The Morse telegraph system had its beginnings in 1836 when Samuel Morse, Alfred Vail and Joseph Henry developed an early model of the system. There are a number of variations on the machine but the operating system is very similar in all and the language is a standardised international code which has been in operation since the 1860's. Morse code consists of five elements, dots, dashes, and gaps of one , three and seven units in length. It is still in use to this day and has been applied to other systems of communication such as amateur radio, mobile phones and communication systems for disabled people. This particular telegraph key possibly has post office or naval origins.Morse code was an important invention in world communication systems and this machine therefore has important social and research significance. It is useful as an interpretive item.This instrument sits on a black rectangular base of black bakelite. The mechanism ids held in place by three larger metal screws and two smaller ones on the upright section from the base.The movable part is metal with the attached handle a similar black material as the base.ADMY.PATT No 7681 KEY MORSE SERN PL 23780 Rocker Front contact. Lift @ turn on one of the screws on the bar.history of warrnambool, rocker telegraph, telegraph key, morse code

This is possibly John James Barnes born Marong, No 487 enlisted on 8.9.1914 in 8th L.H Machine Gun sectionSepia tone photo showing a soldier with slouch hat, bandolier over shoulder and bayonet on belt standing in a studio setting of a tree and shrubs, photo is set on a cream coloured ornate card. The photographers details are across the bottom in gold lettering. There are a number of inscriptions on the rearOn rear in black pen, “Mr J.J.Barnes Marong”, in blue pen, “To aunt, uncle and cousins with love from Barney, (dates unclear) 1914”photographs, l.h,

Photographs from 17th Light Horse Regiment collection box. .1) Black print bottom: Two hundred officers & men of the 17th & 19th Light Horse were in training at Bendigo last week. 1. LIEUT A V PALMER 2. Jumping in pairs 3. The camp trumpeter 4. LIEUT COL H K RAWSON CO of camp on right with his staff 5. Watering the horses 6. Machine gun practice 7. Some of the men.1) Laminated photocopy of 7 numbered black & white photographs, Light Horsemen Soldiers in uniform, horses, machine gun, mounted on archival cardboard, from newspaper article, black & white top & bottom. .2) Laminated photocopy of colour photograph, 8 Soldiers in uniform mounted on horses, white print label lower right..1) Black print: "March 18 1933 The Weekly Times Magazine Section, Light Horsemen in Camp in Bendigo" (see notes for bottom details). .2) White print: "The Army, then, now, and for the future. All had a part to play"photography-photographs, military history - army, light horse, passchendaele barracks trust

A plane table compass, sometimes referred to as a trough compass, used by surveyors and artillery crew to accurately establish magnetic north. The compass is precision machined of brass material with a long needle to ensure accuracy. The compass scale is marked with a centre zero (for magnetic north) and graduations indicating plus and minus five degrees. The compass is housed in a protective wooden case with a sliding lid. The lid has a brass slide which locks the compass needle during periods when the compass is not in use. This compass is the type used by an artillery unit of the Australian Military Forces during World War 2. This compass was manufactured by J. W. Handley P/L of Melbourne in 1943. Refer 00330 and 00330.2The side of the compass body is stamped: "J.W.H." with the letter "V" under a line, "SERIAL No 1082", MARK.II-D^D-1943". The case is stamped with the serial number "1082".artillery, trough compass, plane table compass, compass, world war 2, ww2

Cyrus Chambers was a self-described mechanic who started out winding bobbins in his father's woollen mill and went on to invent machines that changed their industries. Cyrus Chambers came from Quaker parents the ninth of thirteen siblings, he once said a year before his death. “I believe I have succeeded because, first, I was industrious; second, because I made a study of the subject that was before me.” At age 7, Chambers went to work in his father’s mill. His job was to monitor bobbins—wooden spindles around which thread was wound and to remove and replace them as they became full. "There was no child labour law at that time," he later recalled. Chambers loved machinery and always regarded himself as a mechanic rather than an inventor. At age 16, Chambers was sent to learn dentistry with an older brother, (Edwin) who was already in the field and willing to take him on as an apprentice. Chambers was talented at working with small parts. He used his brother's dental instruments to build a miniature high-pressure steam engine of silver. It ran at 3,000 revolutions per minute and weighed less than a half-ounce. At that time it was the smallest engine that had ever been constructed. The engine was displayed at the 1876 Centennial and is now in a permanent collection at the Franklin Institute USA. Chambers major invention was the paper folding machine and came from reading that school teachers made less than the young girls who were employed to fold book pages as they came off the press. He told friends that his first efforts were to make the machine that would fold newspapers after demonstrating his device he met with Horace Greeley of the New York Tribune who advised Chambers would never invent the machine that would be able to fold his newspaper or books. In less than a year Chambers had built a full-size machine capable of folding large newspapers and books and was installed at J B Lippincott & Co folding pages for the "Comly Speller" this machine ran successfully for twenty-five years until the printing works burnt down. Chambers then went into partnership with a brother and they established the firm "Chambers, Brother & Co" at a plant in Philadelphia. It was also observed in 1910 and a fact that there was not a periodical or newspaper printed or recently published book that had not gone through one of Chambers inventions. Chambers went on to produce many mechanical inventions and improvements to existing tools and machinery most notable was his invention for the machine that would make clay bricks. This machine made forty bricks per hour and by the end of Chambers life after many improvements, it could make more than four hundred. Although there were a large number of bold cutters made of this patent at Cyrus Chamber’s foundry in Philadelphia, the item is associated with a notable American inventor of the nineteenth century. This particular patent for a bolt and rivet cutter won Chambers the prestigious Elliott Cresson Medal. This cutter is just one of the many inventions and mechanical improvements that Cyrus Chambers made during his lifetime, contributing to the ongoing development of mechanical improvements that were occurring in American industry of the time and therefore a notable addition to the Flagstaff collection.Cast iron bolt cutter with removable tempered steel cutter. Chambers New No. 2.Raised embossed lettering on cast body of cutter "New No 2" on one side, "Chambers Bros & Co" on the other sideflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cyrus chambers, bolt cutter, paper folding machine, brick making machine, elliot cresson, elliot cresson medal, franklin institute, gold medal, rivet cutter

