The Stainsby Braillewriter was utilised by Braille tutors and volunteers as well the blind and visually impaired. Stored in a brown cardboard lockable case and this complete kit consists of a metal Braille writing machine; a long slim rectangular device with carriage and six silver keys and a bell, a metal board to attach Braille writer, a metal hinged Braille paper clamp and an instructional booklet. Henry Stainsby (1859-1925), Supt. of the Birmingham Royal Institution for the Blind, (later General Secretary of the British & Foreign Blind Association) along with Birmingham manufacturer Albert Wayne, introduced their portable brailler writer around 1903. An "improved" version, featuring aluminum parts and a paper clamp allowing accurate interpointing or interlining, was announced in "Outlook for the Blind" as early as 1927 and available generally by 1933 in the RNIB catalog. By 1978, RNIB sold the Improved Stainsby in a number of formats, including a large version available with interlining and inter-pointing board, and a small version with a folding board. Both large and small models came in ordinary and reverse keyed versions. Silver Brailler, rectangular with six silver keys and a bell, with paper board and clip, in cardboard suitcaseM8839 M88 (Brailler) M 8839 (Board) On the outside of the suitcase an address label reads "Braille Library, 31-51 Commercial Road, South Yarra". braille equipment, assistive devices

A Plane Table consists of a smooth wooden table surface (with metal strengthening supports) mounted on a sturdy base. The base, a three-legged Tripod, is designed to support the table over a specific point on land. The connection between the tabletop and the adjustable Tripod legs permits the user to level the table precisely, using bubble levels in a horizontal plane regardless of the roughness of the terrain. The Plane Table is a surveying device used in surveying and mapping to provide a level surface on which to make drawings, charts or maps. An alidade, with or without a telescope located on the tabletop is used to sight features and draw angles to that feature. Using these lines to the same feature from different setup locations it is possible to locate that feature on the map. Plane Tabeling was widely used by the early members of the Australian Survey Corps and in both World Wars. It remains a simple and effective tool to teach the fundamentals of mapping and surveying. It was simple to use and was reasonably robust and portable. See also item 6489.2 for the Plane Table Alidade.A wooden Plane Table with alloy fittings to strengthen and support the table top. The table is fixed to a three-legged wooden Tripod with cast alloy fittings and metal pointed tips.royal australian survey corps, rasvy, fortuna, army survey regiment, army svy regt, asr, 4 fd svy sqn, school of military survey

This photograph was taken during one of a series of workshops that were hosted by the Wooragee Landcare Group in the year 2004. In line with the main goals and missions of the Wooragee Landcare Group, these workshops aimed to promote biodiversity and land protection in the local area. Many of these workshops focused on either the protection of the endangered tiger quoll (spotted-tailed quoll) or the handling of fox infestations. Though the specific date of this photograph is unknown, it can be confirmed that it was taken outside of Wooragee Hall. Pictured from left to right is: Andrew Murray, Jerry Alexander, Tony Prowse. In the photograph, Andrew Murray appears to be demonstrating a specific technique using two tube-shaped devices. Murray's status as one of Victoria's leading authorities in quolls suggests that this particular workshop was centred around tiger quolls (spotted-tailed quolls). The Tiger Quoll is the largest of the quoll species. Largely resembling a cross between a possum and a cat, the quoll is distinctive due to the white spots that are often found all over its brown fur.This photograph is significant as it provides evidence of a project undertaken by the Wooragee Landcare Group to educate members of the public on the tiger quoll in the early 2000s in an attempt to better understand and protect the species. The Wooragee Landcare Group has been instrumental in the co-ordination of programs relating to biodiversity protection in the local area, providing great assistance to landholders.Landscape coloured photograph printed on gloss paper.Reverse: WAN NAO1EONAON2. NNN+ 1 1981 / wooragee, wooragee hall, wooragee landcare, wooragee landcare group, quoll, spotted-tailed quoll, tiger quoll, andrew murray quolls, andy murray quolls, quoll species, endangered quoll, jerry alexander, jerry alexander ecologist, jerry alexander wildlife, tony prowse

This image taken in c.1900 shows a military parade marching along Camp Street in Beechworth heading towards the center of town, watched my onlookers lining the sidewalks. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniquesThis glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, military parade, military, australian military, 1900s, early 20th century

Melbourne Tramway & Omnibus Co. Bell Punch No. D406. A heavy nickel or chrome plated steel ticket or fare strip canceling / registering mechanism used on Melbourne cable trams. When a fare was sold, the bell would ring advising the passenger that their fare have registered. "An ingenious device resembling in principle the ticket punch of a railway porter. It is carried by the conductor who wears pinned to his coat a 'trip-slip'. He punches this once for every fare received; the action is simultaneously registered on a dial inside the punch and bell rings to appraise the passenger of the fact. The punch is provided with a patent lock, the secret of which is known only at headquarters and effective system of check is thus secured." (" A story of the Melbourne Cable Tramway System" - page 54). Used by the MT&O and MMTB until 1922/23 when replaced by the check ticket system. Manufactured by the Railway Register Manufacturing Company. Has "MT&O Co. ..." stamped on one side along with patent dates.Demonstrates the equipment used by the Melbourne Tramway & Omnibus Co. to register fares and provide an accounting method.Nickel or chrome plated steel ticket punch, used by the Melbourne Tramway and Omnibus Co. stamped "MT&OCo" and "D406", c1885.ticket punch, tramways, trams, bell punch, tickets, fares, cable trams, railway register manufacturing company

