A moulding plane is a specialised plane used for making the complex shapes found in wooden mouldings that are used to decorate furniture or other wooden objects. Traditionally, moulding planes were blocks of wear-resistant hardwood, often beech or maple, which were worked to the shape of the intended moulding. The blade or iron was likewise formed to the intended moulding profile and secured in the body of the plane with a wooden wedge. A traditional cabinetmakers shop might have many, perhaps hundreds, of moulding planes for the full range of work to be performed. Large crown mouldings required planes of six or more inches in width, which demanded great strength to push and often had additional peg handles on the sides, allowing the craftsman's apprentice or other workers to pull the plane ahead of the master who guided it. Company History: The Holtzapffel dynasty of tool and lathe makers was founded in Long Acre, London by a Strasbourg-born turner, Jean-Jacques Holtzapffel, in 1794. The firm specialized in lathes for ornamental turning but also made a name for its high-quality edge and boring tools. Moving to London from Alsace in 1792, Jean-Jacques worked initially in the workshop of the scientific-instrument maker Jesse Ramsden, Anglicizing his name to John Jacob Holtzapffel. In 1794 he set up a tool-making partnership in Long Acre with Francis Rousset and they began trading under the name of John Holtzapffel. From 1804 he was in partnership with the Mannheim-born Johann Georg Deyerlein until the latter died in 1826, trading under the name Holtzapffel & Deyerlein. Holtzapffel sold his first lathe in June 1795, for £25-4s-10d, an enormous price at the time. All of Holtzapffel's lathes were numbered and by the time he died in 1835, about 1,600 had been sold. The business was located at 64 Charing Cross, London from 1819 until 1901 when the site was required "for building purposes". The firm then moved to 13 and 14 New Bond Street and was in premises in the Haymarket from 1907 to 1930. John's son, Charles Holtzapffel (1806–1847) joined the firm in 1827, at around which time the firm became known as Holtzapffel & Co. Charles continued to run the business after his father's death. He wrote a 2,750-page treatise entitled Turning and Mechanical Manipulation, published in 1843 which came to be regarded as the bible of ornamental turning. The final two volumes were completed and published after his death by his son, John Jacob Holtzapffel (1836–1897). When Charles Holtzapffel died in 1847 his wife Amelia ran the business until 1853. John Jacob II, the son of Charles and Amelia, was head of the firm from 1867 until 1896. A nephew of John Jacob II, George William Budd (1857–1924) became head of the firm in 1896. His son John George Holtzapffel Budd (1888–1968) later ran the business. By the early twentieth century, ornamental turning was going out of fashion, and the firm sold its last lathe in 1928. A vintage tool made by a well-known firm made for firms and individuals that worked in wood. The tool was used before routers and spindle moulders came into use after World War ll, a time when to produce a decorative moulding for a piece of furniture or other items this had to be accomplished by hand using one of these types of planes. A significant item from the mid to late 19th century that today is quite rare and sought after by collectors. It gives us a snapshot of how furniture was made predominately by hand and with tools that were themselves hand made shows the craftsmanship used to make such a unique item. Moulding Plane Holtzaffel 64 Charing & Owner J Heath 9/16" marked opposite endflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, plane moulding, plane, j heath

A moulding plane is a specialised plane used for making the complex shapes found in wooden mouldings that are used to decorate furniture or other wooden objects. Traditionally, moulding planes were blocks of wear-resistant hardwood, often beech or maple, which were worked to the shape of the intended moulding. The blade or iron was likewise formed to the intended moulding profile and secured in the body of the plane with a wooden wedge. A traditional cabinetmakers shop might have many, perhaps hundreds, of moulding planes for the full range of work to be performed. Large crown mouldings required planes of six or more inches in width, which demanded great strength to push and often had additional peg handles on the sides, allowing the craftsman's apprentice or other workers to pull the plane ahead of the master who guided it. Company History: The Holtzapffel dynasty of tool and lathe makers was founded in Long Acre, London by a Strasbourg-born turner, Jean-Jacques Holtzapffel, in 1794. The firm specialized in lathes for ornamental turning but also made a name for its high-quality edge and boring tools. Moving to London from Alsace in 1792, Jean-Jacques worked initially in the workshop of the scientific-instrument maker Jesse Ramsden, Anglicizing his name to John Jacob Holtzapffel. In 1794 he set up a tool-making partnership in Long Acre with Francis Rousset and they began trading under the name of John Holtzapffel. From 1804 he was in partnership with the Mannheim-born Johann Georg Deyerlein until the latter died in 1826, trading under the name Holtzapffel & Deyerlein. Holtzapffel sold his first lathe in June 1795, for £25-4s-10d, an enormous price at the time. All of Holtzapffel's lathes were numbered and by the time he died in 1835, about 1,600 had been sold. The business was located at 64 Charing Cross, London from 1819 until 1901 when the site was required "for building purposes". The firm then moved to 13 and 14 New Bond Street and was in premises in the Haymarket from 1907 to 1930. John's son, Charles Holtzapffel (1806–1847) joined the firm in 1827, at around which time the firm became known as Holtzapffel & Co. Charles continued to run the business after his father's death. He wrote a 2,750-page treatise entitled Turning and Mechanical Manipulation, published in 1843 which came to be regarded as the bible of ornamental turning. The final two volumes were completed and published after his death by his son, John Jacob Holtzapffel (1836–1897). When Charles Holtzapffel died in 1847 his wife Amelia ran the business until 1853. John Jacob II, the son of Charles and Amelia, was head of the firm from 1867 until 1896. A nephew of John Jacob II, George William Budd (1857–1924) became head of the firm in 1896. His son John George Holtzapffel Budd (1888–1968) later ran the business. By the early twentieth century, ornamental turning was going out of fashion, and the firm sold its last lathe in 1928. A vintage tool made by a well-known firm made for firms and individuals that worked in wood. The tool was used before routers and spindle moulders came into use after World War ll, a time when to produce a decorative moulding for a piece of furniture or other items this had to be accomplished by hand using one of these types of planes. A significant item from the mid to late 19th century that today is quite rare and sought after by collectors. It gives us a snapshot of how furniture was made predominately by hand and with tools that were themselves hand made shows the craftsmanship used to make such a unique item. Moulding Plane Holtzaffel 64 Charing & Owner J Heath 9/16" marked opposite endflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, plane moulding, plane, j heath

The discovery of the first telescope in 1608 can be attributed to Hans Lippershey of the Netherlands when he discovers that holding two lenses up some distance apart bring objects closer. He applies for a patent on his invention and this becomes the first documented creation of a telescope. Then in 1668, Newton produces the first successful reflecting telescope using a two-inch diameter concave spherical mirror. This opened the door to magnifying objects millions of times far beyond what could ever be obtained with a lens. It wasn’t until 1729 that Chester Moor Hall develops an achromatic lens (two pieces of glass with different indices of light refraction combined produce a lens that can focus colours to almost an exact point resulting in much sharper images but still with some distortion around the edges of the image. Then in 1729 Scottish instrument maker James Short invents the first parabolic and elliptic, distortion-less mirror ideal for reflecting telescopes. We now come to John Dollond who improves upon the achromatic objective lens by placing a concave flint glass lens between two convex crown glass lenses. This had the effect of improving the image considerably. Makers Information: John Dollond (1707-1761) London England he was a maker of optical and astronomical instruments who developed an achromatic (non-colour distorting) refracting telescope and practical heliometer. A telescope that used a divided lens to measure the Sun’s diameter and the angles between celestial bodies. The son of a Huguenot refugees Dollond learned the family trade of silk weaving. He became proficient in optics and astronomy and in 1752 his eldest son, Peter joined his father in an optical business, in 1753 he introduced the heliometer. In the same year, he also took out a patent on his new lenses. He was elected a fellow of the Royal Society in May 1761 but died suddenly in November and his share in the patent passed to his son Peter. In subsequent squabbles between Peter and the many London opticians who challenged his patent, Peter’s consistent position was that, whatever precedents there may have been to his achromatic lenses, his father had independently reached his practical technique on the basis of his theoretical command of Newtonian optics. As a result of maintaining his fathers patent, Dollond s became the leading manufacturer of optical instruments. For a time in the eighteenth and nineteenth century the word 'Dollond' was almost a generic term for telescope rather like 'Hoover; is to vacuum cleaner. Genuine Dollond telescopes were considered to be amongst the best. Peter Dollond (1731-1820) was the business brain behind the company which he founded in Vine Street, Spitalfields in 1750 and in 1752 moved the business to the Strand London. The Dollonds seem to have made both types of telescopes (reflecting and refracting), possessing the technology to produce significant numbers of lenses free of chromatic aberration for refracting telescopes. A Dollond telescope sailed with Captain Cook in 1769 on his voyage to observe the Transit of Venus. Thomas Jefferson and Admiral Lord Nelson were also customers of the Dollonds. Dollond & Co merged with Aitchison & Co in 1927 to form Dollond & Aitchison, the well-known high street chain of opticians, now fully part of Boots Opticians. They no longer manufacture but are exclusively a retail operation.    John Dollond's experiments in optics and how different combinations of lenses refract light and colour gave a better understanding of the divergent properties of lenses. That went on to inform and pave the way for the improvement of our understanding of optics that are represented today. Dollond was referred to in his time as the "Father of practical optics" as a leader in his field he received many prestigious awards. The telescope in the collection is a good example of one of Dollonds early library telescopes and its connection with one of England's 18th-century pioneers in optical development is in itself a significant and an important item to have within the collection. One tube ships day & Night Telescope brass inner tube with timber main tube covered in leather. Unavailable to inspect Inscriptions to determine authenticity.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, telescope, dolland, shipwreck-coast, flagstaff-hill-maritime-village, royal national life boat institution

The Joly meldometer was created to determine the melting point of minerals. W.E. Wilson, an astronomer and author, stated in 1900 that the Joly meldometer consisted of a ‘a strip of platinum on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’i . One reason why the Joly meldometer was seen as a successful addition to science was the small amount of any substance that it required for testing. Only a minute sample was needed for the instrument to work and so a tiny part could be taken from a delicate item without destroying itii . The instrument was originally manufactured by the Irish company Yeates & Son of Dublin. The Yeates family business was established in the early 1790’s and is thought to have operated until approximately 1922iii . Their business slogan was recorded as ‘Instrument makers to the University’, a slogan which proudly exhibited their relationship with Trinity College, Dublin. The company was located directly opposite Trinity College, the place where the Joly meldometer was created. Working in such close proximity must have assisted this business relationship. The inventor of this meldometer was Irishman John Joly. Joly was born in 1857 at the Church of Ireland Rectory, Hollywood House. His education led him to Trinity College Dublin where, by 1891, he had obtained a Bachelor of Engineering degree as well as a Doctorate of Science. The entirety of his working life appears to have taken place at Trinity College although he is known to have travelled in order to consult with other scientists such as the world renowned Sir Ernest Rutherford. The Joly meldometer was used for a variety of different purposes, with scientists often adapting the instrument to suit their own needs. For instance, the previously mentioned astronomer W.E. Wilson adapted the meldometer to assist him in measuring the radiation of the suniv . Joly used his device in an attempt to ascertain the age of the earth. In 1913, along with Sir Rutherford, Joly came to the conclusion that the earth was approximately 400 million years old. They did this by analysing the decay of radioactivity in minerals. According to our present knowledge of the earth this was a much more accurate date than the dates Joly had previously derived. He had first thought that the earth was 97 million years old due to the volume of sodium in the oceans. Joly’s second analysis of the topic had resulted in the age of 80 million years. This figure was based on the accumulation of sediment. Apart from designing his meldometer, Joly is also remembered for his work with colour photography. In 1894 Joly discovered a method for creating colour photographs from a single platev . He also studied the use of radiation as a treatment for cancer and persuaded the Royal Dublin Society to establish the Radium Institute to assist hospitals. In 1933 Joly passed away at the age of seventy-six.

