CN204009742U - Integrated circular water-filled radiator - Google Patents

Abstract

The utility model relates to integrated circular water-filled radiator, comprises that a water-cooling row, two groups of current close and are in charge of group, at least two group radiating tube groups, a header tank, a water pump and at least two adapting pipes; Described water-cooling row closes to be in charge of to organize with one group of current wherein and is connected and is interconnected; These two groups of current close to be in charge of group and to be communicated with the two ends of radiating tube group respectively; One end of each adapting pipe is closed and is in charge of group and is connected and is interconnected with one group of current wherein respectively, and the other end of each adapting pipe is all communicated with described water pump or header tank; Described water pump is arranged in header tank.It has integrated circular water-filled radiator of the present utility model good heat dissipation effect, the advantages such as simple, security is good, volume is small and exquisite, highly versatile is installed.

Description

Integrated circular water-filled radiator

Technical field

The utility model relates to heat abstractor technical field, is specifically related to integrated circular water-filled radiator.

Background technology

Computer CPU dispels the heat all taking wind-cooling heat dissipating as main flow for a long time, and wind-cooling heat dissipating scheme all adopts the design of fan+metal fin, and the heat that CPU exhales is transferred on heat radiator, then by fan, the heat of heat radiator is blown away.Such design will improve radiating efficiency, only have the heat radiator of increasing volume and increase two kinds of methods of air quantity of fan, too large volume is obviously unrealistic for the limited inside of cabinet, and fan wants to increase air quantity, can only rev up, but limited size, volume and the installing space of fan difficulty has significantly and promote, consequently efficiency has few that to improve noise increasing; In addition, the heat conduction speed of solid metallic is very low, and namely heat conduction is slow, cooling also slow, wind-cooling heat dissipating promotes and has been subject to considerable restraint, and computing machine fast development, cpu performance constantly promotes, more and more higher to heat radiation requirement, and one more efficiently heating radiator more can be met the need of market.

The paces that promote for catching up with cpu performance, on market, there is a kind of water-cooling type radiator, tradition water-filled radiator is due to the complete difference of heat-conducting, the heat conductance of water is much better than air, and heat absorptivity is better, heat up slower, absorb heat more, the temperature conductivity of circulating water is also much better than the heat conduction speed of solid metallic, and the successful of traditional water-cooling is better than wind-cooling heat dissipating.But traditional water-filled radiator adopts water-cooling row to carry out disposable heat radiation to chilled water, water-cooling isostere is long-pending greatly, a large amount of chilled waters of the low needs of efficiency neutralize heat radiation, cause water tank volume also huge, both having affected it attractive in appearancely also makes less cabinet use, universal performance is low, in limited cabinet, cannot be combined into one formula structure and cause part numerous, install complicated; Numerous waterpipe jointings is easy to cause and leaks, and security performance is low; And water-cooling row will raise the efficiency and only has the water-cooling of increase row or install water-cooling row additional, consequently volume is increasing, and security is more and more lower, and installation becomes increasingly complex.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of integrated circular water-filled radiator of good heat dissipation effect, integrated circular water-filled radiator of the present utility model also have install simple, security is good, volume is small and exquisite, highly versatile texts.

For achieving the above object, the utility model adopts following technical scheme:

A kind of integrated circular water-filled radiator, comprises that a water-cooling row, two groups of current close and are in charge of group, at least two group radiating tube groups, a header tank, a water pump and at least two adapting pipes; Described water-cooling row closes to be in charge of to organize with one group of current wherein and is connected and is interconnected; These two groups of current close to be in charge of group and to be communicated with the two ends of radiating tube group respectively; One end of each adapting pipe is closed and is in charge of group and is connected and is interconnected with one group of current wherein respectively, and the other end of each adapting pipe is all communicated with described water pump or header tank; Described water pump is arranged in header tank.

