CN109915965A - With the cooling fan mechanism of refrigerating chip - Google Patents
With the cooling fan mechanism of refrigerating chip Download PDFInfo
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- CN109915965A CN109915965A CN201811030589.4A CN201811030589A CN109915965A CN 109915965 A CN109915965 A CN 109915965A CN 201811030589 A CN201811030589 A CN 201811030589A CN 109915965 A CN109915965 A CN 109915965A
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- China
- Prior art keywords
- water
- cooling
- water flow
- refrigerating chip
- flat cable
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- 238000001816 cooling Methods 0.000 title claims abstract description 160
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 229
- 230000005389 magnetism Effects 0.000 claims abstract description 37
- 238000005086 pumping Methods 0.000 claims abstract description 27
- 238000009434 installation Methods 0.000 claims abstract description 15
- 239000000498 cooling water Substances 0.000 claims description 11
- 230000000712 assembly Effects 0.000 claims description 7
- 238000000429 assembly Methods 0.000 claims description 7
- 238000010025 steaming Methods 0.000 claims description 4
- 230000015572 biosynthetic process Effects 0.000 claims 2
- 230000017525 heat dissipation Effects 0.000 claims 1
- 230000000694 effects Effects 0.000 description 10
- 238000010586 diagram Methods 0.000 description 9
- 238000007664 blowing Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 3
- 238000005057 refrigeration Methods 0.000 description 3
- XLYOFNOQVPJJNP-ZSJDYOACSA-N Heavy water Chemical compound [2H]O[2H] XLYOFNOQVPJJNP-ZSJDYOACSA-N 0.000 description 2
- 238000010521 absorption reaction Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000002347 injection Methods 0.000 description 2
- 239000007924 injection Substances 0.000 description 2
- 235000013399 edible fruits Nutrition 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
Abstract
A kind of fan mechanism cooling with refrigerating chip include: an at least fan;An at least evaporator is located at the front or behind of the fan, which has a water flow flat cable, and external water injects the water flow flat cable, by flowing out after the water flow flat cable;An at least cooling assembly connects the evaporator, and the water of the water flow flat cable is entered for cooling;One pumping installations, with the piping connection cooling assembly, to drive water to flow between cooling assembly and water flow flat cable.The cooling assembly includes: a heat exchange case, and the water flow of the water flow flat cable passes through the heat exchange case;One refrigerating chip, one side are attached on the heat exchange case, for absorbing the water flow heat in the heat exchange case to reduce water temperature;One magnetism servo-electric motor water-cooling, is attached at the other side of the refrigerating chip, and external water inputs the magnetism servo-electric motor water-cooling to radiate to the heat for absorbing refrigerating chip, then is discharged from the magnetism servo-electric motor water-cooling.
Description
Technical field
This creation is about electric fan with water cooling mechanism, especially a kind of fan mechanism cooling with refrigerating chip.
Background technique
Known electric fan with water cooling includes a fan and an evaporator, which is set to the rear of fan;The evaporator
Include: a water flow flat cable, external water inject the water flow flat cable, and the water of injection is past via the water flow flat cable again
Lower sprinkling, and the water sprayed is made to form water curtain.Current divider wherein can be installed additional in the water flow flat cable, and water flow is via this point
Stream device is divided to form a plurality of water route and spray down again, so that the water curtain of water flow flat cable sprinkling is more careful.Work as fan
Make air by the water curtain when opening the air to aspirate the water flow flat cable rear, absorbs the heat in air by water curtain
It measures so that air themperature reduction, blows forward using fan and form cool breeze, so known electric fan with water cooling can be than general
Electric fan have the effect of blowing cool breeze.Only, known electric fan with water cooling is used to absorb the temperature of the water of atmospheric heat often
It is same as general room temperature, so the effect of cooling is fairly limited.
Therefore this creation is wished to propose a kind of brand-new fan mechanism cooling with refrigerating chip, to solve above-mentioned prior art
On missing, and it is more environmentally friendly.
Summary of the invention
The purpose of this creation is to solve the problems, such as in above-mentioned known techniques, by the water of original conventionally used electric fan with water cooling
It is further cooling using refrigerating chip, so that the wind that fan is blowed can further reduce temperature, reaches and blow cool breeze
Purpose.
