CN114415805A - Heat dissipation mechanism for computer host - Google Patents

Abstract

The invention relates to the technical field of computers, and discloses a heat dissipation mechanism for a computer host, aiming at solving the problem that the existing heat dissipation mechanism for the computer host has poor heat dissipation and cooling effects when in use. When the cooling device is used, the rotating ring is exhausted through the air exhausting part, the exhausted air is injected into the transition shell by the air exhausting part, the air is contacted with the wetted soaking part to realize cooling and then enters the main body of the computer, the air in the main body of the computer flows, the cooling effect is improved, meanwhile, the air guide mechanism guides and disperses the air entering the main body of the computer, and the cooled cold air is ensured to be fully contacted with parts in the main body of the computer.

Description

Heat dissipation mechanism for computer host

Technical Field

The invention relates to the technical field of computers, in particular to a heat dissipation mechanism for a computer host.

Background

The computer mainframe refers to a main body part of the computer except for input and output devices, and also is a control box body for placing a mainboard and other main components, and generally includes a CPU, a memory, a mainboard, a hard disk, an optical drive, a power supply, a chassis, a heat dissipation system, and other input and output controllers and interfaces.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a heat dissipation mechanism for a computer host.

In order to achieve the purpose, the invention adopts the following technical scheme:

a heat dissipation mechanism for a computer host comprises a computer host body and a mounting seat for placing the computer host body, wherein a mounting hole is formed in the outer wall of one side of the computer host body, a filter screen plate is arranged in the mounting hole, and the heat dissipation mechanism also comprises a transition mechanism for injecting air into the computer host body;

the transition mechanism comprises a transition shell, and a first through hole is formed in one side, close to the filter screen plate, of the transition shell;

the outer wall of the bottom of the computer main body is provided with through holes which are distributed annularly;

the air pumping mechanism is used for pumping air in the main body of the computer host to the transition shell from the through hole;

the cooling mechanism is used for cooling the air pumped by the air pumping mechanism;

the cooling mechanism comprises a soaking part, a water outlet part and a water collecting tank, wherein the soaking part is used for cooling air entering the transition shell, the water outlet part is used for wetting the soaking part, and the water collecting tank is used for collecting redundant water stains in the soaking part;

the water collecting device also comprises a conveying part and a heat dissipation bent pipe, wherein the conveying part is used for extracting water stains accumulated in the water collecting tank and cooling the water extracted by the conveying part;

the filter component is used for filtering and dehumidifying the air cooled by the soaking component;

the air guide mechanism is used for guiding air entering the computer host body.

Preferably, the air guide mechanism comprises an air guide part which is movably arranged, and the position of the air guide part corresponds to the position of the filter screen plate;

the second driving part is used for driving the air guide part to swing in a reciprocating mode.

Preferably, the air exhaust mechanism comprises a movably arranged rotating ring, an air exhaust hole is formed in one side of the rotating ring close to the through hole, and the air exhaust mechanism further comprises an air exhaust part for exhausting air in the rotating ring;

one side of the rotating ring close to the computer main body is provided with a cleaning component through an elastic piece and used for brushing and cleaning the through hole;

the second driving component is used for driving the rotating ring to rotate.

Preferably, the bottom of the mounting seat is provided with a supporting piece for supporting the bottom of the computer main body;

the pressing mechanism is used for pressing and fixing the top of the computer host body and comprises a pressing part installed through a second telescopic piece.

Preferably, the computer mainframe further comprises a connecting mechanism for connecting the outer wall of the computer mainframe body and the outer wall of the transition shell.

Preferably, the connecting mechanism comprises a connecting ring arranged on the outer wall of the transition shell through a first telescopic piece, and a connecting sleeve made of flexible materials is arranged between the connecting ring and the transition shell and used for conducting transition on air sprayed out of the first through hole.

Preferably, the air conditioner further comprises a water removing mechanism for removing water from the air cooled by the soaking part;

the dewatering mechanism comprises a fixed screen plate arranged in the water collecting tank;

the side of the fixed screen plate is provided with a side wing which is obliquely arranged and used for increasing the contact area of air and the side wing.

Preferably, the air conditioner further comprises a humidity sensor for detecting humidity of the air ejected from the first through holes.

Preferably, the air outlet mechanism comprises an air outlet part which is movably arranged, and an air outlet hole is formed in the outer wall of the bottom of the air outlet part.

Preferably, a cavity is formed in the air guide part, and an air inlet is formed in one side, close to the filter screen plate, of the cavity;

the inside of the air guide part is communicated with the inside of the air outlet part through a connecting pipe.

