CN219674156U - Deep sea LED fish-attracting lamp - Google Patents

Abstract

The utility model relates to the technical field of lighting auxiliary equipment, and provides a deep-sea LED fish-attracting lamp, which comprises: the heat dissipation cylinder is internally provided with a water-cooling exchange through hole; the transparent tube is sleeved outside the heat dissipation cylinder; the LED light source is fixedly arranged on the radiating cylinder; the first sealing end cover is fixedly arranged at the bottoms of the radiating cylinder and the transparent tube; the second sealing end cover is fixedly arranged at the tops of the radiating cylinder and the transparent tube; the sealing support is fixedly connected with the second sealing end cover; the lamp cap is fixedly connected with the sealing support, and the lamp cap is connected with the LED light source through wires. The utility model has the advantages that: the deep-sea LED fish-attracting lamp is placed in sea water, water is in contact with the transparent tube for heat dissipation and cooling, and water flows to the water-cooling exchange through hole to be in contact with the inner wall of the heat dissipation barrel for heat dissipation and cooling, so that the heat dissipation performance is improved.

Description

Deep sea LED fish-attracting lamp

Technical Field

The utility model relates to the technical field of lighting auxiliary equipment, in particular to a deep-sea LED fish-attracting lamp.

Background

Fishing by light attraction is a popular method of operation in the fishing industry, particularly in the ocean fishing industry. The fish-attracting lamp is an indispensable product in the light fish-attracting operation mode, and mainly utilizes the phototactic characteristic of some fishes to collect the fishes through light emission. Fish traps have undergone product updates from kerosene, incandescent, halogen to metal halogen, in fact following the history of human electric light sources.

The metal halide lamp, namely the metal halide lamp, has fragile parts such as a glass bulb, a filament and the like, adopts the surface of the lamp to contact seawater for heat dissipation in the aspect of a heat dissipation structure, and has poor heat dissipation performance. The utility model patent of publication number CN2196734Y, for example, discloses an underwater lamp, and specifically discloses a lamp comprising a connector, a lamp holder, a bulb and a bulb protecting cover. The lamp cover is arranged on the lamp holder, and a lamp bulb protection cover is arranged below the lamp cover; the lamp shade and the bulb protecting cover are both provided with structures which can be used for water inflow and enabling water to directly contact with the bulb so as to cool the bulb. The lamp shade is provided with a plurality of water inlet holes. The bulb protecting cover is made of transparent glass, and has small water inlet and outlet holes in its side and lower part, and protecting frame for preventing water corrosion and collision. In addition, the bulb protecting cover can also be made of water corrosion resistant materials, and consists of a silk screen which can be used for water inflow and does not block light and a protecting cover framework. The patent document only contacts water on the surface of the bulb to perform heat dissipation and cooling, and the heat dissipation performance is poor. Therefore, a fish-attracting lamp with high heat dissipation performance is needed.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the deep-sea LED fish-attracting lamp, wherein water not only contacts a transparent cover to perform heat dissipation and cooling, but also flows into a water cooling exchange through hole to contact the inner wall of a heat dissipation barrel to perform heat dissipation and cooling, so that the heat dissipation performance is improved.

The utility model is realized in the following way: a deep sea LED fish trap lamp comprising:

the heat dissipation cylinder is internally provided with a water-cooling exchange through hole;

the transparent tube is sleeved outside the heat dissipation cylinder, and a cavity is formed between the transparent tube and the heat dissipation cylinder;

the LED light source is fixedly arranged on the radiating cylinder and is positioned in the cavity;

the first sealing end cover is fixedly arranged at the bottoms of the radiating cylinder and the transparent tube, a first water flow hole is formed in the first sealing end cover, and the first water flow hole is communicated with the water cooling exchange through hole;

the second sealing end cover is fixedly arranged at the top of the radiating cylinder and the transparent pipe, a second water flow hole and a lower wiring through hole are formed in the second sealing end cover, the second water flow hole is communicated with the water cooling exchange through hole, and the lower wiring through hole is communicated with the cavity;

the sealing support is fixedly connected with the second sealing end cover, a third water flow hole is formed in the side wall of the sealing support, the third water flow hole is communicated with the second water flow hole, an upper wiring through hole is formed in the top end of the sealing support, and the upper wiring through hole is communicated with the lower wiring through hole;

the lamp cap is fixedly connected with the sealing support, the lamp cap is connected with the LED light source through wires, and the wires penetrate through the upper wiring through hole and the lower wiring through hole to enter the cavity.

