Source: http://www.patentsencyclopedia.com/app/20090303700
Timestamp: 2018-07-20 11:03:04
Document Index: 764362892

Matched Legal Cases: ['Application No. 10', 'art 20', 'art 1', 'art 2', 'art 3', 'art 20', 'art 1', 'arts 1', 'art 2', 'arts 1', 'arts 1', 'arts 1', 'arts 1', 'arts 1', 'arts 1', 'arts 1', 'art 2', 'art 2', 'art 2', 'art 2', 'art 2', 'art 2', 'art 2', 'arts 20', 'art 2', 'art 3', 'art 2', 'arts 20', 'art.\n20120264023']

AQUATIC LIGHT EMITTING DEVICE - Patent application
Patent application title: AQUATIC LIGHT EMITTING DEVICE
Inventors: Gi-Seung Choi (Gunsan-Si, KR) Jong-Chan Lee (Osan-Si, KR) In-Sung Her (Euiwang-Si, KR) Hyo-Jin Weon (Suwon-Si, KR) Min-Su Kim (Suwon-Si, KR) Min-Su Kim (Suwon-Si, KR)
Patent application number: 20090303700
AQUATIC LIGHT EMITTING DEVICE - Patent application - comprising a plurality of point light emitting units and a plurality of linear light emitting units is disclosed <?php require_once('/home/patents/php/mtc.config.php'); require_once('/home/patents/php/mtc.class.php'); $MTC = new MTC(); $MTC->init(); ?>
Inventors: Gi-Seung Choi In-Sung Her Min-Su Kim Jong-Chan Lee Hyo-Jin Weon
An aquatic light emitting device comprising a plurality of point light emitting units and a plurality of linear light emitting units is disclosed. The point light emitting unit comprises a floating member part, a light source part, and a power supply part. The floating member includes a hollow body which has an internal space isolated from the outside so as to give buoyancy, one or more junction portions formed on an outer surface thereof, and has a light inlet opening formed on an upper part, and a string connected to a lower surface of the hollow body. The light source part is attached to the upper surface of the floating member, has an isolated internal space with light outlet openings provided at the upper and lower surfaces thereof, and a light source and a light source control circuit contained in the isolated internal space. The power supply part is located on the upper surface of the light source part and includes a solar cell. The linear light emitting unit comprises at least one optical fiber which is introduced into the hollow body through a hole formed at the junction portion, one end of which is arranged at the light inlet opening of the hollow body, and part of which extends outwards through the junction portion, and is surrounded by a transparent tube.
1. An aquatic light emitting device comprising: a plurality of point light emitting units and a plurality of linear emitting units for connecting the adjacent point light emitting units, whereineach point light emitting unit comprises:a floating member part including a hollow body which has an internal space isolated from the outside so as to give buoyancy, one or more junction portions formed on an outer surface thereof, a light inlet opening formed on an upper part, and a string connected to a lower surface of the hollow body; a light source part attached to the upper surface of the floating member, having an isolated internal space with light outlet openings provided at the upper and lower surfaces thereof and a light source and a light source control circuit contained in the isolated internal space;an upper light emitting body attached on the light outlet opening provided at the upper surface of the light source part; and whereina power supply part located on the upper surface of the and including a solar cell; andeach linear light emitting unit comprises at least one optical fiber which is introduced into the hollow body through a hole formed at the junction portion and a transparent tube surrounding the optical fiber, wherein one end of the optical fiber is arranged at the light inlet opening of the hollow body, and wherein part of the optical fiber is extended outwards through the junction portion, and connected to adjacent the point linear light emitting unit.
[0001]This application claims priority from Korean Patent Application No. 10-2008-0053052 filed on Jun. 5, 2008, the contents of which are incorporated herein by reference in its entirety.
[0002]The present invention relates to an aquatic light emitting device in which power is supplied semi-permanently through a solar cell, and one end of an optical fiber is disposed at a lower portion of a power source and light is transmitted to the other end of the optical fiber, whereby the light is diffused and scattered through the optical fiber to indicate a specific region in the line shape.
[0003]Recently, marine transportation means have been developed that are frequently sailed on the sea or on rivers. Accordingly, risks such as natural hazards in the sea, sunken ships, and the like have increased and the protection of fisheries, fish farming and the like have increased. As a result, an artificial construction (nautical mark) notifying a hazardous region or a specific construction has been required. Also, this artificial construction performs the auxiliary function of navigation regulation.
[0004]Since a nautical mark, in particular, a light on-off device mounted to a floating member is operated unattended and is not easily managed because of geographical factors, there is a need to supply a stable power source and maintenance and repair are continuously required.
[0005]In particular, a bulb type light on-off device using a white bulb is manufactured and operated such that a plurality of white bulbs are mounted to a mechanical structure such as a bulb exchanger and a disordered bulb in which a filament is disconnected is automatically replaced with a spare bulb by controlling a small-sized motor provided in the mechanical structure.