Kelvin Company History: The origins of the company lie in the highly successful, if strictly informal, the relationship between William Thomson (1824-1907), Professor of Natural Philosophy at Glasgow University from 1846-1899 and James White, a Glasgow optical maker. James White (1824-1884) founded the firm of James White, who was an optical instrument maker in Glasgow in 1850. He was involved in supplying and mending apparatus for Thomson's university laboratory and working with him on experimental constructions. White was actually declared bankrupt in August 1861 and released several months later. In 1870, White was largely responsible for equipping William Thomson's laboratory in the new University premises at Gilmore hill. From 1876, he was producing accurate compasses for metal ships to Thomson's design during this period and this became an important part of his business in the last years of his life. He was also involved in the production of sophisticated sounding machinery that Thomson had designed to address problems encountered laying cables at sea, helping to make possible the first transatlantic cable connection. At the same time, he continued to make a whole range of more conventional instruments such as telescopes, microscopes and surveying equipment. White's association with Thomson continued until he died. After his death, his business continued under the same name, being administered by Matthew Edwards (until 1891 when he left to set up his own company). Thomson, who became Sir William Thomson and then Baron Kelvin of Largs in 1892, continued to maintain his interest in the business after James White's death in 1884, raising most of the capital needed to construct and equip new workshops in Cambridge Street, Glasgow. At these premises, the company continued to make the compass Thomson had designed during the 1870s and to supply it in some quantity, especially to the Admiralty. At the same time, the firm became increasingly involved in the design, production and sale of electrical apparatus. In 1899, Lord Kelvin resigned from his University chair and became, in 1900, a director in the newly formed limited liability company Kelvin & James White Ltd which had acquired the business of James White. At the same time Kelvin's nephew, James Thomson Bottomley (1845-1926), joined the firm. In 1904, a London branch office was opened which by 1915 had become known as Kelvin, White & Hutton Ltd . Kelvin & James White Ltd underwent a further change of name in 1913, becoming Kelvin Bottomley & Baird Ltd . Hughes Company History: Henry Hughes & Sons was founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as Henry Hughes & Sons Ltd in 1903. In 1923, the company produced its first recording echo sounder and in 1935, a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing Marine Instruments Ltd. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd., Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military use. This model compass is a good example of the commercial type of instruments made by Kelvin & Hughes after the world war 2, it was made in numbers for use on various types of shipping after the second world war and is not particularly rare or significant for it's type. Also it was made no earlier than 1947 as the firms of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd who took over from Smith & Sons were not amalgamated until 1947. Given that Smith and Sons is engraved on the compass with Kelvin & Hughes it can be assumed that this compass was made during the company's transitional period to Kelvin & Hughes.Compass, marine or ship's card compass, gimble mounted, with inscriptions. Type is Lord Kelvin 10 inch compass card. Made in Great Britain by Kelvin Hughes Division of S. Smith & Sons (England) Ltd. "LORD KELVIN 10.", "COMPASS GRID", "MANUFACTURED IN GREAT BRITAIN BY", "KELVIN HUGHES DIVISION", "S. Smith & Sons (England) Ltd".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, marine compass, gimble compass, ship's compass, lord kelvin compass, smith and sons england ltd, henry hughes & son ltd london england, kelvin bottomley & baird ltd glasgow scotland, kelvin & hughes ltd, navigation instrument, scientific instrument, william thomson, james white, baron kelvin of largs

Navigators use parallel rule with maps and charts for plotting a specific course on a chart. One long edge is used with the compass rose on the chart, aligning the centre of the rose with the desired direction around the edge of the rose. The compass bars are then ‘walked’ in and out across the map to the desired location so that lines can be plotted to represent the direction to be travelled. Kelvin Company History: The origins of the company lie in the highly successful and strictly informal relationship between William Thomson (1824-1907), Professor of Natural Philosophy at Glasgow University from 1846-1899 and James White, a Glasgow optical maker. James White (1824-1884) founded the firm of James White, an optical instrument maker in Glasgow in 1850 and was involved in supplying and mending apparatus for Thomson university laboratory and working with him on experimental constructions. White was declared bankrupt in August 1861 and released several months later. In 1870, White was largely responsible for equipping William Thomson laboratory in the new University premises at Gilmore hill. From 1876, he was producing accurate compasses for metal ships to Thomson design during this period and this became an important part of his business in the last years of his life. He was also involved in the production of sophisticated sounding machinery that Thomson had designed to address problems encountered laying cables at sea, helping to make possible the first transatlantic cable connection. At the same time, he continued to make a whole range of more conventional instruments such as telescopes, microscopes and surveying equipment. White's association with Thomson continued until he died. After his death, his business continued under the same name, being administered by Matthew Edwards until 1891 when he left to set up his own company. Thomson who became Sir William Thomson and then Baron Kelvin of Largs in 1892, continued to maintain his interest in the business after James White's death in 1884, raising most of the capital needed to construct and equip new workshops in Cambridge Street, Glasgow. At these premises, the company continued to make the compass Thomson had designed during the 1870s and to supply it in some quantity, especially to the Admiralty. At the same time, the firm became increasingly involved in the design, production and sale of electrical apparatus. In 1899, Lord Kelvin resigned from his University chair and became, in 1900, a director in the newly formed limited liability company Kelvin & James White Ltd which had acquired the business of James White. At the same time Kelvin's nephew, James Thomson Bottomley (1845-1926), joined the firm. In 1904, a London branch office was opened which by 1915 had become known as Kelvin, White & Hutton Ltd. Kelvin & James White Ltd underwent a further change of name in 1913, becoming Kelvin Bottomley & Baird Ltd. Hughes Company History: Henry Hughes & Sons were founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as “Henry Hughes & Sons Ltd” in 1903. In 1923, the company produced its first recording echo sounder and in 1935 a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing “Marine Instruments Ltd”. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd. Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military. This model parallel map ruler is a good example of the commercial diversity of navigational instruments made by Kelvin & Hughes after World War II. It was made in numbers for use by shipping after the second world war and is not particularly rare or significant for it's type. Also it was made no earlier than 1947 as the firms of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd who took over from Smith & Sons were not amalgamated until 1947. It can therefor be assumed that this ruler was made during the company's transitional period to Kelvin & Hughes from Smith Industries Ltd.Brass parallel rule in wooden box with blue felt lining.Rule inscribed on front "Kelvin & Hughes Ltd" " Made in Great Britain"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, parallel rule, kelvin & hughes ltd, map ruler, plot direction, navigation, maps, echo sounder, kelvin & james white, lord kelvin, baron kelvin of largs, scientific instrument

In 1941, the scientific instrument manufacturing firms of  Henry Hughes & Son Ltd, London, England, and  Kelvin Bottomley & Baird Ltd, Glasgow, Scotland, came together to form Kelvin & Hughes Ltd. Kelvin Company History: The origins of the company lie in the highly successful and strictly informal relationship between William Thomson (1824-1907), Professor of Natural Philosophy at Glasgow University from 1846-1899 and James White, a Glasgow optical maker. James White (1824-1884) founded the firm of James White, an optical instrument maker in Glasgow in 1850 and was involved in supplying and mending apparatus for Thomson university laboratory and working with him on experimental constructions. White was declared bankrupt in August 1861 and released several months later. In 1870, White was largely responsible for equipping William Thomson laboratory in the new University premises at Gilmore hill. From 1876, he was producing accurate compasses for metal ships to Thomson design during this period and this became an important part of his business in the last years of his life. He was also involved in the production of sophisticated-sounding machinery that Thomson had designed to address problems encountered laying cables at sea, helping to make possible the first transatlantic cable connection. At the same time, he continued to make a whole range of more conventional instruments such as telescopes, microscopes and surveying equipment. White's association with Thomson continued until he died. After his death, his business continued under the same name, being administered by Matthew Edwards (until 1891 when he left to set up his own company. Thomson who became Sir William Thomson and then Baron Kelvin of Largs in 1892, continued to maintain his interest in the business after James White's death. In 1884 raising most of the capital needed to construct and equip new workshops in Cambridge Street, Glasgow. At these premises, the company continued to make the compass Thomson had designed during the 1870s and to supply it in some quantity, especially to the Admiralty. At the same time, the firm became increasingly involved in the design, production and sale of electrical apparatus. In 1899, Lord Kelvin resigned from his University chair and became, in 1900, a director in the newly formed limited liability company Kelvin & James White Ltd which had acquired the business of James White. At the same time Kelvin's nephew, James Thomson Bottomley (1845-1926), joined the firm. In 1904, a London branch office was opened which by 1915 had become known as Kelvin, White & Hutton Ltd. Kelvin & James White Ltd underwent a further change of name in 1913, becoming Kelvin Bottomley & Baird Ltd. Hughes Company History: Henry Hughes & Sons were founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as “Henry Hughes & Sons Ltd” in 1903. In 1923, the company produced its first recording echo sounder and in 1935 a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing “Marine Instruments Ltd”. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd. Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S. Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military. G. Falconer Company History: G Falconer (Hong Kong Ltd) appear to have had a retail presence in Hong Kong since 1885, according to the company website, and currently have a shop in the Peninsula Hotel. G Falconer was the Hong Kong selling agent for several British companies. Ross Ltd of 111 New Bond St London was one and the other was Kelvins Nautical Instruments. Falconers were primarily watchmakers, jewellers and diamond merchants.They were also agents for Admiralty Charts, Ross binoculars and telescopes, and sold English Silverware and High Class English Jewellery. In 1928 the company was operating from the Union Building opposite the Hong Kong general post office. It is unclear if the item is an original Sextant made by Kelvin prior to his amalgamation with Henry Hughes & Sons in 1941 as Kelvin appears to have only made compasses up to this date. If the Sextant can be established that it was made by Kelvin then it is very significant and a rare item made for and distributed through their Hong Kong selling agents G Falconer Ltd. There are many Sextants advertised for sale stating "Kelvin & Hughes 1917 model sextant". These can be regarded as replicas as the company was not formed until 1941 and production of marine instruments was not fully under way until after the war in 1947. Further investigation needs to be undertaken to accurately determine the provenance of this item. As the writer currently has the impression that the subject object was possibly made by Kelvin and Hughes in the mid to late 20th century or is a replica made by an unknown maker in the late 1970s. Purchased as an exhibition of marine navigational instruments for the Flagstaff Hill museum. The Sextant is a brass apparatus with filters and telescope lens, and comes with a wooden felt lined storage box. It is a doubly reflecting navigation instrument that measures the angular distance between two visible objects. The primary use of a sextant is to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation.G Falconer and Co. Hong Kong (retailers of nautical equipmentflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sextant, kelvin & hughes ltd, hong kong, navigational instrument, g falconer, mariner's quadrants