Preferably, described water-cooling package is drawn together an accommodating box body for cooling cooling medium and is convexly equipped with at least two water flowing posts on accommodating box body; In this accommodating box body, offer accommodating cavity; Each water flowing post all with accommodating cavity and wherein one group of current close and be in charge of group and be connected and be interconnected.

Preferably, described two groups of current close and are in charge of group and comprise that the first current close and be in charge of group and the second current and close and be in charge of group; Described the first current close is in charge of that group is arranged with described water-cooling and the lower end of each radiating tube group is connected and is interconnected; Described the second current close to be in charge of to organize and are connected and are interconnected with upper end and each adapting pipe of each radiating tube group.

Preferably, described the first current close be in charge of that group comprises that quantity equates with radiating tube group group number first close and be in charge of; Each first closes to be in charge of and offers respectively with some the first tapping holes that wherein one group of radiating tube group is connected and arrange with water-cooling at least one the first Heshui hole being connected.

Preferably, described the second current close be in charge of that group comprises that quantity equates with radiating tube group group number second close and be in charge of; Each second closes to be in charge of and offers respectively and some the second tapping holes that wherein one group of radiating tube group is connected and at least one the second Heshui hole being connected with an adapting pipe.

Preferably, the quantity of described adapting pipe equates with described radiating tube group group number; One end of each adapting pipe is closed to be in charge of to organize with described the second current and is connected, and the other end is communicated with the water delivering orifice of described header tank or water pump.

Preferably, described two groups, respectively organize the radiating tube that radiating tube group comprises respectively some spring shapes; Wherein one group of current close to be in charge of and in group, offer some the first tapping holes, and another group current close to be in charge of and in group, offer some the second tapping holes; The two ends of each radiating tube are communicated with one of them first tapping hole and second tapping hole respectively.

Preferably, each radiating tube lays respectively at the periphery of described header tank.

Preferably, also comprise a fan, this fan and described water-cooling row lay respectively at the two ends of each radiating tube group.

Preferably, also comprise a fastener of heat sink; It is upper that this fastener of heat sink is installed water-cooling row, and be positioned at the first current and close the below of being in charge of group.

The beneficial effects of the utility model:

Integrated circular water-filled radiator of the present utility model, close and be in charge of group and at least two group adapting pipes each radiating tube group is communicated with header tank and chilled water heat radiation row by two groups of current, realizing cooling medium closes to be in charge of in group, radiating tube group, header tank and two adapting pipes at current and circulates, be embodied as the effect of computer CPU cooling, and in described at least two group radiating tube groups, at least one radiating tube group is for a water-cooling, and at least one group of radiating tube group is for secondary water-cooling.So integrated circular water-filled radiator of the present utility model can be realized better cooling-down effect.And described cooling tube is spring shape, can effectively improve the contact area of cooling medium and external environment, further improve the effect of heat radiation.

In addition the radiating tube of spring shape is used to close to be in charge of with second by first and closed to be in charge of and combine composition spring radiating tube row and substitute traditional cooling row chilled water is dispelled the heat, the little direct result bringing of spring radiating tube row's high volume of efficiency has following 3 points at least:

The first, it is significantly reduced cool but water demand, and dwindled water tank volume, realize tradition is combined into one the holder of water tank and water pump.

The second, spring radiating tube row can be all housed on water-cooling head water inlet pipe and water outlet pipe and realize the object to the heat radiation of chilled water secondary in limited space, radiating effect is promoted once again.

The 3rd, the raising of dwindling efficiency of volume can be combined the integral structure of having realized in aggregates by numerous parts, to its installation property, and security, versatility has obtained huge raising.

Brief description of the drawings

Fig. 1 is the one-piece construction schematic diagram of a kind of integrated circular water-filled radiator in specific embodiment of the utility model;

Fig. 2 is the decomposing schematic representation of a kind of integrated circular water-filled radiator in specific embodiment of the utility model;

Fig. 3 is the cut-open view of a kind of integrated circular water-filled radiator in specific embodiment of the utility model.

