CN204578959U - Liquid supplementary mechanism and liquid cooling system - Google Patents

Abstract

The utility model discloses a kind of liquid supplementary mechanism and liquid cooling system, wherein, this liquid supplementary mechanism comprises a lower cover, a upper cover, a piston, at least one elastic component and at least one damping piece.Lower cover has a liquid outlet, and top cap is connected to lower cover.One chamber is formed between lower cover and upper cover.Chamber is connected with liquid outlet and holds a cooling fluid.Upper cover has an axis hole.Piston is arranged in chamber movably.Piston has an axostylus axostyle, and axostylus axostyle is arranged in axis hole.Elastic component is arranged in chamber, and the two ends of elastic component are connected to upper cover and piston respectively.Damping piece to be arranged on axostylus axostyle and to be connected to the inwall of axis hole.

Description

Liquid supplementary mechanism and liquid cooling system

Technical field

The utility model relates to a kind of liquid supplementary mechanism and liquid cooling system, espespecially a kind ofly can avoid liquid supplementary mechanism liquid cooling system being produced to too high hydraulic pressure when supplementary cooling fluid.

Background technology

Generally speaking, liquid cooling system formed primarily of multiple pipeline connecting fluid cold head, radiator, pumping and liquid reserve tank.Cooling fluid, when dispelling the heat to electronic component, is squeezed into liquid cooling head by pumping by liquid cooling system, and cooling fluid absorbs the heat that electronic component produces, then is cooled cooling fluid by radiator.After a long time use, cooling fluid can reduce because of heat evaporation liquid cooling system, causes the deficiency of cooling fluid.If user does not in time supplement cooling fluid, cooling system is continuous firing when cooling fluid deficiency, is just likely damaged.

Utility model content

The utility model provides a kind of liquid supplementary mechanism and has the liquid cooling system of this liquid supplementary mechanism, to solve the problem.

According to an embodiment, the liquid supplementary mechanism that the utility model provides comprises a lower cover, a upper cover, a piston, at least one elastic component and at least one damping piece.Lower cover has a liquid outlet, and top cap is connected to lower cover.One chamber is formed between lower cover and upper cover.Chamber is connected with liquid outlet and holds a cooling fluid.Upper cover has an axis hole.Piston is arranged in chamber movably.Piston has an axostylus axostyle, and axostylus axostyle is arranged in axis hole.Elastic component is arranged in chamber, and the two ends of elastic component are connected to upper cover and piston respectively.Damping piece to be arranged on axostylus axostyle and to be connected to the inwall of axis hole.

In an embodiment of the present utility model, this damping piece is an O shape ring.

In an embodiment of the present utility model, this axis hole is column or taper.

In an embodiment of the present utility model, this lower cover has a combined hole, and this upper cover forms an annular chamber wall outward at this chamber, and this chamber wall and this combined hole are combined closely.

In an embodiment of the present utility model, this liquid outlet is arranged in this combined hole.

According to another embodiment, the liquid cooling system that the utility model provides comprises a liquid cooling head, a radiator, a pumping, a liquid reserve tank, multiple pipeline and a liquid supplementary mechanism.Multiple pipeline be connected to liquid cooling head, radiator, between pumping and liquid reserve tank.Liquid supplementary mechanism be optionally connected to liquid cooling head, radiator, pumping, liquid reserve tank and multiple pipeline one of them.Liquid supplementary mechanism comprises a lower cover, a upper cover, a piston, at least one elastic component and at least one damping piece.Lower cover has a liquid outlet, and top cap is connected to lower cover.One chamber is formed between lower cover and upper cover.Chamber is connected with liquid outlet and holds a cooling fluid.Upper cover has an axis hole.Piston is arranged in chamber movably.Piston has an axostylus axostyle, and axostylus axostyle is arranged in axis hole.Elastic component is arranged in chamber, and the two ends of elastic component are connected to upper cover and piston respectively.Damping piece to be arranged on axostylus axostyle and to be connected to the inwall of axis hole.

In an embodiment of the present utility model, this damping piece is an O shape ring.

In an embodiment of the present utility model, this axis hole is column or taper.

In an embodiment of the present utility model, this lower cover has a combined hole, and this upper cover forms an annular chamber wall outward at this chamber, and this chamber wall and this combined hole are combined closely.

In an embodiment of the present utility model, this liquid outlet is arranged in this combined hole.