The Victorian Gold Jubilee Exhibition, held at Bendigo from 13 November 1901 to 14 May 1902. The courts were numbered from one, or had titles like “Machinery”, “Agricultural”, “Naval & Military Court” and “Art”. The female visitors to the Exhibition were able to view exhibits deemed suitable for the fairer sex and located within their own “Women’s Court”. There were exhibits such as “Parasols & Umbrellas”, cotton and haberdashery from Manchester and Staffordshire, “Corsets & Embroideries” from Paris. The most valuable exhibits were mining machinery such as Taylor Horsfield’s £850 “Air Compressor & Rock Borer”. “Bohemian Glassware” brought down from Sydney was valued at £600. The profits from this Exhibition were used to fund the sculpture known as the Gold Monument, which still gazes along Pall Mall (from the McCrae Street end). The Exhibition’s Cash Book shows payments, which totalled £1160, were made to then up and coming sculptor C.D.Richardson. Recently a City of Greater Bendigo staff member used both these volumes to write a detailed report about this monument, for Heritage Victoria.Carol Holsworth Collection: Small book Souvenir, 29 pages plus cover; each page. has a photo of the exhibit. Exhibition was held on the site of the present Bendigo Library between Hargreaves St and Lyttleton Terrace. * 8662.1a Victorian Gold Jubilee Exhibition - Front Cover: Printed 'Souvenir', 'Bendigo 1901-1902'; a photo of the Entrance to the exhibition beside the Town Hall. * 8662.1b Victorian Gold Jubilee Exhibition - Inside Front Cover - Page 1 of 29. Portraits of Exhibition President S.H. Cowen esq.; and G.V. Allen esc., General Secretary. Photos by W.H. Robinson publisher. Printed by T. Cambridge, Market Square Bendigo. * 8662.1c Victorian Gold Jubilee Exhibition - Page 1 of 29 The Governor General at the Exhibition. Photo of the crowd, police, trooper and horse drawn vehicles. * 8662.1d Victorian Gold Jubilee Exhibition - Page 2 of 29 Procession Passing the Fountain, Pall Mall. The crowd and horse drawn vehicles. *8662.1e Victorian Gold Jubilee Exhibition - Page 3 of 29 James Martin and Co's Exhibit. James Martin & Co was an Australian engineering company which progressed from making agricultural equipment to making railway locomotives. * 8662.1f Victorian Gold Jubilee Exhibition - Page 4 of 29 Old Pioneers. Elderly gentlemen on foot and carriage - at the Bendigo Railway Station. * 8662.1g Victorian Gold Jubilee Exhibition - Page 5 of 29 Robert Harper and Company's Exhibit. From Trove - The Brisbane Courier 25 Aug 1891: One of the best known firms in the Southern hemisphere is Messrs. Robert Harper and Co , tea importers, coffee, rice, and spice merchants and manufacturers Then productions circle this continent, and every thrifty housewife is familiar with their Empire tens, their Star' brand of goods, then oatmeal, wheatmeal, and other breakfast table luxuries The headquarters of the firm are placed at Port Melbourne, and the manufactory there occupies over an acre of ground, while the mills at Sydney and Adelaide are as great in proportion It is eight cars since the firm opened business in this colony. The step was taken with much confidence, the principals the firm being quite attracted. * 8662.1h Victorian Gold Jubilee Exhibition - Page 6 of 29 The Electric Tram * 8662.1i Victorian Gold Jubilee Exhibition - Page 7 of 29 G. Weymouth Proprietary Ltd. The business of G. Weymouth & Co was founded in 1898 by George Andrew Philip Weymouth, who began operating from a small workshop on City Road, South Melbourne (opposite Princes Bridge). An early advertisement describes the firm's activities at this time as being 'makers of dynamos, (electric) motors, x-ray apparatus and electrical instruments, &c' together with 'repairs to every class of electrical work'. * 8662.1j Victorian Gold Jubilee Exhibition - Page 8 of 29 The Exhibition Fernery * 8662.1k Victorian Gold Jubilee Exhibition - Page 9 of 29 Cohn Bros'. Exhibit. In 1857 at the height of the gold rush, with people pouring into Central Victoria from all over the world, three brothers from Denmark – Moritz, Julius and Jacob Cohn – founded a small cordial factory in the booming town of Bendigo. They went on to build an empire and, through introducing lager, which is served cold, to the country, changed the drinking preferences of Australians. * 8662.1l Victorian Gold Jubilee Exhibition - Page 10 of 29 Ornamental Lake in the Exhibition Grounds * 8662.1m Victorian Gold Jubilee Exhibition - Page 11 of 29 Australian Explosives and Chemical Co.'s Exhibit. The Australian Explosives and Chemical Company began manufacturing explosives in Melbourne's outskirts (the area now known as Deer Park) in 1875. In 1897 the Company was purchased by Nobel, forming Nobel (Australasia) Ltd. * 8662.1n Victorian Gold Jubilee Exhibition - Page 12 of 29 Tasmanian Court * 8662.1o Victorian Gold Jubilee Exhibition - Page 13 of 29 N. Guthridge's Limited Exhibit. Guthridge sold a variety of mining supplies and equipment; also 'Rackarock' which was used to fill the mining drill holes before blasting. * 8662.1p Victorian Gold Jubilee Exhibition - Page 14 of 29 Navel and Military Court (LARGE File) * 8662.1q Victorian Gold Jubilee Exhibition - Page 15 of 29 Women's Court * 8662.1r Victorian Gold Jubilee Exhibition - Page 16 of 29 T. J. Connelly and Co's Exhibit. T.J. Connelly an American immigrant came to the Bendigo goldfields where he later established Connelly’s Tin Shop on the corner of High and Forest Streets 1853. Connelly was named after Thomas Jefferson the famous statesman who wrote much of the American Declaration of Independence in 1776 and became the third United States President. Connelly, along with other prominent citizens of the time established Bendigo’s first Fire Brigade, Mechanics Institute. * 8662.1s Victorian Gold Jubilee Exhibition - Page 17 of 29 The Potter's Wheel * 8662.1t Victorian Gold Jubilee Exhibition - Page 18 of 29 G. D. Guthrie and Co.'s Exhibit. In 1863 the Bendigo Pottery was set up by Guthrie. * 8662.1u Victorian Gold Jubilee Exhibition - Page 19 of 29 The Ladies' Committee * 8662.1v Victorian Gold Jubilee Exhibition - Page 20 of 29 J. Kitchen and Sons Exhibit. In Port Melbourne since the 1850s they made such products as Velvet Soap and Electrine Candles from the tallow and other animal fats from the nearby slaughter yards. In recent decades the company has become Kitchen & Lever then Unilever and most recently Unichema. * 8662.1w Victorian Gold Jubilee Exhibition - Page 21 1of 29 The Executive Committee * 8662.1x Victorian Gold Jubilee Exhibition - Page 22 of 29 Taylor Horsfield Exhibit. The most valuable exhibits were mining machinery such as Taylor Horsfield’s £850 “Air Compressor & Rock Borer” * 8662.1y Victorian Gold Jubilee Exhibition - Page 23 of 29 A Peep at the Education Department 8662.1z Victorian Gold Jubilee Exhibition - Page 24 of 29 John Danks and Co's Exhibit. John Danks & Son was a major manufacturing company in Melbourne, Victoria and Sydney, New South Wales. * 8662.1aa Victorian Gold Jubilee Exhibition - Page 25 of 29 Glance at the Agricultural Department's Court * 8662.1bb Victorian Gold Jubilee Exhibition - Page 26 of 29 T. York's Exhibit. Thomas York was an instrument repairer and brass instrument maker that resided in Melbourne in the late 19th to the early 20th century. While old newspaper advertisements suggested he repaired all instruments, it appears the focus of his business were military and brass band instruments. (BrassandWoodWind.com) * 8662.1cc Victorian Gold Jubilee Exhibition - Page 27 of 29 T. McPherson and Son's Exhibit. Possibly monumental masons. * 8662.1dd Victorian Gold Jubilee Exhibition - Page 28 of 29 T. Lewis and Whitty's Exhibit - Inside Back Cover. Lewis & Whitty were prominent boot blacking manufacturers as well as a number of other chemical products such as “Odourbane" disinfectant. * 8662.1ee Victorian Gold Jubilee Exhibition - Page 29 of 29 Singer Manufacturing Coy's Exhibithistory, bendigo, victorian gold jubilee exhibition bendigo, carol holsworth collection

