This item relates to methods of reproducing photos on all forms of material in an era of physical offset printing.The offset method is being replaced by digital transfer direct to the final product,(paper or other porous and non porous surfaces). Newspapers and other "paper" information publications are still producing "hard copies" but these are slowly being phased out. This item was used Circa 1920s in the peek period of paper based media. From the 1940s radio and then television stepped into the mass media revolution.This book was produced when all printing, Government and private enterprise, was using the "off set" method. This method was used to a great degree in all schools within the Kiewa Valley. It was in an era before "photo-copying machines" were available. This was a period when printing inks for larger printing machines had to be purchased from specialised outlets and printing presses required to be washed after each "run" of printing before the next plate(aluminium) could be fastened onto the "off sett" machinery. Heat infusion now used in large machines and domestic printers has superseded this task. Faded green cloth covered book with green papered front and back sleeve pages.Photos and sketches are throughout the book. Gloss paper used from page 1 one to page 400. Pages 401 to page 432 are not gloss paper. The type of paper varies throughout the book until final advertisement and index pages, from page 833 to page 846, are on gloss paperThe spine cover is badly worn and wording is faded. Front cover has"Commercial Engraving And Printing" Author and publisher details written by Charles W. Hackleman. Published by Commercial Engraving Publishing Company, "A Manual of Practical Instruction and Reference Covering" Commercial Illustrating and Printing by all Processes.technical book, reference for engraving and printing

This machine was in use in the 1940's during the construction of the tunnels for the Hydro Electric scheme. This particular photograph was taken in the Tailrace Tunnel which brings water from West Kiewa Power Station to the open tailrace in Mt. Beauty and then into the regulating pondage before discharge into the Kiewa River. This machine (or one similar) is on display on the Northern side of the entrance to the Visitor's Centre. The tailrace tunnel (or West Kiewa tunnel) was commenced in 1947 from both ends and the breakthrough occurred on 22nd. July, 1950Shows the size of the tunnel and the machinery used for excavation in the 1940's/50's.Black and white photographHandwritten on back of photograph "Jumbo" in Tailrace Tunneltunnel, machinery, water, tail race

This photograph was probably taken at the site of McKay Creek Power Station. Excavation of this site did not commence until 1951 but road access(a narrow track) was provided in 1948 and widened in 1954. The logs would have been milled for timber at the State Electricity Commission's mill at Howman's Gap and thus provided a much needed source of timber for construction of camps and houses as there was a general of shortage of this commodity. Because of trouble with landslides in this area, a decision was made to place the machine hall of the power station underground instead of on the surface. Restricted financial resources and the repositioning of the power station retarded construction activities and it was not completed until early 1961.. An excellent pictorial record of the general working conditions, type of machinery and vehicles in use in the 1950/s.Black and white photograph showing logging equipment, fallen logs.Handwritten on the back of the photograph "Logging at McKay Creek)logging, mckay creek, timber, machinery

This photo was most likely taken at the site of the proposed McKay Creek Power Station. Excavation of this site was commenced in 1951 but an access road (a rough, narrow track) was put it in 1948 and widened in 1954. The State Electricity Commission would have milled logs from this area at their mill at Howman's Gap. The timber was used for building of housing and camps and provided a much needed resource as there was a general shortage of this commodity. The power station was relocated underground owing to repeated problems with landslides in the area. Restricted financial resources and the repositioning of the power station retarded construction activities and it was not completed until early 1961. An historical pictorial record of the type of machinery used in the 1950's - logging truck with bogie attached, the bull dozer and winch for hauling logs to the truck and note the lack of protective clothing!Black and white photograph showing a logging truck, bogie and bull dozer with winch for hauling the logs to the truck. Two men are on the truck, a driver on the bull dozer and a large log on the bogie. Hand written on the back of photo "Logging at McKay Creek".logging, mckay creek, timber, machinery

Work commenced at Rocky Valley Dam site in early 1947 and proceeded until May. Resumed work in October after the winter and a camp for the accommodation of workmen was commenced at this time. Work continued in 1948 with the establishment of work facilities, including the erection of two large excavators. At the dam site the river was diverted through a temporary pipeline. Work proceeded in the summer months with the placing of concrete in the foundations and earth and rock fill for the construction of the wall. Rocky Valley and associated spillway and outlet works were completed in March, 1959. A very good representation of the type of machinery available in the 1940's used for excavation of the dam and the construction of the dam wall.Black and white photograph of Rocky Valley Dam wall under construction. There are at least three cranes plus workmen in the photo. This is taken from the Heathey's Spur side of the dam wall looking back toward Sun Valley.Hand written on back of photograph "Rocky Valley Dam Wall Excavation" in blue ink.rocky valley, dam, wall, machinery

A start on the construction of Bogong Creek race line was made at the commencement of winter in 1948. Work proceeded in the following years when work on the High Plains was not practicable. In January, 1951 the special trimming machine, the special slip form and concrete mixing and placing equipment was put into service. A shortage of cement caused some delays as well as a sudden financial recession. The race line was completed and put into service in 1952. An historical record showing the machinery used , the number of workers needed at any one time ( about 16 in this photo) and the mountainous terrain of the area. Black and white photograph taken during construction of Bogong Creek Raceline, showing the type of machine used for the formation of the concrete lining, the mountainous terrain, a number of workmen and a snow capped Mt. Bogong in the backgroundHandwritten on the back of photograph in black ink "Bogong Creek race line".race line, cement, machinery, bogong

Bruce & McClure were manufacturers of windmills and agricultural machinery including motor engines , pumps, tanks,and appliances for supplying and conserving water.Also included was brass,iron and steel foundry works. They won 11 first prizes at the Grand national Show of 1907 and in 1914 designed and manufactured a new water boring machine which could also be used for oil and gold exploration They operated from Lava Street well into the 1940's as well as from the geelong area. This plaque is possibly from one of their machines.A tangible link to one of Warrnambool's manufacturing businesses which was innovative and an essential part of the beginnings of machine use in farms and industry in the district. Cast iron plaque with moulded text which is coloured in gold. rectangular with rounded corners. Back is painted grey.Bruce & McClure Distributer Pat 2480.21warrnambool, bruce & mcclure, bruce & mcclure machinery

Pleated ruffles were a fashionable trimming for ladies’ clothing in the late 19th century - early 20th century. Dressmakers and classy laundries offering “fancy” ironing services both had plenty of use for a pleating machine. Pleating machines were sold for home use too.This item is an example of a machine not commonly used today.Metal and wood pleating machine, still in working order. Handles are carved wood.textile-machinery sewing pleating-machine

