CN207602555U - A kind of channel-type water-filled radiator - Google Patents

Abstract

The utility model is related to a kind of channel-type water-filled radiators.It includes wind turbine and radiator body, wind turbine is set on radiator body, radiator body is equipped with heat dissipation channel, the exhaust outlet of wind turbine is connected with the air inlet of heat dissipation channel, hydroscopic substance is equipped in heat dissipation channel, heat dissipation channel is corresponded on radiator body equipped with air inlet and air outlet, radiator body is equipped with the inlet opening connected with heat dissipation channel.The utility model is dried by wind turbine, when air-flow flows through the heat dissipation wind channel in radiator body, air-flow accelerates the evaporation of the moisture on hydroscopic substance, moisture evaporation absorbs heat, so that radiator body own temperature declines, it radiates so as to fulfill high-efficiency water cooling, it is final so that the object cooling contacted with radiator body.Therefore the radiating efficiency of the utility model is high, and radiating rate is fast, and in addition the utility model is compact-sized, small, occupies little space, light weight, is easily installed, so as to the electronic element radiating small-sized for some.

Description

A kind of channel-type water-filled radiator

Technical field

The utility model is related to heat sink technology field, more particularly to a kind of channel-type water-filled radiator.

Background technology

At present, the every aspect in human lives is required for cooling to radiate, such as existing household electrical appliance and household electric Electronic component in device, fever are to influence one of principal element that household electrical appliance work normally, such as laptop, computer Cpu, semiconductor freezer, refrigerator are required for radiator to cool down heat dissipation, such as the temperature of themselves exceeds normal temperature model It encloses, its working efficiency will be influenced and even result in it burn out.But radiator volume is big on the market at present, radiating efficiency is low, Quality weight.In conclusion be badly in need of at present it is a kind of it is small, radiating efficiency is high, the radiator of good heat dissipation effect.

Utility model content

The purpose of this utility model is that overcome the shortcomings of existing radiator volume is big, radiating efficiency is low, and provide one Kind is small, radiating efficiency is high, the channel-type water-filled radiator of good heat dissipation effect.

What the purpose of this utility model was realized in：

A kind of channel-type water-filled radiator, including wind turbine and radiator body, the wind turbine is set on radiator body, institute It states radiator body and is equipped with heat dissipation channel, heat dissipation channel is corresponded on the radiator body equipped with air inlet and air outlet, institute The exhaust outlet for stating wind turbine is connected with the air inlet of heat dissipation channel, and hydroscopic substance, the radiator body are equipped in the heat dissipation channel The inlet opening connected with heat dissipation channel is equipped with, the bottom of the radiator body is equipped with apopore.

The utility model can also improve further below.

The hydroscopic substance is preferably composite paper, and certain hydroscopic substance can also use cotton or knitting wool or wood pulp sponge Or PAV sponges etc. can adsorb the object of water.

The composite paper is attached on the inner wall of heat dissipation channel.

The heat dissipation channel is preferably serpentine channel, and the utility model will radiate on the radiator body of constant volume In detour shape, the utility model is realized under the premise of radiator body volume is not expanded, is effectively improved for channel setting The radiating efficiency of radiator body, certain heat dissipation channel can also be designed to straight channel or circuitous channel.

The heat dissipation channel is to be made of a plurality of along the horizontal heat dissipation passage aisle that short transverse is arranged side by side, at least two Adjacent horizontal heat dissipation passage aisle head and the tail connect.It is in detour shape that the heat dissipation channel of the utility model, which is,

The radiator body includes heat radiating metal block, preceding sealing plate, left sealing plate and right sealing plate, the heat radiating metal block The back side is heat dissipation contact surface, extends multi-disc cooling fin towards its front side horizontal before the heat radiating metal block, and adjacent two dissipate Backing is arranged at intervals up and down, and the preceding sealing plate, left sealing plate and right sealing plate are respectively arranged on the front side, left side and the right side of heat radiating metal block Side, the heat radiating metal block, a plurality of cooling fin, preceding sealing plate, left sealing plate and right sealing plate surround a plurality of horizontal heat dissipation passage aisle.

One end of a plurality of air inlet heat dissipation passage aisle forms the air inlet of radiator body, and the right sealing plate is set on air inlet Radiate the other end of passage aisle, the multi-disc cooling fin of corresponding air inlet heat dissipation passage aisle with right sealing plate phase from setting, to form first Overcurrent air duct.

The left sealing plate is set on one end of a plurality of outlet heat dissipation passage aisle, the multi-disc cooling fin of corresponding outlet heat dissipation passage aisle With left sealing plate mutually from setting, to form the second overcurrent air duct, the second overcurrent air duct is connected with the first overcurrent air duct, and the air inlet dissipates Hot passage aisle is connected by the first overcurrent air duct, the second overcurrent air duct with outlet heat dissipation passage aisle, and a plurality of outlet heat dissipation is small One end of channel forms the air outlet of radiator body.