In figure: 1, water-cooling row; 11, accommodating box body; 110, accommodating cavity; 12, water flowing post; 2, current close and are in charge of group; 21, the first current close and are in charge of group; 211, first close and be in charge of; 212, the first tapping hole; 213, the first Heshui hole; 22, the second current close and are in charge of group; 221, second close and be in charge of; 222, the second tapping hole; 223, the second Heshui hole; 3, radiating tube group; 31, radiating tube; 4, header tank; 5, water pump; 6, adapting pipe; 7, fan; 8, fastener of heat sink.

Embodiment

Below, by reference to the accompanying drawings and embodiment, the utility model is described further:

Referring to figs. 1 through Fig. 3, a kind of integrated circular water-filled radiator described in the utility model, comprises that a water-cooling row 1, two groups of current close and are in charge of group 2, at least two group radiating tube groups 3, a header tank 4, a water pump 5 and at least two adapting pipes 6.Described water-cooling row 1 and one group of current wherein close to be in charge of and organize 2 and be connected and be interconnected.These two groups of current close to be in charge of group and 2 to be communicated with the two ends of radiating tube group 3 respectively.One end of each adapting pipe 6 is closed and is in charge of group 2 and is connected and is interconnected with one group of current wherein respectively, and the other end of each adapting pipe 6 is all communicated with described water pump 5 or header tank 4.Described water pump 5 is arranged in header tank 4.Preferably, in described header tank 4, can be provided with a holder for accommodating water pump 5 (figure is mark not).

Described water-cooling row 1 comprises an accommodating box body 11 for cooling cooling medium and is convexly equipped with at least two water flowing posts 12 on accommodating box body 11.In this accommodating box body 11, offer accommodating cavity 110, each water flowing post 12 all with accommodating cavity 110 and wherein one group of current close and be in charge of group 2 and be connected and be interconnected.Wherein at least one water flowing post 12 closes cooling medium to be in charge of in group 2 from draining into described current in described accommodating cavity 110.Equally also can current be closed to the cooling medium of being in charge of in group 2 by least one water flowing post 12 drains in accommodating cavity 110.

Described two groups of current close be in charge of group 2 comprise the first current close be in charge of group 21 and second current close be in charge of group 22.Described the first current close be in charge of group 21 and described water-cooling arrange 1 and the lower end of each radiating tube group 3 be connected and be interconnected.These first current close be in charge of that group 21 comprises that 3 groups of numbers of quantity and radiating tube group equate first close and be in charge of 211.Each first close be in charge of 211 offer respectively with some the first tapping holes 212 that wherein one group of radiating tube group 3 is connected and with water-cooling row 1 at least one connection the first Heshui hole 213.Preferably, each water flowing post 12 can intert respectively in a described first Heshui hole 213.Wherein at least one first closes and is in charge of 211 for the cooling medium in water-cooling row 1 is branched in radiating tube group 3; At least one first closes and is in charge of 211 for the cooling medium in radiating tube group 3 being drained to respectively in water-cooling row 1.

Described the second current close to be in charge of group and 22 to be connected and to be interconnected with upper end and each adapting pipe 6 of each radiating tube group 3.These second current close be in charge of that group 22 comprises that 3 groups of numbers of quantity and radiating tube group equate second close and be in charge of 221.Each second closes and is in charge of 221 and offers respectively and some the second tapping holes 222 that wherein one group of radiating tube group 3 is connected and at least one the second Heshui hole 223 being connected with an adapting pipe 6.Wherein at least one first closes and is in charge of 211 for the cooling medium in water collector 4 is branched in radiating tube group 3; At least one first closes and is in charge of 211 for the cooling medium in radiating tube group 3 is drained to respectively in water collector 4.

