CN212515675U - High-efficient water-cooling radiator - Google Patents

Abstract

The utility model discloses a high-efficient water-cooling radiator, support, first heat dissipation copper sheet, water-cooling tank and heat dissipation copper pipe form heat abstractor, install in two guide rail boards through two draw strickles in support both sides and realize heat abstractor installation, press down spacing post, the lower extreme and the magnet piece actuation of spacing post to realize spacing to heat abstractor, when needing to take off heat abstractor, pull up two spacing posts, the radiator can take off along two guide rail boards slip; and the liquid in the water-cooling tank enters the heat-radiating copper pipe through the water outlet, then passes through the first heat-radiating copper sheet and then flows back to the water tank through the water inlet to form circulation, so that cold and hot liquid circulation is achieved, the heat-radiating effect is better than that of air cooling, and the water-cooling tank is easy to disassemble and assemble.

Description

High-efficient water-cooling radiator

Technical Field

The utility model relates to a computing equipment technical field, more specifically say, relate to a high-efficient water-cooling radiator.

Background

The CPU is an abbreviation of the central processing unit, the CPU is one of main devices of an electronic computer and is also a core accessory in the computer, the CPU can generate a large amount of heat during working, if the heat is not dissipated in time, the CPU is halted, and possibly burnt out, when the CPU works, the CPU radiator is usually selected to be installed to dissipate the heat of the CPU, the traditional CPU radiator generally dissipates the heat in an air cooling mode, the heat dissipation effect of the heat dissipation mode is poor, the traditional CPU radiator needs to be installed on a mainboard through screws or installed by means of a special installation frame, the CPU radiator needs to be detached firstly when the CPU is detached, then a gland is opened to take out the CPU, great inconvenience is caused, the efficiency is low, and the CPU radiator is not convenient to detach and install independently.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a high-efficiency water-cooling radiator, the support, the first heat dissipation copper sheet, the water-cooling tank and the heat dissipation copper pipe form a heat dissipation device, the heat dissipation device is installed by installing two sliding bars at two sides of the support in two guide rail plates, the limiting column is pressed down, the lower end of the limiting column is attracted with the magnet block, thereby the limit to the heat dissipation device is realized, when the heat dissipation device needs to be taken down, the two limiting columns are pulled up, and the radiator can be taken down by sliding along the two guide rail plates; and the liquid in the water-cooling tank enters the heat-radiating copper pipe through the water outlet, then passes through the first heat-radiating copper sheet and then flows back to the water tank through the water inlet to form circulation, so that cold and hot liquid circulation is achieved, the heat-radiating effect is better than that of air cooling, and the water-cooling tank is easy to disassemble and assemble.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

in order to solve the technical problem, the utility model provides a high-efficiency water-cooling radiator, which comprises a CPU fixing device, a bracket, a first heat-radiating copper sheet, a water-cooling tank and a heat-radiating copper pipe, wherein the CPU fixing device comprises a gland and two C-shaped guide rail plates respectively arranged at two sides of the gland, a limiting column penetrating through the upper end surface of the guide rail plate is arranged on the guide rail plate, a magnet block is fixed on the lower end surface of the guide rail plate under the limiting column, and a reset spring is fixedly sleeved between the upper end surface of the limiting column and the guide rail plate; sliding strips corresponding to the guide rail plates are fixed on two sides of the support, and the sliding strips can be fixed on the guide rail plates in a sliding mode; the first heat dissipation copper sheet is fixed at the bottom of the bracket and positioned above the gland, and a heat dissipation copper sheet is arranged at the bottom of the first heat dissipation copper sheet; the water cooling tank is fixed on the bracket and positioned above the first heat dissipation copper sheet, and a micro water pump is arranged in the water cooling tank; the heat dissipation copper pipe penetrates through the first heat dissipation copper sheet, and two ends of the heat dissipation copper pipe are communicated with two ends of the water cooling tank.

Furthermore, a second heat dissipation copper sheet is arranged on the upper surface of the water cooling tank, and the heat dissipation copper pipe penetrates through the second heat dissipation copper sheet in an S shape.

Furthermore, a heat radiation fan is arranged above the water cooling tank and fixed on the support.

Furthermore, the heat dissipation copper plate is a hollow heat dissipation copper plate, and the water cooling tank and the heat dissipation copper plate are communicated through the heat dissipation copper pipe.

Furthermore, a temperature sensor is fixed on the support and electrically connected with the micro water pump.

Further, the temperature sensor is electrically connected with an alarm.

Further, the alarm comprises a buzzer and an LED lamp.

Furthermore, the water outlet of the water cooling tank is positioned at the bottom of the water cooling tank, and the water inlet of the water cooling tank is positioned at the top of the water cooling tank.

Furthermore, a pressure rod is arranged on the gland.

