 Little Collins Street, West. This company provided and sold a large and varied amount of imported goods into the colony that consisted of agriculture equipment, building materials, mining items as well as steam engines, tools of all types and marble fireplaces. They also supplied the Bronze measuring containers in the Flagstaff Hill collection and the probability is that these containers were obtained by the local Melbourne authority that monitored weights and measures in the mid to late 19th century. The company grew to employ over 150 people in Melbourne and opened offices at 27 Lombard St London as well as in New Zealand and Fiji. The company also serviced the Mauritius islands and the pacific area with their steamship the Suva and a brig the Shannon, the company ceased trading in 1993. Robert Bate History: Robert Brettell Bate (1782-1847) was born in Stourbridge, England, one of four sons of Overs Bate, a mercer (a dealer in textile fabrics, especially silks, velvet's, and other fine materials)and banker. Bate moved to London, and in 1813 was noticed for his scientific instrument making ability through the authority of the “Clockmakers Company”. Sometime in the year 1813 it was discovered that one Robert Brettell Bate, regarded as a foreigner in London had opened a premises in the Poultry selling area of London. He was a Mathematical Instrument maker selling sundials and other various instruments of the clock making. In 1824, Bate, in preparation for his work on standards and weights, leased larger premises at 20 and 21 Poultry, London, at a rental of four hundred pounds per annum. It was there that Bate produced quality metrological instruments, which afforded him the recognition as one of one of the finest and principal English metrological instrument-makers of the nineteenth century. English standards at this time were generally in a muddle, with local standards varying from shire to shire. On 17 June 1824, an Act of Parliament was passed making a universal range of weights, measures, and lengths for the United Kingdom, and Bate was given the job of crafting many of the metrological artifacts. He was under instruction from the renown physicist Henry Kater F.R.S. (1777-1835) to make standards and to have them deposited in the principal cities throughout the United Kingdom and colonies. Bate experimented with tin-copper alloys to find the best combination for these items and by October 1824, he had provided Kater with prototypes to test troy and avoirdupois pounds, and samples with which to divide the troy into grams. Bate also cast the standard for the bushel, and by February 1825, had provided all the standards required of him by the Exchequer, Guildhalls of Edinburgh, and Dublin. In 1824, he also made a troy pound standard weight for the United States, which was certified for its accuracy by Kater and deposited with the US Mint in 1827. Kater, in his address to the Royal Society of London, acknowledged Bate's outstanding experimentation and craftsmanship in producing standards of weights, measures, and lengths. An example of a dry Bronze measuring container made specifically for J & M Ewan by possibly the most important makers of measurement artefacts that gives us today a snapshot of how imperial weights and measures were used and how a standard of measurement for merchants was developed in the Australian colonies based on the Imperial British measurement system. The container has social significance as an item retailed by J & M Ewan and used in Victoria by the authorities who were given legal responsibility to ensure that wholesalers and retailers of dry goods sold in Victoria were correct. The container was a legal standard measure so was also used to test merchants containers to ensure that their distribution of dry goods to a customer was correct.Maker Possibly Robert Brettell Blake or De Grave, Short & Co Ltd both of LondonContainer bronze round shape for measuring dry quantities has brass handles & is a 'half-bushel' measurement"IMPERIAL STANDARD HALF BUSHEL" engraved around the top of the container. VICTORIA engraved under "J & M Ewan & Co London and Melbourne" engraved around the bottom of the container.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, standard measure, bronze, peck measurement, j & m ewan, victorian standard dry measurement, bronze container, victorian standards, melbourne observatory, robert brettell bate

Formerly KV 071. It was used to break up rock and ore, making it easier to extract valuable minerals. The pointed end of the pick axe was used to chip away rock, while the flat end was used to strike the rock for breaking it apart. This one has a short handle. Miners picks were commonly used in the the 19th and early 20th centuries for extracting gold from underground mine tunnels.Used in the Kiewa Valley where prospecting for gold occurred.Formerly KV 071. Cast iron symmetrical pick tool on cast iron with a wooden handle. It has a pointed end and a flat end. It is 12 inches long.gold mining, miners' pick axe, hand tool

