CN211316711U - Heat radiator - Google Patents

Abstract

A radiator comprises a framework, a first radiating block, a second radiating block, a third radiating block and a fourth radiating block; the framework is of a cuboid framework structure, and a first positioning round hole and a first boss with a threaded hole are arranged on the front side surface of the framework; a second positioning round hole and a second boss with a threaded hole are arranged in the middle of the rear side surface; a rectangular groove is formed in the left side face, and a first heat dissipation block is mounted in the rectangular groove; the right side surface is provided with stop blocks protruding along the front edge and the rear edge, and a second radiating block is arranged between the two stop blocks; a first rectangular opening is formed in the top surface, and a third heat dissipation block is installed in the first rectangular opening; a second rectangular opening is formed in the bottom surface, and a fourth heat dissipation block is installed in the second rectangular opening. The utility model discloses a skeleton bearing generates heat the source, and four sides are dispelled the heat from the upper and lower left and right sides in source that generates heat to first radiating block, second radiating block, third radiating block, fourth radiating block, can reach better radiating effect.

Description

Heat radiator

Technical Field

The utility model relates to a radiator.

Background

At present, a heating source in the refrigerator lacks an efficient radiator, and the structure of the radiator is influenced by the internal structure and parts of the refrigerator and needs to be redesigned.

SUMMERY OF THE UTILITY MODEL

To the above problem, the present invention provides a heat sink.

The purpose of the utility model can be realized by the following technical scheme: a radiator comprises a framework, a first radiating block, a second radiating block, a third radiating block and a fourth radiating block; the framework is of a cuboid frame structure, a first positioning round hole is formed in the middle of the front side face of the framework, a first lug groove is formed in the upper right corner of the first positioning round hole, a first boss with threaded holes and protruding towards the left side and the right side is arranged on the bottom edge of the front side face of the framework, a second positioning round hole corresponding to the first positioning round hole is formed in the middle of the rear side face of the framework, and a second boss with threaded holes and protruding towards the back is arranged on the bottom edge of the rear side face of the framework;

a rectangular groove is formed in the left side face of the framework, the rectangular groove extends forwards, a first heat dissipation block is mounted in the rectangular groove, and a first rectangular notch and a second rectangular notch which correspond to each other are formed in the bottom edges of the rectangular groove and the first heat dissipation block respectively;

the right side surface of the framework is provided with a stop block which protrudes towards the right along the front edge and the rear edge, a second heat dissipation block is arranged between the two stop blocks, the top edge of the right side surface of the framework is centrally provided with a first groove, and the top surface of the second heat dissipation block is provided with a second groove communicated with the first groove;

the top surface of the framework is provided with a first rectangular opening, the first rectangular opening extends to the right edge of the top surface of the framework, a third heat dissipation block is installed in the first rectangular opening, the left edge of the top surface of the framework is centrally provided with a third groove, the top surface of the third heat dissipation block is provided with a fourth groove which extends left and right and is communicated with the first groove and the third groove, the bottom surface of the third heat dissipation block is provided with a first semicircular groove which extends front and back and corresponds to the upper semicircles of the first positioning round hole and the second positioning round hole of the framework, and the upper right corner of the first semicircular groove is provided with a second lug groove which extends front and back and corresponds to the first lug groove of the framework;

the second rectangle opening has been seted up on the bottom surface of skeleton, the second rectangle opening extends to the left edge and the right limb of skeleton bottom surface, installs the fourth heat dissipation piece in the second rectangle opening, set up on the top surface of fourth heat dissipation piece around extend and with the first location round hole of skeleton and the corresponding second semicircle recess of second location round hole, be equipped with the arc bracket body corresponding with second semicircle recess on the trailing flank of fourth heat dissipation piece.

Furthermore, the front side and the rear side of the first radiating block are provided with a plurality of first lugs with holes, and the first radiating block penetrates through the holes in the first lugs through screws to be connected with corresponding threaded holes in the left side face of the framework.

Furthermore, the front side and the rear side of the second radiating block are provided with a plurality of second lugs with holes, and the second radiating block penetrates through the holes in the second lugs through screws to be connected with corresponding threaded holes in the two check blocks on the right side face of the framework.

Furthermore, the right side surface of the second heat dissipation block is an arc convex surface.

Furthermore, the four corners of the top of the third heat dissipation block are provided with third lugs with holes, and the third heat dissipation block penetrates through the holes in the third lugs through screws to be connected with corresponding threaded holes in the top surface of the framework.

Furthermore, the four corners of the bottom of the fourth heat dissipation block are respectively provided with a fourth lug with a hole, and the fourth heat dissipation block penetrates through the hole in the fourth lug through a screw to be connected with a corresponding threaded hole in the bottom surface of the framework.