The fan mechanism cooling with refrigerating chip that this creation provides, may include: an at least fan connects one first horse
It reaches, which is driven by first motor;An at least evaporator is located at the front or behind of the fan, which includes one
Water flow flat cable, external water inject the water flow flat cable by an entrance of the water flow flat cable, and via the water flow
One outlet outflow of flat cable;An at least cooling assembly, it is flat that a first end of the cooling assembly via water pipe connects the water flow
For the entrance of flat cable to inject water into the water flow flat cable, a second end of the cooling assembly connects the water flow via water pipe
The outlet of flat cable will be back to the cooling assembly by the water flow of the water flow flat cable;And a pumping installations, with
Water pipe connects the cooling assembly, which is driven by one second motor, to drive water flat in the cooling assembly and the water flow
It is circulated between flat cable.Wherein the cooling assembly includes: a heat exchange case, has hollow interior space, connects the water flow
The water pipe of flat cable is connected to the interior space, and water flow is made to pass through the heat exchange case;One refrigerating chip, one side are attached to the heat
Commuting case, the refrigerating chip connect a power supply;When the refrigerating chip is powered, the heat of the water flow in the heat exchange case is absorbed,
To reduce the water flow temperature in the heat exchange case;And a magnetism servo-electric motor water-cooling, it is attached at the other side of the refrigerating chip, makes the refrigeration
Chip is located between the heat exchange case and the magnetism servo-electric motor water-cooling, which includes a water inlet pipe road and an outlet pipeline, outside
Water input the magnetism servo-electric motor water-cooling via the water inlet pipe road, made with absorbing the heat of the refrigerating chip refrigerating chip radiate, should
Water in magnetism servo-electric motor water-cooling is then discharged via the outlet pipeline.
In an embodiment of this creation, a sink can be further included, the sink connect the magnetism servo-electric motor water-cooling this enter
Water lines and the outlet pipeline, to the cooling water flow from the magnetism servo-electric motor water-cooling.
In an embodiment of this creation, which can further include a gas circulation line, the gas circulating tube
Road includes an air inlet pipe, an escape pipe and a gas pumping device, which connects the air inlet pipe or the escape pipe
One end, the gas pumping device by air be pumped into the sink by the air inlet pipe or the gas pumping device will
Air in the sink is pumped out the sink by the escape pipe by air, flow air should in sink to cool down water flow.
Preferably, the air inlet pipe can extend into the water of the sink, and air is made to enter water via the air inlet pipe
In.
In an embodiment of this creation, which can further include a cooling line and a submerged pump, the heavy water
Pump is to drive water to flow in the cooling line, so that the cooling line receives the outlet pipeline from the respectively magnetism servo-electric motor water-cooling
Water flow, and water after cooling is flow back into the magnetism servo-electric motor water-cooling by the water inlet pipe road by the other end of the cooling line.
In an embodiment of this creation, which can be multiple cooling assemblies, these cooling assemblies
It concatenates in series.
In an embodiment of this creation, which can be multiple evaporators, the water of multiple evaporator
Stream flat cable system sequentially configures the front or behind in the fan in a manner of arranging layer by layer, so that the water of multiple evaporator
Stream flat cable forms the arrangement of multilayer in inlet air flow path, bypasses air through the water flow flat cable of multilayer, wherein should
Multiple evaporators respectively correspondingly connect the cooling assembly.
In an embodiment of this creation, which can be multiple evaporators, wherein multiple evaporator
Share an identical cooling assembly, a pumping installations and second motor.
In an embodiment of this creation, at least part of the water flow flat cable can be connected using a plurality of water route parallel connection
It connects.
In an embodiment of this creation, a radiating fin group can be set on the heat exchange case, the one of the refrigerating chip
The side contacts radiating fin group.
In an embodiment of this creation, a vacuum chamber can be used and envelope an at least cooling assembly, the vacuum
The air of box house is fully drawn out to form vacuum state.