This compass is the type used by an artillery unit of the Australian Military Forces during World War 2 and made by J W Handley. Although having owned the factory site since 1935 at 657 Victoria St J W Handley began to produce various items for the Australian Military forces after purchasing and expanding the factory to 655 Victoria St. It appears that he, or some one else may already have been occupying the site for industrial purposes, such as (Manufacturing, Foundry and Electroplating) since at least 1929. J W Handley Pty Ltd was actively producing items for the Military during the war years, a newspaper article from 1939 shows the factory in production and employing 420 people during 1939. J W Handley after the war moved into producing other non military items including a range of fishing reels. The company ceased trading in 1987 and was deregistered as J W Handley Pty Ltd in 1990.The item demonstrates the industrial capability of Australia at the start of World War 2. This item is actively sort by collectors of Australian Military memorabilia and represents a time in Australian history when the country was at war and the general population was concerned about an invasion from Japanese forces. It also therefor is of social significance as many Australians served in the Military forces at that time and the item is complete and in very good condition.A plane table compass, sometimes referred to as a trough compass, used by surveyors and artillery crew to accurately establish magnetic north. The compass is precision machined of brass material with a long needle to ensure accuracy. The compass scale is marked with a centre zero (for magnetic north) and graduations indicating plus and minus five degrees. The compass is housed in a protective wooden case with a sliding lid. The lid has a brass slide which locks the compass needle during periods when the compass is not in use.J.W.H./V Mark 11 D↑D. Made by J W Handley Richmond Melbourne, Victoria. Serial number 92 flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, trough compass, navigation instrument, surveyor's instrument, j w handley, artillery, australian army, trough, plane compass, world war 2

This compass is the type used by an artillery unit of the Australian Military Forces during World War 2 and made by J W Handley. Although having owned the factory site since 1935 at 657 Victoria St J W Handley began to produce various items for the Australian Military forces after purchasing and expanding the factory to 655 Victoria St. It appears that he, or some one else may already have been occupying the site for industrial purposes, such as (Manufacturing, Foundry and Electroplating) since at least 1929. J W Handley Pty Ltd was actively producing items for the Military during the war years, a newspaper article from 1939 shows the factory in production and employing 420 people during 1939. J W Handley after the war moved into producing other non military items including a range of fishing reels. The company ceased trading in 1987 and was deregistered as J W Handley Pty Ltd in 1990.The item demonstrates the industrial capability of Australia at the start of World War 2. This item is actively sort by collectors of Australian Military memorabilia and represents a time in Australian history when the country was at war and the general population was concerned about an invasion from Japanese forces. It also therefor is of social significance as many Australians served in the Military forces at that time and the item is complete and in very good condition.A plane table compass, sometimes referred to as a trough compass, used by surveyors and artillery crew to accurately establish magnetic north. The compass is precision machined of brass material with a long needle to ensure accuracy. The compass scale is marked with a centre zero (for magnetic north) and graduations indicating plus and minus five degrees. The compass is housed in a protective wooden case with a sliding lid. The lid has a brass slide which locks the compass needle during periods when the compass is not in use.J.W.H./V Mark 11 D↑D. Made by J W Handley Richmond Melbourne, Victoria. Serial number 1279flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, trough compass, navigation instrument, surveyor's instrument, j w handley, artillery, australian army, trough, plane compass, world war 2

