CN208999940U - A kind of computer water-cooling system based on double mainboard structures - Google Patents

Abstract

The utility model discloses a kind of computer water-cooling systems based on double mainboard structures, including water tank, cooler and absorbing pipe, one end of water tank connects one end of cooler by water-supply-pipe, the lateral wall of water tank installs micro pump, the water inlet of micro pump connects water tank, the both ends of absorbing pipe are separately connected the other end of cooler and the water outlet of micro pump by the water-supply-pipe through computer cabinet, pipe outer wall of absorbing heat sliding clamping clip, clip is fixedly mounted on heat-conducting base by fixing bolt, absorbing pipe fits closely heat-conducting base, mainboard is fixedly mounted on heat-conducting base.In the heat transfer to absorbing pipe that heat-conducting base generates mainboard, coolant liquid in water tank is pumped into absorbing pipe by micro pump absorbs heat, it enters back into cooler and the coolant liquid after heating quickly, thoroughly cool down, final coolant liquid passes through in perfusion tube reflow tank, to persistently carry out cooling and heat dissipation to mainboard.

Description

A kind of computer water-cooling system based on double mainboard structures

Technical field

The utility model relates to field of computer technology, specially a kind of computer water-cooling system based on double mainboard structures System.

Background technique

With the development of computer technology, the radiating mode of computer gradually adopts water-cooling system, makes coolant liquid using pump It recycles and radiates, take away heat on mainboard using the biggish specific heat capacity of coolant liquid, so that heat dissipation effect is more preferable, it is still, existing The coolant liquid cooling of some water-cooling systems is slower, when for a long time in use, not exclusively, heat gradually accumulates for time cooling in coolant liquid Cause heat dissipation effect to reduce, for double mainboard computers, need coolant liquid cooling velocity faster, thus to mainboard into Row cooling and heat dissipation, thus it is proposed that a kind of computer water-cooling system based on double mainboard structures is for solving the above problems.

Utility model content

It is above-mentioned to solve the purpose of this utility model is to provide a kind of computer water-cooling system based on double mainboard structures The problem of being proposed in background technique.

To achieve the above object, the utility model provides the following technical solutions: a kind of computer based on double mainboard structures Water-cooling system, including water tank, cooler and absorbing pipe, the water tank and cooler are fixedly mounted on computer cabinet outer wall On, the absorbing pipe is mounted in computer cabinet, and one end of the water tank connects one end of cooler by water-supply-pipe, described The lateral wall of water tank installs micro pump, and the water inlet of the micro pump connects water tank, and the both ends of the absorbing pipe are by passing through The water-supply-pipe for wearing computer cabinet is separately connected the other end of cooler and the water outlet of micro pump, the heat absorption pipe outer wall Sliding clamping clip, the clip are fixedly mounted on heat-conducting base by fixing bolt, and the absorbing pipe fits closely thermally conductive Mainboard is fixedly mounted on the heat-conducting base in pedestal.

Preferably, the cooler includes cooler bin, and cooling tube, the cooling tube both ends are fixedly attached in the cooler bin It is separately connected water tank and absorbing pipe, multiple ventilation holes are provided on the cooler bin side plate, fan, institute are installed in the ventilation hole It states cooling pipe outer wall and multiple radiating fins is fixedly mounted, be fixedly attached central tube, the ventilation hole and cooling in the cooling tube Filter screen is fixedly mounted in the open end of case.

Preferably, the cooling tube is cylindrical helical structure, and the central tube is located at cooling tube cylindrical helical structure On the bus of two sides, the outer diameter of the central tube is less than the internal diameter of cooling tube, and multiple central tubes of the cooling tube two sides Axis is parallel with the axis of multiple ventilation holes and is generally aligned in the same plane.

Preferably, the absorbing pipe is multiple end to end U-shaped structures, and the clip is multiple connected semicircular ring knots Structure, the semicircular ring inside diameter of the clip are equal to the outer diameter of absorbing pipe, and the contact surface of the heat-conducting base and absorbing pipe is provided with It is bonded the card slot of the semi-cylindrical in configuration of absorbing pipe.

Preferably, two mainboards are each perpendicular to the U-shaped structure straightway of absorbing pipe, and the line of two mainboards It is parallel with the U-shaped structure straightway of absorbing pipe.

Compared with prior art, the utility model has the beneficial effects that the heat transfer that heat-conducting base generates mainboard is extremely On absorbing pipe, micro pump makes coolant liquid cool down in water tank, absorbing pipe and cooler internal circulation flow to mainboard；Absorbing pipe For multiple end to end U-shaped structures, clip is multiple connected semicircle ring structures, and the semicircular ring inside diameter of clip, which is equal to, to be inhaled The outer diameter of heat pipe, heat-conducting base are provided with the card slot for being bonded the semi-cylindrical in configuration of absorbing pipe with the contact surface of absorbing pipe, then clip, lead Hot pedestal and absorbing pipe contact surface are copper arcuate structure, increase contact area, are convenient for heat transmission, so that absorbing pipe Interior coolant liquid quickly takes away the heat on mainboard；Cooling tube is cylindrical helical structure, increases coolant liquid in cooling tube Length of flow, cooling tube helical structure itself and radiating fin increase cooling pipe outer wall and cooling box cavity air contact surfaces Product accelerates cooling；Coolant flow centre of percussion pipe in cooling tube extends coolant liquid in cooling so that cooling liquid speed slows down Time in pipe, and central tube face ventilation duct, then there is air-flow to flow through in central tube, thus cool down to coolant liquid inside, Accelerate coolant liquid cooling rate, and be cooled inside and outside coolant liquid, is cooled down more thorough.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model absorbing pipe structural schematic diagram；

