This music stand set of shelves is one of many 19th century items of furniture, linen and crockery donated to Flagstaff Hill Maritime Village by, Vera and Aurelin Giles. The items are associated with the Giles Family and are known as the “Giles Collection”. Many of the items of furniture, linen and crockery in the Lighthouse Keeper’s Cottage were donated by Vera and Aurelin Giles and mostly came from the simple home of Vera’s parents-in-law, Henry Giles and his wife Mary Jane (nee Freckleton) whose photos are in the parlour. They married in 1880. Henry, born at Tower Hill in 1858, was a labourer on the construction of the Breakwater before leaving in 1895 to build bridges in N.S.W. for about seven years. Mary Jane was born in 1860 at Cooramook. She attended Mailor’s Flat State School where she was also a student teacher before, as family legend has it, she became a governess at “Injemiara” where her grandfather, Francis Freckleton, once owned land. Henry and Mary’s family of six, some of whom were born at Mailor’s Flat and later children at Wangoom, lived with their parents at Wangoom and Purnim west, where Henry died in 1933 and Mary Jane in 1940. THE SHELVES During the years 1869-1935 there were well over 250 registered bamboo furniture producers in Britain. The earliest recorded firm was Hubert Bill of 14 Little Camden St, London N.W., who claimed to have been established in (1869 the first bamboo furniture maker), while Daniel Jacobs & Sons of Hackney Road, London, were still in business in 1915, after 45 years of production. Design, quality, price and methods of construction were fairly consistent throughout the whole period, but it was the imaginative and often eccentric choice of subject matter that marked the differentiation between the various firms. While most produced standard tables, stands and fire-screens, the more adventurous offered for sale items such as Corner shelve units, charcoal barbecue grills and musical tea tables. Shelves were often covered with embossed leather paper designs, at first imported from Japan and then later produced in England. Some firms incorporated the knobbly roots of the bamboo stems into their designs, generally to form feet. Occasionally handles to drawers and cupboards were made with these roots although they were more commonly carved as imitations. Handles were mostly of cheap metal or brass. The ends of the bamboo canes were capped with stamped metal or turned bone, ivory or wooden discs. Methods of construction fell into three categories. First and most common is that of pegging. Bamboo stems being hollow, thick dowels can easily be glued into the joints. Some firms farmed out this work of `plugging' the ends of the canes to part-time workers at home. The second method, that of pinning, was far less satisfactory as bamboo tends to split lengthwise and therefore the jointed pieces eventually disintegrated. The most efficient method was that patented in 1888 (patent No 2383) by the firm of W. F. Needham in Birmingham. It consisted of metal shoes and covers for all joints which were made by wrapping a metal strip around the stems and soldering the overlapping ends. Some joints were further strengthened by a small pin or screw. Needham was by far the largest and most successful manufacturer and their individual and superior method of construction undoubtedly gained them their reputation. A. Englander & Searle of 34 Gt Eastern St and 31 Mare St, Hackney, London, were a firm particularly concerned with methods of construction. Although they seem to have entered the bamboo furniture market at a comparatively late date, about 1898, they produced inexpensive bamboo, aimed particularly at the export trade. The company stated in their catalogue that bamboo furniture “can be exported in one piece or it can be exported in pieces and put together again. The fixing up is much facilitated by a system of marking and numbering. Further, no glue is required for putting together as the screw system only is applied”. This method of construction best fits the Etagere in the Flagstaff collection and it is believed to have been made by A Englander & Searle, exported in a knock down form to Australia, purchased in kit form from a dealer hear and put together by the owner. The Etagere is a significant item as it highlight furniture fashion of the late Victorian era. This item was highly sort after in its time and although mass produced, not many examples remain, so this example is a valuable addition to the Flagstaff collection. It is believed that the construction method used is by a notable and respected maker of bamboo furniture and that its production was aimed at the export market and probably came to Australia in kit form.Bamboo shelves: decorative free standing Etagere comprising three large shelves and one small shelf. Shelves are made of wood used to store either orange or bacon boxes (as there are no knots in the wood, imported from South America and cheap to recycle). Shelves are covered with embossed leather paper. Frame is made from tortoise shell bamboo (brown lacquer applied to simulate tortoise shell appearance). Ends of bamboo canes are covered with metal shoes and fixed with a pin. Other bamboo joints are fixed with round head steel screws. This item is part of the Giles Collection.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bamboo shelves, bamboo etagere, victorian furniture, furniture, bamboo furniture, embossed leather paper, simulated bamboo, tortise shell, a englander & searle, giles collection, henry giles, tower hill, cooramook, warrnambool breakwater, mailor’s flat, wangoom, 19th century furniture