The Ideal Clipless Paper Fastener is what is known as a stapleless stapler. It uses the Bump fastening method which was patented in the U.S. in 1911. The Ideal measures 4.75″ H x 3.125″ W x 1.875″ L and weighs 6.5 ounces. It was manufactured and sold in Japan but also exported to England. The case is made of stained wood with the fastening mechanism made of polished steel. From unsubstantiated sources I understand the wood is Japanese Boxwood, but I cannot verify that at this time. The markings on the front and reverse are done in black paint. The two patents listed on the reverse side of the fastener are Japanese patents. They were granted in March and September 1918 respectively. The patents were granted to two different men. The letters CK on the reverse of the fastener seem to be the initials of the two patent holders. If the design of a C superimposed over the K is a trademark as indicated, it would imply that the two patent holders went into business together to manufacture the Ideal Fastener. I’ve been unable to determine fully the names of the patent holders, but the K seems to refer to a Mr. Kuroda who was the author of the later patent. The Ideal fastener was sold alongside the Clipless Stand Machine (available 1911-1923) and Bump Fasteners in Japan. The latest patent number on the Ideal is from September 1918. Furthermore, there was also an all-steel model of the Ideal Clipless Paper Fastener being sold in 1922. While the available evidence is both sparse and largely circumstantial, I believe the Ideal Clipless Paper Fastener would have been sold from 1919 until about 1923. Furthermore, with the availability of an all-steel model in 1922, it is likely that this newer model would have been introduced as the replacement for the wooden-cased version giving me further reason to believe that this would not have been sold after 1923. The fastener was donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. Dr. Angus was in England in the 1920’s and could very well have purchased the Ideal Clipless Paper Fastener during his study time there. It was donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” and includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. ABOUT THE “W.R.ANGUS COLLECTION” Doctor William Roy Angus M.B., B.S., Adel., 1923, F.R.C.S. Edin.,1928 (also known as Dr Roy Angus) was born in Murrumbeena, Victoria in 1901 and lived until 1970. He qualified as a doctor in 1923 at University of Adelaide, was Resident Medical Officer at the Royal Adelaide Hospital in 1924 and for a period was house surgeon to Sir (then Mr.) Henry Simpson Newland. Dr Angus was briefly an Assistant to Dr Riddell of Kapunda, then commenced private practice at Curramulka, Yorke Peninsula, SA, where he was physician, surgeon and chemist. In 1926, he was appointed as new Medical Assistant to Dr Thomas Francis Ryan (T.F. Ryan, or Tom), in Nhill, Victoria, where his experiences included radiology and pharmacy. In 1927 he was Acting House Surgeon in Dr Tom Ryan’s absence. Dr Angus had become engaged to Gladys Forsyth and they decided he further his studies overseas in the UK in 1927. He studied at London University College Hospital and at Edinburgh Royal Infirmary and in 1928, was awarded FRCS (Fellow from the Royal College of Surgeons), Edinburgh. He worked his passage back to Australia as a Ship’s Surgeon on the on the Australian Commonwealth Line’s T.S.S. Largs Bay. Dr Angus married Gladys in 1929, in Ballarat. (They went on to have one son (Graham 1932, born in SA) and two daughters (Helen (died 12/07/1996) and Berenice (Berry), both born at Mira, Nhill ) According to Berry, her mother Gladys made a lot of their clothes. She was very talented and did some lovely embroidery including lingerie for her trousseau and beautifully handmade baby clothes. Dr Angus was a ‘flying doctor’ for the A.I.M. (Australian Inland Ministry) Aerial Medical Service in 1928 . Its first station was in the remote town of Oodnadatta, where Dr Angus was stationed. He was locum tenens there on North-South Railway at 21 Mile Camp. He took up this ‘flying doctor’ position in response to a call from Dr John Flynn; the organisation was later known as the Flying Doctor Service, then the Royal Flying Doctor Service. A lot of his work during this time involved dental surgery also. Between 1928-1932 he was surgeon at the Curramulka Hospital, Yorke Peninsula, South Australia. In 1933 Dr Angus returned to Nhill and purchased a share of the Nelson Street practice and Mira hospital (a 2 bed ward at the Nelson Street Practice) from Dr Les Middleton one of the Middleton Brothers, the current owners of what previously once Dr Tom Ryan’s practice. Dr Tom and his brother had worked as surgeons included eye surgery. Dr Tom Ryan performed many of his operations in the Mira private hospital on his premises. He had been House Surgeon at the Nhill Hospital 1902-1926. Dr Tom Ryan had one of the only two pieces of radiology equipment in Victoria during his practicing years – The Royal Melbourne Hospital had the other one. Over the years Dr Tom Ryan had gradually set up what was effectively a training school for country general-practitioner-surgeons. Each patient was carefully examined, including using the X-ray machine, and any surgery was discussed and planned with Dr Ryan’s assistants several days in advance. Dr Angus gained experience in using the X-ray machine there during his time as assistant to Dr Ryan. When Dr Angus bought into the Nelson Street premises in Nhill he was also appointed as the Nhill Hospital’s Honorary House Surgeon 1933-1938. His practitioner’s plate from his Nhill surgery is now mounted on the doorway to the Port Medical Office at Flagstaff Hill Maritime Village, Warrnambool. When Dr Angus took up practice in the Dr Edward and Dr Tom Ryan’s old premises he obtained their extensive collection of historical medical equipment and materials spanning 1884-1926. A large part of this collection is now on display at the Port Medical Office at Flagstaff Hill Maritime Village in Warrnambool. In 1939 Dr Angus and his family moved to Warrnambool where he purchased “Birchwood,” the 1852 home and medical practice of Dr John Hunter Henderson, at 214 Koroit Street. (This property was sold in1965 to the State Government and is now the site of the Warrnambool Police Station. and an ALDI sore is on the land that was once their tennis court). The Angus family was able to afford gardeners, cooks and maids; their home was a popular place for visiting dignitaries to stay whilst visiting Warrnambool. Dr Angus had his own silk worm farm at home in a Mulberry tree. His young daughter used his centrifuge for spinning the silk. Dr Angus was appointed on a part-time basis as Port Medical Officer (Health Officer) in Warrnambool and held this position until the 1940’s when the government no longer required the service of a Port Medical Officer in Warrnambool; he was thus Warrnambool’s last serving Port Medical Officer. (Masters of immigrant ships arriving in port reported incidents of diseases, illness and death and the Port Medical Officer made a decision on whether the ship required Quarantine and for how long, in this way preventing contagious illness from spreading from new immigrants to the residents already in the colony.) Dr Angus was a member of the Australian Medical Association, for 35 years and surgeon at the Warrnambool Base Hospital 1939-1942, He served with the Australian Department of Defence as a Surgeon Captain during WWII 1942-45, in Ballarat, Victoria, and in Bonegilla, N.S.W., completing his service just before the end of the war due to suffering from a heart attack. During his convalescence he carved an intricate and ‘most artistic’ chess set from the material that dentures were made from. He then studied ophthalmology at the Royal Melbourne Eye and Ear Hospital and created cosmetically superior artificial eyes by pioneering using the intrascleral cartilage. Angus received accolades from the Ophthalmological Society of Australasia for this work. He returned to Warrnambool to commence practice as an ophthalmologist, pioneering in artificial eye improvements. He was Honorary Consultant Ophthalmologist to Warrnambool Base Hospital for 31 years. He made monthly visits to Portland as a visiting surgeon, to perform eye surgery. He represented the Victorian South-West subdivision of the Australian Medical Association as its secretary between 1949 and 1956 and as chairman from 1956 to 1958. In 1968 Dr Angus was elected member of Spain’s Barraquer Institute of Barcelona after his research work in Intrasclearal cartilage grafting, becoming one of the few Australian ophthalmologists to receive this honour, and in the following year presented his final paper on Living Intrasclearal Cartilage Implants at the Inaugural Meeting of the Australian College of Ophthalmologists in Melbourne In his personal life Dr Angus was a Presbyterian and treated Sunday as a Sabbath, a day of rest. He would visit 3 or 4 country patients on a Sunday, taking his children along ‘for the ride’ and to visit with him. Sunday evenings he would play the pianola and sing Scottish songs to his family. One of Dr Angus’ patients was Margaret MacKenzie, author of a book on local shipwrecks that she’d seen as an eye witness from the late 1880’s in Peterborough, Victoria. In the early 1950’s Dr Angus, painted a picture of a shipwreck for the cover jacket of Margaret’s book, Shipwrecks and More Shipwrecks. She was blind in later life and her daughter wrote the actual book for her. Dr Angus and his wife Gladys were very involved in Warrnambool’s society with a strong interest in civic affairs. He had an interest in people and the community They were both involved in the creation of Flagstaff Hill, including the layout of the gardens. After his death (28th March 1970) his family requested his practitioner’s plate, medical instruments and some personal belongings be displayed in the Port Medical Office surgery at Flagstaff Hill Maritime Village, and be called the “W. R. Angus Collection”. [References; Ideal Clipless Paper Fastener, Antique Outings http://antiqueoutings.com/ideal-clipless-paper-fastener/ ; Australian College of Ophthalmologists, Vol 11, 1970.; Medical Directory of Australia listing, alphabetical says 1929, Royal College of Surgeons Edinburgh says 1928; Documents re Dr Angus from daughter Berry McDade, received at Flagstaff Hill Maritime; Portland Examiner, June 13, 1969; The Advertiser (Adelaide) 14th Nov, 1910 - Blind restored to sight – Dr Edward Ryan, Melbourne; The Hamilton Spectator, Wed 15th April 1914 – Ararat man with eye affliction attended to by Drs E & T Ryan; The Nhill Hospital, first 100 years, 1885-1985, by Jan Doust; The Horsham Times, Tuesday 6th January 1885 – Dr Edward Ryan appointed to Nhill Hospital; People who passed this way – Warrnambool and District Historical Society; Warrnambool Base Hospital Report 1969-1970 The Standard, 22/6/1990; The Argus, 1970; Letter to Mrs G Angus from John Lindsay, Flagstaff Hill, 8/5/1973; ] This Ideal Clipless Paper Fastener is significant as a rare example of a clipless paper fastener used as office stationery of the 1920’s. This Ideal Clipless Paper Fastener is significant for its association with the W.R. Angus Collection, which is significant for still being located at the site it is connected with, Doctor Angus being the last Port Medical Officer in Warrnambool. The collection of medical instruments and other equipment is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Dr Angus assisted Dr Tom Ryan, a pioneer in the use of X-rays and in ocular surgery. Paper fastener, clipless or stapleless. Part of the W.R. Angus Collection. Branded Ideal Clipless Paper Fastener, made in Japan. Push down action on wooden handle, metal cutting mechanism cuts and folds the cut flap to join two pieces of paper. Stained wood base, sides and handle, floral fabric under base. Inscriptions on sides and base are in black paint print. Early to mid 1900’sPrinted on sides “IDEAL CLIPLESS PAPER FASTENER” and “TRADE MARK (K with a C through it) PATENT NO. 45105 46743” and stamped into base "MADE IN JAPAN"flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dr w r angus, dr ryan, surgical instrument, t.s.s. largs bay, warrnambool base hospital, nhill base hospital, mira hospital, flying doctor, ideal stapleless stapler, ideal clipless paper fastener, ideal paper fastener made in japan, paper fastener, office stationery, patent 45105 46743, ideal clipless paper fastener ck, logo ck c over k