Further, the method further comprises the following steps: the waterproof lamp holder is in locking connection with the lamp cap through threads and also sleeves the sealing support, and a wire inlet hole is formed in the top of the waterproof lamp holder.

Further, the method further comprises the following steps: the first water flow hole, the second water flow hole and the water cooling exchange through hole are all arranged in the vertical direction, and the third water flow hole is arranged in the horizontal direction.

Further, the LED light source is a fluorescent ceramic light source.

Further, the transparent tube is a glass tube.

Further, the second sealing end cover and the sealing support are integrally formed through a precision casting mold.

Further, the method further comprises the following steps: the lamp cap is provided with an extension section, a wiring cavity is arranged in the extension section, and the wiring cavity is communicated with the upper wiring through hole.

Further, the method further comprises the following steps: waterproof circle, fastening piece and fastening screw, waterproof circle be in waterproof lamp stand with between the seal support, the fastening piece support in waterproof circle and the bottom of waterproof lamp stand, fastening screw passes the fastening piece still with waterproof lamp stand locking connection.

Further, the method further comprises the following steps: the protection cage is fixedly connected with the bottom of the waterproof lamp holder;

the transparent tube is located inside the protective cage.

Further, the method further comprises the following steps: and the balancing weight is fixedly connected with the bottom of the protection cage.

The utility model has the advantages that: 1. the deep-sea LED fish-attracting lamp is placed in sea water, water is in contact with the transparent tube for heat dissipation and cooling, and the water cannot enter the cavity due to sealing and waterproofing, so that the LED light source is protected, the water flows among the first water flow hole, the second water flow hole, the third water flow hole and the water-cooling exchange through hole, flows to the water-cooling exchange through hole to contact the inner wall of the heat dissipation barrel for heat dissipation and cooling, heat dissipation performance is improved, and the LED light source with higher power can be used. 2. The water flow holes and the wiring through holes are mutually isolated, so that the electricity utilization safety is ensured. 3. The lamp holder and the lamp cap are directly detachable, and waterproof treatment is carried out, so that electric leakage is avoided.

Drawings

The utility model will be further described with reference to examples of embodiments with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of the deep sea LED fish trap lamp of the present utility model.

Fig. 2 is a cross-sectional view taken along the direction A-A in fig. 1.

Fig. 3 is a bottom view of fig. 1.

Fig. 4 is a schematic diagram of a deep-sea LED fish trap lamp according to the present utility model.

Fig. 5 is a schematic diagram of fig. 4 in semi-section.

Fig. 6 is a schematic diagram III of the deep sea LED fish attracting lamp of the present utility model.

Fig. 7 is a sectional view in the direction B-B of fig. 6.

Fig. 8 is a top view of fig. 6.

Fig. 9 is a schematic perspective view of a deep sea LED fish trap lamp of the present utility model.

Reference numerals: a heat radiation cylinder 1; a water-cooling exchange through hole 11; a transparent tube 2; a cavity 21; an O-ring seal 22; a port seal ring 23; an LED light source 3; a first seal end cap 4; a first water flow hole 41; a second seal end cap 5; a second water flow hole 51; a lower wiring through hole 52; a seal holder 6; a third water flow hole 61; an upper wiring through hole 62; a lamp base 7; an extension 71; a wiring cavity 72; a waterproof lamp holder 8; a wire inlet hole 81; a waterproof nut 82; a waterproof ring 9; a fastening tab 91; a fastening screw 92; a protective cage 10; weight 20.

Detailed Description

The embodiment of the utility model overcomes the defect of poor heat dissipation performance of the fish-trap lamp in the background technology by providing the deep-sea LED fish-trap lamp, realizes that water not only contacts the transparent cover to conduct heat dissipation and cooling, but also contacts the inner wall of the heat dissipation barrel at the water cooling exchange through hole to conduct heat dissipation and cooling, and improves the technical effect of heat dissipation performance.

The general idea of the technical scheme of the embodiment of the utility model is as follows:

the LED light source is arranged in a cavity between the transparent tube and the radiating tube, a water cooling exchange through hole is formed in the radiating tube, a first sealing end cover and a second sealing end cover are respectively and fixedly arranged at the bottoms and the tops of the radiating tube and the transparent tube, and a sealing support and a lamp cap are also fixedly arranged above the second sealing end cover.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 9, a preferred embodiment of the present utility model.

