Small square travelling clock. A gold background with black numbers. A black and gold frame. A stand on back of clock and winding knobs.horology, clocks

A silver, square clock with words"1MHOF swiss". Raised, golden dots indicate time blocks. Stored in a blue box, this travel clock could be propped up when the case was opened. Metal clock housed inside blue travel case1MHofassistive devices, swiss

It is possible that this may have been a wedding present or gift to Roy Wines and or his family as his name is scratched on the bottom. Roy was married in 1924 in Warrnambool. Roy Arthur Wines was Born in 1897 in Mailors Flat Victoria Australia and Died in 1980 in Ballarat. Roy lived for a number of years in Warrnambool during his married life.A massed produced item that at the time was cheap to buy with no makers mark or date stamp thousands would have been produced using a mould to make the ceramic case in two half's by pouring liquid clay into the mould and then joining the half's together when cured. This item could have been produced in Holland at any number of pottery factories at this time for export in vast quantities.Ceramic clock; the mechanism is plated steel and set in a ceramic case with glass over the face. The ceramic base colour is white with royal blue ceramic colour to the front and sides only. The blue ceramic has been painted over with lime green house paint on the front and sides. An inscription of a handwritten name is on the case and a hard-to-read model or batch number is on the cast base. Handwritten "Roy Wines" Cast number "6072"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, clock, roy wines, ceramic, ceramic clock, horology, time keeper, travel clock, bedside clock, timepiece

The clock parts were discovered in 1980 by Julie Wilkins, a Victorian scuba diver who had already experienced more than 500 dives in Australia and overseas. She was holidaying in Peterborough, Victoria, and looking forward to discovering more about the famous Loch Ard ship, wrecked in June 1878 at Mutton Bird Island. The fast Glasgow-built clipper ship was only five years old when the tragedy occurred. There were 54 people on board the vessel and only two survived Julie's holiday photograph of Boat Bay reminds her of her most memorable dive. Submerged in the calm, flat sea, she was carefully scanning around the remains of the old wreck when, to her amazement, a gold coin and a small gold cross suddenly came up towards her. She excitedly cupped them in her hands and then stowed the treasures safely in her wetsuit and continued her dive. She soon discovered a group of brass carriage clock parts and some bottles of champagne. It was a day full of surprises. The items were easily recognisable, without any build-up of encrustations or concretion. Julie secretly enjoyed her treasures for twenty-four years then packed them up for the early morning train trip to Warrnambool. After a short walk to Flagstaff Hill Maritime Museum and Village, her photograph was taken as she handed over her precious find. She told her story to a local newspaper reporter, lunched a café in town then took the late afternoon train home. Her generous donation is now part of a vast collection of Loch Ard shipwreck artefacts, including the gold watch and the Minton Majolica model peacock. This group of brass clockwork parts is incomplete. The pieces were in the ocean for over 100 years before Julie recovered them from the Loch Ard wreck. Their size would suit the works of a carriage clock, with a mainspring and weight to power the clock movement, a pendulum to measure the clock's speed, arbours, posts, pillars and at least one other plate. They would have been mounted inside a protective case with a small door to easily access the clock face for setting the time and accessing the key's winding hole. The clock cases were usually made from decorative gilt brass with a glass front and a carrying handle. The parts include a weighted second hand with a decorative four-pronged finish at one end, a rounded weight at the other, and a hole for attaching it to the clock face. The gear teeth profiles are ‘cycloidal’, an arch shape with vertical sides, which is common for antique clocks. Modern clockworks have ‘involute’ teeth with sloping sides and a squared-off top. The brass carriage clock parts are an example of a mechanical clock produced in the 1870s. The clock's design is a part of the chain of technological improvements in methods for timekeeping. Its cycloidal gear teeth were the forerunner of the more modern involute gears. The group of clock parts includes a weighted hand or arm for signifying the seconds. This feature was uncommon in portable Victorian-era clocks. The clock parts are also significant for their association with the ill-fated sailing ship Loch Ard, wrecked in 1878. The travelling clock or officer’s clock may have been part of the cargo destined for the 1880 Melbourne Exhibition, or the personal possession of one of the people on board the vessel. Brass clockwork parts from a mechanical clock, sixteen pieces. Parts comprise a plate, large gears or wheels, small pinions or wheels with fine teeth, wheels with cogs, and a weighted second hand. The parts were from a carriage clock ca. 1878. They were recovered from the wreck of the sailing ship Loch Ard.flagstaff hill maritime museum and village, warrnambool, great ocean road, shipwreck coast, loch ard, wreck of the loch ard, 1878, mutton bird island, peterborough, scuba diver, 1980s, shipwreck artefact, relic, clock, mechanical, clock parts, time, timekeeper, horology, chronometry, cogs, time keeping device, scientific instrument, chronometer, john harrison, longitude, carriage clock, coach clock, portable clock, travelling clock, travel clock, traveller’s clock, officer’s clock, weighted second hand, victorian era, cycloidal gear teeth, brass clock, julie wilkins

