CN204335253U - Heat dissipation equipment and system - Google Patents

Abstract

The utility model discloses a kind of heat dissipation equipment and system, relate to field of radiating, in order to realize the heat radiation treating heat dissipation electrical device, and energy ezpenditure is low.This heat dissipation equipment, comprises heat-dissipating container, and heat-dissipating container has the containing cavity for accommodating cooling fluid, and cool stream physical efficiency in containing cavity with treat that heat dissipation electrical device carries out heat exchange.The heat dissipation equipment that technique scheme provides, directly utilize cooling fluid to cool and treat heat dissipation electrical device, cooling fluid can be the discarded cooling fluid that existing refrigeration plant produces, the discarded condensed water etc. such as produced during air conditioner refrigerating, therefore whole heat dissipation equipment is without the need to possessing refrigerating function and refrigeration part, heat dissipation equipment energy ezpenditure is low, and project cost is also low.

Description

Heat dissipation equipment and system

Technical field

The utility model relates to field of radiating, is specifically related to a kind of heat dissipation equipment and system.

Background technology

Existing a lot of equipment is all dispelled the heat by outside increase air-conditioning system or forced draft fan, and such as machine room using air-condition system radiating, computer uses fan cooling.This radiating mode all needs additionally to increase heat dissipation equipment, so both added the energy ezpenditure of whole equipment, turn increases project cost cost.

Utility model content

One of them object of the present utility model proposes a kind of heat dissipation equipment and system, and in order to realize the heat radiation treating heat dissipation electrical device, and heat dissipation equipment energy ezpenditure is low.

For achieving the above object, the utility model provides following technical scheme:

The utility model provides a kind of heat dissipation equipment, comprises heat-dissipating container, and described heat-dissipating container has the containing cavity for accommodating cooling fluid, and cool stream physical efficiency in described containing cavity with treat that heat dissipation electrical device carries out heat exchange.

Heat dissipation equipment as above, preferably, also comprises temperature control device, and described temperature control device is used for controlled cooling model and treats that the temperature of the cooling fluid of heat dissipation electrical device is not less than dew point temperature.

Heat dissipation equipment as above, preferably, described temperature control device comprises the first control valve and the first temperature sensor, described first temperature sensor for measuring the temperature of the cooling fluid entering into described containing cavity in advance, and opens described first control valve when the temperature of the cooling fluid detected is not less than dew point temperature;

Described first control valve is for opening or close the path of the cooling fluid be passed in described containing cavity.

Heat dissipation equipment as above, preferably, described heat dissipation equipment also comprises storage container, and described storage container has the storage chamber for storing cooling fluid, and described storage chamber is communicated with between described containing cavity.

Heat dissipation equipment as above, preferably, the first pipeline between described storage chamber and described containing cavity is provided with described first control valve; And/or described first temperature sensor is arranged in described storage chamber.

Heat dissipation equipment as above, preferably, described temperature control device also comprises the second temperature sensor and the second control valve;

Described second temperature sensor is for measuring the fluid temperature (F.T.) in described containing cavity, and measuring the temperature that obtains higher than opening described second control valve during set point, described settings are 40 °-60 °;

Described second control valve is for opening or close the path of the fluid flowing out described containing cavity.

Heat dissipation equipment as above, preferably, the second temperature sensor is arranged in described containing cavity;

Also by the second pipeline connection between described storage chamber and described containing cavity, and described second pipeline is provided with described second control valve.

Heat dissipation equipment as above, preferably, described storage container is also communicated with disposal fluids discharge line.

The utility model also provides a kind of cooling system, comprises refrigeration plant, and wherein, cooling system also comprises the heat dissipation equipment that the arbitrary technical scheme of the utility model provides;

The cooling fluid that described refrigeration plant produces is passed in described heat dissipation equipment.

Cooling system as above, preferably, described refrigeration plant is air-conditioning.