According to another embodiment, the liquid supplementary mechanism that the utility model provides comprises a lower cover, a upper cover, a piston and at least one elastic component.Lower cover has a liquid outlet, and top cap is connected to lower cover.One chamber is formed between lower cover and upper cover.Chamber is connected with liquid outlet and holds a cooling fluid.Upper cover has one first magnetic area.Piston is arranged in chamber movably.Piston has one second magnetic area, and the position of corresponding second magnetic area, the position of the first magnetic area, make to produce a magnetic attraction between the first magnetic area and the second magnetic area.Elastic component is arranged in chamber, and the two ends of elastic component are connected to upper cover and piston respectively.

In an embodiment of the present utility model, this first magnetic area and this second magnetic area one of them be a magnetic part, and this first magnetic area and this second magnetic area wherein another is a magnetic part or a magnetic conductive material.

According to another embodiment, the liquid cooling system that the utility model provides comprises a liquid cooling head, a radiator, a pumping, a liquid reserve tank, multiple pipeline and a liquid supplementary mechanism.Multiple pipeline be connected to liquid cooling head, radiator, between pumping and liquid reserve tank.Liquid supplementary mechanism be optionally connected to liquid cooling head, radiator, pumping, liquid reserve tank and multiple pipeline one of them.Liquid supplementary mechanism comprises a lower cover, a upper cover, a piston and at least one elastic component.Lower cover has a liquid outlet, and top cap is connected to lower cover.One chamber is formed between lower cover and upper cover.Chamber is connected with liquid outlet and holds a cooling fluid.Upper cover has one first magnetic area.Piston is arranged in chamber movably.Piston has one second magnetic area, and the position of corresponding second magnetic area, the position of the first magnetic area, make to produce a magnetic attraction between the first magnetic area and the second magnetic area.Elastic component is arranged in chamber, and the two ends of elastic component are connected to upper cover and piston respectively.

In an embodiment of the present utility model, this first magnetic area and this second magnetic area one of them be a magnetic part, and this first magnetic area and this second magnetic area wherein another is a magnetic part or a magnetic conductive material.

In sum, the utility model liquid supplementary mechanism optionally can be connected to liquid cooling head, radiator, pumping, liquid reserve tank and multiple pipeline one of them, when cooling fluid reduces and makes the hydraulic pressure in liquid cooling system reduce, namely the elastic component of liquid supplementary mechanism can promote piston, and then by the cooling fluid injection liquid cooling system in chamber.In other words, the liquid supplementary mechanism that the utility model provides can supplement cooling fluid automatically when cooling fluid is not enough, and then avoids cooling system to be damaged because cooling fluid is not enough.In addition, the utility model can utilize the damping piece be arranged on the axostylus axostyle of piston to be connected to the inwall of axis hole, and in the process of piston movement, the inwall of damping piece and axis hole can produce damping, to reduce the thrust of elastic component to piston.In addition, the utility model also can utilize the first magnetic area of upper cover and the second magnetic area of piston to produce magnetic attraction, reduces the thrust of elastic component to piston in the process of piston movement.By this, can avoid when supplementary cooling fluid producing too high hydraulic pressure to liquid cooling system and affecting the radiating efficiency of liquid cooling system.

Can to be described in detail by following utility model and institute's accompanying drawings is further understood about advantage of the present utility model and spirit.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the liquid cooling system of the utility model one embodiment;

Fig. 2 is the schematic diagram that liquid supplementary mechanism is connected to pumping;

Fig. 3 is the schematic diagram of liquid supplementary mechanism;

Fig. 4 is the profile of liquid supplementary mechanism and pumping;

Fig. 5 is that piston in Fig. 4 is by the profile after resilient element urges;

Fig. 6 is the liquid supplementary mechanism of another embodiment of the utility model and the profile of pumping;

Fig. 7 is the liquid supplementary mechanism of another embodiment of the utility model and the profile of radiator;

Fig. 8 is the liquid supplementary mechanism of another embodiment of the utility model and the profile of radiator;

Fig. 9 is the schematic diagram after the piston in Fig. 8 moves.