This lifebuoy is part of the lifesaving equipment from the sailing ship the Falls of Halladale. It is filled with cork and covered with canvas and reinforcing bands. The name of the ship and its origin is printed on the lifebuoy. It has been sealed with several coats of white paint. A lifebuoy, or life-preserver, is used as a buoyancy device to keep a person afloat in the. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. The lifebuoy is thrown to a person in distress in the water, allowing the rescuer to pull the person to safety. The lifebuoy is a made from a buoyant material such as cork or rubber and is usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. From the early 20th century Kapok fibre was used as a filling for buoys. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The Falls of Halladale 1886-1908 The vessel ‘Falls of Halladale’ was a four-masted iron-hulled barque, launched in July 1886, by Russell & Co of Greenock, Scotland and owned by the Glasgow Falls Line, which named its ships after Scottish waterfalls. The ship was built for long distance cargo trade. The Falls of Halladale was one of the last windjammers that sailed the Trade Route. The ship was on its way from New York to Melbourne via the Cape of Good Hope when, after 102 days at sea, its journey suddenly ended. During the night of November 14, 1908, in calm seas with some coastal fog, an ocean swell raised the vessel up then let it down on a submerged reef wrecked at Curdies Inlet, Peterborough. The ship was stranded and the Port Campbell Rocket Crew were sent for, to perform a rescue. However by the time they arrived, all on board had already travelled by lifeboat to the nearby beach at the Bay of Islands. The sight of the slowly disintegrating ship on the rocks attracted many sightseers. This lifebuoy is significant for its association with the famous ship the Falls of Halladale. It is significant for its association with lifesaving equipment used on board vessels in the early 20th century. The Falls of Halladale shipwreck is listed on the Victorian Heritage Register (No. S255). She was one of the last ships to sail the Trade Routes. She is one of the first vessels to have fore and aft lifting bridges. She is an example of the remains of an International Cargo Ship and also represents aspects of Victoria’s shipping industry. The wreck is protected as a Historic Shipwreck under the Commonwealth Historic Shipwrecks Act (1976).Lifebuoy; round white canvas ring, joined with hand stitching. Stencil with inscription is printed in black on first and third quadrant. The canvas has been repainted in white but avoiding the inscription in the lifebuoy. A hanging board for display is attached with white rope. Lifesaving equipment from the Falls of Halladale.“FALLS OF HALLADALE” “GLASGOW”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, life rings, lifebuoy, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, falls of halladale, glasgow falls line, rocket crew, lifeboat, peterborough

Used to communicate with ships from Point Hicks Lightstation. In Greek mythology, "Stentor" was a herald on the Greek side during the Trojan War. His name has given rise to the adjective "stentorian", meaning loud-voiced, for which he was famous. Homer said his "voice was as powerful as fifty voices of other men." He died after his defeat by Hermes in a shouting contest. See the Iliad, V. The large funnel-shaped device is nearly 750mm (30 inches) in length and is made of re coated cardboard that is riveted together. It has a metal mouth-piece at the narrow end and a metal edge at the wide end, and a metal handle. The maker’s information inside indicates that it is a ‘Stentor Megaphone’ patented on 4 April 1899 by a company in Boston. Stentor brand megaphones were manufactured by Merriman Brothers, a firm established in Boston in 1898 specializing in hardware for yachts. Merriman Bros. Manufacturers. 139 Border St. East Boston, Mass. Their equipment, which included pulley blocks, winches and fittings, was well-known worldwide before the company closed in about 1995. However, their ‘main business was not blocks and winches’…‘it was Merriman megaphones, including the familiar cheerleader megaphones’. They came in different sizes, one of which was employed by the United States Navy because of its scientifically proven horn angle of 22 degrees’. Their patent for the device, dated April 4, 1899, specified details such as the ‘rivets, metal mouthpiece, and adjacent parts’,and an undated pamphlet promoting the Stentor Megaphone emphasizes its ‘highly finished’ appearance ‘with nickel mouthpiece, rim and other fittings’. It also pronounces ‘the carrying power of a Megaphone is astonishing. Even under adverse conditions, it magnifies the power of the voice many times. For listening to distant sounds, it is also of great assistance’. Various sizes were designed for particular uses, and the pamphlet advises that the 30 inch no.2 model, which cost US $2.50, ‘makes it easy to talk half-a-mile and shout a mile’. An advertisement also stresses that it has ‘no iron parts’, making it ideal for marine situations.The Penobscot Marine Museum, Searsport, Maine, United States, has the same or similar model of megaphone in its collection, and the Flagstaff Hill Maritime Village Museum, Warrnambool, Victoria, has a galvanised metal ‘Acme Stentor’ megaphone. The Point Hicks Stentor Megaphone has first level contributory significance for its provenance and historic value, and also as a relatively rare item of equipment once used worldwide in marine situations, such as lightstations, as demonstrated by this example in a Victorian lightstation.One large funnel shaped megaphone made of coated cardboard riveted together. Has a metal handle and metal rims at each end. Dark reddish brown colour."No 2 / THE / STENTOR MEGAPHONE / PATENTED APRIL 4TH 1899 / .../ MAKERS / .OSTON. MASS"

