CN110131693B - Water-cooled heat dissipation module - Google Patents

Abstract

The invention discloses a water-cooled heat radiation module, which mainly comprises a heat radiation seat and a cooling pipe unit, wherein the heat radiation seat is provided with a detachable characteristic by adding the cooling pipe unit in the heat radiation seat, thereby achieving the effect of reducing the production cost, and simultaneously, the heat energy released by a light source group is uniformly guided through a cooling flow passage of the cooling pipe unit, thereby achieving the purposes of effectively radiating and prolonging the service life. In addition, the cooling tube unit can be easily replaced, so as to achieve the purpose of convenient use and easy assembly.

Description

Water-cooled heat dissipation module

Technical Field

The invention relates to the field of heat dissipation modules, in particular to a water-cooled heat dissipation module.

Background

When fishing on a fishing boat, the principle of the tendency of optical activity of fish shoal is often utilized to attract the fish shoal to approach a light source, and then fishing is carried out.

In the past, the heat dissipation plate of the fish gathering lamp system for dissipating heat by using seawater directly contacts the seawater, so the heat dissipation plate can grow moss after being used for a period of time, the heat dissipation efficiency of the fish gathering lamp is influenced, even the internal space of the water tank can be reduced, the flowing fluid is reduced, and the fish gathering lamp cannot dissipate heat to cause damage. However, the lamp base is often disposed on the heat dissipation plate and is not easily replaced individually, and the general method can only directly replace the whole set of equipment, which causes the problems of insufficient equipment utilization rate and increased cost. If not suitable configuration in addition water tank inner space, rivers easily the inside swirl that forms of water tank, and the swirl will make inside heat energy be difficult to the diffusion, and then the heat energy that can't the light source group produce evenly derives, therefore how to dispose inner space and make rivers effectively dispel the heat, is the problem that the field was solved in advance.

Please refer to fig. 1, which is a design of a conventional heat dissipation system for a fish gathering lamp, wherein a cover plate 1 is independent of a body 2, and the cover plate 1 or the body 2 can be replaced independently, so as to improve the utilization efficiency of the device and reduce the maintenance cost, however, in the assembly process, because the wall thickness of the cover plate 1 is thin, the fixing member 3 is easily extruded to form a gap when being perforated, and the connecting portion 3A of the cover plate 1 and the fixing member 3 cannot be completely sealed, so that the heat conductive paste coated therebetween cannot exert the effect, and due to factors such as uneven heat dissipation, the cover plate 1 may have a twisted and protruded phenomenon, when LED lights pass through the concave and convex portions, the light sources cannot be uniformly distributed, and the lights at some portions are too bright or too dark, so that the fish gathering effect cannot be exerted. In addition, because the heat dissipation effect is not ideal, the LED lamp may be damaged when the fish gathering lamp is at a high temperature, and the production cost needs to be increased to replace the damaged LED lamp

Disclosure of Invention

The present invention provides a water-cooled heat dissipation module, which is mainly added with a replaceable cooling tube unit to achieve the purposes of reducing cost, effectively dissipating heat and prolonging service life.

To achieve the above object, the present invention is a water-cooled heat dissipation module suitable for connecting a water source, the water-cooled heat dissipation module comprising:

a heat dissipation seat, which comprises at least one accommodating space; and the number of the first and second groups,

the cooling pipe unit is detachably arranged in the at least one accommodating space, is in contact with the heat dissipation seat and is provided with a water inlet end connected with the water source, a water outlet end communicated with the water inlet end and a cooling flow channel arranged between the water inlet end and the water outlet end.

Preferably, the heat dissipating base includes a first heat dissipating element and a second heat dissipating element, the first heat dissipating element is recessed to form a first receiving cavity, the second heat dissipating element is recessed to form a second receiving cavity corresponding to the first receiving cavity, and the first receiving cavity and the second receiving cavity form the at least one receiving space.

Preferably, the first receiving groove has a plurality of first straight grooves and a plurality of first locking holes distributed among the first straight grooves, the second receiving groove has a plurality of second straight grooves respectively corresponding to the first straight grooves and a plurality of second locking holes respectively corresponding to the first locking holes, the water-cooled heat dissipation module further includes a plurality of screws, and each screw respectively penetrates between the first and second locking holes.