Object. Eight day travelling clock in brown leather case lined with satin fabric. Top of case has embossed pattern of brown and white flowers. Clock face has numbers 1-12 and black and yellow hands. Centre of clock face has decorative striped circle. Written on clock face ''8 Day''.Imprinted on back of clock section ''Made in Germany''. Engraved ''D92633''horology, clocks, travelling clock

This photograph is one of a series taken by Allan while travelling through France in mid-1946. There are several letters relating to this journey.This is a photograph from the Allan Charles Quinn collection which is a collection of letters and photograph depicting aspects of life at sea for a young man in the era immediately following World War II.A black and white photograph, taken on the 5th of June, 1949, shows one of Rouen's main sight: "Le Gros-Horloge" (Great-Clock), a fourteenth-century astronomical clock in central Rouen, Normandy, France. Rouen had been heavily damaged during World War II. Buildings of different styles and ages can be seen, as well as people walking. There is a narrow white boarder around the image.On reverse: ROUEN 5-6-49 handwritten in blue ink. Below this is the mark "ItI"in pencil.allan-quinn, photograph, rouen, france

This photograph is one of a series taken by Allan Quinn while travelling through France in mid-1946. There are several letters relating to this journey.This is a photograph from the Allan Charles Quinn collection which is a collection of letters and photograph depicting aspects of life at sea for a young man in the era immediately following World War II.A black and white photograph of the Great-Clock fountain (corner of Rue du Gros-Horloge and Rue des Vergetiers) in Rouen, Normandy, France, taken on the 5th of June, 1949.On reverse: ROUEN 5-6-49 handwritten in blue ink. Below this is the mark "ItI" written sideways in pencil.allan quinn, photograph, rouen, france, normandy, ww2, wwii, world war two, 1939-1945, fountain, gros-horloge, great-clock

Black and white photograph of train travelling along railway line. In right foreground is advertising sign for Dandy Hams and Bacons. To left is sign for "Coffey's Used Cars". (4 copies)Catalogue cards read, "1960 Rail junction and Pitt St. from clock tower" and "1960 Maroondah Highway and rail junction from clock tower".

Photograph of a horse tram (possibly No. 7), with a Havelock Tobacco advertisement, travelling westbound in Sturt St. on the north side with the City of Ballaarat Town Hall (clock showing 905). Traffic in Sturt St was two-way on either side of the median strip which at the time did not extend fully between Lydiard St and Armstrong St. The photograph includes the gas street lamp in the middle of the Sturt and Lydiard Streets intersection and a telephone/telegraph pole on the right side. Several horse-drawn cabs in the photograph, along with some men. In the background are shops for Cameo Cigarettes, Tea Merchants, C Ekans? Chemist, J T Marsh Hatter, the Town Hall and Snows department store promoting a clearing sale. The photo has been taken from the Post Office Steps, c1890. State Library Multimedia Source Catalogue does not give the name of the photographer and the date of the photo. Acknowledgement of the source of the photograph is required.Yields information about Sturt St and horse trams c1890 and the use of the street in the early morning.Black and white print from the State Library of Victoria.On rear in pencil in bottom left hand corner "Copy of H92 320/106" and in centre along bottom edge "Reproduction Rights Reserved - Copied by State Library of Victoria".trams, tramways, sturt st, lydiard st. north, horse trams, ballarat town hall, two way traffic, tram 7