We have not statement of significanceWooden framed black and white photograph of a two foot gauge steel rail line from the mill sight to Alexandra. This locomotive, a Kraus, steam engine (year ?)is passing through Lower Rubicon. It hauls three carriages with timber and on the side of the rail there are open boxes. A wooden house on Gilmore's family property is halfway up the hill. The property shows signs of damage of the recent Goulburn River flooding in 1916. There is a hook in the top of the frame and writing on the bottom of the frame "Lower Rubicon 1916".On bottom of the frame "Lower Rubicon 1916?" written with black texta colour pen in capital letters. 1916, cottage, rail, locomotive, train, floods, dead trees, two foot gauge, timber stacks, goulburn river floods, gilmore, lower rubicon, carriages, rubicon, kraus

According to 'Salute to the X-Ray Pioneers of Australia' the X-Rays experiments conducted at the Ballarat School of Mines 'played a conspicuous part in the development of the application for x-rays to medicine.' John M. Sutherland conducted most of the experiments with induction coils giving 6 inch, 12 inch and 16 inch sparks respectively. Photograph of a timber frame with 27 original X-Rays conducted by John Sutherland at the Ballarat School of Mines. X-Rays include human bones, kangaroo hand, steel, bent knee, gold in quartz, snake, and others.x-ray, john m. sutherland, ballarat school of mines, john mckenzie sutherland, xray, pioneer xrays

George Milford, a long term staff member of Thompsons Foundry Castlemaine, remembers discussing Alexander Sinclair with this son, Alex Sinclair Jnr. "When Alex Jnr was a boy, his father, a senior design engineer, was sent to Malaya to oversee the erection on site of a suction cutter dredge for Thompsons. This was an adaptation of the idea of a bucket-dredge, where gold is won from alluvial gravels. In the 1915-1920 era, the Thompsons Engineering Department designed a suction-cutter dredge, by which hydraulic suction with a revolving cutter at the end of a long proboscis would collect the alluvial soil and deliver it into the dredge for recovery of the precious metals. Export marketing was then ‘all the go’, and the tin dredges were ordered from Thompsons, using the new cutter design. The dredges were, of course, shipped to Malaya in pieces, ready to be assembled on site. A number of Thompsons employees were selected to travel to Malaya to assemble the dredges. There were fourteen men in the gang. These men sailed on 1st July 1925, their number including Delmenico, McKay and Charles Albert Hauser, an engine driver. C A Hauser died of malaria in Malaya shortly after arrival. Components for a further three of these dredges were in transit or on site when the first suction-cutter dredge was assembled and tested. The designers had failed to take into account the fact that, in the jungle floor in Malaya, many trees grow up, and fall down, in tropical conditions, and become submerged still waterlogged in the floor of the jungle, and in the tin-bearing gravels. The suction-cutter dredge was found to be inefficient in these circumstances, the price of tin had fallen and the Malayan client reneged on the contract. Faced with an outlay of over £4,000 on which no money would be received, the company went bankrupt on 25th August 1925. Alex Sinclair Snr was at that stage in Malaya, and received the news of the bankruptcy by telegram. Upon telegraphing his employers for funds to return home, he received the reply that there were no such funds available. Alex Sinclair Jnr told the story of how his father worked as a labourer in Malaya for two years, while his mother took in washing and ironing during the same period, until together they had assembled enough money to pay for his father’s return Anyone who talks about “the good old days” is talking nonsense!"Large blue printed paper plan outlining the conditions of contract for the making of a steel boiler. The Blueprint includes design drawings and written contract specifying materials, time frame and costs. Signed on front 'Alec Sinclair Consulting Engineer, 31 Queen Street, Melbourne'. Stamped on verso 'Printed by Paterson & Co, Colonial Mutual Chambers, Collins St, Melbourne'. blueprint, designs and plans, yarrawee suction dredge, conditions of contract, thompsons foundry castlemaine, george milford

