CN2904589Y - Liquid cooling system - Google Patents

Abstract

The utility model discloses a liquid cooling system comprising a heat absorption element and a sensing device. The heat absorption element and the sense device are positioned in the same cooling space which is communicated with the inlet and outlet of the fluid, wherein, when the fluid passes through the sensing device, the status can be sensed and indicated by the sensing device.

Description

A kind of liquid cooling system

Technical field

The utility model relates to liquid cooling system, the particularly a kind of composite set that heat absorbing element and sensing device are integrated or liquid cooling system of structure of containing.

Background technology

In present employed cooling system, be divided into air cooling and liquid cooling, and in computer, because the performance gains of wherein each formula electronic component is quick, briefly, be exactly that arithmetic speed is accelerated, along with speeding up, incident is exactly increasing of temperature of electronic component, therefore with present heat dissipation technology, air cooling has reached a limit, the liquid cooling so radiating mode is migrated gradually.

Yet in liquid cooling system, usually have several heat absorbing elements, generally speaking be meant the water-cooled head, these water-cooled heads, it is heat absorbing element, directly be attached on the various electronic component, mode with conduction absorbs the heat that electronic component is produced earlier, afterwards again by liquid, normally water is walked the torrid zone in the mode of forced convertion, thus if there are several electronic components all to use the water-cooled heat absorbing element separately, so just need the group Pu in streamline connection heat absorbing element and the liquid cooling system, this is the overview of the present liquid cooling system of habitually practising.

But, these liquid cooling systems are to carry liquid in streamline, and central also be that gas is discharged as much as possible, and consider the stability of whole system, the speed that makes liquid flow is not too fast, so sound is just little, can not whether have normal mobile so in water-cooling system, need other facility to understand current as used ventilation type when heat radiation to judge by the sound of fan whether cooling device moves normally in the past.

Have again, flow of liquid is through whole system, and liquid is a kind of excellent solvent, so in water, usually be dissolved with material miscellaneous, if some acid or alkaline substance dissolves is arranged in the water of liquid cooling system, will cause damage to the first-class equipment of group Pu, water-cooled in the liquid cooling system so, therefore, also be considerable to the monitoring of the acid-base value of water.

In addition, for a cooling system, most important is exactly whether refrigerating function is normal, and this can learn from the temperature of cooling system, when the temperature of the fluid in the cooling system remains under the situation that is lower than the electronic component maximum operating temperature relatively, and low to certain degree, can learn that system should be in normal operation this moment.So in cooling system, usually thermometer can be set; yet thermometer is only done measurement at the outer temperature of whole cooling system usually; because of if this thermometer be arranged within the outer radiator of computer; or only be arranged at certain part in the whole cooling system; know nothing for indivedual temperature of electronic component so; suppose to have a unknown cause to rise by the temperature of cooling system; may be that situation appears in indivedual electronic components; but it is which partly goes wrong that known cooling system has no idea to judge actually; if so can learn each electronic component operational temperature separately, for maintenance; it is helpful that fault is got rid of.

Yet, if will being provided with thermometer at individual other electronic component, the user carries out monitoring temperature, can run into a problem, the i.e. problem of " where thermometer this be located at ", and, just solved the position that is provided with at last, also since on the electronic component set water-cooled head do not have additional space to make things convenient for the user again thermometer to be set and can't deal with problems, have again, even found local arrangement thermometer, it is outside also to be difficult for making it stationary plane, conveniently use the index that the user of the personal computer of transparent casing can be from the visual observation to the thermometer, so, just more increased the difficulty of seeking the place that thermometer is set in order to observe thermometer by transparent casing.

So, the applicant is at the defective of known liquid cooling apparatus, propose the utility model " be applied to the heat absorbing element in the liquid cooling system and the composite set of sensing device '; by sensing device and heat absorbing element are integrated into single parts; make things convenient for the user when heat absorbing element being set, no longer to perplex for sensing device the place being set for electronic component.In addition, the utility model is also elaborately planned with the position of sensing device, allows the computer user that uses transparent casing can watch shown data, the state that goes out of sensing device easily.

Summary of the invention

The purpose of this utility model is to provide a kind of liquid cooling system, particularly a kind of liquid cooling system that comprises the composite set of heat absorbing element and sensing device, design by the integral structure of heat absorbing element and sensing device, reach compactification, modularization, allow the user can learn the running status of heat absorbing element with much easy way.

