CN111237710A

CN111237710A - Underwater fishing lamp

Info

Publication number: CN111237710A
Application number: CN201910783675.0A
Authority: CN
Inventors: 黃向岸; 叶金樱; 蔡行平; 庄德江
Original assignee: Crystal Optoelectronics Xiamen Co Ltd
Current assignee: Crystal Optoelectronics Xiamen Co Ltd
Priority date: 2019-08-23
Filing date: 2019-08-23
Publication date: 2020-06-05
Anticipated expiration: 2039-08-23
Also published as: PH22020050405U1; TWI705218B; TW202108937A; PH22020050405Y1; CN111237710B

Abstract

The invention discloses an underwater fishing lamp, which comprises: a lamp holder, which is hollow tube-shaped and has an outer ring surface, an inner ring surface defining a hollow flow channel, a plurality of light source containing holes penetrating through the inner ring surface and the outer ring surface, and a plurality of convection holes penetrating through the inner ring surface and the outer ring surface and communicated with the hollow flow channel, wherein the diameter of the inner ring surface is D1, the diameter of the outer ring surface is D2, and the lamp holder conforms to the following relation: 0.65 ≦ D1/D2 ≦ 0.85; and a plurality of light source units, each light source unit is arranged in each light source accommodating hole. The lamp holder is designed into a hollow tube shape, so that the lamp holder has no internal and external pressure difference, thereby providing the pressure-resistant effect of the fish gathering lamp in 300 m water depth; in addition, the relation not only can provide the effect of pressure resistance, but also solves the problems that the ratio is too large, so that the lamp holder is too thin, the structural strength is not enough, and the ratio is too small, so that the lamp holder is too thick, and the weight is too heavy.

Description

Underwater fishing lamp

Technical Field

The invention relates to the field of fish gathering lamps, in particular to an underwater fish gathering lamp.

Background

As fish light systems are becoming more common in fisheries, there are a number of problems derived in addition to power output. At present, the mainstream fish gathering lamp emits light on a fishing boat and attracts fish shoals, and few designs can emit light at the operation depth of the fishing boat within 50 meters under water.

The seawater can be divided into a light-transmitting layer and a light-free layer according to the degree of light transmission. The euphotic layer is a region where light on the surface layer of the water body can reach and algae or plankton and the like can perform photosynthesis when the water body is irradiated by sunlight, the depth of the euphotic layer is influenced by the water quality of the water body, and the euphotic layer can be less than 1 meter in a chaotic water body; but can reach 50 meters to 100 meters, even 200 meters in clean water. When the depth reaches 200 meters, the visible light is almost completely absorbed, and the "illuminated area" within 200 meters is called the photic zone in oceanology. And depths up to 200 meters or more may be referred to as matte layers. However, fish schools are not always in the working depth of 50 meters under water, so that even if the power of the fish gathering lamp on water exceeds one kilowatt, the fish schools without light layers cannot be effectively attracted.

And if the underwater fish gathering lamp is required to absorb fish with the depth of 300 meters, the underwater fish gathering lamp can bear the water pressure of 30 atmospheres and avoid the damage caused by the seawater leakage in the lamp due to the pressure.

At present, underwater fish gathering lamps which emit light beyond 50 meters underwater are rarely seen on the market, and in addition, even the fish gathering lamps which exceed 50 meters of water depth have the power of only hundreds of watts or the light-emitting distance of about 10 meters, and the purpose of attracting fish schools at 300 meters of water depth cannot be achieved completely. In order to absorb fish shoal over 50 meters and even 300 meters deep, in addition to withstanding 300 meters of water pressure and water resistance, the following problems need to be considered: high power light emission of more than one kilowatt, light emitting distance of more than 20 meters, 360-degree light emitting visual angle and real-time switching of light sources in different wave bands.

Disclosure of Invention

The invention aims to provide an underwater fish gathering lamp which can resist pressure and water at a water depth of 300 meters.

