CN217979504U - Optical equipment is with radiator that has refrigeration heat dissipation function - Google Patents

Abstract

The utility model relates to a radiator technical field discloses an optical equipment is with radiator that has refrigeration heat dissipation function, the utility model provides a dust probably get into from the pipeline in, on adhering to the radiator, influence radiator work, influence the problem of optical equipment's normal work. The utility model provides an optical equipment is with radiator that has refrigeration heat dissipation function, including heat dissipation mechanism and the dust removal mechanism of setting in heat dissipation mechanism below, dust removal mechanism is including setting up the subassembly that admits air in heat dissipation shell below, and the subassembly that admits air is provided with two sets ofly, the inside both sides of heat dissipation shell are provided with exhaust subassembly, when air gets into in the intake pipe from the filter screen, the dust that has in the air is attached to the filter screen, first motor drives the eccentric wheel and hits the filter screen, make the dust on the filter screen drop, the possibility of dust attached to on second radiator and first radiator has been reduced, make first radiator and second radiator work can not receive the influence, can not influence the normal work of optical equipment body.

Description

Optical equipment is with radiator that has refrigeration heat dissipation function

Technical Field

The utility model relates to a radiator technical field specifically is an optical equipment is with radiator that has refrigeration heat dissipation function.

Background

A heat sink is a generic term for a series of devices used to conduct and release heat. The radiator mainly comprises a heating radiator and a computer radiator, wherein the heating radiator can be divided into a plurality of types according to materials and working modes, and the computer radiator can be divided into a plurality of types according to purposes and installation methods.

When dispelling the heat to optical equipment, close accuse temperature through the air conditioner heat dissipation usually, need great volume, and the cooling effect is unsatisfactory, secondly, the dust can get into in the pipeline when using this device, adheres to the radiator on, can make radiator work efficiency reduce, influences optical equipment's normal work.

The above problems are addressed. Therefore, a heat sink with cooling and heat dissipating functions for an optical device is proposed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve when dispelling the heat to optical equipment, it closes the accuse temperature through the air conditioner heat dissipation usually, needs great volume, and the cooling effect is unsatisfactory, secondly, the dust can get into in the pipeline when using this device, on adhering to the radiator, can make radiator work efficiency reduce, influences the problem of optical equipment's normal work.

In order to achieve the above purpose, the utility model provides a following technical scheme: a radiator with a refrigerating and heat-dissipating function for optical equipment comprises a heat-dissipating mechanism and a dust-removing mechanism arranged below the heat-dissipating mechanism, wherein the heat-dissipating mechanism comprises a heat-dissipating shell, and a heat-dissipating assembly is arranged in the heat-dissipating shell;

dust removal mechanism is including setting up the subassembly that admits air in the heat dissipation shell below, and the subassembly that admits air is provided with two sets ofly, and the inside both sides of heat dissipation shell are provided with the exhaust subassembly.

Preferably, the heat dissipation assembly comprises a fixing frame fixedly connected to the upper portion inside the heat dissipation shell, the fixing frame is fixedly connected to the lower portion inside the heat dissipation shell, and the center of the fixing frame is fixedly connected with the optical equipment body.

Preferably, the heat dissipation assembly further comprises a first heat dissipation part arranged at one end of the optical device body, the first heat dissipation part comprises a first heat absorption bottom plate arranged on one side of the optical device body, the first heat absorption bottom plate is provided with two groups, and the other side of the first heat absorption bottom plate is fixedly connected with a first semiconductor refrigeration piece.

Preferably, the first heat dissipation part further comprises a first radiator fixedly connected to the other side of the first semiconductor refrigeration sheet, the first radiators are provided with two groups, the first radiator is provided with two groups of first thread grooves, the first thread grooves are provided with two groups, the first radiators are in threaded connection with first screws, the first screws are provided with two groups, and the first screws correspond to the first thread grooves.

Preferably, the heat dissipation assembly further comprises a second heat dissipation part arranged at the other end of the optical device body, the second heat dissipation part comprises a second heat absorption bottom plate arranged on one side of the optical device body, the second heat absorption bottom plates are provided with two groups, and the other side of the second heat absorption bottom plate is fixedly connected with second semiconductor refrigeration pieces.

Preferably, the second heat dissipation part further comprises a second heat radiator fixedly connected to the other side of the second semiconductor refrigeration sheet, the second heat radiator is provided with two groups, the second heat radiator is provided with second thread grooves, the second thread grooves are provided with four groups, second screws are connected between the two groups of second heat radiators in a threaded manner, and the second screws are provided with four groups.