A hat coat and umbrella stand is a device used to store hats and often coats on, and umbrellas within. Some catalogues in Europe marketed this furniture as a portmanteau from the French words Porter (carry) and Manteau (cloak). The front hall was the introduction to the house, and as such was an important part of the Victorian home. Furnishings were selected not only to make it a useful place to hang a hat and coat, store an umbrella and leave a calling card but also to show family wealth, social position and knowledge of current styles. A hall stand or a hat rack was the most important piece of furniture in homes at this time. New and more elaborate designs began to appear about 1840, as homes became larger and social visits became more structured. Usually made of wood and standing at least 1.5 meters tall, they have a single-pole making up most of the height, with a sturdy base to prevent toppling, and an array of lengthy pegs or hooks at the top for placement of hats. Smaller houses had smaller front halls, so a single-pole type as by the 1920s houses had become smaller. A household furniture item possibly from the 1920s that was common in houses from the early 1840s, it's significance is social, demonstrating how furniture trends change over time with the more elaborate the item the more social standing was attributed to the owners' position in society. even today persons association and ownership with inanimate objects tend to represent their social standing along with their financial and community acceptability. Coat rack with four curved legs, circular holder for umbrellas and walking sticks. Four metal hooks, screwed onto main column of stand. Condition: one curved leg broken. 2 hooks broken.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Founded in1903 when William E.Sessions and some of his family took over E.N.Welch Co. in Forestville. E.N.Welch Manufacturing Company used a local foundry to produce their castings. The foundry owner's son,William E.Sessions, took an interest in horology and ,along with other Sessions family members, bought controlling interest in the E.N.Welch Company., which was a joint stock corporation formed July 6th 1864 to succeed an older private firm who made clocks under the name of E.N.Welch. Elisha N. Welch (1809-1887),had been making clocks at a factory on East Main Street Forestville Conneticut after taking over J.C.Browns bankrupt business around 1856.Under William Sessions management the firm produced all components of their clocks including movements,cases,dials,artworks and castings.In 1930 the company expanded to produce electric clocks,timers for radios,televisions and other devices as well as their traditional brass mechanicial movements.In 1956 Sessions was absorbed by another company while retaining the name and in 1969 the business went into liquidation.Clock is made of black wood with Corinthian style columns,three set on each front corner. These are black metal, and show remains of gilt paint on top of columns.On the base of the clock is carved decoration with similar carvings on each of the four corners of square around clock face.Dial is cream with Roman numerals. the hands are set in gilt centre piece.Below the 12 is the name WELCH.The glass dial cover is edged in gilt. It is spring wound and has settings-day/night,1/2 hour strike(hour on gong -1/2 0n bell), Cathederal Gong, turn back hands. THE SESSIONS CLOCK COMPANY. Successors to the E.N.WELCH MANUFACTURING COMPANY.Forestville.Conneticut.United States of America.mantle clock, the sessions clock company, forestville conneticut united states of america

In 1893 Harry Crowther Slingsby founded the company the family firm was at first wholesale bottlers and had established themselves in Bradford, England, later they had a branch in London. Harry Crowther Slingsby began to look into the invention of labor-saving devices for the company. He had recognised that working practices in the local factories relied heavily on manual hauling and gravity for the movement of raw materials and products from floor to floor. However, this did not solve the problem of moving items horizontally around large buildings. Slingsby then set about creating robust trucks and trolleys to move heavy loads with relative ease. Different designs were created for different purposes sack trolleys for moving large sacks of flour, sugar and dried fruit around grocery stores; high wheeled flat carts towed by one or two people; trucks fitted with wicker baskets carried fibers around textile mills and railway platform trolley to move luggage. The company is still in existence today manufacturing many different types of products.An item from the early to mid 20th century connected with railway memorabilia and a company that had humble beginnings to become today a leading UK manufacture. Railway platform luggage trolley large metal frame & wood top with 4 black metal cast iron wheels & metal structure at front with holes to put rope/harness through. Front 2 wheels swivel. Trolley painted red. Wheels are marked Bradford & Londonflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

A separator is a centrifugal device that separates milk into cream and skimmed milk. Separation was commonly performed on farms in the past where farmers milked a few cows, usually by hand, and separated by letting milk sit in a container until the cream floated to the top when it could be skimmed off by hand. Some of the skimmed milk was consumed while the rest was used to feed calves and pigs. Enough cream was saved to make butter, and the excess was sold. Manual rotation of the separator handle turns a mechanism which causes the separator bowl to spin at thousands of revolutions per minute. When spun, the heavier milk is pulled outward against the walls of the separator and the cream, which is lighter, collects in the middle. The cream and milk then flow out of separate spouts. Montgomery Ward was founded by Aaron Montgomery Ward in 1872.as a mail-order business in Chicago, Illinois USA. Rural customers were attracted by the wide selection of items that were unavailable to them locally and were also inspired by the innovative company policy of "satisfaction guaranteed or your money back".This milk separator is typical of the type used by early settlers in Moorabbin Shire where every family owned a 'house cow' to supply their dairy needs. Households also kept a few chickens for eggs and developed a vegetable garden with additional fruit trees. A 'primrose' manual milk separator 'Montgomery Ward', Chicago USA c1900'primrose ' / SATTLEY / MONTGOMERY WARD/ CHICAGOearly settlers, dairy farmers, milk products, dairies, market gardeners, blacksmiths, tools, moorabbin shire, bentleigh, mckinnon, highett, cheltenham, moorabbin