A washboard is a tool designed for hand washing clothing. With mechanized cleaning of clothing becoming more common by the end of the 20th century. The traditional washboard is usually constructed with a rectangular wooden frame in which are mounted a series of ridges or corrugations for the clothing to be rubbed upon. For 19th-century washboards, the ridges were often of wood; by the 20th century, ridges of metal were more common. A "fluted" metal washboard was patented in the United States by Stephen Rust in 1833. Zinc washboards were manufactured in the United States from the middle of the 19th century. In the late 20th century and early 21st century, ridges of galvanized steel are most common. Clothes are soaked in hot soapy water in a wash tub or sink, then squeezed and rubbed against the ridged surface of the washboard to force the cleaning fluid through the cloth to carry away dirt. A significant item for cleaning clothes still in use today in many countries giving a snapshot into the domestic life of a housewife.Washboard wooden rectangular with wood grid and 2 legsNoneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clothes washing, cleaning, 19th century washing appliances, scrub board, washboard

This photograph was taken in about 1924 as it approached Newcastle, New South Wales before the sailing ship Monkbarns was converted for use as a hulk. The steel-hulled, 3-masted fully rigged ship was built in 1895 by Archibald McMillan & Son at Dumbarton in Scotland. It was 267 feet long, 40.1 feet wide and 23.5 feet deep. In 1914 John Stewart & Co. owned ten sailing vessels, one of which was the Monkbarns, but by the end of the first World War, the fleet had only four vessels survived the war, including the Monkbarns. The Monkbarns traded across the world. Some of the destinations included Port Adelaide, Table Bay in South Africa, Liverpool, Sydney, London and New York. Her last commercial voyage was in 1926. Overall, the ship traded for 32 years before it was converted in Spain in 1927 for use as a hulk for carrying coal. There were several owners of the ship over its lifetime. They were - 1895, first owner, Charles Webster Corsar, Liverpool - 1902, the owner was D. Corsar & Son, Liverpool - 1909, owned by John Hardie & Sons, Glasgow - 1911, John Stewart & Co., Liverpool - by1915, James A. Young, London - 1926, L.H. Wilson, Liverpool - 1927, Ballener Espando (Brunn & van Lippe, Tonsberg).Photograph, black and white, of the ship "Monkbarns" , a steel hulled sailing ship under sail, bow facing viewer. Rectangular wooden frame has an inner gilt frame around a wide, natural bark matte. The lover edge of the matte has a decorative rectangular cut-out surrounding an inscription with the ship's name. On the back is a handwritten inscription about the ship and the presentation of the photograph..Front: "MONKBARNS" Reverse handwritten in pen: "PRESENTED TO A.F. WATSON / FOR S.S.V. BY / CAPT. F.K. BAXTER / 74 VERDON ST/ WILLIAMSTOWN " Reverse: "STEEL SHIP MONKBARNS / 1771 TONS REGISTER / 267 x 40' X 27'2" Draft / Build 1895 by McMillan, Dumbarton, Scotland / Converted to a hulk in /Spain 1927. / Photo taken in - Converted from NEWCASTLE N.S.W. about 1924"flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, monkbarns, sailing ship, newccastle, new south wales, hulk

