This pessary came from Professor Geoff Bishop's rooms, Mollison House, 386 Albert Street, East Melbourne. As well as the UK, Portex had divisions in the USA and Canada. The pessary was originally regarded as an instrument and made from cork, ivory, hard rubber or gum-elastic. In later times, they were made from black vulcanite, flexible tin, soft copper wire covered with Indian rubber, and celluloid. The form of the pessary was and still is variable -either round, oval, or moulded in some cases combining three or four curves depending on the size of the pessary. In ancient time, medicated pessaries were made from emollient. astringent and aperient. Several of these are still used, but in more modem times are called vaginal suppositories. Anal suppositories are still used to suppress the pain of haemorrhoids.Portex brand ring pessary in original packaging. Consists of circular ring of cream vinyl, in sterile sealed pouch with transparent plastic at back. Stamped on pouch "PORTEX/MADE IN ENGLAND", and the text "USE BY JAN 77" and "CONTROL No 06 88". The ring is size 700/300/065 - 65mm. A sticker on the back of pouch gives instruction for cleaning the pessary. A red dot is also stuck to the back of the pouch.pessary, intrauterine device

The bodice is of a style from the Victorian Era and so provides a good example of women's clothing from that time. Although it appears to have been made at a later time the lace possibly came from an earlier time period. It is of historic interest as it was amongst the belongings of the donor's Great Aunts who were both dressmakers at the original Terang & District Co-Op which was established in 1908.The item is of significance socially as an example of women's clothing in the Victorian era.A short, waist-length bodice most likely made as a performance costume. It is representative of a Victorian bodice style though the lacing used indicates that it would not have been worn in those times due to its revealing design. Flexible metal stays provide shape to the bodice at the front and back. Sleeves are elbow length and lined with cream fabric. The bodice has a lace collar and the sleeves are trimmed with the same lace. Small gold coloured beads are stitched to the flower centres of the lace pattern. The burgundy coloured satin has an embossed floral pattern. The lace is of interest as it is from an older time period and being beaded would be especially sought after. Machine and hand stitched.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, satin bodice, beaded lace, victorian era, metal stays, terang & district co-op

This type of pessary was often used for uterine malpositions and displacements and usually made from vulcanite. This particular object is known as Hodges moulded pessary. [Source: George Tiemann & Co Surgical Instruments catalogue.1989. page 486.] The pessary was originally regarded as an instrument and made from cork, ivory, hard rubber or gum-elastic. In later times, they were made from black vulcanite, flexible tin, soft copper wire covered with Indian rubber, and celluloid. The form of the pessary was and still is variable -either round, oval, or moulded in some cases combining three or four curves depending on the size of the pessary. In ancient times, medicated pessaries were made from emollient. astringent and aperient. Several of these are still used, but in more modem times are called vaginal suppositories. Anal suppositories are still used to suppress the pain of haemorrhoids. Moulded black vulcanite pessary. Pessary is irregular in shape, and medium size. "I.T.A.Y." inscribed on upper curve.pessary, intrauterine device

This type of pessary was often used for uterine malpositions and displacements and usually made from vulcanite. This particular object is known as Hodges moulded pessary. [Source: George Tiemann & Co Surgical Instruments catalogue.1989. page 486.] The pessary was originally regarded as an instrument and made from cork, ivory, hard rubber or gum-elastic. In later times, they were made from black vulcanite, flexible tin, soft copper wire covered with Indian rubber, and celluloid. The form of the pessary was and still is variable -either round, oval, or moulded in some cases combining three or four curves depending on the size of the pessary. In ancient times, medicated pessaries were made from emollient. astringent and aperient. Several of these are still used, but in more modem times are called vaginal suppositories. Anal suppositories are still used to suppress the pain of haemorrhoids.Moulded black vulcanite pessary. Pessary is irregular in shape, and large size.pessary, intrauterine device

This type of pessary was often used for uterine malpositions and displacements and usually made from vulcanite. This particular object is known as Hodges moulded pessary. [Source: George Tiemann & Co Surgical Instruments catalogue.1989. page 486.] The pessary was originally regarded as an instrument and made from cork, ivory, hard rubber or gum-elastic. In later times, they were made from black vulcanite, flexible tin, soft copper wire covered with Indian rubber, and celluloid. The form of the pessary was and still is variable -either round, oval, or moulded in some cases combining three or four curves depending on the size of the pessary. In ancient times, medicated pessaries were made from emollient. astringent and aperient. Several of these are still used, but in more modem times are called vaginal suppositories. Anal suppositories are still used to suppress the pain of haemorrhoids.Moulded black vulcanite pessary. Pessary is irregular in shape.intrauterine device

An aneroid barometer is an instrument used for measuring air pressure as a method that does not involve liquid. Invented in 1844 by French scientist Lucien Vidi, the aneroid barometer uses a small, flexible metal box called an aneroid cell (capsule), which is made from an alloy of beryllium and copper. The evacuated capsule (or usually several capsules, stacked to add up their movements) is prevented from collapsing by a strong spring. Small changes in external air pressure cause the cell to expand or contract. This expansion and contraction drives mechanical levers such that the tiny movements of the capsule are amplified and displayed on the face of the aneroid barometer. Many models include a manually set needle which is used to mark the current measurement so a change can be seen. This type of barometer is common in homes and in recreational boats. It is also used in meteorology, mostly in barographs and as a pressure instrument in radiosondes.5 inch Aneroid barometer on wooden basebarometer, aneroid

Before metrication was introduced into Australia in the 1970s land was measured in chains and links. Many old parish plans show length measurements in chains and links. Area was shown in acres, roods and perches. Gunter's chain was used for measuring distance in surveying. It was designed and introduced in 1620 by English clergyman and mathematician Edmund Gunter (1581–1626). Gunter developed the measuring chain of 100 links. The chain and the link, became statutory measures in England and subsequently the British Empire. After metrication units of length were measured in meters and area in hectares. The chain was later superseded by steel ribbon tape.The 66 foot long brass Gunter's Chain is divided into 100 links (each 7.92 inches long), and marked off into groups of 10 by shaped tags which simplify intermediate measurement. It was heavy but flexible enough to be dragged through the bush on surveying transects.(Hence the common forestry term "chainman). The chain was a precision part of a surveyor's equipment. It required frequent calibration, yet needed to be sturdy enough to be dragged through rough terrain for years. It has brass hand grips at each end of chain. 1 chain = 100 links = 22 yards = 66 feet = 792 inches. 10 chains = furlong 80 chains = 1 mile 1 acre = 10 square chains = 4 roods (1/4 acre) = 40 perches.forest measurement, surveying, forests commission victoria (fcv)