Yields information about tram services and how timetables were printed using a clock face for use in Ballarat. Demonstrates timetable making.Thirty two page, white paper, saddle stapled booklet, titled "Electricity Supply Department - Ballarat Tramways - Official Time Table August 1937", Gives notes on the through routing of the tram service, how the clock style format works and that it operates from the Tramway Centre. Also details when extra services are run and times as specific points along the route. Page 29 detail the fares and charges, page 30 - luggage, page 28 gives travel information and rear cover advertises electricity usage. Contained originally within Reg Item 5623 at the front of this note book. For items see btm5623 loose items list.pdf. See Reg Item 3352 for the January 1939 version. 2nd copy added 9/1/2020, received from Nina Netherway 4/1/2021Copy 1 - On pages 2 and 3, numbers have been marked against each route within a circle using ink "0" to "6".timetables, ballarat, fares

Yields information about the Sturt St west of the Town Hall c1900 and horse tram operations.Digital image of a horse tram travelling east bound in Sturt St near the corner of Armstrong St, c1900. Photo taken from the Town Hall clock tower. Note the horse drawn cabs, building on the north side of Sturt St, Art Gallery Association, Craig's, stores Woodrow's Hats and Jago Boots. George Crocker's store and HP White side building. Made from a scan of a Magic Lantern slide by John Hyett, ([email protected]) June 2010. See email to Secretary dated 21/6/2010 copy with the worksheet file.trams, tramways, sturt st, horse trams, town hall, horse cabs

Yields information about Wendouree Parade, tram No. 33 mid 1980's and the Gardens precinct.Colour photograph of Ballarat No. 33, operated by BTPS, travelling southwards in Wendouree Parade mid 1980's near the floral clock taken through the entry pergola, opposite the old loop. Tram has the destination of Depot and SEC Roof Advertisements and a SEC Everything under control in my all electric Kitchen. Photo by John Phillips on Fujicolour paper. Two copies .1 and .2, .1 being the longer version with more foliage in view.trams, tramways, ballarat, wendouree parade, btps, tram 33

The seven weights (0008.4 and 0136.3) are circular in shape with a hole in the centre and a groove cut across the radius. They were specifically designed to fit into a weight tube, which allowed movement of the weights that were used for driving the clockwork mechanism for turning the lighthouse lens. They are most likely original to the Chance Brothers system installed in 1913, which was originally equipped with a set of ten, each weighing around thirty kilograms.The weights were moved vertically in similar fashion to the way weights move on a grandfather clock. As the weight fell, the optic clock was driven and the lens was turned. To keep the clock turning, the weight needed to be wound back up to the top of its travel. Lighthouse keepers had to constantly wind the clock to keep the light active, and at least two keepers needed to observe a strict roster of hours. When electric motors were invented, weights became obsolete and the motors were able to turn the optic for as long as there was power to drive them. Wilsons Promontory’s Chance Bros. kerosene operated light, which was turned by a clockwork mechanism, was replaced by small electric motor in 1975, reducing the number of keepers and eliminating the need for weights. Cape Schanck has a set of fourteen weights remaining in situ in the lighthouse weight tube as well as another four detached weights, two of which may be associated with the 1859 mechanism. A small number of detached cast iron weights and two associated rods remain at the Point Hicks Lightstation and one weight is displayed in the lantern room at Cape Otway.The Wilson Promontory weights have first level contributory significance for the insights they provide into the technology and operations of a late nineteenth/early twentieth century lighthouse which has since been superseded. They are well provenanced and are significant for their historical value as part of the lightstation’s Chance Brothers optical system installed in 1913.Four circular disc shaped lead weights, all with a narrow section cut out to the middle of shape. (as in slice of cake)