This H.B Devin’s operating frame and abdominal retractor kit is named after its designer, Sir Hugh Berchmans Devine, 1878-1959, son of a Werribee district grazier in Victoria, Australia, surgeon at the Royal Melbourne Hospital. A text book diagram of H.B. Devine’s Abdominal Retractor shows the frame and retractors set up for a pelvic operation. The accompanying text reads “Devine’s retractor is so designed that there are no screws, yet the retractors and “mechanical hands” by a jamming action remain firmly on the frame in whatever position they are placed. This is accomplished by a system of inclined planes incorporated in the frame and in the single and double hooks, retractor blades and handles of the “mechanical hands”. Set comprises 3 “mechanical hands” 5 retractor blades. (Pg 72, The 1948 Catalogue of Surgical Instruments, published by Felton, Grimwade & Duerdins Pty Ltd of Melbourne). Devine became a general surgeon who later gained an international reputation for his for his contribution in the advancement of abdominal surgery. Devine was educated in Ballarat and later became an Honourable Fellow of the Royal College of Surgeons. During his career he became Senior Surgeon and Dean of the Medical School at St Vincent’s Hospital in Melbourne. He served in the Australian Army Medical Corps in WWI and developed techniques in gastro-intestinal surgery. He was instrumental in the foundation of the Australasian College of Surgeons in 1927, retiring from the council in 1948. A survey on needs for operating room equipment notes that “In the past some surgeons associated themselves with particular instrument makers… The Melbourne surgeon [Hugh Devine] had his special abdominal retractor made by a small firm in South Yarra…” Hugh Devine writes instructions for inserting the Operating Frame in his book “The Surgery of the Alimentary Tract”. He says “ … the author’s operating frame is inserted into the wound … for exposure of the stomach … and exploration of the abdomen” and adds a note that the frame is “obtainable from J. Ludbrooke & Son, Melbourne, Victoria, Australia”. He accompanies his text with a diagram of the frame set into the wound. This surgical kit 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” that 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: The 1948 Catalogue of Surgical Instruments; hospital supplies and guide to instruments for operatons, published by Felton, Grimwade & Duerdins Pty Ltd, 21 Alfred Place, Melbourne; Sir Hugh Berchmans Devine, Royal College of Surgeons, http://livesonline.rcseng.ac.uk/biogs/E004999b.htm; Equipment, What Surgeons Want in Operating Rooms, https://mpatkin.org/op_room_planning/what_surgeons_want.htm ]The W.R. Angus Collection 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, administration, household equipment and clothing 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. Surgical Kit containing operating frame and abdominal retractors, part of the W.R. Angus Collection. Kit cover is brown kid leather lined with navy cotton, 6 leather pockets inside and cotton flaps to close. Contains Sir Hugh Devine operating frame and abdominal retractors, stainless steel, made by J. Ludbrooke and Sons, Melbourne. Note with instruments "Sir Hugh Devine, surgeon at Royal Melbourne Hospital” c. 1920’sImpressed into instruments “J. LUDBROOKE AND SONS”, “PATENT 12990/28”, “83”, 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, medical treatment, medical history, surgical kit, j. ludbrooke and sons, operating frame, abdominal retractor set, abdominal surgery, alimentary surgery