A bobby pin (also known as a kirby grip or hair grip in the United Kingdom) is a type of hairpin, usually of metal or plastic, used in coiffure to hold hair in place. It is a small double-pronged hair pin or clip that slides into hair with the prongs open and then the flexible prongs close over the hair to hold it in place. They are typically plain and unobtrusively colored, but some are elaborately decorated or jeweled. Bobby pins became popular in the 1920s to hold the new bobbed hairstyles. (ref. Wikipedia). These items were owned by Marjorie Burton. Marjorie Burton ( nee Whiteman), born 12 June, in Birmingham, England came to Orbost in 1995. In England she did office work – typing, shorthand and secretarial work - in accountants’ offices and also trained as a comptometrist with Burroughs in London. She came from a middle-class, working, church-going family. Her mother was a milliner who mademost of Marjorie’s clothes, hats and outfits. Marjorie married in 1938 to a salesman who later became a mechanic in the R.A.F. during WW11 These items are examples of women's hair accessories commonly used in the mid 20th century.Two packets of hair clips and one unused packet of henna shampoo. 2483.51 is a a set of 17 bobby pins on paper. On the back of the card are directions for a Steiner hair style. 2483.52 is a pack of 3 Dinkie silver metal clips for hair styling on a card. 2483.53 is an unopened sachet of powdered Henna shampoo. It is white with black text and green pictures.2483.51 - Kirbigrip 6d made in England Kirby Beard & Co 2483.52 - Made in England 2483.53 - Societe Francaise de Henne, Paris "Perfect -a -wave"hair-accessories bobby-pins shampoo kirbigrips burton-marjorie

Sunbeam produced a wide range of hair dryers in a variety of sizes and shapes throughout the 1960s. Lady Sunbeam was promoted as providing unequalled efficiency as well as extra convenience and comfort. Whilst you dried your hair, you were able to sit and relax, read a book, write letters, knit or apply your nail enamel. The added convenient shoulder strap enabled you to complete other small household chores such as ironing - as long as they could be carried out within the distance of the power cord. Sunbeam History The Sunbeam Corporation began in Australia in 1902 as a small branch of the American group, Chicago Flexible Shaft Company.In 1946, this company changed its name to Sunbeam Corporation and developed the slogan "Best Electric Appliances Made". The company became publicly traded in 1952 and came into Australian ownership in 1987. In 1948 the company launched the Sunbeam Mixmaster®, the first small electrical appliance to be manufactured in Australia. In 2020, the company changed its name to Newell Australia.This item is representative of a range of domestic appliances used across Australia in the 1960s to make home life simpler and more convenient.Hair dryer in portable round plastic hinged case with motor fitted within the base. Plastic wire coiled hose is attached to the motor. A plastic hood edged with elastic and lace adjustment is fitted to the end of the hose. The hood has a pattern of gold embossed flowers. The motor has settings off, cool, warm, med, hot. An electric cord and plug are attached to the motor. The lid closes with a sprung knob and has a plastic carry handle. The "Lady Sunbeam" Logo is embossed on the lid.On lid: Lady Sunbeam / HAIR DRYER Underneath unit: MODEL AHD-7 220-250V 50CYC 300W.AC. ONLY/ PATENT PENDING RD.NO.42.338 MADE IN AUSTRALIA / Sunbeam CORPORATION LIMITEDsunbeam australia, domestic appliances, hair dryers

The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental hand-piece that would be fitted with a dental tool. The drill has a three footed cast iron base, one foot being longer than the other two. A vertical C shaped frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from telescoping pipes, joins into the top of this frame and is height adjusted by a hand tightened screw with a round knob. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up and down. At the end of the arm is a firmly fixed, flexible rubber hose protected for a short distance by a sheath of thin metal. At the end of the hose there is a fitting where the drill’s hand-piece would be attached; a small, silver coloured alligator clip is also at the end. A treadle, or foot pedal, is hinged to the heel to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. There is a spring under the toe of the treadle. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle is bulbous between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The two shorter feet of the base are made from a long metal bar that has been curved outwards, and its centre is bolted to the base of the pole. Under the ends of the curved legs of the base are wedge shaped feet. The driving-wheel is decorated in light coloured paint on both sides, each side having three sets of floral decals evenly spaced around them, and each about a sixth of the wheel's circumference. Similar decoration is along the sides of the frame. The foot pedal has decorative cutout patterns in the centre of the foot and at the toe. On the long foot of the stand is some lettering with a fine, light coloured border around it. The lettering is hard to read, being a dark colour and flaking off. There are also remnants of fine, light coloured flourishes. The foot pedal has lettering of the maker’s trade mark cast into the metal at the ball of the foot. Lettering on the base is peeling and difficult to read. The foot pedal has a trade mark cast into it that looks like a combination of ‘C’ , ‘S’ , ‘A’, ‘R’. flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison

Glasses, also known as eyeglasses or spectacles, are frames bearing lenses worn in front of the eyes. They are normally used for vision correction or eye protection. Pince-nez is a French style of spectacles, popular in the 19th century, that are supported without earpieces, by pinching the bridge of the nose. The name comes from French pincer, "to pinch", and nez, "nose". Although pince-nez were used in Europe in the 15th, 16th, and 17th centuries, modern ones appeared in the 1840s and reached their peak popularity around 1880 to 1900 A solid bridge piece is moulded to fit the curvature of the bridge of the nose. They are anchored onto the bridge of the nose via two small spring-loaded clips terminating in special nose-pads made from bone or tortoise shell on metal called plaquettes, which are tweezered apart for placement on the face through applying pressure to two small lever-like finger-pieces located on the front of the bridge. Plaquettes could be either hinged and flexible, permitting a better fit, or static as in the older examples of this type.. They were popular from the 1890s through to the 1950s, One half of a pair of lady’s Pince-nez eyeglasses with 1 gold rimmed glass lens , a gold style bridge and a fine gold chain that is attached to the side of the lens frame and to a shaped over- ear metal piece. eyes, spectacles, eye glasses, optometry, moorabbin, bentleigh, cheltenham, market gardeners, pioneers, early settlers, pince-nez