These long handled "Blacksmith" tongs were used in the late 1800's to mid 1900's by a blacksmith(or others) within the Kiewa Valley. During these times blacksmiths would regularly visit "remote" rural properties and work on any "hard to manufacture" items. A few properties had either stockmen,farm hands, or owners able to do "minor" blacksmith work. The ability to undertake blacksmith functions was sometimes "by necessity" handled by a local "jack of all trades" person. During this period however demand for rural based blacksmiths was very high. The rural store, however was usually very small and many "off" the shelf rural appliances and apparatus available in the larger rural towns were not available to the semi remote rural areas.This long handled shaped nipper tongs is very significant to the Kiewa Valley because it represents one of the essential mores relating to isolated rural regions as was the Kiewa Valley at this period in time (1800's to mid 1900's). This "ingrained " more was the ability to achieve anything that was required to maintain a living standard or survival in a remote grazing, mining and farming region. The remoteness was due to the small population, poor transport routes and flood prone roads winding through the lower lying flat plains of the Kiewa Valley. Any blacksmith work whilst grazing Cattle on the Bogong High Plains or any part of the Kiewa Valley, had to be done in situ. The part of the "culture" of this regions was that of "self help" either from within the family or from a friendly neighbour.Long handled blacksmith's tongs. The handles are rusted and painted orange. The nippers have one central fixing and are flat edged.tools, blacksmith, horses, trades

These long handled "V" shaped tongs were used late 1800's to mid 1900's by a blacksmith within the Kiewa Valley. During these times blacksmiths would regularly visit "remote" rural properties and work on any "hard to manufacture" items. A few properties had either stockmen,farm hands, or owners able to do "minor" blacksmith work. The ability to undertake blacksmith functions was sometimes "by necessity" handled by a local "jack of all trades" person. During this period however demand for rural based blacksmiths was very high. The rural store, however was usually very small and many "off" the shelf rural appliances and apparatus available in the larger rural towns were not available to the semi remote rural areas.This long handled "V" shaped nipper tongs is very significant to the Kiewa Valley because it represents one of the essential mores relating to isolated rural regions as was the Kiewa Valley at this period in time. This "ingrained " more was the ability to achieve anything that was required to maintain a living standard or survival in a remote grazing, mining and farming region. The remoteness was due to the small population, poor transport routes and flood prone roads and lower flat plains of the Kiewa Valley. Any blacksmith work whilst grazing Cattle on the Bogong Plains had to be done in situ.Long handled tongs with "V" shaped ends on the nippers (used by blacksmiths)I.T.O.C.tools, blacksmith, horses, wrought iron tools

This book is a register of land holders with miners' rights. The correspondence is associated with applications for miners' rights on privately owned land and business sites. They include application fotrms and objections to registrations. The areas referred to are Combienbar, Goongerah, Club Terrace, Wombat Creek and Dundong. One of the privileges under the Mines Act, conferred by the holding of a miner's right until 1935 was that of residence on up to one acre on a gold-fields area. Those occupying a residence area were "deemed in law to be possessed ... of such ... parcels ... and the property therein".This is a useful research tool.A large, heavy book with a grey cloth cover and red spine. The end papers are marbled. The inside pages are ruled in grey with red ruled columns. Entries are hand-written. There are copies of correspondence inside. Details given are the registration number and date, the name of the person, the number of the miner's right and its date, a description of the allotment and any remarks or references to other volumes. Any changes of ownership are shown. The book is mostly unused.register-mining miners-rights