Description of reference numerals: 1-liquid cooling system; 10-liquid cooling head; 12-radiator; 14-pumping; 16-liquid reserve tank; 18-pipeline; 20,20', 30-liquid supplementary mechanism; 22-cooling fluid; 140-liquid inlet; 200-lower cover; 202,202'-upper cover; 204-piston; 206-elastic component; 208-damping piece; 210-chamber; 212-first magnetic area; 214-second magnetic area; 2000-liquid outlet; 2002-combined hole; 2020,2020'-axis hole; 2022-chamber wall; 2040-axostylus axostyle.

Embodiment

As shown in Figures 1 to 5, Fig. 1 is the schematic diagram of the liquid cooling system 1 of the utility model one embodiment, Fig. 2 is the schematic diagram that liquid supplementary mechanism 20 is connected to pumping 14, Fig. 3 is the schematic diagram of liquid supplementary mechanism 20, Fig. 4 is the profile of liquid supplementary mechanism 20 and pumping 14, and Fig. 5 is the profile after the piston 204 in Fig. 4 is promoted by elastic component 206.

As shown in Figure 1, liquid cooling system 1 comprises a liquid cooling 10, one radiator 12, pumping 14, liquid reserve tank 16 and a multiple pipeline 18.Multiple pipeline 18 is connected to liquid cooling 10, radiator 12, between pumping 14 and liquid reserve tank 16, is used to liquid cooling 10, radiator 12, carries a cooling fluid between pumping 14 and liquid reserve tank 16.Cooling fluid is full of in liquid cooling 10, radiator 12, pumping 14, liquid reserve tank 16 and (not being illustrated in Fig. 1) in multiple pipeline 18.When the liquid cooling system 1 that the utility model provides is used for dispelling the heat to electronic component (not shown), liquid cooling in liquid cooling system 1 10 is attached on electronic component.Cooling fluid squeezed into liquid cooling 10 by pumping 14, cooling fluid absorbs the heat that electronic component produces, then is cooled by radiator 12 pairs of cooling fluids.In practical application, cooling fluid can be water or other liquid.

As shown in Figures 2 to 5, liquid cooling system 1 also comprises a liquid supplementary mechanism 20, is connected to pumping 14.It should be noted that, liquid supplementary mechanism 20 is not limited to be connected to pumping 14.In another embodiment, liquid supplementary mechanism 20 also can be connected to liquid cooling 10, radiator 12, liquid reserve tank 16 or pipeline 18.In other words, the liquid supplementary mechanism 20 that the utility model provides optionally be connected to liquid cooling 10, radiator 12, pumping 14, liquid reserve tank 16 and pipeline 18 one of them, depending on practical application.

Liquid supplementary mechanism 20 comprises lower cover 200, upper cover 202, piston 204, at least one elastic component 206 and at least one damping piece 208.Lower cover 200 has a liquid outlet 2000.Upper cover 202 is connected to lower cover 200, and a chamber 210 is formed between lower cover 200 and upper cover 202.Chamber 210 is connected with liquid outlet 2000 and holds cooling fluid 22.Upper cover 202 has an axis hole 2020, and its central axis hole 2020 is in column.In this embodiment, lower cover 200 has a combined hole 2002, and upper cover 202 is at the outer formation of chamber 210 one annular chamber wall 2022, and wherein liquid outlet 2000 is arranged in combined hole 2002.When upper cover 202 is connected to lower cover 200, the chamber wall 2022 of upper cover 202 is combined closely with the combined hole 2002 of lower cover 200.

Piston 204 is arranged in chamber 210 movably.Piston 204 has an axostylus axostyle 2040, and axostylus axostyle 2040 is arranged in axis hole 2020.Elastic component 206 is arranged in chamber 210, and the two ends of elastic component 206 are connected to upper cover 202 and piston 204 respectively.Damping piece 208 to be arranged on axostylus axostyle 2040 and to be connected to the inwall of axis hole 2020.In this embodiment, elastic component 206 can be a spring, and damping piece 208 can be an O shape ring, but not as limit.In addition, elastic component 206 can determine according to practical application with the quantity of damping piece 208, is not limited with the embodiment illustrated in scheming.

In this embodiment, the lower cover 200 of liquid supplementary mechanism 20 is connected to pumping 14, and liquid outlet 2000 is connected with pumping 14.The liquid inlet 140 (as shown in figs. 4 and 5) of the corresponding pumping 14 of liquid outlet 2000 of lower cover 200, makes the cooling fluid 22 in chamber 210 can be fills up in pumping 14 via liquid outlet 2000 and liquid inlet 140.