In described at least two group radiating tube groups 3, at least one radiating tube group 3 is for a water-cooling, and at least one group of radiating tube group 3 is for secondary water-cooling.Each group radiating tube group 3 comprises respectively the radiating tube 31 of some spring shapes (or spiral fashion).The two ends of each radiating tube 31 are communicated with one of them first tapping hole 212 and second tapping hole 222 respectively.Each radiating tube 31 lays respectively at the periphery of described header tank 4.Be appreciated that if desired increasing the quantity of described radiating tube 31 can close and be in charge of 211 and second and close and be in charge of 221 quantity and can realize by increasing the quantity of the first tapping hole 212 and the second tapping hole 222 or increasing by first.

3 groups of numbers of the quantity of described adapting pipe 6 and described radiating tube group equate.One end of each adapting pipe 6 and described the second current close to be in charge of group 22 and to be connected, and the other end is communicated with the water delivering orifice of described header tank 4 or water pump 5.The water inlet of described water pump 5 and header tank 4 internal communication.Preferably, one end of each adapting pipe 6 and the second current close the second Heshui hole 223 of being in charge of group 22 and are communicated with.

As preferred embodiment, in order to improve radiating effect of the present utility model, integrated water-cooling device of the present utility model also comprises a fan 7, and this fan 7 and described water-cooling row 1 lay respectively at the two ends of each radiating tube group 3.Preferably, this fan 7 is positioned at the second current and closes and be in charge of group 22 top.This fan 7 can be used for the second current to close and be in charge of group 22 and take away a part with the heat of header tank 4 cooling mediums such as grade, thereby the temperature that reduces cooling medium improves cooling effect.

As another preferred embodiment, integrated water-cooling device of the present utility model also comprises a fastener of heat sink 8.This fastener of heat sink 8 is installed on water-cooling row 1, and is positioned at the first current and closes the below of being in charge of group 21.This fastener of heat sink 8 is for being fixed on precalculated position by integral type water-cooled circulation radiator of the present utility model.

Principle of work of the present utility model is described further as example to there are two groups of radiating tube groups 3 below.Shown in Fig. 3, the flow direction that the arrow in Fig. 3 is cooling medium.Therefore the quantity of adapting pipe 6, first is closed and is in charge of 211 quantity and second and closes and be in charge of 221 quantity and all can be two.One end of one of them adapting pipe 6 is closed and is in charge of the second Heshui hole 223 of 221 and is communicated with one second, and the other end is communicated with described header tank 4, and so combination can be for a water-cooling process; One end of another adapting pipe 6 second is closed and is in charge of the second Heshui hole 223 of 221 and is communicated with another, and the other end is communicated with the water delivering orifice of described water pump 5, and so combination can be for the cold heat radiation process of intermediate water.

A water-cooling process: the cooling medium in described water-cooling row 1 flows into the first current and closes first of being in charge of in group 21 and close and be in charge of in 211, first is closed the first tapping hole 212 of being in charge of on 211 and shunt in the each radiating tube 31 that enters one group of radiating tube group 3 wherein afterwards by this.Cooling medium in each radiating tube 31 enters the second current again and closes and be in charge of in 22 one second of group and close to be in charge of and in 221, carry out current interflow, close and be in charge of the second Heshui hole 223 of 221 and flow in one of them adapting pipe 6 by second again, and by this adapting pipe 6, cooling medium is drained in header tank 4 and is mixed, the cooling medium of the non-uniform temperature in a water-cooling process is mixed, after the cooling medium of formation isothermal, carry out the cold heat radiation of intermediate water.Cooling medium in water-cooling row 1 flows into the first current and closes and be in charge of group and can, by by extraneous water pump or other water drawing devices, also can realize according to differential water pressures for 21 o'clock.

The process of secondary water-cooling: by water pump 5 by the coolant extraction in header tank 4 to another adapting pipe 6, by this adapting pipe 6, cooling medium being drained to the second current wherein closes and is in charge of second of group 22 and closes and be in charge of in 221, second close and be in charge of the second tapping hole 222 of 221 and will after cooling medium shunting, import respectively in each radiating tube 31 of one group of radiating tube group 3 by this, enter again the first current and close and be in charge of group 21 first and close and be in charge of in 211, and first close and be in charge of the first Heshui hole 213 of 211 and be drained in described water-cooling row 1 and lower the temperature by this.Capable of circulation for the process of heat radiation once again through the cooling medium of cooling.