Fig. 3 is the utility model cooler construction schematic diagram；

Fig. 4 is the schematic diagram of the section structure at the utility model central tube；

Fig. 5 is the schematic diagram of the section structure at the utility model clip.

In figure: 1 water tank, 2 coolers, 21 cooler bins, 22 cooling tubes, 23 ventilation holes, 24 fans, 25 central tubes, 26 heat dissipations Fin, 27 filter screens, 3 water-supply-pipes, 4 micro pumps, 5 absorbing pipes, 6 heat-conducting bases, 7 mainboards, 8 clips, 9 fixing bolts.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-5 is please referred to, the utility model provides a kind of technical solution: a kind of computer water-cooling based on double mainboard structures System, including water tank 1, cooler 2 and absorbing pipe 5, the water tank 1 and cooler 2 are fixedly mounted on computer cabinet outer wall On, the absorbing pipe 5 is mounted in computer cabinet, and one end of water tank 1 connects one end of cooler 2, water tank by water-supply-pipe 3 1 lateral wall installs micro pump 4, and the water inlet of the micro pump 4 connects water tank 1, and the both ends of the absorbing pipe 5 are by passing through The water-supply-pipe 3 for wearing computer cabinet is separately connected the other end of cooler 2 and the water outlet of micro pump 4,5 outer wall of absorbing pipe Sliding clamping clip 8, clip 8 are fixedly mounted on heat-conducting base 6 by fixing bolt 9, and absorbing pipe 5 fits closely heat-conducting base 6, mainboard 7 is fixedly mounted on heat-conducting base 6.Absorbing pipe 5 and heat-conducting base 6 are located in computer cabinet, but its volume with master Plate 7 quite, have no effect on remaining element cabinet Nei installation (and at present circuit connecting wire be disposed with it is many disclosed in schemes Therefore do not repeat them here), in the heat transfer that heat-conducting base 6 generates mainboard 7 to absorbing pipe 5, micro pump 4 will be cold in water tank 1 But liquid is pumped into absorption heat in absorbing pipe 5, enters back into cooler 2 and quickly, thoroughly cool down to the coolant liquid after heating, Final coolant liquid passes through in 3 reflow tank 1 of perfusion tube, to persistently carry out cooling and heat dissipation to mainboard 7.

Cooler 2 includes cooler bin 21, is fixedly attached cooling tube 22 in cooler bin 21,22 both ends of cooling tube are separately connected water Case 1 and absorbing pipe 5, cooler bin 21 are the semiclosed cabinet of a side opening, are provided with multiple ventilations on 21 closed end side plate of cooler bin Hole 23, is equipped with fan 24 in ventilation hole 23, and 22 outer wall of cooling tube is fixedly mounted multiple radiating fins 26, fixed in cooling tube 22 It is socketed central tube 25,25 opening direction face ventilation hole 23 of central tube, the fixed peace in the open end of ventilation hole 23 and cooler bin 21 Filter screen 27 is filled, cooling tube 22 is cylindrical helical structure, increases length of flow of the coolant liquid in cooling tube 22, cooling tube 22 Helical structure itself and radiating fin 26 increase by 22 outer wall of cooling tube and 21 inner cavity air contact area of cooler bin, pass through fan 24 Accelerate air velocity in cooler bin 21, to cool down, central tube 25 is located at 22 cylindrical helical structure two sides of cooling tube On bus (25 border side wall of central tube be closed only both ends be it is logical will not leakage, this structure further increases heat dissipation Area), the outer diameter of central tube 25 is less than the internal diameter of cooling tube 22, and the central tube 25 of 22 two sides of cooling tube is located at ventilation hole 23 Same plane, coolant flow centre of percussion pipe 25 in cooling tube 22, so that cooling liquid speed, which slows down and generates flow-disturbing, makes liquid Between exchange heat more sufficiently, extend time of the coolant liquid in cooling tube 22, and the axis of the central tube 25 of 22 two sides of cooling tube with The axis of ventilation hole 23 is parallel and is in the same plane, then has air-flow to flow through in central tube 25, thus to coolant liquid inside Cool down, accelerate coolant liquid cooling rate, and be cooled inside and outside coolant liquid, cools down more thorough.