As shown in Figure 4, when liquid supplementary mechanism 20 has been assembled and chamber 210 accommodates cooling fluid 22, elastic component 206 has been in compressive state.Now, till elastic component 206 pushes against the hydro-cushion that piston 204 is moved downward in pumping 14 in chamber 210.When the cooling fluid in pumping 14 reduces and makes hydraulic pressure reduce, namely the elastic component 206 of liquid supplementary mechanism 20 can promote piston 204, and then the cooling fluid 22 in chamber 210 is injected pumping 14.In other words, the liquid supplementary mechanism 20 that the utility model provides can supplement cooling fluid automatically when cooling fluid is not enough, and then avoids liquid cooling system 1 to be damaged because cooling fluid is not enough.It should be noted that, except utilizing elastic component 206 to promote except piston 204, the mechanism member that the utility model also can utilize other can produce positive force, shearing, moment or magnetic force replaces elastic component 206, promotes piston 204, with supplementary cooling fluid.

In addition, the inwall of the axis hole 202 of upper cover 202 is connected to due to the damping piece 208 be arranged on the axostylus axostyle 2040 of piston 204, in the process of piston 204 movement, damping piece 208 can produce damping, to reduce the thrust of elastic component 206 pairs of pistons 204 with the inwall of axis hole 2020.As shown in Figure 4, when chamber 210 accommodates more cooling fluid 22, the decrement of elastic component 206 is comparatively large, and the quantity of the damping piece 208 abutted with the inwall of axis hole 2020 is more.In other words, when chamber 210 accommodates more cooling fluid 22, the thrust of elastic component 206 pairs of pistons 204 is comparatively large, and the utility model can utilize more damping piece 208 to provide larger damping, to reduce the thrust of elastic component 206 pairs of pistons 204.As shown in Figure 5, when the cooling fluid 22 in chamber 210 reduces, the height reduction of piston 204, the decrement of elastic component 206 diminishes, and the quantity of the damping piece 208 abutted with the inwall of axis hole 2020 also tails off thereupon.In other words, when the cooling fluid 22 in chamber 210 tails off, the thrust of elastic component 206 pairs of pistons 204 also can diminish, and the utility model can utilize less damping piece 208 to provide less damping, to reduce the thrust of elastic component 206 pairs of pistons 204.Therefore, the utility model can carry out damping adjusting effect according to the number of the cooling fluid 22 in chamber 210, to avoid producing too high hydraulic pressure to liquid cooling system 1 and to affect the radiating efficiency of liquid cooling system 1 when supplementary cooling fluid.

As shown in Figure 6, Fig. 6 is the liquid supplementary mechanism 20' of another embodiment of the utility model and the profile of pumping 14.The main difference part of liquid supplementary mechanism 20' and above-mentioned liquid supplementary mechanism 20 is, the axis hole 2020' of the upper cover 202' of liquid supplementary mechanism 20' is taper, and liquid supplementary mechanism 20' only has single damping piece 208, as shown in Figure 6.When elastic component 206 promote piston 204 move down time, because axis hole 2020' is taper, damping piece 208 also can diminish with the contact force of the inwall of axis hole 2020', to carry out damping adjusting effect according to the number of the cooling fluid 22 in chamber 210.It should be noted that, in Fig. 6, the action principle of the element of label identical with shown in Fig. 4 is roughly the same, does not repeat them here.

As shown in Figure 7, Fig. 7 is the liquid supplementary mechanism 20 of another embodiment of the utility model and the profile of radiator 12.As shown in Figure 7, liquid supplementary mechanism 20 also can be connected to radiator 12, and liquid outlet 2000 is connected with radiator 12.Therefore, when the cooling fluid in radiator 12 reduces and makes hydraulic pressure reduce, namely the elastic component 206 of liquid supplementary mechanism 20 can promote piston 204, and then the cooling fluid 22 in chamber 210 is injected radiator 12.It should be noted that, in Fig. 7, the action principle of the element of label identical with shown in Fig. 4 is roughly the same, does not repeat them here.