Based on technique scheme, the utility model embodiment at least can produce following technique effect:

The heat dissipation equipment that technique scheme provides, directly utilize cooling fluid to cool and treat heat dissipation electrical device, cooling fluid can be the discarded cooling fluid that existing refrigeration plant produces, the discarded condensed water etc. such as produced during air conditioner refrigerating, therefore whole heat dissipation equipment is without the need to possessing refrigerating function and refrigeration part, heat dissipation equipment energy ezpenditure is low, and project cost is also low.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, and form a application's part, schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

The principle schematic of the heat dissipation equipment that Fig. 1 provides for the utility model one embodiment;

The principle schematic of the heat dissipation equipment that Fig. 2 provides for another embodiment of the utility model;

The schematic diagram of fluid flow direction in the heat dissipation equipment that Fig. 3 provides for another embodiment of the utility model;

The schematic flow sheet of Fig. 4 heat dissipating method disclosed in another embodiment of the utility model;

Reference numeral:

1, heat-dissipating container; 2, storage container; 3, the first pipeline;

4, the first control valve; 5, the first temperature sensor; 6, the second temperature sensor;

7, the second control valve; 8, the second pipeline; 9, disposal fluids discharge line;

11, containing cavity; 10, heat dissipation electrical device is treated; 12, humidity temperature pickup;

21, chamber is stored; 22, water inlet.

Embodiment

Below in conjunction with the elaboration that Fig. 1 ~ Fig. 4 carries out specifically to the technical scheme that the utility model provides, the arbitrary technological means provided by the utility model carries out technical scheme that two or more technological means any of replacing or being provided by the utility model or technical characteristic carry out mutually combining and obtain all should within protection range of the present utility model.

See Fig. 1, the utility model one embodiment provides a kind of heat dissipation equipment, comprises heat-dissipating container 1, and heat-dissipating container 1 has the containing cavity 11 for accommodating cooling fluid, and cool stream physical efficiency in containing cavity 11 with treat that heat dissipation electrical device 10 carries out heat exchange.

The concrete structure of heat-dissipating container 1 has multiple, if treat, the size of heat dissipation electrical device 10 is less, directly the containing cavity 11 of heat-dissipating container 1 can be made larger chamber, to treat that heat dissipation electrical device 10 is placed in containing cavity 11, cooling fluid is directly looped around to be treated around heat dissipation electrical device 10, to realize the heat radiation treating heat dissipation electrical device 10, i.e. the situation of Fig. 2 and Fig. 3 signal.Less for size, but directly can not be placed on and treat heat dissipation electrical device 10 in containing cavity 11, can for treating that heat dissipation electrical device 10 increases by a thermal conductive shell, to ensure the fail safe of dispelling the heat.

If treat, the size of heat dissipation electrical device 10 is larger, heat-dissipating container 1 can be made the shape can mated and be fitted in and treat on heat dissipation electrical device 10 heating face, with the cooling fluid realized in containing cavity 11 and the heat exchange treating between heat dissipation electrical device 10.

Cooling fluid is specially in industrial production or family life the discarded cooling fluid produced, and its source has multiple, the additional cryogen etc. produced in the condensed water such as produced during air conditioner refrigerating, industrial production.

Treating that heat dissipation electrical device is can the device of heating power, is such as computer, light fixture, battery etc., for battery in the present embodiment.

The heat dissipation equipment that technique scheme provides, directly utilize cooling fluid to cool and treat heat dissipation electrical device 10, cooling fluid can be the discarded cooling fluid that existing refrigeration plant produces, the discarded condensed water etc. such as produced during air conditioner refrigerating, therefore whole heat dissipation equipment is without the need to possessing refrigerating function and refrigeration part, heat dissipation equipment energy ezpenditure is low, and project cost is also low.

For ease of controlling the temperature for cooling the cooling fluid treating heat dissipation electrical device 10, avoid occurring condensation, alternatively, heat dissipation equipment also comprises temperature control device, and temperature control device is used for controlled cooling model and treats that the temperature of the cooling fluid of heat dissipation electrical device 10 is not less than dew point temperature.