Quarter leather bound scrap book with pasted in invoices which were sent to the Ballarat School of Mines.Ballarat School of Mines Invoice Scrapbook, with many invoices made out to the Ballarat School of Mines stuck into the book (most folded over). * 01/12/1875 - 31/12/1875 - Annual account of all sums of Money for subscriptions to the Ballarat School of Mines * 31/12/1875 - Charles J. Evans - printer * 1875 - William Gooch - for Argus newspaper * 13/01/1876 - M.D. Hamilton - salary payment * 14/01/1876 - receipt for two shillings and sixpence from M.D. Hamilton * 31/1/1876 - account to R.J. Vale * 1/2/1876 - Caxton printing works - account to James Curtis * 4/12/1876 - Ballarat Gas company - receipt from J.W.Robertson * 29/1/1876 - Permewan Hunt and company - account to Hon. W.H.Barnard *28/1/1876 - Osborn, Cushing and company - account to Hon. W.H.Barnard * 7/10/1875 - Geo. H. Bliss and company - account to Hon.N.H. Barnard * 31/12/1875 - I. Longstaff - Druggist * 1875 - A. M. Leirnan * 9/12/1876 - Petty cash - M. Hamilton * 15/12/1875 - reimbursement to W.D. Barnard * 31/1/1876 - "Ballarat Star" newspaper account - Rob Wreford * 12/4/1876 - Geelong Gas company - receipt for 2 pounds and ten shillings - A.B. Langlands * 27/1/1876 - Geelong Gas company - account to School of Mines * 1/2/1876 - Cornell and King - Chemists - account to School of Mines * 10/2/1876 - Salary payment slip to M.D. Hamilton for 8 pounds 6 shillings and 8 pence * January 1876 - Stansfield and Robson, Importers - account to School of Mines * January 1876 - Stansfield and Robson - School of Mines - Dr. A.M.Leisman - account * 31/1/1876 - Charles J. Evans - account to School of Mines * 31/1/1876 - Proprietors of the Evening Post - account to School of Mines * 10/2/1876 - Petty cash receipt from W. Barnard * 1/2/1876 - Bateman, Clark and Company - account to School of Mines * 8/3/1876 - Salary payment to M.D. Hamilton from School of Mines Ballarat *1/3/1876 - William Johnson - Chemist - account to School of Mines Ballarat * 28/2/1876 - Cornell and King - Chemists - account to School of Mines Ballarat * 2/1876 - Hugh Gray and Son - Instrument makers - account from School of Mines * 28/2/1876 - J. Longstaff - druggist * 11/3/1876 - Fidelity Guarantee of Alfred B.Burne for 100 pounds from Victoria Life Insurance Co. *10/3/1876 - Petty cash slip from W.H. Barnard * 4/3/1876 - account from Alfred B. Burne * 15/3/1876 - personal expenses account from I.W. Jonan * 27/3/1876 - account from John Victor * 25/3/1876 - account from C.W. Thomas * 27/3/1876 - account from W. Schmidt - Lecturer * 25/3/1876 - account from Joseph Flude * 29/6/1876 - account from J. Thomas * 30/6/1876 - receipt from W.M. Barnard * 1/4/1876 - receipt from Joseph Flude * 1/3/1876 - account from William Blomeley, Iron and Brass Founder * 31/3/1876 - account from A.H. King, Iron Merchant * 31/3/1876 - account from W.M. Gooch, Newsagent * 13/4/1876 - salary payment to M.D. Hamilton * 12/4/1876 - Petty cash receipt * 13/4/1876 - List of subscriptions received from Alfred B. Burne (collector) (John P. Hanson, Comm. Bank of Aust., T.A. Wanliss, Andrew Cant, B. Hepburn, R. Lewis, Sovereign Hill Mining Co., Buninyong Shire Council, Union Bank Aust. Francis Taylor) * 15/2/1876 - account from Battersea Works London * 2/5/1876 - account from Charles J. Evans Lithographic Printer etc. * 11/5/1876 - salary slip to M.D. Hamilton * 30/4/1876 - subscriptions received from Alfred B. Bruce (M.P. Whiteside, S. Steele, J. Usher, Charles Walker, W.H. Bougghen, W.V. Jenkins, A.M. Gransfield, Hon. Henry Cuthbert, Aust. Bank, Borough Council, Thomas Bath, Rev. William Henderson, James Smith, S. Hamburger) * 30/4/1876 - account from The Ballarat Star Newspaper * 7/6/1876 - account from Ballarat Gas Company * 11/5/1876 - petty cash account from M.J. Barnard * 9/5/1876 - receipt from M.D. Hamilton * 6/5/1876 - account from M.D. Barnard * 4/1876 - account from W.M. Gooch - News and Advertising agents * 22/4/1876 - account from Broadbent Bros and Co. - Railway Carriers etc * 1/6/1876 - account from Bateman, Clark, and Co. * 31/5/1876 - account from J. Longstaff - Druggist * 16/2/1876 account from A.M. Leiman * 6/1876 - account from R.T. Vale - Newsagent * 31/5/1876 - receipt from Sir Redmond Barry for one shilling * 1/6/1876 - account from F.W. Niven - Stationer etc. * 31/5/1876 - account to The Ballarat Star and The Miner newspapers * 31/5/1876 - account from Stansfield and Robson, Importers * 31/5/1876 - account from The Evening Post * 8/6/1876 - Salary slip fro M.D. Hamilton * 1/6/1876 - account to J. McHutchison, Bookbinder * 1/6/1876 - account from A.H. King - Iron Merchant * 1/6/1876 - account from Cornell and King - Chemists * 31/5/1876 - account from W.M. Gooch - Advertising agent * 8/6/1876 - petty cash receipt from M.D. Barnard * 31/5/1876 - List of subscriptions from Alfred B. Bruce (T.J. Kerr, Jacob Showman, J.L. Thompson, W.J. Clarke, R.C. Baih, L. Ballhausen, James Coghlan, Parade Gold mining Co., A. Williams, Sung Hung Fat, A. Dimmock Esq.M.D., Bank Victoria, Reform Co., Gilbert, James Ward, James Stewart, Ian Kwong Yick 7/6/1876 - account to Alfred White - Custom House Agent 30/6/1876 - receipt from John Victor for twelve pounds 10 shillings 29/7/1876 - receipt from A.M. Barnard 26/6/1876 - receipt from Joseph Flude 4/6/1876 - receipt from E.S. Schmidt 22/6/1876 - receipt from John W. Tail 19/6/1876 - receipt from Jonathan Butterworth 3/7/1876 - receipt from Joseph Hurde 1/7/1876 - account from Henry Richards Caselli - Architect and Building Surveyor 30/6/1876 - account from J. Scovell - Cabinet Maker 14/7/1876 - account from H.R. Caselli - Architect and Building Surveyor 20/7/1876 - payslip to M.D. Hamilton 1/7/1876 - account from Henry Brind - Chemist 6/1876 - account from W.M. Gooch - News and Advertising Agent 21/7/1876 - account from W.D. Hamilton 26/6/1876 - account from Parkinson and co. - City Nightmen and van proprietors 19/7/1876 - petty cash receipt from M.D.Barnard 30/6/1876 - account of subscriptions received - J.A. Anderson, A. Anderson, John Osborne, J. Noble Wilson, Bateman and Clarke, National bank of Aust., James Lory, F. Atkins 27/7/1876 - account from H. Hunt - Builder 26/7/1876 - account to G. Leitch and co. 1/8/1876 - receipt to The National Insurance Co. of Aust., Ltd. 1/8/1876 - receipt from Victoria Fire and Marine Insurance Company 1/8/1876 - account to The Victoria Lime and Cement Co. 1/8/1876 - receipt from Ballarat Gas Company 1/8/1876 - account from Charles J. Evans, Printer 1/8/1876 - account from Cornell and King - Druggists and Chemists 8/8/1876 account from Cornell and King - Druggists and Chemists 5/6/1876 to 22/9/1876 - account to A.N. Lennan 11/8/1876 - receipt from W.D. Hamilton 16/9/1876 - receipt from Geelong Gas Company 7/8/1876 - account to the Geelong Gas Company 1/8/1876 - account to Bateman, Clark and Co. 31/7/1876 - account from The Ballarat Star and of The Miner 10/8/1876 - salary slip to M.D. Hamilton 1/7/1876 to 31/7/1876 - list of subscriptions from Alfred B. Burne - P. Channey, P. Pakenhagen, John Price, Ballarat Gas Co., L.E. Brann, A.H. King, M. O"Ferrall, John Foord 19/7/1876 to 10/8/1876 - Petty cash receipt from M.N. Barnard 7/ 1876 - account to W. M. Gooch - General News and Advertising agent 1/7/1876 - account to Stansfield and Robson - Importers in Oils, colours, window glass, etc. 17/8/1876 - account to Lermes Lamurk 4/8/1876 - account to James Allen "Camperdown Chronicle" general printing office from W.H. Barnard 6/9/1876 - account to Henry Masham 1/9/1876 - account to A.H. King - Iron Merchant, Furnishing and General Ironmonger 22/9/1876 - travelling expenses account from R.D. Ellery 25/9/1876 - receipt from M. Schmidt 15/9/1876 - receipt from M.D. Hamilton 1/9/1876 - account to James Curtis - Caxton Printing Works 25/8/1876 - account from William McCulloch and Co., General Carriers 18/8/1876 - account to G. Leitch and Co. 14/9/1876 - payment slip to M.D. Hamilton 10/8/1876 - petty cash account from M.H. Barnard 25/9/1876 - receipt from John Victor 25/9/1876? - receipt from M.H.Barnard 6/10/1876 - receipt from Joseph Fude 12/10/1876 - receipt from M.D. Hamilton 30/9/1876 - receipt from Joseph Fude 1/10/1876 - account to A.M. Lennan 12/10/1876 - salary slip to M.D. Hamilton 30/9/1876 - account from Ballarat Star Newspaper Office 12/10/1876 - petty cash account - M.H. Barnard 30/9/1876 - account to J. McHutchison - Bookbinder 1/8/1876 - account from Ballarat Gas Company 1/11/1876 - receipt from Ballarat Gas Company 1/11/1876 - account to Charles J. Evans - Lithographic Printer 1/11/1876 - account from Cornell and King - Chemists 9/1876 - account from W.M. Gooch - General news and advertising agent 10/1876 - account from J. and J. McDonald - Plumbers and gas fitters 13/10/1876 to 9/11/1876 - petty cash statement from M.H. Barnard 14/11/1876 - receipt from M.D. Hamilton 11/9/1876 - account from A.M. Lennan 9/11/1876 - Salary slip to M.D. Hamilton 12/10/1876 - Expenses account received by M.H. Barnard 1/11/1876 - account from J. Longstaff - Druggist 10/1876 - account from Parkinson and Co. - City Nightmen and van proprietors 6/12/1876 - account from Emanuel Steinfield, Importer of Furniture etc. 13/11/1876 - account The Geelong Gas Company 31/11/1876 - account from The Ballarat Star Newspaper office 28/11/1876 - account from R.T. Vale - bookseller, stationer and news agent 28/11/1876 - acount from John Slater and co. 1/12/1876 - account from J. Doig and co., Tinsmiths, Gasfitters etc. 14/12/1876 - Salary slip to M.D. Hamilton 14/12/1876 - receipt from M.D. Hamilton for one pound one shilling and ninepence 1/11/1876 to 31/12/1876 - petty cash statement 15/12/1876 - statement of travelling expenses for A.B. Barnes 23/12/1876 - receipt from John Victor 21/2/1877 - receipt from C.M.Thomas 23/12/1876 - receipt from Joseph Flude 29/12/1876 - receipt from Lecturer - S.Schmidt 30/12/1876 - receipt from Joseph Flude 1876 - receipt from Joseph Flude 12/1/1877 - statement of refund to W.H. Barnard 11/1/1877 - Salary slip to M.D.Hamilton 8/1/1877 - petty cash statement 18/1/1877 - receipt for Ballarat Gas company 2/1/1877 - account from Eyres Brothers - Furnishing and general ironmongers 19/12/1876 - statement from W.H. Barnard - registrar 1/1/1877 - account from Bateman, Clark and company 11/121876 - account from Parkinson and co. - City nightmen 31/12/1876 - account from Ballarat Star Newspaper office 25/1/1877 - account from J. McHutchison, Bookbinder 3/2/1877 - account from J. McHutchison, Bookbinder 1/2/1877 - account from Cornell and King - Chemists 1/2/1877 - account from Stansfield J. Robson - Importers in oils, colours, window glass etc. 1/2/1877 - account from Charles J. Evans - Bookbinder etc. 12/12/1876 - account from W. Gooch - General news and advertising agent 2/1/1877 - account from proprietors of the Evening Post 14/2/1877 - account from John F.Paten - Printer, Publisher and Bookseller "Avoca Mail" 2/2/1877 - account from T. Longstaff - wholesale and retail druggist 8/81877 - salary slip for M.D. Hamilton 21/1/1877 - account from Ballarat Star Newspaper office 9/2/1877 - account for petty cash from W.H. Barnard 7/2/1877 - account from S.C. Steele - Ballarat Fine Art Gallery 13/2/1877 account from R.T. Vale - Bookseller, Stationer and News Agent 8/2/1877 - account from Joseph Flude 13/1/1877 - account from William Johnson, Chemist 9/1877 - account to J. Flude from William Johnson, Chemist, 3 accounts 2/11/1876 to 23/1/1877 - account from A.N. Leiman 1/3/1877 - account from Bateman, Clark and company 8/3/1877 - salaray payment to M.D. Hamilton 8/3/1877 - salary payment to J. Ashley 9/3/1877 - statement from Post Office Ballarat (one shilling - for the first years rent of telegraph line on school premises) 1/2/1877 - statement from Mining and commercial stationer - J.W. Niven Dec.1876 to 15/2/1877 - account from R.T. Vale - Bookseller, Stationer, and News agent 1/1877 - statement from C.W. Thomas 8/3/1877 - petty cash account from W.H. Barnard 9/3/1877 - account from R. Gibbings - Livery and Letting Stables and carriage repository 28/2/1877 - account from Charles J. Evans - Stationer, Lithographic printer etc. 9/3/1877 - receipt from M.D. Hamilton 31/3/1877 - account from Ballarat Star and The Miner 2/1877 - receipt from Joseph Flude 8/3/1877 - receipt from F.J. Ashley 28/3/1877 salary statement from John Victor 28/4/1877 - salary statement from John A. Sharp 28/3/1877 - receipt from Joseph Flude 26/3/1877 - receipt from T.Schmidt - Lecturer 12/3/1877 - receipt from C.H. Walker 6/4/1877 - account from Mr. Ellery 27/4/1877 - account from A. M. Leiman 31/3/1877 - account from W.M. Gooch, General news and advertising agent 6/3/1877 - statement from London Remittances 12/4/1877 - salary payment to M.D. Hamilton 1877 - receipt from W.H. Barnard 1/4/1877 - account from Parkinson and company, City nightmen and van proprietors 5/4/1877 - account from William McCulloch and company, General carriers 11/4/1877 - account from S. Steele, Draper 31/3/1877 - account from Charles J. Evans, Stationer etc. 1/4/1877 - account from James Curtis - Caxton Printing Works 4/1877 - receipt from W.H. Barnard 8/3/1877 to 12/4/1877 - petty cash receipt from W.H.Barnard 12/4/1877 - receipt from C. Flude 31/3/1877 - receipt for Sir Redmond Barry for 13 pounds 10 shillings 1/1877 - receipt from Alphonse Ausaldie 1/3/1877 - 30/4/1877 - account from Joseph Flude 9/5/1877 - account from Henry Costin - Machinery Merchant 31/1/1877 to 3/5/1877 - Ballarat Gas Company 13/6/1877 - receipt to Ballarat Gas Company 9/5/1877 - salary slip to M.D. Hamilton 11/5/1877 - account for stationary from C. Flude, Registrar 23/3/1877 - account from Edmund Donelly 1/5/1877 - account from Charles J. Evans, Stationer etc. 9/4/1877 - account from W.M. Gooch, News and advertising agent 30/4/1877 - account from The Ballarat Star and The Miner 13/4/1877 - account from T. Longstaff, wholesale and retail druggist 30/4/1877 - account from Echuca railway station 1/5/1877 - account from Cornell and King, Chemists 11/5/1877 - salaray slip for C. Flude 11/5/1877 - petty cash account to the Registrar, W.H. Barnard 2/5/1877 - account from William McCulloch and co.,general carriers 5/1877 - account from William Willis and co. Locksmiths etc. 1/5/1877 - account from Joseph Flude 6/6/1877 - account from Henry Morham 31/5/1877 - account from Charles J. Evans, Stationer and Printer etc. 14/6/1877 - salary payment to M.D. Hamilton 15/6/1877 - salary payment to C. Flude 15/6/1877 - receipt from M.D. Hamilton 1/6/1877 - account from James Curtis, Caxton Printing Works 31/1/1877 - Ballarat Gas company account 23/8/1877 - receipt from Ballarat Gas company 15/6/1877 - receipt from The National Insurance Company of Aust., Ballarat Branch 1/6/1877 - account from The Ballarat Courier 3/1877 - receipt from L.M. Cook 1/6/1877 - account from J.McHutchison, Bookbinder 10/5/1877 to 14/6/1877 - petty cash account 17/5/1877 - account from William McCulloch and co., general carriers 15/6/1877 - account from T. Longstaff, Wholesale and retail Druggist 1/5/1877 - account from H. Hunt, Builder 4/1877 - receipt from John Victor 3/7/1877 - receipt from J.Alex Sharp 15/6/1877 - receipt from Sir Redmond Barry to Revenue and Pay Office 26/6/1877 - receipt from M. Shaw, Lecturer 25/6/1877 - receipt from Joseph Flude 23/6/1877 - receipt from S.Schmidt 6/1877 - account from W.M. Gooch, general news and advertising agent for Argus newspapers 6/1877 - account from the Proprietors of the Evening Post 21/6/1877 - account from John F. Paten, "Avoca Mail" and general printing office 14/6/1877 - account from Ballarat Star and The Miner Newspaper office 30/6/1877 - account from Ballarat Star Newspaper office 2/7/1877 - account from R.T. Vale, News Agent 19/6/1877 account for railway fare and personal expenses 23/5/1877 - account from William Johnson, Chemist 1/7/1877 - account from Henry Brind, Chemist and Family Pharmacist 2/7/1877 - account from Cornell and King, Druggists and Chemists 12/7/1877 - salary slip to M.D. Hamilton 14/7/1877 - salary slip to C. Flude 14/6/1877 - 12/7/1877 petty cash account from W.H. Barnard 16/6/1877 - account from William McMulloch and Co., general carriers 1/7/187 - account from Parkinson and Co., City Nightmen and Van Proprietors 1/6/1877 to 30/6/1877 - account from Joseph Flude 1/8/1877 - receipt to Victoria Fire and Marine Insurance Company 21/7/1877 - account to Brush and Drummond, Importers and Manufacturing Jewellers 11/7/1877 - account from Charles J. Evans, Printer etc. 31/7/1877 - account from The Ballarat Star Newspaper Office 1/8/1877 - account from James Curtis, Caxton Printing Works 7/71877 - account from W.M. Gooch, Advertising Agent 7/1877 - account from Hugh Gray and Son, Mechanists and Philosophical Instrument Makers 13/8/1877 - account from Ballarat Gas Company redmond barry, joseph flude, hall of commerce, george crocker, ballarat star, the miner, bank of new zealand, daniel brophy, james curtis, caxton printing works, mcdonald plumbers and gas fitters, mcvitty and co, j. mchutchison, bookbinder, niven, john warrington rogers, henry bland, rivett henry bland, telegraphy, ellery, r.t. vale, richard vale, w. johnson analytical chemist st kilda, judge warrington rogers, art gallery of ballarat, henry richards caselli, h. hunt, ballarat school of mines botanical gardens, henry caselli, charles flude, ballarat star news, john armstrong