The seed bean industry was a major industry in the Orbost district for the first half of the 20th century. The total area sown with beans for seed at Orbost was estimated to be about 1000 acres. Fisher Bros, grew or supervised the growing of approximately one quarter of the bean seed produced at Orbost, and, in addition, prepared for market and sold a considerable quantity for other growers. From Newsletter February 2015 : "the Fishers took over the old Butter Factory in Lochiel Street. They had sorting tables there in the 1920s. In Orbost, the Fishers had a Shell fuel depot at the back of the bean factory. The Fishers were very enterprising people, very smart. One of their uncles is supposed to have invented the knot that was used to tie the sheaves of hay in the fields. At their Lochend Barn, they had a Blackstone engine which ran on oil. They used to light a fire under it and hot it up to start it. This engine drove all the bean machinery in the barn" The seed bean industry was a major industry in the Orbost district for the first half of the 20th century. the Fisher Brothers were a significant part of that industry.A black / white photograph tajen from a river bank. On the right behind some trees is a barn. On the left between tres is a small building. Reflections can be seen in the water.on back - "Snowy River, Fisher barn on right. Mary Gilbert"bean-industry fisher-beans snowy-river

This screwdrivers is a woodwork toolused for driving screws into materials or for securing or loosening parts on machinery. It was probably used on a rural property in early Orbost...This is an example of a domestic tool commonly used in the first half of the 20th century before the widespread use of power tools.A large steel flat head screw driver with a rounded, wooden grooved handle.tool screwdriver woodworking

The invention of a hand drill is credited to Arthur James Arnot and William Blanch Brain of Melbourne, Australia who patented the electric drill in 1889. In 1895, the first portable handheld drill was created by brothers Wilhem & Carl Fein of Stuttgart, Germany. Hand-powered devices have been used for millennia. However, during the last quarter of the 19th century a radically improved generation of tools appeared. These tools took advantage of modern mass production machinery and processes (like interchangeable parts) and an increased availability in superior material (metal instead of wood). One of the outcomes included an array of new drilling machines. These human-powered tools were a vast improvement over earlier tools.This item is an example of a commonly used domestic tool - pre power tools.A Stanley hand drill with two wooden handles. The red wheel is painted metal. On red wheel - STANLEY ENGLANDwoodwork tool hand-drill

This machine was the first double action (suction and pulsator) milking machine. This method is still in use today. Invented by Alexander Gillies,of Terang. The LKG milking machine is of State significance because it represents a high degree of technical achievement. It demonstrates the innovation developed by a Western District farmer, Alexander Gillies, that enabled dairy farms throughout Victoria to move successfully from hand milking to machine milking, thus contributing to the mechanisation of one of Victoria's major rural industries. Source: Cheese World Museum Significance Assessment, Lesley Alves, December 2009Cone shaped metal pail with a carry handle attached near the top and a tipping handle near the base. Removable top has pulsator mechanism which sealed the pail. Brass cover plateBrass cover plate inscribed Trade Mark LKG. Metal disc inscribed K136.dairy industry, machinery, milking machines, alexander gillies, terang

Used on the Hunt property at Cudgee from the early 1900s.Rope making machine consisting of a circular metal disk with four rotating hooks; cogs which turn the machine are visible on the inner side; and a curved metal handle with a wooden grip on the reverse side.Continental Trading Corp Ltd, Chicago, USA. Patented July 1911. The New Era Rope Machine. Keep oiled.cudgee, dairy industry, rope machines, new era rope machine, continental trading corp ltd, ropes, machinery

Perfect Cheese Company was founded in 1930 by newly-arrived Italian migrant Natale Paquale Italiano. The company specialised in traditional Italian-style cheese but also produced Greek, Cypriot and Maltese origin cheeses. The cheeses were sold in Australia and Italy with all products being matured and non-processed. The company remained in operation until the early 2000s.This cheese press is significant as it represents the machinery used by an early cheese production company.Stainless cheese press machine with three steel supports and two threaded rods will spring tension wheels to screw down to pressurise the hoops containing cheese.J & T YOUNG AYR UKallansford, perfect cheese company, avery, cheese manufacturing, dairy industry

Perfect Cheese Company was founded in 1930 by newly-arrived Italian migrant Natale Paquale Italiano. The company specialised in traditional Italian-style cheese but also produced Greek, Cypriot and Maltese origin cheeses. The cheeses were sold in Australia and Italy with all products being matured and non-processed. The company remained in operation until the early 2000s.This weighing machine is significant as it represents the machinery used by an early cheese production company.Large metal machine with cast iron with a cast iron frame and a stainless steel rectangular bowl in a cradle. The round weighing scale at the top shows a weight scale up to 1100 pounds. A mesh stainless steel baffle strains the milk.Made in England Birmingham - AVERY SOLE AGENTSallansford, perfect cheese company, avery, cheese manufacturing, dairy industry