Preferably, the dust removal mechanism further comprises grids fixedly connected to two sides of the heat dissipation shell, and the exhaust assembly comprises a connecting rod fixedly connected to the upper portion inside the heat dissipation shell.

Preferably, the exhaust assembly further comprises a second motor fixedly connected to the lower end of the connecting rod, the output end of the second motor is fixedly connected with fan blades, and the fan blades correspond to the grids.

Preferably, the air inlet assembly comprises an air inlet pipe fixedly connected below the heat dissipation shell, a dustproof part is arranged below the air inlet pipe, and the dustproof part comprises a threaded pipe connected to the lower end of the air inlet pipe in a threaded mode.

Preferably, the dustproof component comprises a filter screen fixedly connected to one side inside the threaded pipe, a fixing rod is fixedly connected to the lower portion inside the threaded pipe, a first motor is fixedly connected to one end of the fixing rod, an eccentric wheel is fixedly connected to the output end of the first motor, and the eccentric wheel corresponds to the filter screen.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides an optical equipment is with radiator that has refrigeration heat dissipation function, when the optical equipment body begins work, first semiconductor refrigeration piece and second semiconductor refrigeration piece begin work, first heat absorption bottom plate and the heat of second heat absorption bottom plate on with the optical equipment body are derived, first semiconductor refrigeration piece and the cooling of second heat absorption bottom plate to first heat absorption bottom plate and second heat absorption bottom plate with the second semiconductor refrigeration piece, make optical equipment body temperature drop, first semiconductor refrigeration piece and second semiconductor refrigeration piece opposite side release temperature, first radiator and second radiator are fallen with the temperature of first semiconductor piece on the second semiconductor refrigeration piece, the second motor rotates and drives the connecting rod, the heat that makes first semiconductor refrigeration piece and second semiconductor refrigeration piece distribute is blown out the heat dissipation shell through the graticule mesh outside, the temperature of first semiconductor refrigeration piece and second semiconductor refrigeration piece control optical equipment body through the size control of regulating current, make the heat abstractor volume reduce, the circulation of air, make the radiating effect better.

2. The utility model provides a pair of optical equipment is with radiator that has refrigeration heat dissipation function, when the air gets into the air inlet pipe from the filter screen, the dust that has in the air is attached to on the filter screen, first motor rotates and drives the eccentric wheel rotatory, the eccentric wheel is hit and is beaten the filter screen, make the dust on the filter screen drop, the dust has been reduced and has got into in the heat dissipation shell and attach the possibility on second radiator and first radiator, make first radiator and second radiator work efficiency can not receive the influence, can not influence the normal work of optical equipment body.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the structure of the heat dissipation mechanism of the present invention;

fig. 3 is a schematic structural view of the heat dissipation assembly of the present invention;

fig. 4 is a schematic view of a first heat sink member of the present invention;

FIG. 5 is a schematic view of a second heat sink member according to the present invention;

FIG. 6 is a schematic view of the dust removing mechanism of the present invention;

fig. 7 is a schematic structural view of the exhaust assembly of the present invention;

fig. 8 is a schematic structural view of the air intake assembly of the present invention;

fig. 9 is a schematic structural view of the dustproof member of the present invention.

In the figure: 1. a heat dissipation mechanism; 11. a heat dissipation housing; 12. a heat dissipating component; 121. a fixed mount; 122. an optical apparatus body; 123. a first heat dissipating member; 1231. a first heat sink; 1232. a first thread groove; 1233. a first semiconductor refrigeration chip; 1234. a first heat absorption soleplate; 1235. a first screw; 124. a second heat sink member; 1241. a second heat sink; 1242. a second thread groove; 1243. a second heat absorption base plate; 1244. a second semiconductor refrigeration chip; 1245. a second screw; 2. a dust removal mechanism; 21. grid forming; 22. an air intake assembly; 221. an air inlet pipe; 222. a dust-proof member; 2221. a threaded pipe; 2222. a filter screen; 2223. fixing the rod; 2224. a first motor; 2225. an eccentric wheel; 23. an exhaust assembly; 231. a connecting rod; 232. a second motor; 233. a fan blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

With reference to fig. 1, fig. 2 and fig. 6, the heat sink with cooling and heat dissipating functions for an optical device of the present invention includes a heat dissipating mechanism 1 and a dust removing mechanism 2 disposed below the heat dissipating mechanism 1, the heat dissipating mechanism 1 includes a heat dissipating housing 11, and a heat dissipating assembly 12 is disposed inside the heat dissipating housing 11;

the dust removing mechanism 2 comprises air inlet assemblies 22 arranged below the heat dissipation shell 11, the air inlet assemblies 22 are provided with two groups, and exhaust assemblies 23 are arranged on two sides inside the heat dissipation shell 11.