A Frame Bearing bracket. Made from pressed steel. Made by Standard Pressed Steel Co Jenkintown USA. Height 600mm width 400mm Circa 1960flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

A Frame Bearing bracket. Made from pressed steel. Made by Standard Pressed Steel Co Jenkintown USA. Height 600mm width 400mm Circa 1960flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

A Frame Bearing bracket. Made from pressed steel. Made by Standard Pressed Steel Co Jenkintown USA. Height 600mm width 400mm Circa 1960flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

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

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

This is a photograph of the ship "Wiscombe Park", later named "Grief". It is set in a varnished wooden frame. Written on back: steel ship in blue pen; "Wiscombe Park" later "Greif" 2075 tons reg 281 feet by 42 feet 2 ' by 21 feet 7' draught Built by J.Blumer Sunderland in 1892. Broken up in Belfast Ireland 1927. Capt Baxter when 2nd Mate to become 2nd Mate of the barque "Shandon" about 1918. Photo presented to H F Watson for S.S.V by Capt F.K. Baxter, 74 Verdon Street, Williamstown.Photograph of the ship "Wiscombe Park" later named "Grife" set in varnished wooden frame. Written on back: steel ship "Wiscombe Park" later "Greif" 2075 tons reg 281 feet by 42 feet 2 ' by 21 feet 7' draught Built by J.Blumer Sunderland in 1892. Broken up in Belfast Ireland 1927. Capt Baxter when 2nd Mate to become 2nd Mate of the barque "Shandon" about 1918. Photo presented to H F Watson for S.S.V by Capt F.K. Baxter, 74 Verdon Street, Williamstown.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, photograph of ship wiscombe park, ship grief, ship builder j.blumer sunderland, captain baxter, barque "shandon"

A spherometer is an instrument for the precise measurement of the radius of curvature of a sphere or a curved surface. Originally, these instruments were primarily used by opticians to measure the curvature of the surface of a lens. A fixed-frame tripod with adjustable central contact screw, equipped with micrometer scale. Brass construction with steel contact points. Designed for measuring curvature of lenses. Stored in a polished timber box. Made specially for Silberberg and Co. Ltd. Melbournescientific instrument, spherometer, h.b. silberberg & co ltd

Used at BIAE in petrology laboratoryAn optical, petrographic, polarizing microscope with a single objective lens in a blonde timber case with key. Black enamel frame, chrome accessories.POS marking on steel plate Olympus Tokyo 202108 engraved on barrel On Box door "P6" engraved labelmicroscope, polarizing microscope, olympus optical co. ltd, ballarat institute of advanced education, petrology laboratory, scientific instrument

A clamp is a fastening device to hold or secure objects tightly together to prevent movement or separation through the application of inward pressure. The tool is for temporary use for positioning components during construction and wood working. There are many types of clamps available for many different purposes. Some are temporary, as used to position components while fixing them together, others are intended to be permanent. A C-clamp or G-clamp is a type of clamp device typically used to hold a wood or metal work piece, and often used in carpentry and welding. C-clamps or G-clamps are typically made of steel or cast iron, though smaller clamps may be made of pot metal. At the top of the "C" is usually a small flat edge. At the bottom is a threaded hole through which a large threaded screw protrudes. One end of this screw contains a flat edge of similar size to the one at the top of the frame, and the other end usually a small metal bar, perpendicular to the screw itself, which is used to gain leverage when tightening the clamp. When the clamp is completely closed, the flat end of the screw is in contact with the flat end on the frame. When the clamp is actually used, it is very rare that this occurs. Generally some other object or objects will be contained between the top and bottom flat edges. A steel ‘C’ or ‘G’ Clamp used to hold a wood or metal work piece, used in carpentry and welding.L.W.BANKtools, woodwork, metalwork, welding, carpentry, pioneers, market gardeners, early settlers, bank w.l., moorabbin, cheltenham, bentleigh, ormond