A steam boiler like this one, made in the late 18th century, is often called a colonial boiler. Steam boilers were used in factories throughout Australia, mounted over similar designs of brick furnaces. This boiler is a fire tube type, in which the heat from the fire travels through the tubes and water circulates around them. Another kind of boiler is a water tube boiler, in which the water is inside the tubes and the heat of the combustion surrounds the tubes. The boiler in our collection burned wood as fuel but others of this design could also burn coal, coke, gas and liquid fuels. The boiler was made by T & F Johnson, boilermakers. In 1922 their factory was located at Coventry Street, South Melbourne. They were still advertising their 'Colonial, multi, vertical boilers, all sizes' at the same address in 1934. The connected pressure gauge, made in London by Dewrance, measures 0 to 400 pounds per square inch. John Dewrance is renowned as a pioneer of the steam locomotive in the early 19th century. He founded John Dewrance & Co. in South London in 1844. His son Sir John Dewrance took over in 1879. In 1939 the company became a subsidiary of Babcock & Wilcox, and was eventually owned by Emerson. How the boiler works: - A boiler is about two-thirds filled with water and heat is applied, in this case in the form of burning wood. The heat is transferred through the metal of the boiler to the water. When the water boils the steam rises to the top, and as it escapes from the boiler the steam pressure builds up in the steam space to later be released to do work; drive machinery such as ship and train engines, turbines, presses, wheels, and driving belts to operate looms and saws. The heat associated with the boiler can be used for preserving food, sterilising, factory manufacturing processes, and steaming wood for shipbuildin. Every boiler has several components fitted for safe operation: - - Safety valves - Gauge glass - Pressure gauge - Main steam stop valve - Water check valve - Blowdown valve - Manhole doorThe boiler is a significant item that gives us a snapshot of early Melbourne's industrial history. It is an example of the technological advancement during the Industrial Revolution where steam-driven machinery and motors could perform tasks more efficiently than manual labour. The makers were one of many boilermaker businesses in Melbourne during the early late-19th andearly 20th centuries. The maritime trade and skills of boilermaking are still learned and applied today. The Dewrance steam pressure gauge connected to the boiler was made by the London firms foundered by John Dewrance. He was renowned for developing the steam locomotive in the early 19th century.Boiler; a horizontal cylindrical underfired steam boiler. It is a multi-tubular design and is timber plank-clad, with brass fittings and pressure gauges. The boiler has an iron door at one end with a metal chimney above it. It is installed over a brick-enclosed solid fuel furnace. Two large, wood-mounted pressure gauges are connected to the boiler and have inscriptions. An inscription is on a red, cast iron plaque above the boiler door. The boiler's maker is T & F Johnson, South Melbourne. One of the pressure gauges was made by Dewrance, London..Maker's plate: "T & F JOHNSON / BOILERMAKERS / SOUTH MELBOURNE" Pressure gauge: "POUNDS PRESSURE / PER [square] INCH / DEWRANCE LONDON"flagstaff hill, warrnambool, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, boiler, multi tube boiler, steam boiler, steam technology, underfired boiler, horizontal boiler, timber clad boiler, steam power, industrialisation, boilermakers, south melbourne, dewrance, john dewrance, pressure gauge, dewrance pressure gauge, t & f johnson, london, steam engine, steam locomotive, pounds per square inch, 19th century, steam machine

In 1850 the Ansonia Clock Company was formed as a subsidiary of the Ansonia Brass Company by Phelps and two Bristol Connecticut clock makers, Theodore Terry and Franklin C. Andrews. Terry & Andrews were the largest clock manufacturers in Bristol at the time with more than 50 employees using 58 tons of brass in the production of about 25,000 clocks in 1849. Phelps decided to get into the clock making business to expand the market for his brass, while Terry and Andrews got access to better quality brass at better prices. They had then sold 50% of their business to Phelps and moved the business to Ansonia, Connecticut. In 1877 the clock company purchased a factory in New York and moved most of its production thereafter being spun off from the brass company. Henry J. Davies of Brooklyn, himself a clock maker, inventor and case designer, joined the newly reconstituted company as one of its founders. As President, he is thought to have been largely responsible for the figurine clocks, swing clocks and other unusual and desirable novelties for which the Ansonia firm became known. By 1879, a second factory was opened in Brooklyn, New York and by June 1880 employed 360 workers, while the Connecticut factory continued producing clocks as well with a workforce of 100 men and 25 women. Hence, clocks marked "Connecticut" were generally produced before 1879, while those marked "New York" were all produced after 1880 After the New York factory burnt down in 1880 the company rebuilt the factory on the same site, and reopened the expanded factory in 1881, with a capacity to exceed that of the Connecticut factory which by 1883 had closed. By 1886, the company had sales offices in New York, Chicago and London, with more than 225 different clock models being manufactured. In 1899, Phelps' grandson William Earle Dodge Stokes commissioned architect Duboy to build the "greatest and grandest hotel in Manhattan, New York” which became the city's first air-conditioned building. In 1929 the majority of the timekeeping machinery and tooling was sold to the Soviet government's US trading company Amtorg, just before the stock market crash. The parts, machinery and key skilled workers were shipped out of the USA to form the basis, along with the remains of a watch company purchased a year later, of the clock and watch industry in Moscow such as Poljot and Sekonda. In 1969, the rights to the use of the name, trademarks, and goodwill were transferred to Ansonia Clock Co., Inc., Lynnwood, Washington. The item marks the beginning of mass produced clocks in the United States, cheaply priced and available to all. The company had many innervation's during it’s life regards clock and later wrist watch making that led the way for other companies in many different countries to emulate.Clock, pendulum mantle model. Carved scallop "Ginger bread house" cottage clock. Oak case, white enamel face, floral etched glass door. Clock has an hour bell chime. Glass front opens to allow rewinding. Made by Ansonia Clock Co, New York. Marked "Manufactured by Ansonia Clock Co. New York, USA"flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, mantle clock, clock, pendulum clock, time keeper, horology, ansonia, ansonia clock co, america

This guillotine is a hand operated machine specifically designed to cut through multiple sheets of paper or card. It has a very heavy and sharp single blade knife mounted between vertical guides or runners. The main users of a machine like this is in by the printing and publication binding industry. Book binding companies use a guillotine to evenly trim the pages of a book after it has been bound. The way the guillotine is used is - paper or card is stacked squarely on the flat table and pushed firmly against the back guide - the handle below the table at the front of the machine is wound around, which brings the back guide forward, pushing the paper stack forward and positioning the centre of the stack below the vertical frame - the upper wheel is wound around, which brings the clamp and firmly in position on top of the paper, to hold it very firmly - the large wheel on the side of the machine is turned around to lower the long sharp blade down onto the pages and cut them through. The sharp edge of the blade is protected somewhat from becoming blunt; a block of wood sits in the table under the stack of paper An early model of a guillotine was patented in 1837 by Thirault, who built a model with a fixed blade. Guillotines similar in principal to this one were patented by Guillaume Massiquot in 1844 and 1852. Over the years many improvements have been made and operation has moved from man power to electricity. Oscar Friedheim Ltd. was the importer and wholesaler of a large range of machinery and equipment for the printing and bookbinding industry. He sold most of his equipment under his own name. On this guillotine or paper cutter he refers to the origin of the guillotine’s manufacture only as “German Manufacrure”. A reference book “Commercial Bookbinding: a description of the processes and the various machines used" by Geo. Stephen, 1910, recommends Oscar Friedheim, amongst others, for the supply of “reliable cutting machines for hand or power”. It also recommends Oscar Friedheim’s for a wide range of other printing machinery and processes. OSCAR FRIEDHEIM LIMITED, LONDON Oscar Friedheim Ltd. was established in 1884 and operated from Ludgate in London. The company was an importer and wholesale supplier in the 1880’s, offering machinery and equipment for the printing and packaging industry for the UK and Ireland. The company became incorporated in 1913. An advertisement of 1913 includes a telegraphic code plus two telephone numbers for Oscar Friedheim Ltd and invites readers to call at the Ludgate, London, showrooms to see the machines working. The company later became Friedheim International Ltd. The book titled “Friedheim, A Century of Service 1884-1984 by Roy Brewer, celebrates Oscar Friedheim’s achievements. Friedheim International currently operates from Hemel Hempstead, on the northern outskirts of London UK. It promotes itself as “… the leading supplier of finishing, converting and packaging machinery to the printing, graphic arts, and highly varied packaging industries in the UK and Ireland. The company’s policy is simple – “employ the best people, work with the best equipment manufacturers in the world, and treat our customers as partners!” The company still sells guillotines. The guillotine is significant for its ability to represent aspects of the printing trade in Warrnambool and in a typical port town circa 1850 to 1910. It represents communication methods and processes used in the time before electrically powered equipment became common in industry.Guillotine (or paper cutter), hand operated. Metal framework with vertical guides, stand and metal mechanical parts including wheels and gears. Table with back guide; handle below front of table winds to move the back guide. A wheel at top of machine winds to adjust pressure of the clamp on the work on the table below it. The cutting blade fits between vertical guides; a timber insert in the table below the blade helps minimise the loss of sharpness of the blade. A handle on the side of the machine turns a large spoked wheel, which rotates a large gear, causing the blade to move up and down. Makers details are on a small oval plaque with embossed maker’s details is screwed onto main body. Maker is O Friedheim, London, and the machine is of German manufacture, circa late 1880’s.Maker’s plaque inscribed "O. FRIEDHEIM / London / German Manufacture"flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, printing machinery, printer’s guillotine, paper guillotine, paper cutter machine, oscar friedheim ltd london, friedheim international ltd, bookbinding industry, printing industry