In 1967 the site for the Mt Helen Campus was selected and purchased to permit the tertiary division of the Ballarat School of Mines - the Ballarat Institute of Advanced Education (BIAE) to move from the crowded Lydiard Street site, to occupy new accommodation designed for the purpose. The brief given to the campus master planners called for the creation of a modern, attractive, efficient and stimulating concept. It called for careful landscaping and enhancement of the environment, but above all it demanded flexibility for an unpredictable future. During 1974 major new directions were made at Government level quite beyond the scale of change that had been foreseen in 1967. This change was to be that of merging BIAE and the State College of Victoria at Ballarat (formerly Ballarat Teachers' College) into one large new college of broadened scope. By the end of 1974 joint committees representing the still separate, autonomous Councils of the two institutions had agreed on the means of achieving the merger to the extent that a new brief as prepared and given to G.J. Harrison, one of the original master planners who had been chosen to revise the plan to meet the new needs. Yellow soft covered book of 63 pages reviewing the Development Plan for Mount Helen Campusuniversity of ballarat, ballarat institute of advanced education, mount helen, master plan, ballarat college of advanced education, mb john, ian gordon, pdf, development plan, mount helen campus, g.j. harrison, state college of victoria ballarat, m.b. john, canadian valley, aquinas college, site survey, land use zones, landscaping, campus plan, mt helen campus

Diamond Creek Bini Shell Community venue Built in 1979 in Diamond Creek opposite the hotel using a construction method invented by Dante Bini. A net of flexible steel rods were laid on the building’s circular base, on the top of a fabric bladder. Concrete was poured onto the mesh and a sealed cover laid over the concrete making a sandwich of cover, bladder and mesh. Compressed air was pumped into the bladder and the sandwich slowly began to rise and become a massive self-supporting dome. The inflation of the dome attracted crowds of onlookers many from various technical schools, VIPs and the famous football doctor, Donald Cordner. An opening night dinner was held to celebrate the construction and the Diamond Creek Bini Shell was used as a community venue for over ten years including for the Town Fair. The Shell was closed for safety reasons after a Bini Shell in another State had chunks of concrete fall off the dome due to a construction fault. At the Diamond Creek Town Fair in 1991 the demolition of the Bini Shell was an item on the Town Fair’s program. Information: Kevin Patterson, Nillumbik Historical Societybini shell, diamond creek community centre, nu-color-vue, postcard

In 1983, the National Trust advised the Shire of Eltham that it was investigating a number of trees within the shire which had been nominated for recording the Register of Significant Trees of Victoria. The trees involved were described in the Shire of Eltham Historical Society Newsletter No. 29, March 1983 as follows:- 1. Eucalyptus melliadora (Yellow box) . a) An outstanding mature specimen 42 metres high in Laughing Waters Road, Eltham. b) Another mature specimen in Arthurs Creek road, Hurstbridge is reported to be the tree under which the bushranger Robert Bourke was tied after he shot and killed Henry Hurst in 1866 . 2. Quercus robur (English Oak). a) "Donaldson's Oak", Donaldsons Road, Kangaroo Ground was planted by John Donaldson from seed collected from Windsor Great Park in 1878. b) "Wippells Oak". This now misshapen tree is located on the St. Andrews Road near the Kangaroo Ground Fire Station. Its origins may have been similar to Donaldson's Oak, and as a young tree it apparently slipped from higher up the hill during wet weather. Both oaks are of local historical importance. 3. Eucalyptus globulus (Blue Gum). A large mature specimen at the corner of the Kangaroo Ground-St. Andrews Road and Bakehouse Road, Panton Hill. 4. Plantanas acerifolia (Plane tree) A number of trees forming the Avenue of Honour to Eltham's First World War soldiers along Main Road between Dalton and Pitt Streets, Eltham. 5. Pinus canariensis (Canary Island Pine), Pinus pinea, (Stone pine) and Cedras altlantica, (Cedar) These trees are located at the Hurst family graves in the grounds of the Hurstbridge Pre-school Centre. In 1991 the Shire of Eltham introduced controls into its planning scheme to protect sites of architectural, historic or conservation interest and significant trees. The controls were approved by the Minister for Planning and Housing. As advised in the Shire of Eltham Historical Society Newsletter No. 78, May 1991, a planning permit is required to demolish or alter any listed building or to destroy, lop or remove any listed tree. Provision is made for comments to be obtained from the National Trust or Historic Buildings Council in considering any applications. The buildings and trees listed were: Buildings: 250 Bolton Street Eltham (former Walter Withers home) "Rosehill" - Bonds Road Lower Plenty St Andrews Church of England - St Andrews "Montsalvat" - Hillcrest Avenue Eltham St Margarets Church and former vicarage - Pitt Street Eltham Presbyterian Church - Kangaroo Ground Parks and Environment Office (former police quarters) Main Road Eltham Former Court House - Main Road Eltham "Shillinglaw Cottage" - Main Road Eltham "The Robins" - Kangaroo Ground Road Warrandyte Trees: "Donaldsons Oak" - Donaldsons Road Kangaroo Ground Yellow Box - Laughing Waters Road Eltham Yellow Box - Arthurs Creek Road Hurstbridge Wippells Oak - St Andrews Road Kanqaroo Road Pines and Cedar - Hurst family cemetery Greysharps Road Hurstbridge Yellow Box - Parsons Road Eltham A large Blue Gum at Panton Hill has been listed but has recently died (1991). In 1993 work by Council Parks and Environment staff and volunteers resulted in the preparation of a Significant Tree Register listing forty-one trees or groups of trees. According to Shire of Eltham Historical Society Newsletter No. 91, March 1993, a similar number remained to be assessed for inclusion in the register. There is a wide range of indigenous and planted trees on private and public land and extending through the Shire of Eltham from Lower Plenty to Kinglake. Most can be viewed from publicly accessible locations. The Significant Tree Register lists 41 trees or groups of trees throughout the Shire. It contains a wide range of naturally occurring and planted trees. They have been assessed according to eleven criteria including size, age, rarity, historical value and the like. The list includes large old Red Gums at Lower Plenty, historic Oaks at Kangaroo Ground and Mountain Ash at Kinglake. The register includes a set of slides showing each tree. Garry Bartlett of the Council's Parks and Environment Section and Faye Shepherd were extensively involved in establishment of the register (Newsletter No. 93, November 1993). In 1999 Niliumbik planners prepared an amendment to the Planning Scheme to provide protection for approximately 200 of the places listed in the heritage studies and also in the Significant Tree Register commenced by the Eltham Council (Eltham District Historical Society Newsletter No. 127, July 1999. In 2004, The Register of Significant Trees was presented to the Eltham District Historical Society by Nillumbik Shire Council as part of a wider collection of of its memorabilia of the former Eltham Shire Council (EDHS Newsletter No. 159, July 2004. Album of loose handmade paper sheets contained within a handmade slip cover constructed of handcrafted card with encapsulated flora material (flowers, vines, ferns) and tinted. Each page also contains an embedded/adhered fern leaf also tinted with lacqueur or similar, text as appropriate in ink by hand calligraphy. Each page also has a white protective sheet cut to size and adhered to back surface with sticky tape and folded over face of page. Pages variously have photographs and coloured masks adhered with a gum resin. Over time much of this resin has let go and photos/masks have been reattached using acid free archival safe adhesive. 15 pages 41 x 29 cm inclusive of 3 blank pages. Slip case 42 x 30 x 1 cm; face cover of slip case has broken off at left hand margin as insufficient depth/flexibility for contents.arthurs creek road, blue gum (eucalyptus globulus), canary island pine (pinus canariensis), couties road, donaldsons oak, donaldsons road, eltham, english oak (quercus robur), eucalyptus melliodora, graysharps road, hurst tree, hurstbridge, ironbark (eucalyptus tricarpa), ironbark hill, kangaroo ground, kangaroo ground-kinglake road, laughing waters road, panton hill hotel, panton hill, parsons road, significant trees register, sonia van bodegraven, sonjart, stone pine (pinus pinea). atlantic cedar (cedrus atlantica), wippells oak, yellow box gum (eucalyptus melliodora), yellow box gum

