CN101212888A

CN101212888A - Bionic power driven radiator that simulates cardiac structure

Info

Publication number: CN101212888A
Application number: CNA2006101715134A
Authority: CN
Inventors: 刘静; 肖剑
Original assignee: Technical Institute of Physics and Chemistry of CAS
Current assignee: Technical Institute of Physics and Chemistry of CAS
Priority date: 2006-12-30
Filing date: 2006-12-30
Publication date: 2008-07-02
Anticipated expiration: 2026-12-30
Also published as: CN101212888B

Abstract

A bionic power-actuated radiator of a cardiac stimulating construction comprises a main hollow square cavity which is connected with a heating surface when running, in which a piston driven by a driving motor and capable of sliding up and down along the cavity inner wall is transversely installed; an even number of pores are symmetrically collocated on the piston; an upper unidirectional valve facing upwards and inclining outwards is installed on the inner wall of the pore; a semicircular left hollow cavity and a semicircular right hollow cavity which are encircled by a hollow bended tube are respectively welded on the left, right side walls of the main hollow cavity; the cavity of the hollow bended tube of the left and right hollow cavities are respectively communicated with the cavity of the main hollow cavity; fluid working substance is filled therein; a first and a second lower unidirectional valves which are installed in the left, right hollow cavities, communicated with the cavity of the main hollow cavity with the lower communicating mouth facing downwards and inclining inwards; the small size of the radiator conforms to the tendency that modern electronic equipments become compact gradually and the radiator has the advantages of simple structure and small flow resistance, can save the electric energy for driving the motor; besides, the flowing speed of a working substance can be very fast and the radiating efficiency is high.

Description

The bionic power drive type radiator of imitative cardiac structure

Technical field

The present invention relates to a kind of bionic power drive type radiator, particularly a kind of driving systemic blood that imitates cardiac structure flows to realize the bionic power drive type radiator of heat to the imitative cardiac structure of flow transmission.

Background technology

In recent years, computer, microelectronics, photoelectric chip etc. are towards improving integrated level, reduce size and increase the trend development of clock frequency always, and therefore " thermal boundary " problem day shows severe.Calculate according to famous " Moore's Law ": the transistor on the computer chip doubled in per 18 months, and so by 2010, transistorized quantity will break through 1,000,000,000 on the chip, and at this moment, chip power consumption and heat dissipation problem also show especially out.The excessive temperature that brings thus will reduce the job stability of chip, increase error rate, and formed thermal stress can directly have influence on electrical property, operating frequency, mechanical strength and the reliability of chip between while inside modules and its external environment condition.In fact, not only for computer chip, for a large amount of power electronics devices, photoelectric device and development in recent years little rapidly/naiio-electro-meclianical systems etc., all exist similarly extensive and urgent heat radiation cooling needs, under the situation about having in addition requirement higher.Above situation shows, at present the demand of high-performance heat dissipation technology has been mentioned unprecedented aspect, and correlative study is the key subjects of common forward position of a plurality of ambits and concern.

The computer chip technology development is to the broad space of an urgent demand and the practical application of high-performance heat dissipating method, and feasible heat dissipation technology research to excessive heat current density opto chip, micro-system becomes important unusually in the world and the active research field.The chip radiator of selling on the market mainly contains air radiator, liquid radiator, heat-pipe radiator, refrigerant cooler, peltier cooler at present.First three kind is to utilize various heat-conducting mediums that heat is transmitted to the temperature that cold junction reduces chip from the hot junction, and back two kinds then is to rely on the cold that initiatively produces to reach the purpose that reduces chip temperature.Air radiator is because the thermal transmission coefficient of air is lower, though be used in combination many high thermal conductivity materials such as aluminium, copper even silver etc. and used mode such as fin, the fan etc. of various enhance heat transfer, but the thermal transmission coefficient of this class radiator is tending towards its physics limit substantially at present, and it is bigger further to promote the cost that performance need pays.And along with the raising of fan speed, the noise of generation also constantly increases, and in the face of the chip heat generation density that day by day increases, these class methods can not finely adapt to.But, because its price is comparatively cheap, therefore still be a kind of commonplace radiating mode in actual applications.The thermal transmission coefficient of heat-pipe radiator is very high, but manufacture craft, encapsulation condition are had relatively high expectations, along with development of technology, price begins progressively to descend, but still pace up and down outside the threshold of widely applying, and when the chip heat generation density was too high, all evaporation was dried can to cause inside heat pipe liquid, thereby working medium is difficult to finish normal circulation to be transported, and can cause that burning phenomenon takes place.Refrigerant cooler and peltier cooler make their application in the chip cooling of high heating power have inborn advantage owing to possess the mode of active refrigeration, but complex manufacturing technology, and cost is high relatively, less seeing on the market.

