Prior to the launch of the motor powered Queenscliffe, three row boats were in service as lifeboats. This lantern was part of the equipment of the third lifeboat up to 1926.A brass lamp which was part of the safety equipment on board the Third Queenscliff LifeboatBrass Lantern with interchangeable port and starboard glass filters run of kerosene.Brandt Bros Melbourne Manufacturers 422 Elizabeth Streetlight, navigational safety

This Engine Room section of a ship's telegraph system was part of the equipment of the Ports and Harbour ship the SS Rip. The vessel serviced and maintained the lights and buoys at Port Phillip Bay and Queenscliffe. The SS Rip was possibly the former gunboat "Albert". The ship’s communication system that was used from the late 19th century to early-to-mid-20th-century is called an Engine Order Telegraph (E.O.T.) or ship’s telegraph. The system has two parts, the Bridge Section and the Engine Room Section. The Bridge Section is usually mounted on top of a pedestal, and the Engine Room Section is often attached to a vertical surface. The standard commands printed or stamped onto the dial are the directions of AHEAD and ASTERN, and the speeds of STOP, FULL, EASY, STD. BY. and FIN. ENG. The ship’s pilot on the Bridge of a vessel sends his Orders for speed and direction to the to the Engine Room with the E.O.T. He moves the lever or levers, depending on the number of engines the ship has, to change the indicator on the Bridge Section’s dial to point in the new direction and speed of travel. This change causes the Orders to be duplicated on the Engine Room Section’s dial and a bell to signal the change simultaneously. The engineer then adjusts the ship’s engines and steering equipment to follow the pilot’s Order. The manufacturer, Mulne Bros., was a copper and brass works at 166 Sussex Street Sydney, in December 1892, and previously from 1870 at 128 to 130 Sussex Street. The company made and sold a wide range of equipment including machinery and gauges for the Railways.The Engine Room section is significant for being part of the communications system on the ship SS Rip, owned by Melbourne's Ports & Harbours department and used to service and maintain the navigation signals of Port Phillip Bay and at Queenscliffe in the mid-20th century. The dial is an example of marine equipment made in Australia and used for the safety of Victorian vessels. It is also significant for being made by an early Australian manufacturer, Milne Brothers of Sydney.Engine Room Section of a ship’s telegraph or Engine Order Telegraph (E.O.T.). The round metal dial has inscriptions stamped around the edges. The inscriptions are nautical terms for direction and speed and include the maker’s details. The dial was made by Milne Bros. of Sydney. It was part of the equipment on the "SS Rip" in Victoria.Black paint around dial: "MILNE BROS. / MAKERS / SYDNEY" "FULL EASY STD. BY " "FIN ENG. EASY FULL" ""ASTERN" "STOP" "AHEAD"flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, marine technology, marine communications, engine order telegraph, e.o.t., ship’s telegraph, bridge section, engine room section, ship’s engine telegraph section, marine telegraph, milne bros., milne brothers, sydney, copper and brass works, ports & harbours ship, ss rip, gunboat albert, service ship, maintenance ship

She was Ethel Hartley who married John Blake Cleeland and died in 1984.The 1968 "back to" was to commemorate 100 years of settlement on the Island.HistoricalHandwritten 5 page letter to Mr Harris, secretary of PIDHS, re places of interest in Newhaven area and their history. Dated 15/7/1968 and written at Woolamai House, Newhaven. This was for the Back to Phillip Island in 1968.newhaven, mrs ethel cleeland, back to phillip island 1968, cape woolamai granite quarry, maritime safety, navigation light, mr finn stonemason, san remo - newhaven punt, cattle transport, newhaven school, boat building newhaven

