CN202617586U - External connection type gas liquid composite cooling system - Google Patents
External connection type gas liquid composite cooling system Download PDFInfo
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- CN202617586U CN202617586U CN 201220249292 CN201220249292U CN202617586U CN 202617586 U CN202617586 U CN 202617586U CN 201220249292 CN201220249292 CN 201220249292 CN 201220249292 U CN201220249292 U CN 201220249292U CN 202617586 U CN202617586 U CN 202617586U
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- cover body
- liquid
- cooling system
- fan
- gas
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Abstract
The utility model provides an external connection type gas liquid composite cooling system comprising a liquid radiator, a cover body and a fan. The cover body is covered on the liquid radiator, and comprises at least a connection part connected with the liquid radiator. The fan is disposed in the cover body and between the liquid radiator and the cover body. The utility model also provides an external connection type gas liquid composite cooling system comprising a liquid radiator, a buckle, a cover body and a fan. The buckle is pressed on the liquid radiator, and the cover body is covered on the liquid radiator. The cover body comprises at least a connection part connected with the buckle, and the fan is disposed in the cover body. The fan can be easily fixedly disposed on the liquid radiator with the help of the structure of the connection part.
Description
Technical field
The relevant gas-liquid composite cooling system of the utility model, the circumscribed gas-liquid composite cooling system that particularly a kind of its fan is easy to assemble.
Background technology
The execution speed of pyrotoxin such as various compute chip is more and more fast on the computer now, and its caloric value is also more and more high, so liquid or gas quench system can be set on the chip usually assist heat radiation to keep chip normal operation under the temperature of permission.
Because forced air-cooled cooling device (for example fan) does not use in the face of high-power chip does not apply gradually, liquid-cooling system (for example water-cooling apparatus) has become following trend.Early stage water-cooling apparatus can only utilize the mode of water-cooled to dispel the heat to chip separately; Therefore heat radiation only tells on to chip; Electronic building brick for around the chip then can't provide relative radiating effect; But computer now is except the power of compute chip own increases; The power of peripheral electronic component also increases thereupon, if just separately to the central processing unit heat radiation and the electronic building brick around it is not dispelled the heat, then still might cause peripheral electronic component overheated and cause the situation of circuit board damage to take place.
In order to address the above problem; Therefore derive the compound cooling system of gas-liquid again; The radiator structure of the disclosed a kind of water-cooling apparatus of TaiWan, China patent announcement I256284 for example; This radiator structure is provided with a fan and blows to water-cooling apparatus on water-cooling apparatus, and cools off central processing unit electronic building brick on every side by blowing over the air-flow of dispersing behind the water-cooling apparatus.
The shortcoming of existing cooling system is; In order on water-cooling apparatus, to increase fan is set; The fixed structure that must set up fan makes and keeps enough spacings between fan and the water-cooling apparatus for air flow fan is fixed in the high fan of circuit board and frame; Therefore existing cooling system need increase by four fixed legs and also need increase screw with the locking fan with the high fan of frame, and not only installing is inconvenient, and has lacked the safety measure of cover body.
The utility model content
In view of this, the purpose of the utility model is the circumscribed gas-liquid composite cooling system that provides a kind of its fan to be easy to assemble.
For achieving the above object, the utility model provides a kind of gas-liquid composite cooling system of circumscribed, and this gas-liquid composite cooling system comprises liquid radiator, cover body and fan.Said cover body covers at said liquid radiator, and said cover body comprises fastener, is engaged in said liquid radiator.Said fan is arranged within the said cover body, and between said liquid radiator and said cover body.
Preferably, the sidewall that said cover body comprises top board and extends from the top board edge-perpendicular, said fastener is convexly set in said sidewall towards the inboard of said cover body.
Preferably, said top board offers first port, and said fan comprises the side of giving vent to anger that is used to suck the air inlet side of air and is used for blow out air, the said first port setting of aliging of said air inlet side.
Preferably, the said side of the giving vent to anger said first port setting of aliging.
Preferably, the parallel liquid radiator setting of said fan, and also said air inlet side, said side and the said liquid radiator of giving vent to anger are arranged in a linear.