The present invention will be further described with reference to the following examples.

Example 1:

referring to fig. 2 to 5, the heat dissipating assembly 12 includes a fixing frame 121 fixedly connected to an upper portion inside the heat dissipating housing 11, the fixing frame 121 is fixedly connected to a lower portion inside the heat dissipating housing 11, an optical device body 122 is fixedly connected to a center of the fixing frame 121, the heat dissipating assembly 12 further includes a first heat dissipating member 123 disposed at one end of the optical device body 122, the first heat dissipating member 123 includes a first heat absorbing bottom plate 1234 disposed at one side of the optical device body 122, and the first heat absorbing bottom plate 1234 is provided with two sets, the first heat absorbing bottom plate 1234 is attached to the optical device body 122, the other side of the first heat absorbing bottom plate 1234 is fixedly connected to a first semiconductor cooling plate 1233, the first heat dissipating member 123 further includes a first heat sink 1231 fixedly connected to the other side of the first semiconductor cooling plate 1233, and the first heat sink 1231 is provided with two sets, a first screw groove 2 is disposed on the first heat sink 1231, and the first screw groove 1242 is provided with two sets, and the first screw groove 1242 is disposed on the other side of the first heat absorbing bottom plate 123, and the second heat dissipating member 1243 is disposed on one side of the optical device body 1243, and the second heat absorbing bottom plate 124 is disposed on the second heat absorbing bottom plate 1243, second screws 1245 are screwed between the two sets of second heat sinks 1241, and the second screws 1245 are provided in four sets.

Example 2:

referring to fig. 7-9, the dust removing mechanism 2 further includes a grid 21 fixedly connected to two sides of the heat dissipating housing 11, the exhaust assembly 23 includes a connecting rod 231 fixedly connected to an upper portion inside the heat dissipating housing 11, the exhaust assembly 23 further includes a second motor 232 fixedly connected to a lower end of the connecting rod 231, an output end of the second motor 232 is fixedly connected to a fan 233, and the fan 233 corresponds to the grid 21, the air intake assembly 22 includes an air intake pipe 221 fixedly connected to a lower portion of the heat dissipating housing 11, a dust-proof component 222 is disposed below the air intake pipe 221, the dust-proof component 222 includes a threaded pipe 2221 threadedly connected to a lower end of the air intake pipe 221, the dust-proof component 222 includes a filter screen 2222 fixedly connected to one side inside the threaded pipe 2221, a fixing rod 2223 is fixedly connected to a lower portion inside the threaded pipe 2221, one end of the fixing rod 2223 is fixedly connected to a first motor 2224, an output end of the first motor 2224 is fixedly connected to an eccentric 2225, and the eccentric 2225 corresponds to the filter screen 2222.

In summary, the following steps: the utility model discloses a radiator with refrigeration heat dissipation function for optical device, when the optical device body 122 begins to work, first semiconductor refrigeration piece 1233 and second semiconductor refrigeration piece 1244 begin to work, first heat absorption bottom plate 1234 and second heat absorption bottom plate 1243 lead out the heat on the optical device body 122, first semiconductor refrigeration piece 1233 and second semiconductor refrigeration piece 1244 cool first heat absorption bottom plate 1234 and second heat absorption bottom plate 1243, so that the temperature of the optical device body 122 drops, the other side of first semiconductor refrigeration piece 1233 and second semiconductor refrigeration piece 1244 releases the temperature, first radiator 1231 and second radiator 1241 dissipate the temperature on first semiconductor refrigeration piece 1233 and second semiconductor refrigeration piece 1244, second motor 232 rotates to drive connecting rod 231, the heat dissipated by the first semiconductor chilling plate 1233 and the second semiconductor chilling plate 1244 is blown out of the heat dissipating case 11 through the grid 21, the temperature of the optical device body 122 is controlled by controlling the first semiconductor chilling plate 1233 and the second semiconductor chilling plate 1244 through adjusting the current, so that the volume of the heat dissipating device is reduced, the air circulates, the heat dissipating effect is better, when air enters the air inlet pipe 221 from the filter screen 2222, dust in the air is attached to the filter screen 2222, the first motor 2224 rotates to drive the eccentric wheel 2225 to rotate, the eccentric wheel 2225 strikes the filter screen 2222, so that the dust on the filter screen 2222 drops, the possibility that the dust enters the heat dissipating case 11 and is attached to the second heat sink 1241 and the first heat sink 1231 is reduced, the working efficiency of the first heat sink 1231 and the second heat sink 1241 is not affected, and the normal work of the optical device body 122 is not affected.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an optical equipment is with radiator that has refrigeration heat dissipation function, includes heat dissipation mechanism (1) and sets up dust removal mechanism (2) in heat dissipation mechanism (1) below, its characterized in that: the heat dissipation mechanism (1) comprises a heat dissipation shell (11), and a heat dissipation assembly (12) is arranged in the heat dissipation shell (11);

dust removal mechanism (2) are including setting up air intake assembly (22) in heat dissipation shell (11) below, and air intake assembly (22) are provided with two sets ofly, and the inside both sides of heat dissipation shell (11) are provided with exhaust subassembly (23).