Breakwater navigation lights are placed at the end of the breakwaters to warn incoming vessels of the end of the structure, as a marine safety measure. The subject item was such a light believed to have been placed at the end of Warrnambool's breakwater around 1915 when it was extended. The light had remained in place for many years until it was probably removed when the structure was undergoing rock armouring repairs to the end of the breakwater in 1975. The light had been placed in a council storage shed probably from the time when the structure was undergoing these repairs in 1975. In 2014 the light was removed from the storage shed and donated to Flagstaff Hill museum. History: Warrnambool breakwater plans were drawn up by 1874 and approval was given for preliminary construction work to start but when the money ran out, the works stopped. With a number of quick changes of government the “Warrnambool” breakwater project was kicked from one Victorian state government to another. Then finally in 1879, the eminent British harbour engineer Sir John Coode was asked to design a breakwater. His first design was for a 1800 feet long structure but that was scaled back to 900 feet and construction finally began in 1884. This structure was attributed in causing major siltation of Lady bay, as a consequence the breakwater was again extended in 1915. In 1975, the rock armouring at the end of the breakwater was added but by 1979 another impact study was calling for the breakwater to be removed altogether. The Heritage Council Victoria, regard the Warrnambool breakwater is of historical significance to the state as one of the most important maritime engineering projects that was undertaken in Victoria during the late nineteenth century. The light is also as part of this structure regarded as a significant item of historical interest.Marker light or navigation light. Round light stand with conical top piece (2 separate pieces). Metal base painted red, clear glass middle section enclosed by metal frame, metal cone shaped top section painted silver. Electrical wiring can be seen inside centre section. Pole that light would have been on to elevate it is missing.Has metal plate screwed onto side of base engraved "23". flagstaff hill, warrnambool, shipreck coast, flagstaff hill maritime museum, maritime museum, great ocean road, warrnambool breakwater, marker light, naviagtion light, breakwater navigation light

One of a collection of 6 photographs donated by Anne Grayden. The Speke was the third largest 3 masted ships built in 1891. It was wrecked in 1906 near Kitty Miller Bay due to a navigational error. One man drowned but the rest of the crew reached safety. Remains of the hull are a tourist attraction now over 100 years later.Black & White photograph of the wreck of the Speke. The shop is listing but still in one piece. It is in the water seemingly stuck on rocks.the speke, wreck of the speke, phillip island ship wrecks, anne grayden

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, distant signal, signal, maritime signal, ball signal, signal shape, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Cone, part of a Flagstaff signal set. A woven cane cone, painted black, with a metal rod passing through the centre and two crossed metal bars at the base. The central rod has a loop at the top and passes through the bars at the base, finishing in a metal loop. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal cone, day signal cone, cone signal, cone day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal ball, day signal ball, ball signal, ball day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Cone, part of a Flagstaff signal set. A woven cane cone, painted black, with a metal rod passing through the centre and two crossed metal bars at the base. The central rod has a loop at the top and passes through the bars at the base, finishing in a metal loop. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal cone, day signal cone, cone signal, cone day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.distant signal, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

The kerosene lamp was one of the most common oil lamps used and was manufactured until the 1980s. An anchor lamp like the lamps in this pair would be raised on the highest ship mast at night to signal other seafarers that the ship was at anchor or sailing at night. The metal loops on opposing sides of the lamp could hold a pair of rods or ropes. and be used to raise the lamp.The lamp is made to the design of a 19th and early 20th-century kerosene anchor lamp carried as essential marine equipment and used as a signal lamp on sailing ships. Lamps; a pair of cylindrical kerosene anchor lamps. Each has a flat back, a hinged door, a metal handle and two metal loops or guides fixed on each side. The glass window is convex and inside the lamp is a wick in an enamel wick holder.brass lamp, lamp, anchor kerosene lamp, kerosene lamp, marine equipment, marine lamp, navigation, light, ship light, ship lamp, lantern, maritime, nautical, safety lamp

