The invention of a hand drill is credited to Arthur James Arnot and William Blanch Brain of Melbourne, Australia who patented the electric drill in 1889. In 1895, the first portable handheld drill was created by brothers Wilhem & Carl Fein of Stuttgart, Germany. Hand-powered devices have been used for millennia. However, during the last quarter of the 19th century a radically improved generation of tools appeared. These tools took advantage of modern mass production machinery and processes (like interchangeable parts) and an increased availability in superior material (metal instead of wood). One of the outcomes included an array of new drilling machines. These human-powered tools were a vast improvement over earlier tools.This item is an example of a commonly used domestic tool - pre power tools.A Stanley hand drill with two wooden handles. The red wheel is painted metal. On red wheel - STANLEY ENGLANDwoodwork tool hand-drill

This carpenter's clamp would have been used in confined spaces where a full turn of the brace cannot be achieved. It is fitted with a pawl mechanism - a hinged or pivoted device adapted to fit into a notch of a ratchet wheel to impart forward motion or prevent backward motion. This item would have been used on a rural property in constructing or maintaining infrastructure.This item is an example of a woodworking tool used in the first half of the 20th century prior to the widespread use of power tools.A metal ratchet brace with a wooden handle grip. It has a hinged mechanism device which fits into the notches of the ratchet wheel - a pawl. The drill bit is jammed and the chuck is rusted.woodworking tool brace-and-bit carpentry

Belaying pins can be metal but are often made of wood, treated or untreated, plain or with handles. A belaying pin is used to secure the running ropes of the rigging to the ship's rails using holes drilled onto the rails for that purpose. The belaying pins are inserted into holes in the ship’s rail, drilled for that purpose. When the sail has been raised, the ropes are wrapped around the upper and lower sections of the pins in a figure-eight pattern. The shapes of these belaying pins taper from the rounded end of the handle inwards towards the bottom, which allows them to have a firm fit into the holes in the rails. The rigging rope is wound around the pins in such a way that a tug on the pin's handle pulls it out of the hole and quickly frees the rope and the sail.These belaying pins are significant for their association with sailing vessels, particularly vessels of the late 19th and early 20th centuries.Belaying pin, metal, painted brown.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, sailing equipment, nautical equipment, rigging, yards, sails, belaying pin, sailing ship

Belaying pins can be metal but are also made of wood, treated or untreated, plain or with handles. A belaying pin is used to secure the running ropes of the rigging to the ship's rails using holes drilled onto the rails for that purpose. The belaying pins are inserted into holes in the ship’s rail, drilled for that purpose. When the sail has been raised, the ropes are wrapped around the upper and lower sections of the pins in a figure-eight pattern. The shapes of these belaying pins taper from the rounded end of the handle inwards towards the bottom, which allows them to have a firm fit into the holes in the rails. The rigging rope is wound around the pins in such a way that a tug on the pin's handle pulls it out of the hole and quickly frees the rope and the sail.These belaying pins are significant for their association with sailing vessels, particularly vessels of the late 19th and early 20th centuries.Belaying Pin, metal, painted white.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, sailing equipment, nautical equipment, rigging, yards, sails, belaying pin, sailing ship

Belaying pins can be metal but are also made of wood, treated or untreated, plain or with handles. A belaying pin is used to secure the running ropes of the rigging to the ship's rails using holes drilled onto the rails for that purpose. The belaying pins are inserted into holes in the ship’s rail, drilled for that purpose. When the sail has been raised, the ropes are wrapped around the upper and lower sections of the pins in a figure-eight pattern. The shapes of these belaying pins taper from the rounded end of the handle inwards towards the bottom, which allows them to have a firm fit into the holes in the rails. The rigging rope is wound around the pins in such a way that a tug on the pin's handle pulls it out of the hole and quickly frees the rope and the sail.These belaying pins are significant for their association with sailing vessels, particularly vessels of the late 19th and early 20th centuries.Belaying Pin, metal, painted white.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, sailing equipment, nautical equipment, rigging, yards, sails, belaying pin, sailing ship