2. The heat sink with cooling and heat dissipating functions for an optical device according to claim 1, wherein: the heat dissipation assembly (12) comprises a fixing frame (121) fixedly connected to the upper portion inside the heat dissipation shell (11), the fixing frame (121) is fixedly connected to the lower portion inside the heat dissipation shell (11), and an optical equipment body (122) is fixedly connected to the center of the fixing frame (121).

3. A heat sink with cooling and heat dissipating functions for an optical device according to claim 2, wherein: the heat dissipation assembly (12) further comprises a first heat dissipation component (123) arranged at one end of the optical equipment body (122), the first heat dissipation component (123) comprises a first heat absorption base plate (1234) arranged at one side of the optical equipment body (122), the first heat absorption base plates (1234) are provided with two groups, and the other side of each first heat absorption base plate (1234) is fixedly connected with a first semiconductor refrigeration sheet (1233).

4. A heat sink with cooling and heat dissipating functions for an optical device according to claim 3, wherein: the first heat dissipation part (123) further comprises a first heat radiator (1231) fixedly connected to the other side of the first semiconductor refrigeration piece (1233), two sets of first heat radiators (1231) are arranged, a first thread groove (1232) is formed in each first heat radiator (1231), two sets of first thread grooves (1232) are formed in each first thread groove (1232), the first heat radiators (1231) are connected through first screws (1235) in a threaded mode, the first screws (1235) are arranged in two sets, and the first screws (1235) correspond to the first thread grooves (1232).

5. The heat sink with cooling and heat dissipating functions for an optical device according to claim 4, wherein: the heat dissipation assembly (12) further comprises a second heat dissipation component (124) arranged at the other end of the optical device body (122), the second heat dissipation component (124) comprises a second heat absorption bottom plate (1243) arranged on one side of the optical device body (122), the second heat absorption bottom plates (1243) are provided with two groups, and the other side of each second heat absorption bottom plate (1243) is fixedly connected with a second semiconductor refrigeration piece (1244).

6. The heat sink with cooling and heat dissipating functions for an optical device according to claim 5, wherein: the second heat dissipation part (124) further comprises second radiators (1241) fixedly connected to the other sides of the second semiconductor refrigeration fins (1244), two groups of the second radiators (1241) are arranged, second thread grooves (1242) are formed in the second radiators (1241), four groups of the second thread grooves (1242) are formed in the second radiators (1241), second screws (1245) are connected between the two groups of the second radiators (1241) in a threaded mode, and four groups of the second screws (1245) are arranged.

7. The heat sink with cooling and heat dissipating functions for an optical device according to claim 6, wherein: dust removal mechanism (2) still include graticule mesh (21) of fixed connection in heat dissipation shell (11) both sides, exhaust subassembly (23) are including connecting rod (231) of fixed connection in the inside top of heat dissipation shell (11).

8. The heat sink with cooling and heat dissipating functions for an optical device according to claim 7, wherein: exhaust subassembly (23) still include second motor (232) of fixed connection in connecting rod (231) lower extreme, second motor (232) output end fixed connection has flabellum (233), and flabellum (233) and grid (21) are corresponding.

9. The heat sink with cooling and heat dissipating functions for an optical device according to claim 8, wherein: air inlet assembly (22) is including fixed connection at intake pipe (221) of heat dissipation shell (11) below, and intake pipe (221) below is provided with dustproof part (222), and dustproof part (222) are including threaded connection at intake pipe (221) lower extreme screwed pipe (2221).

10. The heat sink with cooling and heat dissipating functions for an optical device according to claim 9, wherein: the dustproof component (222) comprises a filter screen (2222) fixedly connected to one side inside a threaded pipe (2221), a fixing rod (2223) is fixedly connected to the lower portion inside the threaded pipe (2221), a first motor (2224) is fixedly connected to one end of the fixing rod (2223), an eccentric wheel (2225) is fixedly connected to the output end of the first motor (2224), and the eccentric wheel (2225) corresponds to the filter screen (2222).

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