For achieving the above object, the utility model provides a kind of gas-liquid composite cooling system of circumscribed in addition, and this gas-liquid composite cooling system comprises liquid radiator, fastener, cover body and fan.Said fastener is suppressed in said liquid radiator setting, and said cover body covers at said liquid radiator, and said cover body comprises fastener, is buckled in said fastener, and said fan is arranged within the said cover body and between said liquid radiator and said cover body.
Preferably, the sidewall that said cover body comprises top board and extends from said top board edge-perpendicular, said fastener is convexly set in said sidewall towards the inboard of said cover body.
Preferably, said top board offers first port, and said fan comprises the side of giving vent to anger that is used to suck the air inlet side of air and is used for blow out air, the said first port setting of aliging of said air inlet side.
Preferably, the said side of the giving vent to anger said first port setting of aliging.
Preferably, the parallel said liquid radiator setting of said fan, and also said air inlet side, said side and the said liquid radiator of giving vent to anger are arranged in a linear.
Compared to prior art; The fastener structure of the gas-liquid composite cooling system of the circumscribed of the utility model on the cover body; Can fan be assembled on the liquid radiator fast and simply; Prior art is assembled complex procedures not only with screw but also is lacked the safety measure of cover body, so the utility model has effectively improved the shortcoming of prior art.
Description of drawings
Fig. 1 is the schematic perspective view of gas-liquid composite cooling system of first embodiment of the utility model;
Fig. 2 is the scheme of installation of gas-liquid composite cooling system of first embodiment of the utility model;
Fig. 3 is the decomposing schematic representation of gas-liquid composite cooling system of first embodiment of the utility model;
Fig. 4 is the cross-sectional schematic along 4-4 line among Fig. 2;
Fig. 5 is the cross-sectional schematic along 5-5 line among Fig. 2;
Fig. 6 is the cross-sectional schematic of gas-liquid composite cooling system of second embodiment of the utility model.
Description of reference numerals
10 circuit boards, 11 compute chip
12 electronic building bricks, 100 liquid radiators
101 Access Divisions, 110 water inlets
120 delivery ports, 200 fasteners
210 openings, 211 flanges
220 lockholes, 230 screws
240 springs, 300 cover bodies
310 top boards, 311 first ports
320 sidewalls, 321 second ports
330 fasteners, 340 trips
400 fans, 410 air inlet sides
420 side 430 jacks of giving vent to anger
500 fins group, 600 liquor pumps
Embodiment
Technology contents of relevant the utility model and detailed description, with the conjunction with figs. explanation as follows, yet appended accompanying drawing is not to be used to limit to the utility model only as illustrative purposes.
Please see figures.1.and.2; First embodiment of the utility model provides a kind of gas-liquid composite cooling system of circumscribed, and this gas-liquid composite cooling system is arranged on the circuit board 10 electronic building brick 12 with compute chip on the cooling circuit board 10 11 and compute chip 11 peripheries.For example circuit board 10 is the mainboard of computer; Compute chip 11 can be arranged on CPU (the Central Processing Unit on the mainboard; Central processing unit) or GPU is (Graphic Processing Unit; Graphic process unit), the electronic building brick 12 of compute chip 11 peripheries possibly be south bridge, north bridge, memory or network card etc., but the utility model is not limited thereto.The gas-liquid composite cooling system of the utility model comprises: liquid radiator 100, fastener 200, cover body 300, fan 400, fins group 500 and liquor pump 600.
Please in the lump with reference to Fig. 3; The position of liquid radiator 100 corresponding compute chip 11 and being arranged on the circuit board 10; And liquid radiator 100 fits with compute chip 11; Liquid radiator 100 has water inlet 110 and delivery port 120, and working fluid (for example water) is carried out after the heat exchange again by delivery port 120 trickle radiators 100 with compute chip 11 by water inlet 110 influent radiators 100, with heat energy band that compute chip 11 is produced from liquid radiator 100.