The subject item is an early Victorian Scotch Brace with a 10-inch sweep. They were also known as a six penny or "gentleman's" brace and were designed to accept tapered square shank bits, early designs have a thumb screw to help secure the bit. Later designs had a catch to secure drilling bits. This type of brace was used in wagon making for boring & drilling holes into the wood for a variety of purposes, including driving screws. The subject item is unmarked but could have been made in Glasgow Scotland by John Fray in the 1800s, early drill braces of this type were often unmarked by their makers. A significant early example of a drill brace made in the UK during the 1800s demonstrates the evolution of this type of tool from this time that today is a rare and collectable example of woodworking tools.Brace metal with wooden handle. Has a screw in the holding socket item also has an auger bit. Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, brace, carpenders wheel brace, cabinet makers tools, drilling tool, wagon makers drill

This awl donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. 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 as a Surgeon Captain during WWII1942-45, 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”. 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 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. Awl, part of the W.R. Angus Collection. Wooden handle, metal locking device that is holding a drill bit in place. Used to make a 'pilot hole' for inserting screws and nails.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, awl, woodworking tool, tool

Gimlet metal with wooden handle attached and sharp metal cutting edge on turns of drilling piece. Given by I.D. Jacobs Box 150 Ararat.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

The Archimedes drill, also known as a fretwork drill, is an old type of drill which works on the Archimedian principle; the drill rotates quickly as the barrel on the stem is worked up and down. This tool provides a quick and easy way to bore holes through ordinary fret wood and other substances, smaller versions are used in jewellery making where precision drilling is required. There were numerous different sized Archimedes drills made from various materials, usually a combination of wood and steel, some being all steel and some including brass parts. The fancier versions of these drills included parts made from Rosewood, Ebony, Ivory and decorative brass parts. Some of the later Archimedes drills had technological improvements such as a ratchet device and the inclusion of fly-weights. The ratchet device allows the drill to revolve continuously in the cutting direction. The fly-weights give momentum to maintain the speed of the drill during the upward stroke of the hand. Most old examples have no makers names.A vintage drilling tool that has been nickel plated with brass fitting and easier to sterilise. The item therefore could have been used in the medical profession as a bone drill during surgery. Weighted Archimedes drill all metal construction, nickel plated with brass handles centrifugal typeNoneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, archimedean drill, drill, tool, drilling tool

The subject item is an early Victorian Scotch Brace with a 10-inch sweep. They were also known as a six penny or "gentleman's" brace and were designed to accept tapered square shank bits, early designs have a thumb screw to help secure the bit. Later designs had a catch to secure drilling bits. This type of brace was used in wagon making for boring & drilling holes into the wood for a variety of purposes, including driving screws. The subject item is unmarked but could have been made in Glasgow Scotland by John Fray in the 1800s A significant early example of a drill brace made in the UK during the 1800s demonstrates the evolution of this type of tool from this time that today is a rare and collectable example of woodworking tools.Drill Brace metal with socket and thumbscrew, varnished wooden head and handleNoneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, brace, carpenders wheel brace, cabinet makers tools, drilling tool, wagon makers drill

The Bow Saw is considered by many to be the most satisfactory saw for cutting shapes since the narrow blade negotiates curves easily, and is held in tension. Both the handle and knob (at the other end of the blade) can be turned so that a cut can be made more or less parallel to the required cut. Obviously the blade must be free of twist when in use. It is available with blade lengths of 25 to 40 cm (10 to 16 in). Generally both hands grips the one handle, hence the bulbous shape with narrow neck, but when thick wood has to be sawn it is helpful to have a person at each side, both sides of the wood having been marked. In this way it is much easier to keep the cut square to the sides of the timber. The rivets holding the blade to the handle can be withdrawn so that the saw can be used for an internal cut, the blade being threaded through a hole drilled through the timber.A vintage bow saw used in cabinet work by a cabinet maker in the mid to later part of the 19th century probably made in England.Bow saw wooden frame and handles. Twine attached to upper section of frame.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bow saw, carpenders tools, cabinet makers tools, wood working, wood saw