Another object of the present invention is to provide an underwater fish gathering lamp which provides better heat dissipation efficiency.

In order to achieve the above object, the underwater fish gathering lamp according to the invention 1 comprises: a lamp holder, which is hollow tube-shaped and has an outer ring surface, an inner ring surface defining a hollow flow channel, a plurality of light source containing holes penetrating through the inner ring surface and the outer ring surface, and a plurality of convection holes penetrating through the inner ring surface and the outer ring surface and communicated with the hollow flow channel, so that the diameter of the inner ring surface is D1, the diameter of the outer ring surface is D2, and the following relations are satisfied: 0.65 ≦ D1/D2 ≦ 0.85; and a plurality of light source units, each light source unit is arranged in each light source accommodating hole.

The effects of the invention 1 are as follows: the lamp holder is designed into a hollow tube shape, so that the lamp holder has no internal and external pressure difference, thereby providing the pressure-resistant effect of the fish gathering lamp in 300 m water depth; in addition, the relation between the diameter D1 of the inner annular surface of the lamp holder and the diameter D2 of the outer annular surface is set to be 0.65 ≦ D1/D2 ≦ 0.85, which not only helps to provide the effect of pressure resistance of the fish gathering lamp at 300 meters water depth, but also solves the problems that the lamp holder is too thin due to too large ratio, the structural strength is not enough, and the lamp holder is too thick due to too small ratio, and the weight is too heavy.

Secondly, the lamp holder is designed to be hollow tube-shaped and provided with a hollow flow channel, and is matched with each convection hole design communicated with the hollow flow channel, when the fish gathering lamp is placed in seawater and the plurality of light source units emit light to generate a heat source, the seawater can be automatically driven to circulate, and a better heat dissipation effect is achieved.

The invention of claim 2 is an underwater fish gathering lamp comprising: at least two lamp holders, each lamp holder is hollow tubular and is mutually overlapped into a whole, and each lamp holder is provided with an outer ring surface, an inner ring surface which defines a hollow flow channel and a plurality of light source accommodating holes which penetrate through the inner ring surface and the outer ring surface; each light source unit is arranged in each light source accommodating hole and enables the total light source power of each light source unit of each lamp holder to reach at least one kilowatt, and each light source unit at least comprises a light source seat and a lamp panel; the light source seat is fixedly arranged in the light source accommodating hole of the lamp holder and is provided with a heat radiating part facing the hollow flow channel; the lamp panel is fixedly arranged on the light source seat.

The effects of the invention 2 are as follows: by the design that the total light source power of each light source unit of each lamp holder is at least one kilowatt, high-power luminous illumination is provided, and the fish gathering lamp can effectively attract fish when the water depth is 300 meters.

In addition, the light source base of each light source unit is provided with a heat dissipation part facing the hollow flow channel, so that when the fish gathering lamp is placed in seawater and the plurality of light source units emit light to generate heat sources, the fish gathering lamp can automatically drive the seawater to pass through the hollow flow channel, further contact each heat dissipation part and carry away the heat sources, and has a better heat dissipation effect.

The 3 rd invention is based on the 1 st and 2 nd inventions, wherein the cross section of the outer ring surface of the lamp holder is hexagonal, heptagonal or octagonal. Thereby increasing the structural strength of the force in different directions borne by the unit area and improving the pressure-resistant effect of the fish gathering lamp in the water depth of 300 meters.

The 4 th invention is based on the 1 st or 2 nd invention, wherein the lamp holder is made of plastic material. Thereby providing light weight and corrosion resistance.

The invention 5 is based on the invention 1 or 2, wherein the plurality of light source units are arranged in a plurality of circles of concentric circles, and each light source unit of each circle is electrically connected in series, and the underwater fish gathering lamp further comprises a plurality of conductive strips, each conductive strip is embedded in the lamp holder in an insulated manner and is electrically connected in parallel with each light source unit of each circle. The design of the conductive strips can increase the number of the lamp holders of the invention to be suitable for tens of thousands of power and current.