The invention has the beneficial effects that:

when in use, the main body of the computer is fixed in the mounting seat, the rotating ring is pumped by the air pumping part, so that the inside of the main body of the computer is pumped by the through hole, the air pumped by the air pumping part is injected into the transition shell, the air is contacted with the wetted wetting part to realize cooling, the air cooled is filtered and dehumidified by the filtering part, the filtered air enters the main body of the computer after being filtered by the filter screen plate to realize the flowing of the air in the main body of the computer, the cooling effect is improved, meanwhile, the air guide mechanism guides and disperses the air entering the main body of the computer to ensure that the cooled cold air is fully contacted with parts in the main body of the computer, the water stain flowing to the bottom of the wetting part is collected by the water collecting tank, the water in the water collecting tank is pumped by the conveying part and is re-injected into the water outlet part after being cooled by the heat dissipation bent pipe, realizing the recycling of water resources.

Drawings

Fig. 1 is a schematic structural diagram of a heat dissipation mechanism for a computer host according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a cooling mechanism for a heat dissipation mechanism of a computer host according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an air guiding mechanism of a heat dissipation mechanism for a computer host according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an air-extracting mechanism of a heat-dissipating mechanism for a computer host according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a pressing mechanism of a heat dissipation mechanism for a computer host according to an embodiment of the present invention.

In the figure: 1-mounting seat, 2-cooling mechanism, 21-heat dissipation bent pipe, 22-wetting component, 23-conveying component, 24-water outlet component, 25-water collecting tank, 3-air pumping mechanism, 31-rotating ring, 32-air pumping component, 33-air pumping hole, 34-cleaning component, 4-transition mechanism, 41-transition shell, 42-first perforation, 5-dewatering mechanism, 51-fixed screen plate, 52-side wing, 6-humidity sensor, 7-connecting mechanism, 71-connecting ring, 72-first telescopic piece, 8-filtering component, 9-pressing mechanism, 91-pressing component, 92-second telescopic piece, 10-air outlet mechanism, 101-air outlet component, 102-air outlet hole, 11-computer main body, 12-a support member, 13-a filter screen plate, 14-an air guide mechanism, 141-an air inlet hole, 142-an air guide part and 143-a second driving part.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 5, a heat dissipation mechanism for a computer host includes a computer host body 11, and a mounting base 1 for placing the computer host body 11, wherein a mounting hole is formed in an outer wall of one side of the computer host body 11, a filter screen 13 is arranged in the mounting hole, and a transition mechanism 4 for injecting air into the computer host body 11;

the transition mechanism 4 comprises a transition shell 41, and a first through hole 42 is formed in one side of the transition shell 41 close to the filter screen 13;

the outer wall of the bottom of the computer main body 11 is provided with through holes distributed annularly;

the air extracting mechanism 3 is used for extracting air in the computer main body 11 from the through hole to the transition shell 41;

the cooling mechanism 2 is used for cooling the air pumped by the air pumping mechanism 3;

the cooling mechanism 2 comprises a wetting part 22 for cooling the air entering the transition shell 41, a water outlet part 24 for wetting the wetting part 22, and a water collecting tank 25 for collecting the redundant water stains in the wetting part 22;

the water cooling device also comprises a conveying part 23, a heat dissipation bent pipe 21 and a water cooling device, wherein the conveying part 23 is used for extracting water stains accumulated in the water collecting tank 25 and cooling the water extracted by the conveying part 23;

the filtering component 8 is used for filtering and dehumidifying the air cooled by the soaking component 22;

the computer mainframe comprises a mounting seat 1, an air guide mechanism 14 for guiding air entering the computer mainframe 11, when in use, the computer mainframe 11 is fixed in the mounting seat 1, the rotating ring 31 is pumped by an air pumping part 32, so that the inside of the computer mainframe 11 is pumped by a through hole, the air pumping part 32 injects the pumped air into a transition shell 41, the air is contacted with a wetted soaking part 22 to realize cooling, a filtering part 8 filters and dehumidifies the cooled air, the filtered air enters the computer mainframe 11 after being filtered by a filter screen 13 to realize the flow of the air in the computer mainframe 11 and improve the cooling effect, and meanwhile, the air guide mechanism 14 guides and disperses the air entering the computer mainframe 11 to ensure that the cooled cold air is fully contacted with parts in the computer mainframe 11, the water collecting tank 25 collects water stains flowing to the bottom of the soaking part 22, the conveying part 23 extracts water in the water collecting tank 25, the water is cooled by the heat dissipation bent pipe 21 and then injected into the water outlet part 24 again, and therefore cyclic utilization of water resources is achieved.

