CN209298252U - A kind of mesohigh water cooling pile of light quality - Google Patents

Abstract

The utility model belongs to water cooling pile technical field, the mesohigh water cooling pile of in particular a kind of light quality, the pile ontology and the outside plate are fixedly connected with the water tank, the inside of the water tank is equipped with micropump, the micropump is fixedly connected with the water tank, and the output end of the micropump is equipped with water cooling tube, and the water cooling tube is fixedly connected with the micropump, the water cooling tube runs through the water tank, and is connected between two water tanks by water cooling tube；By the two sides that water tank is arranged in pile ontology, in use, the heat that pile ontology issues can pass to outside plate, and to external cooling, heat on outside plate is absorbed by the first heat-conducting block, water cooling liquid is delivered in water cooling tube by water tank by micropump to be flowed, and is radiated by the first heat-conducting block to the first heat-conducting block, by the way that multiple first heat-conducting blocks are arranged, it can be to the more uniform of the heat absorption of outer plate surfaces, light quality simultaneously, volume is smaller, is easily installed and safeguards.

Description

A kind of mesohigh water cooling pile of light quality

Technical field

The utility model belongs to water cooling pile technical field, and in particular to a kind of mesohigh water cooling pile of light quality.

Background technique

Battery pack or or fuel cell abbreviation pile some energy are not intended to directly burn now, but a kind of new section Technology is exactly called fuel cell or referred to as pile, and by chemical reaction, obtaining electricity is exactly that hydrogen is led into, passes through Oxygen in air generates electricity by chemical reaction, and by-product is pure water, is not also just polluted certainly, and do not move Component, without noise pollution；Water-cooled radiator has a water inlet and water outlet, has a plurality of water channel inside radiator, in this way may be used To give full play to the advantage of water cooling, more heats can be taken away.Here it is the basic principles of water-cooled radiator.

(patent No.: CN201611239554.2 discloses a kind of electronic vapour with water cooling hydrogen fuel cell to Chinese patent Vehicle) patent by water cooling plant be fuel cell cool down, water cooling plant includes Water cooling medium container, the Water cooling medium pump housing, water Cold passage, the pile of fuel cell lay water-cooling channel, and the entrance of water-cooling channel, outlet are separately connected Water cooling medium container, water The cold medium pump housing is connect with water-cooling channel, and equipment can be effectively reduced by the way that water cooling plant is arranged in the electric car which proposes Noise, promote the mute level of vehicle, but there are some problems.

Existing technology has the following problems:

1, the water-cooling radiating structure used on original pile ontology is more complicated, and volume is larger than cumbersome, can occupy Much room brings inconvenience to installation and use；

2, the water-cooled radiator on original pile ontology makes although the temperature of pile ontology can be reduced for a long time Used time heat dissipation effect is unobvious.

Utility model content

To solve the problems mentioned above in the background art.The utility model provides a kind of mesohigh water of light quality Cold pile, has the characteristics that light quality and good cooling effect.

To achieve the above object, the utility model provides the following technical solutions: a kind of mesohigh water cooling electricity of light quality Heap, including pile ontology, the front and rear sides of the pile ontology are equipped with outside plate, the outside plate and the fixed company of the pile ontology It connects, the left and right sides of the pile ontology, and is equipped with water tank, the pile at the position being equipped between outside plate described in two Ontology and the outside plate are fixedly connected with the water tank, and the inside of the water tank is equipped with micropump, the micropump with it is described Water tank is fixedly connected, and the output end of the micropump is equipped with water cooling tube, and the water cooling tube is fixedly connected with the micropump, institute Water cooling tube is stated through the water tank, and is connected between two water tanks by water cooling tube, on the other end of the water cooling tube Equipped with the first heat-conducting block, the water cooling tube runs through first heat-conducting block, and is fixedly connected with first heat-conducting block, and described the One heat-conducting block is located at the outer surface of the outside plate, and first heat-conducting block is fixedly connected with the outside plate, the pile ontology Lower surface at the position of the water tank be equipped with thermally conductive item, the thermally conductive item is fixedly connected with the pile ontology, and institute The left and right sides for stating thermally conductive item is differentiated through the water tank, and is fixedly connected with the water tank, the lower surface of the thermally conductive item Equipped with the second heat-conducting block, second heat-conducting block is fixedly connected with the thermally conductive item, and the lower surface of the thermally conductive item is located at described Air-cooled shell is equipped at position outside second heat-conducting block, the air-cooled shell is fixedly connected with the thermally conductive item, the air-cooled shell Inner wall is equipped with bracket, and the bracket is fixedly connected with the air-cooled shell, and the inside of the bracket is equipped with motor, the motor and The bracket is fixedly connected, and the output shaft of the motor is equipped with blade, and the blade is fixedly connected with the motor, the electricity Machine and the micropump are electrically connected with external power supply.