This Gestetner Cyclostyle duplicating machine was invented and manufactured by David Gestetner. He claimed in 1922, once he had released several models, that if a Gestetner Durotype stencil was used together with his Cyclostyle machine, then 10,000 copies could be made from the one Durotype stencil, an amazing claim for office technology of that era. David Gestetner (1854-1939), was born in Csoma, Hungary. He has been called the “founder of the worldwide office copying and duplicator industry.). He moved to London and in 1879 filed his first copying patent. In 1881 he patented the Cyclostyle stylus (or pen), which was used in conjunction with his Cyclograph device for copying text and images, He established the Gestetner Cyclograph Company in England at this time (1881) to protect his inventions and to produce his products; stencils, stylos (stylus or pen) and ink rollers. HIs inventions included nail-clipper and the ball-point pen (although the latter is more commonly associated with Laszlo Biro). Gestetner’s patented Cyclograph duplicator was used with his Cyclostyle Stylus or pen to write or draw on special thin wax-coated stencil paper (originally used for kite making paper) in the following way; 1. The Cyclostyle stencil was placed on a lower, framed metal plate of the Cyclograph 2. An upper frame was clipped over the top 3. The Cyclostyle pen, with its tip being a small metal-spiked or toothed wheel, was used to write or draw on the stencil, punched small holes into the paper and removed the wax coating in those places 4. The upper frame and stencil was then removed and a piece of blank paper was placed onto the metal plate in the lower frame and the upper frame with stencil was replaced 5. A roller was given an even distribution of Cyclostyle ink and rolled by hand over the stencil in the frame. This forced the ink through the holes in the stencil to and made a copy of the stencil on the paper 6. The upper frame was raised, the printed paper removed and another blank sheet was put into place. The whole process was repeated until enough copies were made. Gestetner’s invention developed further in 1894, with a stencil that could be placed on a screen on a revolving drum. The drum was manually rotated, the stencil then wrapped around another drum and was fed between cloth-covered rollers on which ink was evenly spread. Each revolution of the drum forced ink through the holes in the stencil and transferred the ink onto paper that had been fed between rollers and pressed against the drum. The process was repeated for each page. The paper was still fed and removed manually in this earlier invention but became more automatic in later models. In 1902 Gestetner duplicator model 6 was put onto the market. This model included the improvement of an automatic paper feed that synchronised with the rotation of the stencil. The Gestetner machine was the first office printing machine. It was easily installed and it made exact copies of the sane document quickly, effectively and inexpensively. This changed the way offices operated, making information easily available to many more users. The machines were commonly used in small businesses, schools, churches, clubs and other organisations for the wide distribution of a wide variety of information in the form of worksheets, newsletters and more. In 1906 the Gestetner Works were opened in Tottenham Hale, North London, and thousands of people were employed there up until the 1970’s. Due to the fast growing success of the Gestetner Duplicator machines many international branches for sales and service centres were established. David Gestetner was succeeded by his son Sigmund, followed by his grandson’s David and Jonathan. Further advancement was made by using a manual typewriter with specifically designed stencils. The end product was a printed, typewritten copy similar to the print from newspapers and booklets. In the next few years there were further developments of this revolutionary invention. The Gestetner Cyclostyle duplicator in our Collection is dated c.1922 - 1929 and it uses Gestetner Durotype stencils The 1922 British Industries Fair’s catalogue contained advertising for the Gestetner Rotary Cyclostyle “The World’s Premier Duplicator”, demonstrated at Stand K 86.” A Notice at the foot of the advertisement’s page boasts "Important - D Gestetner's latest invention, the "Durotype" Stencil, enables you to obtain 10,000 copies from one original if desired. It contains no wax of any description, is indestructible, can be stored indefinitely and printed from as required” In 1929 the look of the Gestetner machines changed; American designer Raymond Loewy was invited by Gestetner to improve the look of his duplicators, resulting in a very streamlined appearance. Eventually, around 1960’s, offices replaced their Gestetner with small photocopying machines and printers. Gestetner took over ownership of other office machine companies over time, including Nashua, Rex Rotary, Hanimex and Savin and eventually all came under the holding company name of NRG (Nashuatech, Rex Rotary and Gestetner). In 1996 Ricoh acquired the Gestetner Company, and it was renamed the NRG Group. REFERENCES Cyclostyle, Stencil Duplicating Machines, antique Copying Machines, Early Office Museum, http://www.officemuseum.com/copy_machines.htm Duplicating machines, Wikipedia Duplicator, Collection online, Canada Science and Technology Museums Corporation http://techno-science.ca/en/collection-research/collection-item.php?id=1989.0229.001 Gestetner duplicators, Totterham-Summerhillroad.com http://tottenham-summerhillroad.com/gestetner_duplicators_tottenham.htm Gestetner Duplicator, V&A Museum http://collections.vam.ac.uk/item/O322014/gestetner-duplicator-duplicator-loewy-raymond-fernand/ Gestetner, Grace’s Guide to British Industrial History, http://www.gracesguide.co.uk/Gestetner Duplicating machines such as this one revolutionalised access to copies of printed material, changing the way that educational bodies, offices, small businesses and community clubs and charities operated.Duplicating machine, Gestetner Cyclostyle Durotype, a stencil-method duplicating machine with two rotating drums plus rollers. Hand operated, tabletop office machine. Front has folding Bakelite handle, oil filling hole, calibrating gauge with scale, and copy counting meter. Right side has printed manufacturer’s plate that slides out as a paper output tray. Left side has metal plate with protrusions and perforations, plus another similar plate that is detached. It also has a metal frame attached [that would have been used to hold a paper input board, adjusted for various sizes of paper]. Cover, metal, with folding wooden handle on top, attaches to base with metal clips. Inscriptions printed on machine, mostly in gold-coloured paint. Round metal manufacturing plate is stamped with Serial Number 95759. Made by D. Gestetner, London, c.1922-1929Maker’s plate “MANUFACTURED / BY / D. GESTETNER LTD, / No. 95759 / CYCLOSTYLE WORKS / TOTTENHAM HALE / LONDON, N” Copy counting meter shows “1 4 6 4 8 [space]“ copies. Calibrating gauge has divisions with numbers “0 1 2“, labelled “← [left arrow] “TO PRINT LOWER” and “→ [right arrow], TO PRINT HIGHER”. “The Gestetner”, “Cyclostyle”, “Gestetner” (Trade Mark), Right side print of manufacturing details includes “The / Gestetner / TRADE MARK” And “THE FOLLOWING TRAFE MARKS / - - - OF INK, STENCILS / - - - AND GUARANTEE OF PERFECT / - - - BOTH - - - AND MACHINE” and “CYCLOSTYLE / DUROTYPE / GESTETNER” and “D. Gestetner” flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, office machine, copying machine, gestetner machine, duplicating machine, duplicator, stencil machine, gestetner cyclograph company, cyclograph, cyclostyle, d. gestetner ltd, gestetner durotype stencils, gestetner cyclostyle, printing machine, office technology, durotype stencils, david gestetner, raymond loewy, roneo, rotary duplicatorten, mimeo, mimeograph machine, roneograph copier