To achieve these goals, the utility model provides a kind of liquid cooling system, comprising: a heat absorbing element; One sensing device, described heat absorbing element and sensing device are with being arranged at a cooling space.

Above-mentioned liquid cooling system, wherein, described cooling space is communicated with fluid inlet and fluid outlet.

Above-mentioned liquid cooling system wherein, accommodates liquid and contacts with this heat absorbing element and this sensing device in the described cooling space.

Above-mentioned liquid cooling system, wherein, described heat absorbing element comprises an endothermic section, stretches out outside the described cooling space.

Above-mentioned liquid cooling system, wherein, described heat absorbing element comprises a radiating part, is positioned at described cooling space.

Above-mentioned liquid cooling system, wherein, described cooling space is a structure, described heat absorbing element and described sensing device are arranged on the described structure.

Above-mentioned liquid cooling system, wherein, this sensing device is an impeller.

Above-mentioned liquid cooling system, wherein, this sensing device is a soda acid indicating device.

Above-mentioned liquid cooling system, wherein, this sensing device is a thermometer.

Above-mentioned liquid cooling system, wherein, this structure also comprises fluid inlet and fluid outlet.

Above-mentioned liquid cooling system, wherein, this structure is a housing, this heat absorbing element comprises:

Stretch out outside this housing one endothermic section; And

One radiating part is positioned at this housing.

Above-mentioned liquid cooling system, wherein, this housing also comprises fluid inlet and fluid outlet.

Above-mentioned liquid cooling system, wherein, this radiating part has several radiating fins.

Above-mentioned liquid cooling system, wherein, this radiating part has several heat pipes.

Above-mentioned liquid cooling system wherein, also has a display window that is used for showing the state of this sensing device on this housing.

Above-mentioned liquid cooling system, wherein, this display window is towards a computer housing.

Above-mentioned liquid cooling system, wherein, this sensing device also has one and is used for its state transfer to extraneous transmission line.

Above-mentioned liquid cooling system, wherein, this housing also is divided into one first housing and one second housing, and this heat removal component is arranged in this first housing, and this sensing device then is arranged in this second housing.

Above-mentioned liquid cooling system, wherein, this first housing has one first connector, and this second housing then has one second connector, and two connectors are interconnected.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is a conceptual schematic view of the present utility model;

Fig. 2 has used the embodiment schematic diagram of flow director for the utility model;

Fig. 3 is an embodiment schematic diagram of the present utility model;

Fig. 4 is applied to enforcement schematic diagram on the electronic component for the utility model;

Fig. 5 is the vertical view of preferred embodiment of the present utility model;

Fig. 6 is the embodiment schematic diagram of the sensing device in the utility model;

Fig. 7 is the embodiment schematic diagram of the sensing device in the utility model;

Fig. 8 is the embodiment schematic diagram of the sensing device in the utility model; And

Fig. 9 is a modular composite set schematic diagram of the present utility model.

Wherein, Reference numeral:

1: heat absorbing element, heat removal component

10: endothermic section 12: heating panel

14: fin, heat pipe 16: fixing hole

2: sensing device

2 ': impeller

22: rotating disk 24: blade

26a: soda acid indicating device 26b: thermometer

28: transmission line

3: structure, housing

3 ': composite set

3a: the first housing 3a1: first connector

3b: the second housing 3b1: second connector

30: display window 30 ': display screen

31: liquid inlet 31 ': approach axis

32: cooling space 33: liquid outlet

33 ': discharge direction

4: expansion board, display card

5: motherboard

50: expansion card slot

6: computer

60: transparent casing

Embodiment

Please refer to Fig. 1, be conceptual schematic view of the present utility model.Wherein, the utility model is a composite set, mainly is made up of a heat absorbing element 1, a sensing device 2 and a structure 3.Have again, wherein heat absorbing element 1 all is arranged on the structure 3 with sensing device 2, then form a cooling space 32 in the inside of structure 3, this cooling space 32 cools off the fluid of usefulness in the running abrim, water normally, water enters cooling space 32 from approach axis 31 ', and flow through heat absorbing element 1 and sensing device 2 leave cooling space 32 from discharging direction 33 ' again.Hence one can see that, and key concept of the present utility model is by an incorporate structure, heat absorbing element 1 and sensing device 2 is combined as a whole, so the user need not beat one's brains in order to arrange sensing device 2.