Absorbing pipe 5 is multiple end to end U-shaped structures, and clip 8 is multiple connected semicircle ring structures, the half of clip 8 Circular ring structure internal diameter is equal to the outer diameter of absorbing pipe 5, and heat-conducting base 6 is provided with the semicircle for being bonded absorbing pipe 5 with the contact surface of absorbing pipe 5 Absorbing pipe 5 is fixed on heat-conducting base 6 by the card slot of rod structure by fixing bolt 9 and clip 8, and clip 8, heat-conducting base 6 It is copper arcuate structure with 5 contact surface of absorbing pipe, increases contact area, is convenient for heat transmission.

Two mainboards 7 are each perpendicular to the U-shaped structure straightway of absorbing pipe 5, and the U of the line of two mainboards 7 and absorbing pipe 5 Type structure straightway is parallel, so that two mainboards 7 are cooling simultaneously, successively cooling is avoided to cause two 7 temperature difference of mainboard larger, and Cooling 7 heat dissipation effect of mainboard is low afterwards.

Working principle: when the utility model is used, in the heat transfer that heat-conducting base 6 generates mainboard 7 to absorbing pipe 5, Coolant liquid in water tank 1 is pumped into absorbing pipe 5 by micro pump 4 absorbs heat, and the coolant liquid after heat absorption heating flows into cooling tube In 22, cooling tube 22 is cylindrical helical structure, increases length of flow of the coolant liquid in cooling tube 22, the spiral shell of cooling tube 22 itself It revolves structure and radiating fin 26 increases by 22 outer wall of cooling tube and 21 inner cavity air contact area of cooler bin, accelerated by fan 24 cold But air velocity in case 21, thus cool down, coolant flow centre of percussion pipe 25 in cooling tube 22, so that cooling liquid speed Slow down, extend time of the coolant liquid in cooling tube 22, and the axis of the central tube 25 of 22 two sides of cooling tube and ventilation hole 23 Axis is parallel and is in the same plane, then has air-flow to flow through in central tube 25, to cool down to coolant liquid inside, add Fast coolant liquid cooling rate, and be cooled inside and outside coolant liquid, cool down more thorough, final coolant liquid is flowed back to by perfusion tube 3 In water tank 1, to persistently carry out cooling and heat dissipation to mainboard 7, final coolant liquid passes through in 3 reflow tank 1 of perfusion tube, to continue Cooling and heat dissipation is carried out to mainboard 7.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of computer water-cooling system based on double mainboard structures, including water tank (1), cooler (2) and absorbing pipe (5), institute It states water tank (1) and cooler (2) is fixedly mounted on computer cabinet outer wall, the absorbing pipe (5) is mounted on computer machine In case, it is characterised in that: the one end of one end of the water tank (1) by water-supply-pipe (3) connection cooler (2), the water tank (1) Lateral wall micro pump (4) are installed, the water inlet of the micro pump (4) connects water tank (1), the two of the absorbing pipe (5) End is separately connected the water outlet of the other end and micro pump (4) of cooler (2) by the water-supply-pipe (3) through computer cabinet Mouthful, absorbing pipe (5) outer wall sliding clamping clip (8), the clip (8) is fixedly mounted on thermally conductive by fixing bolt (9) On pedestal (6), the absorbing pipe (5) is fitted closely heat-conducting base (6), and mainboard (7) are fixedly mounted on the heat-conducting base (6).

2. a kind of computer water-cooling system based on double mainboard structures according to claim 1, it is characterised in that: described cold But device (2) includes cooler bin (21), is fixedly attached cooling tube (22) in the cooler bin (21), cooling tube (22) both ends point Not Lian Jie water tank (1) and absorbing pipe (5), the cooler bin (21) be side be equipped with opening semiclosed cabinet, the cooler bin (21) it is provided on the side plate of closed end multiple ventilation holes (23), fan (24), the cooling tube is installed in the ventilation hole (23) (22) multiple radiating fins (26) are fixedly mounted in outer wall, are fixedly attached central tube (25), the ventilation in the cooling tube (22) Filter screen (27) are fixedly mounted in hole (23) and the open end of cooler bin (21).

3. a kind of computer water-cooling system based on double mainboard structures according to claim 2, it is characterised in that: described cold But pipe (22) is cylindrical helical structure, and the central tube (25) is located at the bus of cooling tube (22) cylindrical helical structure two sides On, the outer diameter of the central tube (25) is less than the internal diameter of cooling tube (22), and multiple central tubes of the cooling tube (22) two sides (25) axis is parallel with the axis of multiple ventilation holes (23) and is generally aligned in the same plane.

4. a kind of computer water-cooling system based on double mainboard structures according to claim 1, it is characterised in that: the suction Heat pipe (5) is multiple end to end U-shaped structures, and the clip (8) is multiple connected semicircle ring structures, the clip (8) Semicircular ring inside diameter be equal to the outer diameter of absorbing pipe (5), the contact surface of the heat-conducting base (6) and absorbing pipe (5) is provided with patch Close the card slot of the semi-cylindrical in configuration of absorbing pipe (5).

5. a kind of computer water-cooling system based on double mainboard structures according to claim 1, it is characterised in that: two institutes State the U-shaped structure straightway that mainboard (7) is each perpendicular to absorbing pipe (5), and the line of two mainboards (7) and absorbing pipe (5) U-shaped structure straightway it is parallel.