Organza is a thin, plain weave, sheer fabric traditionally made from silk. Many modern organzas are woven with synthetic filament fibres such as polyester or nylon. Silk organza is woven by a number of mills along the Yangtze River and in the province of Zhejiang in China. A coarser silk organza is woven in the Bangalore area of India. Deluxe silk organzas are woven in France and Italy. Organza is used for bridal wear and eveningwear. In the interiors market it is used for effects in bedrooms and between rooms. Double-width organzas in viscose and acetate are used as sheer curtains. Nylon organza was very popular as the new fashion material in the 1950’sA lady's collar white embossed nylon organza with machine lace edge. C1950clothing, nylon, organza, dressmaking, moorabbin, bentleigh, cheltenham, fashion

This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages

This calculator is like a modern calculator style keypad with a traditional pinwheel calculator. In operation it is similar to other Facit machines. The design from the 1930s was produced without interruption with only slight modifications until the early 1970s.This one hasn't a serial number or Model Number so date is unknown but probably the 1940s - 1950s when the SEC were constructing the Kiewa Hydro Electric Scheme.Used by the SEC Office Staff when the SECV were constructing the Kiewa Hydro Electric SchemeBox shape with grey steel top and sides on a black base. Three thin strips of stainless steel embossed with numbers on the top and clear panels beside them. Front has 3 red and 10 black knobs with arrows on the red and numbers on the black. Sides have stainless steel pedals and winders. The machine is very heavy. See on-line "mechanical calculators.wordpress.com"'Facit' on the front.calculator, facit

An adding machine is like a calculator enabling the user to do addition and subtraction and multiplication and division by repetition. Adding machines provided a printed receipt for each entry and calculators display information on a screen.Adding machines were used in the office and were replaced by calculators and comptometers.Used by a resident of the Kiewa Valley and possibly in the SECV office.Formerly UKV 242 or Contex UKV 253 - Electric (no cord). Beige and grey plastic covered adding machine with blue numbers and black function keys. Paper roll winder and dispenser at the top of the machine. Charcoal coloured plastic base with label and patent information. A blue handle for carrying. 2 small grooved wheels on the base.Left hand front: Addmaster label and logo Base: Label on base - "Addmaster Corp. Made in USA serial number 175614". Patent information labeladding machine, addmaster, mathematics

Invented in 1923 by Wilhelm Ritzerfeld. A Spirit duplicator' refers to the alcohols that were a major component of the solvents used in the machine.Limited number of copies one could make from an original along with the low cost and corresponding low quality of copying. Used to make multiple copies of a document eg. in office at a school for eg. a newsletterUsed at Bogong Primary SchoolFormerly UKV 048 Solid black, heavy, steel machine on 4 legs with flat tray at the front and roller at the back. The roller has a cover on the sides and front. From the top you can see the silver roller which is operated by a handle on the right side. There is a small lever and 2 knobs on the same side.In gold on the back "Fordigraph" and "The Nipper Fordigraph" with a blue circle made by 3 arcs with arrows. 2 labels on one side, screwed on. The labels have a silver background and black print. "Off" and "On"fordigraph machine, copying

The Olivetti company was founded in Italy in 1908.This particular typewriter is a Olivetti Lettera 22, oblique front stroke and portable manufactured after 1950. The 1950s and 1960s was a time when British manufactured goods were still purchased by many Australian consumers. The later 1960s onwards, there was a shift, mainly in the cities, to European made goods. The invasion of Japanese manufactured goods was relatively slower, especially in rural areas. The demand for long lasted and dependable merchandise was in the rural area still the most important criteria. The ease of setting up this typewriter and its compact mobility was its major benefit to trades people and travelling professionals, e.g. rural doctors, other medical professionals, accountants, lawyers and educators. This item facilitated the growing numbers of professional nomads requiring a relatively light office stationery package e.g. travelling novelist, writer, businessman and academics. This typewriter needed no electrical or battery power to operate it. Outback Australia, where at this point in time, was still relatively isolated from a good available electrical power reticulation and battery power, and therefore could not be totally measured as a highly efficient office environment.Although this typewriter was purchased from a business in Penrith, Sydney, N.S.W., it is significant that it travelled easily to the Kiewa Valley, demonstrating the mobility of certain sections of the community. This typewriter was designed by an Italian industrial designer, Marcello Nizzoli, in line with the art deco style of the 1930s and the colour and flexibility of the vibrant 1950s. The underlying theme of manufacturing in the 1950s was to produce equipment that was more efficient than what was inherited from the earlier period of 20th century. Improvements were made to this Olivetti typewriter by Giuseppe Beccio by reducing the number of parts made from 3,000 to 2,000. This reduction of parts and therefore cost of production was the major principle of the Japanese manufacturing juggernauts of the post World War II era. Efficiency and low costs material was becoming prime factors in the success of rural industries from the 1960s. Competition from overseas producers was starting to affect rural industries and the removal of the large range of tariff protection, especially rural products, required not only a shift of farm management but a more efficient cost savings modus operandi. This Olivetti Lettera 22, oblique front stroke portable (weighs 4kg) mechanical typewriter has a coral coloured plastic casing. The keys are made of black hardened plastic with white lettering, numbers and symbols (imperial fractions, and pound). It has a QWERTY keyboard as opposed to the Italian QZERTY. It has a lever to move the ribbon between black, neutral (for mimeograph stencils)and red colours (a red key is provided for highlighting specific words,letters or symbols) . This machine is fitted with only a black ribbon. It has a black rubber paper rollers and chromed metal parts on the carriage way. It has four rubber feet underneath the main body. On the left side of the roller there is a lever to adjust the roller from fixed (when mobile) through 1,2 and 3 line space gradients. This model has a key for zero but not one for the number one (uppercase letter l is used) see KVHS 0459 for the carrying bag.On the cover over the ribbon wheels letter strikers has a plate marked "Lettera 22" and the back plate behind the paper roller and in front of the paper supports has a silver metal label marked "olivetti made in great britain".commercial, mobile office equipment, mechanical typewriter

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

This jacket is part of the dress uniform of a Major in the Army Reserve. Major Bernard Farley who owned this jacket wore it to official functions in the Mess dining room. He served in this capacity from 1998-2001.Bernard also served in the RAAF for a number of years.This jacket has significance as it is typical of dress requirements which were worn to official Army functions.Short white jacket with wide front lapels epaulets at the shoulders and a small V shaped downward peak at the back. The sleeves have a stitched over section at the cuff with a point in line with the shoulder. On each epaulet from the collar edge side there is a brass coloured button with the Rising Sun in low relief and on the lower edge of the epaulet a brass coloured crown with red nsert and a circular shaped badge with the word Australia. There is a badge on each lapel two crossed rifles holding a crown in brass colour over the top of a silver VLabel states ,' Fetcher Jones Victoria 1998 NSN 8405-NIC Name....... Service No......... Polyester / Viscose Dry Cleanable ( A) Warm Gentle Machine Wash Rinse well. Warm iron. ZC785 BR1689 425267911.ZC785 107 R 347 044 05037649 cloth br 1689 17. J10129 OW Wwarrnambool, army reserve, dress jacket