Please refer to Fig. 2, used the embodiment schematic diagram of flow director for the utility model.Wherein structure 3 is housings 3, accommodate the heating panel 12 that is used for dispelling the heat on the heat absorbing element 1, have several fins or heat pipe 14 on the heating panel 12, in housing 3, also be provided with an impeller 2, show as above-mentioned sensing device whether the fluid in the housing 3 has mobile, this impeller 2 has a rotating disk 22, on rotating disk 22, have several blades 24, so here we can see that and promptly form a cooling space 32 in the housing 3, current are discharged cooling spaces 32 from exporting 33 again from entering the mouth 31 inflow cooling spaces 32, so current can and drive its rotation through impeller 2 by time in the housing 3.As on housing 3, offering a display window (not shown), just can see the situation that impeller 2 rotates.

Please refer to Fig. 3, be embodiment schematic diagram of the present utility model.Can see that wherein composite set 3 ' of the present utility model has comprised structure 3, heat absorbing element 1 and sensing device 2, and structure 3 shown in Figure 1 specifically openly becomes a housing 3, has an inlet 31 and one outlet 33 on the housing 3, in addition, on housing 3, also offer a display window 30, make the sensing device 2 be located at housing 3 inside to be observed by the user by display window 30, if sensing device 2 is an example with the impeller shown in Fig. 22 ', in the display window 30 of Fig. 3, just can see impeller 2 ' so, if current flow, the user just can see that impeller 2 ' is rotating by display window 30 so.Have again, in Fig. 3, can see heat absorbing element 1 and have an endothermic section 10, be used for contacting with an electronic component (not shown), the heat conduction that electronic component produced is (not shown in the figures to the radiating part that is positioned at housing 3 inside, be label shown in Figure 2 12 and label 14), then be provided with fixing hole 16 in the endothermic section around 10 and fix to make things convenient for the utility model and electronic component.In addition, sensing device 2 can also have a transmission line 28 and pass housing 3, be used for sensing device 2 measured information are outwards transmitted, such as be connected with computer or directly be connected with the electronic component that heat absorbing element 1 will dispel the heat, if cooperate suitable monitoring software again, the user just can see the ruuning situation of sensing device 2 on screen, and the user mode that not necessarily will check sensing device 2 personally by display window 30.

Please refer to Fig. 4, for the utility model is applied to enforcement schematic diagram on the electronic component.Wherein the housing 3 of composite set of the present utility model combines with an electronic component 4, this electronic component 4 can be a display card, and comprise a sensing device 2 in the housing 3 and a heat absorbing element (not shown in the figures, please cooperate with reference to figure 1 and Fig. 2), the endothermic section 10 of heat absorbing element then with electronic component 4 on a chip fit tightly owing to just in time covered so can't in Fig. 4, see this chip by endothermic section 10.Have again, cooling liquid is also to discharge housings 3 from exporting 33 again from the 31 inflow housings 3 that enter the mouth, when cooling fluid entered enter the mouth after 31 promptly with Fig. 2 in the heating panel 12 of heat absorbing element 1 carry out heat exchange with fin 14, discharge from exporting 33 again, by way of sensing device 2, this sensing device 2 is an impeller in the present embodiment, so can rotate when cooling liquid is flowed through, the user can observe the rotation of impeller 2 by display window 30.

Please refer to Fig. 5, for the utility model is applied to embodiment schematic diagram in the computer.Computer 6 wherein uses a transparent casing 60, in be provided with a motherboard 5, and on motherboard 5, also has an expansion card slot 50, and electronic component 4 is an expansion board 4 and be inserted on this slot 50, have again, on electronic component 4, be provided with composite set 3 ' of the present utility model, the display window of being offered on the housing 3 30 is then facing to transparent casing 60, thereby make that the user can be from the running status of the sensing device 2 (please cooperate Fig. 4) in the computer 6 visual observation display windows 30, abnormality has appearred in case perceive sensing device, the user can handle it, and comes the normal operation of maintenance calculations machine system.

Please refer to Fig. 6, be the embodiment schematic diagram of the sensing device in the utility model.Wherein disclosed display window 30 is simple window shape structures, and just the user is the simple sensing device of seeing in the display window 30 2, and in the present embodiment, sensing device 2 is an impeller.

Please refer to Fig. 7, be the embodiment schematic diagram of the sensing device in the utility model.Wherein disclosed sensing device is a soda acid indicating device 26a, and shows in the mode of cresset.