The 6 th invention is based on the 5 th invention, wherein the underwater fish gathering lamp further comprises a single power cable, the power cable comprises a plurality of mutually insulated conductive wires, and each conductive wire is electrically connected with each conductive strip. By the design of a single power cable, each conductive wire can be protected and is not easy to damage.

The 7 th invention is based on the 1 st invention, wherein each of the plurality of light source units at least has a light source base and a light panel; the light source seat is fixedly arranged in the light source accommodating hole of the lamp holder and is provided with a heat radiating part facing the hollow flow channel; the lamp panel is fixedly arranged on the light source seat. By the design of the heat dissipation part facing the hollow flow channel on the light source seat of each light source unit, the fish gathering lamp can automatically drive seawater to pass through the hollow flow channel when being placed in seawater and the plurality of light source units emit light to generate heat sources, and further contact each heat dissipation part and carry away the heat sources, thereby having better heat dissipation effect.

The 8 th invention is based on the 1 st invention, wherein the diameter of the inner ring surface is D1, and the diameter of the outer ring surface is D2, wherein the fish gathering lamp further satisfies the following relation: 0.70 ≦ D1/D2 ≦ 0.8. Borrow this preferred restriction more can help providing this fishing lamp outside 300 meters deep water withstand voltage's effect, solve the ratio too big simultaneously and make the lamp stand too thin cause structural strength not enough, the ratio is too little makes the lamp stand too thick make the problem that weight is overweight.

The 9 th invention is based on the 1 st and 7 th inventions, wherein each light source fixed on the lamp panel is a light emitting diode with a lens package. The fish gathering lamp is beneficial to providing the light-emitting distance of more than 20 meters, and the purpose of effectively attracting fish shoals when the water depth is 300 meters is achieved.

The 10 th invention is based on the 2 nd and 7 th inventions, wherein the light sources fixed on the lamp panel are light sources with two different wavelengths. Therefore, the light sources with different wavelengths are switched according to requirements to attract different fish schools.

The 11 th invention is based on the 2 nd and 7 th inventions, wherein each of the light source units further comprises a reflective cup, a light-gathering shade and a pressing plate; the light reflecting cup is fixedly arranged on the lamp panel and is provided with a light reflecting cup part sleeved on each light source of the lamp panel, and a first waterproof space for filling glue is formed between the light reflecting cup part and the accommodating part of the light source seat; the light-gathering cover is arranged in the accommodating part of the light source seat and is provided with a covering part and a light-gathering part, the covering part is hermetically covered on the covering part of the light-reflecting cup part, a second waterproof space for filling glue is formed between the covering part and the accommodating part of the light source seat, and the light-gathering part is formed on the covering part and is positioned on the light path generated by each light source; the pressing plate is fixedly arranged in the accommodating part of the light source seat and is provided with a pressing part which presses against the covering part and a through hole through which the light-gathering part penetrates. The light emitting diode with lens package is matched to make the light source converge to a conical light path within 20 degrees, so that the light emitting distance reaches more than 20 meters. Meanwhile, the light source unit has better waterproof and pressure-resistant effects.

The 12 th invention is based on the 1 st and 2 nd inventions, further comprising an ultrasonic generator disposed below the lamp holder. Thereby replacing the shot ball to attract fish with water depth over 300 meters.

The 13 th invention is based on the 1 st and 2 nd inventions, wherein the lamp holders are plural, the lamp holders are mutually overlapped to form a whole, and a reinforcing member is arranged at the overlapping position of every two lamp holders. Thereby increasing the stability of the lamp holder stacking.