This megaphone's conical shape amplifies the sound from the narrow end and would have been used to signal a warning or give instructions. Its design is similar to an earlier brass fog horn used on a marine vessel, as it has a wide brim that allows it to be free-standing, and a shoulder rope makes it portable and frees up the user's hands. The narrow end is shaped into a mouthpiece. The megaphone may have been used at sea foghorn on a vessel, although it has no reeds for the sound, or used by a leader of a band or a fireman or other similar uses. This megaphone's conical shape is based on the centuries-old ram's horn or horn from other animals, used to amplify sound to make it travel a long distance or be heard above other sounds. It represents a similar instrument made in the 19th century and used as a signal or to give instructions, such as on a vessel at sea, to a lifesaving team, or in a marching band. Megaphone; brass conical shape with an opening at both ends and a join near the wide end. The wide opening has a broad brim and is painted red inside. A brass ring is attached near each opening and a narrow rope is attached to each ring. warrnambool, flagstaff hill maritime museum and village, fog horn, marine equipment, navigation, warning signal, maritime, nautical, fireman, captain, shoulder rope, signal, safety equipment

William Thomas George was born in Birmingham in 1884 and was a tin plate worker. He and his wife Ellene had a son Leslie Thomas George. The firm W T George & Co was formed sometime later. In 1939 his firm produced ship lamps. The Patent Number GB546575 on the lamp's plate was assigned to Leslie Thomas George in 1941 for improvements in, or relating to, ships' lanterns. From that time the patent number was affixed to their namufactured Meteorite lights. The ship navigation lamp is important as an example of the evolution of marine safety technology. Countries began passing laws and regulations in the 1830s that required ships to show navigation lights at night or in poor weather. From the late 1840s colours were standardised; red for portside of the vessel and green for starboard, a white masthead light, and a white light at anchor. By 1914 the International Convention for the Safety of Life at Sea was formed and continues, with decisions and notifications on improvements and changes.. Lamp; Portside ship's lamp is rounded in the front with two flat sides coming to a point at the rear. Glass has circular ridging. Metal handle with lid and clasp. The reflector has red colouring. Inscribed on fixed plates on the front, with maker's details and Patent number. This Meteorite lantern was made by W T George and Co Ltd, of Birmingham. "Port" "W T George and Co Ltd" "Sherlock Street Birmingham" "Meteorite 68990 Patented No 546575 and others pending"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, portside ships lamp, portside, port lamp, ship's lamp, marine lamp, navigation lamp, w t george & co, coloured lens, red lens, ship fitting, marine technology, navigation light, signal lamp, leslie thomas george, gb546575, patent gb546575, meteorite, lantern, lamp, light

Book contains information and sketch maps to aid in the navigation of the Murray River, with advice on hazards to look for as these will change over time.74 page A4 book with a drawing of a boat on the Murray River on the coverAutographed on the title page by the authors: "9-1-84 Leon Bentley | Kath Bentley"murray river, boating, river navigation, boating safety

The Marine Safety Act, Victoria requires that lights must be displayed from sunset to sunrise and in times of restricted visibility during daylight hours. A vessel's lights should indicate: what type of vessel it is, what the vessel is doing, the direction that the vessel is travelling in. E.G. For vessels under 50 m in length, a second masthead light is optional. For vessels under 12 m in length, sidelights may be a combined lantern on fore and aft centreline. Every vessel at sea must show light to indicate type of vessel, directionof travel and speed.Three metal navigational lights; red port, green starboad and clear head light. S/N Side Light (red) Elect. S/N 432 Side Light (Green) Elect. S/N 433 Head Light Elect.navigation light, marine safety, navigation, safety equipment

Associated with Captain William Robertson, Captain of the S.S.Casino, Port Fairy Naval Reserve,Naval Dress Sword and scabard: Naval Dress Sword with brass handle with safety catch and gold thread tassle. Scabard of leather with brass decorationsSword and Crown E.R.VII- Owen Harries 15 Russell Street Landportlocal history, arms, edged weapons, captain william robertson, s.s.casino, port fairy naval reserve, belfast and koroit steam navigation co., boxer rebellion

