CN218125282U - High-power plasma water-cooling integrated structure - Google Patents

Abstract

The utility model relates to a plasma technical field, and a high-power plasma water-cooling integrated structure is disclosed, including plasma equipment case body, exhaust hole and fresh air inlet have been seted up respectively to the left and right sides of plasma equipment case body, exhaust hole department fixed mounting of plasma equipment case body has the extraction fan, the fresh air inlet department of plasma equipment case body is provided with water-cooling heat dissipation mechanism, water-cooling heat dissipation mechanism is including water guide ring and two heat-conducting plates, the inside evenly distributed of water guide ring is provided with radiating fin, evenly distributed is provided with the cooling tube on the upper and lower both ends inside wall of water guide ring, reciprocating and the liquid guide groove that feeds through about the upper and lower both ends of two heat-conducting plates right sides are seted up respectively, the right-hand member of plasma equipment case body is provided with filtration protection mechanism, filtration protection mechanism is including the front shroud, the radiating mode that air-cooled and water-cooled combined together has effectively been realized to plasma equipment, and then effectively improved the radiating effect.

Description

High-power plasma water-cooling integrated structure

Technical Field

The utility model relates to a plasma technical field especially relates to a high-power plasma water-cooling integrated structure.

Background

Plasma is a relatively special ionized gas which is neutral as a whole, and the plasma technology is a technology for obtaining a high-temperature heat source by utilizing plasma. The high-power plasma equipment in the prior art mostly adopts an air cooling or water cooling mode in a heat dissipation mode, the heat dissipation effect of the single heat dissipation mode when the high-power plasma equipment is subjected to heat dissipation is poor, and the stability of the plasma equipment in use is finally influenced.

Therefore, a high-power plasma water-cooling integrated structure is provided.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve the technical problem that above-mentioned prior art exists, provide a high-power plasma water-cooling integral structure.

In order to realize the above-mentioned purpose, the utility model discloses a following technical scheme, a high-power plasma water-cooling integrated structure, including plasma equipment case body, the left surface of plasma equipment case body articulates there is the chamber door, exhaust hole and fresh air inlet have been seted up respectively to the left and right sides of plasma equipment case body, the exhaust hole department fixed mounting of plasma equipment case body has the suction fan, the air inlet department of plasma equipment case body is provided with the water-cooling heat dissipation mechanism, the water-cooling heat dissipation mechanism is including water guide ring and two heat-conducting plates, the water guide ring is the loop configuration, water guide ring fixed mounting is in the air inlet department of plasma equipment case body, the inside evenly distributed of water guide ring is provided with radiating fin, evenly distributed is provided with the cooling tube on the upper and lower both ends inside wall of water guide ring, two heat-conducting plates are the rectangular structure, two heat-conducting plates are located the inside of plasma equipment case body respectively, the upper and lower both ends on the right side of two heat-conducting plates have seted up the guide groove of reciprocating and intercommunication about respectively, the right-hand member of plasma equipment case body is provided with the filtration protection mechanism, the filter protection cover is provided with brush pole on one side of the rotatable filter screen.

Furthermore, the interiors of the upper end and the lower end of the water guide ring are hollow, the interiors of the upper end and the lower end of the water guide ring are respectively communicated through each radiating pipe, and each radiating pipe is respectively in fixed sleeved relation with each radiating fin in the water guide ring.

Furthermore, the lateral wall of the top end of the water guide ring is fixedly sleeved with two liquid discharge pipes, the two liquid discharge pipes are respectively connected with one end of the liquid guide groove in the two heat conduction plates through pipelines, and the lateral wall of the bottom end of the water guide ring is fixedly sleeved with two liquid injection pipes.

Further, the water-cooling heat dissipation mechanism further comprises two water-cooling pump bodies, and the two water-cooling pump bodies are respectively and fixedly installed at the bottom end of the right side of the plasma equipment box body.

Furthermore, two the fluid-discharge ports of water-cooled pump body are connected with two liquid injection pipes through the pipeline respectively, and the inlet ports of two water-cooled pump bodies are connected with the other end of the liquid guide groove in two heat-conducting plates through the pipeline respectively.