In an embodiment of this creation, drenching installation can be used and replace evaporator above-mentioned, which can be with
It is located at the front or behind of the fan, which has a water flow flat cable and be generally in be horizontally arranged at this
A pipeline above water flow flat cable, the tube wall of the pipeline are arranged multiple nozzles, the opening of these nozzles downward, the pipe
Road is connected to a water source, and when opening water source, water is sprayed down from each nozzle to form water curtain;Blowed when starting fan or
The air of suction makes water curtain absorb the heat in air by the water curtain, and then blows out cool breeze.
It can be further understood that the feature and its advantage of this creation by following the description, when reading and please refer to attached drawing.
Detailed description of the invention
Fig. 1 shows the first embodiment of this creation;
Fig. 2 shows the schematic diagram of the refrigerating plant of this creation;
Fig. 3 shows the evaporator of this creation and the framework block schematic diagram of fan;
Fig. 4 shows the evaporator of this creation and another framework block schematic diagram of fan;
Fig. 5 shows another schematic diagram of the first embodiment of this creation;
Fig. 6 shows the schematic diagram of the second embodiment of this creation;
Fig. 7 shows that gas pumping device can connect the schematic diagram of one end of escape pipe;
Fig. 8 shows the schematic side view of the sink of this creation;
Fig. 9 shows the 3rd embodiment of this creation;
Figure 10 shows the fourth embodiment of this creation;
Figure 11 shows the 5th embodiment of this creation;
Figure 12 shows the plan cross-sectional schematic diagram of the cooling assembly structure in the 5th embodiment of this creation;
Figure 13 shows the sixth embodiment of this creation.
Description of symbols:
10- fan, the first motor of 15-, 20- evaporator, 30- water flow flat cable, 301- entrance, the outlet 302-, 400-
Cooling assembly, 401- first end, 402- second end, 50- water pipe, 500- sink, 501- entrance, the outlet 502-, 503- cooling water
Pipe, 504- submerged pump, 60- pumping installations, 600- circulation line, 601- air inlet pipe, 602- escape pipe, 603- gas pumping dress
It sets, the second motor of 65-, 70- shell, 72- heat exchange case, 74- refrigerating chip, 76- radiating fin group, 78- magnetism servo-electric motor water-cooling, 781-
Water lines, 782- water lines, 80- drenching installation, 801- frame, 802- pipeline, 803- nozzle, 90- vacuum chamber.
Specific embodiment
Hereby only the structure composition of this creation and the effect and advantage of can be generated are cooperated to schema, lift the preferable of this creation
Detailed description are as follows for embodiment.
Fig. 1 to Fig. 5 shows the first embodiment of the fan mechanism cooling with refrigerating chip of this creation, comprising: at least one
Fan 10, connects one first motor 15, which is driven by first motor 15.As shown in figure 5, may include multiple fans
10。
An at least evaporator 20 is provided with a water flow flat cable 30, which can be located at fan 10
Front or behind.As shown in Figure 1, being the rear that water flow flat cable 30 is arranged in fan 10, external water is flat by water flow
The entrance 301 of flat cable 30 is injected in water flow flat cable 30 and is flowed, and the water of injection is again via the outlet of water flow flat cable 30
302 outflows.
As shown in the a-quadrant of Fig. 5, this creation, which can be formed further at least part of water flow flat cable 30, to divide
Stream;Also part water flow flat cable 30 can be connected in parallel with a plurality of water route, so that the path of water flow flat cable 30
It distributes more uniform.
When fan 10 is opened, the air at 10 rear of fan can be sucked and air is made to pass through steaming by evaporator 20
The air of hair device 20 is lowered by temperature and blows out from the front of fan 10 to form cool breeze.This creation is inhaled using evaporator 20
Receive air in heat and blowed wind ratio is not passed through 20 air temperature of evaporator is lower, reach the effect for blowing cool breeze
Fruit.Schematic diagram as shown in Figure 3, display evaporator 20 are located at the rear of fan 10, and the arrow meaning in Fig. 3 is what air blowed
Wind direction;But a mechanism is not limited to this in this creation, schematic diagram as shown in Figure 4, display evaporator 20 can be located at fan 10
Front, the direction of the arrow meaning in Fig. 4 is the wind direction that air blows.