As shown in FIG. 8 and 9, Fig. 8 is the liquid supplementary mechanism 30 of another embodiment of the utility model and the profile of radiator 12, and Fig. 9 is the schematic diagram after the piston 204 in Fig. 8 moves.The main difference part of the liquid supplementary mechanism 20 shown in Fig. 7 is, the upper cover 202 of liquid supplementary mechanism 30 has one first magnetic area 212, and the piston 204 of liquid supplementary mechanism 30 has one second magnetic area 214, as shown in Figure 8.In this embodiment, the position of corresponding second magnetic area 214, position of the first magnetic area 212, makes to produce a magnetic attraction between the first magnetic area 212 and the second magnetic area 214.In practical application, one of them of first magnetic area 212 and the second magnetic area 214 can be a magnetic part (such as magnet, electromagnet etc.), and wherein another of the first magnetic area 212 and the second magnetic area 214 can be a magnetic part (such as magnet, electromagnet etc.) or a magnetic conductive material (such as iron or other metal).It should be noted that, in Fig. 8, the action principle of the element of label identical with shown in Fig. 7 is roughly the same, does not repeat them here.

When the cooling fluid in radiator 12 reduces and makes hydraulic pressure reduce, namely the elastic component 206 of liquid supplementary mechanism 30 can promote piston 204, and then the cooling fluid 22 in chamber 210 is injected radiator 12.In the process of piston 204 movement, namely the magnetic attraction produced between the first magnetic area 212 and the second magnetic area 214 can reduce the thrust of elastic component 206 pairs of pistons 204.As shown in Figure 8, when chamber 210 accommodates more cooling fluid 22, the decrement of elastic component 206 is comparatively large, and the first magnetic area 212 and the second magnetic area 214 comparatively close.Now, the magnetic attraction produced between the first magnetic area 212 and the second magnetic area 214 is larger.In other words, when chamber 210 accommodates more cooling fluid 22, the thrust of elastic component 206 pairs of pistons 204 is comparatively large, and the damping that the utility model can utilize larger magnetic attraction to provide larger, to reduce the thrust of elastic component 206 pairs of pistons 204.As shown in Figure 9, when the cooling fluid 22 in chamber 210 reduces, the decrement of elastic component 206 diminishes, and the first magnetic area 212 and the second magnetic area 214 further from.Now, the magnetic attraction produced between the first magnetic area 212 and the second magnetic area 214 diminishes.In other words, when the cooling fluid 22 in chamber 210 tails off, the thrust of elastic component 206 pairs of pistons 204 also can diminish, the damping that the utility model can utilize less magnetic attraction to provide less, to reduce the thrust of elastic component 206 pairs of pistons 204.Therefore, the damping that the utility model can regulate magnetic attraction to produce according to the number of the cooling fluid 22 in chamber 210, to avoid producing too high hydraulic pressure to liquid cooling system 1 and to affect the radiating efficiency of liquid cooling system 1 when supplementary cooling fluid.

In sum, the utility model liquid supplementary mechanism optionally can be connected to liquid cooling head, radiator, pumping, liquid reserve tank and pipeline one of them, when cooling fluid reduces and makes the hydraulic pressure in liquid cooling system reduce, namely the elastic component of liquid supplementary mechanism can promote piston, and then by the cooling fluid injection liquid cooling system in chamber.In other words, the liquid supplementary mechanism that the utility model provides can supplement cooling fluid automatically when cooling fluid is not enough, and then avoids cooling system to be damaged because cooling fluid is not enough.In addition, the utility model can utilize the damping piece be arranged on the axostylus axostyle of piston to be connected to the inwall of axis hole, and in the process of piston movement, the inwall of damping piece and axis hole can produce damping, to reduce the thrust of elastic component to piston.In addition, the utility model also can utilize the first magnetic area of upper cover and the second magnetic area of piston to produce magnetic attraction, reduces the thrust of elastic component to piston in the process of piston movement.By this, can avoid when supplementary cooling fluid producing too high hydraulic pressure to liquid cooling system and affecting the radiating efficiency of liquid cooling system.

The foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model right change and modify, and all should belong in protection range of the present utility model.

Claims (14)

1. a liquid supplementary mechanism, is characterized in that, comprises:

One lower cover, has a liquid outlet;

One upper cover, is connected to this lower cover, and a chamber is formed between this lower cover and this upper cover, and this chamber is connected with this liquid outlet and holds a cooling fluid, and this upper cover has an axis hole;

One piston, be arranged in this chamber movably, this piston has an axostylus axostyle, and this axostylus axostyle is arranged in this axis hole;

At least one elastic component, is arranged in this chamber, and the two ends of this elastic component are connected to this upper cover and this piston respectively; And

At least one damping piece, to be arranged on this axostylus axostyle and to be connected to the inwall of this axis hole.