The 14 th invention is based on the 1 st and 2 nd inventions, wherein the underwater fish gathering lamp further comprises an upper cover and a lower cover, the upper cover and the lower cover are respectively fixed at the upper end and the lower end of each lamp holder after being overlapped, the upper cover is provided with a plurality of upper penetrating parts, the lower cover is provided with a plurality of lower penetrating parts, the inner ring surface of each lamp holder is convexly provided with a plurality of serial rings, each serial ring is penetrated by a bolt, and two ends of each bolt are respectively penetrated and fixed at the upper penetrating parts and the lower penetrating parts. Thereby increasing the stability of the lamp holder stacking.

The 15 th invention is the fish gathering lamp according to the 2 nd or 7 th invention, which is adapted to be installed in seawater, wherein the heat radiating portion of the lamp holder of each light source unit is in contact with seawater. Thereby providing a better heat dissipation effect.

The 16 th invention is based on the 2 nd and 7 th inventions, wherein the heat dissipation part of the lamp holder of each light source unit is a fin structure. Thereby providing a better heat dissipation effect.

The 17 th invention is based on the 1 st and 2 nd inventions, wherein the number of the lamp holders is two, three or six. Thereby providing higher power illumination or reducing the weight of the underwater fish gathering lamp.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is a partial exploded perspective view of an embodiment of the present invention;

FIG. 3 is a cross-sectional view of an embodiment of the present invention, showing a longitudinal cross-sectional state of a fish gathering lamp;

FIG. 4 is a cross-sectional view of an embodiment of the present invention, showing a first transverse cross-sectional state of the fish gathering lamp;

FIG. 5 is a cross-sectional view of an embodiment of the present invention, showing a fish gathering lamp in a second transverse partial cross-sectional state;

fig. 6 is a cross-sectional view of an embodiment of the present invention, showing a lamp socket in a transverse cross-sectional state;

FIG. 7 is a cross-sectional view of an embodiment of the present invention, showing a cross-sectional state of a light source unit;

FIG. 8 is a sectional view of an embodiment of the present invention, showing a fish gathering lamp in a partially sectional state;

fig. 9 is a side view of a second embodiment of the present invention, showing a fish gathering lamp in a state of being composed of six lamp sockets;

fig. 10 is a side view of a third embodiment of the present invention, showing a fish gathering lamp composed of two lamp holders.

Detailed Description

Before beginning the detailed description of the invention, reference will first be made explicitly to the accompanying drawings in which:

an underwater fish gathering lamp 1; a lamp socket 10; an outer annular surface 11; a hollow flow passage 12; an inner annular surface 13; a light source accommodating hole 14; a convection hole 15; diameters D1, D2; a serial ring 16; a light source unit 20; a light source mount 21; a heat dissipation portion 212; a receptacle 213; a lamp panel 22; a light source 221; a light-reflecting cup 23; a reflective cup portion 231; a condenser cover 24; a covering portion 241; a light-condensing section 242; a platen 25; a pressing portion 251; a through-hole 252; a first waterproof space 26; a second waterproof space 27; an electrical wire 28; a plastic sheath 29; an upper cover 31; an upper insertion portion 311; a lower cover 32; a lower puncture part 321; a reinforcement member 36; a bolt 37; a wire casing cover 38; a conductive strip 39; a power cable 41; a conductive line 411; a cover plate 42; an insulating space 421; a waterproof joint 43; a stainless steel block 44; a stainless steel wire sheath 45; a silicone sleeve 46; a guard plate 48; and an ultrasonic generator 49.