Further, the inside of an air inlet section of thick bamboo is provided with the blade, and the blade is connected with the dead lever through the pivot, and dead lever fixed connection is on the left end inside wall of an air inlet section of thick bamboo, and the brush-holder stud passes through the pivot to be connected at the right-hand member of blade.

Further, the outer wall fixed mounting of front shroud has a protection section of thick bamboo, and a protection section of thick bamboo corresponds the setting with an air inlet section of thick bamboo, and the protection network is fixed to be emboliaed at the other end of a protection section of thick bamboo.

Advantageous effects

The utility model provides a high-power plasma water-cooling integrated structure. The method has the following beneficial effects:

1. the high-power plasma water-cooling integrated structure is characterized in that an exhaust fan is started, the exhaust fan sucks outside air through an air inlet hole of a plasma equipment box body, the air sucked into the plasma equipment box body dissipates heat of plasma equipment in the plasma equipment box body and then is discharged from an air exhaust hole of the plasma equipment box body, one surfaces, close to each other, of two heat conduction plates are respectively attached to the plasma equipment in the plasma equipment box body, the heat of the plasma equipment is conducted through the two heat conduction plates, the two water-cooling pump bodies are started, the water-cooling liquid circulates in a water-cooling heat dissipation mechanism, the heat conducted on the two heat conduction plates is conducted into a water guide ring and a heat dissipation pipe through the heat dissipation fins in the water guide ring, the heat dissipation pipe and the heat dissipation fins are dissipated through the air sucked through the air inlet hole of the plasma equipment box body, the heat dissipation effect of the water-cooling liquid is effectively achieved, and the heat dissipation mode that air cooling and water cooling are combined on the plasma equipment is further achieved, and the heat dissipation effect is effectively improved.

2. This a high-power plasma water-cooling integral structure, through filtering protection mechanism's setting, when the heat dissipation is convulsions to this internal to plasma equipment case, the air at first gets into through the fresh air inlet of air inlet section of thick bamboo from plasma equipment case body after the filtration through the filter screen, the air drives the blade at the air inlet section of thick bamboo internal rotation when passing through the air inlet section of thick bamboo, the air inlet section of thick bamboo drives the brush-holder stud and rotates on the filter screen in the pivoted, thereby the rotation through the brush-holder stud is filtered accumulational dust and is brushed the clearance on the filter screen, thereby can also realize the effect of automatic clearance filter screen when realizing dustproof effect through the filter screen, can effectively realize the effect of protecting the brush-holder stud through a protection section of thick bamboo and protection network, and then effectively guaranteed the effect of automatic clearance.

Drawings

The structures, proportions, sizes, and other elements shown in the specification are for the understanding of the present disclosure, and are not intended to limit the scope of the present disclosure, which is defined by the claims, but rather by the claims.

FIG. 1 is a perspective view of the overall structure;

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is a perspective view of the filter guard mechanism.

Illustration of the drawings:

1. a plasma equipment cabinet body; 2. a box door; 31. a heat conducting plate; 32. a water-cooled pump body; 33. a water guide ring; 34. a liquid injection pipe; 35. a radiating pipe; 36. a heat dissipating fin; 37. a liquid discharge pipe; 4. an exhaust fan; 51. a front cover; 52. an air inlet cylinder; 53. a blade; 54. fixing the rod; 55. a filter screen; 56. a brush bar; 57. a protective cylinder; 58. and (4) a protective net.