In a preferred embodiment of the present invention, the wetting member 22 is made of a material such as a nonwoven fabric or a sponge, and in this embodiment, the wetting member 22 is preferably made of a sponge.

As a preferred embodiment of the present invention, the wind guiding mechanism 14 includes a wind guiding component 142 movably disposed, and the position of the wind guiding component 142 corresponds to the position of the filter screen 13;

the second driving part 143 is further included for driving the wind guide part 142 to swing back and forth.

As a preferred embodiment of the present invention, the air-extracting mechanism 3 includes a movably disposed rotating ring 31, an air-extracting hole 33 is disposed on one side of the rotating ring 31 close to the through hole, and an air-extracting part 32 for extracting air from the rotating ring 31;

a cleaning component 34 is arranged on one side of the rotating ring 31 close to the computer main body 11 through an elastic piece and is used for brushing and cleaning the through hole;

still include the second driver part for the drive rotates circle 31 and rotates, rotates circle 31 through the drive of second driver part during the use and rotates, and the part 32 of bleeding simultaneously is bled to the inside of rotating circle 31, realizes bleeding in the main body 11 of computer, and the elastic component promotes cleaning element 34 and brushes to the through-hole department and moves cleanly simultaneously.

As a preferred embodiment of the present invention, the bottom of the mounting base 1 is provided with a supporting member 12 for supporting the bottom of the main body 11 of the computer mainframe;

the pressing mechanism 9 is used for pressing and fixing the top of the computer main body 11, the pressing mechanism 9 comprises a pressing part 91 installed through a second telescopic piece 92, and after the computer main body 11 is placed on the supporting piece 12, the pressing part 91 can be pushed by the second telescopic piece 92 to press and fix the top of the computer main body 11.

In a preferred embodiment of the present invention, the pressing member 91 is made of a material such as rubber or silicone, and in this embodiment, the pressing member 91 is preferably made of a rubber material.

As a preferred embodiment of the present invention, the present invention further comprises a connection mechanism 7 for connecting the outer wall of the computer main body 11 and the outer wall of the transition casing 41.

In a preferred embodiment of the present invention, the connection mechanism 7 includes a connection ring 71 mounted on the outer wall of the transition housing 41 through a first expansion member 72, and a connection sleeve made of flexible material is disposed between the connection ring 71 and the transition housing 41 for performing transition on the air ejected from the first through hole 42.

As a preferred embodiment of the present invention, the present invention further comprises a water removing mechanism 5 for removing water from the air cooled by the wetted parts 22;

the dewatering mechanism 5 comprises a fixed screen plate 51 arranged in the water collecting tank 25;

the side of the fixed net plate 51 is provided with a side wing 52 which is obliquely arranged for increasing the contact area of air and the side wing 52.

As a preferred embodiment of the present invention, the air humidity sensor 6 is further included for detecting the humidity of the air ejected from the first through hole 42, detecting the humidity of the air entering the main body 11 of the computer in time, and replacing the filtering component 8 in time to ensure sufficient air filtering and dehumidifying.

As a preferred embodiment of the present invention, the present invention further includes an air outlet mechanism 10, wherein the air outlet mechanism 10 includes an air outlet part 101 movably disposed, and an air outlet hole 102 is disposed on an outer wall of a bottom of the air outlet part 101.

As a preferred embodiment of the present invention, a cavity is formed inside the air guiding component 142, and an air inlet 141 is formed at one side of the cavity close to the filter screen 13;

the inside of air guide part 142 is communicated with the inside of air outlet part 101 through a connecting pipe, air enters computer main body 11 after being filtered by filter screen plate 13, partial air enters the cavity through air inlet hole 141 and is guided to air outlet part 101 through the connecting pipe, and the air is sprayed out from air outlet hole 102, so that the cooling of the top inside computer main body 11 is realized, and the cooling is more comprehensive.