The utility model discloses following beneficial effect has:

the support, the first heat dissipation copper sheet, the water cooling tank and the heat dissipation copper pipe form a heat dissipation device, the heat dissipation device is installed by installing two sliding strips on two sides of the support in two guide rail plates, the limiting column is pressed down, the lower end of the limiting column is attracted with the magnet block, so that the heat dissipation device is limited, when the heat dissipation device needs to be taken down, the two limiting columns are pulled up, and the heat dissipation device can be taken down by sliding along the two guide rail plates; and the liquid in the water-cooling tank enters the heat-radiating copper pipe through the water outlet, then passes through the first heat-radiating copper sheet and then flows back to the water tank through the water inlet to form circulation, so that cold and hot liquid circulation is achieved, the heat-radiating effect is better than that of air cooling, and the water-cooling tank is easy to disassemble and assemble.

Drawings

Fig. 1 is a schematic structural view of a CPU fixing device provided in the present invention.

Fig. 2 is a schematic cross-sectional view of the limiting column and the guide rail plate in fig. 1.

Fig. 3 is a schematic structural view of a heat dissipation device according to the present invention.

Fig. 4 is a schematic diagram of a modified structure of fig. 3.

Detailed Description

The present invention will be described in detail with reference to the following examples, which are only preferred embodiments of the present invention and are not intended to limit the present invention.

Please refer to fig. 1 to 3, which are views of the present invention, and the present invention provides a high efficiency water-cooled heat sink, which includes a CPU fixing device, a bracket 1, a first heat-dissipating copper sheet 2, a water-cooling tank 3 and a heat-dissipating copper pipe 4, wherein the CPU fixing device includes a gland 5 hinged to a computer motherboard, two C-shaped guide rails 7 are fixed on two sides of the gland 5 through two connecting rods 6, a limiting post 8 passing through an upper end surface of the guide rail 7 is disposed on the guide rail 7, a magnet block 9 is fixed on a lower end surface of the guide rail 7 under the limiting post 8, a return spring 10 is fixedly sleeved between the upper end surface of the limiting post 8 and the guide rail 7, one end of the return spring 10 is fixed on the upper end surface of the limiting post 8, and the other end is fixed on the upper surface of the guide rail; sliding strips 11 corresponding to the guide rail plates 7 are fixed on two sides of the support 1, and the sliding strips 11 can be fixed on the guide rail plates 7 in a sliding mode; the first heat dissipation copper sheet 2 is fixed at the bottom of the bracket 1 and positioned above the gland 5, and a heat dissipation copper sheet 12 is arranged at the bottom of the first heat dissipation copper sheet 2; the water cooling tank 3 is fixed on the bracket 1 and is positioned above the first radiating copper sheet 2, and a micro water pump is arranged in the water cooling tank 3; the heat dissipation copper pipe 4 runs through the first heat dissipation copper sheet 2, the two ends of the heat dissipation copper pipe are communicated with the two ends of the water cooling tank 3, the water cooling tank 3 comprises a water inlet and a water outlet, one end of the heat dissipation copper pipe 4 is communicated with the water inlet, the other end of the heat dissipation copper pipe is communicated with the water outlet, and a pipeline in the middle of the heat dissipation copper pipe runs through the first heat dissipation copper sheet 2. The support 1, the first heat dissipation copper sheet 2, the water cooling tank 3 and the heat dissipation copper pipe 4 form a heat dissipation device, the heat dissipation device is installed by installing the two sliding strips 11 on the two sides of the support 1 in the two guide rail plates 7, the limiting column 8 is pressed down, the lower end of the limiting column 8 is attracted with the magnet block 9, so that the heat dissipation device is limited, when the heat dissipation device needs to be taken down, the two limiting columns 8 are pulled up, and the heat dissipation device can be taken down by sliding along the two guide rail plates 7; and the liquid in the water-cooling tank 3 enters the heat-radiating copper pipe 4 through the water outlet, then passes through the first heat-radiating copper sheet 2, and then flows back to the water tank through the water inlet to form a circulation, thereby achieving the circulation of cold and hot liquid, having better heat-radiating effect than air cooling and being easy to disassemble and assemble.

Furthermore, a second heat dissipation copper sheet 13 is arranged on the upper surface of the water cooling tank 3, the second heat dissipation copper sheet 13 can be directly inserted into the upper end of the water cooling tank 3, and the heat dissipation copper pipe 4 penetrates through the second heat dissipation copper sheet 13 in an S shape, so that the heat dissipation area is enlarged, and the heat dissipation capacity is improved.

Further, a heat radiation fan 14 is arranged above the water cooling tank 3, the heat radiation fan 14 is fixed on the support 1, and hot air is blown away by the heat radiation fan 14, so that the heat radiation capability is further improved.