Preferably, the first and second lock holes are arranged in multiple rows and are uniformly arranged along a direction parallel to the first and second straight-groove portions.

Preferably, the heat sink and the cooling tube unit are assembled in a fastening manner.

Preferably, the heat sink is made of aluminum alloy or high thermal conductivity material.

Preferably, the cooling tube unit is made of aluminum alloy or high thermal conductivity material.

Preferably, the number of the at least one accommodating space of the heat sink is plural, the cooling tube unit further includes a water inlet tube, a water outlet tube, at least one water guide tube, and a plurality of connecting tubes respectively having a connecting flow channel, one end of the water inlet tube is the water inlet end, one end of the water outlet tube is the water outlet end, the water inlet tube, the at least one water guide tube, and the water outlet tube are arranged side by side in sequence and respectively penetrate through the accommodating spaces, one of the connecting tubes is respectively connected to one end of the water inlet tube opposite to the water inlet end and one end of the at least one water guide tube, the other connecting tube is respectively connected to one end of the water outlet tube opposite to the water outlet end and the other end of the at least one water guide tube, and the water inlet tube, the at least one water guide tube, and the water outlet tube are matched with the connecting tubes to form the.

Preferably, the number of the at least one accommodating space is five, the number of the at least one water guiding pipe is three, and the number of the connecting pipes is four.

Preferably, the lamp further comprises a light source set disposed on the other side of the heat sink relative to the cooling tube unit.

Preferably, the light source module further comprises a light transmitting member, wherein the light transmitting member and the light source module are disposed on the same side of the heat sink and spaced from each other.

Preferably, the material of the light-transmitting member is toughened glass.

Preferably, the heat sink further comprises a sealing element and a pressing element, wherein the sealing element is disposed between the heat sink and the light-transmitting element, and the pressing element is locked to the heat sink and is disposed between the pressing element and the heat sink.

The invention mainly comprises a heat radiation seat and a cooling pipe unit, wherein the heat radiation seat is provided with a detachable characteristic by adding the cooling pipe unit in the heat radiation seat, thereby achieving the effect of reducing the production cost, and simultaneously, the cooling flow channel of the cooling pipe unit is contacted with the heat radiation seat, thereby uniformly guiding the heat energy released by the light source set, effectively radiating and prolonging the service life, and solving the conventional defects. In addition, the cooling tube unit can be easily replaced, so as to achieve the purpose of convenient use and easy assembly.

Drawings

Fig. 1 is a diagram of a heat dissipation system of a fish gathering lamp.

Fig. 2 is an exploded perspective view of the first embodiment of the present invention.

FIG. 3 is a cross-sectional water path diagram of the first embodiment of the present invention, showing the flow of the water source.

Fig. 4 is an exploded perspective view of a second embodiment of the present invention, showing a heat sink comprising a first heat sink and a second heat sink.

Fig. 5 is a combined sectional view of a second embodiment of the present invention.

FIG. 6 is an exploded perspective view of a third embodiment of the invention, shown including a seal and compression molding.

Fig. 7 is a sectional view of fig. 6 in combination with a third embodiment of the present invention.

Detailed Description

Symbolic illustrations in figures 2-7: a water source A; a heat sink 20; an accommodating space 21; a receptacle 22; a first heat dissipation member 23; a first receiving groove 231; a first straight groove portion 2311; a first locking hole 2312; a second heat sink 24; a second receiving groove 241; a second straight groove 2411; a second locking hole 2412; a light source group 30; a light emitting element 31; a light-transmitting member 40; a cooling tube unit 50; a water inlet end 51; a water outlet end 52; a cooling flow passage 53; a water inlet pipe 54; a water outlet pipe 55; a water conduit 56; a connecting pipe 57; a connecting flow channel 571; a screw 60; a seal 70; pressure condition 80; a screw 90.