When in use, the main body 11 of the computer is fixed in the mounting seat 1, the air is pumped in the rotating ring 31 through the air pumping part 32, so that the inside of the main body 11 of the computer is pumped through the through hole, the pumped air is injected into the transition shell 41 by the air pumping part 32, the air is contacted with the wetted wetting part 22 to realize cooling, the air after being cooled is filtered and dehumidified by the filtering part 8, the filtered air enters the main body 11 of the computer after being filtered by the filter screen plate 13 to realize the flow of the air in the main body 11 of the computer, the cooling effect is improved, meanwhile, the air guide mechanism 14 guides and disperses the air entering the main body 11 of the computer, the cooled cold air is ensured to be fully contacted with the parts in the main body 11 of the computer, the water collecting tank 25 collects the water stain flowing to the bottom of the wetting part 22, the conveying part 23 pumps the water in the water collecting tank 25, and is cooled by the heat dissipation bent pipe 21 and then is injected into the water outlet part 24 again, so that the cyclic utilization of water resources is realized; when the cleaning device is used, the second driving part drives the rotating ring 31 to rotate, the air extracting part 32 extracts air from the inside of the rotating ring 31, so that air in the computer main body 11 is extracted, and meanwhile, the elastic part pushes the cleaning part 34 to brush and clean the through hole; after the main body 11 is placed on the supporting member 12, the pressing member 91 can be pushed by the second telescopic member 92 to press and fix the top of the main body 11; air enters the computer main body 11 after being filtered by the filter screen plate 13, part of the air enters the cavity through the air inlet 141 and is guided to the air outlet part 101 through the connecting pipe, and the air is sprayed out of the air outlet 102, so that the top inside the computer main body 11 is cooled, and the cooling is more comprehensive.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A heat dissipation mechanism for a computer host comprises a computer host body and a mounting seat for placing the computer host body, wherein a mounting hole is formed in the outer wall of one side of the computer host body, and a filter screen plate is arranged in the mounting hole;

the transition mechanism comprises a transition shell, and a first through hole is formed in one side, close to the filter screen plate, of the transition shell;

the outer wall of the bottom of the computer main body is provided with through holes which are distributed annularly;

the air pumping mechanism is used for pumping air in the main body of the computer host to the transition shell from the through hole;

the cooling mechanism is used for cooling the air pumped by the air pumping mechanism;

the cooling mechanism comprises a soaking part, a water outlet part and a water collecting tank, wherein the soaking part is used for cooling air entering the transition shell, the water outlet part is used for wetting the soaking part, and the water collecting tank is used for collecting redundant water stains in the soaking part;

the water collecting device also comprises a conveying part and a heat dissipation bent pipe, wherein the conveying part is used for extracting water stains accumulated in the water collecting tank and cooling the water extracted by the conveying part;

the filter component is used for filtering and dehumidifying the air cooled by the soaking component;

the air guide mechanism is used for guiding air entering the computer host body.

2. The heat dissipation mechanism for the host computer of claim 1, wherein the air guiding mechanism comprises an air guiding component movably arranged, and the position of the air guiding component corresponds to the position of the filter screen;

the second driving part is used for driving the air guide part to swing in a reciprocating mode.

3. The heat dissipation mechanism for the host computer of the computer according to claim 2, wherein the air extraction mechanism comprises a movably arranged rotating ring, one side of the rotating ring close to the through hole is provided with an air extraction hole, and the air extraction mechanism further comprises an air extraction part for extracting air from the rotating ring;

one side of the rotating ring close to the computer main body is provided with a cleaning component through an elastic piece and used for brushing and cleaning the through hole;

the second driving component is used for driving the rotating ring to rotate.

4. The heat dissipation mechanism for the host computer of claim 3, wherein the bottom of the mounting seat is provided with a support member for supporting the bottom of the host computer body;

the pressing mechanism is used for pressing and fixing the top of the computer host body and comprises a pressing part installed through a second telescopic piece.

5. The heat dissipation mechanism of claim 4, further comprising a connection mechanism for connecting the outer wall of the main body of the computer host and the outer wall of the transition housing.

6. The heat dissipation mechanism of claim 5, wherein the connection mechanism comprises a connection ring mounted on an outer wall of the transition housing through the first expansion member, and a connection sleeve made of a flexible material is disposed between the connection ring and the transition housing for passing through air ejected from the first through hole.

7. The heat dissipation mechanism for a computer host according to claim 1, further comprising a water removal mechanism for removing water from the air cooled by the wetted parts;

the dewatering mechanism comprises a fixed screen plate arranged in the water collecting tank;

the side of the fixed screen plate is provided with a side wing which is obliquely arranged and used for increasing the contact area of air and the side wing.

8. The heat dissipating mechanism for a computer main body according to claim 1, further comprising a humidity sensor for detecting humidity of the air ejected from the first through holes.

9. The heat dissipation mechanism for the host computer of claim 2, further comprising an air outlet mechanism, wherein the air outlet mechanism comprises an air outlet part movably arranged, and an air outlet hole is formed in the outer wall of the bottom of the air outlet part.

10. The heat dissipation mechanism of claim 9, wherein the air guide member has a cavity therein, and an air inlet is formed in a side of the cavity adjacent to the filter screen;

the inside of the air guide part is communicated with the inside of the air outlet part through a connecting pipe.

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