CN206833347U - A kind of work station thermo-electric generation heat abstractor - Google Patents
A kind of work station thermo-electric generation heat abstractor Download PDFInfo
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- CN206833347U CN206833347U CN201720504947.5U CN201720504947U CN206833347U CN 206833347 U CN206833347 U CN 206833347U CN 201720504947 U CN201720504947 U CN 201720504947U CN 206833347 U CN206833347 U CN 206833347U
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- cooling water
- water circulation
- cpu
- temperature
- work station
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D10/00—Energy efficient computing, e.g. low power processors, power management or thermal management
Abstract
The utility model discloses a kind of work station thermo-electric generation heat abstractor;It includes the internal cpu heat and its cooling water circulation feed system for having cooling water circulation passage;Temperature-difference power generation module;Voltage stabilizing boost module;The cpu heat is in contact with work station CPU heat-delivery surfaces;The hot junction of the temperature-difference power generation module is combined with the radiating fin of cpu heat;The cold end of the temperature-difference power generation module is combined with the tube wall of cooling water circulation passage;Auxiliary driving power of the electric energy of the temperature-difference power generation module output as the power supply to external equipment or as the work of cooling water circulation feed system;When cooling water circulation feed system works, cooling water is in cooling water circulation passage internal circulation flow, to strengthen CPU radiating efficiencys.On the basis of the present apparatus is to original work station CPU thermo-electric generation heat abstractors, structure optimization is carried out to it, while improving radiating efficiency, the electric energy sent can be as outside or cooling water circulation feed system auxiliary driving power.
Description
Technical field
It the utility model is related to computer heat radiation field, more particularly to a kind of work station thermo-electric generation heat abstractor.
Background technology
With the rapidly rising of the core component power such as the increase of computer power consumption, particularly CPU, video card, its caloric value
When the river rises the boat goes up, and the requirement to radiating also constantly upgrades;It is natural to be widely used in finance, digital content creation (DCC), cartoon design, oil
Gas, education, weather prognosis and Aero-Space, steamer, the large commercial work station of automobile and other industries are different with common computer, its
Configuration is higher, and system operation load is heavier, while higher to stability, reliability and security requirement, under many circumstances may be used
Energy meeting 7*24 hours or the operation of longer time, which results in more high heat is produced during work station operation.Common wind-cooling heat dissipating
Device is increasingly had too many difficulties to cope with.In order to strengthen heat dissipation, some manufacturers increase fin, accelerate rotation speed of the fan, but this simultaneously can not
Bring bigger noise, more energy consumptions with avoiding, and then influence the stabilization and reliability of workstation system.
It is merely to be extremely difficult to well by traditional air-cooled radiator to preferably solve the heat dissipation problem of work station
Effect.Data shows that the thermal capacity of water is thousands of times of air, and the thermal load capacity of cooling water system is equivalent to air cooling system
Several times.
The content of the invention
The shortcomings that the purpose of this utility model is to overcome above-mentioned prior art and deficiency, there is provided a kind of work station temperature difference hair
Electric heat abstractor.While the heat generating that CPU sheds largely is absorbed by temperature-difference power generation module, cooling water system is introduced
Work station cpu heat, its powerful heat-sinking capability, it can continue to ensure work station performance, stability and reliability, so that will not
Cause the improper interruption of business, lift the efficiency of work, and " super-silent " effect can also be brought, people can be relaxed at one
Worked in suitable environment.
The utility model is achieved through the following technical solutions:
A kind of work station thermo-electric generation heat abstractor, including such as lower component:
There are the cpu heat 2 of cooling water circulation passage, and its cooling water circulation feed system in inside;
Temperature-difference power generation module 4;
Voltage stabilizing boost module;
The cpu heat 2 is in contact with work station CPU heat-delivery surfaces;
The hot junction of the temperature-difference power generation module 4 is combined with the radiating fin of cpu heat 2;
The cold end of the temperature-difference power generation module 4 is combined with the tube wall of cooling water circulation passage;
The output end connection voltage stabilizing boost module of the temperature-difference power generation module 4;
The electric energy that the temperature-difference power generation module 4 exports is boosted by voltage stabilizing boost module, after rectification and voltage stabilizing, as external
The power supply of portion's equipment, or the auxiliary driving power as the work of cooling water circulation feed system;
When cooling water circulation feed system works, cooling water is dissipated with strengthening CPU in cooling water circulation passage internal circulation flow
The thermal efficiency.