Referring to fig. 1 to 8, an underwater fish gathering lamp 1 according to an embodiment of the present invention includes three lamp holders 10, a plurality of light source units 20, an upper cover 31, and a lower cover 32, wherein:

as shown in fig. 6, each of the lamp sockets 10 is hollow and tubular and is stacked into a whole, and each of the lamp sockets has an outer annular surface 11, an inner annular surface 13 defining a hollow flow channel 12, a plurality of light source accommodating holes 14 penetrating through the inner and outer annular surfaces 13, 11, and a plurality of convection holes 15 penetrating through the inner and outer annular surfaces 13, 11 and communicating with the hollow flow channel 12, such that the diameter of the inner annular surface 13 is D1, the diameter of the outer annular surface 11 is D2, and the following relationships are satisfied: the D1/D2 is 192 mm/250 mm is 0.768, but not limited to this, as long as the design is 0.65 ≦ D1/D2 ≦ 0.85, or the design can be preferably limited to 0.70 ≦ D1/D2 ≦ 0.8, which is helpful to provide the fish gathering lamp with the effect of withstanding pressure at 300 m water depth, and at the same time, solve the problem that too large ratio makes the socket too thin, which results in insufficient structural strength, and too small ratio makes the socket too thick, which results in too heavy weight.

In addition, in the embodiment, the cross section of the outer annular surface 11 of the lamp holder 10 is a heptagon, and the diameter D2 of the outer annular surface 11 means the diameter of a circumcircle of the outer annular surface of the heptagon. Similarly, the cross section of the outer ring surface 11 of the lamp holder 10 is not limited to a heptagon, and both a hexagon and an octagon can increase the structural strength of the unit area for bearing forces in different directions, thereby improving the pressure resistance effect of the fish gathering lamp in 300 m water depth. Furthermore, the lamp socket 10 is made of plastic material in this embodiment, so as to provide the effects of light weight and corrosion resistance. As shown in fig. 3, a reinforcement 36 is disposed between the inner ring and the outer ring of the overlapping portion of every two lamp sockets 10. Thereby increasing the stability of the lamination of the lamp holder 10. Finally, an ultrasonic generator 49 is provided below the lamp holder 10 to replace the shot ball for attracting fish in the depth of over 300 meters.

Each light source unit 20 is disposed in each light source accommodating hole 14, and the total light source power of each light source unit 20 of each lamp holder 10 is at least one kilowatt, in this embodiment, the total light source power of each light source unit 20 on each lamp holder 10 is one thousand, eight and hundred watts, and the total light source power of each light source unit 20 of each circle is nine hundred watts, which are arranged in two circles and can be switched concentrically.

In addition, as shown in fig. 4 and fig. 7, each of the light source units 20 has a light source base 21, a lamp panel 22, a reflector cup 23, a condenser 24 and a pressing plate 25; the light source base 21 is fixed in the light source accommodating hole 14 of the lamp holder 10, and has a heat dissipating portion 212 which is disposed at one side of the light source base 21 and faces the hollow flow channel 12 and is in the form of a fin, and an accommodating portion 213 disposed at the other side of the light source base 21; the lamp panel 22 is fixed to the accommodating portion 213, and each light source 221 fixed to the lamp panel 22 is a light source 221 with two different wavelengths (green light and red light), in this embodiment, the light source 221 is a light emitting diode with a lens package; the reflector 23 is fixed on the lamp panel 22, and has a reflector 231 sleeved on each light source 221 of the lamp panel 22, and a first waterproof space 26 for filling glue is formed between the reflector 231 and the accommodating portion 213 of the light source base 21; the light-gathering cover 24 is disposed in the accommodating portion 213 of the light source seat 21, and has a covering portion 241 and a light-gathering portion 242, the covering portion 241 is hermetically covered on the covering portion 241 of the reflective cup portion 231, a second waterproof space 27 for filling glue is formed between the covering portion 241 and the accommodating portion 213 of the light source seat 21, and the light-gathering portion 242 is formed on the covering portion 241 and located on the light path generated by each light source 221; the pressing plate 25 is fixed to the accommodating portion 213 of the light source base 21, and has a pressing portion 251 for pressing against the covering portion 241, and a through hole 252 for the light-gathering portion 242 to pass through. Furthermore, in the present embodiment, two waterproof rings 201 are further provided, wherein one waterproof ring 201 is disposed between the spotlight 24 and the pressing plate 25, and the other waterproof ring 201 is disposed between the pressing plate and the light source base, which is helpful for preventing seawater from penetrating into the light source unit 20.