Music boxes have been around at least since the end of the 18th century. The finest artisans in Europe created them and brought music into family homes when there were really no other types of music entertainment for homes. Music boxes performed the popular music of their day; songs from the opera, traditional songs, and hymns.The Nicole Freres were regarded as the best maker of cylinder music boxes during the mid 1800s. This is a fine example of a 19th century music box.Small wooden music box operated by winding a key which moves a studded cylinder against a comb of tuned teeth. A green paper label has been tacked to the underside of the lid. Cylinder music box, made by Nicole Freres, Geneva, Switzerland, c.1830-1840 Music box with an outside key wind . The cylinder length is 20cm and it plays 4 different airs. single comb, 112 teeth with exposed control levers. on label underneath the lid is "Music de Geneve" and the names of the tunes and the number 5929music-box musical-instrument nicole-freres

John Bliss (1795-1857) was born in Norwich Connecticut, trained as a silversmith and clockmaker in Vermont, and began in business as a jeweller in New York around 1830. In 1834, now trading as Bliss & Creighton, he made and marketed a range of nautical instruments. The business subsequently became John Bliss & Son in 1855 and John Bliss & Co. in 1857. It remained in business until 1957 when it was acquired by West Marine. The Bliss company used to make a range of instruments supplied to a variety of customers including the US Navy. An object made as an aid for marine navigation, to plot a course on a nautical map for a vessel to follow. The item was made by a well known American maker of nautical instruments and is significant in regards to it's provenience and history of the maker and his family who over the years had been innovators and makers of various types of nautical instruments since 1795. Parallel map ruler. Bliss of New York & Nautical instruments engraved on face of ruler, ruler divided into degrees for use on nautical mapsflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, parallel rule, map reading, nautical object, navigation instrument

A cabinet scraper (sometimes called a ‘card scraper’) is a woodworking tool used for shaping and finishing furniture. The name ‘cabinet’ is used because scrapers are versatile and important tools for cabinet makers to provide a smooth surface to a finished cabinet. The body and the cutting edges of most cabinet scrapers are formed from a single piece of material. The blades are created on each edge of the body. Also, a scraper can have adjustable blades and a wooden handle these are two-handled cabinet scrapers. Cabinet scrapers are used manually to scrape small amounts of material from the surface of the wood to smooth it, shape it, or remove an old finish such as varnish from its surface. They are commonly used on furniture and musical instruments such as guitars and violins. The tools can be used on hardwood or softwood but when using a cabinet scraper on any wood, you should generally work along the grain.A tool used to finish timber to give a smooth finish and a important tool for a cabinet maker that has been in use for many hundreds of years in different design formsBox scraper adjustable with long wooden handle.Noneflagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, box scraper, scraper, woodwork tool, cabinet scraper, furniture finishing

This piano was made by Aucher Freres of Paris, said to be famous for its pianos in the mid-late 1800s. Aucher Freres (Aucher Brothers) produced a model of piano that was built specifically for use on sailing vessels, the upright yacht-style piano. Pianos were amongst the domestic goods brought to Australia by many colonial immigrants. They were also imported by Australian distributors by the shipload and sought after by settlers. A piano was often found in a Missions to Seamen club room, where visiting seafarers would entertain or be entertained by music and song as part of their relaxation in port. A sarcastically written news article of January 2nd 1869 reported that the Secretary of the Loyal Liberals of Ballarat, Mr Henry Bell, was presented both with a “illuminated address” and a piano. The piano was made by Aucher Freres of Paris and was purchased for sixty guineas (which converts to around $7,500 Au in 2019). The gift was criticised for encouraging foreign industry rather than native Australian products, thus going against what the Loyal Liberals own protectionist policy. The writer goes on to state that several pianos made in the Colony compared very favourably at the International Exhibition with those manufactured by the English or French. He then says that “… the secretary … might learn a lesson from his piano ... the name Aucher Freres, Paris emblazoned on its front should be … a perpetual reminder of the hollowness of that protectionist imposture …” [Refer to Intercolonial News, Victoria, originally published in The Argus, was repeated in the Wallaroo Times and Mining Journal of South Australia 2-1-1869.] Aucher Freres pianos were still around in 1930. A second-hand model was advertised for sale as a good practice piano. The advertisement was placed by the Mount Gambier, SA, agents for Saver’s Pianos Ltd of Adelaide. The piano was described as “a sound little instrument of good tone and appearance”. The asking price in November 1930 was 32 pounds and ten shillings (which converts to about $2,500 Au in 2019). [Refer to Savery’s advertisement, Mt Gambier Border Watch 11-11-1930]This piano is significant for its connection with the time period of chapel and club room at Flagstaff Hill's St Nicholas Seamen's Church. It represents the form of entertainment enjoyed by seafarer's world wide, which is appropriate for a maritime village. The maker of the piano is famous for its quality pianos of the 19th and early 20th century.Piano, upright, polished wood. The wooden hinged keyboard cover lifts up to allow access to the keyboard. The piano also has two brass candlesticks. The top of the piano is hinged and lifts up to allow access to the piano mechanic's inside for tuning and maintenance. The inside flap has a music stand incorporated into it. It also has the usual two hard-soft pedals at the base. There are two brass decorated hooks at each end to allow for ease of movement when the position of the piano is changed. Maker's name inscribed inside keyboard lid in gold lettering. Made in Paris by Aucher Freres (Aucher Brothers)."AUCHER FRERES / Paris" (NOTE: the "C" is sometimes mistaken for a "G")flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, piano, music, upright piano, paris, france, aucher freres

The firm Dring and Fage were active from 1790 to 1940 in London and were manufacturers of hydrometers and mathematical instruments they became established in London in 1790 by John Dring, who was a brass worker and hydrometer maker, and William Fage. Dring and Fage manufactured also saccharometers and other instruments used to measure the strength of alcohol. These instruments were primarily used to calculate excises. They traded at various addresses in London and they were at 56 Stamford St. between 1903 and 1938. By 1850 the company was owned by Edward Hall and Edward Jenkin and in 1940 the company became Dring & Fage Ltd, trading till the 1960s. Historically, gauging has meant measuring a volume, these gauging instruments were used by Customs and Excise and manufacturers for determining the volume and contents of liquid containers. For Customs the determination and collection of duty on imported goods which has had a very long history. Chaucer was a Customs Officer as was his father and grandfather, excise was first officially introduced in 1643, with the aim of maintaining military forces raised by the English Parliament at that time. Excise was initially a duty on home produced alcoholic beverages and soap but being easily applied, spread rapidly to a wide range of goods including imports of varying kinds. The government departments of Customs and Excise merged only in 1909 and it is from around this time that our instrument was made and used. The item demonstrates a long social history of the practice of Government's collecting duty on alcoholic beverages and thereby makes this item historically significant as it was used locally at Port Fairy by the ports Customs agents. Gauging rod or bung rod; ullaging gauge. Long brown wooden gauging rod with brass tips and sliding brass marker. Measurements are marked along the length of the rod. Used for measuring volume of liquor in casks in order for Customs to calculate excise (tax) on the contents. Made by Dring & Fage, London.Engraved “Dring & Fage 56 Stamford St London flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, gauging rod, ullaging rods, measuring instruments, customs tax, dring & fage, alcohol measurement

This large compass is well made. It is now pitted and scratched, indication much use. Compasses were used to measure and mark out the head of the barrel by coopers. Very large compasses were used by block, spar and pump makers to help shave off angles left by axes and other tools on mast sides. Also they were used by blacksmiths in their work draftsmen, carpenters, engineers and navigators.This compass is an example of a drawing instrument that could have been used in the 19th and early 20th century by coopers and blacksmiths as well as navigators and ship smiths.Compass; large metal compass, 90-degree angle, two pointed arms hinged at the top. Inscription on the top of one arm.Stamped into the metal " J J E " ( or J J F )flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, compass, drawing instrument, measuring instrument, scientific instrument, draftsman, technical drawing, navigation, engineering, blacksmith, cooper, plumber

The basic balance scale has been around for thousands of years and its accuracy has improved dramatically over the last several centuries, the principle behind this tool remains unchanged. Its parts include a fulcrum, a beam that balances on it, a pan at the end of the beam to hold the materials to be weighed, and a flat platform at the other for the counter-balancing weights. Balance scales that require equal weights on each side of the fulcrum have been used by everyone from apothecaries and assayers to jewellers and postal workers. Known as an unequal arm balance scale, this variety builds the counterweight into the device. Counter scales used in dry-goods stores and domestic kitchens often featured Japanned or (blackened) cast iron with bronze trims. Made by companies such as Howe and Fairbanks, the footed tin pans of these scales were often oblong, some encircled at one end so bulk items could be easily poured into a bag. Seamless pans were typically stamped from brass and given style names like Snuff (the smallest) and Birmingham (the largest). Some counter scales were designed for measuring spices, others for weighing slices of cake. In the 18th century, spring scales began to appear and would use the resistance of spring to calculate weights, which are read automatically on the scale’s face. The ease of use of spring scales over balance scales. One of the most common types of spring scales was the kitchen scale also known as a family or dial scale. Designed for horizontal surfaces, these vintage kitchen scales used the weight of goods in a pan at the top of the scale to force the spring down rather than the balance system. Such scales were common in early 20th century households and were sold by many companies. Many had flat weighing surfaces but some were topped by shallow pans. Companies such as Salters, Chatillon, and Fairbanks were the most popular brands used. These scales are significant as they identify one of the basic preparation items for the weighing of foodstuff in the family kitchen to prepare everyday meals. This item is significant as it gives a snapshot into domestic life within the average home in Australia around the turn of the twentieth century and is, therefore, an item with social relevance. Black cast iron, medium weighing scales, with a fulcrum which the beam that balances on, there is as scoop at one end for the material to be weighted and a flat circular disc at the other end that holds the weights. Around the cast iron base is an embossed leaf pattern. All the weights have their weight embossed within the casting.There are 5 weights, marked 2 oz, 4 oz,8 oz,1 lb,2 lb, This scale does not have any visual markings on the arms to identify a maker or true balance. It is therefore assumed that these scales were made for domestic use only.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, spring scale, scale