An at least cooling assembly 400 by water pipe be connected to evaporator 20 water flow flat cable 30 entrance 301 and go out
Between mouth 302, with the cooling water for entering the water flow flat cable 30.The first end 401 of the cooling assembly 400 connects via water pipe 50
The second end 402 of the entrance 301 of water receiving stream flat cable 30, cooling assembly 400 connects water flow flat cable 30 via water pipe 50
Outlet 302.It is evaporated by cooling assembly 400 with reducing the cooling water after temperature and being flowed into via the first end 401 and entrance 301
Water flow flat cable 30 in device 20 is to absorb the heat in the air by evaporator 20;After absorbing heat in evaporator 20
Cooling water cooling assembly 400 is flowed back to by the outlet 302 and second end 402 again.It is more that Fig. 1 shows that this creation may include
A cooling assembly 400, these cooling assemblies 400 can further promote the cooling effect to cooling water with water pipe series connection.
One pumping installations 60 is connected to the first end 401 of cooling assembly 400 with water pipe 50 and the water flow of evaporator 20 is flat
Between cable 30.The pumping installations 60 is driven by the second motor 65, to drive water in cooling assembly 400 and water flow flat cable 30
Between flow, and make to return to by the water of water flow flat cable 30 in cooling assembly 400 formed one circulation.
The cooling assembly 400 may include: a heat exchange case 72, a refrigerating chip 74 and a magnetism servo-electric motor water-cooling 78.Wherein, should
Heat exchange case 72 has hollow interior space, and interior space and the flat electricity of water flow of the heat exchange case 72 are connected to by water pipe 50
First end 401 of the junction of the entrance 301 of cable 30, the heat exchange case 72 and water flow flat cable as cooling assembly 400.
The refrigerating chip 74 is attached to the side of heat exchange case 72, and refrigerating chip 72 is made to connect a power supply.Work as refrigeration
When chip 72 is energized, it is can absorb the heat of the water flow in heat exchange case 72, so that the water flow temperature in heat exchange case 72 reduces.
A radiating fin group 76 can also be arranged in this creation on heat exchange case 72, and makes the one of refrigerating chip 74 to flank
Touch the radiating fin group 76 (as shown in Figure 2);Increase the heat-conducting area of refrigerating chip 74, by radiating fin group 76 to promote drop
Temp effect.
The magnetism servo-electric motor water-cooling 78 is used to be attached to the other side of refrigerating chip 74, that is, relative to the another of heat exchange case 72
Side.The magnetism servo-electric motor water-cooling 78 is for radiating to refrigerating chip 74.The magnetism servo-electric motor water-cooling 78 includes a cabinet, and is connected to the case
The one water inlet pipe road 781 in internal portion and an outlet pipeline 782, wherein external water inputs magnetism servo-electric motor water-cooling via water inlet pipe road 781
In 78 cabinet, then it is discharged again via outlet pipeline 782 from the cabinet, even if also water is flowed in box house, magnetism servo-electric motor water-cooling
The intracorporal water of 78 case is to absorb the raised heat of refrigerating chip 74 to radiate to refrigerating chip 74.
This creation also includes a sink 500, and wherein the entrance 501 of sink 500 is with the water outlet of water pipe connection magnetism servo-electric motor water-cooling 78
Pipeline 782;The outlet 502 of sink 500 is with the water inlet pipe road 781 of water pipe connection magnetism servo-electric motor water-cooling 78.The function of the sink 500 is main
For the cooling water flow from the magnetism servo-electric motor water-cooling 78.The sink 500 can also include gas circulation line 600, gas circulation
Pipeline 600 may include an air inlet pipe 601, an escape pipe 602 and gas pumping device 603, wherein air inlet pipe 601 is protruded into water
In water in slot 500, air is pumped into the water in sink 500 by gas pumping device 603 via air inlet pipe 601, by
Water in sink 500 is stirred and is absorbed the heat in sink 500 by air, and air passes through escape pipe 602 again and escapes sink
500, to achieve the purpose that the water flow (as shown in Figure 8) in cooling trough 500.Show that the gas pumping device 603 can be in Fig. 1
It is connected to one end of the air inlet pipe 601, air to be pumped into sink 500.Gas pumping device 603 is shown in Fig. 7
The one end that can connect escape pipe 602 to pump out the air in sink 500, while making outside air pass through air inlet
Enter in sink 500 with the water flow in cooling trough 500 to 601 free convection of pipe.