The ‘Resumatic’ brand, British made, lightweight device comprises a red pulley with attached length of white rope and harness. Information on the item indicates that it was the property of the Department of Transport, Australia. The Commonwealth Lighthouse Service was associated with the Department of Shipping and Transport in 1951 and the Navigational Aids Branch of the Department of Transport in 1972 so the harness may date to this period. The easily operated descent device was used for automatic, controlled descents from overhead structures, such as towers and other buildings and did not require a power source or tools. The user needed to make sure the unit is secured to an anchor point so that the cable could be dropped to the ground. As soon as it was secured the user could put on the support harness, step off the edge and travel down to safety. The device complements a number of other items of rescue equipment held in the wider Parks Victoria lightstation collection which attest to the dangers inherent in lightstation work and necessity for first aid kits, resuscitators, life buoys, life jackets and other devices such as harnesses and pulleys used for moving people. These include a bosun’s chair and harness with pulley, Royal Flying Doctor first aid cabinet, resuscitator kit and case, first aid kit, lifebuoy and cork fragments x 4 all in the Gabo Island collection; a rescue basket, resuscitation kit and case, and pulleys and ropes at Cape Otway; rescue stretcher made of bamboo at Wilsons Promontory; and a rescue anchor at Cape Schanck. The Cape Nelson rescue harness, although unique in the broader lightstation collection, is a relatively common device that is still manufactured more or less the same in England. It has second level contributory significance for offering insights into the various methods used in rescue operations by Victoria’s lightstations.Length of white rope attached to a harness and a red pully device.yes