Thomas Sheraton (1751-1806) appears to have been the first to record the written term “Canterbury” music or magazine stand. In his Cabinet Dictionary of 1803 he refers to “a small music stand” with divisions for holding loose sheet or bound volumes of music. The music stand designed to hold sheet music came into fashion in the late 18th Century in England and was often crafted from mahogany, rosewood or walnut. They were seen as status symbols since music was practiced exclusively by the upper classes of society. In a period when printed music was more widely available and disseminated due to more affordable printing techniques, modern sheet music was very popular and therefore storage for such favoured tunes became a luxury and an opportunity for innovative design by cabinet makers. The Classical period of music, from about 1750 to 1820 and the Romantic Period from around 1815-1910 was the golden age of classical music. And it was at this time that The Canterbury often accompanied the piano in the parlour with styles ranging from Georgian simplicity to Victorian exuberance. Social activities of colonial Victoria would have included evening gatherings of family and friends around the piano to enjoy performances or sing along together with from old and up-to-date music sheets. The Canterbury would also be an elegant and practical place to also store newspapers, magazines, posters and drawings from overseas. The news from ‘home’ would be enjoyed by all. THE INSCRIPTION “Jack Morse” Morse. In 2010 Mr Jack Morse was recognised as one of the “people who have contributed to the long term development of Flagstaff Hill Maritime Village”. He was a member of the Flagstaff hill Planning board and a Current Life Member and had been awarded a Certificate of Service and the provision of an Annual Family Membership for life by Flagstaff Hill. The Morse’s family business, Morse’s Engineering, closed in 2010. It was considered “One of Warrnambool’s longest operating businesses with roots dating to 1883 with the design and manufacture of coaches and buggies, progressing to automotive repairs and later specialising in under-vehicle work” The Canterbury appears to have been handmade prior to 1860 as the dovetails are handmade and there are no saw marks on the drawer sides or back as well the sides. Also the back has small nicks indicating a hand plane or drawer knife was used rather than a saw blade to size the material. Additional indications are that the spindles are slightly different in size meaning they were handmade individually not mass produced. From these indicators the writer believes that the item was made before 1860 as machinery was only used after this date to produce furniture. As yet no individual maker can be attributed to this item, however it is a significant piece historically and is quite valuable if a known maker can be associated with the Canterbury. The item highlights a time in our social history when music played an everyday part in people’s lives as the only entertainment families could enjoy together in their own homes. A Canterbury music stand, having three compartments consisting of twenty turned spindles supporting the slat dividers. A drawer, with two turned wooden handles, is fitted below. The music stand has turnip style turned feet. The drawer front and carcass of the stand are veneered rosewood over a mahogany carcass. The underlined words "Jack Morse" are handwritten underneath the drawer bottom.Hand written inscription on underneath the drawer bottom "Jack Morse".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, canterbury, music rack, magazine rack, music stand, magazine stand, 19th century furniture, occasional furniture, frederick cornwallis, jack morse, morse’s undercar, music, thomas sheraton, regency furniture, music canterbury

This wooden condom former has no defined manufacture date and was used in the production of rubber condoms in Melbourne by the rubber goods manufacturer Ansell. Wooden formers of this type were used from 1905 till 1945. The condom former would be dipped tip first into liquid rubber and the covering left to dry, and then the resulting condom packaged and sold. This object was acquired by the Richmond and Burnley Historical Society in the 1970’s on the closing of the Ansell factory located on River St, Richmond. This object has historical significance at a national level, as it is associated with the use and manufacture of sexual health devices within the broader Australian context. It also holds local historical significance as a marker of local manufacturing and industry in Victoria. Alongside these points it is also a large part of the story that surrounds the creation of Ansell Industries as we know them in a modern context. Wooden condom former/ mold. Frame consists of 11 individual upright moulds. Used by the Ansell Rubber Co. Pty Ltd in the production of condoms. Obtained in 1970's from an old factory site occupied by Ansell. None visibleansell, condom machinery, richmond industry, moulds, rubber products, sexual health, contraception, condom