Compared with the prior art, the beneficial effects of the utility model are that: a framework is adopted to support the heating source, and positioning round holes are formed in the front side surface and the rear side surface of the framework to position the heating source; grooves for avoiding the structure in the mechanism and parts are respectively formed in the first radiating block, the second radiating block, the third radiating block and the fourth radiating block; the first radiating block, the second radiating block, the third radiating block and the fourth radiating block radiate heat from the upper, lower, left and right sides of the heating source, and a better radiating effect can be achieved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is another exploded view of the present invention.

The parts in the figures are numbered as follows:

1 skeleton

101 first positioning round hole

102 first lug recess

103 first boss

104 second positioning round hole

105 second boss

106 rectangular groove

107 first rectangular notch

108 stop

109 first recess

110 first rectangular opening

111 third groove

112 second rectangular opening

2 first radiating block

201 first lug

202 second rectangular notch

3 second radiating block

301 second lug

302 second groove

4 third radiating block

401 third lug

402 fourth groove

403 first semicircular groove

404 second lug recess

5 fourth Heat dissipation Block

501 fourth lug

502 second semicircular groove

503 arc-shaped bracket body.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings to make it clear to those skilled in the art how to practice the invention. While the invention has been described in connection with its preferred embodiments, these embodiments are intended to be illustrative, and not to limit the scope of the invention.

Referring to fig. 1, a heat sink for dissipating heat of a refrigerant includes a frame 1, a first heat dissipation block 2, a second heat dissipation block 3, a third heat dissipation block 4, and a fourth heat dissipation block 5.

The framework 1 is of a cuboid framework structure.

Referring to fig. 2 and 3, a first positioning circular hole 101 is formed in the center of the front side surface of the framework 1, a first lug groove 102 is formed in the upper right corner of the first positioning circular hole 101, and first bosses 103 with threaded holes and protruding towards the left side and the right side are arranged on the bottom edge of the front side surface of the framework 1.

A second positioning round hole 104 corresponding to the first positioning round hole 101 is formed in the middle of the rear side face of the framework 1, and a second boss 105 with a threaded hole and protruding towards the back is arranged on the bottom edge of the rear side face of the framework 1.

The first positioning round hole 101 and the second positioning round hole 104 are respectively used for positioning the front end and the rear end of the heating source; the first boss 103 and the second boss 105 are used for fixing the position of the framework 1.

A rectangular groove 106 is formed in the left side surface of the framework 1, the rectangular groove 106 extends forwards, a first heat dissipation block 2 is mounted in the rectangular groove 106, and a first rectangular notch 107 and a second rectangular notch 202 which correspond to each other are formed in the rectangular groove 106 and the bottom edge of the first heat dissipation block 2 respectively; the front side and the rear side of the first radiating block 2 are provided with a plurality of first lugs 201 with holes, and the first radiating block 2 penetrates through the holes in the first lugs 201 through screws to be connected with corresponding threaded holes in the left side face of the framework 1.

A stop block 108 protruding towards the right along the front edge and the rear edge is arranged on the right side surface of the framework 1, a second heat dissipation block 3 is arranged between the two stop blocks 108, and a first groove 109 is formed in the middle of the top edge of the right side surface of the framework 1; the front side and the rear side of the second radiating block 3 are provided with a plurality of second lugs 301 with holes, the second radiating block 3 penetrates through the holes in the second lugs 301 through screws to be connected with corresponding threaded holes in the two check blocks 108 on the right side face of the framework 1, the right side face of the second radiating block 3 is an arc-shaped convex face, and a second groove 302 communicated with the first groove 109 is formed in the top face of the second radiating block 3.

A first rectangular opening 110 is formed in the top surface of the framework 1, the first rectangular opening 110 extends to the right edge of the top surface of the framework 1, a third heat dissipation block 4 is installed in the first rectangular opening 110, and a third groove 111 is formed in the middle of the left edge of the top surface of the framework 1; the top four corners department of third radiating block 4 all is equipped with foraminiferous third lug 401, and third radiating block 4 passes through the screw and is connected with the screw hole that corresponds on the skeleton 1 top surface on the hole on the third lug 401 through the screw, sets up the fourth recess 402 that extends about on the top surface of third radiating block 4, fourth recess 402 communicates with first recess 109 on the skeleton 1 right side, the third recess 111 on the skeleton 1 top surface, and the first semicircle recess 403 that extends around and corresponds with the first location round hole 101 of skeleton 1 and the last semicircle of second location round hole 104 is seted up on the bottom surface of third radiating block 4, set up on the upper right corner of first semicircle recess 403 around and extend and with the corresponding second lug recess 404 of the first lug recess 102 of skeleton 1.