Preferably, the upper surface of the pile ontology is equipped with thermally conductive item, the thermally conductive item and the fixed company of the pile ontology It connects.

Preferably, first heat-conducting block is located at the front and rear sides of the outside plate, and described on a water tank The quantity of one heat-conducting block is five, and first heat-conducting block that two outside plates are equipped with is symmetrical.

Preferably, one word of the first heat-conducting block that the outside plate is equipped with arranges downwards, and the water cooling tube is serpentine-like Sequentially pass through multiple first heat-conducting blocks.

Preferably, the thermally conductive item is fixed at the position of the water tank by epoxy glue seal.

Preferably, the quantity of the water cooling tube is two, and two water cooling tubes are arranged at the front and back two sides of outside plate, And the orientation of two water cooling tubes is opposite.

Preferably, the outer surface of the air-cooled shell offers several through-holes at the position of second heat-conducting block.

Compared with prior art, the utility model has the beneficial effects that

1, by the way that water tank to be arranged in the two sides of pile ontology, in use, the heat that pile ontology issues can be passed Pass outside plate, and to external cooling, the heat on outside plate is absorbed by the first heat-conducting block, and water tank is conveyed water cooling liquid by micropump It flows in water cooling tube, and radiates by the first heat-conducting block to the first heat-conducting block, by the way that multiple first heat-conducting blocks, energy is arranged To the more uniform of the heat absorptions of outer plate surfaces, while light quality, volume is smaller, is easily installed and safeguards.

2, after prolonged use, water the temperature inside the box is stepped up, thermally conductive item by the heat absorption of water cooling liquid in water tank, and The second heat-conducting block is passed to, motor extracts the heat on the second heat-conducting block out with movable vane piece, external while heat extraction Gas at normal temperature is sucked in air-cooled shell by the through-hole outside air-cooled shell cools down to the second heat-conducting block, to improve pile ontology Heat dissipation effect so that pile ontology can use for a long time.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram that the utility model is overlooked；

Fig. 3 is the structural schematic diagram of side view in the utility model；

Fig. 4 is the structural schematic diagram looked up in the utility model；

In figure: 1, pile ontology；2, outside plate；3, water tank；4, water cooling tube；5, the first heat-conducting block；6, thermally conductive item；7, it second leads Heat block；8, air-cooled shell；9, bracket；10, motor；11, blade；12, micropump.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Embodiment 1

Please refer to Fig. 1-4, the utility model the following technical schemes are provided: a kind of light quality mesohigh water cooling pile, Including pile ontology 1, the front and rear sides of pile ontology 1 are equipped with outside plate 2, and outside plate 2 is fixedly connected with pile ontology 1, pile ontology 1 The left and right sides, and be located at the position that two are equipped between outside plate 2 and be equipped with water tank 3, pile ontology 1 and outside plate 2 with water tank 3 It is fixedly connected, the inside of water tank 3 is equipped with micropump 12, and micropump 12 is fixedly connected with water tank 3, sets on the output end of micropump 12 There is water cooling tube 4, water cooling tube 4 is fixedly connected with micropump 12, and water cooling tube 4 runs through water tank 3, and passes through water cooling between two water tanks 3 Pipe 4 is connected, and the other end of water cooling tube 4 is equipped with the first heat-conducting block 5, and water cooling tube 4 runs through the first heat-conducting block 5, and leads with first Heat block 5 is fixedly connected, and the first heat-conducting block 5 is located at the outer surface of outside plate 2, and the first heat-conducting block 5 is fixedly connected with outside plate 2, pile The lower surface of ontology 1 is equipped with thermally conductive item 6 at the position of water tank 3, and thermally conductive item 6 is fixedly connected with pile ontology 1, and thermally conductive item 6 left and right sides, which is differentiated, runs through water tank 3, and is fixedly connected with water tank 3, and the lower surface of thermally conductive item 6 is equipped with the second heat-conducting block 7, Second heat-conducting block 7 is fixedly connected with thermally conductive item 6, and the lower surface of thermally conductive item 6, which is located at the position outside the second heat-conducting block 7, is equipped with wind Cold shell 8, air-cooled shell 8 are fixedly connected with thermally conductive item 6, and the inner wall of air-cooled shell 8 is equipped with bracket 9, bracket 9 and the fixed company of air-cooled shell 8 It connects, the inside of bracket 9 is equipped with motor 10, and motor 10 is fixedly connected with bracket 9, and the output shaft of motor 10 is equipped with blade 11, leaf Piece 11 is fixedly connected with motor 10, and motor 10 and micropump 12 are electrically connected with external power supply.

