TW201012387A - Fishing lamp and ship equipped with the fishing lamp - Google Patents

Abstract

A fishing lamp has excellent effect on fish collection and less power consumption. The fishing lamp contains: a mounting structure mounted on a supporting member assembled on a ship, two or more light sources, and a holding structure fixed on the mounting structure for holding each light source. The configuration of each light source is to make the light axis extend in a direction intersected with an imaged axis which is a straight line extending in an up-and-down direction while the mounting structure is mounted on the supporting member.

Description

201012387 32104pif VI. Description of the Invention: [Technical Field] The present invention relates to a fish lamp mounted on a ship such as a fishing boat or a fishing boat for attracting a captured object into a captureable area and having the fish lamp Ship. [Prior Art] Since the prior art, various methods for increasing the amount of catch (flshcatches) have been proposed. As one of the methods, a method is known in which light is irradiated onto the surface of the water (sea surface) by a fish lamp mounted on a ship. By capturing the light (such as herring, sardine (sar (jine), horse mackerel, saury, etc., or various cuttlefish, crabs, shrimps, etc.) In the captureable area, the poly fish lamp used in the above method includes a light source and a socket for mounting the light source, and the light source is usually a bulb such as a metal toothed lamp, and is configured as follows. That is, by electrically connecting with the socket on the branch (four) installed on the ship (hull) (for example, a wire or a bar erected in such a manner as to extend the entire length of the ship Zhao) The part (the lamp is in a state of being exposed (for example, refer to Patent Document 1). The fish lamp of the above configuration is on the left and right side of the ship, and the entire length of the ship is A plurality of partitions are arranged at intervals. Thereby, the water Φ around the boat can be finely pulverized from the entire ship, so that the object can be captured by the light and can be captured by a fishing net or a fishing rod. The area. Meat. 201012387 3^1ϋ4ρΐΙ ❹

However, the above-mentioned poly fish lamp uses a bulb such as a metal halide lamp having a high luminous efficiency as a light source, and therefore, although the illumination required for the poly fish can be sufficiently obtained, the entire bulb body of the bulb is made. Since the light-emitting portion is exposed, there is a problem in that the light emitted from the light-emitting portion is radiated not only to the surface but also to the air which is not related to the fish, thereby consuming the supplied electric power in vain. In particular, in recent years, when fuel costs have risen sharply, the balance between catches (revenues) and operating costs (to drive fuel costs for ships and generators) has not been achieved, and there have been stops in various places, and fuel consumption. The increase in the associated power consumption is a major problem related to the survival of fishermen and shipping management. In view of the above-mentioned situation, there has been proposed a fish-fishing lamp in which a light-emitting diode (LED) having a small power consumption is used as a light source (for example, refer to the exclusive product 2). This squid lamp is a device in which a plurality of LEDs are disposed on a panel, and the illuminance required for the poly fish is obtained by simultaneously making all the LEDs. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. 2-134967. However, LEDs are used as light sources (four) fish (four) each coffee is very small, so in order to achieve and = Light Department) The exposed fish lights have the same level of illumination, and must be used with an LED, resulting in a larger size of each fish lamp. The number of the polyfish lamps that need to be placed on the ship is reduced, and the illumination of the exposed fishlights that are set on the ship is ensured by the method of 2, and the result is that the energy is not available. 201012387 32104pif A satisfactory problem with the efficiency of fish gathering. Further, if the number of LEDs is too large to be placed too large, there is a problem that not only the field of view from the steering to the observation is blocked, but also the safety is navigated. SUMMARY OF THE INVENTION Therefore, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a ship having a small power consumption secret (4) and a ship having the fish lamp. The poly fish lamp of the present invention is characterized in that it comprises: a mounting mechanism configured to be attached to a support member provided on the hull; two or more light sources; and a holding mechanism configured to be coupled to the mounting mechanism and Each light source can be maintained. Each of the light sources is in a state in which the mounting mechanism is attached to the support member, and the SX is placed such that the optical axis extends in a direction in which the virtual axes extending straight in one direction in the up and down direction intersect. In the fish-fishing lamp of the above configuration, in the state in which the mounting mechanism is attached to the support member provided on the ship, the optical axis ' of the two or more light sources held by the holding mechanism is in the up-and-down direction (imaginary axis) The state in which the direction of extension is extended, so that each light source can illuminate the water surface. As a result, since each of the light sources can be irradiated only to the water surface, the light from each of the light sources is not ineffectively radiated outside the region that is attracted to the object to be captured, and the electric power supplied to the light source can be effectively utilized for the fish. Thereby, the poly fish lamp ' configured as described above can obtain a good poly fish based on the suppression of power consumption, compared with the previous fish lamp that radiates light to the sky (no radiation is emitted in all directions) without irradiation of light. effect. Furthermore, the above-mentioned 201012387 ^104pll, the above-mentioned fish-fishing lamp, for the purpose of suppressing (four) power consumption as described above, allows the amount of electric power from the generator to be the amount of electric power of the fish. In the same case, the illuminance (light quantity) that is irradiated into the area of the trapping and capturing unit can be further increased by supplying the power of the fish and the two eyes of the same. Gather

Although the heat source may be a bulb in which a bulb body (lamp housing) is formed of expensive quartz glass having excellent heat resistance, as described above, 3 power consumption is suppressed and low power (low watt) can be used for each filament. Since the heat generation temperature of each light source at the time of light emission is lowered, a light bulb having a relatively low price can be used as the light-emitting portion of the light source. Furthermore, each light source may be a person having directivity, for example, a reflector (reflector) is provided independently of the bulb (light emitting portion), but it is preferable to consider the size or the amount of f. A lightweight and smoother film of a reflective film such as an aluminum oxide film is formed on the inner surface of the bulb body using the bulb. As a mode of the present invention, the two or more light sources may be arranged such that the mutually emitting regions are arranged in a row. If so set, the riding areas of the respective light sources are connected to illuminate the light from a region close to the ship. Therefore, even when the ship is rocking left and right (rollmg), the light can be irradiated from the ship to a predetermined range (the ship can be captured from the ship), so that the object can be stably attracted to the ship. Further, as another form of the present invention, the two or two 201012387 32104pif or more of the cut and the (four) illumination areas may be substantially equal. If the field is set by the respective two or more light sources The illumination is increased in the same area, and the illumination in the area is increased, thereby improving the polyfishing effect. As another form of the present invention, it is preferred that each of the light sources is disposed to be orthogonal or substantially orthogonal to the (4) photon (four). In this case, since the angle of the wire of each light source can be changed, the irradiation area can be appropriately adjusted to an appropriate position. As another aspect of the present invention, the holding mechanism is preferably provided with the above. a rod portion extending in a direction in which the imaginary axes intersect, and a holding position for holding each light source is set at intervals in the longitudinal direction of the rod portion. If so set, even if Two or more light sources are placed, and these are not connected straight to the bottom. Even if a plurality of fish lights are arranged in front of the snake room of the ship, it can be ensured from the steering room. The field of view, thereby contributing to safe navigation. Moreover, the ship of the present invention is a ship that is equipped with a fishlight for a support member provided on the hull, and is characterized in that the above-mentioned fish lamp is any of the foregoing. According to the ship, the optical axis of the two or more light sources held by the holding mechanism is in a direction extending in the direction perpendicular to the vertical direction (the rice shaft), so that each light source can be In this way, since each light source can be irradiated only to the water surface, the light from each light source is not ineffectively radiated outside the region that is attracted to the object to be captured, and the electric power supplied to the light source can be effectively utilized for the fish. Thereby, the poly fish lamp of the above configuration is compared with the previous poly fish lamp which radiates light even to the sky without irradiation of light (to radiate light in all directions), 201012387 3^ιυ4ριι In addition, the composition of the fish is better. (4) The fish lamp is used for the purpose of sagas power consumption as described above, allowing the electric power from the generator to be used in the previous (four) fish lamp. When the amount of electric power is the same, by supplying the same electric power as the previous gathering, the illuminance (light quantity) in the area of the trapping pair ί can be increased compared with the previous poly fish lamp, thereby being able to advance - Step to improve the effect of poly fish.