Fastener 200 is used for liquid radiator 100 is fixed in circuit board 10, to guarantee driving fit mutually between liquid radiator 100 and the compute chip 11.In the present embodiment, preferably, fastener 200 is sheet metal (the utility model is not limited thereto); Run through on the fastener 200 and be provided with opening 210; The inner edge of opening 210 convexes with flange 211, and liquid radiator 100 is between fastener 200 and circuit board 10, and the position of aligned openings 210 is provided with; Make liquid radiator 100 can not covered by fastener 200, flange 211 is suppressed in the edge of liquid radiator 100.Run through offering several lockholes 220 on the fastener 200, pass each lockhole 220 respectively and fastener 200 is locked in circuit board 10 and packing liquid radiator 100 and compute chip 11 by several screws 230.Preferably, spring 240 can be set as buffering between the lockhole 220 that screw 230 and its lock are established, spring 240 is sheathed on screw 230, and its two ends are butt screw 230 and lockhole 220 respectively.
With reference to Fig. 3 and Fig. 4, cover body 300 covers at outside the liquid radiator 100, and cover body 300 comprises top board 310, sidewall 320 and at least one fastener 330.Top board 310 offers and supplies air to flow into first port 311 of this cover body 300.Sidewall 320 is from the extension of top board 310 edge-perpendicular and around top board 310, and sidewall 320 offers and supplies air to discharge second port 321 of cover body 300.Preferably, fastener 330 is a hook structure, and its inboard that is convexly set in sidewall 320 is and projecting inward to cover body 300, and fastener 330 is used to be engaged in liquid radiator 100 and cover body 300 is fixed in liquid radiator 100.Preferably, liquid radiator 100 is provided with Access Division 101 (can be groove or projection etc., the utility model is not limited thereto), fixes for fastener 330.
With reference to Fig. 3, Fig. 4 and Fig. 5, fan 400 is arranged within the cover body 300, and fan 400 is between liquid radiator 100 and top board 310.Fan 400 comprises and is used to the side 420 of giving vent to anger that sucks the air inlet side 410 of air and be used for blow out air, and this this first port 311 of air inlet side 410 alignment is provided with.Preferably, fan 400 parallel liquid radiators 100 are provided with, and the side of giving vent to anger 420 is provided with towards liquid radiator 100, and air inlet side 410, the side of giving vent to anger 420 and liquid radiator 100 are arranged in a linear.Fan 400 sucks air this cover body 300 and discharges cover body 300 by second port 321 from this first port 311; Air is discharged cover body 300 from second port, 321 side direction and is flowed through that (fan 400 also can be provided with side 420 alignment first port 311 of giving vent to anger for electronic building bricks 12 and the cool electronic assemblies 12 of compute chip 11 peripheries; Fan 400 sucks this cover body 300 with air from this second port 321; The electronic building bricks 12 of the compute chip of flowing through simultaneously 11 periphery and cool electronic assemblies 12, and discharge cover bodies 300 by first port 311).Preferably; Fan 400 can be fixedly set within the cover body 300 by one group of fixed structure; The utility model does not limit the form of fixed structure; For example can by trip 340 is set on the cover body 300 and on fan 400 to offering jack 430 by trip 340, trip 340 snaps in jack 430 and fan 400 is fixedly set within the cover body 300.
Refer again to Fig. 1; Fins group 500 is connected with liquid radiator 100 by pipeline; Preferably; Fins group 500 is connected with pipeline with the water inlet 110 of liquid radiator 100 and delivery port 120 respectively, and working fluid carries out being discharged by delivery port 120 after the heat exchange in liquid radiator 100, promptly flows into fins group 500; Working fluid carries out heat exchange and heat energy is expelled in the air by fins group 500 and air, and working fluid is expelled to after the air heat energy again by water inlet 110 influent radiators 100.
With reference to Fig. 6; Second embodiment of the utility model provides a kind of gas-liquid composite cooling system of circumscribed; Be used to be arranged on the circuit board 10 electronic building brick 12 with compute chip on the cooling circuit board 10 11 and compute chip 11 peripheries, this gas-liquid composite cooling system comprises: liquid radiator 100, fastener 200, cover body 300, fan 400, fins group 500 and liquor pump 600.Roughly as aforementioned first embodiment, the part that is basically the same as those in the first embodiment repeats no more at this for the structure of each assembly of present embodiment and annexation.
The difference of the present embodiment and first embodiment is: fastener 200 is suppressed in this liquid radiator 100 and is provided with, and cover body 300 covers at outside the liquid radiator 100, and fan 400 is arranged within the cover body 300 and between liquid radiator 100 and top board 310.Cover body 300 comprises fastener 330, and preferably fastener 330 is snapped in the outer rim of fastener 200 in the present embodiment, but the utility model is not limited thereto.