Referring to fig. 2 to 3, a water-cooled heat sink module according to a first embodiment of the present invention is adapted to be connected to a water source a, and includes: a heat sink 20, a light source set 30, a light-transmitting member 40, and a cooling tube unit 50, wherein:

the heat dissipation base 20 is an integrated body, and includes at least one accommodating space 21 penetrating the heat dissipation base 20 and being parallel to each other, in this embodiment, the number of the at least one accommodating space 21 is five, but not limited thereto, and a concave accommodating portion 22; in this embodiment, the heat sink 20 is made of aluminum alloy, but not limited thereto, or made of high thermal conductivity material. The heat dissipation base 20 is made of a high heat conduction material, so that heat generated by the LED can be easily dissipated, the water cooling effect is better, and the LED cannot be easily damaged due to high temperature. The heat sink 20 is made of an aluminum alloy, and has an outer surface formed with an anti-rust oxide film, so that it can be used in a corrosive environment such as seawater.

The light source assembly 30 is disposed on the other side of the heat sink 20 opposite to the cooling tube unit 50 in an embedded manner, and includes a plurality of light emitting elements 31, the light emitting elements 31 are formed by a plurality of high brightness light emitting diodes, and the light emitting elements 31 are disposed on the same surface of the light source assembly 30, so that light can be effectively collected by the light emitting elements 31, the fish-gathering effect is improved, and heat energy is provided.

The light-transmitting member 40 is a light-transmitting body disposed in the accommodating portion 22 and covering the light source assembly 30, and meanwhile, the light-transmitting member 40 and the light source assembly 30 are disposed on the same side of the heat sink 20 and spaced apart from the light source assembly 30; in this embodiment, the light-transmitting member 40 is made of tempered glass, and the light-transmitting member 40 protects the light source assembly 30 and prolongs the service life of the light source assembly 30 through the installation of the light-transmitting member 40.

The cooling tube unit 50, for connecting to the water source a (the water source a is indicated by an arrow in the figure), is removably disposed in the accommodating spaces 21, and is in contact with the heat sink 20, and has a water inlet 51 connected to the water source a, a water outlet 52 connected to the water inlet 51, and a cooling channel 53 disposed between the water inlet 51 and the water outlet 52, wherein the cooling channel 53 is used for uniformly dissipating the heat energy; the cooling tube unit 50 also includes a water inlet tube 54 having the water inlet end 51, a water outlet tube 55 having the water outlet end 52, at least one water guiding tube 56, and a plurality of connecting tubes 57 respectively having a connecting channel 571, in this embodiment, the number of the at least one water guiding tube 56 is three and four connecting tubes 57, but not limited thereto, one end of the water inlet tube 54 is the water inlet end 51, one end of the water outlet tube 55 is the water outlet end 52, the water inlet tube 54, the three water guiding tubes 56, and the water outlet tube 55 are sequentially arranged side by side and respectively penetrate the accommodating spaces 21 and are not communicated with each other, wherein one of the connecting tubes 57 is respectively connected to one end of the water inlet tube 54 opposite to the water inlet end 51 and one end of the at least one water guiding tube 56, and the other connecting tube 57 is respectively connected to one end of the water outlet tube 55 opposite to the water outlet end 52 and the other end of the at least one water guiding tube 56, the inlet pipe 54, the at least one water guiding pipe 56, the outlet pipe 55 and the connecting pipes 57 cooperate to form the cooling channel 53, when the water source a flows in from the inlet end 52, the cooling pipe unit 50 contacts with the accommodating spaces 21, so that the water in the cooling channel 53 can exchange heat with the heat generated when the light source set 30 emits light, and flow out through the outlet end 52, thereby achieving the effective heat dissipation effect of the present invention and solving the defect of poor heat dissipation in the prior art. By detachably disposing the cooling tube unit 50, compared with the prior art, the cooling tube unit has the advantages of easy and independent detachment and replacement, and can reduce the production cost. The cooling tube unit 50 is made of aluminum alloy, but not limited thereto, or made of a high thermal conductivity material, and when the water-cooled heat dissipation module is placed in the sea, the seawater is highly corrosive, and the cooling tube unit 50 is disposed to prevent the seawater from directly contacting the inside of the heat dissipation base 20, so as to prolong the service life of the heat dissipation base 20. In addition, the cooling pipe unit 50 may be coated with an anti-corrosion liquid to reduce the chance of seawater corrosion on the cooling pipe unit 50, and the connection pipe 57 may be easily replaced to achieve the effects of easy use and easy assembly.