The Minimax conical fire extinguishers were manufactured until 1960 and then removed from the company’s product range. The earliest model had been produced with a simple handle made of folded pressed metal that is similar if not the same as that on the Point Hicks extinguisher. Later handles were moulded and had more substance to the way they were cut and then folded to form a solid grip. The Point Hicks Minimax extinguisher is an early model that probably dates from the years when these devices were demonstrated across parts of Australia. While numerous examples of the extinguishers survive in public and private collections in northern hemisphere countries, few appear to exist in Australian museum collections. However, the auction house records confirm that some do survive in private collections. The Point Hicks extinguisher was found by lighthouse keepers in 1974 buried in the sand in a flattened but surprisingly intact condition. It was beaten back into its original shape but the body still retains various dents. In 2010, AMSA located the extinguisher at the National Trust’s Polly Woodside historic ship museum and it is now at the Point Hicks Lightstation. The Minimax conical extinguisher has first level contributory significance as a historic item of early fire-fighting equipment from the lightstation that dates from the early twentieth century.Conical shaped brass fire extinguisher painted red with small nozzle at one end and a pump section at the other end. There is a handle on one side with closely spaced rivets down one side. Brass plaque with instructions attached to the body. There ia a square hook to hang the object form a wall or similar." ...ANKS ... / QUENCH.../ FOR FIRE / DRIVE IN PLUNGER / AT BIG END / ...ON GROUND /..../..../..."

Taken in c.1900 this image shows Newtown Bridge in Beechworth. Newtown Bridge is constructed with granite from the surrounding area and is a great example of the masonry work used in the construction of the town. This bridge has been listed by the National Trust as a significant object to the transportation history of Australia. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniquesThis glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, newtown bridge, masonry, transport, bridge, granite

Set of four brass cast, chrome plated, machined, device or ticket punches used to cancel or punch paper tickets when purchased. Placed a shaped hole in the ticket. Spring loaded, consists of two main parts with a pin & spring from coiled wire and fitted with formed wire retaining hole fitted to one of the arms. Some of the chrome plating has been worn off. There are no manufacturer markings on the punches. See https://onlineriver.com/transit-punches/ accessed 6-11-2017 for details of the new equivalent punches. .1 - number G9 - punches a five cornered hole would have been used at the Glenhuntly Depot .2 - number K127 - punches a six cornered rounded hole - would have been used at Preston Depot .3 - number P108 - punches a rounded oblong hole - would have been used at Kew Depot. .4 - number 1096 - punches a small crossed hole.trams, tramways, ticket punch, tickets, fares, conductors, preston depot, kew depot, glenhuntly tram depot

The design of the corkscrew may have been derived from the gun worm, which was a device from at least the early 1630s, used by men to remove unspent charges from a musket's barrel in a similar fashion. The corkscrew is possibly an English invention, due to the tradition of beer and cider, and the 'Treatise on Cider' by John Worlidge in 1676 describes "binning of tightly corked cider bottles on their sides", although the earliest reference to a corkscrew is, "steel worm used for the drawing of Corks out of Bottles" from 1681. In 1795, the first corkscrew patent was granted to the Reverend Samuel Henshall, in England. The clergyman affixed a simple disc, now known as the Henshall Button, between the worm and the shank. The disc prevents the worm from going too deep into the cork, forces the cork to turn with the turning of the crosspiece, and thus breaks the adhesion between the cork and the neck of the bottle. The disc is designed and manufactured slightly concave on the underside, which compresses the top of the cork and helps keep it from breaking apart. The winged corkscrew, sometimes called a cork extractor, butterfly corkscrew, owl corkscrew, Indian corkscrew, or angel corkscrew, has two levers, one on either side of the worm. As the worm is twisted into the cork, the levers are raised. Pushing down the levers draws the cork from the bottle in one smooth motion. The most common design has a rack and pinion connecting the levers to the body. The head of the central shaft is frequently modified to form a bottle opener, or foil cutter, increasing the utility of the device. Corkscrews of this design are particularly popular in household use. In 1880, William Burton Baker was issued British Patent No. 2950 for his double lever corkscrew, with both levers sliding onto the upper end of the shank. The first American patent was in 1930 granted to the Italian Domenico Rosati who emigrated to Chicago, Illinois, to work as bartender before prohibition. Rosati's design had an exposed rack and pinion mechanism. Such design was adapted by other brands as the wine-market grew in popularity. The winged owl version, with two side-plates covering the rack and pinion mechanism, was first designed and manufactured in 1932 by the Spanish industrial designer David Olañeta for his brand BOJ and was later adopted by others, such as the 1936 US Patent No. 98,968 by Richard Smythe marked HOOTCH-OWL https://en.wikipedia.org/wiki/CorkscrewThis object is significant as an example of an item in common use in the 19th and early 20th centuries, and that was developed further in the 1930s.Winged corkscrew with a T-shaped wooden handle, metal spring and worm-wheel screw section.None.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, corkscrew, beverages, kitchen equipment, bottle opener