Used by Mrs Elsie Singleton (nee Waldron) in her home at Wedderburn. The machine was invented by Samuel Osmond. The first half-yearly report of the Osmond Little Marvel Washing Machine Company was noted in the Adelaide Advertiser on 2 December 1903 when HG Prince presided. The number of directors was later reduced to 3. Osmond Little Marvel galvanised tin hand washing machine with six funnels attached to a frame and then a handle; brass name plate.Osmond Little Marvel washing machine No.3820 Patentedsamuel osmond, elsie singleton (née waldron)' wedderburn

From the dairy farm of Leon Miller, Swans Lane, AllansfordMilking machine chain driven vacuum pump made of cast iron, marked on the circular cylinder cap with an identification number.209allansford, machinery, dairy machinery, dairying, pumps, milking machines, leon miller

The watch was given to William James Robe by the captain of the barque Fiji as a token for helping to save his life and that of the crew on September 6th 1891 when the steel barque Fiji had foundered off “wreck beach" near Moonlight Head Warrnambool during a voyage from Hamburg to Melbourne. William or Bill as he was called was the one who had hauled out the last man, the captain, after he had become tangled in the kelp. William along with many other onlookers on the beach at the time had taken it in turns to go into the surf and drag half-drowned seamen to safety. These rescuers along with William James Robe, included Edwin Vinge, Hugh Cameron, Fenelon Mott, Arthur Wilkinson and Peter Carmody. Years later Bill passed the watch on to his brother-in-law Gilbert Hulands as payment of a debt. The grandson of Gilbert Hulands, John Hulands, has donated this watch to Flagstaff Hill Maritime Museum. The Fiji Wreck: The three-masted iron barque Fiji had been built in Belfast, Ireland, in 1875 by Harland and Wolfe for a Liverpool based shipping company. The ship departed Hamburg on 22nd May 1891 bound for Melbourne, under the command of Captain William Vickers with a crew of 25. On September 5th, one hundred days out from Hamburg in squally and boisterous south-west winds the Cape Otway light was sighted on a bearing differing from Captain Vickers' calculation of his position. At about 2:30 am, Sunday 6th September 1891 land was reported 4-5 miles off the port bow. The captain tried to put the ship on the other tack, but she would not respond. He then tried to turn her the other way but just as the manoeuvre was being completed Fiji struck rock only 274 metres from shore. The place is known as Wreck Bay, Moonlight Head. Blue lights were burned and rockets fired whilst an effort was made to lower boats but all capsized or swamped and smashed to pieces. Two of the younger crewmen volunteered to swim for the shore, taking a line. One, a Russian named Daniel Carkland, drowned after he was swept away when the line broke. The other, 17-year-old able seaman Julius Gebauhr, a German, reached shore safely on his second attempt but without the line, which he had cut loose with his sheath-knife when it becomes tangled in kelp. He rested on the beach a while then climbed the cliffs in search of help. At about 10 am on Sunday a party of land selectors - including F. J. Stanmore, Leslie Dickson (or Dixon) and Mott - found Gebauhr. They were near Ryans Den, on their travels on horseback from Princetown towards Moonlight Head, and about 5km from the wreck. They found Gebauhr lying in scrub and a poor state, bleeding and scantly dressed and with a sheath-knife. At first, they were concerned about his appearance and gibberish speech, taking him to be an escaped lunatic. They were reassured after Gebauhr threw his knife away realising he was speaking half-English, half-German. They gave him food and brandy and some clothing and were then able to gain information about the wreck. Some of the men took him to Rivernook, a nearby guest house owned by John Evans, where he was cared for. Stansmore and Dickson rode off to try and summon help. Others went down to the site of the wreck. Messages for rescuing the rest of the crew were sent both to Port Campbell for the rocket rescue crew and to Warrnambool for the lifeboat. The S.S. Casino sailed from Portland towards the scene. After travelling the 25 miles to the scene, half of the Port Campbell rocket crew and equipment arrived and set up the rocket tripod on the beach below the cliffs. By this time the crew of Fiji had been clinging to the jib-boom for almost 15 hours, calling frantically for help. Mr Tregear from the Rocket Crew fired the line. The light line broke and the rocket was carried away. A second line was successfully fired across the ship and made fast. The anxious sailors then attempted to come ashore along the line but, with as many as five at a time, the line sagged considerably and some were washed off. Others, nearly exhausted, had to then make their way through masses of seaweed and were often smothered by waves. Only 14 of the 24 who had remained on the ship made it to shore. Many onlookers on the beach took it in turns to go into the surf and drag half-drowned seamen to safety. One of the rescuers Arthur Wilkinson, a 29-year-old land selector, swam out to the aid of one of the ship's crewmen, a carpenter named John Plunken who was attempting to swim to shore. Two or three times both men almost reached the shore but were washed back to the wreck, a line was thrown to them. It was thought that Wilkinson had struck his head on the anchor during the rescue and had remained unconscious, the carpenter survived this ordeal but Wilkinson died and his body was washed up the next day. The wreck of Fiji smashed apart within 20 minutes of the captain being brought ashore, and it finally settling in 6m of water. Of the 26 men on Fiji, 11 in total lost their lives. The remains of 7 bodies were washed onto the beach. They were buried on the clifftop above the wreck. Captain Vickers was severely reprimanded for his mishandling of the ship and his is Masters Certificate was suspended for 12 months. At the time there was also a great deal of public criticism at the slow and disorganised rescue attempt to save those on board. The important canvas ‘breech buoy’ or ‘bucket chair’ and the heavy line from the Rocket Rescue was in the half of the rocket outfit that didn’t make it in time for the rescue: they had been delayed at the Gellibrand River ferry. Communications to Warrnambool were down so the call for help didn’t get through on time and the two or three boats that had been notified of the wreck failed to reach it in time. Much looting occurred of the cargo that washed up on the shore, with nearly every visitor leaving the beach with bulky pockets. One looter was caught with a small load of red and white rubber balls, which were duly confiscated and he was 'detained' for 14 days. The essence of peppermint mysteriously turned up in many settlers homes. Sailcloth was salvaged and used for horse rugs and tent flies. Soon after the wreck "Fiji tobacco" was being advertised around Victoria. A Customs officer, trying to prevent some of the looting, was assaulted by looters and thrown over a cliff. He managed to cling to a bush lower down until rescued. Seaman Julius Gebauhr later gave his knife, in its hand crafted leather sheath, to F. J. Stansmore for caring for him when he came ashore. Flagstaff Hill’s Fiji collection is of historical significance at a State level because of its association with the wreck Fiji, which is on the Victorian Heritage Register (S 259). The collection also represents key aspects of Victoria’s shipping history and its items offer the potential to interpret maritime historical events and social history of the time. Along with the potential to yield information that will contribute to an understanding of Victoria’s cultural history.Sterling silver fob watch Fusee movement face has a white background with black Roman numerals on it. The minute hand is gold coloured with a leaf shape. Seconds dial is inset at position 6, with Arabic numerals around it. Watch has machine engraving flower pattern front and back. The spherical winder has a number and a symbol on the upper face and a hole through the centre, the ring for the chain is missing. Back of a the watch opens to reveal a concave cover with a winding hole, which has a border of overlapping crescent-shapes. Inside cover a diamond with initials “JR”(John Rotherham) inside, a date letter “G” (1882) with a Lion Passant (Sterling Silver) also 3 numbers “8 1 9“embossed beside each other. The clock face has “Rotherhams / London” printed on it. The winder is also marked with a maker and sterling silver mark. “Y” and numbers “688” “3 CI A” “3309” “819” “555 A” and other numbers including a set engraved around the edge possibly jewelers marks who did repairs or maintenance on the item over the years.1891, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwrecked artefact, flagstaff hill maritime village, shipwreck coast, warrnambool, fiji, pocket watch, william vickers, william robe, bill robe, fiji watch