In comparison, liquid cooling heat radiator is the better combination that takes into account heat transfer efficiency and production cost.The thermal conductivity of liquid particularly convective heat transfer speed and specific heat capacity is that air can't be reached, and fluid working substance can utilize the liquid of some less expensive, as water, alcohol etc., manufacturing process does not have heat-pipe radiator, refrigerant cooler and peltier cooler requirement height yet.Can predict, in one long from now on period, liquid cooling heat radiator may become the main flow in market.Liquid cooling heat radiator mainly is made up of heat-absorbing model, radiating module, fluid pump, fluid working substance etc., its basic functional principle is: outside heat load is added on heat-absorbing model, the working medium temperature rises, and is transferred to radiating module subsequently under the driving of pump, and heat is dispersed in the air from working medium.Like this, working medium constantly circulates in heat pipe, and heat is transported away constantly.

Yet the liquid cooling system of selling on the market mostly is that fluid driven pumps separates with refrigerating module at present, has increased the volume of cooling system like this, has increased the resistance and the power consumption that flow, and the installation process more complicated.Just because of this, for a long time, the driving pump in liquid cools conducts a research, and how to improve driving efficient is the significant effort direction of engineers always.From bionic angle, heart is as the unique actuating force source of blood of human body, and its small and exquisite volume but can provide the continuous driving force that is enough to overcome complicated blood vessel network flow resistance in the human body, new thinking is provided for the design of fluid driven pumps.Just be based on this consideration, the invention provides a kind of new liquid cooling heat radiator scheme, can the more diversified radiator of way of realization.

Summary of the invention

The objective of the invention is to: a kind of bionic power drive type radiator is provided, particularly provide and a kind of cardiac structure that imitates drives systemic blood and flows to realize the bionic power drive type radiator of heat to the imitative cardiac structure of flow transmission, can be used as the desirable heat abstractor in the high power density device.

Technical solution of the present invention is as follows:

The bionic power drive type radiator of imitative cardiac structure provided by the invention comprises:

One square hollow main cavity 1 is laterally installed a piston 4 that is driven and can be slided up and down along cavity inner wall by drive motors 5 in the square hollow main cavity 1; Be provided with even number aperture 7 symmetrically on the described piston 4; The last one-way valve 6 that is directed upwardly and tilts laterally all is installed on the inwall of each aperture 7;

Be welded in the hollow cavity 22 of the hollow cavity 2 in a semi-circular left side and the semi-circular right side that surrounds by hollow bent pipe on the described square hollow main cavity 1 left and right sidewall respectively; The hollow bent pipe inner chamber of hollow cavity 2 in a described semi-circular left side and the hollow cavity 22 in the semi-circular right side respectively with the intracavity inter-connection of described square hollow main cavity 1;

Be loaded on the flow working medium 9 in the cavity that described square hollow main cavity 1, the hollow cavity 22 of the hollow cavity 2 in a semi-circular left side and the semi-circular right side be connected;

A direction that is installed in the following connected entrance place that the bend pipe tube chamber of the hollow cavity 2 in a described semi-circular left side is communicated with the inner chamber of described square hollow main cavity 1 down and the first time unidirectional valve 88 that tilts to the inside;

A direction that is installed on the following connected entrance place that the bend pipe tube chamber of the hollow cavity 22 in the described semi-circular right side is communicated with the inner chamber of described square hollow main cavity 1 down and the second time unidirectional valve 8 that tilts to the inside.