A small number of heavy cast iron weights and two rods remain at the Point Hicks Lightstation. These weights comprise one rod with a forked top and four circular weights attached to the bottom of the shaft. The weights and rods were part of the original clockwork mechanism that was fitted beneath the lens to keep the kerosene‐fuelled light turning. They were attached to a cable or chains and moved vertically in similar fashion to the way weights move on grandfather clocks. As the weight fell, the optic clock was driven and the lens was turned. To keep the clock turning, the weight needed to be wound back up to the top of its travel. The cables and weights in this lighthouse were visible as they moved through the length of the tower up to the lantern room. It was usual for systems to move inside a tube extending up to the top, but in this case the tower’s cast iron spiral staircase, which is supported on cantilever cast iron brackets set into the concrete wall, spiralled around the space in which they moved. Lighthouse keepers had the arduous job of having to constantly wind the clock to keep the light active, and at least two keepers needed to observe a strict roster of hours. When electric motors were invented, all of this became redundant and the motors were able to turn the optic for as long as there was power to drive them. In December 1964, the original 1890 Chance Bros kerosene‐fuelled light and clockwork mechanism were replaced by small electric motor, and the number of keepers reduced to two. The six circular weights and rods originate from the obsolete system and may have been part of a larger set. Wilsons Promontory retains seven of its original set of ten weights, all of which are detached from the tower’s weight tube. Cape Schanck has a set of fourteen weights remaining in situ as well as another four detached weights, which have inscriptions. One weight is displayed in the lantern room at Cape Otway. The image shows four of the clockwork weights attached to a rod with a forked top. They were part of the original clockwork mechanism that was fitted beneath the lens to keep the kerosene‐fuelled light turning. The Aldis lamp in its case sits on the floor next to the weights. Source: Parks Victoria.The Point Hicks weights have first level contributory significance for the insights they provide into the superseded technology and operations of a late nineteenth century lighthouse. They are well provenanced and are significant for their historic value as part of the lightstation’s Chance Brothers optical system installed in 1890. Four circular metal weights are stored on a metal rod with a forked section at the top. The weights have a cut out section which allows the weights to be removed easily.

A small number of heavy cast iron weights and two rods remain at the Point Hicks. The weights and rods were part of the original clockwork mechanism that was fitted beneath the lens to keep the kerosene-fuelled light turning. They were attached to a cable or chains and moved vertically in similar fashion to the way weights move on grandfather clocks. As the weight fell, the optic clock was driven and the lens was turned. To keep the clock turning, the weight needed to be wound back up to the top of its travel. The cables and weights in this lighthouse were visible as they moved through the length of the tower up to the lantern room. It was usual for systems to move inside a tube extending up to the top, but in this case the tower’s cast iron spiral staircase, which is supported on cantilever cast iron brackets set into the concrete wall, spiralled around the space in which they moved. Lighthouse keepers had the arduous job of having to constantly wind the clock to keep the light active, and at least two keepers needed to observe a strict roster of hours. When electric motors were invented, all of this became redundant and the motors were able to turn the optic for as long as there was power to drive them. In December 1964, the original 1890 Chance Bros kerosene-fuelled light and clockwork mechanism were replaced by small electric motor, and the number of keepers reduced to two. The six circular weights and rods originate from the obsolete system and may have been part of a larger set. Wilsons Promontory retains seven of its original set of ten weights, all of which are detached from the tower’s weight tube. Cape Schanck has a set of fourteen weights remaining in situ as well as another four detached weights, which have inscriptions . One weight is displayed in the lantern room at Cape Otway. The Point Hicks weights have first level contributory significance for the insights they provide into the superseded technology and operations of a late nineteenth century lighthouse. They are well provenanced and are significant for their historic value as part of the lightstation’s Chance Brothers optical system installed in 1890.PHLS0005.1 Round cast iron weight with flat base used for lens clock-work mechanism attached to a bent metal rod. PHLS0005.2 Removable round cast iron weight with flat base used for lens clock-work mechanism stored above the other weight.