Detailed Description

A high-power plasma water-cooling integrated structure is disclosed, as shown in FIG. 1-3, comprising a plasma equipment box body 1, a box door 2 is hinged on the left side of the plasma equipment box body 1, an air exhaust hole and an air inlet hole are respectively arranged on the left and right sides of the plasma equipment box body 1, an exhaust fan 4 is fixedly arranged at the air exhaust hole of the plasma equipment box body 1, a water-cooling heat sink mechanism is arranged at the air inlet hole of the plasma equipment box body 1, the water-cooling heat sink mechanism comprises a water guide ring 33 and two heat conduction plates 31, the water guide ring 33 is in an annular structure, the water guide ring 33 is fixedly arranged at the air inlet hole of the plasma equipment box body 1, heat dissipation fins 36 are uniformly distributed in the water guide ring 33, heat dissipation pipes 35 are uniformly distributed on the inner side walls of the upper and lower ends of the water guide ring 33, the two heat conduction plates 31 are in a rectangular structure, the two heat conduction plates 31 are respectively arranged in the plasma equipment box body 1, the upper and lower ends of the two heat conduction plates 31 are respectively provided with a guide groove which is reciprocating and communicated with the right, a filter mechanism is arranged on the upper end and a hollow-fixing water guide ring 37, a filter screen is respectively sleeved on the inner side wall of the water guide ring 33, a filter screen 55, a filter screen is respectively fixed on one side of which is connected with a water guide ring 37, a hollow-fixing sleeve which is arranged on the upper end of the water guide ring 33, the outer side wall of the bottom end of the water guide ring 33 is fixedly sleeved with two liquid injection pipes 34, the water-cooling heat dissipation mechanism further comprises two water-cooling pump bodies 32, the two water-cooling pump bodies 32 are respectively and fixedly installed at the bottom end of the right side of the plasma equipment box body 1, liquid discharge ports of the two water-cooling pump bodies 32 are respectively connected with the two liquid injection pipes 34 through pipelines, liquid inlets of the two water-cooling pump bodies 32 are respectively connected with the other ends of the liquid guide grooves in the two heat conduction plates 31 through pipelines, blades 53 are arranged inside the air inlet cylinder 52, the blades 53 are connected with a fixed rod 54 through a rotating shaft, the fixed rod 54 is fixedly connected on the inner side wall of the left end of the air inlet cylinder 52, a brush rod 56 is connected at the right end of the blades 53 through a rotating shaft, a protective cylinder 57 is fixedly installed on the outer wall of the front cover 51, the protective cylinder 57 corresponds to the air inlet cylinder 52, and the protective cylinder 58 is fixedly sleeved at the other end of the protective cylinder 57.

The utility model discloses a theory of operation: the exhaust fan 4 is started, the exhaust fan 4 sucks external air through an air inlet hole of the plasma equipment box body 1, the air sucked into the plasma equipment box body 1 dissipates heat of plasma equipment in the plasma equipment box body 1 and then is exhausted from an air outlet hole of the plasma equipment box body 1, meanwhile, one surfaces, close to each other, of the two heat conduction plates 31 are respectively attached to the plasma equipment in the plasma equipment box body 1, heat of the plasma equipment is conducted through the two heat conduction plates 31, the two water cooling pump bodies 32 are started, the two water cooling pump bodies 32 enable water cooling liquid to circulate in the water cooling heat dissipation mechanism, therefore, the heat conducted on the two heat conduction plates 31 is brought into the water guide ring 33 and the heat dissipation pipe 35 through the water cooling liquid, then heat conduction heat dissipation is performed through the heat dissipation fins 36 in the water guide ring 33, the heat dissipation pipe 35 and the heat dissipation fins 36 are dissipated through the air sucked through the air inlet hole of the plasma equipment box body 1, the heat dissipation effect of the water cooling liquid is effectively achieved, and the heat dissipation effect of the heat dissipation of the plasma equipment is effectively improved.

