KR20110127935A

KR20110127935A - Location confirmation system for sinking vessel

Info

Publication number: KR20110127935A
Application number: KR1020100047467A
Authority: KR
Inventors: 정구관
Original assignee: 정구관
Priority date: 2010-05-20
Filing date: 2010-05-20
Publication date: 2011-11-28
Also published as: KR101140163B1

Abstract

The present invention relates to a positioning device for a sinking ship, and more particularly, a buoy that is connected to a ship when the ship sails due to damage to the sea, river, lake, etc. To rise above the surface by buoyancy so that the position of the sunken ship can be easily grasped and quickly lifted, so that a buoy is attached to a fixture fixed to an upper side of the ship, but when the inside of the buoy is sunk The water flowing into the buoy operates the water level sensing zone to activate the two-way rotary motor to activate the fastener and the latching latch.The buoy connected to the rope can be detached and raised above the surface of the buoy. It is easy to blink or position for a long time due to sunlight by connecting solar panel using LED and LED, GPS. To be so quick to quickly identify the structure of the location of the sunken ship and the benefits resulting casualties and the ship sank immediately with the benefits that will allow you to lift.

Description

Location confirmation system for Sinking vessels

The present invention relates to a positioning device for a sinking ship, and more particularly, a buoy that is connected to a ship when the ship sails due to damage to the sea, river, lake, etc. To rise above the surface by buoyancy so that the position of the sunken ship can be easily identified and lifted quickly.

In general, ships often need to operate even under severe weather conditions, and in many cases, a sudden typhoon or tsunami is encountered during the operation.In this case, a ship may break down or sink due to a mistake in operation. There are many cases of stranding or sinking due to collision with iceberg, etc. In this case, it is relatively easy to find the position of the sunken ship in shallow water, but if it is sunk in deep water, is it easy to identify the sinking position of the ship? not.

In recent years, it has become easier to locate ships that have been sunk using positioning satellites or observation equipment, but on the bottom of the sea, metallic rubble, the remains of other sunken ships, and weapons, ships, submarines, aircraft, etc. This is not so easy as it is so widespread.

In addition, as a result of not leaving a vessel that sank in deep water as described above and leaving it in deep water, enormous loss of property and oil spilled from the sunken vessel contaminate water such as rivers, seas and lakes. Very large is the present situation.

Therefore, if the depth of the water is not enough to lift the sunk ship after quickly determining the position of the ship sunk on the seabed, the diver can quickly determine the position of the sunk ship by submerging near the position where the ship has sunk. When a ship that is deeply deep in the water or sunk by waves or rapids moves from the bottom of the sea floor or moves by the water surface for a long time and covers the sunken ship on the bottom of the sea, the sunken ship It was difficult to invest a lot of time to find it.

The present invention is to solve the above-mentioned conventional problems, when the ship sailing in the sea, river, lake, etc. as described above is broken or sunk by strong waves and wind quickly grasp the position of the sunk ship to lift the operation To make it possible,

Provide a buoy detachable to a fixture fixed to the upper one side of the vessel, but the water flowed into the buoy inside the buoy at the lower side of the buoy operates the water level sensing zone to operate the bidirectional rotary motor to detect the detected signal. The buoys attached to the ropes can be detached and lifted up to the surface of the buoys, and the solar panel, LED, and GPS are connected to the upper side of the buoys for easy flashing or location tracking due to sunlight. To make it possible.

The present invention for achieving the above object is provided with a reservoir (30) therein to form a through-hole 31 to communicate with the outside and the guide hole (33) for sliding the locking hole (35) in the reservoir (30) ) To form a lifting bar (32) in the vertical direction through the guide hole 33 and to form a lifting bar (23) in the lower portion of the connecting line (34) with a hook (35) and lifting bar ( The upper side of the 23 is provided in the operating unit 20 and fixed to the rotary hole 22 of the bidirectional sub-motor 21 operated by the CPU 15, and the buoy 41 is lifted and raised on the other side of the reservoir 30. A buoy 11 for providing a seating hole 38 having a connection hole 37 for connecting the rope 55 to the CPU 15 by providing a water level sensing region 40 for sensing at a time. And a seating groove 51 for accommodating the seating holes 38 of the buoy 11 at the inner circumference and forming a latch 52 for opening and closing with the catching hole 35 and the rope of the buoy 11. ( 55 is provided with a fastener (50) wound around the inner winding device (54) through the discharge hole (53).

Therefore, the present invention is to detach the buoy connecting the LED and the GPS, two-way rotary motor, the water level sensing earth to the fixture fixed to the upper side of the ship as described above, so that the power using the battery or solar light inside the buoy when sinking The water flowing into the water level sensor activates the bi-directional rotary motor to activate the fastener and the latching latch, so that the buoy connected by rope can be detached and raised above the water surface. It can blink for a long time and check the position on the GPS, and can also supply power to the solar panel using the solar light. There is an advantage to grasp, resulting in the rapid rescue of life and the ability to immediately lift a sinking vessel.

1 is an exemplary view showing an embodiment of the present invention
Figure 2 is an exemplary view showing an embodiment of the water level detection district of the present invention
3,4 is an exemplary view showing an operating state of the present invention
5 is an exemplary view showing a use state of the present invention.