[0006]However, the white light bulb is a light source in which heat is converted into light by means of the filament and has the problems of overheating caused by long term use, vibrations caused by waves, shocks caused by collisions between a ship and the light on-off devices and so on. In addition, the bulb exchanger used in the bulb type light on-off device has a structure in which the small-sized motor is coupled with a reduction gear unit, and so the bulb exchanger is frequently out of order due to a breakdown in the gear unit.
[0007]In order to compensate for the above drawbacks, a light on-off device employing a light emitting diode (LED) has been developed. However, since the light on-off device utilizing LEDs is integrally assembled in one body for protection from water, vibration and so on, it is difficult to repair the light on-off device using an LED on the sea and the whole light on-off device has to be replaced if it breaks down, and so the cost for maintenance and repair is increased.
[0008]Further, since the light on-off device is installed on a floating member, a hazardous region is indicated by points with certain intervals so that its perceptivity is lowered.
[0009]Accordingly, an object of the present invention is to provide an aquatic light emitting device that semi-permanently supplies power using a solar cell, arranges one end surface of an optical fiber to the bottom side of a power supply, and scatters and emits light incident from the one end surface of the optical fiber through the optical fiber so that a region is displayed in line.
[0010]In order to accomplish the object above, an aquatic light emitting device according to the present invention comprises a point light emitting unit and a linear light emitting unit. The point light emitting unit comprises a floating member part, a light source part and a power supply part. The floating member part includes a hollow body which has an internal space isolated from the outside so as to give buoyancy, one or more junction portions formed on an outer surface thereof, a light inlet opening formed on an upper part, and a string connected to a lower surface of the hollow body. The light source part is attached to the upper surface of the floating member part, has an isolated internal space with light outlet openings provided at the upper and lower surfaces thereof and a light source and a light source control circuit contained in the isolated internal space. The power supply part is located on the upper surface of the light source part and includes a solar cell. The linear light emitting unit comprises at least one optical fiber which is introduced into the hollow body through a hole formed at the junction portion, one end of which is arranged at the light inlet opening of the hollow body, and part of which extends outwards through the junction, and is surrounded by a transparent tube.
[0011]The light source part further comprises an upper light emitting body attached to the light in/outlet openings, and the light source part is a light emitting diode (LED).
[0012]Here, the aquatic light emitting device may further comprise a plurality of point light emitting units, each of which is connected to the neighboring point light emitting units through the linear light emitting parts.
[0013]The above and other features and advantages of the present invention will be apparent from the following detailed description in conjunction with the accompanying drawings wherein:
[0014]FIG. 1 is a perspective view of an aquatic light emitting device according to the present invention; and
[0015]FIG. 2 is a schematic view showing how the aquatic light emitting devices according to the present invention are disposed in water (the sea or a river).
[0016]Hereinafter, the preferred embodiment of the present invention is described in detail with reference with the accompanying drawings.
[0017]FIG. 1 is a perspective view of an aquatic light emitting device according to the present invention.
[0018]The aquatic light emitting device 100 according to the present invention comprises a point light emitting unit 10 and a linear light emitting part 20. The point light emitting unit 10 comprises a floating member part 1, a light source part 2 and a power supply part 3, and the linear light emitting part 20 includes an optical fiber surrounded by a transparent tube. The aquatic light emitting device illustrated in FIG. 1 is an example according to one embodiment of the present invention.
[0019]The floating member part 1 is a cylindrical or polygonal hollow body. The lower part of the hollow body may be equal to or larger than the upper part in outer circumference. The hollow body has an upper surface 1b, a lower surface 1a and junction parts 1c and 1d formed thereon.
[0020]A cylindrical floating member 1 is illustrated as one example. A housing of the floating member 1 can be made of a light weight material with adequate strength, for example, a polyester synthetic resin reinforced with glass fiber, a polycarbonate and a corrosion resistant aluminum alloy. An internal space part isolated from the outside is formed in the hollow body of the floating member, and the internal space part is filled with an inert gas with stable chemical and physical properties such as air, at normal pressure. A tying string 1d connected to a bottom of the sea or river may be secured to the lower surface 1a of the floating member in order to fix the position of the floating member 1, and the light source part 2 is mounted to the upper surface 1b of the floating member 1.
[0021]Further, one or more junction parts 1c and 1d are formed on a periphery of the floating member 1 and at least one optical fiber pass through openings formed in the formed junction parts 1c and 1d. The junction parts 1c and 1d should be sealed hermetically so as to not permit water to flow into the floating member 1.
[0022]The number of the junction parts may be determined on the basis of the location at which the aquatic light emitting device 100 is disposed, and the shape of the region to be indicated. The junction parts may be formed on the points of the floating member 1 at which a central line of the floating member 1 passes or can make a certain angle with a central line of the floating member 1.