Folder (originally light green, front cover faded to fawn, with the "DUWAG" company logo embossed on the top right and the name "WaggonFabrik Uerdingen AG Werk Dusseldorf" printed on the bottom edge. Folder has a flexible clip that holds the sheets into position. Contains a cover level from Duwag to Mr. Richardson of Commonwealth Engineering, Dandenong, dated 26.10.1977 providing promotion documentation for DUWAG vehicles, photos of light rail vehicles, bogies and data sheets for LRV's. Contains data and information and photos of" 1. Duwag Mono motor bogies 2. Hanover LRV and bogie 3. Frankfurt LRV and bogie 4. Dusseldorf LRV and bogie 5. Cologne LRV and bogie 6. Mulheim 8 axle LRV and bogie Data sheets for: 1. Cologne LRV 2. Hanover LRV 3. Mannheim / Duisburg LRV 4. Edmonton LRV 5. Frankfurt LRV x 2 types 6. Rheinbahn Dusseldorf 7. Stadtbahn Type Mtrams, tramways, duwag, germany, lrv, commonwealth engineering

Work began on the Library construction in 1968. This was when it was known as Ballarat College of Advanced Education - Mount Helen. The Library started on the ground floor in 1970. In 1971 a contract for a four-storey library was drawn up and construction began the same year. The building opened in 1973, occupying two stories of the current building. The library grew and with Commonwealth Grants was able to develop its collection. In 1987 the library achieved an annual budget of over $1 million. The Teachers Resource Collection was added and by 1989 the library expected to occupy the top three floors plus the lower ground floor. A flexible study area on the top floor was introduced 1990-1991. 2010 saw the completion of a new stage in the history of the library. It now includes new study and research areas including the Geoffrey Blainey Research Centre with access to the University's Art and Historical Collection. The E. J. Barker Library is named after a former Principal of the School of Mines Ballarat who then became the first Director of the Ballarat College of Advanced Education, now Federation University. Jack Barker played an active part in education and was awarded the Medal of the Order of Australia. After retirement in 1987, the College Council decided to name the Library after him in recognition of his achievements.Colour photograph of the ground floor of the E.J. Barker Library showing the front desk and automatic book check out. e.j. barker library

Work began on the Library construction in 1968. This was when it was known as Ballarat College of Advanced Education - Mount Helen. The Library started on the ground floor in 1970. In 1971 a contract for a four-storey library was drawn up and construction began the same year. The building opened in 1973, occupying two stories of the current building. The library grew and with Commonwealth Grants was able to develop its collection. In 1987 the library achieved an annual budget of over $1 million. The Teachers Resource Collection was added and by 1989 the library expected to occupy the top three floors plus the lower ground floor. A flexible study area on the top floor was introduced 1990-1991. 2010 saw the completion of a new stage in the history of the library. It now includes new study and research areas including the Geoffrey Blainey Research Centre with access to the University's Art and Historical Collection. The E. J. Barker Library is named after a former Principal of the School of Mines Ballarat who then became the first Director of the Ballarat College of Advanced Education, now Federation University. Jack Barker played an active part in education and was awarded the Medal of the Order of Australia. After retirement in 1987, the College Council decided to name the Library after him in recognition of his achievements.Colour photograph showing the entrance to the E. J. Barker Library at the Mount Helen Campus of Federation University - Ballarat. Lawn, trees and gardens provide a pleasant area for students and staff. Building design allows for large windows giving light into the various areas.ballarat college of advanced education, e.j. barker library, teachers resource collection, study area, geoffrey blainey research centre, art collection, historical collection, jack barker, medal of the order of australia