Positioning device 10 of the present invention for achieving the above object is provided with a reservoir 30 in the interior as shown in Figure 1 to form a through-hole 31 to communicate with the outside and the reservoir 30 A guide hole 33 is formed to slide the locking hole 35, and a lifting hole 32 is formed to communicate with the guide hole 33 in a vertical direction to provide a lifting bar 23 therein. The hooking hole 35 is connected to the hook hole 35, and the upper side of the elevating rod 23 is provided at the operating part 20 to be fixed to the rotary hole 22 of the bidirectional sub-motor 21 operated by the CPU 15. The other side of the reservoir 30 is provided with a water level sensing region 40 to detect when the buoy 41 is raised and lowered to connect with the CPU 15, the lower portion is formed with a connection hole 37 for connecting the rope 55 A buoy 11 is formed to provide a seating hole 38. A seating groove 51 for accommodating the seating hole 38 of the buoy 11 is provided at an inner circumference thereof. Sire is provided with a fastener (50) placed inside the winding volume jig 54 via a rope (55) the exhaust hole 53 and the buoy 11 to form a geolteok 52.

In the upper part of the buoy 11, the display unit 12 is provided to provide a solar panel 13 and a plurality of LEDs 14 provided on the inner circumference of the buoy 11 so as to be connected to the CPU 15 so that the solar panel 13 can be connected to the solar panel 13. The CPU 15 controls the light emission of the LED 14 by supplying power using light to the CPU 15.

In addition, the CPU 15 is provided with a battery 16 and a GPS 17, and the bidirectional sub-motor 21 and the water level sensing region 40 of the operation unit 20 are connected to the GPS 17 at the CPU 15. ), The bidirectional sub-motor 21 and the water level sensor 40 are controlled, and the driving of the CPU 15 may supply power to the solar panel 13 from the battery 16 or the solar panel 13 of the display unit 12. It can be.

And, as shown in Figure 2 on one side of the reservoir 30 is provided with a water level sensing region 40 for elevating the magnet 42 to the lower portion of the magnet 42 provided inside the elevating of the buoy 41 The bidirectional sub-motor 21 is operated by the CPU 15 by a signal connecting the switch 43 by the magnetic force.

In addition, the display unit 12 and the operation unit 20 of the buoy 11 is preferably provided with a diaphragm 18 so that the water of the water storage unit 30 does not seep, and the water storage unit 30 and the operation unit 20 It is preferable to provide a packing 36 between the () to prevent the water of the reservoir 30 to seep into the operating unit 20 and the display unit 12.

As shown in FIG. 5, the present invention configured as described above has the buoy 11 through the through hole 31 of the buoy 11 provided at the upper part of the ship 1 while sinking when the ship 1 sinks toward the sea. When water is introduced into the buoy 41 of the water level sensing region 40 rises along the surface of the water flowing into the reservoir 30, as shown in FIG. 2, the magnet 42 provided on the inner circumference of the buoy 41. It is to connect the switch 43 of the water level sensor 40 by the magnetic force by).

As the buoy 41 rises in the water level sensing region 40, the signal connected to the switch 43 is already constant in the bidirectional sub-motor 21 through the battery 16 or the CPU 15 powered by sunlight. It is to make the rotary sphere 22 rotated at an angle.

As described above, when the rotary hole 22 rotates at the rotation angle, the elevating bar 23 connected to the rotary ball 22 is elevated along the elevating hole 32 while being connected to the lower portion of the elevating bar 23 ( 34 is caught by the latch (52) of the fastener 50, while the latch (35) caught on the latch (52) of the fastener 50 is moved along the guide hole (33) It is separated from (52).

When the latch 35 of the buoy 11 moves along the guide hole 33 and is separated from the latch 52 of the fastener 50 fixed to the upper part of the vessel 1, the buoy 11 is sunk ship. It is to be separated from (1) to float on the surface of the water.

At this time, the rope (55) wound around the connection hole 37 of the buoy 11 and the inner winding device 54 of the fixture 50 is released from the winding device (54) while the buoy 11 and the sunken vessel (1) ) Is connected.

Then, the solar panel 13 provided on the upper side of the buoy 11 supplies power using solar light so as to supply power to the CPU 15 even when floating in the sea for a long time. It is possible to supply power even in the absence of sunlight to enable the LED (14) and GPS (17) to operate for easy flashing or position tracking for a long time to identify the position of the quickly sinking ship (1) The advantage is that the rapid rescue of life and the resulting sinking ship (1) is to be able to lift immediately.

1: Vessel 10: Positioning device
11: buoy 12: display unit
13: solar panel 14: LED
15: CPU 16: battery
17: GPS 18: diaphragm
20: operating unit 21: bidirectional sub-motor
22: rotating ball 23: lifting rod
30: reservoir 31: through
32: elevator 33: guide ball
34: connecting line 35: hook
36: packing 37: connector
38: seating position 40: water level sensing district
41: buoy 42: magnet
43: switch 50: fixture
51: settled groove 52: step
53: discharge hole 54: the pitcher
55: rope

Claims

The reservoir 30 is formed inside to form a through hole 31 to communicate with the outside, and the reservoir 30 is formed with a guide hole 33 for sliding the locking hole 35 and is perpendicular to the guide hole 33. Forming the elevating hole 32 in the direction to provide an elevating rod 23 therein, the lower portion is connected to the locking hole 35 by a connecting line 34 and the upper side of the elevating rod 23 to the operating part 20 It is prepared to be fixed to the rotary hole 22 of the bidirectional sub-motor 21 to be operated by the CPU 15, the water level sensing region 40 to detect the lifting of the buoy 41 on the other side of the reservoir 30 is provided. And a buoy 11 for providing a seating hole 38 formed with a connection hole 37 for connecting the rope 55 to the CPU 15, and a seating hole of the buoy 11. A seating groove 51 for accommodating 38 is provided at an inner circumference, and a latch 52 for opening and closing with the locking hole 35 is formed, and the rope 55 of the buoy 11 is discharged through the discharge hole 53. Hoist on the inner winding device 54 Positioning device for the sinking ship, characterized in that provided a fixed fixture 50 placed.