Temperature control device has multiple implementation, and the cooperation of transducer and control valve can be adopted to realize above-mentioned functions, or adopts the heater element of tape controller to realize above-mentioned functions.The setting position of temperature control device also has multiple, depends primarily on the concrete structure of heat dissipation equipment, heat-dissipating container 1.

On the technical scheme of above-described embodiment, see Fig. 2 and Fig. 3, in another embodiment of the utility model, temperature control device specifically adopts following implementation:

Temperature control device comprises the first control valve 4 and the first temperature sensor 5, first temperature sensor 5 for measuring the temperature of the cooling fluid entering into containing cavity 11 in advance, and opens the first control valve 4 when the temperature of the cooling fluid detected is not less than dew point temperature.First control valve 4 is for opening or close the path of the cooling fluid be passed in containing cavity 11.

The temperature control device structure of above-mentioned implementation is simple, cost is low.

For ease of storing cooling fluid, heat dissipation equipment also comprises storage container 2, and storage container 2 has the storage chamber 21 for storing cooling fluid, stores chamber 21 and is communicated with between containing cavity 11, be specifically communicated with by the first pipeline 3.

Corresponding to said structure, the concrete setting position of the first control valve 4, first temperature sensor 5 can be as follows: store on the first pipeline 3 between chamber 21 and containing cavity 11 and be provided with the first control valve 4; And/or the first temperature sensor 5 is arranged on and stores in chamber 21.

Store in chamber 21 and be provided with for measuring the first temperature sensor 5 storing chamber 21 inner fluid temperature.First temperature sensor 5 is electrically connected with the first control valve 4.Wherein, when the fluid temperature (F.T.) that the first temperature sensor 5 detects is higher than dew point temperature, the first control valve 4 is in opening.When the fluid temperature (F.T.) that the first temperature sensor 5 detects is less than or equal to dew point temperature, the first control valve 4 is made to be in closed condition.

When the fluid temperature (F.T.) that the first temperature sensor 5 records is lower than dew point temperature, now, if the cooling fluid stored in chamber 21 is directly filled with containing cavity 11, likely can make to treat that condensation appears in heat dissipation electrical device 10.Therefore the fluid temperature (F.T.) preferably recorded at the first temperature sensor 5 is filled with cooling fluid higher than during dew point temperature in containing cavity 11.

Dew point temperature refers to that air is under moisture content and all immovable condition of air pressure, temperature when being cooled to saturated.Dew point temperature is determined by current environmental temperature and humidity, and humidity temperature pickup 12 can be adopted to know current environmental temperature and humidity.

First temperature sensor 5 specifically can adopt water temperature temperature-sensitive bag.

For making the sub-cooled fluid stored in chamber 21 can enter into containing cavity 11 fast, one end that the first pipeline 3 is communicated with storage chamber 21 is higher than the other end be communicated with containing cavity 11 with the first pipeline 3.

Further, temperature control device realization can also be adopted the heating storing sub-cooled fluid in chamber 21, and specific implementation is as follows:

Temperature control device also comprises the second temperature sensor 6 and the second control valve 7.Second temperature sensor 6 is for measuring the fluid temperature (F.T.) in containing cavity 11, and measuring the temperature that obtains higher than opening the second control valve 7 during set point, settings are 40 °-60 °.Second control valve 7 is for opening or close the path of the fluid flowing out containing cavity 11.

The optional setting position of second temperature sensor 6, second control valve 7 has multiple, and consider the convenience of setting, the second temperature sensor 6 is arranged in containing cavity 11.Store chamber 21 to be also communicated with by the second pipeline 8 with between containing cavity 11, and the second pipeline 8 is provided with the second control valve 7.