Please refer to Fig. 8, be the embodiment schematic diagram of the sensing device in the utility model.Wherein disclosed sensing device is a thermometer 26b, and shows in the mode of cresset, though disclosed among Fig. 8 be Celsius temperature scale, show with Fahrenheit or absolute temperature scale and also can.

Please refer to Fig. 9, be modular composite set schematic diagram of the present utility model.Wherein, the housing of composite set 3 ' also is divided into one first housing 3a and one second housing 3b.Have again, on the first housing 3a, has a heat removal component 1 with endothermic section 10, one inlet, 31 and 1 first connector 3a1, on the second housing 3b, then has a display screen 30 ', one outlet, 33 and 1 second connector 3b1, therefore, another characteristic of the present utility model as shown in Figure 9, it is modular conception, the first housing 3a that just contains heat removal component 1 takes detachable design with the second housing 3b that contains the sensing device (not shown), and the first connector 3a1 links perforation mutually with the second connector 3b1, so when the cooling usefulness liquid from enter the mouth 31 enter the first housing 3a after, through the first connector 3a1, to the second connector 3b1, discharge the second housing 3b from exporting 33 more at last again.Display screen 30 ' is LCD normally then, because detection technology prosperity now, so sensing device can be measured temperature, pH-value and flow velocity, flow usually simultaneously, therefore for this transducer with multifunctional sensing technology, can use LCD, reach the purpose of a large amount of information of in narrow space demonstration.

In sum, advantage of the present utility model is with integrated theory, sensing device and heat absorbing element integrated becomes single parts, allow the user when utilization the utility model is used as a kind of equipment of heat transmission, not can for sensing device the place is set and worry, the convenience during assembling also promotes greatly.Have, for the sensing device of installing can be monitored by the user easily, the display window on the housing of the present utility model is just in time facing to transparent casing again, and the user just can cover all at one glance to main frame as long as hope.In addition, the utility model also provides modular design concept, and by removable sensing device, the user can its needed sensing device of conversion, has so more promoted use elasticity of the present utility model.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (19)

1, a kind of liquid cooling system is characterized in that, comprising: a heat absorbing element; One sensing device, described heat absorbing element and sensing device are with being arranged at a cooling space.

2, liquid cooling system according to claim 1 is characterized in that, described cooling space is communicated with fluid inlet and fluid outlet.

3, liquid cooling system according to claim 1 is characterized in that, accommodates liquid in the described cooling space and contacts with this heat absorbing element and this sensing device.

4, liquid cooling system according to claim 1 is characterized in that, described heat absorbing element comprises an endothermic section, stretches out outside the described cooling space.

5, liquid cooling system according to claim 1 is characterized in that, described heat absorbing element comprises a radiating part, is positioned at described cooling space.

6, liquid cooling system according to claim 1 is characterized in that, described cooling space is a structure, and described heat absorbing element and described sensing device are arranged on the described structure.

7, liquid cooling system according to claim 6 is characterized in that, this sensing device is an impeller.

8, liquid cooling system according to claim 6 is characterized in that, this sensing device is a soda acid indicating device.

9, liquid cooling system according to claim 6 is characterized in that, this sensing device is a thermometer.

10, liquid cooling system according to claim 6 is characterized in that, this structure also comprises fluid inlet and fluid outlet.

11, liquid cooling system according to claim 6 is characterized in that, this structure is a housing, and this heat absorbing element comprises:

Stretch out outside this housing one endothermic section; And

One radiating part is positioned at this housing.

12, liquid cooling system according to claim 11 is characterized in that, this housing also comprises fluid inlet and fluid outlet.

13, liquid cooling system according to claim 11 is characterized in that, this radiating part has several radiating fins.

14, liquid cooling system according to claim 11 is characterized in that, this radiating part has several heat pipes.

15, liquid cooling system according to claim 11 is characterized in that, also has a display window that is used for showing the state of this sensing device on this housing.

16, liquid cooling system according to claim 15 is characterized in that, this display window is towards a computer housing.

17, liquid cooling system according to claim 11 is characterized in that, this sensing device also has one and is used for its state transfer to extraneous transmission line.

18, liquid cooling system according to claim 11 is characterized in that, this housing also is divided into one first housing and one second housing, and this heat removal component is arranged in this first housing, and this sensing device then is arranged in this second housing.

19, liquid cooling system according to claim 18 is characterized in that, this first housing has one first connector, and this second housing then has one second connector, and two connectors are interconnected.

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