Sink 500 can also include cooling line 503 and submerged pump 504, one end connection water channel of the cooling line 503
500 entrance 501 is with the water flow of outlet pipeline 782 of the reception from magnetism servo-electric motor water-cooling 78;The other end of cooling water pipe 503 connects water
The outlet 502 of slot 500, water after cooling is pumped to magnetism servo-electric motor water-cooling 78 by water inlet pipe road 781 using submerged pump 504.
As shown in Figure 1, this creation can configure single a evaporator 20.
As shown in fig. 6, the second embodiment of this creation can also include a vacuum chamber 90, to envelope these refrigeration
Component 400 forms vacuum state and vacuumizing inside the vacuum chamber 90, can influence refrigerating chip to avoid outside heat
74 heat absorption capacity and can improving radiating effect.
Fig. 9 shows the 3rd embodiment of this creation, and component same as the previously described embodiments in this example is with identical symbol
It indicates, and there is identical function, its details that so it will not be repeated.Multiple evaporators 20 are configured in this example, wherein the evaporator 20
Water flow flat cable 30 sequentially configure the front or behind in fan 10 in a manner of arranging layer by layer and (be disposed in Fig. 9
10 rear of fan) so that the water flow flat cable 30 of multiple evaporators 20 is formed in the air flowing that fan 10 is extracted
The arrangement mode of multilayer, and the air that fan 10 is extracted is reached more by the water flow flat cable 30 of multilayer into one
The cooling effect of step.Wherein each evaporator 20 respectively corresponds a cooling assembly 400.
Figure 10 shows the fourth embodiment of this creation, and component same as the previously described embodiments in this example is with the same symbol table
Show, and function having the same, therefore its details is no longer described in detail.Multiple evaporators 20 are configured in this example, wherein multiple steaming
Hair device 20 can share identical cooling assembly 400, pumping installations 60 and the second motor 65.
Figure 11 shows the 5th embodiment of this creation, and component same as the previously described embodiments in this example is with the same symbol table
Show, and function having the same, therefore its details is no longer described in detail.Cooling assembly 400 is further change in this example;Also
That is, as shown in figure 12, a shell 70 is respectively set outside each group of cooling assembly 400, so that each group of 400 institute of cooling assembly
Heat exchange case 72, magnetism servo-electric motor water-cooling 78 and the refrigerating chip 74 for including are housed inside in shell 70, are connected to refrigerating chip 74
Electric wire is extending closure 70, and the water pipe for being connected to heat exchange case 72 and magnetism servo-electric motor water-cooling 78 each extends over out shell 70
Afterwards, then by shell 70 it is fully sealed, finally the air inside shell 70 is fully drawn out to form vacuum state, to avoid outside
Heat influence the heat absorption capacity of refrigerating chip 74 and can improving radiating effect.
Figure 13 shows the sixth embodiment of this creation, and component same as the previously described embodiments in this example is with the same symbol table
Show, and function having the same, therefore its details is no longer described in detail.Evaporator above-mentioned is replaced with drenching installation 80 in this example
20;Specifically, a pipeline 802 can be arranged in the top between two frames 801 in the drenching installation 80, the pipeline 802 is big
It is in horizontally to configure, and pipeline 802 is connected to water source in cause, multiple nozzles 803, nozzle is then arranged in the tube wall of pipeline 802
Downward, when opening water source, water flow to pipeline 802 and is sprayed down from each nozzle 803 in two frames 803 opening
Water curtain is formed between 801;Water flow flat cable 30 above-mentioned is then configured between two frames 801, therefore, flows through the flat electricity of water flow
Heat contained by the water of cable 30 can be absorbed by water curtain and be cooled down, that is, in the sixth embodiment of this creation be replaced with water-cooled
Ventilation type above-mentioned.
The advantages of this creation, is the water application refrigerating chip of original conventionally used electric fan with water cooling is further cold
But, the wind for blowing fan further reduces, and reaches the purpose for blowing cool breeze.
In conclusion the design of consideration of this creation hommization, quite meets actual demand.It, which is embodied, improves preceding missing, phase
Obviously have the advantages that breakthrough progress compared with known techniques, the enhancement that has effects that really, and non-be easy to reach.This creation is not
Once domestic and external document was disclosed or be exposed in in the market, had met patent statute.