Further, the heat dissipation copper plate 12 is a hollow heat dissipation copper plate 12, the water cooling tank 3 and the heat dissipation copper plate 12 are conducted through the heat dissipation copper pipe 4, so that liquid can be directly contacted with the heat dissipation copper plate 12, heat is directly taken away, and heat dissipation capacity is further improved.

Referring to fig. 1, 2 and 4, a temperature sensor 15 is further fixed on the bracket 1, and the temperature sensor 15 is electrically connected to the micro water pump. The temperature sensor 15 is electrically connected with a controller, temperature information is monitored in real time through the temperature sensor 15, and instructions are issued to the cooling fan 14 and the micro water pump, so that the cooling fan 14 and the micro water pump work at reasonable power, and energy consumption is reduced.

Further, the temperature sensor 15 is electrically connected to an alarm 16, which can give an alarm to remind the user when the temperature is too high, and can interrupt the operation of the CPU100 through the controller.

Further, the alarm 16 includes a buzzer and an LED lamp, and reminds the staff in an acoustic and optical manner to prevent the staff from being unable to receive the alarm signal in a complicated environment.

Further, the water outlet of the water cooling tank 3 is located at the bottom of the water cooling tank 3, and the water inlet of the water cooling tank 3 is located at the top of the water cooling tank 3. To water-cooling tank 3, need the lower liquid of its temperature that flows, therefore the bottom is located to its delivery port, the quality is light to be located water-cooling tank 3 top, 3 top one side of water-cooling tank is the one side that is close to radiator fan 14 again simultaneously, its radiating effect is better, sink into water-cooling tank 3 bottom after the liquid cooling, then flow out through heat dissipation copper pipe 4, the top has the slightly higher liquid of temperature to flow in again, form a water-cooling microcirculation in water-cooling tank 3 like this for the design is more reasonable.

Furthermore, the pressing rod 17 is arranged on the gland 5, and when the CPU100 needs to be taken out, the pressing rod 17 is only required to be operated to lift the gland 5.

The above embodiments only express the embodiments of the present invention, and the description thereof is specific and detailed, but the invention can not be understood as the limitation of the patent scope of the present invention, but all the technical solutions obtained by adopting the equivalent substitution or equivalent transformation should fall within the protection scope of the present invention.

Claims (9)

1. An efficient water-cooling radiator is characterized by comprising:

the CPU fixing device comprises a gland and two C-shaped guide rail plates which are respectively arranged on two sides of the gland, wherein a limiting column penetrating through the upper end surface of the guide rail plate is arranged on the guide rail plate, a magnet block is fixed on the lower end surface of the guide rail plate which is positioned right below the limiting column, and a reset spring is fixedly sleeved between the upper end surface of the limiting column and the guide rail plate;

the two sides of the bracket are respectively fixed with a sliding strip corresponding to the guide rail plate, and the sliding strips can be fixed on the guide rail plate in a sliding manner;

the first heat dissipation copper sheet is fixed at the bottom of the bracket and positioned above the gland, and a heat dissipation copper sheet is arranged at the bottom of the first heat dissipation copper sheet;

the water cooling tank is fixed on the bracket and positioned above the first heat dissipation copper sheet, and a micro water pump is arranged in the water cooling tank;

and the heat dissipation copper pipe penetrates through the first heat dissipation copper sheet, and two ends of the heat dissipation copper pipe are communicated with two ends of the water cooling tank.

2. The efficient water-cooling heat radiator of claim 1, wherein the upper surface of the water-cooling tank is provided with a second heat radiating copper sheet, and the heat radiating copper pipe penetrates through the second heat radiating copper sheet in an S shape.

3. The efficient water-cooling radiator as claimed in claim 1, wherein a heat dissipating fan is arranged above the water-cooling tank, and the heat dissipating fan is fixed on the bracket.

4. The efficient water-cooling heat radiator of claim 1, wherein the heat radiating copper plate is a hollow heat radiating copper plate, and the water-cooling tank and the heat radiating copper plate are communicated through the heat radiating copper pipe.

5. The efficient water-cooling radiator as recited in claim 1, wherein a temperature sensor is fixed on said bracket, said temperature sensor being electrically connected to said micro-water pump.

6. The efficient water-cooled radiator of claim 5, wherein the temperature sensor is electrically connected with an alarm.

7. The efficient water-cooled heat sink as recited in claim 6, wherein the alarm comprises a buzzer and an LED light.

8. The efficient water-cooled radiator of claim 1, wherein the water outlet of the water-cooled tank is located at the bottom of the water-cooled tank, and the water inlet of the water-cooled tank is located at the top of the water-cooled tank.

9. The efficient water-cooled heat sink as recited in claim 1, wherein the pressing cover is provided with a pressing rod.

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