This Albion printing press was manufactured by Harrild & Sons of London and exported in 1868 from London to the colonial Western Victoria town of Coleraine, population of 700 at that time. It was installed in the Colerain Albion printing office. It was used to print the first edition of the Coleraine Albion newspaper in 1868 and continued until publication ceased in 1974. The Albion Press is still being used today by a volunteer printer in the “Examiners Office” in the village at Flagstaff Hill. Amongst the items produced are printed paper bags for the Tea Rooms and posters for visitors. ALBION PRINTING PRESS The Albion press was invented and manufactured in London by Richard Whittaker Cope around 1820 and was still being produced in the 1930s. The Albion was manufactured under licence by several companies from the 1850s onwards, one of which was Harrild & Sons of Fleet Works, London. Harrild & Sons describes its business as “printing materials manufacturer”. The business was established in 1807 by Robert Harrild and named R. Harrild & Co. In 1813 he showed that rollers could be used to ink a printing plate instead of inking balls, the method in use at the time. He then established a company to make the rollers. Eventually his company would make other printing materials and equipment. Robert’s sons joined him in the 1830s, when the company was renamed Harrild & Sons, and they continued to run the company after his death in 1853 and up until the mid-1900s. COLERAINE ALBION PRINTING OFFICE The Coleraine Albion Printing Office was established by W.L. Ambler. The first issue of the Coleraine Albion was dated 4th January 1868. Arrangements had been made to receive news from Melbourne, nearby provinces, other colonies and England. The second issue on 18 January 1868 printed articles from many agencies, including the Melbourne Age and the Warrnambool Examiner. The Albion office was sold to William Hatherleigh, formerly of Portland, in October 1868. Thereafter the Albion office had many owners. The last was L. A. & E. Oliver, who took over in January 1972 and was the last to be stated as printers and publishers of the Coleraine Albion. The office was wound up in 1974. The Albion Press and other equipment was distributed to Star printing in Terang. Star Printing donated the Albion press to Flagstaff Hill Maritime Village around 1980 and Stan Philp, owner of Philprint in Warrnambool, transported it to Warrnambool, brought it up to good working order and organised the supply of appropriate printer’s type. The Albion hand operated printing press is significant for producing the first newspaper in Coleraine, Western Victoria and continuing production for over 100 years. The Albion is technologically significant as a working example of a hand operated printer from the mid-19th century. The use of the printer is demonstrated by volunteers at Flagstaff Hill, printing items such as lolly and treat bays for use in the Village. The Albion is socially significant for its role in the isolated provincial colony, providing communication with the outside world, both in Australia and overseas. Newspaper printers were often amongst the first businesses of a small town. Printing press; hand operated Albion Press, Patent 2105. The machine has an upright iron frame at the back that supports the upper press that has a wooden handled metal bar is attached. The frame and legs support a thick metal flatbed. A metal leg supports the front of the press bed. The iron work is painted black with gold highlights. The decorative legs are finished with the golden feet of an animal. The frame above the metal bed includes a crown shaped finial symbol above the maker’s emblem. The maker’s details and the name of the printer are embossed on the upright frame. A plaque with the patent number is below a Lion and Unicorn emblem.Embossed maker’s emblem [A red cross - above a double ring – square inside ring – three banners below ring]. - Inside the double rings “PRINTING MATERIALS MANUFACTURE” - Inside the square, intertwined text “H & S” [representing Harrild & Sons] - Inside the three banners ““FLEET” “WORKS.” “LONDON.E.C.” Embossed across the shoulders “ALBION PRESS / HARRILD & SONS, / MAKERS LONDON.” Emblem above plaque [Lion and Unicorn] Embossed on the plaque “PATENT / 2105” Stamped into upright machine part above the printing bed “2105 / 1866” flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, albion press, printing press, 1866 printing press, printing equipment, communications, coleraine albion printing office, coleraine newspaper, albion newspaper, south west victoria newspapers, harrild and sons london, richard whittaker cope, star printing terang, philprint, coleraine albion, hand operated press

Sewing machine, portable, hand operated, with Premier logo. Has folding crank handle, body painted black with floral design, wooden base and separate wooden cover with lock. Base has compartment with accessories, covered by curved ended, sliding wooden panel. Decorative linework on side, carvings on each corner. Wooden handle on cover is carved in rings, folds down. Below handle is decorative inlaid pattern. Serial number on plate at back of machine. Accessories include 13 attachments, key (broken), screwdriver, sewing machine needle, razor blades (2) and buttons. Attached to inside of case is a square of paper with a number on it. Instruction book for Singer Sewing Machines is included. Also with machine are white tailor's chalk and a cut out, fabric pocket with tissue paper pattern pinned to it.Serial number "579200" is stamped into plate at back of machine. Brand on transfer on front of machine is "Premier". Paper inside case has hand written number "334A". Instruction book "Instructions for using Singer Sewing Machines No. 66 - Oscillating hook for family use" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sewing machine, permier sewing machine, hand operated sewing machine, dressmaker, fasion, singer no. 66 manual, textile, flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sewing machine, permier sewing machine, hand operated sewing machine, dressmaker, fasion, singer no. 66 manual, textile