This medal is the Liverpool Shipwreck and Humane Society’s “Bramley-Moore medal for saving life at sea 1872”. The Society was formed in 1839. In 1872 Mr John Bramley-Moore donated £500 on condition that the medal have the specific inscription above on its reverse. The Bramley Morre medal was first awarded in 1874 and records show that since that time only one gold medal has been awarded, twenty-two silver medals and seventeen bronze medals, the last being in 1945. This Bromley-Moore medal was awarded to Peter Carmody for his bravery in saving lives on the Newfield shipwreck. The Newfield was a three-masted iron and steel barque, built in Dundee, Scotland, in 1889 by Alexander Stephen and Sons. It was owned by the Newfield Ship Company in 1890 and later that year It was registered in Liverpool to owners Brownells and Co. The Newfield left Sharpness, Scotland, on 28th May 1892 with a crew of 25 under the command of Captain George Scott and on 1st June left Liverpool. She was bound for Brisbane, Australia, with a cargo of 1850 tons of fine rock salt, the main export product of Sharpness. At about 9pm on 28th August 1892, in heavy weather, Captain Scott sighted, between heavy squalls, the Cape Otway light on the mainland of Victoria but, due to a navigational error (the ship’s chronometers were wrong), he assumed it to be the Cape Wickham light on King Island, some 40 miles south. He altered his course to the north, expecting to enter Bass Strait. The ship was now heading straight for the south west Victorian coast. At about 1:30am the Newfield ran aground on a reef about 100 yards from shore and one mile east of Curdie’s Inlet, Peterborough. The ship struck heavily three times before grounding on an inner shoal with 6 feet of water in the holds. Rough sea made the job of launching lifeboats very difficult. The first two lifeboats launched by the crew were smashed against the side of the ship and some men were crushed or swept away. The third lifeboat brought eight men to shore. It capsized when the crew tried to return it to the ship for further rescue The rescue was a difficult operation. The Port Campbell Rocket Crew arrived and fired four rocket lines, none of which connected with the ship. Peter Carmody, a local man, volunteered to swim about one mile off shore to the ship with a line to guide the fourth and final lifeboat safely to shore. He was assisted by James McKenzie and Gerard Irvine. Seventeen men survived the shipwreck but the captain and eight of his crew perished. The Newfield remained upright on the reef with sails set for a considerable time as the wind slowly ripped the canvas to shreds and the sea battered the hull to pieces. The Marine Board inquiry found the wreck was caused by a "one man style of navigation" and that the Captain had not heeded the advice of his crew. According to Jack Loney ‘… when the drama was over . . the Newfield was deserted except for the Captain’s dog and two pigs.’ Peter Carmody was awarded the Bramley-Moore medal by the Liverpool Shipwreck and Humane Society for Saving Life at Ssea, which he received by mail on January 21st 1893. The medal and a letter of congratulations were donated to Flagstaff Hill Maritime Museum by Peter Carmody’s grand-daughter Norma Bracken and her son Stuart Bracken on 25th May 2006. The Medal and Letter of Congratulations join other items in the Newfield collection.The Carmody Medal recognises the bravery of Peter Carmody in risking his life to rescue crew members of the Barque Newfield when it was wrecked near Curdies Inlet in August 1892. The ‘Bramley-Moore medal for saving life at sea, 1872’ was presented by the Liverpool Shipwreck and Humane Society. The medal and accompanying letter have local and international historic significance as they demonstrate both the difficulties associated with navigation and the dangers of shipping along the South West Coast of Victoria in the 19th century and the medal’s association with the Liverpool Shipwreck and Humane Society and John Bramley-Moore, who provided £500 to found the Bramley-Moore medal. The medal is socially significant. It emphasises the importance of Peter Carmody in rescuing victims of shipwrecks with little thought for his own safety. The medal reminds us of the importance of local people to Victoria’s maritime history. The Carmody Medal and Humane Society letter were in the Carmody family until they were presented to Flagstaff Hill Maritime Village, by the grand-daughter and great-grandson of Peter Carmody, on the 25th May 2006. The medal is significant for its complete provenance recorded in the donation documentation. The medal is in very good condition and relatively rare with only 22 silver medals awarded between 1874 and 1945. The Carmody Medal and letter add a human element to the story of the shipwrecks. They give life and significance to the Newfield, its victims and its artefacts. Bramley-Moore medal from the Liverpool Shipwreck and Humane Society, awarded to Peter Carmody. The round,silver medal is attached to a looped blue ribbon by a decorative, swivelling silver connector. The top of the ribbon has a silver pin bar threaded through it. The obverse of the medal has a design of a man kneeling on a floating part of a wreck. He is rescuing a child from the sea. There is a manned boat in the distance rescuing someone from the sea. In the far background there is a sailing ship. The top third of the medal has an inscription around it. The reverse shows a long-legged hen cormorant with extended wings holding an olive branch in its beak. The bird is surrounded by a wreath of oak leaves made from two branches. There is an inscription between the design and the rim that goes all the way around the circumference. There is a name engraved around the edge of the medal. The medal in embedded in a purple velvet panel that rests inside a brown, leather-covered case. The lid of the case has a gold embossed emblem in the cemtre. Both the lid and base have a rectangular gold border. The lid is attached to the base with two brass hinges. The base has a brass push-button catch. The box is lined with padded cream silk. The lining inside the lid has a gold emblem in the centre.The obverse has the words "LORD, SAVE US, WE PERISH". The reverse has the words "BRAMLEY-MOORE MEDAL FOR SAVING LIFE AT SEA" and "1872". Around the edge of the medal are the words "PETER CARMODY, FOR HAVING BEEN MAINLY INSTRUMENTAL IN RESCUING THE CREW OF THE BARQUE NEWFIELD, AUG 29 1892" The pin bar has the words “LIVERPOOL SHIPWRECK & HUMANE SOCIETY” written across it. The gold embossed emblem on the lid of the box has the words in the centre "SHIPWRECK AND …. …. ….FOUNDED 1839" The gold emblem on the cream silk lining has the words “BY APPOINTMENT ELKINGTON & CO” printed on it.medal, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, flagstaff hill maritime village, shipwreck coast, warrnambool, peter, peter carmody, carmody, bramley moore, newfield, liverpool shipwreck and humane society, 1892, 28 august 1892, august 1892, port campbell, bravery, shipwreck, rescue, nineteenth century, ship, curdie s river, victorian shipwrecks, barque, stuart bracken, norma bracken, gerard irvine, james mckenzie