The bionic power drive type radiator of imitative cardiac structure provided by the invention also can comprise the radiated rib 3 that is installed on described square hollow main cavity 1, hollow cavity 22 outer surfaces of the hollow cavity 2 in a semi-circular left side and/or the semi-circular right side.Described radiated rib 3 is 2 to 1000 pieces.

Described square hollow main cavity 1, the hollow cavity 22 of the hollow cavity 2 in a semi-circular left side and the semi-circular right side are the hollow cavity of aluminium, copper or silicon material.

The material of described drive motors shell and piston is plastics or rubber material.

Describedly go up the one-way valve that one-way valve 6, first time unidirectional valve 88 and second time unidirectional valve 8 are plastics, rubber material; Perhaps be the copper that is enclosed with plastics or rubber on the outer surface or the one-way valve of aluminium material.

Described aperture is rectangular opening, circular port or tri-angle-holed, and its quantity is 2,4,6 or 8.

Described cross section of going up one-way valve 6, first time unidirectional valve 88 and second time unidirectional valve 8 is rectangle, circle or triangle.

The shape of cross section of the bend pipe tube chamber of hollow cavity 2 in a described semi-circular left side and the hollow cavity 22 in the semi-circular right side is rectangle, triangle or circle.

Described flow working medium 9 is pure water, alcohol, ammonia, mercury or gallium.

The bionic power drive type radiator of imitative cardiac structure of the present invention, the circulation passage duct of its flow working medium are easy to manufacture by existing process technology.Each device both can be formed a radiator separately, also can pile up and was welded together to form parallel following current or contra-flow heat exchanger.

The running of apparatus of the present invention is as follows: when drive motors 5 drive pistons 4 move downward, and the flow working medium 9 that compression is following, following

unidirectional valve

8 and 88 is closed, and last single file valve 6 is opened, and flow working medium 9 is extruded to above the piston 4 below piston 4; When drive motors 5 drive pistons 4 move upward, flow working medium 9 above the compression, last one-way valve 6 is closed, and following

unidirectional valve

8 and 88 is opened, and flow working medium 9 is extruded the bend pipe tube chamber of hollow cavity 2 in the semi-circular left side of flowing through and the hollow cavity 22 in the semi-circular right side below piston 4 above piston 4; So, finish a flow circuit.Flow working medium 9 absorbs heat in the bottom of radiator, and temperature raises, and is called heat absorbing end; Flow working medium 9 can release heat in the top of radiator and its circulation passage, and temperature reduces, and becomes heat release section, and middle fin 3 plays the effect of enhanced heat exchange.Like this, finish the entire heat dissipation process.

The filling of above structure and flow working medium 9 adopts conventional heat exchanger processing mode to finish.

The bionic power drive type radiator of imitative cardiac structure of the present invention, its advantage is as follows: crucial part of the present invention is to have introduced the unidirectional pumping driving of heart blood and flows in blood vessel network, thereby realize the bionic power drive type heat abstractor notion of the transmission of heat from the hot junction to the cold junction, having greatly enriched traditional flow design on technical connotation, is an expansion of traditional heat-dissipating device technology; And volume is less, and simple in structure, flow resistance is little, can save the electric energy of drive motors, meets the day by day compact trend of modern electronic equipment; Flowing velocity can be very fast, can soon heat be sent to cold junction from the hot junction, and heat-transfer capability is higher than traditional liquid cooling heat radiator.Just because of these composite factors, make the present invention than in the past liquid cooling heat radiator, more can adapt to the needs of high power device from now on.

Description of drawings

Accompanying drawing 1 is a structural representation of the present invention;

Accompanying drawing 2 is the A-A generalized section of Fig. 1.