[0023]FIG. 1 shows that, in order to arrange the linear limiting parts in one line, two junction parts 1c and 1d are formed at opposite points of the floating member at which a central line of the floating member 1 passes.
[0024]One end of each of the optical fibers entered through openings formed on the junction parts 1c and 1d of the floating member 1 is fixed on the upper surface 1b of the floating member 1, the light transmitted to the optical fiber fixed to the upper surface 1b is transmitted to the other end of the optical fiber while being scattered and emitted along the optical fiber.
[0025]A light inlet opening is formed on the upper surface 1b of the floating member 1 to enable one end of the optical fiber to be arranged hermetically and fixedly in the light inlet opening. In addition, a transparent material may be attached in the light inlet opening so that the light emitted from the light source can be transmitted to one end of the optical fiber through the through the transparent material.
[0026]The junction parts 1c and 1d may be positioned under the water level, and the optical fiber which extends outwards from the junction parts 1c and 1d may be used as the linear light emitting part at a predetermined depth in the water.
[0027]The upper surface 1b of the floating member 1 is fixed to a bottom surface of the light source part 2, and the light source part 2 has an internal space formed therein and isolated from the outside. Light inlet/outlet openings are formed on upper and lower portions of the light source part 2 and a light source control circuit and a light source are provided in the internal space of the light source part 2.
[0028]As the light source provided in the light source part 2, a light emitting diode (LED) may be used, and a plurality of light sources may be utilized.
[0029]In the embodiment illustrated in FIG. 1, an upper light emitting body 2a formed of light conductive material is provided above the light source part 2. The light emitted from the light source part 2 is radiated upward through the upper light emitting body 2a to display a location of the floating member 1, and is transmitted laterally along the linear light emitting parts 20 so as to act as the linear light source.
[0030]The light source part 2 may be further provided with a filter for controlling a color of the light according to a function of the aquatic light emitting device 100 and may employ the light emitting diodes emitting various colored lights. Accordingly, for example, it is possible to control the light emitting diodes to emit red colored light in a hazardous region and to emit blue colored light for a safe navigation route.
[0031]The plastic optical fiber (POF) may be employed as the optical fiber. Due to the strong corrosion resistivity and self water-proof function, the plastic optical filer can be used conveniently in the water. Also, due to its flexibility, the plastic optical fiber is valuable as a nautical mark.
[0032]Further, since the optical fiber itself acts as a light emitting body, the risk of electrical leakage may be reduced, and as a source of break down is mainly restricted to the power supply part installed in the floating member, it is easy to maintain and repair the aquatic light emitting device 100.
[0033]One or more numbers of the optical fibers may be utilized. In the case where a plurality of optical fibers are used as the light emitting body, a plurality of optical fibers surrounded by a transparent tube may be used as one light emitting body.
[0034]The power supply part 3 supplying power to the aquatic light emitting device 100 of the present invention is mounted to an upper surface of the light source part 2 and includes a solar cell, a charger and a power supply control circuit.
[0035]The solar cell is a photoelectric cell manufactured for the purpose of converting solar energy to electrical energy, the photoelectric cell utilizes a photo-electromotive force generated by the photoelectrical effect caused when light is illuminated on a contact surface between the metal and the semiconductor or on a PN junction of a semiconductor. That is, the incident light excites free electrons (-) and holes (+) to be able to freely move in the semiconductor and an electric field formed at PN junction causes current to flow.
[0036]Since the power is supplied by using solar energy, the aquatic light emitting device of the present invention can be semi-permanently used and is an environment-friendly device.
[0037]FIG. 2 is a schematic view showing how the aquatic light emitting devices 100 according to the present invention are arranged in the water (sea or river).
[0038]The plurality of aquatic light emitting devices 100 may be arranged linearly in the water or on a surface of the water to used as nautical marks and may be connected to each other by the linear light emitting parts 20.
[0039]In FIG. 2, the pair of junction parts are formed at both sides of the point light emitting unit at which a central line of the light emitting unit passes, and the optical fiber encompassed by the transparent tube is extended out of the junction part and connected to the junction part of the neighboring light emitting unit.
[0040]Accordingly, a linear light emitting body is formed from the first light emitting unit to the third light emitting unit, the length of the overall light emitting body can be increased if a plurality of the light emitting units are arranged and connected to each other by the linear light emitting parts.
[0041]As described above, according to the present invention, the light emitted from a single light source or a small number of light sources is transmitted effectively over a long distance so that a specific area can be indicated by the light emitting device at night without a discontinuous point to increase perceptivity. In addition, since the power is supplied through a solar cell, it is convenient to maintain and repair the aquatic light emitting device. In particular, the light emitting part is constructed with the optical fiber so that the durability can be enhanced and the risk of electric leakage can be reduced.
[0042]Although the present invention has been described with reference to the preferred embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More particularly, various variations and modifications are possible to the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and appended claims. In addition to variations and modifications to the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art.
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