Large platform scales such as these ones made by W. & T. Avery were used for weighing goods for trading and passengers' luggage. They would be used in places such as railway stations, shipping ports, customs offices and ticketing offices. Often fees would be charged to customers according to the weight of their goods and luggage. Items would be placed onto the large horizontal platform then weights would be added to the weighing bar until the bar leveled to being horizontal. The weights would be added together and the total of the weights would be used for the final figure. These scales were made in Birmingham, England, by the British company, W and T Avery. The company had its origins in the early 1700s but only became known as W and T Avery when the brothers William and Thomas Avery inherited the scale-making business from a relative, Joseph Balden, on his death in 1813. By 1885 they had three factories and In 1895, the company acquired James Watt & Co and two years later had moved to the 25-acre Soho Foundry site in Smethwick, Birmingham where James Watt had manufactured steam engines. When the last Avery family member died in 1918, the company employed over 3,000 people and had businesses all over the world. Following the highly successful introduction of the first digital retail scale in 1971, the company was taken over by the GEC Group in 1979. The business was subsequently acquired by the American company, Weigh-Tronix, in 2000 which had already acquired a competitor, Salter. The Avery name continues today in the company known as Avery Weigh-Tronix.An item that was used at the turn of the century as train platform scales or for weighing agricultural products. Made by a company that pioneered weighing equipment with offices all over the world. With many examples of this scale in museums throughout the world. Platform scales with wheels. Large cast iron, scales painted black, weight capacity to 7 CWT (hundred weight). Weight beam has markers "0. 5. 10. 15. 20. 25". Platform scale loose weight type with relieving handle; cast iron construction, fluted columns with integral weight stand, the two wheels are fitted to base at front of platform; there is a graduated steelyard 0-14bs with pear-shaped poise. Weight carrier is missing.Pressed into cast iron arm on scale, one side "W. & T. AVERY", opposite side "BIRMINGHAM", and into the platform "TO WEIGH 7 CWT, W. & T. AVERY, MAKERS, LONDON & BIRMINGHAM" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, measuring scales, weighing scales, weighing instrument, fees for goods, fees for luggage, ticket office

Before factory production became commonplace in medicine, dispensing was considered an art and pill machines such as these were a vital component of any chemist’s collection. This machine dates back to the days when your local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Pill machines such as these first appeared in the mid-1700s and quickly became a staple of the Victorian chemist’s shop. A ‘pill mass’ of medicinal powders mixed with a binding agent would be hand-rolled into a pipe on the tile at the back of the machine. This would then be placed across the grooved brass plate and cut into equal-sized pills using the corresponding side of the roller. Once all the necessary ingredients for the pills had been measured and ground with a pestle and mortar a final ingredient was poured in, syrup – this acted as a binding-agent. You could then roll it into a sausage shape. The largest part of the machine is the board. This is set at an angle and is comprised of the rolling surface, the cutting grooves, and the collection-tray. The large flat surface is for rolling out the pill-paste into the sausage shape. This is then rolled towards the brass cutting-grooves. The paddle (the second piece) is flipped over so that the grooves there line up with the grooves on the board. Rollers on the ends of the paddle roll against the brass edges of the board, and they guide the paddle straight across the grooves, taking the pill-mass with it. The grooves on the paddle and the board slice up the pill-mass and, after rolling the thing back and forth a couple of times like a rolling-pin, the circular pills roll off the grooves and into the tray at the bottom. https://galwaycitymuseum.ie/blog/collections-spotlight-victorian-pill-making-machine/?locale=en The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Pill making device including a grooved base board and grooved sliding board with two pill moulds.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, pills, pill maker, medicine, health

Used as tBefore factory production became commonplace in medicine, dispensing was considered an art and pill machines such as these were a vital component of any chemist’s collection. This machine dates back to the days when your local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Pill machines such as these first appeared in the mid-1700s and quickly became a staple of the Victorian chemist’s shop. A ‘pill mass’ of medicinal powders mixed with a binding agent would be hand-rolled into a pipe on the tile at the back of the machine. This would then be placed across the grooved brass plate and cut into equal-sized pills using the corresponding side of the roller. Once all the necessary ingredients for the pills had been measured and ground with a pestle and mortar a final ingredient was poured in, syrup – this acted as a binding-agent. You could then roll it into a sausage shape. The largest part of the machine is the board. This is set at an angle and is comprised of the rolling surface, the cutting grooves, and the collection-tray. The large flat surface is for rolling out the pill-paste into the sausage shape. This is then rolled towards the brass cutting-grooves. The paddle (the second piece) is flipped over so that the grooves there line up with the grooves on the board. Rollers on the ends of the paddle roll against the brass edges of the board, and they guide the paddle straight across the grooves, taking the pill-mass with it. The grooves on the paddle and the board slice up the pill-mass and, after rolling the thing back and forth a couple of times like a rolling-pin, the circular pills roll off the grooves and into the tray at the bottom. https://galwaycitymuseum.ie/blog/collections-spotlight-victorian-pill-making-machine/?locale=enhe companion item to pill-maker base, item 488.2The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Pill making device including a grooved base board and grooved sliding board with two pill mouldsNone.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, pill making, pill mould, medicine, health

The theodolite was sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See further details below.) History for Troughton & Simms: Edward Troughton & William Simms established a scientific instrument making business in London in 1826. Edward Troughton (1756-1835) had previously had his own scientific instrument business, inherited from his father. His achievement's included a transit telescope for Greenwich Observatory (1816) and the precision surveying instruments for the Ordnance Survey of Britain, Ireland and India. William Simms (1793-1860) had trained as a goldsmith and began to gain work dividing circles on fine astronomical instruments. When William Simms died in 1860, the business was taken over by his son James and nephew William. Troughton & Simms shop in Fleet Street became the hub of the finest scientific instrument made in London, in a period in which there was an expanding demand for precision instruments, for astronomy, surveying and precision measurement. They made instruments for Greenwich Observatory, for imperial surveys and exploring expeditions. When fire destroyed the Houses of Parliament in 1834, the firm was commissioned to create new standard lengths, this required 10 years of testing against the remaining old measurements. Troughton and Simms made several of the main instruments for Melbourne Observatory, including an 18 inch azimuth used of the Geodetic Survey, portable transit instrument (circa 1850), zenith sector (1860), a 4.5 inch equatorial telescope (1862), an 8 inch equatorial telescope (1874) spectroscope (1877) and an 8 inch transit instrument in (1884). While the firm had an excellent reputation for quality the company exasperated many of its customers with delays of years in delivering some instruments. History for Thomas Gaunt: Thomas Ambrose Gaunt (1829 – 1890) was a jeweller, clock maker, and manufacturer of scientific instruments, whose head office and showroom were at 337–339 Bourke Street, Melbourne, Victoria, Australia. Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade, Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Significance: With the rapid urban expansion, one of the most important needs of the new colony was to survey and map the landscape of the Australian Colony’s interior. Theodolites, such as this one, made by Troughton and Simms, who were significant scientific instrument makers of the 19th century were instrumental to the colony's surveyors and would have played an important part in their everyday work. This transit theodolite remains of national significance due to its pioneering role in Australian science and its association with Australia's earliest surveyors and astronomers. It is also significant for its association with nineteenth-century surveying instruments and instrument makers. Theodolite, Vernier repetition theodolite with enclosed horizontal circle (of about 130 mm diameter). Vertical circle exposed and somewhat corroded (diameter about 115 mm). Plate level 20" per division. Altitude bubble 20" per division. Horizontal and vertical circle intervals 20". Original (blue/grey) paint. Altitude bubble setting screw disabled. Tribrach allows movement of theodolite by 15 mm inside tribrach (for centering).Inscribed on the inner mounting plate,“Specially made in England for T Gaunt & Co Melbourne” and inscribed a little lower “Troughton & Simms London”flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, theodolite, t. gaunt & co, troughton & simms, scientific instrument, measuring instrument, surveyor's instrument

A sextant is an astronomical instrument used to determine latitude and longitude at sea by measuring angular distances, especially the altitudes of the sun, moon, and stars. It is a doubly reflecting navigation instrument and used mainly by sailors to measure the angular distance between two visible objects. The name comes from the Latin sextans, or “sixth part of a unit,” because the sextant’s arc can be 60° or 120° of a circle depending on the model used. The primary use was to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation. The estimation of this angle is known as sighting or shooting the object, or taking a sight. This angle and the time when it was measured is used in order to determine Greenwich Mean Time and hence longitude. Sighting the height of a landmark on land can also give a measure of distance from that object. History: The development of the sextant was as an improvement over the octant, an instrument designed to measure one's latitude. The octant was first implemented around 1731-present but can only measure angles up to 45°. As larger angles were needed to allow the measurement of lunar objects - moon, stars and the sun - at higher angles, the octant was superseded by the sextant. The sextant is a similar instrument but better made and allows larger angles from 60° to 120°. This improvement allows distances to be accurately calculated thereby giving longitude when used with a chronometer. The sextant was derived from the octant in 1757, eventually making all previous instruments used for navigational positioning obsolete. The sextant had been attributed to by John Hadley (1682–1744) and Thomas Godfrey (1704–1749), but reference to the sextant was also found later in the unpublished writings of Isaac Newton (1643–1727). Earlier links can be found to Bartholomew Gosnold (1571–1607) indicating that the use of a sextant for nautical navigation predates Hadley's implementation. In 1922, the sextant was modified for aeronautical navigation by Portuguese navigator and naval officer Gago Coutinho. It should be noted that the octant and quadrant are in the same family as they were, and all are, regarded as sextants. The sextant is representative of it's type and although not fully complete it demonstrates how 18th,19th and 20th century mariners determined their latitude and longitudinal to determine their position on a chart, allowing them to navigate there way across the world's oceans. It also demonstrates the skill and workmanship of the early instrument makers that operated scientific instrument businesses from London and other areas of England to provide most of the navigational instrumentation used by commercial and military navies of the time.Sextant with square, fitted box of polished wood, "Hezzanith" brand. Box contains many parts for the sextants use. On certificate "Heath & Co, London. Sextant Number Y 822". Catch on lid "DEFIANT LEVER" and "PATENT NUMBER 187.10". Maker's certificate is attached to the inside of the box.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sextant box, sextant, hezzanith, heath & co, navigational instrument, george wilson heath, astronomical instrument, instrument manufacturers, scientific instrument, navigation, celestial navigation, octant, quadrant, lunar navigation

History/Context: In 1947, the scientific instrument manufacturing firms of  Henry Hughes & Son Ltd, London, England, and  Kelvin Bottomley & Baird Ltd, Glasgow, Scotland, came together to form Kelvin & Hughes Ltd. Hughes Company History: Henry Hughes & Sons were founded in 1838 in London as a maker of chronographic and scientific instruments. The firm was incorporated as “Henry Hughes & Sons Ltd” in 1903. In 1923, the company produced its first recording echo sounder and in 1935 a controlling interest in the company was acquired by S Smith & Son Ltd resulting in the development and production of marine and aircraft instruments. Following the London office's destruction in the Blitz of 1941, a collaboration was entered into with Kelvin, Bottomley & Baird Ltd resulting in the establishing “Marine Instruments Ltd”. Following the formal amalgamation of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd in 1947 to form Kelvin & Hughes Ltd. Marine Instruments Ltd then acted as regional agents in the UK for Kelvin & Hughes Ltd who were essentially now a part of Smith's Industries Ltd founded in 1944 and the successors of S. Smith & Son Ltd. Kelvin & Hughes Ltd went on to develop various marine radar and echo sounders supplying the Ministry of Transport, and later the Ministry of Defence. The firm was liquidated in 1966 but the name was continued as Kelvin Hughes, a division of the Smiths Group. In 2002, Kelvin Hughes continues to produce and develop marine instruments for commercial and military use. (See Note section this document for further information on the company's origins)This model parallel map ruler is a good example of the commercial diversity of navigational instruments made by Kelvin & Hughes after world war 2. It was made in numbers for use by shipping after the second world war and is not particularly rare or significant for its type. Also, it was made no earlier than 1947 as the firms of Kelvin, Bottomley & Baird Ltd and Henry Hughes & Sons Ltd who took over from Smith & Sons were not amalgamated until 1947. It can there for be assumed that this ruler was made during the company's transitional period to Kelvin & Hughes from Smith Industries Ltd.Metal parallel rule with Kelvin & Hughes Ltd, Made in Great Britain imprinted, numerous measurements, two handles and 3 hinges.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, parallel rule, kelbin & hughes ltd, metal parallel rule