In the present embodiment: the model 300-11440 of motor 10, the small volume of motor 10, noise is smaller when work.

In the present embodiment: the model JT-DC3 of micropump 12, the small volume of micropump 12 are mountable in water tank 3.

In the present embodiment: the two sides by the way that water tank 3 to be arranged in pile ontology 1, in use, pile ontology 1 The heat of sending can pass to outside plate 2, and to external cooling, and the heat on outside plate 2 is absorbed by the first heat-conducting block 5, and water tank 3 passes through Water cooling liquid is delivered in water cooling tube 4 by micropump 12 to be flowed, and is radiated by the first heat-conducting block 5 to the first heat-conducting block 5, is led to It crosses and multiple first heat-conducting blocks 5 is set, can be to the more uniform of the heat absorption on 2 surface of outside plate, while light quality is easily installed And maintenance；After prolonged use, temperature is stepped up in water tank 3, thermally conductive item 6 by the heat absorption of water cooling liquid in water tank 3, and The second heat-conducting block 7 is passed to, motor 10 extracts the heat on the second heat-conducting block 7 out with movable vane piece 11, while heat extraction, External gas at normal temperature is sucked in air-cooled shell 8 by the through-hole outside air-cooled shell 8 cools down to the second heat-conducting block 7.

Specifically, the upper surface of pile ontology 1 is equipped with thermally conductive item 6, thermally conductive item 6 is fixedly connected with pile ontology 1；By setting Thermally conductive item 6 is set, connecting line can be mounted on thermally conductive item 6 and be fixed by user.

Specifically, the first heat-conducting block 5 is located at the front and rear sides of outside plate 2, and the number of the first heat-conducting block 5 on a water tank 3 Amount is five, and the first heat-conducting block 5 that two outside plates 2 are equipped with is symmetrically；By the way that multiple first heat-conducting blocks 5, energy is arranged To the more uniform of the heat absorption on 2 surface of outside plate.

Specifically, 5 one word of the first heat-conducting block that outside plate 2 is equipped with arranges downwards, and water cooling tube 4 it is serpentine-like sequentially pass through it is more A first heat-conducting block 5；By be arranged water cooling tube 4, water cooling liquid can repeatedly by the first heat-conducting block 5 to multiple first heat-conducting blocks 5 into Row cooling.

Specifically, thermally conductive item 6 is fixed at the position of water tank 3 by epoxy glue seal；Epoxy sealing glue high temperature resistant, and Good airproof performance can guarantee that the leakage of water cooling liquid will not occur for junction when the temperature increases.

Specifically, the quantity of water cooling tube 4 is two, and two water cooling tubes 4 are arranged at the front and back two sides of outside plate 2, and The orientation of two water cooling tubes 4 is opposite；It is more with the contact of the first heat-conducting block 5 by the way that two opposite water cooling tubes 4 are arranged, To which heat dissipation effect is more preferable.

Specifically, the outer surface of air-cooled shell 8 offers several through-holes at the position of the second heat-conducting block 7；By opening If through-hole, while heat extraction, external gas at normal temperature is sucked in air-cooled shell 8 by the through-hole outside air-cooled shell 8 to second Heat-conducting block 7 cools down.