The Display Board of Konts was handmade in Kings Lynn, Devon, England, by Tom Long DSM, who is a member of the International Guild of Knot Tyers. This display board shows the knots and joins used in ropework performed by a sailmaker and other skilled ropeworkers. It demonstrates the uses of some of the knots, such as for knobs and handles, suspending lengths of wood, reinforcing spliced rope and even for decorative work. The sailmakers travelling as part of the ship’s crew stored their tool kit in a canvas ditty bag. It contained needles, awls, a sailmaker’s leather palmed glove with a heavily reinforced palm - a shuttle to mend and make nets, fids, knives, mallets, brushes, rulers, and rope gauges. Sailmakers used their ropework and knot-making skills for various purposes and chose the type of rope fibre for its particular properties. For example, Italian hemp rope was preferred for the light line used in shore-to-ship rescues because it was lightweight, not easily knotted, and absorbed less water. A supply of various types of rope was a commodity on board a ship and on land in the new colonies. It was flexible, easily stored, and could be worked to create an endless variety of objects on its own or with other materials like wood. An example is a simple rope ladder. Lengths could be combined to make various thicknesses and pieces could be skilfully joined together by splicing. The importance of knots in seafaring cannot be overestimated. When ships relied on only the wind for power and speed, there were a huge number of various ropes in use, particularly with regard to the sails and rigging. Seafarers would be judged on their ability to tie knots speedily and correctly. A mounted display of authentic seaman's knots is on a board covered in blue fabric. Various rope grades and fibres were used to work numerous knots and splices. Some of the uses are familiar, such as the toggle, the pineapple knot, and the Turk’s head. A selection of rope grades and fibres were used to work numerous knots and splices. Some of the uses are familiar, such as the toggle, the pineapple knot, and the Turk’s head. The name or purpose of the knot is on the label below it. Labels below each knot give its name or use.flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, knot display, knot making, ropework, marine technology, sailmaker's work, sailor's knots, ship's rigging, seamen's knots, handmade, rope craft, knots, splices

Multiload is an IUD, an intrauterine device used for contraception. The plastic used in this IUD is a mixture of high density polyethylene, ethylene vinyl acetate copolymer and barium sulphate in a weight ratio 44/36/20. (MIMS, October 2013)This is one of a collection of items received from the practice of Dr Lachlan Hardy-Wilson, FRCOG, Launceston, Tasmania.Two flat boxes containing Multiload CU250 intrauterine devices. Front of each box carries an image of a hand holding an IUD inserter, with the Multiload IUD at the top of the inserter, above a blue background on which an image of a vagina has been superimposed. Text printed on the front of the box reads 'MULTILOAD/CU250/intra-uterine/device/Attention:/the enclosed instructions should be followed carefully before insertion of the MULTILOAD-cu250'. Manufacturer's information is printed on the bottom section of the front of the box. Back of each box is printed with distributor information. One box is sealed, and one box is unsealed. Unsealed box contains one IUD, sealed inside a sterile plastic pocket. Back of sterile pocket is printed with an expiration date of 06-12-1984. The IUD is in the form of a small plastic rod, or stem, with two small flexible side-arms. Each side arm has five small protrusions. A copper wire is wound around the stem. A nylon thread with two ends is attached to the bottom end of the stem. Back of sealed box carries a sticker which reads 'Date of manufacture: /12-08-1984'.intrauterine device

A razor strop (or razor strap) is a flexible strip of leather or canvas used to straighten and polish the blade of a straight razor, a knife, or a woodworking tool like a chisel. Unlike honing or sharpening a blade, in which a whetstone removes metal bent out of alignment from the blade's edge, stropping the blade re-aligns the indentations without removing any material. The strop may be a hanging strop or a hand-held paddle. Various abrasive compounds may be applied to the strop to aid in polishing the blade while stropping to obtain a mirror-like finish. The properties of the compound applied will alter the polishing result. Jeweller's rouge is a very fine abrasive compound. The green Chromium(III) oxide compound is most often used as an abrasive compound. Sprays containing diamond particles are another option. Stropping is primarily done with straight razors, used for shaving, as these are the thinnest blades in everyday use, and require stropping at each use, due to the thinness of the blade Two points are key to stropping: Draw the blade spine-first along the strop. By contrast, honing is done edge-first. When you turn the blade at the end of a stroke, turn it over the spine, so the edge moves away from the strop and faces you, and the spine rests on the strop. This preserves the edge – if the blade is turned over with the edge against the strop, this will roll the blade edge, defeating the purpose of stropping As the use of safety razors increased in popularity this 'Jason' strop prolonged the life of each razor blade thus making them economical.A leather 'Jason' strop, for sharpening safety shaving razor blades, with box. Top of Box: J / The JASON / STROP/ Reg. Trade Mark / for SAFETY RAZOR BLADES / Reg. Patent No. 25435/35 ; Back : How to operate the JASON STROP ( instructions) Side: JASON / Razor Strop Dressing / A keen smooth blade will always be assured by the / occasional use of JASON RAZOR STROP DRESSING/ Side: FIFTY SHAVES WITH ONE BLADE ! / by using - JASON and JASON / Razor Blade Strop Razor Blade Dressing. End: JASON / Made by MEIK BROS. Pty. Ltd. / 15-17 Bedford St., Collingwood, and / 287 Flinders Lane, Melbourne, Vic. End: JASON / SAFETY RAZOR BLADE STROP.safety razors, the jason strop, shaving equipment, personal effects, strops, meik bros pty ltd, gillette, collingwood melbourne

The auto tow launching mechanism was designed by Ray Jamieson of Cobram in the north of Victoria. The prototype was built the for the Corowa Gliding Club where it was used for some years. After Ray’s brother, Bert Jamieson, had witnessed the machine in use at Corowa, at Bert’s request, Ray built second one (the Museum’s exhibit) for use at Bacchus Marsh airfield. Bert lived in Melbourne at the time and was a member of the Victorian Motorless Flight Group (VMFG) which used Bacchus Marsh airfield. This occurred in the 1970s. The method of operation was to have the auto tow mechanism mounted in the back of a utility motor vehicle. The launching cable was attached to the glider. With the Volkswagen engine of the mechanism running, the tow vehicle would then drive along the runway to commence the launch. The mechanism would automatically apply brake pressure to the cable drum as the vehicle proceeded freely letting out the cable and then smoothly towing the glider into the air. When the launching cable reached a certain angle, the pilot would release the cable from the glider at which point the winching mechanism would automatically retrieve the cable in preparation for the next launch. This allowed quicker restarts and the flexibility of easily changing runways to suit the wind conditions. It made gliding a simple and cost-effective operation. Ray Jamieson and his son often used the prototype which they named “George” at Corowa in this way. With the exception of several demonstration launches, the Museum’s example of this type of device was not used by the VMFG at Bacchus Marsh due to rulings by the Department of Civil Aviation encouraging the use of aero tow launching at their site. As far as is known this is the only device of its type in the world and is indicative of the ingenuity found amongst the Australian gliding fraternity.Single drum and motorized drive mechanism mounted on a mobile steel frame.australian gliding, glider, sailplane, auto towing, launching, jamieson, corowa gliding club, victorian motorless flight group, vmfg