Langlands Company History: Langlands foundry was Melbourne's first foundry and iron shipbuilder established in 1842, only 8 years after the founding of the Victorian colony by two Scottish immigrants, Robert Langlands and Thomas Fulton, who had formed a partnership before emigrating (1813–1859). The business was known as the 'Langlands Foundry Co'. Henry Langlands (1794-1863), left Scotland in 1846 with his wife Christian, née Thoms, and five surviving children to join his brother Robert. By the time he arrived in early January of 1847 the partnership of Robert Langlands and Fulton had dissolved as Fulton had gone off to establish his own works. It was at this time that the two brothers took over ownership of Langlands foundry. Several years later Robert retired and Henry became sole the proprietor. The foundry was originally located on Flinders Lane between King and Spencer streets. Their sole machine tool, when they commenced as a business, was a small slide rest lathe turned by foot. In about 1865 they moved to the south side of the Yarra River, to the Yarra bank near the Spencer Street Bridge and then in about 1886 they moved to Grant Street, South Melbourne. The works employed as many as 350 workers manufacturing a wide range of marine, mining, civil engineering, railway and general manufacturing components including engines and boilers. The foundry prospered despite high wages and the lack of raw materials. It became known for high-quality products that competed successfully with any imported articles. By the time Henry retired, the foundry was one of the largest employers in Victoria and was responsible for casting the first bell and lamp-posts in the colony. The business was carried on by his sons after Henry's death. The company was responsible for fabricating the boiler for the first railway locomotive to operate in Australia, built-in 1854 by Robertson, Martin & Smith for the Melbourne and Hobson's Bay Railway Company. Also in the 1860s, they commenced manufacture of cast iron pipes for the Board of Works, which was then laying the first reticulated water supply system in Melbourne. Langlands was well known for its gold mining equipment, being the first company in Victoria to take up the manufacture of mining machinery, and it played an important role in equipping Victoria's and Australia's first mineral boom in the 1850s and 1860s. Langlands Foundry was an incubator for several engineers including Herbert Austin (1866–1941) who worked as a fitter at Langlands and went on to work on the Wolesely Shearing machine. He also founded the Austin Motor Company in 1905. Around the 1890s Langlands Foundry Co. declined and was bought up by the Austral Otis Co. in about 1893. History for Grimoldi: John Baptist Grimoldi was born in London UK. His Father was Domeneck Grimoldi, who was born in Amsterdam with an Italian Father and Dutch mother. Domeneck was also a scientific instrument maker. John B Grimoldi had served his apprenticeship to his older brother Henry Grimoldi in Brooke Street, Holburn, London and had emigrated from England to Australia to start his own meteorological and scientific instrument makers business at 81 Queens St Melbourne. He operated his business in 1862 until 1883 when it was brought by William Samuel and Charles Frederick, also well known scientific instrument makers who had emigrated to Melbourne in 1875. John Grimoldi became successful and made a number of high quality measuring instruments for the Meteorological Observatory in Melbourne. The barometer was installed at Warrnambool's old jetty and then the Breakwater as part of the Victorian Government's insistence that barometers be placed at all major Victorian ports. This coastal barometer is representative of barometers that were installed through this government scheme that began in 1866. The collecting of meteorological data was an important aspect of the Melbourne Observatory's work from its inception. Just as astronomy had an important practical role to play in navigation, timekeeping and surveying, so the meteorological service provided up to date weather information and forecasts that were essential for shipping and agriculture. As a result, instruments made by the early instrument makers of Australia was of significant importance to the development and safe trading of companies operating during the Victorian colonies early days. The provenance of this artefact is well documented and demonstrates, in particular, the importance of the barometer to the local fishermen and mariners of Warrnambool. This barometer is historically significant for its association with Langlands’ Foundry which pioneered technology in the developing colony by establishing the first ironworks in Melbourne founded in 1842. Also, it is significant for its connection to John B Grimoldi who made the barometer and thermometer housed in the cast iron case. Grimoldi, a successful meteorological and scientific instrument maker, arrived in the colony from England and established his business in 1862 becoming an instrument maker to the Melbourne Observatory. Additional significance is its completeness and for its rarity, as it is believed to be one of only two extant barometers of this type and in 1986 it was moved to Flagstaff Hill Maritime Village as part of its museum collection. Coast Barometer No. 8 is a tall, red painted cast iron pillar containing a vertical combined barometer and thermometer. Half way down in the cast iron framed glass door is a keyhole. Inside is a wooden case containing a mercury barometer at the top with a thermometer attached underneath, each with a separate glass window and a silver coloured metal backing plate. Just below the barometer, on the right-hand side, is a brass disc with a hole for a gauge key in the centre. The barometer has a silvered tin backing plate with a scale, in inches, of "27 to 31" on the right side and includes a Vernier with finer markings, which is set by turning the gauge key. The thermometer has a silvered tin backing plate with a scale on the left side of "30 to 140". Each of the scales has markings showing the units between the numbers.Inscription at the top front of the pillar reads "COAST BAROMETER" Inscribed on the bottom of the pillar is "No 8". and "LANGLANDS BROS & CO ENGINEERS MELBOURNE " The barometer backing plate is inscribed "COAST BAROMETER NO. 8, VICTORIA" and printed on the left of the scale, has "J GRIMOLDI" on the top and left of the scale, inscribed "Maker, MELBOURNE". There is an inscription on the bottom right-hand side of the thermometer scale, just above the 30 mark "FREEZING" Etched into the timber inside the case are the Roman numerals "VIII" (the number 8)flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, warrnambool breakwater, coast barometer, coastal barometer, barometer, weather warning, ports and harbours, fishery barometer, sea coast barometer, austral otis co, coast barometer no. 8, henry grimoldi, henry langlands, john baptist grimoldi, langlands foundry co, meteorological instrument maker, robert langlands, scientific instrument maker, thermometer, thomas fulton