A hacksaw is a fine-toothed saw, originally and principally for cutting metal. They can also cut various other materials, such as plastic and wood; for example, plumbers and electricians often cut plastic pipe and plastic conduit with them. On hacksaws, as with most frame saws, the blade can be mounted with the teeth facing toward or away from the handle, resulting in cutting action on either the push or pull stroke. In normal use, cutting vertically downwards with work held in a bench vice, hacksaw blades should be set to be facing forwards. A steel hacksaw with a wooden handle but without blade

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

A coping saw is a type of hand saw used to cut intricate external shapes and interior cutouts in woodworking or carpentry. It is widely used to cut mouldings to create coped rather than miter joints. It is occasionally used to create fretwork though it is not able to match a fretsaw in intricacy of cut, particularly in thin materials. Coping saw blades are always thicker and much coarser cutting than typical fretsaw blades. A coping saw consists of a thin, hardened steel blade, stretched between the ends of a square, c-shaped, springy-iron frame to which a handle is attached. The blade is easily removed from the frame so that the blade can be passed through a drilled hole in the middle of a piece of wood. The frame is then re-attached to the blade and the cut starts from the middle of the piece. Long cuts perpendicular to the edge of the material are possible but the shallow depth of the frame rather limits how far from the edge one may cut. The much deeper frame of the fretsaw is more useful for cutting well away from the edge but conversely cannot manage the thicker materials commonly cut by the coping saws. The coping saw blade is installed with the teeth pointing towards the handle. Unlike a hacksaw, which has the teeth pointed away from the handle, the coping saw cuts on the pull stroke. The coping saw blade is removable by partially unscrewing the handle. The blade is prevented from rotating by means of the short, steady bar provided where the blade is attached. Loosening the handle also allows the blade to be rotated relative to the frame as desired. Carefully aligning the finger steady bars at the top and bottom of the blade ensures that the thin blade is straight and not twisted along its length. Re-tightening the handle tensions the blade and locks it at the desired angle relative to the frame. The short steady bar nearest the handle is held securely between finger and thumb while the handle is tightened to ensure the blade remains at the desired angle. Unlike the fretsaw the coping saw blade has holding pins which lock securely into the angled slots of the rotatable blade holders. Gentle curves are achieved by slowly turning the whole frame by means of the handle while continuing to cut steadily. A coping saw with wooden handle but no bladetools, saws, steel , clamps, metalwork, woodwork, carpentry, early settlers, pioneers, market gardeners, moorabbin, bentleigh, cheltenham, fretsaw, coping saw, bowsaw, blacksmiths,

JAMES JOSEPH HIGGINS, was born in Dublin in 1821 and, at age twenty, emigrated via Liverpool in 1841 with his wife Ellen and baby daughter Margarete, on board the 'Intrinsic'. They lived in Little Lonsdale Street, Melbourne, for some years, where their son James John Clarke Higgins was born in 1850. JAMES JOHN CLARKE HIGGINS moved to Brighton East when he married Ruth Simmonds in 1873. The couple lived on Jasper Rd near the corner of Centre Rd for the rest of their lives, and produced eight children HERBERT JOHN HIGGINS was the sixth child born in 1886, to James John Clarke Higgins and Ruth Simmonds, and grew up in Centre Rd, Brighton East, now Bentleigh. He was renting and working a property on Jasper Rd from the time he was married in 1913 to Victoria Matilda Long, daughter of Charles John Long and Annie Matilda Allnutt. Herbert John bought his property on Jasper Rd in 1921. [Metropolitan Board of works plan 3220, Municipality of Moorabbin, shows that in 1928, Higgins Rd was planned (and probably built soon after). Herbert was a dairyman and market gardener. He bred and milked cows and sold milk, cream, butter and eggs to the locals. He supplied hay/corn to be made into chaff to J L Smith’s produce store. He also leased land from other farmers in the area and helped work their land. c1950 he sold the property in lots, some privately, others to the Municipality. Some lots became part of Hodgson Reserve, Higgins Road, Bentleigh, and another lot, the Bentleigh Bowling Club. Herbert and Victoria, known as Queenie, had five children between 1914 and 1928. The youngest Dorothy, who remembered sitting in this pram and later using it to carry papers, wood, vegetable etc., lived on the property in Jasper Road until her passing in 2016. ( Ronald Alexander Higgins, descendant , Helen Stanley CMHS 2017) The family of Dorothy Higgins 1928-2016, were early settlers in Moorabbin Shire establishing a dairy farm c 1873 in East Brighton ( now Bentleigh)Wicker Perambulator, baby carriage, c. 1914, with a lined, painted wicker body, iron spring scrolled frame with leather straps and 4 steel wheels with rubber tyres. The push handle is broken and hood is missing. dairy farms, higgins james joseph, simmonds ruth, higgins dorothy, poultry farms, jasper road bentleigh, city of moorabbin historical society 1961, sheehy t.a., newsletters, ashley r, neville f, blackman n, moorabbin city council, moorabbin roads board toll gates, pioneers moorabin cheltenham, bentleigh, highett