2. liquid supplementary mechanism according to claim 1, is characterized in that, this damping piece is an O shape ring.

3. liquid supplementary mechanism according to claim 1, is characterized in that, this axis hole is column or taper.

4. liquid supplementary mechanism according to claim 1, is characterized in that, this lower cover has a combined hole, and this upper cover forms an annular chamber wall outward at this chamber, and this chamber wall and this combined hole are combined closely.

5. liquid supplementary mechanism according to claim 4, is characterized in that, this liquid outlet is arranged in this combined hole.

6. a liquid cooling system, is characterized in that, comprises:

One liquid cooling head;

One radiator;

One pumping;

One liquid reserve tank;

Multiple pipeline, be connected to this liquid cooling head, this radiator, between this pumping and this liquid reserve tank; And

One liquid supplementary mechanism, be optionally connected to this liquid cooling head, this radiator, this pumping, this liquid reserve tank and the plurality of pipeline one of them, this liquid supplementary mechanism comprises:

One lower cover, has a liquid outlet;

One upper cover, is connected to this lower cover, and a chamber is formed between this lower cover and this upper cover, and this chamber is connected with this liquid outlet and holds a cooling fluid, and this upper cover has an axis hole;

One piston, be arranged in this chamber movably, this piston has an axostylus axostyle, and this axostylus axostyle is arranged in this axis hole;

At least one elastic component, is arranged in this chamber, and the two ends of this elastic component are connected to this upper cover and this piston respectively; And

At least one damping piece, to be arranged on this axostylus axostyle and to be connected to the inwall of this axis hole.

7. liquid cooling system according to claim 6, is characterized in that, this damping piece is an O shape ring.

8. liquid cooling system according to claim 6, is characterized in that, this axis hole is column or taper.

9. liquid cooling system according to claim 6, is characterized in that, this lower cover has a combined hole, and this upper cover forms an annular chamber wall outward at this chamber, and this chamber wall and this combined hole are combined closely.

10. liquid cooling system according to claim 9, is characterized in that, this liquid outlet is arranged in this combined hole.

11. 1 kinds of liquid supplementary mechanisms, is characterized in that, comprise:

One lower cover, has a liquid outlet;

One upper cover, is connected to this lower cover, and a chamber is formed between this lower cover and this upper cover, and this chamber is connected with this liquid outlet and holds a cooling fluid, and this upper cover has one first magnetic area;

One piston, is arranged in this chamber movably, and this piston has one second magnetic area, and the position of this first magnetic area, to should the position of the second magnetic area, makes to produce a magnetic attraction between this first magnetic area and this second magnetic area; And

At least one elastic component, is arranged in this chamber, and the two ends of this elastic component are connected to this upper cover and this piston respectively.

12. liquid supplementary mechanisms according to claim 11, is characterized in that, this first magnetic area and this second magnetic area one of them be a magnetic part, and this first magnetic area and this second magnetic area wherein another is a magnetic part or a magnetic conductive material.

13. 1 kinds of liquid cooling systems, is characterized in that, comprise:

One liquid cooling head;

One radiator;

One pumping;

One liquid reserve tank;

Multiple pipeline, be connected to this liquid cooling head, this radiator, between this pumping and this liquid reserve tank; And

One liquid supplementary mechanism, be optionally connected to this liquid cooling head, this radiator, this pumping, this liquid reserve tank and the plurality of pipeline one of them, this liquid supplementary mechanism comprises:

One lower cover, has a liquid outlet;

One upper cover, is connected to this lower cover, and a chamber is formed between this lower cover and this upper cover, and this chamber is connected with this liquid outlet and holds a cooling fluid, and this upper cover has one first magnetic area;

One piston, is arranged in this chamber movably, and this piston has one second magnetic area, and the position of this first magnetic area, to should the position of the second magnetic area, makes to produce a magnetic attraction between this first magnetic area and this second magnetic area; And

At least one elastic component, is arranged in this chamber, and the two ends of this elastic component are connected to this upper cover and this piston respectively.

14. liquid cooling systems according to claim 13, is characterized in that, this first magnetic area and this second magnetic area one of them be a magnetic part, and this first magnetic area and this second magnetic area wherein another is a magnetic part or a magnetic conductive material.