The heat radiating metal block is aluminium block or alloy block, and the radiating rate of aluminium block or alloy block is fast, is conducive to improve this reality With novel radiating efficiency.

The wind turbine is preferably air blower, and certain wind turbine can also use axial flow blower or centrifugal blower.

The cooling fin is equipped with water hole, and water flows to the hydroscopic substance in every horizontal heat dissipation passage aisle by water hole, Make hydroscopic substance keep moistening, in order to water level heat dissipation passage aisle in evaporation endothermic.

The heat dissipation channel is in flat or cylindric.

The wind turbine is located at the side of radiator body, and the air outlet is located at the opposite side of radiator body.

The beneficial effects of the utility model are as follows：

（One）The utility model is dried by wind turbine, and when air-flow flows through the heat dissipation wind channel in radiator body, air-flow accelerates The evaporation of moisture on hydroscopic substance, moisture evaporation absorb heat so that radiator body own temperature declines, so as to fulfill height Water-cooling is imitated, it is final so that the object cooling contacted with radiator body.Therefore the radiating efficiency of the utility model is high, Radiating rate is fast, and in addition the utility model is compact-sized, small, occupies little space, light weight, is easily installed, so as to Enough it is some small-sized electronic element radiatings.

（Two）In addition, the radiating efficiency of the utility model is high, radiating rate is fast, and high power device is made more preferably to be radiated Effect is to improve product reliability.

（Three）More have plenty of, the utility model can realize that high-efficiency water cooling radiates, and can replace air-conditioning, be set as environment refrigeration It is standby to use, so as to adjust indoor environment temperature.

Description of the drawings

Fig. 1 is the structure diagram of the utility model channel-type water-filled radiator.

Fig. 2 is the schematic cross-sectional view at A-A in Fig. 1.（Arrow in Fig. 1 represents air flow direction）.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and embodiments.

Embodiment one, as shown in Figure 1 to Figure 2, a kind of channel-type water-filled radiator, including wind turbine 1 and radiator body 2, The wind turbine 1 is set on radiator body 2, and the wind turbine 1 is equipped with air intake vent 11 and exhaust outlet, on the radiator body 2 Equipped with heat dissipation channel 23, heat dissipation channel 23 is corresponded on the radiator body 2 equipped with air inlet 21 and air outlet 22, the wind turbine 1 exhaust outlet is connected with the air inlet 21 of heat dissipation channel 23, and hydroscopic substance 3, the radiator sheet are equipped in the heat dissipation channel 23 Body 2 is equipped with the inlet opening 29 connected with heat dissipation channel 23, and the bottom of the radiator body 2 is equipped with apopore 28.

As the more specific technical solution of the utility model.

The hydroscopic substance 3 is composite paper, and certainly, the hydroscopic substance 3 can also use cotton or knitting wool or wood pulp sponge Or PAV sponges etc. can adsorb the object of water, so that heat dissipation channel maintains moisture, realize and exchange heat so as to heat dissipation channel.

The composite paper is attached on the inner wall of heat dissipation channel 23.

The heat dissipation channel 23 preferably or serpentine channel, certain heat dissipation channel 23 can also be designed to straight channel or Circuitous channel.

The heat dissipation channel 23 is to be made of a plurality of along the horizontal heat dissipation passage aisle 230 that short transverse is arranged side by side, wherein At least two adjacent horizontal heat dissipation passage aisles 230 connect from beginning to end.

The radiator body 2 includes heat radiating metal block 20, preceding sealing plate 27, left sealing plate 25 and right sealing plate 26, described to dissipate The back side of thermometal block 20 is heat dissipation contact surface 241, extends multi-disc towards its front side horizontal before the heat radiating metal block 20 Cooling fin 24, two adjacent cooling fins are arranged at intervals about 24, and the preceding sealing plate 27, left sealing plate 25 and right sealing plate 26 are respectively arranged on Front side, left side and the right side of heat radiating metal block 20, the heat radiating metal block 20, a plurality of cooling fin 24, preceding sealing plate 27, left sealing plate 25 And right sealing plate 26 surrounds a plurality of horizontal heat dissipation passage aisle 230.

As the more specific technical solution of the utility model.

It is small that the horizontal heat dissipation passage aisle 230 is specifically divided into a plurality of air inlet heat dissipation setting up and down on heat radiating metal block 20 Channel 231 and a plurality of outlet heat dissipation passage aisle 232.

One end of a plurality of air inlet heat dissipation passage aisle 231 forms the air inlet 21 of radiator body 2, the right sealing plate 26 Set on the other end of air inlet heat dissipation passage aisle 231, the multi-disc cooling fin of corresponding air inlet heat dissipation passage aisle 231 and right 26 phase of sealing plate from Setting, to form the first overcurrent air duct 201.