This horse-drawn, two-wheeled cart with a tank, is known as a Furphy Farm Water Cart that was made in Shepparton, northern Victoria, c. 1942. John Furphy (1842-1920) was born in Moonee Ponds, in 1842 to Irish immigrant parents and subsequently raised in the Yarra Valley before the family moved to Kyneton in central Victoria, where he completed an apprenticeship with the firm Hutcheson and Walker. Murphy began operations of his own at a site on Piper Street in Kyneton in 1864. He relocated for a business opportunity and founded the first blacksmiths and wheelwrights shop in the newly surveyed town of Shepparton in 1873. Furphy invented many farming tools and machines including a patented grain-stripper, and won awards at the 1888-89 Melbourne International Exhibition. His most famous invention is the Furphy Farm Water Cart, designed in the 1880s, at a time when water for most households and farms was carted on wagons in wooden barrels. The Furphy’s water cart is a single item that combines a water metal tank and a cart. The design of the cart was simple yet effective, and became popular very quickly and established itself as a vital piece of farming equipment. The water cart has had a number of words cast into its ends over many years. References to the foundry’s location in Shepparton, as well as advertising of other products also manufactured by J. Furphy & Sons were present on the ends. However, the most significant set of words to feature on the tank, was a poem encouraging continual improvement: ‘Good Better Best, Never Let it Rest, Until your Good is Better, And your Better Best’. During The Great War (1914-1918), the water cart was used by the Australian militarily at a large AIF (Australian Imperial Force) camp in Broadmeadows (Melbourne) where thousands of men were camped for months, before being transported aboard. Furphy Water Carts provided water to the troops, and were usually placed near the camp latrines, which was one of the few places the troops could share gossip and tall tales away from the prying eyes and ears of their officers. The water cart drivers were also notorious sources of information, despite most of their news being hearsay, or totally unreliable. By the time the men of the AIF were in engaged in combat on the Gallipoli Peninsula and the Western Front, the carts used for water supply had no markings and became simply referred to as Furphys. This owed as much to the coining of the term ‘Furphy’, Australian slang for suspect information or rumour. After a number of decades as principally a soldier’s word, 'Furphy' entered the broader Australian vernacular and was used mainly by the political class until recently when the term was taken up by a Australian brewer as a beer brand. This Furphy Water Cart was purchased by Friends of Flagstaff Hill in 2014. The support of local individuals, organisations and businesses enabled its restoration and later its installation alongside the existing late-19th century water pipe stand and 1940s hand pump The Furphy Farm Water Cart is of historical significance as it represents a famous Australian time-saving and energy-saving invention of the 1880s, replacing the labour intensive activity of collecting and dispensing water from barrels and casks on the back of carts. The water cart’s connection with manufacturing companies J. Furphy & Sons and Furphy Foundry are significant for being early Australian businesses that are still in operation today. Furphy carts are of military significance for the role they played during The Great War (1914-1918) in Australian army camps, and theatres of war in Europe and the Middle East, to supply the AIF troops with fresh water. A wooden framed, two-wheeled, horse-drawn cart, fitted with a horizontally mounted, cylindrical metal tank. The tank is made of rolled, sheet steel with a riveted seam, and cast iron ends with cast iron ends. The spoked metal wheels have fitted flat iron tyres and metal hubs. A metal pipe is joined to the outlet. The tank is silver coloured, the ends, wheels and trims are crimson, and the script lettering on tank sides is black. There are inscriptions on the tank, ends, and hubs. The water tank was made in 1942 in Shepparton, Australia, by J. Furphy & Sons and has a capacity of 180 gallons (848 litres). Hub perimeter, embossed “J. FURPHY & SONS” “KEEP THE / BOLTS TIGHT” Hub centre embossed [indecipherable] Tank, each side, painted “J. FURPHY & SONS / Makers / SHEPPARTON” Tank ends, embossed – “FURPHY’S FARM WATER CART” “BORN ABOUT 1880 – STILL ‘GOING STRONG’ 1942” “j. FURPHY & SONS / MAKERS / SHEPPARTON - VIC “ “S - - - - - L MANUFACTURERS” [SPECIAL] “SPIKE ROLLERS” “SINGLE TREES” “PLOUGH WHEELS” “IRON CASTINGS” “LAND GRADERS” “STEEL DELVERS” “CAST IRON PIG” “CHAIN YOKES” “GOOD – BETTER – BEST / NEVER LET IT REST / TILL YOUR GOOD IS BETTER / AND YOUR BETTER – BEST” Image [Stork carrying a baby] above shorthand, transcribed "Produce and populate or perish" Image [Furphy Pig Feeder] beside ‘Cast Iron Pig’ Shorthand, transcribed “"Water is the gift of God but beer and whiskey are concoctions of the Devil, come and have a drink of water"warrnambool, flagstaff hill maritime museum, water cart, furphy cart, furphy tank, furphy farm water cart, furphy, john furphy, john furphy & sons, furphy foundry, kyneton, shepparton, mobile water tank, jinker, hutchinson & walker, blacksmith, farm equipment, implement maker, tool maker, horse drawn, stork and baby, good, better, best, barrel, tank, first world war, wwi, eastern front, gallipoli, j furphy & sons