Embodiment

Further describe patent of the present invention below in conjunction with the drawings and specific embodiments:

Accompanying drawing 1 is the surface structure schematic diagram of bionic power drive type radiator, also is one embodiment of the present of invention; Accompanying drawing 2 is the A-A longitudinal section schematic diagram of bionic power drive type radiator.As seen from the figure, the bionic power drive type radiator of imitative cardiac structure function of the present invention, comprise: the square hollow main cavity 1 that links to each other with heating face during work, a piston 4 that is driven and can be slided up and down along cavity inner wall by drive motors 5 laterally is installed in the square hollow main cavity 1; Be provided with even number aperture 7 symmetrically on the described piston 4; The last one-way valve 6 that is directed upwardly and tilts laterally all is installed on the inwall of each aperture 7;

Be installed on the bend pipe tube chamber of the hollow cavity 22 in the described semi-circular right side and described square hollow main cavity 1 in

One direction at the following connected entrance place that the chamber is communicated with down and the second time unidirectional valve 8 that tilts to the inside.

Square hollow main cavity 1 is connected with the heating end of heater element, can adopt metal such as aluminium, copper or semi-conducting material such as silicon etc. to make, sleeve mechanism can be with ribbing plate, and the high size of length and width can also can be more multiform shape at 3cm * 3cm * 3cm between 50cm * 50cm * 10cm; The piston of establishing in the square hollow main cavity 14 can adopt metal such as aluminium, copper etc. or elastomeric material such as plastics etc. to make, its size can be at 2.5cm * 2.5cm * 0.25cm between 49cm * 49cm * 0.5cm, be connected with drive motors 5 on the piston 4, be similar to the shrinkage expansion function of cardiac muscle; Have aperture 7 (not 2,4,6 or 8 of numbers) on the piston 4, the area of section of aperture 7 is 1cm ²To 400cm ²Between; Aperture 7 is provided with one-way valve 6, last one-way valve 6 can adopt elasticity such as plastics, rubber etc. or on metal material such as copper, aluminium parcel flexible material such as rubber make, its area of section size can be 1cm ²To 400cm ²Between, be similar to the valve in the heart;

The hollow bent pipe inner chamber of hollow cavity 2 in a described semi-circular left side and the hollow cavity 22 in the semi-circular right side respectively with the intracavity inter-connection of described square hollow main cavity 1, constitute the peripheral passage thus, the height of hollow cavity 2 in a described semi-circular left side and the hollow cavity 22 in the semi-circular right side at 0.25cm between the 1cm.The outer surface of radiator of the present invention is provided with radiated rib 3, is used for augmentation of heat transfer; The number of radiated rib 3 can be between 2 to 1000; The high size of the length and width of single piece of radiated rib 3 can be at 10nm * 10nm * 10nm between 50cm * 50cm * 1cm, and its shape can variation.

The encapsulation of the flow working medium 9 in the radiator provided by the invention is performed such, behind each textural association, only stay an opening, as the encapsulation mouth, flow working medium 9 is injected in the whole device along this encapsulation mouth, is encapsulated again at last, promptly form bionic power drive type radiator of the present invention, this process is a routine techniques, is easy to realize.When using this radiator, its bottom surface is attached at the heater members surface, can realizes thermolysis efficiently.As required, the structure of entire radiator and size can be adjusted, each parts all material of radiator all can adopt metal such as aluminium, copper or semi-conducting material such as silicon etc. to make, piston can adopt metal material or elastomeric material such as plastics etc. to make, one-way valve can adopt elasticity such as plastics, rubber etc. or on metal material such as copper, aluminium parcel flexible material such as rubber make.Flow working medium 9 also can adopt multiple liquid, as water, alcohol, ammonia, R-134a, or even liquid metal such as mercury etc.Radiator provided by the invention also can directly be manufactured by process technology and treat on the surface of radiating element.

Reflection only is a kind of bionic power drive type heat sink format provided by the invention shown in the accompanying drawing 1, and in fact, the structure of apparatus of the present invention is not limited to this.Such as, all can offer pipeline opening on the wall around the square hollow main cavity 1, be used to connect more transmission pipeline, and square hollow main cavity 1 shape is not single rectangle, can more schemes of pipeline flexibly be set according to the application scenario; The shape and the layout of aperture 7 on the piston 4 in the square hollow main cavity 1 and last one-way valve and following unidirectional valve also are not limited thereto.

Radiator provided by the invention has remarkable difference with traditional liquid cooling heat radiator on structural configuration.All parts all are incorporated into inside cavity and surface, and structure is very compact, do not have complicated tediously long piping network, have significantly reduced the resistance during working medium flows, and have saved the electric energy of drive motors, can provide enough power again simultaneously.