The upper cover 31 and the lower cover 32 are respectively fixed to the upper and lower ends of the lamp sockets 10 after being overlapped with each other. In order to make the lamp holders 10 of the fish lamp stacked more stably, the upper cover 31 is designed with a plurality of upper penetrating portions 311, the lower cover 32 is designed with a plurality of lower penetrating portions 321 corresponding to the upper penetrating portions 311, and the inner annular surface 13 of each lamp holder 10 is convexly provided with a plurality of serial rings 16, each serial ring 16 is penetrated by a bolt 37, and both ends of each bolt 37 are respectively penetrated and fixed on the upper penetrating portions 311 and the lower penetrating portions 321, so that the stacked position of each two lamp holders 10 is made more stable by the penetrating and positioning action of the bolt 37 in addition to the stability increase of the reinforcing member 36.

In the embodiment, the number of the lamp holders 10 on the underwater fish gathering lamp 1 is three, and the lamp holders 10 are overlapped; however, the number of the lamp sockets 10 is not limited to three. Referring to fig. 9, in the second embodiment, the number of the lamp holders 10 on the underwater fish gathering lamp 1 is six, and the lamp holders 10 are overlapped with each other to form a whole; by providing more sockets 10, the present embodiment can provide ten thousand and eight hundred watts of power. Referring to fig. 10, in the third embodiment, the number of the lamp holders 10 on the underwater fish gathering lamp 1 is two, and the two lamp holders 10 are overlapped with each other to form a whole; by providing a smaller number of light holders 10 to reduce the weight of the underwater fish gathering light 1, the present embodiment can provide three thousand, six hundred watts of power.

The foregoing is a description of the structure and configuration of the main components of the embodiments of the present invention. The invention has the following effects:

firstly, the underwater fish gathering lamp 1 has better pressure resistance. Because the lamp holder 10 is designed into a hollow tube shape, the lamp holder 10 has no internal and external pressure difference and can be integrally formed, thereby providing the pressure-resistant effect of the fish lamp in the water depth of 300 meters; in addition, the cross section of the outer ring surface 11 of the lamp holder 10 is designed to be heptagonal, so that the structural strength of different directions of force borne by a unit area is increased, and the effect of improving the pressure resistance of the fish gathering lamp at 300 meters water depth is achieved; secondly, the relation between the diameter D1 of the inner ring surface 13 of the lamp holder 10 and the diameter D2 of the outer ring surface 11 is set as D1/D2 being 192 mm/250 mm being 0.768, which not only can provide the effect of pressure resistance of the fish gathering lamp at 300 meters water depth, but also solves the problems that the ratio is too large, the lamp holder is too thin, the structural strength is not enough, the ratio is too small, the lamp holder is too thick, and the weight is too heavy.

Secondly, the underwater fish gathering lamp 1 has better waterproofness. Since each light source unit 20 is disposed in each light source accommodating hole 14 of the lamp holder 10, and the light source units 20 are internally designed with the first and second

waterproof spaces

26 and 27 for potting, each light source unit 20 has an independent waterproof design of a single light source 221, and has a better waterproof effect.

Thirdly, the underwater fish gathering lamp 1 has a good heat dissipation effect. By designing the lamp holder 10 to be hollow tube-shaped with a hollow flow channel 12 and matching with the design of each convection hole 15 communicated with the hollow flow channel 12, when the fish gathering lamp is placed in seawater and the plurality of light source units 20 emit light to generate a heat source, seawater circulation can be automatically driven, and a better heat dissipation effect is achieved. Meanwhile, the light source base 21 of each light source unit 20 has a heat dissipation portion 212 designed to face the hollow flow channel 12, so that when the fish lamp is placed in seawater and the plurality of light source units 20 emit light to generate heat sources, the fish lamp can automatically drive the seawater to pass through the hollow flow channel 12, and further contact each heat dissipation portion 212 and carry away the heat sources, thereby having a better heat dissipation effect.