The working principle and process for using of the utility model: in use, motor 10 is connected into electricity with micropump 12 Behind source, the heat that pile ontology 1 issues can pass to outside plate 2, and to external cooling, and the heat on outside plate 2 is by the first heat-conducting block 5 It absorbs, water cooling liquid is delivered in water cooling tube 4 by water tank 3 by micropump 12 to be flowed, and thermally conductive to first by the first heat-conducting block 5 Block 5 radiates, and water cooling liquid finally flows into water tank 3, and after prolonged use, temperature is stepped up in water tank 3, thermally conductive item 6 By the heat absorption of water cooling liquid in water tank 3, and the second heat-conducting block 7 is passed to, motor 10 will be on the second heat-conducting block 7 with movable vane piece 11 Heat extraction, while heat extraction, external gas at normal temperature is by right in the air-cooled shell 8 of through-hole sucking air-cooled shell 8 outside Second heat-conducting block 7 cools down.

Finally, it should be noted that the above is only the preferred embodiment of the utility model, it is not limited to practical It is novel, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art, It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all include It is within the protection scope of the utility model.

Claims (7)

1. a kind of mesohigh water cooling pile of light quality, including pile ontology (1), the front and rear sides of the pile ontology (1) Equipped with outside plate (2), the outside plate (2) is fixedly connected with the pile ontology (1), it is characterised in that: the pile ontology (1) The left and right sides, and water tank (3), the pile ontology (1) and institute are equipped at the position being equipped between outside plate (2) described in two It states outside plate (2) to be fixedly connected with the water tank (3), the inside of the water tank (3) is equipped with micropump (12), the micropump (12) it is fixedly connected with the water tank (3), the output end of the micropump (12) is equipped with water cooling tube (4), the water cooling tube (4) It is fixedly connected with the micropump (12), the water cooling tube (4) runs through the water tank (3), and leads between two water tanks (3) It crosses water cooling tube (4) to be connected, the other end of the water cooling tube (4) is equipped with the first heat-conducting block (5), and the water cooling tube (4) is run through First heat-conducting block (5), and be fixedly connected with first heat-conducting block (5), first heat-conducting block (5) is located at the outside plate (2) outer surface, and first heat-conducting block (5) is fixedly connected with the outside plate (2), the lower surface of the pile ontology (1) Thermally conductive item (6) are equipped at the position of the water tank (3), the thermally conductive item (6) is fixedly connected with the pile ontology (1), And the left and right sides of the thermally conductive item (6) differentiates and runs through the water tank (3), and is fixedly connected with the water tank (3), it is described to lead The lower surface of hot item (6) is equipped with the second heat-conducting block (7), and second heat-conducting block (7) is fixedly connected with the thermally conductive item (6), institute The lower surface for stating thermally conductive item (6), which is located at the external position of second heat-conducting block (7), is equipped with air-cooled shell (8), the air-cooled shell (8) be fixedly connected with the thermally conductive item (6), the inner wall of the air-cooled shell (8) is equipped with bracket (9), the bracket (9) with it is described Air-cooled shell (8) is fixedly connected, and the inside of the bracket (9) is equipped with motor (10), and the motor (10) and the bracket (9) are fixed The output shaft of connection, the motor (10) is equipped with blade (11), and the blade (11) is fixedly connected with the motor (10), institute Motor (10) and the micropump (12) are stated to be electrically connected with external power supply.

2. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: the pile ontology (1) upper surface is equipped with thermally conductive item (6), and the thermally conductive item (6) is fixedly connected with the pile ontology (1).

3. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: described first is thermally conductive Block (5) is located at the front and rear sides of the outside plate (2), and the quantity of first heat-conducting block (5) on a water tank (3) is Five, and first heat-conducting block (5) that two outside plates (2) are equipped with is symmetrical.

4. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: the outside plate (2) (5) one word of first heat-conducting block being equipped with arranges downwards, and the water cooling tube (4) is serpentine-like sequentially passes through multiple described One heat-conducting block (5).

5. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: the thermally conductive item (6) it is fixed at the position of the water tank (3) by epoxy glue seal.

6. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: the water cooling tube (4) quantity is two, and two water cooling tubes (4) are arranged at the front and back two sides of outside plate (2), and two water coolings The orientation for managing (4) is opposite.

7. a kind of mesohigh water cooling pile of light quality according to claim 1, it is characterised in that: the air-cooled shell (8) outer surface offers several through-holes at the position of second heat-conducting block (7).