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). The Mackay School of Mines, Nevada was established in 1908. At the time of writing this mook T.J. Hoover was Professor of Mining and Metallurgy and Dean of the School of Engineering at Stanford University. Theodore Jesse Hoover, brother of the 31st President of the United States, was born in West Branch, Iowa, on January 28, 1871. He attended Stanford and received the Bachelor of Arts degree in Geology and Mining in 1901. Following graduation his professional career started with the position of assayer for the Keystone Consolidated Mining Company. After one year, he became assistant manager for the Standard Consolidated Mine, and a year later he was promoted to manager of the operation. In 1907 Hoover went to London as general manager of Minerals Separation, Ltd. This company was developing the froth flotation process for recovering minerals from ores. Hoover took an active part in the development of the flotation concentration process and authored one of the first books on the concentration of ores by flotation. After four years with Minerals Separation, Ltd., Hoover entered private practice as a consulting mining and metallurgical engineer with offices in London and in San Francisco. He was very successful and held positions of consulting engineer, managing director, director, and president of many mining companies in America, Europe, Asia, Africa, and Australia. He returned to Stanford in 1919 as Professor of Mining and Metallurgy and Executive Head of the Department of Mining and Metallurgy. His experience and ability in organization made him a natural leader. He was influential in the formation of the School of Engineering at Stanford. The School was formed in 1925 and he was made dean, a position he held until his retirement in 1936. As dean of engineering, he promoted a broad fundamental training program for undergraduate engineering students. Under his guidance, emphasis was placed upon graduate work and he was responsible for developing strong graduate engineering curricula at Stanford. While dean he continued teaching and his course, "The Economics of Mining," developed into a book which was published in 1933. He became interested in the functions of engineers and, with Professor Fish, wrote a book entitled "The Engineering Profession" which was published in 1940 and revised in 1950. In addition to his academic activities he was generous in his hospitality. Faculty and students alike enjoyed the annual field day and barbecue at his Rancho del Oso, near Santa Cruz. He was widely read and had a lively interest in all the things he encountered. He speculated on the antiquity of man and man's early production processes. To verify an idea regarding flint tools, he studied their shapes and became proficient in making arrow heads. He was also interested in wild life, and was one of the founding members of the Cooper Ornithological Society. (http://engineering.stanford.edu/about/bio-hoover) Blue hard covered book of 547 pages including an index. Contents include mine valuation (sampling, ore deposits, ore reserves, financial provisions, sale of mineral product, metal prices, reports) and Mining Organization (Co-operative effort, Mining Companies, Promoting Mining Enterprises, fluctuations of share prices, valuation of mining shares, fakes and fallacies, the mining Engineer and the law) and Mine Management (Organization of staff, mine manager, efficiency, industrial relations, training and discipline, safety). Inside front cover 'Charles Bacon Mackay School of Mines"charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines, stanford, bacon, mining, economics, divining, theodore hoover

The depicted Ballarat School of Mines Assaying Furnace probably dates back to the mid 1890s. The photo first appears in the Ballarat School of Mines Calendar for 1900, but references to these facilities were mentioned in 1887. These facilities were updated and expanded on several occasions. Black and white photograph of the assay furnaces at the Ballarat School of Mines. The Assay-room contained 16 smelting furnaces, 16 muffle furnaces fro coke, charcoal, bituminous coal and gas, and featured all the usual tools and appliances. There was an adjoining weighing room.ballarat school of mines, scientific equipment, assaying, laboratory, mining