Further, of course, a bulb or the like in which a bulb body (lamp housing) is formed of expensive quartz glass having excellent heat resistance may be used as the light source. However, as described above, power consumption can be suppressed and low power (low watt) can be used for each light source. In addition, the heat generation temperature of each light source at the time of light emission can be used as a light-emitting portion of a light source with a relatively low light bulb. Furthermore, each light source may be directional, for example, a reflector (reflector) is provided independently of the bulb (light emitting portion), but if size or weight is considered, it is better to The light of the bribe is formed on the surface of the light-weight and simplified surface of the reflective film such as a vapor film. #且' When two or more wires are arranged such that the irradiation areas of each other are arranged in a line, the irradiation areas of the respective systems are connected to illuminate the light from the area close to the ship to the far side. Thereby, even when the ship is rocked to the left or right (when swinging), the light can be irradiated to a predetermined range (a region that can be captured by the ship from the ship), so that the object to be captured can be stably attracted around the ship. Further, when two or more light sources are provided so that the irradiation regions of the two light beams substantially coincide with each other, since the light of each of the two or more light sources of the 201012387 32104pif is irradiated to the same region, the region is The illuminance is increased to increase the effect of the fish. Further, when each light source is rotatably provided around an axis orthogonal to or substantially orthogonal to the virtual axis and the optical axis, since the angle of the optical axis of each light source can be changed, the irradiation area can be appropriately adjusted to an appropriate level. Further, the holding mechanism includes a rod portion extending in a direction intersecting the virtual axis, and is disposed at a position in the longitudinal direction of the rod portion while maintaining a holding position of each light source. With two or more light sources, these are not vertically connected downward. Thereby, even if a plurality of fishlights are disposed in front of the steering room of the ship, the field of view viewed from the steering room can be secured, thereby contributing to safe navigation. As described above, the poly fish lamp of the present invention can obtain an excellent polyfishing effect with less power consumption. Further, the ship of the present invention can also obtain an excellent fish collecting effect with less power consumption. The above described features and advantages of the present invention will become more apparent and obvious. [Embodiment] Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. As shown in Fig. 1, the fish lamp raft according to the present embodiment is attached to a support member w provided on the hull Ba of the ship B such as a fishing boat or a fishing boat, and is usually disposed in the entire longitudinal direction of the hull Ba. In addition, the fish lamp 1 of the present embodiment is premised on attachment to the support member, and as shown in Fig. 2 and Fig. 3(a) and Fig. 3(b), includes: mounting mechanism 1〇 It is configured to be attachable to a support material W provided on the bow Ba; two or more light sources (two in the 201012387 szimpa embodiment); and a holding mechanism 4〇 configured to be connected (4) The above-described mounting mechanism 10 may be configured such that the respective light sources 2, 30, and the mountings of the present embodiment are configured to be a rope (wire rope w) that is placed on the hull Ba. As shown in FIG. 2, FIG. 3(a) and FIG. 4, the mounting mechanism H) includes a base 100; the sheet member 10 102' is disposed opposite to the base 100; The fixing mechanism 103' fixes the sheet members 101, 102 to the base 1A. The susceptor 100 includes a plate-shaped base body 100a having a rectangular shape, and a pair of reinforcing portions 1 extending from one end of the base body 〇0a toward one surface side of the base body 1A. 〇〇b, 1〇〇1^ The base 1 is formed by bending a single sheet of material to form the base body 100a and the pair of reinforcing portions 10b, lb. Further, in the base body 10a, a screw hole S1 for screwing the screw 103 as a fixing means is provided. In the present embodiment, a plurality of screw holes S1 are formed in a row at both ends of the base body 100a. On the other hand, in each of the reinforcing portions i 〇〇 b and 1 〇〇 b, a screw hole S2 for screwing the screw B1 is provided in order to connect the holding mechanism 40 (the arm member 4A described below). The sheet-like members 101 and 102 are formed of a rectangular plate material, and are provided with a plurality of through holes HL··· at intervals in the longitudinal direction so as to correspond to the arrangement of the screw holes S1 of the base body 100a. . Each of the through holes Hi··· is set to a size in which the screw 103 of the fixing mechanism can be inserted. Thus, the mounting mechanism 10 of the present embodiment has a through hole of the sheet members m, 1 () 2 in a state in which the yoke (wire rope) w is held by the susceptor 1 〇〇 11 201012387 32104pif 102. The screw 1 in the H1 screw is fastened to the screw hole S1 of the screw housing main body l〇〇a, and can be attached to the steel wire w erected on the hull Ba of the ship B. ,

As shown in FIG. 2 and FIG. 3 (8) and FIG. 3(b), each of the light sources 20 and 30 is disposed such that the optical axes IU and R2 extend in a direction intersecting with an imaginary axis which is mounted on the mounting mechanism 1G. In the state of the (four) material W, it extends straight in one direction in the vertical direction. Further, in Fig. 2 and Fig. 3(b), since the virtual axis extending straight in one direction is indicated by a vertical axis (Y axis) and is indicated by a chain line, in the following description, for convenience The imaginary axis is called the γ axis. In the present embodiment, the optical axes R1 and R2 of the respective light sources 20 and 30 are arranged in a row along a common imaginary plane (not shown) which is parallel or substantially parallel to the Y-axis. In other words, the two light sources 20, 30' of the fish-fishing lamp 1 of the present embodiment are arranged in a row (two stages) in the vertical direction or the front-rear direction.