This image shows a view of a properties bordering a river in the vicinity of Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the water source pictured may feed into the bigger system that flows through Beechworth Gorge. A man wearing a hat, possibly the photographer, is silhouetted in the foreground of the picture. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, photographer, beechworth gorge, river, stream, water source, 1900s

This image shows a semi-aerial view of commercial and official properties lining Ford Street, Beechworth, in approximately 1900. The tower of Christ Church of St Peter and St Paul can be seen in the middle section of the photograph, on the left-hand side of the street. The Church was constructed in 1858 with the tower added to the structure in 1864. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and commercial and official infrastructure in the early Twentieth Century, around the time of Australia's Federation into one nation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, ford street, christ church of st peter and st paul, church tower, landmarks, 1900, shopping facilities, public buildings, 1900s, built environment, streetscape

A C-clamp or G- clamp is a type of clamp device typically used to hold a wood or metal work-piece, and often used in, but are not limited to, carpentry and welding. These clamps are called "C" clamps because of their C shaped frame, but are otherwise often called G-clamps or G-cramps because including the screw part they are shaped like an uppercase letter G. The fixed end is not adjustable so size is not variable. G-clamps are typically made of steel or cast iron, though smaller clamps may be made of pot metal. At the top of the "G" is usually a small flat edge. At the bottom is a threaded hole through which a large threaded screw protrudes. One end of this screw contains a flat edge of similar size to the one at the top of the frame, and the other end usually a small metal bar, perpendicular to the screw itself, which is used to gain leverage when tightening the clamp. When the clamp is completely closed, the flat end of the screw is in contact with the flat end on the frame When used some other object or objects will be contained between the top and bottom flat edges. A steel 'G' Clamp tools, g clamp, screws, steel, clamps, metalwork, woodwork, carpentry, early settlers, pioneers, market gardeners, moorabin, bentleigh, cheltenham

This slide depicts an image of elephants from a travelling circus being marched through Camp Street in Beechworth in the early 1900s. Travelling circuses began operation in Australia in the 1860s as a way of providing entertainment to towns across Australia. Many of these traveling circuses use to have exotic animals such as elephants as part of their performances. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with an oval image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, circus, travelling circus, elephants, circus elephants, exotic animals, 1900s, entertainment

This image shows 5 nurses of Mayday Hills Mental Asylum gathered on the porch and staircase of a building. Beechworth has a long history of nursing, beginning with the establishment 3 medical facilities in the mid-1800s, the Ovens District Hospital (opened in 1857), the Ovens Benevolent Asylum (opened in 1863), and the Mayday Hills Hospital (opened in 1867). Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniquesThis glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, nurses, nursing, mayday hill hospital

This slide depicts an image of elephants from a travelling circus being marched through Camp Street in Beechworth in the early 1900s. Travelling circuses began operation in Australia in the 1860s as a way of providing entertainment to towns across Australia. Many of these traveling circuses use to have exotic animals such as elephants as part of their performances. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, circus, travelling circus, elephants, circus elephants, exotic animals, 1900s, entertainment

Melbourne Tramway & Omnibus Co. Bell Punch No. D382. A heavy nickel plated steel ticket or fare strip cancelling / registering mechanism used on Melbourne cable trams. When a fare was sold, the bell would ring advising the passenger that their fare have registered. "An ingenious device resembling in principle the ticket punch of a railway porter. It is carried by the conductor who wears pinned to his coat a 'trip-slip'. He punches this once for every fare received; the action is simultaneously registered on a dial inside the punch and bell rings to appraise the passenger of the fact. The punch is provided with a patent lock, the secret of which is known only at headquarters and effective system of check is thus secured." (" A story of the Melbourne Cable Tramway System" - page 54). Used by the MT&O and MMTB until 1922/23 when replaced by the check ticket system. Manufactured by the Railway Register Manufacturing Company. Lock code IDMA. Has "MT&O Co. ..." stamped on one side along with patent dates.Has "D 382" punched above ticket entry slot (both sides), "335" on handle, "MT&O Co." stamped on numbering registering face.trams, tramways, ticket punch, bell punch, tickets, fares, cable trams