The 1st edition of this famous work, giving an excellent account of the machinery used in late 19th century metal mining in the UK and overseas is very rare. It covers a wide range of equipment - pumps, steam engines, drills, winding engines, stamps & concentration mills, aerial ropeways, tramways and early uses of electricity etc. Brown hard cloth covered book. xvi 564 pages with additional advertisements, with over 300 illustrations and drawings, some fold out. Chapters include Water as a motive power, Wind engines and ventilating machinery, Steam boilers/engines and oil engines, hoisting machinery, draining of Mines, pumping engines, rock drilling machinery, boring machinery, concentration machinery, sizing and classifications trommels, joggers and jigging, fine concentration, milling of gold ores, milling of silver ores, amalgamation plates and machinery, dry and roasting machinery, chlorination and cyandide processes for the extraction of gold, electricity as a motive power for mining, electric lighting and blasting, aerial wire ropeways, transport by rail and road. There a a number of lovely line illustrations in the book including: Poncelot's undershot waterwheel; Fromont furnace;Victor turbine; Pelton waterwheel; Root's positive blower;Cross section and front elevation of Lancashire boiler; Robey's Compound Mill Engine; Portable Winding Plant; Iron Pit Head Gear ; Loading Arrangement in an Incline Shaft; kibble; Worthington Pump; California Pump; Scram's Air Compressor; Rock drill Bits; Special Sharpening tools; Boring tools;Rotating Picking table; Ore Feeder; roller crusher; stamp battery; round buddle; slime table; vanner; amalgamating plant; belt elevator;roasting furnace;splicing wire rope; capel; tipping waggon;mining, cornish pump, linkenbach table, water wheel, ventilation, oil engine, california, america, water, steam boilers, steam engines, oil engines, pumpimg, rock drilling, boring, jiggers, milling, silver, gold, drying and roasting, chlorination, cyaniding, lead, zinc, copper, electricity, electric lighting, wire ropes, transport, wind engine, poppet head

Brown, half leather bound book including sections of hoisting, prospecting, placer and hydraulic Mining, Preliminary Operations at Metal Mines, Metal Mining and Surface Arrangements at Metal Mines. The book includes illustrations and an index.mining, tools, tunnels, timbering, illustrations, ventilation, hoisting, prospecting

A mining safety cage was used in a mine lift. It was fitted with mechanisms to prevent the cage from dropping if the lifting rope broke. In the 1870s in Victoria, deaths and injuries from falling cages in vertical shafts of gold mines were a major problem. The inventor of this safety cage was Robert Allan, a machinery maker of Creswick Rd, Ballarat. He said his cage featured a ‘dissolving’ fulcrum. Others called it an eccentric (off centre) system. Note the pair of clutch levers designed to grab the side guides if tension ceases in the suspending rope from the poppet head pulley. Also, the hinged ‘lids’; designed to protect miners trapped in a braked cage from falling rope, and to enable rescue of the miners. This model was presented to The Ballarat School of Mines Council in November 1876. This model was shown at the Smeaton Show in November 1874, Ballarat School of Mines Museum from 1876, and examined by the 1879 Victorian Board of Inquiry (Pg 15 of FedUni Catalogue 3437) From the Argus of 13 November 1874: At Smeaton Show, Robert Allan of Ballarat won 1st prize for a Model of a Mining Cage, a Butter working machine, a Cheese press and a Curd Mill. By 1878 an Allan Safety-Cage was in operation in the Number 6 shaft of the Band and Albion Consols mine in Ballarat. This cage was judged the best inspected by the Victorian Board of Inquiry by 1879, p. 39.Mining was a big industry in Ballarat in the late 1800s and a lot of deaths were recorded because of mining accidents, the development of the mining safety cage brake limited the deaths and injuries from falling cages in vertical shafts. The model also has links to the Ballarat School of Mines, being presented to the council in 1876. Ballarat School of Mines is the oldest Technical School in Australia and is a predecessor of Federation University. The model is significant to Ballarat's mining history.Model of a mine safety cafe. A grey painted wooden frame with metal model of cage and safety brake system. When tension ceases in rope a pair of crutch levers grab strongly onto the wooden guide strips which run down the sides of a vertical shaft. This safety cage was discussed in "Safety Mining Cages. Report of the Board of Enquiry on Safety Cages 1878-9; together with proceedings of the Board and Appendices".safety cage, mine cage safety brake, robert allan, model, safety cage model, machine maker, millwright, mining, gold mining, tools, equipment, victorian board of inquiry