The left sealing plate 25 is set on one end of a plurality of outlet heat dissipation passage aisle 232, corresponds to the more of outlet heat dissipation passage aisle 232 Piece cooling fin with left 25 phase of sealing plate from setting, to form the second overcurrent air duct 202, the second overcurrent air duct 202 and the first overcurrent wind Road 201 connects, and the air inlet heat dissipation passage aisle 231 is radiated by the first overcurrent air duct 201, the second overcurrent air duct 202 with outlet Passage aisle 232 connects, and one end of a plurality of outlet heat dissipation passage aisle 232 forms the air outlet 22 of radiator body 2.

As the more detailed technical solution of the utility model.

The heat radiating metal block 20 is aluminium block or alloy block.

The wind turbine 1 is preferably air blower, and certain wind turbine 1 can also use axial flow blower or centrifugal blower.

The wind turbine 1 is located at the side of radiator body 2, and the air outlet 22 is located at the opposite side of radiator body 2.

The cooling fin 24 is equipped with water hole 240, and water is flowed to by water hole 240 in every horizontal heat dissipation passage aisle Composite paper makes composite paper keep moistening, in order to evaporation endothermic.

The heat dissipation channel 23 is in flat or cylindric.

The operation principle of the utility model：

During utility model works, the heat dissipation contact surface 241 of the utility model is contacted with object, and the utility model, which starts, to be dissipated When hot, wind turbine 1 starts, and wind turbine starts to blow toward heat dissipation channel 23, when air-flow passes through heat dissipation channel 23, accelerates on hydroscopic substance The evaporation of moisture so that the water rapid evaporation heat absorption on composite paper, thus the Wen Duxiajiang of of heat radiating metal block 20 itself, finally So that the object cooling contacted with heat radiating metal block 20, temperature reduces, and air-flow is again from the outlet air of heat radiating metal block 20 later Mouth 22 is discharged.It is very high that air-flow flows through a plurality of horizontal heat dissipation passage aisle, radiating efficiency on heat radiating metal block 20.To keep this practicality The refrigeration effect of novel heat radiating metal block 20 needs to add water to composite paper often, and composite paper is made to keep moistening, to generate Endothermic effect.Water enters from the inlet opening of heat radiating metal block 20 29, then passes through the mistake on heat dissipation channel 23 or cooling fin 24 Discharge orifice flows to the composite paper of each horizontal heat dissipation passage aisle.

Claims (10)

1. a kind of channel-type water-filled radiator, including wind turbine and radiator body, the wind turbine is set on radiator body, special Sign is：The radiator body is equipped with heat dissipation channel, correspond on the radiator body heat dissipation channel equipped with air inlet with Air outlet, the exhaust outlet of the wind turbine are connected with the air inlet of heat dissipation channel, and hydroscopic substance is equipped in the heat dissipation channel, described to dissipate Hot device ontology is equipped with the inlet opening connected with heat dissipation channel.

2. channel-type water-filled radiator according to claim 1, it is characterised in that：The hydroscopic substance is composite paper or cotton Flower or knitting wool or wood pulp sponge or PAV sponges.

3. channel-type water-filled radiator according to claim 2, it is characterised in that：It is logical that the composite paper is attached at heat dissipation On the inner wall in road.

4. the channel-type water-filled radiator according to claims 1 or 2 or 3, it is characterised in that：The heat dissipation channel is straight-through Road or circuitous channel or serpentine channel.

5. channel-type water-filled radiator according to claim 4, it is characterised in that：The heat dissipation channel is along height by a plurality of The horizontal heat dissipation passage aisle that degree direction is arranged side by side is formed, and at least two adjacent horizontal heat dissipation passage aisle head and the tail connect.

6. channel-type water-filled radiator according to claim 5, it is characterised in that：The radiator body includes heat dissipation gold Belong to block, preceding sealing plate, left sealing plate and right sealing plate, the back side of the heat radiating metal block is heat dissipation contact surface, the heat radiating metal block Before towards its front side horizontal extend multi-disc cooling fin, two adjacent cooling fins are arranged at intervals up and down, the preceding sealing plate, left envelope Plate and right sealing plate are respectively arranged on the front side, left side and right side of heat radiating metal block, the heat radiating metal block, a plurality of cooling fin, preceding envelope Plate, left sealing plate and right sealing plate surround a plurality of horizontal heat dissipation passage aisle.

7. channel-type water-filled radiator according to claim 6, it is characterised in that：The heat radiating metal block is aluminium block or conjunction Gold bullion.

8. channel-type water-filled radiator according to claim 7, it is characterised in that：The wind turbine is air blower or axis stream wind Machine or centrifugal blower.

9. channel-type water-filled radiator according to claim 6, it is characterised in that：The cooling fin is equipped with water hole.

10. channel-type water-filled radiator according to claim 9, it is characterised in that：The bottom of the radiator body is set There is apopore.