The cooling water circulation passage has a cooling water inlet 5, a coolant outlet 1;
The cooling water circulation feed system includes air cooling equipment 6, storage tank 7, the water pump 8 of pipeline connection successively;
The water inlet of the pipeline of the coolant outlet 1 connection air cooling equipment 6;The water outlet pipeline connection cooling water of water pump 8
Entrance 5.
The cooling water circulation channel interior is provided with shunting fin 21, for being shunted to the cooling water circulated,
Make its Uniform Flow.
The cpu heat 2 is fixed together by clamping lock 3 with CPU.
A kind of work station thermo-electric generation heat dissipating method, it comprises the following steps:
Thermo-electric generation step:The heat that the CPU of work station is distributed passes to radiator 2, radiator 2 and internal cooling first
Water circulation channel forms the temperature difference, thermo-electric generation sheet is generated electricity;The electric energy that temperature-difference power generation module 4 exports passes through voltage stabilizing boost module liter
After pressure, rectification and voltage stabilizing, as the power supply to external equipment, or the auxiliary as the work of cooling water circulation feed system
Driving power;
Radiate step:Cpu heat 2 is by cold end of the heat transfer that CPU is distributed to temperature-difference power generation module 4, then by cold
But the cooling water of water circulation channel internal circulation flow, air cooling equipment 6 is transferred heat to, it is cooled by air cooling equipment 6
Afterwards, it is stored in storage tank 7;There is water pump 8 to extract again and be delivered to the cooling water inlet 5 of cooling water circulation passage;Circulated with this,
Realize that CPU radiates.
The utility model is had the following advantages and effect relative to prior art:
(1) the utility model is largely absorbed the heat that CPU sheds by temperature-difference power generation module and generated electricity, and by caused electric energy
For feeding the supplementary energy of cooling water circulation feed system work, continue to for radiating.
There is cooling water circulation passage inside the utility model cpu heat 2;By the way that recirculated water has been introduced directly into work station
CPU radiator, heat dissipation is greatly strengthen, while overcome tradition increase fin, accelerate rotation speed of the fan heat dissipation
The disadvantage that existing noise is big, vibration is big, energy consumption is big, realizes super-silent, strong radiating, substantially increase computer performance,
Stable and reliability.
The utility model increases temperature-difference power generation module cold end and the temperature difference in hot junction by cooling water circulation passage.Cooling
Water through outside cooling fan radiating after, by water pump be sent into radiator in cooling water circulation passage, because its area of section is big,
The holdup time is longer in the channel for cooling water, and heat-exchange time is longer, and the temperature of cooling water can also be made more uniform, can improve and change
The thermal efficiency, can effectively make cold end temperature be down to it is lower, to improve temperature difference electricity generation device power output.
The utility model technological means is simple and easy to do, remains the external structure of traditional CPU air-cooled radiators, uses up structure
May be simple, it is easy to processing and fabricating and batch production.
Brief description of the drawings
Fig. 1 is utility model works station thermo-electric generation construction for heat radiating device schematic diagram.
Fig. 2 is utility model works station thermo-electric generation heat abstractor general structure schematic diagram.
Embodiment
The utility model is more specifically described in detail with reference to specific embodiment.
Embodiment
As shown in Figure 1, 2.The utility model discloses a kind of work station thermo-electric generation heat abstractor, including such as lower component:
There are the cpu heat 2 of cooling water circulation passage, and its cooling water circulation feed system in inside;
Temperature-difference power generation module 4;
Voltage stabilizing boost module (not shown);
The cpu heat 2 is in contact with work station CPU (not shown) heat-delivery surfaces;
The hot junction of the temperature-difference power generation module 4 is combined with the radiating fin of cpu heat 2;
The cold end of the temperature-difference power generation module 4 is combined with the tube wall of cooling water circulation passage;
The output end connection voltage stabilizing boost module of the temperature-difference power generation module 4;
The electric energy that the temperature-difference power generation module 4 exports is boosted by voltage stabilizing boost module, after rectification and voltage stabilizing, as external
The power supply of portion's equipment, or the auxiliary driving power as the work of cooling water circulation feed system;
When cooling water circulation feed system works, cooling water is dissipated with strengthening CPU in cooling water circulation passage internal circulation flow
The thermal efficiency.