Pink paper covered book by Stanley Hunter, Engineer in Charge of Boring Operations. Contents include tunnelling, deep sinking, the Chiltern Method, the Ballarat Method, Stawell, Ararat, Moyston, Raglan, Wimmera, Landsborough, Avoca, Ballarat West Leads, Berry-Moolort-Loddon Lead System, Clunes, Creswick, Bullarook Affluent, Corinella, Daylesford-Castlemaine Tributary, Majorca-Carisbrook tributary, Huntly, Coliban, Campaspe, Rutherglen., Smythesdale, Durham Lead, Tanjil, Evolution of Mining Machinery, size of claims, Definition of a Deep Lead, Discovery of Gold in Victoria, Geographical Position of Deep Leads, Water in Deep Leads, Methods of Deep Lead Mining, Cost of Deep Lead Mining, Stawell, Ararat, Moyston, Raglan, Wimmera, Landsborough, Avoca, Ballarat West, Berry, Springs Hill, Loddon Valley, Charlotte Plains, , Timor, Burn Creek, Huntly, Colinan, Goulburn, Ovens Valley, Chiltern, Indigo, Morrison's Lead, Plans include: geological Map of Stawell, ararat, Raglan and Landsborough; Kempson's Freehold Mine, Stawell; Geological Map of Beaufort, Avoca, Maryborough, Ballarat west, Berry-Moolort, Loddon, Creswick, Marong, &c; Cardigan Propriety Gold Mine; Working Miners United Gold Mine, Homebush; Hepburn Deep Lead Plan; Madame Berry West Mine; West Berry Consols Mine; Spring Hill and Central Leads; Berry Consols Extended Mine; Loddon Valley Goldfields; Chalk's No 3 Mine; Charlotte Plains Considated Mine; Duke United Mine; Geological Map of Bendigo, Huntley, Campaspe, Malmsbury, Kyneton, trentham, &c; Geological Map of Chiltern, Rutherglan, Eldorado, Beechworth, &c; Chiltern Valley Gold Mine; Wallace Chiltern Valley Consols Mine; great Southern and Chiltern Valley United Mine; great Northern extended Consols; Prentice and Southern deep Leads; Glenfine South Gold Mine; Geological map of Pitfield, Rokewood, Mt Mercer, Ballark, Meredith, &c.; McEvoy Mine; Dargo . . . . . . . . . . . . . . . . . . . . . . . mining, deep leads, squire, tools, gold panning, gold cradle, cradling, puddling, tubbing, mining shaft, shaft sinking, whip, horse whip, whim, horse whim, chalk's no. 1 mine, maryborough, mining cage, shaft, mining trucks, maryborough, washdirt, puddler, tunnelling, deep sinking, chiltern method of working, ballarat method of working, sampling washdirt. gravels, balmoral, mt william, stawell, moyston, great western, ararat, raglan, wimmera valley, landsborough, cardigan, haddon, beaufort, waterloo, avoca, lamplough, caralulup, ballarat west, ballarat, smythesdale, glenfine, illabarook, durham lead, morrison's lead, bullengarook, berry-moolort-loddon system, clunes, creswick, spring hill, bullarook, castlemaine - daylesford, majorca, carisbrook, timor, burnt creek tributary, tarnagulla, marong, rheola, inglewood, huntly, coliban, campaspe, goulburn lead system, ovens valley system, mitta mitta, kiewa valley, tarago, tanjil, moondarra, bogong, dargo high plains

The Ballarat Technical Art School building was opened in 1915. It is not known when the stained glass was put into position.Colour digital photograph showing the stained glass detail on the entrance door to the Ballarat School of Mines Technical Art School building. The design features three tools associated with mining, the miners lamp and two hammers. ballarat school of mines, ballarat technical art school, stained glass, miners lamp

A number of images relating to mining in Cornwall dating from around 1927.mining, cornish, cornish mining, underground workings, underground mining, cornish miner, cornwall, child labourers, candles, pick, tools

This lamp is typical of lamps used in Welsh Coal Mines. It was purchased from the supplier around mid 1995. The Welsh Miners’ Lamps were ingeniously designed over 180 years ago to alert coal miners to danger. It ensures the burning of a protected flame in the presence of explosive gas, by regulating the necessary supply of atmospheric air, and by allowing the products of combustion to pass through without igniting the gaseous atmosphere. If the atmosphere is so heavily charged that noxious gas enters the lamp, its presence will be indicated by a change in the length and color of the flame, and (unless there are exceptional circumstances), the miner has sufficient warning to secure his safety. (http://www.welshminerslamps.com/info_lamp_personaluse.shtml, accessed 06/05/2015) E. Thomas & Williams, Ltd. mining lamps have been in continuous production since 1860. Cambrian Lamps are approved for use in coal mines where methan gas and oxygem deficinecy are hazards.Solid Brass traditional miners Flame Safety Lamp with Copper Chimney. The base of this lamp is tooled from solid brass because brass does not spark when it hits rock and is therefore the safest metal to use underground. The lamp burns lamp oil (kerosene). R. Thomas and Williams Ltd Makers Aberdare Wales Cambrian No 152897mining lamp, miner's lamp, thomas and williams, wales, welsh, welsh miners lamp, mining, cambrian lampworks, miners flame safety lamps