By arranging the light sources 20 and 30 in a row as described above, the installation space (the direction orthogonal to the γ-axis and the optical axes R1 and R2: the dimension in the width direction) of each of the cover fish lamps 1 becomes small, so that The number of the poly fish lamps 1 arranged in the entire length direction of the hull Ba is increased. In other words, when the light sources 20 and 30 are arranged in a direction in which the entire length direction of the ship B is aligned in a state where the fish lamp 1 is attached to the ship B, the size of the fish lamp 1 in the width direction becomes large. . Therefore, the number of the fish lamps 1 that can be placed on the hull Ba is reduced. However, the fish light 1' of the present embodiment has two light sources 20, 30 in the axial direction orthogonal to the direction in which the ship B is arranged in the direction (the entire length direction of the ship B) 12 201012387 JZUMpu. The arrangement is one line, and the size of the width of the poly fish lamp 1 is minimized, so that more fish lamps 1 can be placed in this limited space on the ship Ba. Further, in the present embodiment, each of the light sources 2, 3, is arranged such that the respective irradiation regions are arranged in a line. That is, as shown in Fig. 6, in order to connect the irradiation areas of the two light sources 20 and 30, the one light source 20 is irradiated to the hull side, and the other light source 3 is irradiated further by the light source 20. In the manner, the angles of the respective light sources 20, 30 are set. Further, each of the light sources 2A and 3B of the fish-fishing lamp 1 of the present embodiment is rotatably provided around an axis orthogonal to or substantially orthogonal to the Y-axis and the optical axes R1 and R2, and is adjustable. The optical axes R1 and R2 are at angles Θ1 and 02 with respect to the γ-axis in the vertical direction at the time of mounting. Referring back to FIGS. 2 and 3, the light sources 2A, 30 of the present embodiment include the light source bodies 21, 31' held (fixed) by the holding mechanism 40, and the light emitting portions 22, 32 connected to the light source bodies 21, 31. on. The light source bodies 21 and 31 include cylindrical portions 21A and 310, and a clogging portion 21b, 311, and one end opening of the tubular portions 210 and 310, and the cylindrical portions 210 and 310 extending in the center line. A pair of screw holes of the following screws B2 for screwing the holding mechanism 40 are bored on both sides of the intermediate position by extending in a direction orthogonal to the center line of the tubular portions 210 and 310 (not Graphic). Further, the other end sides of the tubular portions 210 and 310 are formed to open toward the other end, and the inner diameter and the outer shape are enlarged, so that the base end side of the bulb portion of the bulb described below can be accommodated in the enlarged other end portion. 13 201012387 32104pif Further, a socket (not shown) for connecting a connector (not shown) of a bulb to be described later is provided in the light source main bodies 21 and 31 (the tubular portions 21A and 31B). The socket is electrically connected to a wire (cable) inserted in the tubular portions 21, 310 and is such that the center (optical axis R1, R2) of the bulb body portion of the connected bulb becomes a canister The center lines of the portions 210 and 310 are disposed in a state in which they are uniform or substantially uniform. The light-emitting portions 22 and 32 of the present embodiment are constituted by a bulb body (lamp casing) portion of a bulb (e.g., a metal halide lamp). In other words, the light sources 20 and 30 are connected to the sockets in the light source bodies 21 and 31 by the joints of the bulbs, whereby the bulb body portions of the bulb 10 are exposed from the light source bodies 21 and 31 to constitute the light-emitting portions 22 and 32. The bulb body portion of the bulb is housed on the inner surface on the proximal end side in the other end portion of the tubular portions 210 and 310, and a reflection film (mirror surface) such as an aluminum vapor deposition film is formed to allow the emitted light to be directed to a predetermined region. Irradiation. Such a bulb can be made of a ceramic metallization lamp or a quartz type metal toothed lamp. In the present embodiment, a ceramic metal halide lamp is used. As described above, the light sources 20 and 30 (the light-emitting portions 22 and 32) of the present embodiment include the reflection film, whereby the light can be irradiated to a predetermined region (fixed direction). That is, a bulb in which the reflecting film is formed on the inner surface of the bulb 作为 as the light sources 20 and 30 is used, whereby the poly fish lamp 1 of the present embodiment can form the optical axes IU and R2 of the light sources 20 and 30 in a predetermined direction. A reflective fish-shaped lamp that is given a directivity of light. In each of the light sources 20 and 30, the light-emitting portions 22 and 32 may be located on the side of the susceptor 1 (the pedestal body 10a) (on the other side in the present embodiment), and may be The light source main bodies 21 and 31 are mounted on the side of the other side of the 201012387 ^iU4, which is the side of the side in the present embodiment. That is, the two light sources 20, 30 are disposed in the direction of the base body 使 in such a manner as to illuminate the light-emitting portions 22, 32. The holding mechanism 4 includes: an arm member gamma coupled to the womenswear mechanism H); and a B2 for fixing the light source 2(), 3〇 to the ❹ = structure, (maintaining the light source 2) 〇, 3〇). The arm member, the squirrel 400, extends in a direction intersecting the γ axis, and the connecting portion 4 (Π' is coupled to the rod portion _ and the mounting mechanism ι. The rod portion 〇 〇 is composed of a rectangular or strip-shaped plate, and is formed in a direction of the y-axis (up and down direction in the mounted state) ±, and a height difference is formed between the end side and the other end side, based on the γ axis. The fish lamp 1 of the present embodiment is provided with two light sources. Therefore, the holding positions Pi and Ρ2 of the holding light sources 20 and 30 are set at both end portions of the rod portion 4A. The holding positions PI and Ρ2 are provided. A through hole (not shown) through which the screw holes 2 are inserted to hold the light sources 2, 30 is formed. Thereby, the light sources 20 and 30 are inserted through the 0 hole of the rod portion 4 The screw Β 2 in the middle is screwed to the screw holes (not shown) of the light source main bodies 21 and 31, and is held (fixed) at the respective holding positions PI and Ρ2. That is, the irradiation in the two light sources 20 and 30 The light source 20 on one side of the hull Ba is fixed to the holding position P1 on the one end side of the rod portion 400 of the mounting mechanism 10, On the other hand, the light source 3 that is irradiated further from the light source 20 is fixed to the holding position p2 on the other end side of the rod portion 4A of the mounting mechanism 10. The connecting portion 401 includes: the fixing portion 401a' is fixed to The mounting mechanism 1A (the reinforcing portions 100b, 10b); and the connecting portion main body 4〇1b extend from the 15 201012387 32104pif m fixing portion 401a. The fixing portion 401a has a screw hole corresponding to the reinforcing portions 100b and 100b. A plurality of through holes (not shown) are formed in the arrangement of S2. That is, the fixing portion 401a is provided with a through hole through which the screw B1 is inserted, and is screwed to the screw B1 inserted through the through hole. The screw holes S2 of the portions 100b and 100b are fixed. The fixing portion 4a and the connecting portion main body 401b are each formed in a strip shape, and one end of each of the longitudinal directions is connected to each other. In the present embodiment, the fixing is performed. The portion 4〇1a is formed in a state of being directly connected to the connection portion main body 401b. That is, the fixing portion 4〇1a and the connection portion main body 401b are formed in a single strip shape.