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. The stimulus for this project to investigate health and safety in art teaching and to suggest cost effective control measures, arose from concerns that had been expressed by some members of staff within the Arts Faculty at the Ballarat College of Advanced Education about aspects of health and safety at their workplace. As a non-artist it is hard to attempt to describe the artists' perspective of their working environment. Within the artistic community there is a great concern for individuality and this is expressed in the artists' work. The need for flexibility and spontaneity is a vital and intuitive part of the artistic environment. Consequently codes and standards of practice that would restrict this environment ethic are unlikely to be viewed favourably by artists. Comments made by Bob Hall; Project Officer BCAESixty pages stapled together. Type written with illustrations relevant to safety issues. Front has clear perspex sheetviosh, victorian institute of occupational safety and health, bob hall, project officer, commission, ballarat college of advanced eucation, health and safety in the arts, control measures, codes and standards of practice, chemical environment, protective equipment, management of environment, noise, machines, temperature control

A razor strop is flexible strip of leather or canvas used to maintain a shaving edge on a thin blade such as a straight razor. Fine powdered jeweler's rouge or other pastes can be added as an abrasive to polish the blade. The strop may be a hanging strip or a hand-held paddle. This one is a hanging strop. Strops were quite commonly found in barber shops and homes before the invention of the safety razor, They are still used for sharpening tool blades. The person using the strop would draw the spine of the blade down along the strop with the blade following, without putting any pressure on the blade. At the end of the stroke, rotate the blade over its spine then draw the spine along the strop again so that the edge moves away from the top. The finer grade of leather strap is used to give the final finish. KEEN EDGE MANUFACTURER In March 1906 Popular Mechanics magazine included an advertisement for Keen Edge Strop. The promise given by the advertiser, Eddy Mfg. Co. (206 Broadway, New York) was “Use the Keen Edge strop for 90 days and if not satisfied return to us and we will refund your money“. The advertisement was for a Combination Razor Strop, “the only strop made which requires no dressing.” Readers were invited to send for a booklet on Razor and the Face. In 1924 Popular Mechanics, published by Hearst Magazines, displayed an advertisement seeking a sales manager “… to sell [to] drug, hardware and cigar stores Keen Edge Strop Dressing, which sharpens straight razors and safety blades and removes old razor strops.” At that time the Keen Edge Mfg. Company was in Dallas, Texas. Razor strops are of historical significance, representing personal effects of men from the time period when men relied on strops to keep a sharp edge on their shaving blade. Strops were commonly owned and used until the acceptance of safety razors.Razor strop, leather and metal. Keen Edge brand, double straps: two straps of different grade leather joined at ends with metal fittings. Stropping faces; sharpening surface is stained red and finishing surface is stained black. One end has padded, bulbous shaped leather handle, the other end has metal, swivel hook hanger. Inscriptions pressed into leather at the ends of the straps. Impressed into leather "FINEST SELECTED HIDE", "KEEN EDGE", "FINISH" (black stained side), “A SHARPENER" (red stained side), “1 2 3”warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, great ocean road, shaving leather, shaving accessory, barber’s equipment, barber shop razor strop, razor strop, straight razor, razor and knife sharpener, keen edge razor strop

This menorah has 7 candle holders joined in a horizontal row, on thin rod stands. The circular holders sit on two flat silver strips that are attached to silver rectangles on either side of the holders, creating a shield-like form on either side of the holder. The stand on which this construction is propped up, is made up of rods that stand vertically on either side of the holders and behind the shields. The rods are intersected by other rod 'lines' that visually weave horizontally across the top half of the stand. Each point of intersection of lines and rod stands is marked by a circular shape. Artist's statement: In terms of the Jewish diaspora, the variety and flexibility of approaches within Judaism has enabled the culture to endure and nurture ever stronger connections despite physical distance. This notion of an enriched connectedness was one of the two central ideas which contributed to the development of this piece. The second was the idea of light and its cultural significance. Light is about both practical illumination and spiritual expression. While revealing and manipulating material and form, light has also come to stand for the triumph of goodness over evil for many cultures, Of utmost importance in Jewish ritual, light and its media are also recognised symbols of connection and interaction for Jewish people throughout the world. (1999, Blessed Be the Work, Australian Contemporary Design in Jewish Ceremony II)

Cooper S.E. Ball Bearing Grinder made and guaranteed by Sunbeam Corporation Limited. Grinders like this example have been made the same since the early 1900s, with this grinder thought to have been produced in the 1960s. It is belt driven, with the other end of the belt being attached to an engine; the same engine that would have powered the overhead shearing equipment in shearing sheds. It was common for shearing teams to bring their own equipment, especially pre-1960 as most shearing sheds were not connected to power, and shearers preferred to work with their own equipment. The engines that powered the shears and grinder were typically fuelled with kerosene or petrol. The large circular disks are attached to the bolt that protrudes from the grinder and fastened tightly with a nut. An example of seeing a similar grinder in action can be found on the following link - https://www.youtube.com/watch?v=O7eimI_Gm9o. Inventor Frederick Wolseley made the world's first commercially successful power-shearing system in Australia in 1888. US company Cooper, which had been founded in 1843 as a maker of sheep dip, began selling Wolseley equipment in the USA in 1895. The Chicago Flexible Shaft Company successfully entered the power-shearing market a few years later and entered a joint venture with Cooper. It set up a branch in Sydney and sold shearing sets, and engines to power them, into the Australian market. In 1921 the US parent company, realising it needed to make products whose sales were not as seasonal as those of shearing equipment, made its first household appliances and branded them Sunbeam. In 1933, changes in exchange rates and taxes led the company to manufacture engines and shearing equipment in Australia via subsidiary Cooper Engineering, which changed its name to Sunbeam in 1946. Although most Australians know of this company as a major manufacturer of household appliances, its rural division flourished and retained the Sunbeam name for shearing equipment even after it was taken over by New Zealand company Tru-Test in 2001. The grinder is formed from a central arch shaped block of green painted metal. Much of this paint has been lost to age, leaving the grinder in a ‘farm used’ condition with much surface oxidation present. On the front of the arch is a specification plate, reading “Cooper S.E. ball bearing grinder. Made and guaranteed by Sunbeam”. At the foot of the arch, three bolt holes are found for securing the grinder to the base of a solid wooden surface. Two of the bolt holes are found on the front of the grinder, with another found on the rear. From the central arch, a bolt protrudes to the right of the grinder. This large bolt is for securing a grinding plate to the grinder. Above the central arch is a pendulum which holds the comb / cutter that is being sharpened. From the pendulum, a large arm extends down (not pictured) to meet and strike the plate spinning at a rapid speed. On the left-hand side of the central arch of the grinder, a wheel is found which a belt is attached to for power. This belt is then attached to a separate engine, spinning the wheel and hence powering the grinder. The wheel is partially covered with a section of protective bent tube, designed to provide protection from the rapidly spinning wheel. Below this wheel is the belt shifter. It is designed to move the protective bent tube from one side of the grinder to the other, to accommodate the grinder in the setup of different shearing sheds. The two separate grinding plates are identical. They have a slight slope for sharpening the comb and cutters in the correct method, with a slight bias towards the base, or “tooth”, of the equipment. The disks have a large central bolt for attaching to the grinder. They have tags on the horizontal axis of the grinding plates, for securing the plates in transportation, and to help with initial alignment when setting up the grinder. The reverse of these grinding plates has the same green painted metal finish found on the grinder. This paint is also in a ‘farm used’ condition, with surface oxidation present. The grinder would be provided from the factory with a comb holder, shifter for securing the grinding plates, emery cloth and emery glue. The emery cloth is what does the actual grinding and is applied to the grinding disks, replacing once well worn. These items can be seen in the final images in the multimedia section, showcasing advertising for this grinder. Plate. Inscribed. “Cooper / S.E. BALL BEARING GRINDER / MADE AND GUARANTEED BY / Sunbeam / CORPORATION LIMITED / SYDNEY MELBOURNE / ADELAIDE BRISBANE ”sheep shearing, shearing equipment, sunbeam, grinder