Referring to fig. 4 to 5, a second embodiment of the present invention is shown, which is different from the first embodiment in that: the heat dissipating base 20 is a detachable type and includes a first heat dissipating member 23 and a second heat dissipating member 24, the first heat dissipating member 23 is concavely provided with a first accommodating groove 231, the second heat dissipating member 24 is concavely provided with a second accommodating groove 241 corresponding to the first accommodating groove 231, and the first accommodating groove 231 and the second accommodating groove 241 form the at least one accommodating space 21; thus, the cooling tube unit 50 can be clamped between the separated heat dissipation seats 20, so as to have the effect of easy assembly. In addition, the first receiving groove 231 has a plurality of first straight groove portions 2311 and a plurality of first locking holes 2312 distributed among the first straight groove portions 2311, in the embodiment, the number of the first straight groove portions 2311 is five, but not limited thereto, the second receiving groove 241 has a plurality of second straight groove portions 2411 respectively configured corresponding to the first straight groove portions 2311 and a plurality of second locking holes 2412 respectively corresponding to the first locking holes, in the present embodiment, the number of the second straight groove portions 2411 is five, the water-cooled heat dissipation module further includes a plurality of screws 60, each of the screws 60 respectively penetrates through a space between the first locking holes 2312 and the second locking holes 2412, in the present embodiment, the first locking holes 2312 and the second locking holes 2312 are configured in a manner of adopting a plurality of rows and uniformly arranged along a direction parallel to the first straight groove portions 2311 and the second straight groove portions 2411, the first locking holes 2312 and the second locking holes 2412 are configured in a manner of a row of four, and three rows, but not limited to, are used to tightly assemble and fit the heat sink 20 and the cooling tube unit 50 by the above-mentioned locking method; therefore, the detachable heat dissipation base 20, in combination with the locking manner, can achieve the effect of tightly locking compared with the gap that cannot be completely sealed in the prior art, and when the present invention is placed in seawater, stability and safety are provided, and the rest of the structure, configuration and effect are the same as those of the first embodiment.

Referring to fig. 6 to 7, a third embodiment of the present invention is shown, which is different from the first embodiment in that: the invention further comprises a sealing element 70 and a pressing condition 80, wherein the sealing element 70 is arranged between the heat dissipation seat 20 and the light-transmitting element 40, the pressing condition 80 is locked on the heat dissipation seat 20, the light-transmitting element 40 is arranged between the pressing condition 80 and the heat dissipation seat 20, the water-cooled heat dissipation module further comprises a plurality of screws 90, the screws 90 penetrate through the pressing condition 80, the sealing element 70 and the light-transmitting element 40 and are locked on the heat dissipation seat 20, and the rest structures, configurations and effects are the same as those of the first embodiment; in this embodiment, the sealing member 70 is a waterproof gasket, and through the arrangement of the sealing member 70, not only the water-stopping and waterproof functions can be enhanced, but also the defect of easy cracking under the condition of external pressure can be effectively prevented, and the rest of the structure, configuration and efficacy are the same as those of the first embodiment.

The above is a configuration description of each main component of the embodiment of the present invention. The mode of use and efficacy of the invention are described below.

The present invention provides a removable characteristic by adding the cooling tube unit 50 in the heat sink 20, so as to achieve the effect of reducing the production cost, and at the same time, the heat energy released by the light source assembly 30 can be uniformly dissipated through the mutual contact between the cooling tube unit 50 and the heat sink 20, so as to perform the purposes of effective heat dissipation and prolonging the service life, and solve the conventional defects. In addition, the cooling tube unit 50 can be easily replaced, so as to achieve the purpose of convenient use and easy assembly.

The heat sink 20 has a first heat sink 23 and a second heat sink 24 separated from each other, and the cooling tube unit 50 can be sandwiched therebetween for easy assembly, and the heat sink 20 and the cooling tube unit 50 can be tightly assembled and matched by locking the first locking hole 2312 and the second locking hole 242, so as to achieve tight locking, and the first and second locking holes 232, 242 are arranged in a row of four and three rows for one, thereby achieving the best tight fit locking effect.