Above-listed detailed description is illustrating for one of this creation possible embodiments, but the embodiment is not to limit
The scope of the patents of this creation is made, all equivalence enforcements or change without departing from carried out by this creation skill spirit are intended to be limited solely by this wound
In the scope of the patents of work.
Claims (22)
1. a kind of fan mechanism cooling with refrigerating chip, includes:
An at least fan, connects one first motor, which is driven by first motor;
An at least evaporator is located at the front or behind of the fan, the evaporator include a water flow flat cable, external water by
One entrance of the water flow flat cable injects the water flow flat cable, and flows out via an outlet of the water flow flat cable;
One first end of an at least cooling assembly, the cooling assembly connects the entrance of the water flow flat cable via water pipe to incite somebody to action
Water injects the water flow flat cable, and a second end of the cooling assembly connects the outlet of the water flow flat cable via water pipe,
The cooling assembly will be back to by the water flow of the water flow flat cable;And
One pumping installations connects the cooling assembly with water pipe, which is driven by one second motor, to drive water in the system
It is circulated between cold component and the water flow flat cable;
Wherein the cooling assembly includes:
One heat exchange case, has hollow interior space, and the water pipe for connecting the water flow flat cable is connected to the interior space, makes water flow
Pass through the heat exchange case;
One refrigerating chip, one side are attached to the heat exchange case, which connects a power supply;When the refrigerating chip is powered
When, the heat of the water flow in the heat exchange case is absorbed, to reduce the water flow temperature in the heat exchange case;And
One magnetism servo-electric motor water-cooling is attached at the other side of the refrigerating chip, and the refrigerating chip is made to be located at the heat exchange case and the water cooling unit
Between structure, which includes a water inlet pipe road and an outlet pipeline, and external water inputs the water cooling via the water inlet pipe road
Mechanism makes the refrigerating chip radiate to absorb the heat of the refrigerating chip, and the water in the magnetism servo-electric motor water-cooling is then via the outlet pipe
Road discharge.
2. the fan mechanism cooling with refrigerating chip according to claim 1, also includes a sink, which connects the water
The water inlet pipe road of cold structure and the outlet pipeline, to the cooling water flow from the magnetism servo-electric motor water-cooling.
3. the fan mechanism cooling with refrigerating chip according to claim 2, wherein the sink also includes gas circulation
Pipeline, the gas circulation line include an air inlet pipe, an escape pipe and a gas pumping device, and gas pumping device connection should
Air is pumped into the sink by one end of air inlet pipe or the escape pipe, the gas pumping device by the air inlet pipe, or
Air in the sink is pumped out the sink by the escape pipe by air by the gas pumping device, makes air in the sink
Flowing is to cool down water flow.
4. the fan mechanism cooling with refrigerating chip according to claim 3, wherein the air inlet pipe extends into the sink
Water in, and air is entered in water via the air inlet pipe.
5. the fan mechanism cooling with refrigerating chip according to claim 3, wherein it is cooling to further include one for the sink
Pipeline and a submerged pump, the submerged pump is to drive water to flow in the cooling line, so that the cooling line is received from each
The water flow of the outlet pipeline of the magnetism servo-electric motor water-cooling, and water after cooling is passed through the water inlet pipe road by the other end of the cooling line
Flow back into the magnetism servo-electric motor water-cooling.
6. the fan mechanism cooling with refrigerating chip according to claim 1, wherein an at least cooling assembly is multiple
Cooling assembly, these cooling assemblies concatenate in series.
7. the fan mechanism cooling with refrigerating chip according to claim 1, wherein an at least evaporator is multiple steamings
Device is sent out, the water flow flat cable of multiple evaporator sequentially configures the front or behind in the fan in a manner of arranging layer by layer,
So that the water flow flat cable of multiple evaporator forms the arrangement of multilayer in inlet air flow path, multilayer is bypassed air through
Water flow flat cable, wherein multiple evaporator respectively correspondingly connects the cooling assembly.