An hourglass or sandglass is an instrument for measuring a defined time and can be used perpetually by simply turning it over immediately the top bulb empties. The clear blown glass is shaped into two equal sized bulbs with a narrow passage in the centre and contains uniform sized sand or glass particles in the lower bulb. The width of the neck regulates the constant flow of the particles. The glass is held in a stand with top and bottom of equal shape and size. Hourglasses can measure an infinite variety of time by gauging the size of the particles, the shape and size of the bulbs and the size of the passage between the bulbs, thus measuring hours or minutes or even seconds. Generally an hourglass sits between discs of wood at the ends, which are joined by long wooden spindles between the ends and tightened by screw caps. The length of time can be adjusted by adding or removing sand particles. The use of the marine sandglass (or hourglass) has been recorded in the 14th century in European shipping. A one minute sandglass was used in conjunction with the ship’s log for ‘dead reckoning’, (see below) that is, for measuring the ship’s speed through the water. They were also used to regulate ringing the ship’s timetable; for example a 4 hour sandglass was used for the length of the sailors’ watch, and a half hour timer for taking of readings for the ship’s log; the ship’s bell would be rung every half hour. It was usually the role of the cabin boy to watch and turn the sandglasses over at the exact time of them emptying their upper chambers and to ring the ship’s bell. Hourglasses have been used historically for many hundreds of years. Some have been used for timing church sermons, in cooking, in industry and at sea. Even today they are used for measuring the cooking time of eggs and timing a player’s turn in games such as Boggle and Pictionary. The sandglasses at sea were gradually replaced in the late 1700’s to early 1800’s by the more accurate chronometers (marine clocks) when they became reliable instruments. DEAD RECKONING (or Deduced Reckoning) Dead reckoning is the term used to describe the method of calculating the ship’s position from its speed and direction, used in early maritime travel, mostly in European waters. Both the (1) speed and the (2) direction of travel were recorded on a Traverse Board at half-hourly intervals during a helmsman’s watch of 4 hours. The navigator would record the readings in his ship’s log, plot them on his navigational chart and give his updated course directions to the next helmsman on watch, along with the cleared Traverse Board. This was a very approximate, but none-the-less helpful, method of navigation. The wooden Traverse Board was a simple pegboard with a diagram of a compass with eight peg holes along the radius to each of the compass points, plus a grid with ascending half hours in the left column and increasing ship’s speed in knots in a row across the column headings, with a peg hole in each of the intersecting cells. A number of wooden pegs were attached to strings on the board. By placing one peg consecutively in the direction’s radius hole, starting from the centre, and the speed holes when the half hourly reading was taken, a picture of speed and direction for the whole 4 hour watch was created. (1) To measure the ship’s speed a one minute hourglass timer was usually used to measure the ship’s speed through the water and help to calculate its longitude. A rope, with knots at regular standard intervals and a weight such as a log at the end, would be thrown overboard at the stern of the ship. At the same time the hourglass would be turned over and a seaman would start counting the number of knots on the rope that passed freely through his hands as the ship travelled. When the timer ran out the counting would be stopped. A timer of one minute (one-sixtieth of an hour), knots spaced one-sixtieth of a nautical mile apart, and simple arithmetic easily gave the speed of the ship in nautical miles per hour ("knots"). This would be recorded every half hour. The speed could however be inaccurate to the travel being affected by ocean currents and wind. (2) To calculate the ship’s direction a compass sighting would be recorded each half hour.Marine hourglasses or sandglasses were used from around the 14th to 19th century during the time of sailing ships. This hourglass is representative of that era, which is during the time of the colonisation of Australia. Hourglass or sandglass; an instrument used to measure time. Two equal sized clear glass bulbs joined with a narrow passage between them, containing equal sized particles of sand grains in lower bulb. Glass sits in a brass collar at each end, in a frame comprising 3 decorative brass columns or posts, each attached top and bottom, using round screw-on feet, to round brass discs. Disc have Roman numerals for the numbers 1 - 12 pressed into their inner surfaces and hieroglyphics on the outer surfaces. Roman numerals on inner surface of discs " I II III IV V VI VII VIII IX X XI XII " Hieroglyphics impressed on outer surface of discsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, horology, hourglass, hour glass, sandglass, sand glass, timing instrument, dead reckoning, deduced reckoning, finding latitude at sea, sandglass with hieroglyphics and roman numerals, hourglass with hieroglyphics and roman numerals, brass hourglass