When the heat sink 20 is made of aluminum alloy or high thermal conductivity material, the heat dissipation efficiency can be improved and seawater corrosion can be prevented.

When the cooling tube unit 50 is made of aluminum alloy or high thermal conductivity material, the heat dissipation efficiency can be improved and seawater corrosion can be prevented.

When the light-transmitting member 40 is made of tempered glass, it can protect the light source assembly 30 and prolong the service life of the light source assembly 30.

The sealing member 70 and the pressure strip 80 are disposed to achieve the functions of enhancing water-stopping and water-proof, and further effectively prevent the water from being easily broken under the seawater pressure.

In summary, the above-mentioned embodiments and drawings are only preferred embodiments of the present disclosure, and the scope of the present disclosure should not be limited by the above-mentioned embodiments, and all equivalent variations and modifications made according to the claims of the present disclosure should be covered by the present disclosure.

Claims (12)

1. A water-cooled heat dissipation module directly connected to seawater as a water source, the water-cooled heat dissipation module comprises:

a heat dissipation seat, which comprises at least one accommodating space; and

a cooling pipe unit which is detachably arranged in the at least one accommodating space, is contacted with the heat dissipation seat and is provided with a water inlet end connected with the water source, a water outlet end communicated with the water inlet end and a cooling flow passage arranged between the water inlet end and the water outlet end;

the cooling tube unit further comprises a water inlet tube, a water outlet tube, at least one water guide tube and a plurality of connecting tubes which are respectively provided with a connecting flow channel, one end of the water inlet tube is the water inlet end, one end of the water outlet tube is the water outlet end, the water inlet tube, the at least one water guide tube and the water outlet tube are arranged side by side in sequence and respectively penetrate through the containing spaces, one connecting tube is respectively connected with one end of the water inlet tube opposite to the water inlet end and one end of the at least one water guide tube, the other connecting tube is respectively connected with one end of the water outlet tube opposite to the water outlet end and the other end of the at least one water guide tube, and the water inlet tube, the at least one water guide tube and the connecting tubes are matched with one another connecting tube to form the cooling flow channel.

2. The water-cooled heat dissipation module according to claim 1, wherein the heat dissipation base comprises a first heat dissipation element and a second heat dissipation element, the first heat dissipation element is recessed with a first receiving cavity, the second heat dissipation element is recessed with a second receiving cavity corresponding to the first receiving cavity, and the first receiving cavity and the second receiving cavity form the at least one receiving space.

3. The water-cooled heat sink module as recited in claim 2, wherein the first receiving slot has a plurality of first straight slots and a plurality of first locking holes disposed between the first straight slots, the second receiving slot has a plurality of second straight slots respectively disposed corresponding to the first straight slots and a plurality of second locking holes respectively corresponding to the first locking holes, the water-cooled heat sink module further comprises a plurality of screws, each of the screws passing through a space between the first and second locking holes.

4. The water-cooled heat sink module as recited in claim 3, wherein the first and second locking holes are arranged in multiple rows and are uniformly arranged along a direction parallel to the first and second slots.

5. The water-cooled heat sink module according to claim 2, wherein the heat sink seat is fastened to the cooling tube unit.

6. The water-cooled heat dissipation module according to claim 1, wherein the heat dissipation base is made of aluminum alloy or high thermal conductivity material.

7. The water-cooled heat sink module according to claim 1, wherein the cooling tube unit is made of aluminum alloy or high thermal conductivity material.

8. The water-cooled heat sink module according to claim 1, wherein the at least one receiving space is five, the at least one water conduit is three, and the connecting pipes are four.

9. The water-cooled heat sink module according to claim 1, further comprising a light source set disposed on the other side of the heat sink relative to the cooling tube unit.

10. The water-cooled heat sink module according to claim 9, further comprising a light-transmitting member, wherein the light-transmitting member and the light source set are disposed on the same side of the heat sink and spaced apart from each other.

11. The water-cooled heat sink module according to claim 10, wherein the transparent member is made of tempered glass.

12. The water-cooled heat dissipation module according to claim 10, further comprising a sealing member disposed between the heat sink and the transparent member, and a pressing member locked to the heat sink and disposed between the heat sink and the transparent member.

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