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995. J & M Ewan History: J&M Ewan was a Melbourne firm that began by selling retail furniture and wholesale ironmongery. They had substantial warehouses situated at the intersection of 81-83 Elizabeth and Little Collins Streets, the business was established by James M Ewan in 1852. Shortly afterwards he went into partnership with William Kerr Thomson and Samuel Renwick. When Ewan died in 1868 his partners carried on and expanded the business under his name J & M Ewan. The business was expanded to provide a retail shop, counting-house and private offices. Wholesale warehouses adjoined these premises at 4, 6 and 10 Little Collins Street, West. This company provided and sold a large and varied amount of imported goods into the colony that consisted of agriculture equipment, building materials, mining items as well as steam engines, tools of all types and marble fireplaces. They also supplied the Bronze measuring containers in the Flagstaff Hill collection and the probability is that these containers were obtained by the local Melbourne authority that monitored weights and measures in the mid to late 19th century. The company grew to employ over 150 people in Melbourne and opened offices at 27 Lombard St London as well as in New Zealand and Fiji. The company also serviced the Mauritius islands and the pacific area with their steamship the Suva and a brig the Shannon. Robert Bate History: Robert Brettell Bate (1782-1847) was born in Stourbridge, England, one of four sons of Overs Bate, a mercer (a dealer in textile fabrics, especially silks, velvet's, and other fine materials)and banker. Bate moved to London, and in 1813 was noticed for his scientific instrument making ability through the authority of the “Clockmakers Company”. Sometime in the year 1813 it was discovered that one Robert Brettell Bate, regarded as a foreigner in London had opened a premises in the Poultry selling area of London. He was a Mathematical Instrument maker selling sundials and other various instruments of the clock making. In 1824, Bate, in preparation for his work on standards and weights, leased larger premises at 20 and 21 Poultry, London, at a rental of four hundred pounds per annum. It was there that Bate produced quality metrological instruments, which afforded him the recognition as one of one of the finest and principal English metrological instrument-makers of the nineteenth century. English standards at this time were generally in a muddle, with local standards varying from shire to shire. On 17 June 1824, an Act of Parliament was passed making a universal range of weights, measures, and lengths for the United Kingdom, and Bate was given the job of crafting many of the metrological artifacts. He was under instruction from the renown physicist Henry Kater F.R.S. (1777-1835) to make standards and to have them deposited in the principal cities throughout the United Kingdom and colonies. Bate experimented with tin-copper alloys to find the best combination for these items and by October 1824, he had provided Kater with prototypes to test troy and avoirdupois pounds, and samples with which to divide the troy into grams. Bate also cast the standard for the bushel, and by February 1825, had provided all the standards required of him by the Exchequer, Guildhalls of Edinburgh, and Dublin. In 1824, he also made a troy pound standard weight for the United States, which was certified for its accuracy by Kater and deposited with the US Mint in 1827. Kater, in his address to the Royal Society of London, acknowledged Bate's outstanding experimentation and craftsmanship in producing standards of weights, measures, and lengths. An example of a dry Bronze measuring container made specifically for J & M Ewan by possibly the most important makers of measurement artifacts that gives us today a snapshot of how imperial weights and measures were used and how a standard of measurement for merchants was developed in the Australian colonies based on the Imperial British measurement system. The container has social significance as an item retailed by J & M Ewan and used in Victoria by the authorities who were given legal responsibility to ensure that wholesalers and retailers of dry goods sold in Victoria were correct. The container was a legal standard measure so was also used to test merchants containers to ensure that their distribution of dry goods to a customer was correct. Bronze round container with brass two handles used as a legal standard for measuring dry quantities & is a 'peck' measurement. "IMPERIAL STANDARD PECK" engraved around top of container with " VICTORIA" engraved under.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, standard measure, bronze, peck measurement, j & m ewan, victorian standard dry measurement, bronze container, victorian standards, melbourne observatory, robert bettell bate