The present invention has lot of advantages, and at first, volume is less, meets the day by day compact trend of modern electronic equipment; Secondly, pipeline configuration is simple, and flow resistance is little, has saved the electric energy of drive motors; Its three, flowing velocity can be very fast, can soon heat be sent to cold junction from the hot junction, heat-transfer capability is higher than traditional liquid cooling heat radiator.Just because of these composite factors, make the present invention than in the past liquid cooling heat radiator, more can adapt to the needs of high power device from now on.

Radiator of the present invention can be advantageously used in the heat that device produces is led away from its surface.With embodiment 1 is example, uses the mode of patent of the present invention as follows: this flat radiator is close to device surface, and the contact-making surface between the two adopts the high thermal conductivity grease to increase heat-transfer effect; And can select the radiator of different sizes to get final product according to treating the heat removal surface area size.So, on the duct wall around the heat that produces in the device can be transferred to by working medium, in being discharged into external environment, thereby safeguard the operate as normal of device.

Claims

1. the bionic power drive type radiator of an imitative cardiac structure comprises:

One square hollow main cavity (1) is laterally installed a piston (4) that is driven and can be slided up and down along cavity inner wall by drive motors (5) in the square hollow main cavity (1); Be provided with even number aperture (7) on the described piston (4) symmetrically; The last one-way valve (6) that is directed upwardly and tilts laterally all is installed on the inwall of each aperture (7);

Be welded in the hollow cavity of the hollow cavity in a semi-circular left side (2) and the semi-circular right side (22) that surrounds by hollow bent pipe on the left and right sidewall of described square hollow main cavity (1) respectively; The hollow bent pipe inner chamber of the hollow cavity of the hollow cavity in a described semi-circular left side (2) and the semi-circular right side (22) respectively with the intracavity inter-connection of described square hollow main cavity (1);

Be loaded on the flow working medium (9) in the cavity that described square hollow main cavity (1), the hollow cavity of the hollow cavity in a semi-circular left side (2) and the semi-circular right side (22) be connected;

A direction that is installed in the following connected entrance place that the bend pipe tube chamber of the hollow cavity in a described semi-circular left side (2) is communicated with the inner chamber of described square hollow main cavity (1) down and the first time unidirectional valve (88) that tilts to the inside;

A direction that is installed on the following connected entrance place that the bend pipe tube chamber of the hollow cavity in the described semi-circular right side (22) is communicated with the inner chamber of described square hollow main cavity (1) down and the second time unidirectional valve (8) that tilts to the inside.

2. press the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that, also comprise the radiated rib (3) that is installed on described square hollow main cavity (1), the hollow cavity of the hollow cavity in a semi-circular left side (2) and/or the semi-circular right side (22) outer surface.

3. press the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that described square hollow main cavity (1), the hollow cavity of the hollow cavity in a semi-circular left side (2) and the semi-circular right side (22) are the hollow cavity of aluminium, copper or silicon material.

4. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that the material of described drive motors shell and piston is plastics or rubber material.

5. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that described upward one-way valve (6), first time unidirectional valve (88) and second time unidirectional valve (8) are the one-way valve of plastics, rubber material; Perhaps be the copper that is enclosed with plastics or rubber on the outer surface or the one-way valve of aluminium material.

6. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that described aperture is rectangular opening, circular port or tri-angle-holed, its quantity is 2,4,6 or 8.

7. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that described cross section of going up one-way valve (6), first time unidirectional valve (88) and second time unidirectional valve (8) is rectangle, circle or triangle.

8. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that the shape of cross section of the bend pipe tube chamber of the hollow cavity of the hollow cavity in a described semi-circular left side (2) and the semi-circular right side (22) is rectangle, triangle or circle.

9. by the bionic power drive type radiator of the described imitative cardiac structure of claim 2, it is characterized in that described radiated rib is 2 to 1000 pieces.

10. by the bionic power drive type radiator of the described imitative cardiac structure of claim 1, it is characterized in that described flow working medium (9) is pure water, alcohol, ammonia, mercury or gallium.