It should be noted that, referring to fig. 2, 4, 5, 6 and 9, the electrical connection of the light source unit 20 according to the embodiment of the present invention is described as follows. In this embodiment, the light source units 20 are arranged on each lamp holder 10 in two circles in a concentric circle, each light source unit 20 of each circle is electrically connected to the lamp panel 22 through the electric wire 28, and is protected from water and by the plastic sheath 29, and the light source units 20 are electrically connected in series and protected by the wire slot cover 38, and are buried in the lamp holder 10 in an insulated manner by using three conductive bars 39 (i.e. copper bars) and are electrically connected in parallel with the electric wires 28 of each light source unit 20 of each circle, and finally, a single power cable 41 is arranged on the upper cover 31, and the power cable 41 includes a plurality of conductive wires 411 insulated from each other, and each conductive wire 411 is electrically connected to each conductive bar 39, so as to complete the electrical connection of each light source unit 20.

The above-mentioned conducting strips 39 are embedded in the lamp socket 10 in an insulated manner, and mainly two cover plates 42 are disposed on the lamp socket 10, three conducting strips 39 can be disposed between the two cover plates 42, and the conducting strips 39 and the wires 28 of the light source units 20 are electrically connected to the conducting strips 39, and meanwhile, an insulating space 421 for glue filling is disposed between the two cover plates 42, so that the conducting strips 39 and the wires 28 have insulating and waterproof effects. Finally, the cover 48 is disposed.

Referring to fig. 8, the single power cable 41 disposed on the upper cover 31 can be threaded through a waterproof joint 43, a stainless steel block 44 and a stainless steel wire sheath 45 are sleeved outside the waterproof joint 43, glue is filled between the stainless steel block 44 and the stainless steel wire sheath 45 and the waterproof joint 43 to improve the waterproof property, and a silica gel sleeve 46 is sleeved outside the single power cable 41 to further improve the waterproof property.

The foregoing describes a number of different embodiments in accordance with the present invention, in which the various features may be implemented in single or in various combinations. Therefore, the present invention is disclosed as illustrative embodiments which illustrate the principles of the present invention and should not be construed as limiting the invention to the disclosed embodiments. Furthermore, the foregoing description and the accompanying drawings are only illustrative of the present invention and are not intended to limit the present invention. Variations or combinations of the other components are possible without departing from the spirit and scope of the invention.

Claims

1. An underwater fish gathering light comprising:

a lamp holder, which is hollow tube-shaped and has an outer ring surface, an inner ring surface defining a hollow flow channel, a plurality of light source containing holes penetrating through the inner ring surface and the outer ring surface, and a plurality of convection holes penetrating through the inner ring surface and the outer ring surface and communicated with the hollow flow channel, so that the diameter of the inner ring surface is D1, the diameter of the outer ring surface is D2, and the following relations are satisfied: 0.65 ≦ D1/D2 ≦ 0.85; and

a plurality of light source units, each light source unit is arranged in each light source accommodating hole.

2. An underwater fish gathering light comprising:

at least two lamp holders, each lamp holder is hollow tubular and is mutually overlapped into a whole, and each lamp holder is provided with an outer ring surface, an inner ring surface which defines a hollow flow channel and a plurality of light source accommodating holes which penetrate through the inner ring surface and the outer ring surface; and

each light source unit is arranged in each light source accommodating hole, the total light source power of each light source unit of each lamp holder is at least one kilowatt, and each light source unit at least comprises a light source seat and a lamp panel; the light source seat is fixedly arranged in the light source accommodating hole of the lamp holder and is provided with a heat radiating part facing the hollow flow channel; the lamp panel is fixedly arranged on the light source seat.