The second temperature sensor 6 for measuring containing cavity 11 inner fluid temperature is provided with in containing cavity 11.Second temperature sensor 6 specifically also can adopt water temperature temperature-sensitive bag.Store chamber 21 to be also communicated with by the second pipeline 8 with between containing cavity 11, and the second pipeline 8 is provided with the second control valve 7.Second temperature sensor 6 is electrically connected with the second control valve 7.Wherein, when the fluid temperature (F.T.) that the second temperature sensor 6 detects is higher than settings, the second control valve 7 is in opening; Settings are 40 °-60 °.Settings are such as specifically 40 °, 45 °, 50 °, 60 ° etc.

Second temperature sensor 6, for measuring containing cavity 11 inner fluid temperature, can know cooling effect, if containing cavity 11 inner fluid temperature is too high, such as higher than 40 degree, so illustrates that the fluid in containing cavity 11 may need to change to ensure cooling effect.On the other hand, also illustrate fluid heating that in containing cavity 11, temperature has raised can be utilized to be in cooling fluid in the storage chamber 21 of below dew point temperature.

Second control valve 7 is set, when the fluid temperature (F.T.) that the second temperature sensor 6 detects is higher than settings, high temperature fluid in containing cavity 11 is passed into and stores in chamber 21, to heat the cooling fluid stored lower than dew point temperature in chamber 21, make the temperature of cooling fluid rise to more than dew point temperature, realize treating the cooling of heat dissipation electrical device 10 to be passed in containing cavity 11.

By the first above-mentioned control valve 4, second control valve 7, the fluid in whole heat dissipation equipment is made to define circulation, discarded cooling fluid cooling can be utilized on the one hand to treat heat dissipation electrical device 10, also the cooling fluid in the containing cavity 11 treating that heat dissipation electrical device 10 heats can be utilized on the other hand, to realize the heating to storing lower than the cooling fluid of dew point temperature in chamber 21.

In the present embodiment, one end that the second pipeline 8 is communicated with containing cavity 11 higher than with the second pipeline 8 with store one end of being communicated with, chamber 21.Setting like this, can make the fluid that in containing cavity 11, temperature is higher can flow rapidly in the storage chamber 21 of low temperature.

Further, the water inlet 22 of storage container 2 can be communicated with the cooling fluid output pipe of refrigeration plant.The cooling fluid produced during refrigerating device refrigeration can be utilized to make storage container 2.Refrigeration plant is such as air-conditioning, condenser, air-cooler, evaporator etc.

For ensureing the fail safe used, storage container 2 is also communicated with disposal fluids discharge line 9.When the cooling fluid in storage container 2 has exceeded the predetermined storing highly of storage container 2, by disposal fluids discharge line 9, unnecessary water is discharged in extraneous waste pipe.

Another embodiment of the utility model provides a kind of cooling system, comprises refrigeration plant, and wherein, cooling system also comprises the heat dissipation equipment that the arbitrary technical scheme of the utility model provides.The cooling fluid that refrigeration plant produces is passed in heat dissipation equipment.

Refrigeration plant is industrial or the normal equipment used in family, and the refrigeration plant that non-individual increases, so the cost of whole cooling system can not be increased.

Further, refrigeration plant is specially air-conditioning, and the cooling fluid that air-conditioning exports is condensed water.In practical application, the condensate output transistor road of air-conditioning is connected with the water inlet 22 of storage container 2, to realize the Collection and use to air conditioner condensate water.

Another embodiment of the utility model also discloses a kind of heat dissipating method, and the heat dissipation equipment that this heat dissipating method preferably adopts technique scheme to provide realizes.See Fig. 4, the method comprises the steps:

Step S1, by the cooling fluid in the containing cavity of heat-dissipating container with treat that heat dissipation electrical device carries out heat exchange, treat heat dissipation electrical device to cool.

Treating that heat dissipation electrical device is can the device of heating power, is such as computer, light fixture, battery etc.