Further, the connecting portion 401 is rotatably connected to the intermediate portion in the longitudinal direction of the young portion 400 at the other end portion in the longitudinal direction of the fastening portion main body 401b which is the lower end portion of the connecting portion 401. In other words, the rod portion 4 is screwed to the lower end portion of the joint portion 4A by the screw B3, and is rotated around the axis of the screw B3 to change the relationship with respect to the joint portion main body 4〇1b (Y-axis). Angle The fish lamp 1 of the present embodiment is provided with a pair of the above-described mechanisms 40. Each of the holding mechanisms 40 is fixed to the fixing mechanism of the mounting mechanism 1G by the fixing portion of the arm member 4A by the screw Bi. Ministry of encouragement, 1〇〇b. In this manner, the pair of holding mechanisms 40 are in a configuration in which the connecting portion main body 401b and the beat portion 400 extend toward one end side of the mounting mechanism 10. In the present embodiment, as described above, since the steel wire to be erected is used as the support w, the shape of the mounting mechanism 1G is _ w fresh, and the body portion (four) and the rod portion of the joint body become self-safety = The lion B2 screwing light source 2G, 3G (the screw hole of the optical body) of each of the stalks of the stalks of the stalks of the stalks of the shackles 16 201012387 It is held in a state of being clamped from both sides. Thereby, each of the light sources 20 and 3 is arranged in a row at intervals in the longitudinal direction of the rod portion 4A. Further, the knife nJ1, by screwing the screw B2 inserted into the arm member 40a (the rod portion 400): the light source 20, 3〇, the center line of the screw is intersected with the γ pumping and the optical axis Rb R2 The direction (orthogonal direction) extends, so that the light source 20, 30 can be rotated about the middle: line (axis) of the screw B2 by loosening the screw = B2. In other words, the screw B2 for fixing the light sources 20 and 30 of the fish lamp ι of the present embodiment also functions as a rotation center (rotation axis) of the light sources 2〇 and 3〇. Thereby, each of the light sources 20, 30 can be rotated about an axis orthogonal to or substantially orthogonal to the Y-axis and the optical axis Rb R2 as described above. As described above, the fish-fishing lamp 1 of the present embodiment is configured such that the light sources 2A and 3G can be adjusted (the angle of the optical axis illusion and the yang is 01), and the angle is adjusted by the valley, and the light source is 2, 3 for each light source. 〇Setting; Confirmation of the angles of the light sources 2G and 3G (optical axes R1, R2) 0. The measuring mechanism 5G. The angle measuring structure is formed into a plate shape, and is marked with the = defined position as the center point. A scale representation of the angle). m The angle measuring mechanism 50 of the present embodiment is formed in a disk shape, and is indicated in the circumferential direction with respect to the center of the angle. The angle measuring mechanism 5G is provided with a through hole (not shown) through which the screw B3 is inserted at the predetermined position, and the through hole is concentric with the penetration of the rod portion 17 and is fixed to the hole of the 17 201012387 32I04pif. The rod is surgically applied. Therefore, in the fish lamp 1 of the present embodiment, the screw B2' inserted through the angle measuring mechanism 5 and the through hole is screwed into the screw holes of the light source bodies 21, 31. The fish lamp of this embodiment is provided when the angle measuring mechanism % is set as described above! The light source 20, 30 (the light source body 2) 31 is provided with any mark (not shown) corresponding to the scale of the = degree measuring mechanism 5G. Thereby, the angle φ of the angle φ measuring means 50 _ degrees is aligned so as to correspond to the postures (angles) of the light sources 2 〇 and 3 ,, so that the angles of the light sources 20 and 30 can be grasped. Further, the poly fish lamp i having the above-described configuration is such that the positions of the center of gravity of the light sources 2, 3, and the holding mechanism 40 are located at the center of gravity of the mounting means i (four) (actually, the mounting center of the support member W). The way on the line is set. Thereby, the light sources 20 and 30 are suspended in an appropriate state in a state where the mounting mechanism 1G is attached to the support member w. The fish lamp 1 of the present embodiment includes the above configuration, and next, the mounting type and operation of the fish lamp 1 will be described. As shown in Figs. 1 and 5, the fish lamp 1 having the above configuration is attached to a support member provided on the hull Ba of the ship B. Here, if the installation type of the ship B is specified, on the hull of the ship B, the wire W as the branch material is erected over the entire length of the hull and in the longitudinal direction of the wire W. A multi-stranded fish lamp i is installed at intervals. The above-mentioned steel cable W is mounted on the port side and the starboard side of the ship B, and a plurality of fish-fishing lamps 1 are attached to each of the two steel cables W. Further, the steering chamber C of the ship B shown in Fig. 设置 is provided at substantially 18 201012387 in the entire longitudinal direction of the hull Ba, such as A VI at the center of the AU, and the wire w is erected in the steering chamber c for identification. The position above the window in front is slightly above. Further, the fish-fishing lamp 1 attached to each of the steel cables W is symmetrical with respect to the core line of the hull Ba extending in the entire longitudinal direction of the hull Ba, and the light-emitting portions 22 and 32 are attached to the outside. . Further, the angles θ 1 and Θ 2 of the light sources 20 and 30 of the respective fish lamps 1 are adjusted, and as shown in Fig. 6 (4) and Fig. 6 (b), the irradiation areas A of the two light sources 20 and 30 of the respective fish lamps 1 are adjusted. Bu A2 is set to be arranged in a line. At this time, as shown in FIG. 6(a), a part of the irradiation areas A1 and A2 of the respective light sources 20 and 30 is repeated, or the irradiation areas A1 and A2 are made to be mutually different as shown in FIG. 6(b). The angles 0 1 and 0 2 of the light sources 2 〇 30 are adjusted in a manner close to each other. In other words, the postures of the two light sources 20 and 30 are adjusted so as not to form a dark portion in which the efficiency of the fish is lowered between the irradiation regions a1 and A2 arranged in a line. At this time, it is preferable that the two light sources 20 and 30 set the light source of one of the light sources 20 to 45 with respect to the Y axis without presuming that the respective irradiation regions A1 and A2 are completely matched. To 65. The optical axis ❹ R2 of the other light source 30 is set to 55 with respect to the Y axis. To 75. . In this way, the plurality of light sources 1 and A2 of the two light sources 20 and 30 are arranged in a row so that the plurality of fish lamps 1 are arranged in the longitudinal direction of the wire W to thereby make each of the fish lamps i The irradiation area eight A2 is connected to the entire length direction of the hull Ba, and as a result, substantially the entire area of the ship b can be illuminated. ^ As described above, the "fishing lamp of the present embodiment" has two light sources 20, 30 placed in such a manner that the mounting mechanism 1 is mounted on the support $2 201012387 32104pif w, so that the two The light source 2(), 3 is in the direction of the γ-axis that is in the vertical direction = rR1, R2 are mounted on the ship B in the phase-fit mechanism. Therefore, on the two light sources ί, which are held by the holding mechanism The state R2 is an optical axis R1 that intersects with the vertical direction (γ-axis), and the light source 2 can be projected on the water surface by the respective light sources 20 and 30. , 3. It can only illuminate the water surface, so come to T

It does not invalidate the radiation to the private county, and the electricity supplied by 3=2 20, 30 is effectively used for the poly fish. The fishlight 1 of the above-mentioned (4) is compared with the previous fishlight that radiates the light to the work (the radiation is emitted in all directions) without the need for light irradiation, and can be based on the suppression of the power consumption. Get a good poly fish effect. Moreover, as described above, 'by suppressing the heterogeneous force, low power (less than 1 〇〇〇W, preferably 750 watts or less) can be used for each wire 2〇, 3〇. To reduce the heating temperature of each of the light sources 20, 30 when emitting light,