This sextant is very similar to a 1915 Sextant design. A sextant is an astronomical instrument used in measuring angular distances especially the altitudes of sun, moon and starts at sea determining latitude and longitude.This sextant is an example of a 19th-century marine instrument used for finding location at sea. It was made by London scientific instrument maker Troughton and Simms, which originated in 1826 and continued until 1922.Sextant and its fitted square wooden box. The handle of the sextant is carved with a cross-hatched pattern. Made by Troughton and Simms, London.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sextant, navigational instrument, marine navigation, marine equipment, instrument, navigation, troughton and simms, london, scientific instrument

Adams jnr wrote many elementary scientific works, as well as on the use of mathematical instruments. He often combined in his written works with religious themes and scientific content, often against the prevailing thoughts of the time. According to one popular magazine of the time (Gentleman's Magazine), his works were often accused of "growing errors of materialism, infidelity, and anarchy". He started writing at a young age and developed a love for it, his main interests included math and science, these subjects he often expressed in his written essay's. Notable works from Adams are. An Essay on Electricity, and Magnetism (1784). Essays on the Microscope (1787). An Essay on Vision, briefly explaining the fabric of the eye (1789). Astronomical and Geographical Essays (1790). A Short Dissertation on the Barometer (1790). Geometrical and Graphical Essays, containing a description of the mathematical instruments used in geometry, civil and military surveying, leveling and perspective (1790). Lectures on Natural and Experimental Philosophy, in five volumes (1794).George Adams Sr and Jnr were both notable opticians and scientific instrument makers of the 18th century. Their contribution to scientific innovation and optical development cannot be underestimated. Having one of their early drainage levels in the collection and in extremely good condition is an asset to the Flagstaff collection.Drainage level or optical level. A brass surveying instrument with Achromatic telescope, bubble level and dial fitted to the Tribrach or footplate that has leveling screws. Tripod is wood and brass with adjustable and unscrewable legs (for ease of transportation). Made by "G. Adams Fleet St, London". Used in surveying and building to transfer, measure and/or set horizontal levels."G. Adams - London".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, george adams fleet street london, optical instrument, scientific instrument, technical instrument, surveyors level, george adams snr, projection microscope

The barometer was either made or sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See below for further details.) Admiral Fitzroy Pattern Barometer History: The stick mercury barometer was named after Admiral Robert Fitzroy of the Royal Navy (1805-1865) for his detailed instructions on how to interpret the weather, which were included with the instrument. Fitzroy was the captain of the HMS Beagle, also a weather forecaster to Charles Darwin and the second Governor of New Zealand. He developed many different types of barometers and was the first person to introduce the science of weather forecasting to the British Isles. A local manufacturer of scientific instruments, Thomas Gaunt, produced the barometer that was adapted for the southern hemisphere by Robert Ellery, the State Astronomer based at the Melbourne Observatory. In the original sale catalogue for Gaunt's, the item is described as "Gaunt's Fitzroy Barometers" and it was priced from 25/- to ₤9.9s. History of Thomas Gaunt: Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade. Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. His main horological manufacturing was directed at turret clocks for town halls, churches and post offices. These tended to be specific commissions requiring individualised design and construction. He made the clock for the Melbourne Post Office lobby, to a design by Government Astronomer Robert Ellery, and won an award at the 1880-81 Melbourne International Exhibition for his turret clock for the Emerald Hill Town Hall. He became well known for his installation of a chronograph at Flemington Racecourse in 1876, which showed the time for the race, accurate to a quarter of a second. The firm also installed the clockwork and figures for Gog and Magog in the Royal Arcade. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Another department specialised in electroplating for trophies, awards and silverware, and the firm manufactured large amounts of ecclesiastical gold ware and silverware, for the church including St Patrick's Cathedral. There are no records that disclose the number of employees in the firm, but it was large enough for Gaunt to hold an annual picnic for the watchmakers and apprentices at Mordialloc from 1876; two years previously they had successfully lobbied Gaunt to win the eight hour day. Gaunt's workforce was reportedly very stable, with many workers remaining in the business for 15 to 30 years. Gaunt's wife Jane died on September 1894, aged 64. They had one son and six daughters, but only three daughters survived to adulthood. Two became nuns at the Abbotsford Convent and one daughter, Cecelia Mary Gaunt (died 28 July 1941), married William Stanislaus Spillane on 22 September 1886 and had a large family. Gaunt died at his home in Coburg, Victoria, leaving an estate valued at ₤41,453. The business continued as T. Gaunt & Co. after his death. The barometer is historically significant as an example of the work of Melbourne’s leading scientific instrument maker, Thomas Gaunt. The barometer has social significance as an example of the type of scientific equipment that Thomas Gaunt expanded his horology business into producing. Further social significance lies in the fact that Robert Ellery, the Government Astronomer who designed the local version of the barometer, had a direct connection with the Melbourne Athenaeum founded in 1839 as the Melbourne Mechanics' Institution. Its purpose was "the diffusion of literary, scientific and other useful information". There are also records of a T Gaunt as a subscription and committee member of this the Athenaeum organisation during the 1870s and 1880s which may be Thomas Gaunt, unfortunately still unverified.Stick mercury barometer known as the Admiral Fitzroy Barometer. It comprises an oblong wooden case with glass front panel, ornate pediment, barometer with bulb cistern (empty of fluid), cleaning brush with printed instructions for interpreting information given by the gauge affixed to left and right face of instrument. Includes a thermometer. The barometer appears to be intact. Adapted to the Southern Hemisphere. Special remarks by Admiral Fitzroy. Made by Thomas Gaunt, Melbourne. Manufacturer's details are on back of wooden casing. Rear has upper and lower brass screw plates for securing to vertical surface."Manufactured by Thomas Gaunt, 14 Little Bourke Street, Melbourne. "flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, barometer, admiral fitzroy, thomas gaunt, thomas gaunt of melbourne, clockmaker, admiral fitzroy barometer, barometer instructions, gaunt’s fitzroy barometer, gaunt’s of melbourne, gog and magog designer, horological manufacturer, meteorological instrument, melbourne athenaeum, melbourne mechanics' institution, melbourne observatory time signal, robert ellery government astronomer, scientific instrument, stick mercury barometer, thermometer, weather forecast, t gaunt & co

Thomas Walker & Son was internationally renowned in the manufacturing of ships logs. Founding father Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ships log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean) and the most common log in use for two generations. It took till 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. This ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades. Ship Log, three analogue dials calibrated in increments of Miles, the Rocket Log is a nautical instrument for measuring a vessel’s speed and distance traveled. The floating log was drawn behind the ship over a fixed time period in order to measure the distance traveled. The counter could measure enough miles to cover the maximum distance traveled by a ship in one day. The log has two distinct parts; a brass register, made by Walker, showing the distance recorded and the rotator made by Reynolds, that spins in the water driving the counter. both parts are connected by a linked chain. The register has a cylindrical brass body approx 4.5 cm diameter containing registering mechanism with hardened steel bearings. Distance is indicated by the three pointers on enamel plate as follows: graduated every 10 miles from 0-100; every mile from 1-10; every 1/4 mile from 1/4 -1. A brass sling and eye secured to the body enables it to be attached to the taffrail. The original rotator would have had a cylindrical tapered wooden body, approx 4.5 cm in diameter with three metal alloy fins or could be all made from brass. A towing eye is fitted to the tapered end. The two pieces of apparatus are connected by a length of linked chain, length 22.9 cm."Walkers Rocket Ship-Log Birmingham (Patented)" printed on face-plate. "Made by Thomas Walker".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ship log, rocket log, mechanical ship log, measuring instrument, marine instrument, nautical instrument, speed recording instrument, ship log register, walker ship log, walkers rocket ship-log, thomas walker, thomas walker & son, thomas ferdinand walker, walker log business, reynolds ship log rotor, taffrail log, taff rail log, west india association

The Excelsior IV Log is a nautical instrument for measuring a vessel’s speed and distance travelled. When navigating a ship it is essential to be able to estimate the boat’s speed and distance travelled to determine its position at sea. In times past the only way to measure a ship’s speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this, they could estimate the speed of the vessel through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. The Walker’s Excelsior Mark IV instrument was designed for smaller vessels, such as yachts, launches and fishing vessels. Historical: Thomas Walker & Son was internationally renowned in the manufacturing of ships logs, founding father , Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ship’s log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean), being the most common log in use for two generations. It took until 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. The ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades.Ship's Taff Rail Log, rope attached. Walker's Excelsior IV Log model. Nautical miles dials: units and 10's. "Walker's Excelsior IV Log", "Made in England by Thomas Walker, Birmingham"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, log register, taff rail log, taffrail log, marine navigation, a1 harpoon log, cherub’ log, walker’s excelsior mark iv log, ship’s log instrument, mechanical ship’s log, measure ship’s speed, nautical instrument, navigation instrument, massey & sons, thomas walker, blue brick walker, thomas walker & son, thomas ferdinand walker, 48 hour work week

The flywheel possibly belongs to a Walker's Cherub Mark III Ship-log taffrail, how the flywheel operates is a metal loop of the recording log would have been connected to the flywheel, so you could see if it was spinning properly. After the flywheel, is the rotor that was towed behind the ship and the revolutions of the rotor would register on the indicator, thus measuring the distance the vessel had travelled. Thomas Ferdinand Walker (1837–1921) first patented the Cherub log in 1878. It was one of the first logs in which the recorder was placed onboard a ship rather than being incorporated as part of the rotor. The Cherub Mark III series was produced from 1930 it came in two versions a thousand-mile which is quite rare and a five hundred-mile version.This ship log flywheel was invented and made by a significant marine instrument maker and innovator of machinery Thomas Walker. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades to measure the distance travelled at sea updated versions are in use today by mariners.Log Governor (or Fly-wheel) from a Ships Taffrail Log, metal wheel with 6 spokes, hub has rope attached for connecting to ships log. Boss the other side for attachment to the spinner.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, log governor