A deep sea LED fish trap lamp comprising:

the heat dissipation cylinder 1 is internally provided with a water-cooling exchange through hole 11;

the transparent tube 2 is sleeved outside the heat dissipation cylinder 1, and a cavity 21 is formed between the transparent tube 2 and the heat dissipation cylinder 1;

the LED light source 3 is fixedly arranged on the heat dissipation cylinder 1 and is positioned in the cavity 21; the light emitted by the LED light source 3 is emitted outwards through the transparent tube 2 to attract fish in the sea.

The first sealing end cover 4 is fixedly arranged at the bottoms of the heat radiating cylinder 1 and the transparent tube 2, the first sealing end cover 4 is provided with a first water flow hole 41, and the first water flow hole 41 is communicated with the water cooling exchange through hole 11;

the second sealing end cover 5 is fixedly arranged at the top of the heat radiating cylinder 1 and the transparent tube 2, a second water flow hole 51 and a lower wiring through hole 52 are formed in the second sealing end cover 5, the second water flow hole 51 is communicated with the water cooling exchange through hole 11, and the lower wiring through hole 52 is communicated with the cavity 21; an O-shaped sealing ring 22 is arranged between the heat dissipation cylinder 1 and the transparent tube 2, and a port sealing ring 23 is arranged at the joint of the first sealing end cover 4, the heat dissipation cylinder 1 and the transparent tube 2.

The sealing support 6 is fixedly connected with the second sealing end cover 5, a third water flow hole 61 is formed in the side wall of the sealing support 6, the third water flow hole 61 is communicated with the second water flow hole 51, an upper wiring through hole 62 is formed in the top end of the sealing support 6, and the upper wiring through hole 62 is communicated with the lower wiring through hole 52; the water flow holes and the wiring through holes are mutually isolated, so that the electricity utilization safety is ensured.

The lamp cap 7 is fixedly connected with the sealing support 6, the lamp cap 7 is connected with the LED light source 3 through wires, and the wires penetrate through the upper wiring through holes 62 and the lower wiring through holes 52 to enter the cavity 21.

The deep-sea LED fish-attracting lamp is placed in sea water, water is in contact with the transparent tube 2 for heat dissipation and cooling, and water cannot enter the cavity 21 due to sealing and waterproofing, so that the LED light source 3 is protected, water flows among the first water flow hole 41, the second water flow hole 51, the third water flow hole 61 and the water cooling exchange through hole 11, flows to the water cooling exchange through hole 11 to be in contact with the inner wall of the heat dissipation barrel 1 for heat dissipation and cooling, heat dissipation performance is improved, and the LED light source 3 with higher power can be used.

Further comprises: the waterproof lamp holder 8 is in locking connection with the lamp cap 7 through threads and also sleeves the sealing support 6, and a wire inlet hole 81 is formed in the top of the waterproof lamp holder 8. The waterproof nut 82 containing a silica gel ring is arranged at the position of the wire inlet hole 81, and the outer layer of the waterproof lamp holder 8 is a waterproof silica gel sleeve. The lamp holder and the lamp cap 7 are directly detachable and waterproof, so that electric leakage is avoided.

Further comprises: the first water flow hole 41, the second water flow hole 51 and the water cooling exchanging through hole 11 are all arranged in the vertical direction, and the third water flow hole 61 is arranged in the horizontal direction.

The LED light source 3 is a fluorescent ceramic light source.

The transparent tube 2 is a glass tube.

The second sealing end cover 5 and the sealing support 6 are integrally formed through a precision casting mould.

Further comprises: the lamp cap 7 is provided with an extension 71, a wiring cavity 72 is arranged inside the extension 71, and the wiring cavity 72 is communicated with the upper wiring through hole 62. The wiring cavity 72 is used for storing wires and connectors for connecting the lamp cap 7 with the LED light source 3.

Further comprises: waterproof circle 9, fastening piece 91 and fastening screw 92, waterproof circle 9 be in waterproof lamp stand 8 with sealing support 6 between, fastening piece 91 supports waterproof circle 9 and waterproof lamp stand 8's bottom, fastening screw 92 passes fastening piece 91 still with waterproof lamp stand 8 locking connection. Preventing external water from entering between the lamp holder and the lamp cap 7.