In this way, a conventional light bulb having a relatively low price can be used as the light-emitting portion 22'32 of the light source 2〇, 3〇, and the respective light sources 20 and 30 are configured such that the irradiation regions A1 and A2 of each other are arranged in a line, so that even When the ship b is shaken to the left or right (when swinging), the light can be irradiated from the ship B to a predetermined range (a capture area that can be captured from the ship B by the ship B), so that the object to be captured can be stably attracted to the ship B. . Further, each of the light sources 20 and 30 is rotatably provided around an axis orthogonal to or substantially orthogonal to the Y-axis and the optical axes R1 and R2, so that the optical axis of each of the light sources 20 and 30 is variable 20 201012387. The angles of the illusion, 0 l, ^ 2, are appropriately changed from the irradiation area A A2 to the desired position. Since the angle measuring mechanism 50 is provided, the angles of the respective light sources 2, % (the optical axes ία, R2) can be easily set to an appropriate angle. Further, the holding mechanism 4A includes a rod portion 400 that extends in a direction intersecting the γ-axis, and the rod portion 4 is placed on the rod portion 4a. 3 〇 holding position I Ρ 2 ' Therefore, even if two or more light sources 2 〇, 3 设置 are provided, the light sources are not vertically connected downward. Thereby, a plurality of fishlights are arranged in front of the cabin c of the ship β! The light source 2〇, 3〇, etc. will also deviate from the field of view observed from the snake chamber C, thereby contributing to safe navigation. Next, a second embodiment of the present invention will be described with reference to the drawings. In addition, the configuration of the fishlight lamp of the present embodiment other than the holding mechanism is the same as that of the first embodiment. Therefore, in the following description, the configuration other than the holding mechanism is given the same name as the configuration of the first embodiment. The same reference numerals are given and the description is omitted, and only the holding mechanism will be described.支 _ 7 and 圏 8 towel The arm member 40a of the holding mechanism 40 of the present embodiment includes a rod portion 400 that extends in a direction intersecting the γ-axis, and a coupling portion 401 that connects the rod portion 4 and Installation mechanism 1〇. The rod portion 400 is formed of a rectangular or strip-shaped plate material, and is formed to have a height difference on one end side and the other end side on the Y-axis, and is inclined so as to be inclined on the x-axis. Further, the rod portion 4 is fixed to the one end side on the side of the mounting mechanism 1 by the height difference, and the other end side away from the mounting mechanism 10 from the one end side. 21 201012387 32104pif The fish lamp of this embodiment! Since the two light sources 2 〇 and 3 设置 are provided, the holding position P P P2 for holding the respective light sources 20 and 30 is provided at the end portion of the rod portion 400 _. Through holes (not shown) through which the screws B2 for holding the light sources 20 and 3G are inserted are provided in the respective holding positions n and p2. Thus, the light sources 2A, 30 of the present embodiment are screwed into the screw holes of the light source bodies 21, 31 by the screws B2 inserted into the through holes of the rod portion 4, and are fastened. Positions n and P2 are maintained (fixed). The connecting portion 401 includes a fixing portion 4〇ia, which is fixed to the mounting mechanism 1〇 (reinforcing portion leg, lb), and a connecting portion main body 4· extending from the engaging fixing portion 401a. a A plurality of through holes (not shown) are bored in a manner corresponding to the screw holes (not shown) of the reinforcing portions 10b and lGGb. That is, the fixing portion 401a is bored through the through hole of the insertion screw m, and is fixed by screwing the lion m inserted into the through hole into the screw holes of the reinforcing portions 100b and 100b. Each of the fixing portion 401a and the connecting portion main portion 4b is formed in a strip shape, and one end of each of the longitudinal directions is connected to each other. In the present embodiment, the connecting portion main body 401b extends obliquely downward from the other side surface side of the base body 100a with respect to the fixing portion 4a. That is, the fixing portion 401a and the connecting portion main body 4〇1b are formed in a curved shape at a predetermined angle (a pure angle in the present embodiment). Further, the rod portion 400 is also formed in a strip shape, and the other end portion (the other end portion of the holding position P2 of the other light source 30 is set) is connected to the other end portion of the joint portion main body 401b. One end side of the rod portion 4A (one end side of the holding position pi of the two light sources 20 is set) is inclined forward and downward in a direction opposite to the front-down direction (inclination direction) of the joint portion main body 22 201012387 jzxwpu 401b . Thereby, the connecting portion main body 40lb and the rod portion 400 are formed in a curved shape at a predetermined angle (a substantially right angle in the present embodiment). Further, the arm member 40a of the present embodiment integrally forms the fixing portion 401a, the connecting portion main body 4b, and the rod portion 4 by punching the plate material. Thereby, the arm member 4A of the holding mechanism 40 of the present embodiment is connected to the other end portion of the rod portion 400 of the connecting portion main body 401b on the side of the mounting mechanism 10, and the rod portion 300 is directed to one end side. Formed toward the front and lower. In the present embodiment, the light source 20 on the side of the hull Ba on the two light sources 20 and 30 is fixed to the holding position P1 on the one end side of the rod portion 400 that is separated from the mounting mechanism 1'. The light source 2 of the other side is irradiated to the other light source 30 of the far side, and is fixed to the holding position P2 of the other end side of the rod portion 400 which is separated from the mounting mechanism 1A. As described above, the fish-fishing lamp 1 according to the first embodiment differs from the first embodiment in that the basic configuration of the arm member 1 is different from that of the arm member 40a. Therefore, the fish-fishing lamp of the first embodiment can be obtained. The same effect and ❹ effect. That is, the fish-fishing lamp 1 of the present embodiment is provided with the two light sources 20, 30', that is, the optical axis of the two light sources 20, 30, R2, in which the womenswear mechanism 10 is attached to the branch material W. In the upper state, the Y axis extending in the vertical direction extends in the intersecting direction. Therefore, in the state where the mounting mechanism 10 is attached to the support member w provided on the ship B, the two held by the holding mechanism 40 are held. The optical axes ri and R2 of the light sources 20 and 30 extend in a direction intersecting the vertical direction (Y-axis), so that 23 201012387 32104pif can illuminate the water surface by the respective light sources 20 and 30. In this way, since each of the light sources 20 and 30 can be irradiated only on the water surface, the light from each of the light sources 2〇, 3〇 is not ineffectively radiated outside the region that is attracted to the object to be captured, and the power supplied to the light sources 2, 30 can be supplied. Effectively used for poly fish. "In this way, the power consumption of the light sources 20, 30 can be suppressed as compared with the previous fish light that radiates light to the sky without the irradiation of light. Further, since the irradiation areas of the respective light sources 20, 30 are arranged in a line Therefore, even when the ship B is rocking from side to side (when swinging), the light can be irradiated from the ship B to a predetermined range (a capture area that can be captured from the ship B by the ship B), so that the object can be stably attracted. The light sources 20 and 30 are rotatably disposed around an axis orthogonal to or substantially orthogonal to the γ-axis and the optical axis R2, so that the respective light sources 2, 3 can be changed. The angles (91, 02) of the optical axis 11 of the cymbal can appropriately change the irradiation regions A1 and A2 to a desired position. Further, the holding mechanism 40 is provided to extend in a direction crossing the γ-axis. The rod portion 400 is provided with the holding positions ρι and P2 for holding the respective light sources 2〇, 3〇 at intervals in the long sound direction, so that even if the two light sources 20 are provided, 3〇, these light sources will not hang 10 straight The ground is connected downward. Thereby, even if a plurality of fish light sources 20, 30 or the like are disposed in front of the steering chamber c of the ship B, the field of view observed by the steering chamber c is deviated, thereby contributing to safe navigation. In order to confirm the performance of the conventional fish lamp and the performance of the fish lamp (the fish lamp in which the two light sources 20 and 30 are arranged in a row) of the first embodiment as an example of the fish lamp of the present invention, The illuminance distribution is analyzed in 24 201012387. The object of the analysis is the fish light B with the previous 6 〇 surplus, that is, the ship B with 60 (30 on the wire, 30 on the right) bulbs, and 70 盏 (35 covers on the left, 35 covers on the right side) The ship B of the fish lamp of the present invention. Moreover, all the conditions of the fish lamps 1 arranged in a row are set to be the same. That is, each fish lamp 1 The mounting height is set to be approximately 4 m on the basis of the water surface, and the angle 0 1 of the light source 20 of the adjacent fish lamp 1 is set to the same angle, and the other light source %, the stomach 6>2 is the same angle, and the light of each of the fish lights is appropriately changed. 20, 30 n $ a ! Ω 0 a „ _ .. W uses 0 1 , 02. In addition, the following will illuminate the side of the hull a, the square light source 2 is called the first light source, will be the first light source 2 光源 illuminating the other side of the light source 30 is called the second light source. After riding the ride analysis according to the above conditions, the results as obtained from the values of -9 to 19 are obtained. Further, 'in Fig. 9 to Fig. 19' The area A surrounded by the two-dot chain line is a capture area that can capture the captured object (fish or cuttlefish, shrimp, etc.) from the ship B. Here, if the analysis result is specifically described, it can be confirmed that: First, the former ship B (the fish lamp 1 consisting of the previous light bulb) is equipped with 60 3kw bulbs (total 18〇^: see Figure 9), and 60 2.7kw bulbs are provided (total 162kw: When referring to FIG. 1A), when 60 2kw bulbs are provided (total i2〇kw: see FIG. 11), the illuminance is increased in proportion to the total electric power in the capturing area A'. That is, in the capture area A', as shown in FIG. 9, when 60 3 kw bulbs (total 180 kw) are provided, the illumination area at the port side and the starboard side capture area a has a maximum illumination of 14,000 lux ( Lux), as shown in Figure 10, with 60 25 201012387 32104pif 2.7kw bulbs (total 162kw), the illumination level is up to 12 lux in the capture area A' on the port side and starboard side. As shown in Fig. 11, when 60 2 kw bulbs (total 120 kw) are placed on δ, the illumination is at most 8 lux in the capture area A' on the left and starboard sides. On the other hand, it is understood that the ship B (the fish lamp 1) of the present invention has a low power 'but can obtain an illumination level equal to or higher than the case where the previous light bulb is installed in the capture area A ′, and the present invention The illuminance of the vessel 6 in the capture area A' is uniform. Specifically, as shown in FIG. 12, the first light source 2A on the side of the illumination hull Ba of the two light sources 10 20 and 30 of each of the poly fish lamps 1 is set to 4 〇〇 w, and the optical axis R1 is opposed. The angle 0 1 of the Y-axis (the angle of the optical axis R1 inclined obliquely downward with respect to the smaller one (inner corner) of the Y-axis) is set to 45. And setting the second light source 30 to 700 W and setting the angle Θ2 of the optical axis R2 with respect to the Y axis (the angle of the smaller one (inner angle) of the optical axis R2 inclined obliquely downward with respect to the γ axis) to 65 . (Total 77 kw), in this case, the illumination level of up to 14,000 lux can be obtained in the capture area A on the left side and the right side. Further, as shown in Fig. 13, the first light source 2A is set to 4 〇〇 W, and the angle 0 1 of the reference optical axis R1 with respect to the Y axis is set to 45. And setting the second light source 30 to 700 W and the angle of the optical axis R2 to the γ axis is set to 55° (set to a total of 77 kw). In this case, the capture area A on the port side and the right side 'Achieve a maximum illumination of 16,000 lux. ..., and further, as shown in FIG. 14, the first light source 2 is set to 4 〇〇 W, 26 201012387