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995. J & M Ewan History: J&M Ewan was a Melbourne firm that began by selling retail furniture and wholesale ironmongery. They had substantial warehouses situated at the intersection of 81-83 Elizabeth and Little Collins Streets, the business was established by James M Ewan in 1852. Shortly afterwards he went into partnership with William Kerr Thomson and Samuel Renwick. When Ewan died in 1868 his partners carried on and expanded the business under his name J & M Ewan. The business was expanded to provide a retail shop, counting-house and private offices. Wholesale warehouses adjoined these premises at 4, 6 and 10 Little Collins Street, West. This company provided and sold a large and varied amount of imported goods into the colony that consisted of agriculture equipment, building materials, mining items as well as steam engines, tools of all types and marble fireplaces. They also supplied the Bronze measuring containers in the Flagstaff Hill collection and the probability is that these containers were obtained by the local Melbourne authority that monitored weights and measures in the mid to late 19th century. The company grew to employ over 150 people in Melbourne and opened offices at 27 Lombard St London as well as in New Zealand and Fiji. The company also serviced the Mauritius islands and the pacific area with their steamship the Suva and a brig the Shannon. Robert Bate History: Robert Brettell Bate (1782-1847) was born in Stourbridge, England, one of four sons of Overs Bate, a mercer (a dealer in textile fabrics, especially silks, velvet's, and other fine materials)and banker. Bate moved to London, and in 1813 was noticed for his scientific instrument making ability through the authority of the “Clockmakers Company”. Sometime in the year 1813 it was discovered that one Robert Brettell Bate, regarded as a foreigner in London had opened a premises in the Poultry selling area of London. He was a Mathematical Instrument maker selling sundials and other various instruments of the clock making. In 1824, Bate, in preparation for his work on standards and weights, leased larger premises at 20 and 21 Poultry, London, at a rental of four hundred pounds per annum. It was there that Bate produced quality metrological instruments, which afforded him the recognition as one of one of the finest and principal English metrological instrument-makers of the nineteenth century. English standards at this time were generally in a muddle, with local standards varying from shire to shire. On 17 June 1824, an Act of Parliament was passed making a universal range of weights, measures, and lengths for the United Kingdom, and Bate was given the job of crafting many of the metrological artifacts. He was under instruction from the renown physicist Henry Kater F.R.S. (1777-1835) to make standards and to have them deposited in the principal cities throughout the United Kingdom and colonies. Bate experimented with tin-copper alloys to find the best combination for these items and by October 1824, he had provided Kater with prototypes to test troy and avoirdupois pounds, and samples with which to divide the troy into grams. Bate also cast the standard for the bushel, and by February 1825, had provided all the standards required of him by the Exchequer, Guildhalls of Edinburgh, and Dublin. In 1824, he also made a troy pound standard weight for the United States, which was certified for its accuracy by Kater and deposited with the US Mint in 1827. Kater, in his address to the Royal Society of London, acknowledged Bate's outstanding experimentation and craftsmanship in producing standards of weights, measures, and lengths. An example of a dry Bronze measuring container made specifically for J & M Ewan by possibly the most important makers of measurement artefacts that gives us today a snapshot of how imperial weights and measures were used and how a standard of measurement for merchants was developed in the Australian colonies based on the Imperial British measurement system. The container has social significance as an item retailed by J & M Ewan and used in Victoria by the authorities who were given legal responsibility to ensure that wholesalers and retailers of dry goods sold in Victoria were correct. The container was a legal standard measure so was also used to test merchants containers to ensure that their distribution of dry goods to a customer was correct.Maker Possibly Robert Brettell Blake or De Grave, Short & Co Ltd both of LondonContainer brass round for measuring quantities- Has brass handles & is a 'Bushel' measurement. 'Imperial Standard Bushel Victoria' engraved around container. Container bronze round shape for measuring dry quantities has brass handles & is a 'Bushel' measurement"IMPERIAL STANDARD BUSHEL" engraved around the top of the container. VICTORIA engraved under "J & M Ewan & Co London and Melbourne" engraved around the bottom of the container.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, standard measure, bushel, bushel measurement, j & m ewan, dry measurement, victorian measurement standard, bronze container, melbourne observatory, robert brettell bate

Photograph included in book "Victoria: Gold and Minerals" issued by Mines Department Victoria, 1935Photographvictoria, gold mining, hand dollying, prospecting method, prospecting, mining, tools

Photograph included in book "Victoria: Gold and Minerals" issued by Mines Department Victoria, 1935Image of a man sluicing in a creek bed. victoria, gold mining, prospecting method, sluicing, creek bed, mining, tools, prospecting

Photograph included in book "Victoria: Gold and Minerals" issued by Mines Department Victoria, 1935Image of two men involved in panning for gold. victoria, gold mining, prospecting method, creek bed, panning, gold panning, gold pan, mining, prospecting, tools