"Freight forwarding" is the arranging of the shipping of goods from their point of origin to their final destination. Freight Forwarders worked as an intermediary between companies that needed to ship products and the shipping and transportation firms that could ensure delivery. A key element of "freight forwarding" was the advice and professional handling of documentation and customs requirements provided. Early "freight forwarders" tended to be innkeepers who forwarded on the luggage of their hotel guests. One of the first "freight forwarding" companies was established by Thomas Meadows in 1836 which made it one of the earliest freight companies in Europe. More reliable rail and steamships were beginning to be used to transport goods and this created a demand for the new "freight forwarding" industry. The combination of railroads and steamships became very important in the late 19th and early 20th century. International shipments became common and freight forwarding that could handle their complexity became an integral part of the manufacturing and shipping landscape. Thomas Meadows & Company Ltd moved to offices in Milk Street, London in 1854 (where they remained until 1969 when they moved out of the city to Leytonstone) and continued in the freight business until 1987 when the company was acquired by Rockwell International Freight. The growth of Thomas Meadows & Company Ltd coincided with the growth and development of the colony of Victoria with an increasing need for the transporting of large numbers of people as well as important goods required by the growing colony - furniture, spirits, food, clothing, agricultural implements, household items etc. In the late 1840's only two or three overseas ships a month visited Melbourne but by late 1852 (after gold was discovered) more than a dozen ships arrived each week. By 1939, Thomas Meadows & Co. Ltd. had offices in Canada, U.S.A., New Zealand, France, Belgium and in Flinders Street Melbourne. This poster was sold by "Smarts Authorised Newsagency" in 1988 in Warrnambool - a business that had been owned by Neil and Shirley Smart at 168 Timor Street, Warrnambool since 1976. Previously it had been "Reed's Newsagency and Book Shop" (a local business established by William Reed circa 1912 and known as "William Reed Bookseller and Stationer"). The original owners, Reed's Newsagency and Bookshop were operating the shop in 1939 which suggests the poster may have been on display (for the information of their customers) in their shop at that time. This poster is significant through its association with Thomas Meadows and Co. Ltd. who is considered to be the founder of the "freight forwarding" industry in the early 19th century. It is an example of advertising used by shipping agents in the mid-19th to early 20th centuries. Its information includes the addresses of the firm's different offices in the U.K. and abroad, ships, shipping lines and ports used and the timetable the vessels were likely to follow. It is also significant through its association with a well known and long standing local Warrnambool business.A 1939 Timetable of "Australian Sailings" produced by the shipping agents Thomas Meadows and Co Ltd. It lists all their ships (plus dates and ports) sailing from the UK to Australia as well as the addresses of their offices in other cities in the U.K., Canada, U.S.A., Australia, New Zealand, France and Belgium. It has three vertical columns depicting (from left to right) January to June sailings, a simple 1939 calendar and their July to December 1939 sailings. The poster is attached on the top and bottom to two thin black metal strips. The top strip has a metal ring with a hole. A stamped label on the back of the poster has the name, telephone number and address of Smarts newsagency plus the date.Front of poster - "FORWARDING AGENTS. INSURANCE BROKERS.PASSENGER AGENTS.CARTAGE CONTRACTORS / MOTOR CAR AND MACHINERY PACKERS.FURNITURE AND GENERALEXPORT PACKERS" "THOMAS MEADOWS & CO Ltd." "ESTABLISHED OVER 100 YEARS" "SHIPPING AGENTS / 35 MILK STREET, CHEAPSIDE, LONDON, E.C.2" "PACKING WAREHOUSES IN LONDON & MANCHESTER" "1939" "TIME TABLE OF AUSTRALIAN SAILINGS" "JANUARY TO JUNE, 1939/ FROM LONDON" "JULY TO DECEMBER, 1939 / FROM LONDON" "HAVE YOUR SMALL PACKAGES SENT BY OUR SPECIAL "SMALLS" SERVICE AT LOWER RATES/RATES TO PORT ONLY OR INCLUDING DELIVERY THROUGHOUT AUSTRALIA" "INSURANCE AGAINST ALL RISKS EFFECTED WITH CLAIMS PAYABLE DESTINATION" "ROUTE YOUR SHIPMENTS VIA THOMAS MEADOWS & CO LTD. FOR PROMPTNESS AND ECONOMY" Stamp on back of poster - "SMART'S AUTHORISED NEWSAGENCY' "168 Timor Street, Warrnambool 3280" "Telephone: (055) 62 2092" "12 DEC 1988" Sticker at bottom - "51"flagstaff hill maritime museum and village, great ocean road, shipping, shipping agents, freight forwarding, freight, shipping time table, thomas meadows & co. ltd., thomas meadows shipping agent, shipping and forwarding agent, smart's newsagency, warrnambool, warrnambool newsagency, chart, poster, smart's authorised newsagency, neil and shirley smart, william reed, reed's newsagency and bookshop

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

This book was specially compiled and prepared for the convenient use of mine officials, mining engineers, and students preparing themselves for certificates of competency as mine inspectors or mine foremen.Dark, hard covered book. Contents include arithmetic, weights and measures, Cylinders, Geometry, Mensuration, Surveying, strength and Weight of Materials, wire ropes, chains, Colliery management, precious metals, ventilation, hydrostatics, hydraulics, mine railways, Friction of mine cars, colliery machinery, steam raising, rules for engine drivers, faults, electricity, glossary of Mining terms.mining, coal, metal, colliery, definitions, brook, advertisements

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 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

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

"The United Pyrites Company's Works are situated about three quarters of a mile from Spargo Brothers, and are on the northern side of the Marong road, in Pinch-gut Gully. Two processes are followed at these works, viz., the amalgamating process and the treatment by means of chlorine gas. The latter is called the Newbery-Vautin system, and the mode pursued is that laid down by Mr. Cosmo Newbery and Mr Vautin, whose names have been given to the process. Mr. Edwards manages these works. Three reverbatory furnaces are used to roast the pyrites, which is weighed in the truck before being put into the furnaces. At this weighbridge a sample of each lot is kept, and if the yield is not equal to expectation, the works are carefully gone over to see where the fault occurs. Care is taken at the furnace to regulate the heat, otherwise the pyrites might slag instead of roasting evenly right through. An immense revolving furnace (made of boiler iron) was used at these works. It was found to be suitable for treating blanket sand, but was not a success for roasting coarse pyrites. The process of amalgamating by means of Chilian mills is the same in these works as at the Western Works, but the United Works are on a larger scale, and eleven mills are utilised. It is the chlorine gas process which is most interesting here. The gas is made from sulphuric acid, black oxide of manganese, and common salt, and the gas is introduced into huge vats, where it works its way through a filter of pieces of quartz and then through the bed of roasted pyrites lying above. The action of the gas transforms the gold into chloride of gold. This is easily dissolved in water, and in that form is drawn off into huge delf jars, where the use of sulphate of iron precipitates the gold to the bottom. A small battery—eight head of stamps in two boxes—is in use here to crush small consignments of stone sent for trial. Test crushings come from all the Australasian colonies, and even from India. The jars used are manufactured at Epsom, and some of the salt used is also of home manufacture, from the Salt Lakes on the Northern plains. Mr. Edwards took us over a new building in course of erection, and in which the chlorine gas is to be generated in the midst of the pyrites— a still further advancement in the new process. There is some very good machinery in this new building, and the tailings from the ordinary pyrites works will also be treated by this chlorine gas system, which has been found to work well at Mount Morgan, in Queensland. The purest of gold is obtained by this process, the gold passing in solution into a charcoal filter, from which it emerges in the shape of metallic gold. We saw some nice cakes of retorted gold at the works. One of 26oz. was from some New Zealand pyrites (2½ tons), and assayed over 23 carats. There were also cakes of Avoca gold, of silver, and of the tremulous amalgam." (The Argus, 4 February 1887)Two handwritten letters to the Ballarat School of Mines on Bendigo United Pyrites Company Letterhead.bendigo united pyrites company, pyrites, ballarat school of mines, j.j. deeble, joel deeble, joel james deeble, a.m. dean, fred j. martell, martell, s.h. cowan, letterhead