Steering Gear Operation: All steering was done from the stern of the ship and a steering mechanism was used to connect the rudder to the ship's wheel, often housed in a box-like construction behind the helm. The rudder was, in turn, mounted on a pintle or stern-post held in place by gudgeon's (sockets). The steering was activated with lines attached to the blocks on the two threads (half left hand, half right hand) of the steering gear. As the helmsman turned the helm in the direction in which he wished the ship to travel, the central screw of the steering gear, which was attached to the back of the helm, turned horizontally. This caused the rods on either side of the gear to move backwards or forwards at the same time, which then turned the pintle and rudder to port or starboard. A brief history of the Newfield (1889-1892): - The Newfield was an iron and steel sailing barque of 1306 tons, built in 1889 by Alexander Stephen & Sons Dundee (Yard No 89) for Brownelles & Co., Liverpool. The Newfield was on a voyage from Sharpness to Brisbane on 29 August 1892, with a cargo of 1850 tons of fine rock salt. The Cape Otway light had been sighted in squally, bumpy weather, but the captain was under the impression it was the King Island light. The ship’s chronometers were wrong, and orders were given to tack the ship away from the light, which headed it straight for the cliffs of the Victorian coast. The vessel struck rocks about 100 yards from shore, and five feet of water immediately filled the holds. The captain gave orders to lower the boats which caused a disorganised scramble for safety among the crew. The panic resulted in the deaths of nine men, including the captain when they drowned after the boats capsized in heavy seas. The seventeen men who regained the ship decided to wait until daylight and rowed to Peterborough in the ship’s jolly boat and gig after locals had failed to secure a rocket apparatus line to the ship. The Marine Board inquiry found the wreck was caused by a "one-man style of navigation" and that the captain had not heeded the advice of his crew.The Newfield wreck and its collection of recovered items are heritage listed and are regarded as historically significant. They represent aspects of Victoria’s shipping history and their potential for us today to interpret the maritime history and social themes of the time. The assemblage of various Newfield artefacts held in the Flagstaff Hill Museum is not only significant for its association with the shipwreck but helps archaeologists when examining the relationship between the objects to better understand our colonial marine past.Ship’s steering gear, cast iron, consists of a long round metal rod into which gears have been machined. The thread of the gear from one end to almost the centre winds in a left hand direction while the thread of the gear from the other end to almost the centre winds in the right hand direction. Each end of the rod has a metal coupler attached and two narrower round rods are also attached to the coupling, one each side of the gear rod, the same length as it and parallel to it. Two more ‘S’ shaped couplers are joined to the gear rod. Each of these have an opening through which the gear rod is threaded and can move along. There is another opening in these couplers through which one of the narrower rods is threaded. The other end of this coupler has half length metal rod attached to it by a bolt through the ring at the end of the rod. One end of the steering gear still has the brass hub of the ship’s wheel solidly attached. The hub no longer has its wooden spokes but the ten holes for the spokes can be easily recognised.Noneflagstaff hill, maritime museum, shipwreck coast, warrnambool, peter carmody, carmody, newfield, shipwreck, peterborough, south west victoria, rocket, rocket crew, shipwreck artefact, flagstaff hil maritime museum, steering, steering gear, screw steering gear, sailing ship