8. the fan mechanism cooling with refrigerating chip according to claim 1, wherein an at least evaporator is multiple steamings
Device is sent out, wherein multiple evaporator shares an identical cooling assembly, a pumping installations and second motor.
9. the fan mechanism cooling with refrigerating chip according to claim 1, wherein at least the one of the water flow flat cable
Part is connected in parallel with a plurality of water route.
10. the fan mechanism cooling with refrigerating chip according to claim 1, wherein one heat dissipation of setting on the heat exchange case
Fins group, a side contacts of the refrigerating chip radiating fin group.
11. the fan mechanism cooling with refrigerating chip according to claim 1, wherein a vacuum chamber is further included,
The vacuum chamber envelopes an at least cooling assembly, and the air inside the vacuum chamber is fully drawn out to form vacuum shape
State.
12. the fan mechanism cooling with refrigerating chip according to claim 1 is comprising multiple cooling assemblies, each
The cooling assembly includes: a shell, and the heat exchange case, a refrigerating chip and the magnetism servo-electric motor water-cooling that are contained in the shell,
Shell formation is fully sealed, and the inside of the shell is formed vacuum state.
13. a kind of fan mechanism cooling with refrigerating chip, includes:
An at least fan, connects one first motor, which is driven by first motor;
An at least drenching installation is located at the front or behind of the fan, which has a water flow flat cable, Yi Ji great
In the pipeline being horizontally arranged above the water flow flat cable in cause, multiple nozzles, these nozzles are arranged in the tube wall of the pipeline
Opening downward, the piping connection a to water source, when opening water source, water is sprayed down from each nozzle to form water
Curtain;
An at least cooling assembly, a first end of the cooling assembly connect the entrance of the water flow flat cable via water pipe with by water
The water flow flat cable is injected, a second end of the cooling assembly connects the outlet of the water flow flat cable via water pipe, will
The cooling assembly is back to by the water flow of the water flow flat cable;And
One pumping installations connects the cooling assembly with water pipe, which is driven by one second motor, to drive water in the system
It is circulated between cold component and the water flow flat cable;
Wherein the cooling assembly includes:
One heat exchange case, has hollow interior space, and the water pipe for connecting the water flow flat cable is connected to the interior space, makes water flow
Pass through the heat exchange case;
One refrigerating chip, one side are attached to the heat exchange case, which connects a power supply;When the refrigerating chip is powered
When, the heat of the water flow in the heat exchange case is absorbed, to reduce the water flow temperature in the heat exchange case;And
One magnetism servo-electric motor water-cooling is attached at the other side of the refrigerating chip, and the refrigerating chip is made to be located at the heat exchange case and the water cooling unit
Between structure, which includes a water inlet pipe road and an outlet pipeline, and external water inputs the water cooling via the water inlet pipe road
Mechanism makes the refrigerating chip radiate to absorb the heat of the refrigerating chip, and the water in the magnetism servo-electric motor water-cooling is then via the outlet pipe
Road discharge.
14. the fan mechanism cooling with refrigerating chip according to claim 13 also includes a sink, sink connection should
The water inlet pipe road of magnetism servo-electric motor water-cooling and the outlet pipeline, to the cooling water flow from the magnetism servo-electric motor water-cooling.
15. the fan mechanism cooling with refrigerating chip according to claim 14, wherein the sink also includes that a gas follows
Endless tube road, the gas circulation line include an air inlet pipe, an escape pipe and a gas pumping device, gas pumping device connection
Air is pumped into the sink by one end of the air inlet pipe or the escape pipe, the gas pumping device by the air inlet pipe, or
Air in the sink is pumped out the sink by the escape pipe by air by person's gas pumping device, makes air in the sink
Interior flowing is to cool down water flow.
16. the fan mechanism cooling with refrigerating chip according to claim 15, wherein the air inlet pipe extends into the water
In the water of slot, and air is entered in water via the air inlet pipe.
17. the fan mechanism cooling with refrigerating chip according to claim 15, wherein it is cold to further include one for the sink
But pipeline and a submerged pump, the submerged pump is to drive water to flow in the cooling line, so that cooling line reception comes from
The respectively water flow of the outlet pipeline of the magnetism servo-electric motor water-cooling, and water after cooling is passed through the water inlet pipe by the other end of the cooling line
Road flows back into the magnetism servo-electric motor water-cooling.