The every area of the utility model temperature-difference power generation module 4 is about 40mm*40mm.Certain specific size, and quantity answer root
Determined according to radiating fin size.The both sides of radiating fin can be attached to.
The cooling water circulation passage has a cooling water inlet 5, a coolant outlet 1;
The cooling water circulation feed system includes air cooling equipment 6, storage tank 7, the water pump 8 of pipeline connection successively;
The water inlet of the pipeline of the coolant outlet 1 connection air cooling equipment 6;The water outlet pipeline connection cooling water of water pump 8
Entrance 5.
The cooling water circulation channel interior is provided with shunting fin 21, for being shunted to the cooling water circulated,
Make its Uniform Flow.
The cpu heat 2 is fixed together by clamping lock 3 with CPU.
Utility model works station thermo-electric generation heat dissipating method, can be achieved by the steps of:
Thermo-electric generation step:The heat that the CPU of work station is distributed passes to radiator 2, radiator 2 and internal cooling first
Water circulation channel forms the temperature difference, thermo-electric generation sheet is generated electricity;The electric energy that temperature-difference power generation module 4 exports passes through voltage stabilizing boost module liter
After pressure, rectification and voltage stabilizing, as the power supply to external equipment, or the auxiliary as the work of cooling water circulation feed system
Driving power;
Radiate step:Cpu heat 2 is by cold end of the heat transfer that CPU is distributed to temperature-difference power generation module 4, then by cold
But the cooling water of water circulation channel internal circulation flow, air cooling equipment 6 is transferred heat to, it is cooled by air cooling equipment 6
Afterwards, it is stored in storage tank 7;There is water pump 8 to extract again and be delivered to the cooling water inlet 5 of cooling water circulation passage;Circulated with this,
Realize that CPU radiates.
As described above, it can preferably realize the utility model.
Embodiment of the present utility model is simultaneously not restricted to the described embodiments, and other are any without departing from of the present utility model
Spirit Essence with made under principle change, modification, replacement, combine, simplification, should be equivalent substitute mode, be included in
Within the scope of protection of the utility model.
Claims (4)
1. a kind of work station thermo-electric generation heat abstractor, it is characterised in that including such as lower component:
There are the cpu heat (2) of cooling water circulation passage, and its cooling water circulation feed system in inside;
Temperature-difference power generation module (4);
Voltage stabilizing boost module;
The cpu heat (2) is in contact with work station CPU heat-delivery surfaces;
The hot junction of the temperature-difference power generation module (4) is combined with the radiating fin of cpu heat (2);
The cold end of the temperature-difference power generation module (4) is combined with the tube wall of cooling water circulation passage;
The output end connection voltage stabilizing boost module of the temperature-difference power generation module (4);
The electric energy of temperature-difference power generation module (4) output is boosted by voltage stabilizing boost module, after rectification and voltage stabilizing, as to outside
The power supply of equipment, or the auxiliary driving power as the work of cooling water circulation feed system;
When cooling water circulation feed system works, cooling water is in cooling water circulation passage internal circulation flow, to strengthen CPU radiating effects
Rate.
2. work station thermo-electric generation heat abstractor according to claim 1, it is characterised in that:The cooling water circulation passage tool
There are a cooling water inlet (5), a coolant outlet (1);
The cooling water circulation feed system includes air cooling equipment (6), storage tank (7), the water pump (8) of pipeline connection successively;
The water inlet of coolant outlet (1) the pipeline connection air cooling equipment (6);The water outlet pipeline connection cooling of water pump (8)
Water inlet (5).
3. work station thermo-electric generation heat abstractor according to claim 2, it is characterised in that:In the cooling water circulation passage
Portion is provided with shunting fin (21), for being shunted to the cooling water circulated, makes its Uniform Flow.
4. work station thermo-electric generation heat abstractor according to claim 3, it is characterised in that:The cpu heat (2) passes through
Lock (3) is clamped to be fixed together with CPU.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107122030A (en) * | 2017-05-09 | 2017-09-01 | 华南理工大学 | A kind of work station thermo-electric generation heat dissipating method and its device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107122030A (en) * | 2017-05-09 | 2017-09-01 | 华南理工大学 | A kind of work station thermo-electric generation heat dissipating method and its device |
CN107122030B (en) * | 2017-05-09 | 2024-04-05 | 华南理工大学 | Workstation thermoelectric power generation heat dissipation method and device thereof |
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