The Falls of Halladale was an iron-hulled, four-masted barque, used as a bulk carrier of general cargo. She left New York in August 1908 bound for Melbourne and Sydney. In her hold was general cargo consisting of roofing tiles, barb wire, stoves, oil, and benzene as well as many other manufactured items. After three months at sea and close to her destination, a navigational error caused the Falls of Halladale to be wrecked on a reef off the Peterborough headland on the 15th of November, 1908. The captain and 29 crew members survived, but her cargo was largely lost, despite two salvage attempts in 1908-09 and 1910. The Court of Marine Inquiry in Melbourne ruled that the foundering of the ship was entirely due to Captain David Wood Thomson's navigational error, not too technical failure of the Clyde-built ship. The Falls of Halladale was built in1886 by Russell & Co., at Greenock shipyards on the River Clyde, Scotland for Wright, Breakenridge & Co of Glasgow. She was one of several designs of Falls Line of ships named after waterfalls in Scotland. The company had been founded between 1870- 1873 as a partnership between Joseph Russell, Anderson Rodger, and William Todd Lithgow. During the period 1882-92 Russell & Co. standardised designs, which sped up their building process so much that they were able to build 271 ships during that time. The Falls of Halladale had a sturdy construction built to carry maximum cargo and able to maintain full sail in heavy gales, one of the last of the 'windjammers' that sailed the Trade Route. She and her sister ship, the Falls of Garry, were the first ships in the world to include fore and aft lifting bridges. Previous to this, heavily loaded vessels could have heavy seas break along the full length of the deck, causing serious injury or even death to those on deck. The new, raised catwalk-type decking allowed the crew to move above the deck in stormy conditions. The Falls of Halladale shipwreck is listed on the Victorian Heritage (No. S255). She was one of the last ships to sail the Trade Routes from Europe and the Americas. Also of significance is that the vessel was one of the first ships to have fore and aft lifting bridges as a significant safety feature still in use on modern vessels today. The subject model is an example of an International Cargo Ship used during the 19th and early 20th centuries to transport goods around the world and representing aspects of Victoria’s shipping industry. Wagon wheel hub with spoke butts. Holes for hardware fittings are visible. Recovered from the wreck of the Falls of Halladale. Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wheel hub, falls of halladale, russell & co., wreck artifact, cart wheel, ship's wheel, navigation, ship's wheel hub

From Scarborough Maritime Heritage Centre: A Yacht Log was a nautical instrument for measuring a vessel's speed and distance travelled. When navigating a ship it is essential to be able to estimate the boat's speed and distance travelled to determine its position at sea. In times past the only way to measure a ship's speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this they could estimate the speed of the vessel through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. In 1878, Thomas Ferdinand Walker (1837–1921), an engineer in Birmingham, patented a mechanical log in which a recording instrument was attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. The 'Log' at the Heritage Centre was recovered from a skip in Scarborough and was one of the first artefacts collected by the volunteer group. It is made of brass with a ceramic dial, with the main scale marked from 0 to 100 nautical miles and an inset dial marked from 0 to 10 miles. It has a fixing plate, on which it can turn, with which it would have been attached to the 'taffrail', the rail at the stern of a ship, usually on the starboard side. The Walker’s Excelsior Mark IV instrument was designed for smaller vessels, such as yachts, launches and fishing vessels. Its exact date of manufacture cannot be determined but this design was manufactured in the first half of the 20th century. These mechanical logs have now been superseded by electronic equipment such as GPS navigation instruments.This instrument was made by a significant nautical instrument manufacturer and demonstrates the innovation needed at the time for improved navigation and safety at sea.Timber Box containing an instrument for measuring speed and distance. There is a brass, cased log with a white enamel dial. It also includes a towing cord and cylindrical rotator. The box has paper labelling on the front and also the inside of the lid. The label on the inside of the lid has instructions for use. Although the lid is hinged it has broken off and is separate. The hinges remain attached.Enamel Dial: Walkers Patent Excelsior Yacht Logmaritime, maritime history, tool, navigational tool, navigational instrument, navigation, sailing, walkers, maritime technology, walker & son