3. An underwater fish gathering lamp as claimed in claim 1 or 2, wherein the cross-section of the outer annular surface of the lamp holder is hexagonal, heptagonal or octagonal.

4. The underwater fish gathering lamp as recited in claim 1 or 2, wherein the lamp holder is made of plastic.

5. The underwater fish gathering lamp as claimed in claim 1 or 2, wherein the plurality of light source units are arranged in a plurality of circles of concentric circles, and the light source units of each circle are electrically connected in series, the underwater fish gathering lamp further comprising a plurality of conductive strips, each conductive strip being insulatively embedded in the lamp holder and electrically connected in parallel with each light source unit of each circle.

6. The underwater fish gathering lamp as recited in claim 5, wherein the underwater fish gathering lamp further comprises a single power cable, the power cable comprises a plurality of conductive wires insulated from each other, and each conductive wire is electrically connected to each conductive strip.

7. The underwater fish gathering lamp as claimed in claim 1, wherein the plurality of light source units each have at least one light source base and a light panel; the light source seat is fixedly arranged in the light source accommodating hole of the lamp holder and is provided with a heat radiating part facing the hollow flow channel; the lamp panel is fixedly arranged on the light source seat.

8. The underwater fish gathering lamp as recited in claim 1, wherein the inner annular surface has a diameter of D1 and the outer annular surface has a diameter of D2, wherein the fish gathering lamp further satisfies the following relationship: 0.70 ≦ D1/D2 ≦ 0.8.

9. An underwater fish gathering lamp as claimed in claim 2 or 7, wherein the light sources fixed on the lamp panel are light emitting diodes with lens package.

10. An underwater fish gathering lamp as claimed in claim 2 or 7, wherein the light sources fixed on the lamp panel are light sources with two different wavelengths.

11. The underwater fish gathering lamp as recited in claim 2 or 7, wherein each of the light source units further has a reflector cup, a light-gathering shade and a pressing plate; the light reflecting cup is fixedly arranged on the lamp panel and is provided with a light reflecting cup part sleeved on each light source of the lamp panel, and a first waterproof space for filling glue is formed between the light reflecting cup part and the accommodating part of the light source seat; the light-gathering cover is arranged in the accommodating part of the light source seat and is provided with a covering part and a light-gathering part, the covering part is hermetically covered on the covering part of the light-reflecting cup part, a second waterproof space for filling glue is formed between the covering part and the accommodating part of the light source seat, and the light-gathering part is formed on the covering part and is positioned on the light path generated by each light source; the pressing plate is fixedly arranged in the accommodating part of the light source seat and is provided with a pressing part which presses against the covering part and a through hole through which the light-gathering part penetrates.

12. The underwater fish gathering lamp as recited in claim 1 or 2, further comprising an ultrasonic generator disposed below the lamp holder.

13. The underwater fish gathering lamp as claimed in claim 1 or 2, wherein the lamp holders are stacked one on another, and a reinforcing member is provided at the stacked position of every two lamp holders.

14. The underwater fish gathering lamp as claimed in claim 1 or 2, wherein the underwater fish gathering lamp further comprises an upper cover and a lower cover, the upper cover and the lower cover are respectively fixed at the upper end and the lower end of the lamp holders after being overlapped with each other, the upper cover has a plurality of upper penetrating portions, the lower cover has a plurality of lower penetrating portions, and a plurality of serially-connected rings are protruded from the inner circumferential surface of the lamp holders, each serially-connected ring is penetrated by a bolt, and both ends of each bolt are respectively penetrated and fixed at the upper penetrating portions and the lower penetrating portions.

15. An underwater fish gathering lamp as claimed in claim 2 or 7, adapted to be installed in seawater, wherein the heat radiating part of the lamp holder of each of the light source units is in contact with seawater.

16. The underwater fish gathering lamp as claimed in claim 2 or 7, wherein the heat dissipating part of the lamp holder of each light source unit is a fin structure.