JZIUHpU and the angle 0 1 of the optical axis R1 with respect to the Y axis is set to 45. And setting the second light source 30 to 400 W and the angle 0 2 of the optical axis R2 with respect to the x-axis is set to 45 (total 56 kw) ' or as shown in FIG. 15, setting the first light source 20 to 400 W And the angle 0 1 of the optical axis R1 with respect to the Y axis is set to 55°, and the second light source 30 is set to 400 W, and the angle 02 of the optical axis R2 with respect to the Y axis is set to 55° (total 56 kw), In both cases, an illumination of up to 16,000 lux is obtained in the capture area A' on the port side and the starboard side. Further, in the case shown in Fig. 16, the first light source 2 is set to 400 W, and the angle θ 1 of the light Han R1 with respect to the Y axis is set to 55. And the first light source 30 is not set to 400 W, and the angle 0 2 of the optical axis R2 with respect to the γ axis is set to 65° (total 56 kw) 'or as shown in Fig. 17, that is, 'will The first light source 20 is set to 400 W, and the angle of the optical axis R1 with respect to the Y axis (9 1 is set to 65° ' and the second light source 3 〇 is set to 4 ό〇 W, and the angle of the optical axis R2 is relative to the Y axis 0 2 is set to 65. (Total 56 kw) 'There is a tendency to increase the illumination of the light on the far side, ❹ Therefore, in the capture area A on the port side and the starboard side, the illumination is up to 8000 lux to 10,000 lux. However, as shown in FIG. 18, the first light source 2A is set to 4 〇〇W, and the angle 0 1 of the optical axis R1 with respect to the Y axis is set to 45. And setting the second light source 30 to 400 W and the angle 0 2 of the optical axis R2 with respect to the γ axis is set to 55° (total 56 kw). In this case, in the capture area A· on the port side and the starboard side Illumination of up to 16,000 lux can be obtained. Also, as shown in Fig. 19, the first light source 20 is set to 4 〇〇w, and 27 201012387 32104pif The angle 01 of the axis R1 with respect to the Y axis is set to 45°, and the second light source 30 is set to 400 W, and the angle Θ2 of the optical axis R2 with respect to the x-axis is set to 65° (total 56 kw), in which case The illumination level of up to 12,000 lux can be obtained in the capture area A' on the left side and the right side. Thus, the poly fish lamp 1 of the present invention is low in power but can be obtained in the capture area A'. Further, it can be seen that since the second light source 30 is irradiated farther than the first light source 20, even when the hull Ba is shaken left and right, sufficient illumination can be obtained in the capture area A' near the hull Ba. By making the angle 02 of the second light source 30 larger than the angle 0 of the first light source 20, the irradiation area A A2 arranged in a line becomes a region extending integrally from the vicinity of the hull Ba, and thus includes the capturing area A, A sufficient illuminance can be obtained from the inside to the far side, and it is not easy to be affected by the swaying of the hull Ba, and the efficiency of the fish can be improved. Furthermore, the analysis result is that the installation height of each of the fish lamps 1 is set. It is about 4 m, but it is confirmed The installation height of the fish lamp 1 is changed within a range of about 35 (five) to 4.5 m, and the same result as the above analysis result can be obtained. The fish lamp of the present invention and the ship having the fish lamp are not limited. In the above-mentioned implementation duties, (10) can be in the scope of *Linshu_