This apron is one of several linen and clothing items that were made and belonged to Mrs. Eliza Towns and donated to Flagstaff Hill Maritime Museum and Village. Eliza was born Eliza Gould in 1857 in South Melbourne (Emerald Hill) and in 1879 married Charles Towns. In the early 1880's they moved to Nhill in western Victoria and remained there for the rest of their married life. Charles was a jeweller and later became an accountant and for many years was involved with the Shire Council, the local show committee (A & P Society), the Hospital Committee and the Board of the local newspaper (the Nhill Free Press). They had three children and lived a life that would be regarded as comfortably "middle class". Eliza probably had a treadle sewing machine and would have made many of her own clothes - adding her own handmade embroidered or crocheted decorative trim. In March 1915 Eliza travelled to San Francisco to visit her son, James. She went by train to Melbourne ("a pleasant journey on the up express') and the next day caught the express train to Sydney. She noted in her letters home that a " number of young men were going to Sydney to enlist but they had to stop in the corridors most of the way as there was no room for them to sit down". She spent the night on the train and arrived in Sydney the next morning and on the following day she boarded the R.M.S. "Moana" (a steamer which took about twenty-four days to reach San Francisco). She returned from Vancouver about five months later on board the "Manuka". It is very likely Eliza took this "Travelling Apron" with her on her travels. Eliza was travelling by herself and had no one to help her with her dress or her hair. "Travelling Aprons" (also known as Toilet Aprons or Tourist Aprons) were designed with different sized pockets for holding a lady's toiletries - hairbrush, hair pins, comb and sometimes even soap and a powder puff. This allowed the owner, when travelling and getting dressed in small places such as an overnight train compartment or a ship's cabin, to have all her requirements at hand without needing to search for them or have them roll onto the floor. Some of the pockets are finished with buttoned flaps to keep the items in place and when not in use, the apron could be hung up or rolled up and put away. Articles about the "Traveller's Apron" appeared in numerous Women's columns in Australian newspapers in the early 20th century - often with instructions and sometimes a pattern. In the "Age" on Sat 5th October 1907 in a column titled "Feminine Facts and Fancies" the author wrote "No man can appreciate the difficulties of dressing in a "wobbly" train or trying to do one's hair while a ship is weathering a storm". A year earlier (Saturday 24th March 1906) in the same column, the author wrote "... you have to spend nights in a train... forever struggling to dress yourself in a wretched little lavatory. You know how your hairpins and combs jump all over the place ... a train is always at its liveliest when you're trying to do your hair. My travelling apron saved me many a rage."This item is an example of the needlework skills of women in the early 20th century - combining machine stitching with hand embroidery to personalise and embellish a practical domestic object. It is also an excellent (and rare) example of an early 20th century innovation that helped solve the difficulties of privacy and convenience that many women experienced at a time when travel was becoming more accessible to them. A half apron, made of ivory linen with two waist ties and seven pockets. Along the top are two smaller pockets with triangular, buttoned flaps labelled "Hairpins" and "Nailbrush" and one larger unlabelled pocket. Underneath are two larger pockets labelled "Brush & Comb" and "Work" and two unlabelled narrow pockets. The seams are machine stitched and the pockets are outlined with hand embroidered feather stitch. The labels on the pockets are embroidered in stem stitch."Hairpins" / "Nailbrush" / "Brush and Comb" / "Work"flagstaff hill maritime museum and village, nhill, eliza towns, apron, travelling apron, tourist apron, textiles, toilet apron, sewing, embroidery, travel, warrnambool, great ocean road, trains, ships, moana, manuka, feather stitch, stem stitch, fashion, handmade, clothing, charles towns, needlework

Hardcovered book, half leather bound with marbled paper. Formerly book number 4040 from the Ballaarat East Public Library. Contents include: new pit-saw, self-moving carriage (car), Lord Worcestor's steam engine, extinction of fires, Cameron's Soda Water Apparatus, Newton's Lectures on Astronomy, coining at the Royal Mint, mechanical geometry, lifting ships by steam, voltaic-mechanic agent, steam navigation, portable hand-mill, Brown's pneumatic engine, Bell's invention for saving lives from shipwreck, triple pump, cycloidal chuck, potato-washer, sand clock, Galvanic electricity, perpetual motion, Hadley's Quadrent, Wollaston's Night-Bolt, rope bridges, boring machinery, locomotive steam-engines, new London Bridge, naval architecture, steam and water wheel, Spencer's Patent Forge, boat with wings, ivory profile portraits, Jenning's Gas burner, Ramage's Telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe. Includes image of Henry Brougham, and many drawings of inventions.non-fictioncar, newton, fire, shipwreck, bell, naval architecture, locomotive, ballaarat east public library, ballarat east public library, ballarat east library, henry brougham, potassium, meridian lines, pit saw, self moving carriage, lord worcestor, steam engine, cameron s, soda water, astronomy, royal mint, mechanical geometry, lifting ships by steam, voltaic mechanic agent, steam navigation, hand mill, brown s pneumatic engine, triple pump, cycloidal chuck, potato washer, sand clock, galvanic electricity, perpetual motion, hadley s quadrent, wollaston s night bolt, rope bridges, boring machinery, steam engines, new london bridge, steam and water wheel, spencer s patent forge, boat with wings, ivory profile portraits, jenning s gas burner, ramage s telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe, bookplate

Used before the invention of electronic calculators, mechanical adding machines were most often used for long calculations. This calculator was used in the Ballarat School of Mines Physics Department. Addition and subtraction were perfomed by turning the larger side mounted crank forward or backward. the smaller crank lever zeros the two registers. Two buttons are provided to set the machine either to clear the number entry with each revolution of the crank or to repeat the entry. The largest button resets the keybord to all 0s.A calculator with shiftable carriage and digit separator rods between each row of keys.ballarat school of mines, calculator

X-Rays were first discovered on 08 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 08 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml) "Seven patients of the doctors who were present were treated. In each case the patient was suffering from the effects of an old wound or some other injury to other a hand or foot. One patient, a boy had a finger broken some years earlier and when xray plate of the injury was developed it indicated plainly the fracture on one of the joints of the third finger. In another case a woman had a foot had a foot X-rayed and the photograph revealed the seat of an earlier imjury to it. Likewise an injury to the bones of a hand of an elderly man was revealed by an x-ray photograph. Every X-ray photograph that evening showed the importance of this new development in electrical science and the doctors present agreed the "the results of the experiments on their patients, by showing the exact seat of the injury and its present condittion, would materially assist them iin supporting cures." (Warren Perry, The Ballarat School of Mines and Industries Ballarat, p 146.)A number of photographic xrays as taken by the Ballarat School of Mines in 1896. The xrays include bones, hands, feet, shoes and more. ballarat school of mines, scientific equipment, x-ray, xray, photography, foto, roentgen tube

X-Rays were first discovered on 8 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 8 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml)Two men, one seated, one standing standing in a room with early electrical equipment. They are conducting pioneer X-rays at the Ballarat School of Mines in 1896. Seated on the left is John Waters Sutherland.A bromide of this images states "Experimenting with X-rays, 1896"ballarat school of mines, x-ray, xray, john sutherland, sutherland, electricity, photography, foto, roentgen tube, medical

It is not known which building these plans belong to. Since there is a Heat Treatment Room and a number of vices it may be a metalwork room, and may be related to Repatriation classes after World War One. Blueprint of plans for a new workshop at the Ballarat School of Mines. The plan includes a lecture room, bulk store, tool store, heat treatment room, office and two machine shops. Around the machine shops are work benches and vyces (sic)new workshop block, ballarat school of mines, repatriation, buildings