Both of the architects involved in the 2.4-hectare Kinloch Gardens parkland development in Arthur Street, Eltham, are now living on the estate. The project was conceived by Eltham architect Ian Jelbart, whose family has owned the land for more than 100 years, and fellow architect Graeme Gunn, who in the 1960s was one of the creators of the Merchants Builders concept that set new trends in Melbourne housing. The $5 million project is based around two of the original buildings, on what was once a 100-hectare farm owned by the Jelbart family. Ian Jelbart always intended to continue living in the original homestead building, and now Graeme Gunn has moved into the big residence that once was the barn. Kinloch Gardens is designed to combine the more manageable land sizes increasingly demanded by buyers with ample "internal space, flexible floorplans, privacy and individuality of designs. Individual houses are placed on small separate allotments around an area of private parkland. The aim is to ensure total privacy, offer virtually unlimited views and parkland vistas, and remain aesthetically compatible with the local environment. Homes in four basic designs over either two or three levels are being sold off the plan, with prices ranging from the high $200,000s to the high $300,000s. Two have already been sold. Indication of land-only values The prices being asked for some vacant blocks offered for private sale provides an enlightening comparison of the relative "land only" values for homes sites in various areas. A 751 sq metre block on a new residential estate in Bentleigh/Carnegie is offered at $235,000, equivalent to $312/square metre; while in Merrett Drive, Williamstown, a 561 sq metre allotment offered for $169,000 carries a rate of $301/sq metre. In Barnsbury Road, Balwyn, the $450,000 price tag on a 584 sq metre allotment equates to $770 sq metre; and in York Street, Richmond, a 198 sq metre postage stamp is priced at $230,000 or $1162/sq metre. - Rex BookerDigital file only; created from scan undertaken by EDHS of item on loanarthur street, eltham, graeme gunn, houses, ian jelbart, jelbart property, kinloch gardens, rob maclellan, robert marshall, woodridge estate

The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental handpiece that would be fitted with a dental tool. On the foot is painted lettering naming it "The Brentfield" and there is a fine line of light coloured paint creating a border around the name. The paint under the lettering is peeling off. The drill has a Y-shaped, three footed cast iron base, one foot being longer than the other two. A vertical frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from adjustable telescoping pipes, joins into the top of this frame. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up, down and around. There is a pulley each side of the joint of the arm and a short way along the arm is fitted a short metal pipe. A little further along the arm a frayed-ended cord hangs down from a hole. At the end of the arm is another pulley and a joint from which hangs a long, thin metal pipe with two pulleys and a fitting on the end. A treadle, or foot pedal, is joined to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle fits between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The foot pedal has a cross-hatch pattern on the heel and the ball of the foot has tread lines across it. The end of the toe and the instep areas have cut-out pattern in them. "The ____/ Brentfield / __ DE IN L___" (Made in London) painted on the long foot of the base. Marked on the drill connection is “Richter De Trey, Germany”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison, the brentfield, richter de trey, german dental fitting, london dental drill

With more and more woolsheds being connected to power lines, the need for electric shearing gear markedly increased from the 1960s onwards. The greater economy made electric gear an attractive proposition to many graziers. Requiring only an electric shearing motor, for small and medium scale operations, electric shearing motors were a more economical way of shearing a wool clip. The other option for graziers was Overhead shearing gear, which also required an Engine to provide shared power to a row of shearing stations. Still working, this Sunbeam Electric Shearing Motor – Heavy Duty Model, features a slow speed motor totally enclosed for protection against dust and insects. The full bearing down tube is easily removed and stored to be out of the way when not in use (not pictured). Providing 0.5 hp, which is twice the power ever needed for shearing sheep, this buffer allows for fluctuations in voltages that can occur in rural districts. Inventor Frederick Wolseley made the world's first commercially successful power-shearing system in Australia in 1888. US company Cooper, which had been founded in 1843 as a maker of sheep dip, began selling Wolseley equipment in the USA in 1895. The Chicago Flexible Shaft Company successfully entered the power-shearing market a few years later and entered into a joint venture with Cooper. It set up a branch in Sydney and sold shearing sets, and engines to power them, into the Australian market. In 1921 the US parent company, realising it needed to make products whose sales were not as seasonal as those of shearing equipment, made its first household appliances and branded them Sunbeam. In 1933, changes in exchange rates and taxes led the company to manufacture engines and shearing equipment in Australia via subsidiary Cooper Engineering, which changed its name to Sunbeam in 1946. Although most Australians know of this company as a major manufacturer of household appliances, its rural division flourished and retained the Sunbeam name for shearing equipment even after it was taken over by New Zealand company Tru-Test in 2001. This 0.5 horsepower vertical brushed motor air-cooled engine was designed to drive a single shearing plant. From the central cylinder which features a yellow “Sunbeam” sticker, a grey 240v power lead can be found on the left-hand side. A blue capacitor is located next to this power lead. Below, two legs extend and meet to form a foot which is fastened to a wall. On the right-hand side of the engine, a specification plate is located on the central cylinder. A yellow directional arrow sticker is located on the rotating section of the engine below the specification plate (location for photography, this section is designed to rotate and hence this sticker is not fixed in this location). At the rear of the cylinder, a plastic cap with small air cut outs protects the air-cooled engine from contaminants. At the front of the engine, the location for securing the bearing down tube is located. On the right-hand side of the lock for the bearing down tube is the handle, to which a string is often attached for switching the motor on and off by a shearer bent at the waist (not pictured). Sticker. Gold writing. Front of shearing motor “Sunbeam” Plate. Inscribed. Side of shearing motor. “Sunbeam / SHEARING MOTOR / MADE IN AUSTRALIA / 0.5 H.P. / 220/240 V / 1 PHASE A.C. / 4.0 AMPS / 50 C/S. / CONT. RTG. / 1425 R.P.M. / CLASS A INSUL / NO. J244560 / TYPE: NSB5C2/49." sheep sheering, shearing equipment, sunbeam, electric shearing motor