Bound copies of the Ballarat School of Mines Students' Magazine, 1898-1901 Vol 1, No. 1, September 1898 * News and Notes (Ballarat School of Mines Museum, J.F. Usher, New British Pharmacopoeia, excursion to Bendigo) * History of the Ballarat School of Mines * Current Topics (Federation, Gladstone, Anglo-American Alliance) * Of Custom * Discovery of Coolgardie * Mining Notes(Clunes, Pitfield, Birthday Mine, Western Australia, Transvaal, Mt Bischoff, Rand Drill Co.) * From the Journals * The Societies - (Student Association, Ballarat Field Club and Science Society, Ballarat Photographic Club) * Original Poetry * Sports * Students' Association Committee Meetings * On the Increase of Temperature of the Earth With Increased Depth Vol 1, No. 2, October 1898 * Notes about some of the Past Students (E.M. Weston, J.A. Porter, H.R. Sleeman, G.E. Sander, B.C.T. Solley, T. Rhys, C. Burbury, D. McDougal, J. Matsen) * Excursion to Daylesford, p.3 * History of the Ballarat School of Mines (continued) * The Soudan * Greater Melbourne * Image of J. Hopkinson, electrical engineer killed ascending the Alps * What is Science * Mining Notes (Pitfield Plains, Victoria United G.M.Co., Lithgow, Avoca, great Cobar, Mt Whycheproof) * Student's Association (women's franchise) * Sports Vol 2, No. 1, March 1899 * News and Notes * History of the Ballarat School of Mines (continued) * Notes of Victorian Geology, 1. Granites, by Thomas S. Hart * Sir William Crookes * Summaries and Notes from the Mining Journals * Students' Association * Sports * The Bush Assayer * Solubility of Gold-Silver Alloys in Potassium Cyanide * Correspondence Vol 2, No. 2, April 1899 * News and Notes (Smythesdale Excursion, New Buildings, A.S. Coyte, R.J. Allan) * History of the Ballarat School of Mines (Continued) * The New Students (J. Owen, A. Clayton Morrisby, A.S. Atkin, J. Alexander Reid, Alfred G. Johnston, L. Lowe, F.H. Dalton, W.M. Robertson, A. Hacke, H.L. Giles, W. Martin, E. Walshe, H.L. Krause, R. Sawyer) * Berringa by Oh'E Jay * Summaries and Notes from the Mining Journals * Mount Magnet to Victoria - A Long Bicycle Trip * 1898 Examination returns * Sports Vol 2, No. 3, May 1899 * Technical Education and the Proposed Affiliation of the Schools of Mines with the Melbourne University. * Laying of the Foundation Stone of the New Classrooms (now Administration Building). Alexander J. Peacock * News and Notes (Past Students - A.S. Lilburn, J.W. Sutherland, J. Richardson, E. Prendergast, J. Wallace, J. Kidd, J. Lake, Mathew Thompson), Coolgardie Exhibition. * Trip to Lal Lal * Students' Association * Summaries and Notes from the Mining Journals * Professor Henry Louis on Mining Education * Corrections Used in Chaining by C.W. Adams * The Black Horse Cyanide Plant * Sports * Completed List of 1898 Examinations Vol 2, No. 4, June 1899 * News and Notes * The Education Problem by D.N. McLean * A Few Hints on Histological Technique by Emil Gutheil * Summaries and Notes from the Mining Journals * Students' Association * A Visit to the Skipton Caves (Mount Widdern, Ormand Hill, volcano, Emu Creek, Mount Kinross, Mount Elephant, Mount Vite Vite, Mount Kinross, Mount Hamiston) * Mount Magnet To Victoria (cont) * The New Engines at the Ballarat Woollen Mills - includes image of the Compound 700 H.P. Engines constructed for the Ballarat Woollen Mills by Austral Otis Company and consulting engineers Monash and Anderson. * Sports * Original Poetry * Correspondence Vol 2, No. 5, July 1899 * News and Notes (E. Byron Moore, Visit to Britannia Gold Mine, J. Bryant, Visit to Last Chance Mine) * A Few Hints on Histological Technique (cont) by Emil Gutheil * Summaries and Notes from the Mining Journals * Professor Alfred Mica Smith (includes image) * Notes on Victorian Geology Part 2 The Trappean Rocks, by Thomas Hart * Origin of Diamonds * Hydraulic Mining by A.E.C. Kerr * Volcanoes by F.G. Bonney * Analytical Chemistry Notes by Daniel Walker * Some Things Out To Do * Sports * Correspondence Vol 2, No. 6, August 1899 *Summaries and notes from the Mining Journals * Some Regulations of the Academy of Mines at Freiberg * A visit to Mt Lyell Smelters * Professor Gilbert J. Dawbarn (includes image) * Air compressor and Transmission of Power by Compressed air by A.E.C. Kerr * Chemistry Notes by Daniel Walker * Mineralogical Notes, Ballarat by Thomas S. Hart * Kalgurli Gold Mines, W.A. * OUr New Lab Vol 2., No 7, September 1899 * Summaries and Notes from the Mining Journals * Some recent Steam Plants at Bendigo by Gilbert Dawbarn * Professor Thomas Stephen Hart (includes image) * Students Association * Notes on Victorian Geology by Thomas Hart * Centrifugal Pumps * A New Chum's Experience by E.M. Weston Vol 2., No 8, October 1899 * The institute of Chemistry Examinations * A New Method of Qualitative Chemical Analysis by Emil Gutheil * Steam Engine Valves and Valve-Gears by Gilbert Dawbarn * Daniel Walker (includes image) * Notes on Victorian Geology by Thomas Hart * Cyaniding Cripple Creek Tellurides (Metallic Extraction Company) * Notes on Two Ballarat Gravel Pumping Plants, G.A. Wilberforce (Eureka Jennings Co and Yarrowee Sluicing Co) * History of the School of Mines (concluded) Vol 3., No 1, March 1900 * A Journey from Natal to Mashomaland with the British Police * A Plea for Research * New Caledonia by C.A.M. Deane * Notes of Victorian Geology - Lower Palaeoroic Rocks by Thomas Hart * Mt Bischoff Mine and Mill * Summaries and Notes from the Mining Journals * Things we Eat and Drink * Farewell to A.S. Coyte Vol 3., No 1, March 1900 * Mining Education * Model Locomotive made by the apprentices of the Phoenix Foundry, p2 * Glimpses of Rhodesian Police Camp Life * New Caledonia (continued) * Summaries from the Mining and Engineering Journals * Boot and Saddle Vol 3., No 3, May 1900 * A Students' Common Room * Geological Excursion to Hardie's Hill * Notes on Victorian Geology by Thomas Hart * The Planet Venus by John Brittain * Summaries and Notes from the Australian Mining Standard * The Assay Ton * Zeehan Smelters * Electrical Notes by Ohe Jay * Trop of the Cricket Club to Stawell * Students' Association * Solid Hydrogen Vol 3., No 4, June 1900 * The Minister of Mines on Mining Education (Minister A.R. Outtrim) * Lal Lal Geology Trip (Thomas Hart) * Rifle Club now defunct, pg 3 * A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (includes cross sections) (Wood's Point, Rand, Johannesburg, South Africa, Gaffney's Creek, Walhalla, Shady Creek, Sago Hill at Cardigan, Bunbury) * Summaries and Notes from the Australian Mining Standard (Buninyong Estate Mine) * Monthly Progress Reports of the Geological Survey * Electrical Notes by John M Sutherland (Telagraphone, phonograph, telephone receiver) * Students' Theatre Party (Gordon Todd, Ohe Jaeger, C.S. Wakley) * Opening of the New Buildings - Ministerial Speeches (Outtrim, W.H. Irvine, New Mining Laboratory, Old Chemistry Building, Battery, Model Mine) * Students' Association * Relief of Mafeking * A Critic Criticised * Things We Eat and Drink by Ohe Jay - Oatmeal, Coffee and Cocoa. Vol 3., No 5, July 1900 * Research * Adelaide Varsity Students at Ballarat * The Manchester-Liverpool Mono Railway * Students Association * *A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (continued) (includes cross-sections) * Motive Power, address by Charles A. Parsons * Summaries and Notes from the Australian Mining Standard * Sugar Manufacturing by Sugna * Great Creswick Hydraulic Sluicing Plant (THomas Hart, Ballarat School of Mines Mining Class visit) * Reminiscences of a Students Life in Germany * Football - Ballarat School of Mines v Geelong Grammar School (Australian Rules Football) Vol 3., No 6, August 1900 * Cheap Mine Management * Library * Bendigo School of Mines, pg 3 * Notes on Ore Dressing by T, Vincent, Manager The Zeehan (Tas) Silver-Lead Mines Ltd) * Motive Power * Notes on Broken Hill - Its Mines and Minerals by J. Williams * The Concert * Summaries and Notes from the Australian Mining Standard * The Dandy Duke's Dreadful Demise * The Road Race Vol 3., No 7, September 1900 * Michaelmas Excursion (Melbourne University, Prof Kernot, Applied Mechanics) * Injury to School Property * Return of E. Ditchburn (Boer War) * Mt William Gold-Field visit, pg 3 * The Stoping of Wide Lodes by J.V. Lake (includes cross sections) * Summaries of Notes from the Australian Mining Standard * Notes on Broken Hill Part 2- Its Mines and Minerals by W.J. Williams * Motive Power from the Waves * Electrical Notes * Some Account of Italian Mining (Sarinia, Sicily, Peidmont, Lombardia) by Candido Maglione * Students Association * Should Women Have the Vote by Frank Bessemeres * The School Theatre Parly * Past Students * Poetry * Football * Surveying Rules Vol 3., No 8, October 1900 * Ballarat School of Mines Associateship * An Engineering Laboratory * Students' Practical Work * Notes on Broken Hill Part 3 by W.J. Williams * The Lake View Consols by F.S. Earp - Battery Treatment of Sulpo-Telluride Ore * Neglected Mineral Fields - Eurowie and Warrata * A Glimpse Ahead * News and Notes * A.W. G. McPherson, Boer War * Students Association * Ballarat School of Mines Melbourne Excursion to the Government Electric Lighting Station, Austral-Otis Co, Working Mens College * Ballarat School of Mines Concert in Aid of Soldiers Statue Balance Sheet * Football * Cricket Vol 3., No 8b, November 1900 * Position of the Ballarat School of Mines with Regards to Mining Education * Age Limit * Entrance Examination * Presentation t0 Professor Alfred Mica Smith * Image of a Group of Old Ballarat School of Mines Students in Coolgardie and Kalgoorlie. * Students Association Vol 4., No 1, March 1901 * Espirit De Corps * A few Notes on the Testing of Explosives * Round About Inverell, NSW by F. and J. Mawl * On the Choice of Drawing Instruments * Summaries and Notes From the Technical Journals * Annual Examinations 1900 * New Students * Sporting Notes * The Vale of Coolgardie Mine, Bonnievale, W.A. by G. Stephen Hart * News and Notes (Kerr Grant, C.L. Nash, R. Gordon Todd, Vial) * Editorial Notices Vol 4., No 2, Second Term 1901 * The Metallurgical Treatment of Sulpho-Telluride Ores by L.W. Grayson * Some Metallurgical Difficulties of Aluminium * Diehl's Sulphide Process by A.E. C. Kerr * A Californian Gold Mine by A.E. C. Kerr * New Express Locomotives for the Victorian Government (Phoenix Foundry) * An Excursion to Geelong (Electric Light and Traction Company of Australia) * The Linkenback Table for our New Mining Laboratory (Humboldt Company of Colgne) * Death of Thomas Bath * The Late Alfred G. Johnson (Boer War) * An Introduction to Natural Science by Emil Gutheil * The First Annual School Sports Meeting * Concert in Aid of Magazine Funds * The Men That Made the Concert (C.E. Denniston, W.H. Chandler, Mr White, William Litte Jnr, Marriott, Giles McCracken) * Sports * News and Notes Vol 4., No 2, Third Term 1901 * Bagging-Up - A Sketch * Concentration of Difficult Silver-Lead Ores * Estimation of Chlorine, Bromine and Iodine by D. Runting * Summaries of Notes from teh technical Journals * Notes on the Use and Care of Platinum Ware Common Sense * The Machinery at the Tasmania Gold Mine, Beaconsfield, Tasmania * Mining at Walhalla - The Long Tunnel Mine * Past Students * Mapping our of Agricultural Areas, etc, In Dense Vine Lands, North Queensland by R.A. Suter * News and Notes * Concert Balance Sheet e.m. weston, robert brough smyth, mcdougall, bruce, charles burbury, harrie wood, graham j. hopwood, emil gutheil, daniel walker, thomas hart, thomas stephen hart, m. hacker, schnitzler, f.a., ditchfield, l.h, alfred e.c. kerr, charles harvey, campbell, joseph bryant, campbell & ferguson, gilbert j. dawburn, irving, g.b., kerr, a.e.c., john walter sutherland, william robertson, herbert l. krause, alfred mica smith, binh pham, crosbie, d. jack, ditchburn, j., james hiscock, alfred johnston, reid, j.a., kidd, john, james bonwick, james, j.p, overall, d, e.h salmon, gaynor marquand, williams, w.w., williams, william, deane, c.m., vincent, tom, phillips, g.e., hart, d.w., jarnail suingh, rowlands, e., ferdinand m. krause,, easterby, f.l, parsons, r.g., partington, j.r., vial, s.b., meadows, h, atkins, arthur, john braisted burdekin, w.h. corbould, ditchburn, john, hill, john, otto e. jager, mcpherson, g.t, nicholls, c, thom, j.m., crafter, stewart, john brittain, peter lalor, hardy - commissioner, thomas bath, alf johnston, charles campbell, nash, llewellyn, watson, m.a, gardener, eddie, adamson, s.g, alford, l.c, allen, r.j, arthur, d.w.b., burge, a., willia, cairncross, cooper, i, maurice osric copland, maurice copland, dickinson, s., doepel, dunstan, john, loveday dunstan, eeles, terri, flegeltaub, israel, fletcher, a, fyrar, peter, kerr grant, w.kerr, green, gary, betty harris, harris, c.m., hay, a.l., hearn, hill, martin, james, david, johnston, alfred g, kilner, marion, kingston, thomas, lewin, f.c.k., lilburne, arthur m, linahan, colin, macready, w.h, major birlefco, markwald, henry, mccaffrey, mcfarlane, kaye, mciver, s.k, mellins, b, morton, felicity, w. kenneth moss, ken moss, nash, c.w., nash, neville, nickolls, berkeley, osborne, percy, philp, e., playford, william, reid, e, roberts, gordon, ross, f.c., royce, phillip, sawyer, basil, stewart, r.c., todhunter, i, vaisey, a., vincent, john, vinden, sue, wakley, cecil, watt, james, westcott, lewis, charles w. whyte,, vial, s browning, ballarat school of mines students in coolgardie and kalgoorlie, coolgardie, kalgoorlie, claude maitland, a.l. hay, a.s. lilburne, latham watson, arthur kildahl, thomas copeland, f.a. moss, w.a. hearman, cardoc james, alexander fraser, e.o. watt, g.m. roberts, j.j. dunstan, h.v. moss, j.a. hill,, john dunstan, c.m. harris, william h. corbould, j.w. sutherland, ballarat photographic club, ballarat field naturalists club, ballarat field club and science society, photography, geology, excursions, last chance mine, tasmania gold mine, beaconsfield, tasmania, rand, south africa, mount lyell, ballarat school of mines student excursion to mount lyell, h.l. krause, ferdinand krause, krause, hardie's hill, hardie's hill excursion, lal lal, lal lal excursion, lal lal geology excursion, smythesdale, smythesdale excursion, soudan, south african miners, south star mines, wynne and tregurtha battery, ananconda copper mining, arizona copper mining, boiler plates, british guinea, butte copper smelter, daylesford geology camp, daylesford excursion, diehl process, electric power house ballarat, electric pumps, geelong rope factory, gympie, golden horseshoe estate, c johnstone, jack nichol, c. macgennis, alec saunders, alfred g. johnstone, graeme jolly, william purdie, john mann, maxwell l gaunt, sale school of mines, freiberg school of mines, schools of mines, railway locomotive