A second rectangular opening 112 is formed in the bottom surface of the framework 1, the second rectangular opening 112 extends to the left edge and the right edge of the bottom surface of the framework 1, and a fourth heat dissipation block 5 is installed in the second rectangular opening 112; the bottom four corners of the fourth heat dissipation block 5 are provided with fourth lugs 501 with holes, the fourth heat dissipation block 5 penetrates through the holes in the fourth lugs 501 through screws to be connected with corresponding threaded holes in the bottom surface of the framework 1, the top surface of the fourth heat dissipation block 5 is provided with second semicircular grooves 502 which extend forwards and backwards and correspond to the lower semicircles of the first positioning round hole 101 and the second positioning round hole 104 of the framework 1, and the rear side surface of the fourth heat dissipation block 5 is provided with arc-shaped bracket bodies 503 corresponding to the second semicircular grooves 502.

The framework 1 supports the heating source, positioning round holes are formed in the front side and the rear side of the framework 1 to position the heating source, and the first heat dissipation block 2, the second heat dissipation block 3, the third heat dissipation block 4 and the fourth heat dissipation block 5 dissipate heat from the upper side, the lower side, the left side and the right side of the heating source, so that a better heat dissipation effect can be achieved.

It should be noted that many variations and modifications of the embodiments of the present invention are possible, which are fully described, and are not limited to the specific examples of the above embodiments. The above embodiments are merely illustrative of the present invention and are not intended to limit the present invention. In conclusion, the scope of the present invention should include those changes or substitutions and modifications which are obvious to those of ordinary skill in the art.

Claims (6)

1. A radiator is characterized by comprising a framework, a first radiating block, a second radiating block, a third radiating block and a fourth radiating block;

the framework is of a cuboid frame structure, a first positioning round hole is formed in the middle of the front side face of the framework, a first lug groove is formed in the upper right corner of the first positioning round hole, a first boss with threaded holes and protruding towards the left side and the right side is arranged on the bottom edge of the front side face of the framework, a second positioning round hole corresponding to the first positioning round hole is formed in the middle of the rear side face of the framework, and a second boss with threaded holes and protruding towards the back is arranged on the bottom edge of the rear side face of the framework;

a rectangular groove is formed in the left side face of the framework, the rectangular groove extends forwards, a first heat dissipation block is mounted in the rectangular groove, and a first rectangular notch and a second rectangular notch which correspond to each other are formed in the bottom edges of the rectangular groove and the first heat dissipation block respectively;

the right side surface of the framework is provided with a stop block which protrudes towards the right along the front edge and the rear edge, a second heat dissipation block is arranged between the two stop blocks, the top edge of the right side surface of the framework is centrally provided with a first groove, and the top surface of the second heat dissipation block is provided with a second groove communicated with the first groove;

the top surface of the framework is provided with a first rectangular opening, the first rectangular opening extends to the right edge of the top surface of the framework, a third heat dissipation block is installed in the first rectangular opening, the left edge of the top surface of the framework is centrally provided with a third groove, the top surface of the third heat dissipation block is provided with a fourth groove which extends left and right and is communicated with the first groove and the third groove, the bottom surface of the third heat dissipation block is provided with a first semicircular groove which extends front and back and corresponds to the upper semicircles of the first positioning round hole and the second positioning round hole of the framework, and the upper right corner of the first semicircular groove is provided with a second lug groove which extends front and back and corresponds to the first lug groove of the framework;

the second rectangle opening has been seted up on the bottom surface of skeleton, the second rectangle opening extends to the left edge and the right limb of skeleton bottom surface, installs the fourth heat dissipation piece in the second rectangle opening, set up on the top surface of fourth heat dissipation piece around extend and with the first location round hole of skeleton and the corresponding second semicircle recess of second location round hole, be equipped with the arc bracket body corresponding with second semicircle recess on the trailing flank of fourth heat dissipation piece.

2. The heat sink as claimed in claim 1, wherein the front and rear sides of the first heat dissipating block are provided with a plurality of first lugs having holes, and the first heat dissipating block is connected to the corresponding threaded holes on the left side of the frame by screws passing through the holes on the first lugs.

3. The heat sink as claimed in claim 1, wherein the second heat dissipating block has a plurality of second lugs with holes on its front and back sides, and the second heat dissipating block is connected to the corresponding screw holes on the two blocks on the right side of the frame by screws passing through the holes on the second lugs.

4. The heat sink as claimed in claim 1, wherein the right side of the second heat dissipation block is an arc-shaped convex surface.

5. The heat sink as claimed in claim 1, wherein the top four corners of the third heat dissipating block are provided with third lugs having holes, and the third heat dissipating block is connected to the corresponding threaded holes on the top surface of the frame by screws passing through the holes on the third lugs.

6. The radiator of claim 1, wherein the bottom four corners of the fourth heat dissipation block are provided with fourth lugs with holes, and the fourth heat dissipation block is connected with corresponding threaded holes on the bottom surface of the framework through the holes in the fourth lugs by screws.

Images