In sum, integrated water-cooling device of the present utility model can, through after water-cooling and secondary water-cooling, can better be taken away computer CPU heat, thereby effectively improves the effect of heat radiation.

To one skilled in the art, can be according to technical scheme described above and design, make other various corresponding changes and deformation, and within these all changes and deformation all should belong to the protection domain of the utility model claim.

Claims (10)

1. integrated circular water-filled radiator, is characterized in that: comprise that a water-cooling row, two groups of current close and are in charge of group, at least two group radiating tube groups, a header tank, a water pump and at least two adapting pipes; Described water-cooling row closes to be in charge of to organize with one group of current wherein and is connected and is interconnected; These two groups of current close to be in charge of group and to be communicated with the two ends of radiating tube group respectively; One end of each adapting pipe is closed and is in charge of group and is connected and is interconnected with one group of current wherein respectively, and the other end of each adapting pipe is all communicated with described water pump or header tank; Described water pump is arranged in header tank.

2. integrated circular water-filled radiator according to claim 1, is characterized in that: described water-cooling package is drawn together an accommodating box body for cooling cooling medium and is convexly equipped with at least two water flowing posts on accommodating box body; In this accommodating box body, offer accommodating cavity; Each water flowing post all with accommodating cavity and wherein one group of current close and be in charge of group and be connected and be interconnected.

3. integrated circular water-filled radiator according to claim 1, is characterized in that: described two groups of current close to be in charge of group and to comprise that the first current close and be in charge of group and the second current and close and be in charge of group; Described the first current close is in charge of that group is arranged with described water-cooling and the lower end of each radiating tube group is connected and is interconnected; Described the second current close to be in charge of to organize and are connected and are interconnected with upper end and each adapting pipe of each radiating tube group.

4. integrated circular water-filled radiator according to claim 3, is characterized in that: described the first current close be in charge of that group comprises that quantity equates with radiating tube group group number first close and be in charge of; Each first closes to be in charge of and offers respectively with some the first tapping holes that wherein one group of radiating tube group is connected and arrange with water-cooling at least one the first Heshui hole being connected.

5. integrated circular water-filled radiator according to claim 3, is characterized in that: described the second current close be in charge of that group comprises that quantity equates with radiating tube group group number second close and be in charge of; Each second closes to be in charge of and offers respectively and some the second tapping holes that wherein one group of radiating tube group is connected and at least one the second Heshui hole being connected with an adapting pipe.

6. according to the integrated circular water-filled radiator described in claim 3-5 any one, it is characterized in that: the quantity of described adapting pipe equates with described radiating tube group group number; One end of each adapting pipe is closed to be in charge of to organize with described the second current and is connected, and the other end is communicated with the water delivering orifice of described header tank or water pump.

7. integrated circular water-filled radiator according to claim 1, is characterized in that: described two groups, respectively organize the radiating tube that radiating tube group comprises respectively some spring shapes; Wherein one group of current close to be in charge of and in group, offer some the first tapping holes, and another group current close to be in charge of and in group, offer some the second tapping holes; The two ends of each radiating tube are communicated with one of them first tapping hole and second tapping hole respectively.

8. integrated circular water-filled radiator according to claim 7, is characterized in that: each radiating tube lays respectively at the periphery of described header tank.

9. integrated circular water-filled radiator according to claim 1, is characterized in that: also comprise a fan, this fan and described water-cooling row lay respectively at the two ends of each radiating tube group.

10. integrated circular water-filled radiator according to claim 3, is characterized in that: also comprise a fastener of heat sink; It is upper that this fastener of heat sink is installed water-cooling row, and be positioned at the first current and close the below of being in charge of group.