19th Century J Harrison,Picture Frame Manufacture of Bottom Block, 64 Pall Mall Sandhurst stick-on advertising leaflet. Attached to brown paper fragment. J Harrison was thanking friends and public of Sandhurst and district of Bendigo for past favours. Kept a large choice at lowest prices of Oil Paintings, Oleographs, Lithographs, Chromos, Steel Engravings, Mottoes, Illuminated Texts, Choice Copies for Drawing and Painting, Birthday Cards, Scraps in Great Variety, & etc.News Office Sandhurst.bendigo, industry, printing, j harrison bottom block, 64 pall mall sandhurst. 19th century printing techniques.

Gilbert Innes Strachan (1888-1963) was educated in Glasgow and Bristol. He was a fluent lecturer and a stimulating and dogmatic teacher. Strachan was a founding member of RCOG (London) and served on its Council from 1929- 1955. He was one of the pioneers of the use of radium in treating uterine cancer, receiving a CBE in 1953 for his work in this area. Professor Strachan donated a coat of arms to the Australian RCOG during a visit (pre- 1963). Professor Strachan died at his home in Cathedral Road, London on December 9, 1963, following a short illness. He was 75.Framed black and white photograph. The photograph is a side-on portrait photograph of Professor Gilbert Strachan, a white haired man with steel-rimmed spectacles, a dark suit, and a white shirt. Label on back of frame reads 'Professor Gilbert I Strachan CBE LID'. Frame is made of gold coloured metal and carries a simple wave pattern. The back of the photo is secured by a piece of orange and cream patterned chipboard, held in place by eleven small photograph tacks.Professor Gilbert I Strachan CBE LIDrcog