A hand cranked pedestal drill press, embossed "Union" and "IH276", wooden handle on the fly wheel, handle has copper wire wrapped around it, 845 mm high, 475 mm wideflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Context: A brace is a hand tool used with a bit (drill bit or auger) to drill holes, usually in wood. The pressure is applied to the top and the tool is rotated with a U-shaped grip. Bits used to come in a variety of types but today the more commonly used Ridgeway and Irwin pattern bits also rely on a snail point (called the snail), which is a tapered screw point shaped the same as a wood screw thread, which helps to pull the bit into the wood as the user turns the brace handle and applies pressure. The designs used today come from an original idea and pattern invented by John S Fray. Company History: John S. Fray (1833 ) immigrated to Bridgeport Connecticut USA from England in the 1850s and established a working relationship with Nelson Spofford, who held an 1858 patent for a bit brace (the tool could be augured in a continuous circular motion by hand). He established the John S. Fray Co. around the same time and immediately began producing the Spofford bit brace. Fray himself held at least two patents: one awarded in 1869 for a boring brace attachment, and another awarded in 1883 for a tool handle. By 1889, the firm was located at the industrial complex that sits between the former International Silver Company and the former Bridgeport Chain Company on Crescent Avenue and is identified on the Sanborn Insurance Atlas as a manufacturer of Spofford bit braces, hollow handle awl, and toolsets. The company was in competition with Peck Stow and Wilcox Co. of Southington, and in 1898 was enjoined from making a ratchet bit brace for which the latter company held a patent. By the 1920s, the factory had been purchased by the Stanley Company of New Britain and leased to the American Tube and Stamping Company, a manufacturer of brass, copper, seamless, and bicycle tubing, which also ran a rolling mill to the south on Stafford Avenue (now demolished). The Stanley Company bought both mills in 1926, perhaps as a strategic move to be located along the Bridgeport Harbour, through which much of the raw material used in its operations throughout the state came. By the 1950s, the Crescent Avenue operations had been moved to other sites in Connecticut, and Stanley again leased the building to a company called Cornwall and Patterson, a manufacturer of piano hardware. Today the building appears to be vacant. An early carpenters tool made by a well known early manufacturer from America who instigated many innovations to the making of tools. His early pattern for the improvement of a tool that could be used for the boring of holes in wood was a significant step forward. His design for a boring brace attachment and later a specific handle is still in use today and his original brace and bit is now sought after by collectors of antique tools. Spofford Carpenter's Bit Brace metal has bit attached. Wing nut holds bit in place but nut missing. holds bit in place. 285mm long x 160mm Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Pedestal drill hand operated Red in colour, Dawn embossed on body and drill plate. Black wooden handle on cranke-wheel.62.5cmH X 27cmWflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Breast Drill metal 2 wooden handles breast plate missing 460mmL x 285mmWflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Hand drill metal wooden handle plate painted red Stanley England on outside plate 00525 & 0108 on inside of plate 325mmL x 115mmWflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Hand drill metal 3 wooden handles crank missing 310mmL x 145mmW. One handle greenflagstaff 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

Bone Drill (Trocar), metal 4 sided grooved handle with sharp pointed endflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

A gimlet is a hand tool for drilling small holes, mainly in wood, without splitting. A gimlet is always a small tool made of a piece of steel of a semi-cylindrical form, hollow on one side, having a cross handle at one end and a worm or screw at the other. A similar tool of larger size is called an auger. Early settlers in Moorabbin Shire had to be self reliant as they established their farms and built their homes using tools like this gimlet. 2 x small hand tool with a screw point, grooved shank, and cross handle for boring holes early settlers, pioneers, market gardeners, moorabbin, bentleigh, brighton, cheltenham, tools, blacksmiths

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,

Wooden Turn Handle White Paint specs

Pittock collection: assorted chisels, spikes and tools * two metal punches, 220 mm L / 145 mm L * two chisels with wooden handles, 140 mm / 310 mm L * two steel chisels200 / 140 mm L * one centre drill 145 mm L 35 mm R * one metal spike with eyelet, 275 mm L x 25 mm W * three metal spikes160 mm L * one unknown tool with free arm, 255 mm L x 25 mm W Tools stored in Pittock coach builder's box, reference 13000.1.