Further comprises: the protection cage 10 is fixedly connected with the bottom of the waterproof lamp holder 8;

the transparent tube 2 is located inside the protective cage 10. The protective cage 10 is made of metal material and has high strength, so that the transparent tube 2 is prevented from being damaged due to external collision.

Further comprises: and the balancing weight 20 is fixedly connected with the bottom of the protection cage 10. When the fish-luring lamp is put into seawater, the shaking of the fish-luring lamp caused by the flowing of the seawater is reduced.

The working mode of the deep-sea LED fish-attracting lamp provided by the utility model is as follows:

the cable of the power enters the wire inlet hole 81 of the lamp holder and is subjected to waterproof treatment, and after the lamp cap 7 is connected with the lamp holder, the power switch is turned on, and the LED light source 3 is lighted. The heat generated by the LED light source 3 during operation is transmitted to the transparent tube 2 and the heat dissipation cylinder 1 in a two-way. In the process of putting the deep-sea LED fish-attracting lamp into the sea, sea water contacts the transparent tube 2 to cool the transparent tube 2; seawater enters the water-cooling exchange through hole 11 from the first water flow hole 41, contacts the inner wall of the heat dissipation barrel 1 for heat dissipation and cooling, reaches the third water flow hole 61 from the second water flow hole 51, finally merges with external seawater, improves heat dissipation performance and enhances cooling effect.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the utility model, and that equivalent modifications and variations of the utility model in light of the spirit of the utility model will be covered by the claims of the present utility model.

Claims (10)

1. A deep sea LED fish trap lamp, comprising:

the heat dissipation cylinder is internally provided with a water-cooling exchange through hole;

the transparent tube is sleeved outside the heat dissipation cylinder, and a cavity is formed between the transparent tube and the heat dissipation cylinder;

the LED light source is fixedly arranged on the radiating cylinder and is positioned in the cavity;

the first sealing end cover is fixedly arranged at the bottoms of the radiating cylinder and the transparent tube, a first water flow hole is formed in the first sealing end cover, and the first water flow hole is communicated with the water cooling exchange through hole;

the second sealing end cover is fixedly arranged at the top of the radiating cylinder and the transparent pipe, a second water flow hole and a lower wiring through hole are formed in the second sealing end cover, the second water flow hole is communicated with the water cooling exchange through hole, and the lower wiring through hole is communicated with the cavity;

the sealing support is fixedly connected with the second sealing end cover, a third water flow hole is formed in the side wall of the sealing support, the third water flow hole is communicated with the second water flow hole, an upper wiring through hole is formed in the top end of the sealing support, and the upper wiring through hole is communicated with the lower wiring through hole;

the lamp cap is fixedly connected with the sealing support, the lamp cap is connected with the LED light source through wires, and the wires penetrate through the upper wiring through hole and the lower wiring through hole to enter the cavity.

2. The deep sea LED fish trap of claim 1, further comprising:

the waterproof lamp holder is in locking connection with the lamp cap through threads and also sleeves the sealing support, and a wire inlet hole is formed in the top of the waterproof lamp holder.

3. The deep sea LED fish trap of claim 1, further comprising:

the first water flow hole, the second water flow hole and the water cooling exchange through hole are all arranged in the vertical direction, and the third water flow hole is arranged in the horizontal direction.

4. The deep sea LED fish trap of claim 1, wherein the LED light source is a fluorescent ceramic light source.

5. The deep sea LED fish trap of claim 1, wherein the transparent tube is a glass tube.

6. The deep sea LED fish trap lamp of claim 2, wherein the second seal end cap and the seal support are integrally formed by a precision casting mold.

7. The deep sea LED fish trap of claim 6, further comprising:

the lamp cap is provided with an extension section, a wiring cavity is arranged in the extension section, and the wiring cavity is communicated with the upper wiring through hole.

8. The deep sea LED fish trap of claim 6, further comprising:

waterproof circle, fastening piece and fastening screw, waterproof circle be in waterproof lamp stand with between the seal support, the fastening piece support in waterproof circle and the bottom of waterproof lamp stand, fastening screw passes the fastening piece still with waterproof lamp stand locking connection.

9. The deep sea LED fish trap of claim 6, further comprising:

the protection cage is fixedly connected with the bottom of the waterproof lamp holder;

the transparent tube is located inside the protective cage.

10. The deep sea LED fish trap of claim 9, further comprising: and the balancing weight is fixedly connected with the bottom of the protection cage.