Black Framed Colour Photograph of RAAF Caribou being loaded on a pierced steel planking (PSP) upon a US Army Aircraft and Hangars can be seen in the background.REGO A4-210photograph, caribou

Framed Document in a Black Frame. 161 Recce Flt. Honours and Awards. Details Achievements of Lt Edwin Steel DFC in Vietnam March 71 to Nov 71framed document, 161 reconnaissance flight, lt edwin steel, dfc, honours and awards

A special stool made to enable a disabled surgeon to operate while sitting was donated to the College by Mr John Farlow FRACS in September 2003.The stool was made for Gilbert Phillips FRACS (1904-52), the legendary Sydney neurosurgeon and wine connoisseur. Phillips was a gifted young graduate, a protégé of (Sir) Harold Dew (PRACS 1953-55). He went to England, where he became surgical assistant to (Sir) Hugh Cairns, amongst others. He was a consultant to the RAAF during WWII, and at the end of the War returned to England at Cairns’ request. Back in Sydney, he returned to Royal Prince Alfred Hospital, where he spent most of his professional career. In 1951, after a long battle with skin cancer, he had his right leg amputated below the knee. Only a few weeks later he was back working at the operating table, and it was at this time the stool was constructed for him. By now however, he was suffering from secondary melanoma, and he died in September 1952.This object is an interesting example of pioneering apparatus from the days before stools became a familiar piece of theatre equipment.The design of the stool is simple and robust. A substantial padded saddle forms the seat, which is adjustable for height. The saddle is upholstered in red leather. The frame is made from tubular steel, painted cream. The whole device runs on three swivelling casters, two at the front and one at the rear, which enable it to be taken in any direction. noneracs, gilbert phillips, harold dew, surgery, 2003

Found in the donor's house in Service Street, Clunes, Victoria, AustraliaSMALL LEATHER BELLOWS WITH STEEL PIPE PROTRUDING FROM TOP OF BELLOWS, TIMBER FRAMED WITH UPHOLSTERY TACK TO JOIN LEATHER TO FRAME.Nilbellows, fire implements

This Hand trolley was built by Chris Alger to undertake weed poisoning and other minor track work on the railway between Belgrave and Menzies Creek while the line was closed (1954-1962). From 1958, Chris often put a drum of chemical on the trolley and propelled it by hand up and down the line until the shakedown specials in 1962. Other times it just took the tools needed to keep the line free of trees and other weeds. Chris was on the Puffing Billy Preservation Society committee for a number of years in the early days and contributed funds to Puffing Billy Preservation Society projects.Narrow Gauge - Puffing Billy Railway - track maintenance Hardwood planks, Hardwood frame Flat 4 wheel, 2'6" rail trolley Removable Steel "T" handle Brake applies to one wheelNone2'6", puffing billy, pbps, trolley, chris alger, narrow gauge

Trucks of this type were built to carry salt from the saltpans of Cheetham Salt Company works, at Laverton, Moolap and Geelong. Made from wood and steel, it was found that the wood would not erode as much as steel from the salt and this is the reason these vehicles have metal on the exterior of the wagon. Later new stainless steel hopper trucks were used at the works. Historic - Industrial narrow Gauge railway - Cheetham Salt Company at Laverton, Moolap and Geelong.Two Cheetham Salt Hopper Trucks Gauge 2'0" Made from Wood & Steel No. 12 on metal frame of one of the Cheetham Salt Hopper truck A second hopper truck is not numbered.puffing billy, industrial narrow gauge railway, cheetham salt company, gauge 2' 0", salt

Early Industrial Timber working Flat Belt driven saw bench Historic - Early Industrial Timber working Flat Belt driven saw bench Wood framed with a sliding table and a steel shaft with a pulley on one end and a saw blade on the othersaw bench, puffing billy, flat belt driven