18. the fan mechanism cooling with refrigerating chip according to claim 13, wherein this at least a cooling assembly is more
A cooling assembly, these cooling assemblies concatenate in series.
19. the fan mechanism cooling with refrigerating chip according to claim 13, wherein the water flow flat cable is at least
A part is connected in parallel with a plurality of water route.
20. the fan mechanism cooling with refrigerating chip according to claim 13, wherein setting one dissipates on the heat exchange case
Hot fins group, a side contacts of the refrigerating chip radiating fin group.
21. the fan mechanism cooling with refrigerating chip according to claim 13, wherein a vacuum chamber is further included,
The vacuum chamber envelopes an at least cooling assembly, and the air inside the vacuum chamber is fully drawn out to form vacuum shape
State.
22. the fan mechanism cooling with refrigerating chip according to claim 13 is comprising multiple cooling assemblies, often
One cooling assembly includes: a shell, and the heat exchange case, a refrigerating chip and the water cooling unit that are contained in the shell
Structure, shell formation is fully sealed, and the inside of the shell is formed vacuum state.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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TW106218509 | 2017-12-13 | ||
TW106218509 | 2017-12-13 |
Publications (1)
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CN109915965A true CN109915965A (en) | 2019-06-21 |
Family
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CN201811030589.4A Pending CN109915965A (en) | 2017-12-13 | 2018-09-05 | With the cooling fan mechanism of refrigerating chip |
CN201811501101.1A Pending CN109915966A (en) | 2017-12-13 | 2018-12-10 | Refrigerating assembly and the fan mechanism cooling using the refrigerating assembly |
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Citations (8)
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BE1002590A3 (en) * | 1988-11-14 | 1991-04-02 | Beghein Arnold | Device for lowering the hygrometry of the air in a closed room |
CN2458582Y (en) * | 2001-01-03 | 2001-11-07 | 台湾日光灯股份有限公司 | Pneumatic cooler |
CN2781247Y (en) * | 2005-03-29 | 2006-05-17 | 张波 | High-efficient energy-saving air conditioner |
JP2007024484A (en) * | 2005-07-15 | 2007-02-01 | Chuan Sheng Chen | Application of electric appliance for cooling and heating semiconductor |
EP1892484A1 (en) * | 2006-08-22 | 2008-02-27 | Chin-Kuang Luo | Air cooling/heating device |
CN101551203A (en) * | 2009-02-03 | 2009-10-07 | 林义雄 | Cooler |
CN101922768A (en) * | 2009-06-16 | 2010-12-22 | 宁方霞 | Movable semiconductor electronic air conditioner |
CN106802020A (en) * | 2016-07-19 | 2017-06-06 | 陈传生 | Cold-warm circulating machine with semiconductor as refrigeration core |
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2018
- 2018-09-05 CN CN201811030589.4A patent/CN109915965A/en active Pending
- 2018-12-10 CN CN201811501101.1A patent/CN109915966A/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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BE1002590A3 (en) * | 1988-11-14 | 1991-04-02 | Beghein Arnold | Device for lowering the hygrometry of the air in a closed room |
CN2458582Y (en) * | 2001-01-03 | 2001-11-07 | 台湾日光灯股份有限公司 | Pneumatic cooler |
CN2781247Y (en) * | 2005-03-29 | 2006-05-17 | 张波 | High-efficient energy-saving air conditioner |
JP2007024484A (en) * | 2005-07-15 | 2007-02-01 | Chuan Sheng Chen | Application of electric appliance for cooling and heating semiconductor |
EP1892484A1 (en) * | 2006-08-22 | 2008-02-27 | Chin-Kuang Luo | Air cooling/heating device |
CN101551203A (en) * | 2009-02-03 | 2009-10-07 | 林义雄 | Cooler |
CN101922768A (en) * | 2009-06-16 | 2010-12-22 | 宁方霞 | Movable semiconductor electronic air conditioner |
CN106802020A (en) * | 2016-07-19 | 2017-06-06 | 陈传生 | Cold-warm circulating machine with semiconductor as refrigeration core |
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CN109915966A (en) | 2019-06-21 |
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Application publication date: 20190621 |