The Micro-Professor I Plus (MPF-IP) was a low cost, versatile microcomputer system featuring sophisticated software and hardware capabilities. (MPF-IP) boasted a display panel with the ability to display 20 characters using 16-segment fonts. All 64 standard ASCII characters could be displayed. The operation of the MPF-IP was controlled by an 8k monitor program which resides in the Read Only Memory (ROM). The monitor, aided by 4k Random Access Memory (RAM), enabled the user to enter a comprehensive set of single keystroke commands, making it easier for the user to use the CPU, memory and I/0 devices. This allowed the user to concentrate of microprocessor software development and application design. The system allowed printing at 48 lines per minute, and the ability to permanently record the commands, data, programs, status and other messaged. Each character printed by the printer is in a 5 by 7 dot matrix. Although the prime purpose of the programming was for machine language object code formed as hexadecimal numbers, the Micro-Professor has an embedded Tiny Basic interpreter for which formation of some of the alpha characters using a standard 7 segment display was ingenious. The program memory consisted of non volatile 2 kilobytes electrically programmable ROM whilst the Random Access Memory came with 2 kilobytes of static RAM but could be upgraded to 4 kilobytes by insertion of another chip. The entire memory space of 64 kilobytes was accessible by way of the terminals on the left hand side of the board. Engineering and Science students from the Ballarat School of Mines and the Ballarat College of Advanced Education used a class set (as they were relatively inexpensive at approx. $100 each) during the mid to late 1980s. Student were encouraged to borrow the Micro-Professors in order to assist in learning how to use them. Only one was ever not returned on time. When pressed to return the device the student confessed that his dog had chewed the plastic case. This is still in our collection complete with bite marks! The Micro-Professor used a Zilog Z80 microprocessor. This was the most powerful of the 8 bit microprocessors at the time. Zilog was derived from the Intel 8080 microprocessor. The Z80 had 158 instructions of which the Intel 78 instructions were a subset. The Intel processor continued on through development in the IBM computers as 8086, 80286, 80386, 80486 and later the pentiums. Zilog lost most of its market share when it developed the 16 bit Z8000 microprocessor. Although the microprocessor was excellent, the lack of peripherals caused users to abandon Zilog products. A brown and gold plastic box containing a microcomputer for use in classrooms. Four manuals are titled 'Micro-Professor MPF-IP user's Manual', 'MPF-I Experiment Manual (Software/Hardware)', Micro-professor MPF-IP experiment Manual (Software/Hardware)' and Micro-Professor MPF-I Monitor Program Source Listing.microcomputer, micro computer, micro professor, electronics

Lifebuoy is from the ketch Reginald M, built in Port Adelaide by John Murch in 1922. Lifebuoys were part of the emergency lifesaving equipment carried on vessels in the late 19th and early 20th century. The ring was made of strips of cork wood joined together to make the ring shape then covered in canvas and sealed usually with white paint. Four evenly spaced canvas reinforcing bands would be added for strength and for a place to thread a rope or line. A lifebuoy, or life-preserver, is used as a buoyancy device often thrown to an endangered or distressed person in the water to keep them afloat while they receive help. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. Lifebuoys is a made from a buoyant materials such as cork or foam and ae usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. Cork lifebuoys were used from the late 19th to early 20th century. Kapok fibre was then used as a filling for buoys but wasn’t entirely successful. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The Reginald M 1922- The two-masted coastal trading ketch Reginald M was built by John (Jack) Murch in Port Adelaide, South Australia, in 1922 and it was launched there in Largs Bay in the same year. It is thought that the keel was hewn from two telegraph poles - its owner was a regular visitor to salvage yards. Its cargo at times included Guano, Barley, Wool, Horses, Cattle, Timber, Explosives, Potatoes, Shell Grit and Gypsum. At one time the vessel was used as a customs boat, renamed 'HMC No. 3, Pt Adelaide'. In 1969 she was used by a mining and railway company as a barge to carry explosives. In 1972 the vessel was renamed 'T.S. Macquarie' and planned to be used for sea cadet training.; this did not eventuate. It was sold again and went to Melbourne to be used for pleasure sailing, and again sold for use as a ferry. Late in 1975 Flagstaff Hill purchased the vessel to be used as an exhibit at the Maritime Village where many visitors enjoyed being able to board and explore a real ship with a long history. Sadly, in late 2016, the decision was made to 'decommission' the vessel due to the continuing high cost of maintenance and the risk to public safety. Many of the components of the vessel are held as part of Flagstaff Hill's collection.The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria. The lifebuoy is significant for its connection with the Australian built, 1922 coastal trader, Reginald M. Lifebuoy, round , cork, filled, white canvas cover with four red tabs. Text is printed in black on quarters 1 and 3. This lifebuoy once belonged to the vessel 'Reginald M' , Pt Adelaide. "REGINALD M / Pt ADELAIDE".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifebuoy, lifesaving, ship equipment, reginald m, life rings, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, coastal trader, john murch, reg webb