Chains are available in a variety of link shapes and sizes. They have many uses on sailing vessels, such as part of anchoring systems or loading cargo onboard the ships. A link called a shackle is used as a quick and flexible way to join two pieces of chain. Sometimes the shackle needs a tool to remove it. A shackle punch like this one will do the job. A modern term for a similar tool, that also has a handle, is a ‘breakdown’ tool. It is designed for aligning and driving pins in and for removing bolts, rivets and pins. This shackle punch has a handle with six flat sides that prevent it from rolling around when stored. It has a fine shank that tapers down to the end. The tool is placed on the join of the shackle, and then the end of that handle is hit with a hammer until the join breaks apart. The shipwright’s tools on display in the Great Circle Gallery are connected to the maritime history of Victoria through their past owner, user and donor, Laurie Dilks. Laurie began his career as a shipwright in the mid-1900s, following in the wake of the skilled carpenters who have over many centuries used their craft to build and maintain marine vessels and their fittings. You can see Laurie’s inscription on the tool called a ‘bevel’. Laurie worked for Ports and Harbours, Melbourne, for over 50 years, beginning in the early 1960s. He and a fellow shipwright inscribed their names on a wheelhouse they built in 1965; the inscription was discovered many decades later during a repair of the plumbing. Many decades later Laurie worked on the Yarra moving barges up and down the river and was fondly given the title ‘Riverboat Man’ His interest in maritime history led him to volunteer with the Maritime Trust of Australia’s project to restore and preserve the historic WWII 1942 Corvette, the minesweeper HMAS Castlemaine, which is a sister ship to the HMAS Warrnambool J202. Laurie Dilks donated two handmade displays of some of his tools in the late 1970s to early-1980s. The varnished timber boards displayed the tools below together with brass plaques. During the upgrade of the Great Circle Gallery Laurie’s tools were transferred to the new display you see there today. He also donated tools to Queenscliffe Maritime Museum and Clunes Museum.The shipwright’s tools on display in the Great Circle Gallery are connected to the maritime history of Victoria through their past owner, user and donor, Laurie Dilks. Laurie began his career as a shipwright at Ports and Harbours in Melbourne in the mid-1900s, following in the wake of the skilled carpenters who have over many centuries used their craft to build and maintain marine vessels and their fittings.A shackle punch; a metal tool with six flat sides on the handle and the shank tapers inwards to a rouded point. It once belonged to shipwright Laurie Dinks.flagstaff hill, warrnambool, great ocean road, shipwreck coast, maritime museum, maritime village, shipwright, carpenter, shipbuilding, ship repairs, hand tool, equipment, ship maintenance, cooper, tool, marine technology, shackle punch, breakdown tool, chains, links, laurie dilks, l dilks, port and harbours melbourne

This belt belonged to a WW1 Australian Anzac who most probably, because of the buttons and badges, served on the Western Front. Records destroyed in 1969 bush fires at Lara means we are unable to determine who owned this in the RSL. The belts is called a 'stable belt' and the one you have acquired is an early example with a leather pocket. It became common in WW1 for both, leather belts (especially that from the 1903 bandolier equipment as worn by those in the Boer War), and stable belts to be used to hold badges collected from fellow soldiers and for that reason it was often known as a 'souvenir belt'. The evolution of the stable belt: It seems that stable belts began to become popular across the Army as a whole around the turn of the 20th century, although they probably originated with the cavalry a little earlier sometime in the 1880s/1890s. All units at that time had horses on their establishment and those soldiers told off to attend them reported for Stable Parade in Stable Dress which consisted of very high waisted and pocket less breeches, or trousers, held up by braces and collarless, woollen flannel shirts with sleeves rolled up. This was to facilitate the rigorous physical effort and flexibility of movement necessary for mucking out and grooming. Braces at that time had no elastic as rubber was expensive, they were made of cotton with no 'give' whatsoever and so soldiers commonly allowed the braces to flop down from the waist so that they could bend over freely. For trousers that fitted loosely (due to the high waist) this meant that they tended to slip down and at first soldiers cinched them in with leather belts. Later on the regimental saddlers began to make belts from the same, plain canvas or wool strapping used for the horses Surcingle and utilising the same double leather strap and buckle arrangement for security (if one strap broke the other would hold and prevent the saddle from coming unseated). One particular feature of these early stable belts was a sewn on (or in) pocket, secured by a stud or clip, within which loose change could be kept, or a pocket watch, as there were no pockets in the breeches. As you might imagine these became very popular as the pocket was useful and the extra breadth afforded by the canvas strapping made them very comfortable. Around about the turn of the 20th century it began to be popular for officers to wear neckties in regimental colours both for sport and less formal, country dress. This habit probably began with the Queens Household troops and Line Cavalry, but quickly spread throughout the Army and it appears as if this use of regimental colours spread to the canvas or wool strapping used to make stable belts. For this reason the stable belts invariably followed the same colour scheme (but not always the same pattern arrangement) of regimental neck ties. This belt is an example of what Australian troops collected when on the Western Front during WW1 and when on leave.Leather Belt with 31 Badges and Buttons from WW1 attachedSee Mediaww1, world war 1, australian army, badges, button, belt, stable belt