Various modifications are made in the above embodiments, so that the light sources 2A, 3〇: ai and A2 are arranged in a line so that one light source 2 〇 illuminates the ship side, and the other light source 30 is otherwise provided. The system 20, 3〇 is arranged in a farther way than the other side of the light, but for example, as shown in Fig. 28, 201012387 όζιχπρη, 'two or more light sources 2{), 3 to the other are 2 In this case, it is better to set the light source 20, 3G so that the respective illumination areas are illusory, and the respective optical axes R1 of A2 are set to 45 with respect to the Y axis. To 65..~No, ❹ In this way, 'two or more light sources Μ, 3 are irradiated to the same area A A2, so when the ship & B swings, the irradiation area Ah A2 moves and the light cannot be stably irradiated to the ship (4) In the nearby capturing area, but the light weight # from each light source 2〇, 3〇, the illuminance in the area is increased accordingly. Therefore, when the left and right shaking of the ship B is small, the lighting can be high. Irradiation of the capture area, which can further enhance the effect of poly fish. In the case of the shape, since the irradiation areas A1 and A2 of the respective light sources 20 and 30 can be changed to match each other, the configuration of the fish-fishing lamp 1 can be the same as that of the above-described respective embodiments. Further, in each of the above embodiments, the light sources 20 and 30' are rotatably provided, and the angles of the optical axes IU and R2 of the light sources 20 and 30 can be changed. However, the present invention is not limited thereto. For example, each of the light sources 20 may be provided. The illumination areas A1 and A2 of 30 are arranged in a row and connected or partially overlapped, and the postures of the light sources 20 and 30 are set and fixed. Further, as described above, the illumination areas A1 and A2 of the respective light sources 20 and 30 are used. In this case, the positions of the light sources 20 and 30 may be set and fixed so that the irradiation areas A and A2 overlap. Further, each of the light sources 20 and 30 is not limited to a mode in which the respective irradiation areas A1 and A2 are arranged in a line. Set, or set so that the respective illumination areas A1, A2 are identical, as long as the optical axes R1, R2 are at 29 201012387 relative to one

In the state of w, it is provided in a manner of extending in the up-and-down direction, and can be simultaneously extended to the water surface (the capturing area 6 mounting mechanism 10 is attached to the supporting material in the direction of the support material). In the above embodiments, The two light sources 20 and 30 are not limited thereto. For example, three or more light sources 20 and 3 may be provided. In this case, the light sources 2〇, 3G may of course also make the light axis illusion. R2 is provided so as to extend in a direction intersecting the Y-axis. In the above embodiments, the light source 2〇, 3〇 is used for a bulb in which a reflector (mirror) is disposed in a half of a bulb body. However, the present invention is not limited thereto, and may be a light projector type light source in which a reflector (reflective structure) for imparting directivity to light generated by the light emission of the light-emitting portions 22 and 32 is provided independently of the light bulb. That is, the emitter type poly fish lamp. However, if a light projector type light source is used, it may be affected by the wind due to the presence of the reflection structure, or the reflection structure may be damaged by the reflection efficiency due to moisture or salt, and If the front glass is provided to prevent the damage, the size of the front glass may increase or increase the weight. Therefore, as in the above embodiments, the light sources 20 and 30 (the light-emitting portions 22 and 32) are preferably used. = 轻 A lightweight and streamlined bulb provided with a reflecting film (mirror) on the inner surface of the bulb. Further, in the above embodiments, the other end portions of the light source bodies 21 and 31 are enlarged, and the bulb body 22 is enlarged. A part (base end side) of 33 is accommodated in the other end portion of the light source bodies 21 and 31. However, the present invention is not limited thereto. For example, substantially the entire bulb bodies 22 and 33 may be exposed. 30 201012387 In each of the above embodiments The light sources 20 and 30 are configured to be rotatable about an axis extending in a direction orthogonal or substantially orthogonal to the Y-axis. However, the present invention is not limited thereto. For example, it is also possible to use 2G or 3G light. The angles of the axis and the angle of R2 are set to a predetermined angle, and the respective light sources 2, 3 are placed on the holding mechanism 40.