The Ferranti Sirius is an electronic second-generation transistor computer and is one of three remaining examples of this machine left in the world. It was an important addition to the computing facilities at Monash University in the early 1960s and provided access for computer programming and research for many early computer professionals, academics and teachers. The Ferranti Sirius computer was built in a period of rapid growth in computing technology. The first stored program computers appeared in the late 1940s and used individual designs with valve technology. By the mid-1950s valve technology was replaced by transistors and the first mass produced commercial computers became available. The Ferranti Sirius was announced in 1959 and offered a “small” academic computer. It was designed and built by the English company Ferranti Ltd and sold through a local office of the company in Melbourne. The Sirius was manufactured at the Ferranti Ltd.’s West Gorton, England factory from 1959 to 1963 and, in all, the company produced probably 22 installations although only 16 were actually recorded as sold; this included one at Ferranti’s Bureau in London and one at Ferranti’s Melbourne Bureau. Only 7 were exported and 4 of these 7 were located in Melbourne, Australia. All four were associated with computing at Monash University – the Sirius in the MMoCH collection was purchased by Monash University in 1962, a smaller Ferranti Sirius was used on the Caulfield campus (prior to amalgamation with Monash University) from 1963, the Ferranti company had its own Ferranti Sirius initially temporarily installed at Clayton campus in 1962 and then placed in their office in Queens Road, Melbourne. A fourth computer was purchased by ICIANZ (now Orica) in 1962 and was transferred to Clayton campus in 1967. Only two of these Melbourne examples have survived; one in the MMoCH collection and one at Museums Victoria. There is an example of the Ferranti Sirius in the Science Museum Group collection in the UK as well. The Ferranti Sirius in the MMoCH collection was the first computer purchased by Monash University and it was shipped to Australia to be installed by November 1962. The University had a similar model computer on loan from Ferranti Ltd during the first part of the year and it was returned to the office of the company in Queens Road, Melbourne once the University’s own machine was installed. The computer was placed on site at Clayton campus, Monash University. The computer operated from 1962 until 1972 when it was officially decommissioned. The Ferranti Sirius was sold to Mr Paul Stewart in late 1974 and removed from Monash University. Mr Stewart later donated the computer back to the University in 1988 and it was transferred to the collection of the Monash Museum of Computing History after 2001. The Ferranti Sirius is an electronic second-generation transistor computer and is one of three remaining examples of this machine left in the world. It was an important addition to the computing facilities at Monash University in the early 1960s and provided access for computer programming and research for many early computer professionals, academics and teachers. The Ferranti Sirius is of scientific (technological) significance as one of the early transistor digital computers that transitioned computing from first-generation valve computers to second generation commercial installations. This example of the Sirius is of historical significance in its role as a part of the Computer Centre, Clayton campus, Monash University which provided computing facilities in Melbourne in the early 1960s when there were few installations available for academic, administrative and commercial users. Staff and students were able to undertake investigative research and learn programming techniques. The Computer Centre encouraged the use of the computer across all disciplines and this provided the base to establish computer science as a subject offering and, later, a new department in the University. This growth in computer education eventually culminated in the establishment of the Faculty of Information Technology, Monash University. The Ferranti Sirius in the collection at Monash Museum of Computing History has a main unit with a CPU and memory combined with input/output equipment and one extra cabinet of memory. The Central Processing Unit is a floor-standing unit which contains the computer circuits, power supplies and has a decimal digit display panel and a normal clock. A moveable control panel is placed in front of the Unit (Currently set on a recreated desk/filing cabinet support in the display). The Sirius base unit uses acoustic delay line memory with 1000 word store. An additional 3000 word memory cabinet is set adjacent to the CPU and can be connected to increase the memory. The computer is supported by a range of input/output devices. There is a Ferranti Paper tape reader, located on desk in front of CPU. Red label on front “Ferranti tape reader. Type TR 5. Serial No. 477”. Adjacent to the CPU is a set of Simplified tape editing equipment in three pieces which includes a (1) Table unit with switches on front face. Metal tag on reverse reads “Creed & Co. Model No. S4060. Serial No. 1457. Original Customers Marking GRP7 V706”. The table has a numbered internal tag “Table Serial No. 198579. (2)Creed teletype set on table unit. Metal tag on reverse “Creed & Co. Model No. 75RPR K4M4. Serial No. 5897 Made in England”. (3)Creed paper tape reader set on table unit. This set of equipment could read paper tape and print it, or copy paper tape while allowing it to be edited, or allow a programmer or data preparation person to type and punch a new program or data. It has no electrical connection to the computer. Paper tapes were usually torn off and carried across to the computer. There is also another table unit with switches on front face and changeable setting switch on front right side which holds a Ferranti Westrex paper tape punch set. Label on reverse “Teletype Code BRPE11” This was the Computer’s only output device. BRPE-11 is a teletype model number.

This image shows a semi-aerial view of a property along a river adjacent to Beechworth in approximately 1900. The photographer has capitalised words in the label, indicating that 'The Precipice' may have suggested a particular rather than a general vantage point to local people at the time. Although the exact location of the photograph is yet to be determined, Beechworth Gorge is popular today with hikers and nearby Mt Stanley is noted for its views. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.Obverse: Image from The Precipice. /burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, views, landscapes, farmsteads, rivers, beechworth gorge, mt stanley, emulsion, the precipice

a) Nagaoka Record Anti-Static & Disc Guard Kit The Nagaoka STAT-10 is a record protecting agent that serves both to protect your records from static and to significantly reduce record and stylus wear. By using this product you will improve the sound that you hear from your records, but will also protect your records. The unique charge reducing formula significantly reduces the amount of static electricity present on the surface of the vinyl recording. It also reduces the irritating noise produced by the scratches present on the surface of the vinyl recording. This record protecting agent also contains a special lubricant / protecting fluid agent.This lubricant / protecting fluid reduces record wear so that your recordings are as good as new. b) 'PAROSTATIK' Disc preener -: Use while rotating record slowly on Turntable. Press gently during one or two revolutions. Dust collected on plush surface should be removed before re-use. Device has "built-in" anti-static requiring occasional moisture replacement. Remove cap from centre tube withdraw and moisten wick (when dry) with clean water and replace Always return "Parostatik" to case when not in use. Vinyl records became very popular mid 20thC and cleaners were used to preserve the audio quality of the record surface.A box containing Vinyl record cleaning equipment manufactured by a) Nagaoka Pty Ltd Japan and b) 'Parostatik' C.E Watts Pty Ltd England a ) Box : NAGAOKA / A / trademark / NAGAOKA / AUTOMATIC RECORD CLEANER / ORIGINAL BEST PRODUCTS / NAGAOKA & CO LTD. MADE IN JAPAN / AUTOMATIC / RECORD CLEANER / AUTO 1 / NAGAOKA ORIGINAL BEST PRODUCTS b) Packet ; THE / "PAROSTATIK" PATENT .... REGD./ IMPROVED / DISC PREENER / FOR PERFECT RECORD MAINTENANCE Cylinder; Watts / "PAROSTATIK" / DISC PREENER / For perfect record maintenancerecord players, music, vinyl records, moorabbin, bentleigh, cheltenham, japan, nagaoka pty ltd ,, watts c. e. pty ltd, parostatik disc preener, england