A foghorn is a device that uses sound to warn of navigational hazards like rocky coastlines, or boats of the presence of other vessels, in foggy conditions. The term is most often used with marine transport. When visual navigation aids such as lighthouses are obscured, foghorns provide an audible warning of rocky outcrops, shoals, headlands, or other dangers to shipping. An early form of fog signal was to use a bell, gong, explosive signal or firing a cannon to alert shipping. From the early 20th century an improved device called the diaphone was used in place of these other devices, The diaphone horn was based directly on the organ stop of the same name invented by Robert Hope-Jones, creator of the Wurlitzer organ. Hope-Jones' design was based on a piston that was closed only at its bottom end and had slots, perpendicular to its axis, cut through its sides, the slotted piston moved within a similarly slotted cylinder. Outside of the cylinder was a reservoir of high-pressure air. Initially, this air would be admitted behind the piston, pushing it forward. When the slots of the piston aligned with those of the cylinder, air passed into the piston, making a sound and pushing the piston back to its starting position, whence the cycle would be repeated. This method of producing a low audible sound was further developed as a fog signal by John Northey of Toronto and these diaphones were powered by compressed air produced by an electric motor or other mechanical means that admitted extremely powerful low-frequency notes. The example in the Flagstaff collection is an early cased and portable diaphone used on pleasure or sailing craft. By manually turning the crank handle air is produced and fed into valves that direct air across vibrating metal reeds to produce the required sound. in foggy weather, fog horns are used to pinpoint a vessels position and to indicate how the vessel is sailing in foggy conditions. One blast, when sailing on starboard tack and two blasts, when sailing on a port tack and three dots, when with wind is behind the vessel. Since the automation of lighthouses became common in the 1960s and 1970s, most older foghorn marine installations have been removed to avoid the need to run the complex machinery associated with them, and have been replaced with an electrically powered diaphragm or compressed air horns. The example in the collection is significant as it was used in the early 19th century for sailing vessels was important but these portable crank fog horns have also been superseded by modern electric varieties. Therefore the item has a historical connection with sailing and maritime pursuits from our past.English Rotary Norwegian Pattern nautical foghorn within a boxed pine varnished case with exposed corner dovetailing, original leather carrying strap, brass side crank, and original copper trumped horn. Card accessory with Directions for Use in both English and French.Noneflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, foghorn, maritime technology, maritime communication, marine warning signal, portable foghorn, bellows foghorn, crank handle, robert hope-jones, john northey