In each of the above embodiments, the steel sill W as the branch material W is sandwiched between the pedestal body 100a and the two sheet members 101 and 102. However, the present invention is not limited thereto. For example, the pedestal line may be used. The _a and the sigmoid members 10 102 hold the cable w. Further, the mounting mechanism 1 does not limit the base 100 and the sheet members 101 and 1 2, and for example, the mounting mechanism 1 may be constituted by a clamp. Further, although the steel wire w is a continuation material w disposed on the hull Ba, it is determined by this, for example, the rod body is arranged to extend in the horizontal direction and is used as a support w to correspond to the poly fish. A plurality of rods in the vertical direction are disposed in the arrangement of the lamps 1. In other words, the mounting mechanism 1 may be appropriately changed as long as it is fitted to the shape of the support member W provided on the hull b as needed. In the above embodiments, the pair of holding mechanisms 40 are provided to hold the wires 20, 30 from both sides. However, the present invention is not limited thereto, and when a plurality of light sources 2, 3, are held as a holding mechanism 40. In each of the above embodiments, the respective light sources 20 and 30 are held by inserting the screws B2 inserted into the through holes of the rod portion 400 into the screw holes _ of the light sources 2, 3, but not limited thereto. Here, of course, for example, a convex portion may be provided on the arm member (the rod portion), and a concave portion for the convex portion may be provided on the light sources 20 and 30 (the light source main body 2b 31). The convex portion and the concave portion 31 201012387 32I04pif are combined to keep the light sources 2〇, 3〇. In the above embodiments, the holding mechanism 4G is suspended from the mounting mechanism 10 on the premise that the support member W is disposed on the hull Ba of the ship B, and is disposed below the mounting mechanism 1G. The two light sources are 2〇, 30′ but the secret is fixed here. The diligent rider w is inclined by the pumping bar or structure. Since the silk fish lamp i is fixed at a fixed position, it can also be kept. The mechanism 40 is extended upward by 2 from the mounting mechanism 10, and the light source 20, 30 is held by the holding mechanism above the mounting mechanism 1A. Further, in the case where the branch material W is composed of a person, it is needless to say that the sources 20 and 30 are disposed on the lower side of the mounting mechanism 1A as in the above-described embodiment. In the embodiment, the angle measuring mechanism 50 is provided. However, as shown in Fig. 21, the light source 2 〇 and % may be held by only the (four) 400 (holding mechanism 4 ()) without providing the angle measuring mechanism. In the above-described first embodiment, the lower end portion of the rod portion 4 is rotatably 401. However, the present invention is not limited thereto, and the end portion of the structure im01 is fixed to the middle portion of the rod portion 二The rod portion 400 is formed in a straight manner so that the rod portion_ is formed into a curved shape or a g shape, and the light source 2〇, 3〇 portion Γ is set at both end portions thereof. The connecting portion 401 is connected to any portion therebetween (for example, in the above embodiments, the mounting mechanism Η) is separately formed from the holding mechanism 40 201012387 Λ. V-rj^AA. The example institution 40 - Zhao Di formed. Further, the dressing mechanism 10 is configured to be in a phase-locked manner, but the rod portion 400 and the joint portion 4〇1 are integrally formed in the same manner as in the second embodiment. Although the purchase of 6 is based on the above, but its use to limit the invention's knowledge of any of the members of the company, without departing from the spirit and scope of the present invention, when it can be done a little more refinement, so The scope of protection of this invention is defined by the scope of the appended patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic side view of a ship to which a fish lamp according to a first embodiment of the present invention is attached. Fig. 2 is a perspective view showing the entire fish lamp of the first embodiment. Fig. 3 is an explanatory view of the fish lamp of the first embodiment, Fig. 3(a) shows a front view of the fish lamp, and Fig. 3(b) shows a side view of the fish lamp. Fig. 4 is a cross-sectional view showing a mounting portion of the fish lamp of the first embodiment. Fig. 5 is a view showing a state of use of the fish lamp of the first embodiment (stereo © Fig.). 6 is a schematic plan view for explaining an irradiation region of each light source of the fish-fishing lamp according to the first embodiment, wherein FIG. 6(U) shows a state in which the irradiation regions of the two light sources are partially overlapped, and FIG. 6(b) shows the two light sources. The state in which the irradiation area is close. Fig. 7 is a perspective view showing the entirety of a fish lamp according to a second embodiment of the present invention. Fig. 8 is an explanatory view of the fish lamp of the second embodiment. Fig. 8 U) Table 33 201012387 32104pif shows a front view of the fish lamp, and Fig. 8(b) shows a side view of the fish lamp. Fig. 9 is a result of illuminance distribution analysis of the previous poly fish lamp, and is an illuminance distribution diagram showing 3 kw x 30 x 2 lines. Fig. 10 is a result of analysis of the illuminance distribution of the previous poly fish lamp, and is an illuminance distribution chart showing 2.7 kw x 30 x 2 lines. Fig. 11 is a result of analysis of illuminance distribution of the previous poly fish lamp, and is an illuminance distribution diagram showing 30 kx x 2 lines. Fig. 12 is a view showing the result of illuminance distribution analysis of the poly fish lamp of the present invention, and shows that the first light source is 400 W and 0 1 is set to 45. And the second ® source is 700 W and set <9 2 to 65. The illuminance distribution of the fish light set to 35 盏 x 2 lines. Fig. 13 is a result of illuminance distribution analysis of the poly fish lamp of the present invention' and shows that the first light source is set to 400 W (9 1 is 45, and the second light source is 700 W and Θ 2 is 55). The illuminance distribution map when the poly fish lamp is set to 35 盏 x 2 rows. Fig. 14 is the result of illuminance distribution analysis of the poly fish lamp of the present invention' and indicates that the first light source is 400 W and 0 1 is set to 45. And the second ❹ light source is 400 W and the Θ 2 is 45. The illuminance distribution map is set to 35 盏 X2 rows. Fig. 15 is the result of illuminance distribution analysis of the poly fish lamp of the present invention' And it is an illumination distribution map when the first light source is 400 W and 0 1 is set to 55. The second light source is 400 W and the 02 is set to 55. The poly fish lamp is set to 35 x 2 lines. It is the result of the illuminance distribution analysis of the poly fish lamp of the present invention' 34 201012387 and means that the first light source is set to 400 W and set (9 1 is 55°, and the second light source is 400 W and set (9 2 is 65) The illuminance distribution map of the fish light of ° is set to 35 盏 x 2 rows. Fig. 17 is a result of illuminance distribution analysis of the fish finder lamp of the present invention, and This shows the illuminance distribution map when the first light source is 400 W and the 01 is set to 65°, and the second light source is 400 W and the 0 2 is 65° is set to 35 盏 x 2 lines. The result of the illuminance distribution analysis of the invented poly fish lamp is 聚 and indicates that the first light source is 400 W and the 0 1 is set to 45°, and the second light source is 400 W and the 02 is set to 55°. Fig. 19 is a result of illuminance distribution analysis of the poly fish lamp of the present invention, and shows that the first light source is 400 W and 0 1 is 45°, and the second The illuminance distribution map when the light source is 400 W and the fish lamp having the Θ2 of 65° is set to 35 盏 x 2 rows. Fig. 20 is a view showing the irradiation area of each light source of the poly fish lamp Q according to another embodiment of the present invention. Fig. 21 is a side view of a fishlight lamp according to another embodiment of the present invention. [Description of main components] 1 : Fishlight 10: Mounting mechanism 20: Light source (first light source) 30: Light source (second Light source) 2b 31: light source body 35 201012387 32104pif 22, 32: light-emitting part (bulb) 40 · keep Mechanism 40a: Arm member 50: Angle measuring mechanism 100: Base 100a: Base body 100b, 100b: Reinforcing portions 101, 102: Sheet member 103: Screw (fixing mechanism) 210, 310: Cylindrical portion 211, 311 : clogging portion 400 : shank portion 401 : connecting portion 401 a : fixing portion 401 b : connecting portion main body A A A : irradiation area A ′: capturing area B b B2 , B3 : screw S b S2 : screw hole H1 : through hole B : Ship Ba: Hull C: Steering chamber P1, P2: Holding position 201012387 FU, R2: Optical axis W: Steel cable (support material) Θ 1, 02: Angle

37

Claims (1)

201012387 32104pit VII. Patent Application Range: 1. A poly fish lamp, comprising: a mounting mechanism configured to be mounted on a support material disposed on a hull; two or more light sources; and a holding mechanism, The light is configured to be attached to the mounting mechanism and to hold the respective light sources; and each of the light sources is disposed such that the front axis extends straight in a direction that becomes a vertical direction in a state in which the mounting mechanism is attached to the support member. The direction of the cross is extended. 2. The poly fish lamp of claim 1, wherein the two or more light sources are arranged such that the illumination areas of each other are arranged in a row. 3. The poly fish lamp according to claim 1, wherein the two or more light sources are disposed such that the irradiation areas of the two are substantially identical. 4. The polyfish lamp of any one of claims 1 to 3, wherein each of the light sources is rotatably rotatable about an axis orthogonal or substantially orthogonal to the imaginary axis and the optical axis. Set up. 5. The poly squid lamp of any one of the above-mentioned claims, wherein the holding mechanism includes a stem extending in a direction opposite to the imaginary axis, and the stem is In the upper portion, the holding position of each light source is set to be spaced apart in the longitudinal direction. 6. A ship 'which is a support member provided on a hull and fitted with a fish-fishing lamp' is characterized in that: the above-mentioned fish-fishing lamp is as described in any one of items 1 to 5 of the patent application scope. Fishlights. 38