Fastener 330 structures of the gas-liquid composite cooling system of the circumscribed of the utility model on the cover body 300 do not need instrument can fan 400 be assembled on the liquid radiator 100 fast and simply.In addition, by the sidewall 320 of cover body 300 can with 400 in fan high and and keep between the liquid radiator 100 at interval, set up the air flow circuit of turnover cover body 300 simultaneously by first port 311 and second port 321.Prior art is with the assembling of screw and fixed leg, and it is compared to the utility model complex procedures but also lack the cover body protection not only, so the utility model has effectively improved the shortcoming of prior art.
The above is merely the specifying of preferred embodiment of the utility model, is not the protection range in order to limitation the utility model, and other any equivalent transformation all should belong to the application's claim scope.
Claims (10)
1. the gas-liquid composite cooling system of a circumscribed is characterized in that, this gas-liquid composite cooling system comprises:
Liquid radiator;
Cover body covers at said liquid radiator, and said cover body comprises fastener, and this fastener is engaged in said liquid radiator; And
Fan is arranged within the said cover body, and said fan is between said liquid radiator and said cover body.
2. gas-liquid composite cooling system as claimed in claim 1 is characterized in that, the sidewall that said cover body comprises top board and extends from this top board edge-perpendicular, and said fastener is convexly set in said sidewall towards the inboard of said cover body.
3. gas-liquid composite cooling system as claimed in claim 2 is characterized in that said top board offers first port, and said fan comprises the side of giving vent to anger that is used to suck the air inlet side of air and is used for blow out air, the said first port setting of aliging of said air inlet side.
4. gas-liquid composite cooling system as claimed in claim 3 is characterized in that, the said first port setting of aliging of the said side of giving vent to anger.
5. gas-liquid composite cooling system as claimed in claim 4 is characterized in that, the parallel said liquid radiator setting of said fan, and also said air inlet side, said side and the said liquid radiator of giving vent to anger are arranged in a linear.
6. the gas-liquid composite cooling system of a circumscribed is characterized in that, this gas-liquid composite cooling system comprises:
Liquid radiator;
Fastener is suppressed in said liquid radiator setting;
Cover body covers at said liquid radiator, and said cover body comprises fastener, and this fastener is engaged in said fastener; And
Fan is arranged within the said cover body, and said fan is between said liquid radiator and said cover body.
7. gas-liquid composite cooling system as claimed in claim 6 is characterized in that, the sidewall that said cover body comprises top board and extends from said top board edge-perpendicular, and said fastener is convexly set in said sidewall towards the inboard of said cover body.
8. gas-liquid composite cooling system as claimed in claim 7 is characterized in that said top board offers first port, and said fan comprises the side of giving vent to anger that is used to suck the air inlet side of air and is used for blow out air, the said first port setting of aliging of said air inlet side.
9. gas-liquid composite cooling system as claimed in claim 8 is characterized in that, the said first port setting of aliging of the said side of giving vent to anger.
10. gas-liquid composite cooling system as claimed in claim 9 is characterized in that, the parallel said liquid radiator setting of said fan, and also said air inlet side, said side and the said liquid radiator of giving vent to anger are arranged in a linear.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220249292 CN202617586U (en) | 2012-05-29 | 2012-05-29 | External connection type gas liquid composite cooling system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220249292 CN202617586U (en) | 2012-05-29 | 2012-05-29 | External connection type gas liquid composite cooling system |
Publications (1)
Publication Number | Publication Date |
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CN202617586U true CN202617586U (en) | 2012-12-19 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201220249292 Expired - Lifetime CN202617586U (en) | 2012-05-29 | 2012-05-29 | External connection type gas liquid composite cooling system |
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CN (1) | CN202617586U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112987861A (en) * | 2019-12-12 | 2021-06-18 | 鸿富锦精密工业(武汉)有限公司 | Heat dissipation equipment mechanism and quick-witted case |
-
2012
- 2012-05-29 CN CN 201220249292 patent/CN202617586U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112987861A (en) * | 2019-12-12 | 2021-06-18 | 鸿富锦精密工业(武汉)有限公司 | Heat dissipation equipment mechanism and quick-witted case |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20121219 |