Through the setting of filtering protection mechanism, when the convulsions heat dissipation in to plasma equipment case body 1, the air at first gets into through the inlet opening of air inlet cylinder 52 from plasma equipment case body 1 after the filtration of filter screen 55, the air drives the blade 53 when passing through air inlet cylinder 52 and rotates in air inlet cylinder 52, air inlet cylinder 52 drives brush-holder stud 56 and rotates on filter screen 55 in the pivoted simultaneously, thereby brush out the clearance through the rotation of brush-holder stud 56 to the accumulational dust of filtration on filter screen 55, thereby can also realize the effect of automatic clearance filter screen 55 when realizing dustproof effect through filter screen 55, can effectively realize carrying out the effect of protection to brush-holder stud 56 through protection cylinder 57 and protection network 58, and then effectively guarantee the effect of automatic clearance.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a high-power plasma water-cooling integral structure, includes plasma equipment case body (1), and the left surface of plasma equipment case body (1) articulates there is chamber door (2), and the hole of airing exhaust and fresh air inlet, its characterized in that have been seted up respectively to two sides about plasma equipment case body (1): the plasma equipment box comprises a plasma equipment box body (1), wherein an exhaust fan (4) is fixedly installed at an air outlet of the plasma equipment box body (1), a water-cooling heat dissipation mechanism is arranged at the air inlet of the plasma equipment box body (1), the water-cooling heat dissipation mechanism comprises a water guide ring (33) and two heat conduction plates (31), the water guide ring (33) is of an annular structure, the water guide ring (33) is fixedly installed at the air inlet of the plasma equipment box body (1), heat dissipation fins (36) are uniformly distributed in the water guide ring (33), heat dissipation pipes (35) are uniformly distributed on the inner side walls of the upper end and the lower end of the water guide ring (33), the two heat conduction plates (31) are of a rectangular structure, the two heat conduction plates (31) are respectively located in the plasma equipment box body (1), liquid guide grooves which reciprocate left and right and are communicated are respectively formed in the upper end and the lower end of the right side of the two heat conduction plates (31), a filtering protection mechanism is arranged at the right end of the plasma equipment box body (1), the filtering protection mechanism comprises a front cover (51), the right end of the front cover (51) is hinged at the right end of the plasma equipment box body (1), a filtering cylinder (52) is fixedly sleeved with a filtering net rod (55), and a filtering net (55) with a filtering net rod (55), and a filtering net rod (55) arranged on one side of a filtering net (55), and a filtering net rod, a filtering net (55) which is arranged on one side of a filtering net (55).

2. The high-power plasma water-cooling integrated structure as claimed in claim 1, wherein: the interiors of the upper end and the lower end of the water guide ring (33) are hollow, the interiors of the upper end and the lower end of the water guide ring (33) are respectively communicated through each radiating pipe (35), and each radiating pipe (35) is respectively in fixed sleeved relation with each radiating fin (36) in the water guide ring (33).

3. The high-power plasma water-cooling integrated structure as claimed in claim 1, wherein: two liquid discharge pipes (37) are fixedly sleeved on the outer side wall of the top end of the water guide ring (33), the two liquid discharge pipes (37) are respectively connected with one end of a liquid guide groove in the two heat conduction plates (31) through pipelines, and two liquid injection pipes (34) are fixedly sleeved on the outer side wall of the bottom end of the water guide ring (33).

4. The high-power plasma water-cooling integrated structure as claimed in claim 3, wherein: the water-cooling heat dissipation mechanism further comprises two water-cooling pump bodies (32), the two water-cooling pump bodies (32) are fixedly mounted at the bottom end of the right side of the plasma equipment box body (1) respectively, liquid discharge ports of the two water-cooling pump bodies (32) are connected with two liquid injection pipes (34) through pipelines respectively, and liquid inlets of the two water-cooling pump bodies (32) are connected with the other ends of the liquid guide grooves in the two heat conduction plates (31) through pipelines respectively.

5. The high-power plasma water-cooling integrated structure as claimed in claim 1, wherein: the novel air inlet device is characterized in that blades (53) are arranged inside the air inlet barrel (52), the blades (53) are connected with fixing rods (54) through rotating shafts, the fixing rods (54) are fixedly connected to the inner side wall of the left end of the air inlet barrel (52), and the brush rod (56) is connected to the right end of the blades (53) through the rotating shafts.

6. The high-power plasma water-cooling integrated structure as claimed in claim 5, wherein: the outer wall fixed mounting of front shroud (51) has a protective barrel (57), and protective barrel (57) and air inlet cylinder (52) correspond the setting, and the other end at protective barrel (57) is emboliaed in the protection network (58) is fixed.

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