This slide shows an image taken in c.1900 of the Beechworth Railway Station. The Beechworth Railway Station was officially opened on the 29 of September 1876, to allow for quicker and easier transportation of goods and supplies from Beechworth to Melbourne via Everton and Wangaratta. The railway station was heavily used for transportation running two trains a day and was a vital link to Melbourne from it's opening until it's closure in 1976. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniquesThis glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a circular image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, beechworth railway station, railway station, transport, railway history, railway

Large paper document including colour illustrations of Melbourne Harbor Trust shield and other shields. Includes three wax seals attached to document with blue ribbon."To All and Singular to whom these presents shall come, Sire Anthony Richard Wagner/ Knight Commander of the Royal Victorian Order Garter Principal King of Arms. Sir John Lunamace Heaton Arm/ Strong Knight, Member of the Royal Victorian Order. Clarenceux King of Arms an Aubrey John Toppin Esquire/ Commander of the Royal Victorian Order. Norroy and Ulster King of Arms Send Greeting! Whereas Victor/ George Swanson. Esquire upon whom has been conferred the Australian Efficiency Decoration Chairman of the Melbourne Harbor/ Trust Commissioners hath represented unto The Most Noble Bernard Marmaduke, Duke of Norfolk, Knight of the Most/ Noble Order of the Garter Knight Grand Cress of the Royal Victorian Order, Earl Marshal and Hereditary Marshal of/ England and one of Her Majesty's Most Honourable Privy Council that the Melbourne Harbor Trust Commissioners is a body/ corporate with perpetual succession and a Common Seal duly constituted by Act of Legislature of the Colony of Victoria number/ DLII bearing date Twenty second day of December 1876 the said Act having been amended from time to time and various Acts passed consolidating such amendments that under the said/ Act the exclusive management and control of the port and the preservation and improvement of the port generally as vested in the said Commissioners. That the Melbourne Harbour Trust/ Commissioners being desirous of having Armorial Bearings, Supporters and a Device or Badge duly assigned under lawful authority and he hath therefore requested the favour of His Grace's/ Warrant for Ouigranting and assigning such Armorial Ensigns and in the same Patent such Supporters and such Device or Badge as may be proper to be borne and used by the Melbourne/ Harbor Trust Commissioners on Seals otherwise accoding to the Laws of Arms. And forasmuch as the said Earl Marshal did by warrant under his hand and Seal bearing date the Sev-/ enth day of March 1962 authorize and direct Us to grant and assign such Armorial Ensigns and such Supporters and such Device or Badge Accordingly. Know ye therefore that we/ the said Garter Clarenceux and Norroy and Ulster in pursuance of His Grace's warrant and by virtue of the Letters of Patent of Our several offices to each of us respectively granted do/ by these Presents grant and assign unto the Melbourne Harbor Trust Commissioners the Arms following that is to say: Azure a representation of the constellation of the Southern Cross/ Argent on a Chief enarched on five Pallets of the first. And for the Crest Out of a Coronet composed of eight Masts each with sail set and upon Rim Or in front of a Bollard proper/ two Anchors in saltire Azure Mantled figure doubled Argent as the same are in the margin here of more plainly depicted. And by the Authority aforesaid We do/ further grant and assign the following Device or Badge that is to say: Two Anchors in saltire Argent as here depicted And by the Authority aforesaid the said Garter/ do by these Presents further grant and assign unto the Melbourne Harbor Trust Commissioners the Supporters following that is to say : On either side a Sea Horse/ (Hippocampus) or collared and lined Gules in front of a representation of the Melbourne Harbour front proper as the same are also in the margins here of more/ arms plainly depicted the whole to be borne and used forever hereafter by the Melbourne Harbour Trust Commissioners on seals otherwise according to the laws of/ Arms. In witness whereof we the said Garter Clarenceux and a Norroy and Ulster Kings of Arms have to these presents subscribed Our names and affixed the seals/ Of our Several offices this fith day of March in the Twelfth Year of the reign of our Soveriegn Lady Elizabeth the Second by the Grace of God of the United Kingdom of Great/ Britain and Northern Ireland and of Her other Realms and Territories Queen head of the Commonwealth Defender of the Faith and in the years of Our Lord One Thousand nine/ hundred and sixty three" "Prosperity Through Service"