The concrete structure of heat-dissipating container has multiple, if treat, the size of heat dissipation electrical device is less, directly the containing cavity of heat-dissipating container can be made larger chamber, to treat that heat dissipation electrical device is placed in containing cavity, cooling fluid is directly looped around to be treated around heat dissipation electrical device, to realize the heat radiation treating heat dissipation electrical device, i.e. the situation of Fig. 2 and Fig. 3 signal.Less for size, but directly can not be placed on and treat heat dissipation electrical device in containing cavity, can for treating that heat dissipation electrical device increases by a thermal conductive shell, to ensure the fail safe of dispelling the heat.

If treat, the size of heat dissipation electrical device is larger, heat-dissipating container can be made the shape can mated and be fitted in and treat on heat dissipation electrical device heating face, with the cooling fluid realized in containing cavity and the heat exchange treating between heat dissipation electrical device.

Cooling fluid is specially in industrial production or family life the discarded cooling fluid produced, and its source has multiple, the additional cryogen etc. produced in the condensed water such as produced during air conditioner refrigerating, industrial production.

The heat dissipating method that technique scheme provides, directly utilize cooling fluid to cool and treat heat dissipation electrical device, cooling fluid can be the discarded cooling fluid that existing refrigeration plant produces, the discarded condensed water etc. such as produced during air conditioner refrigerating, therefore whole heat dissipation equipment is without the need to possessing refrigerating function and refrigeration part, heat dissipation equipment energy ezpenditure is low, and project cost is also low.

Also can comprise before step S1:

Step S2, utilize temperature control device control be not less than dew point temperature for the temperature cooling the cooling fluid treating radiating element, to avoid treating that condensation appears in radiating element.

Above-mentioned steps S2 specifically can comprise:

Entered into the temperature of the cooling fluid of containing cavity by the first temperature sensor measurement of temperature control device in advance, and open the first control valve of temperature control device when this temperature is not less than dew point temperature, make cooling fluid to enter into containing cavity.The detailed description of the first temperature sensor, the first control valve see above, can repeat no more herein.

Further, above-mentioned steps S2 specifically can also comprise: by the temperature of the cooling fluid in the second temperature sensor measurement containing cavity of temperature control device, and in this temperature higher than the second control valve opening temperature control device during set point, make the cooling fluid in containing cavity can enter into the storage chamber of storage container, to heat the cooling fluid stored in chamber; Wherein, storage container is communicated with heat-dissipating container.The detailed description of the second temperature sensor, the second control valve see above, can repeat no more herein.

Before above-mentioned steps S1, S2, afterwards or between also comprise the steps: when the cooling fluid in storage container storing highly higher than setting height time, open the coconnected disposal fluids discharge line in storage chamber of storage container, discharge unnecessary cooling fluid.In office what is the need for when wanting of this step can perform.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only for ease of describing the utility model and simplified characterization, instead of instruction or infer the device of indication or element must have specific orientation, for specific azimuth configuration and operation, thus the restriction to the utility model protection content can not be interpreted as.

If employ the word such as " first ", " second " herein to limit parts, those skilled in the art should know: the use of " first ", " second " is only used to be convenient to describe the utility model and simplified characterization, as do not stated in addition, the implication that above-mentioned word is not special.

Finally should be noted that: above embodiment is only in order to illustrate that the technical solution of the utility model is not intended to limit; Although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the field have been to be understood that: still can modify to embodiment of the present utility model or carry out equivalent replacement to portion of techniques feature; And not departing from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope of the utility model request protection.

Claims (10)

1. a heat dissipation equipment, it is characterized in that, comprise heat-dissipating container (1), described heat-dissipating container (1) has the containing cavity (11) for accommodating cooling fluid, and cool stream physical efficiency in described containing cavity (11) with treat that heat dissipation electrical device (10) carries out heat exchange.

2. heat dissipation equipment according to claim 1, is characterized in that, also comprises temperature control device, and described temperature control device is used for controlled cooling model and treats that the temperature of the cooling fluid of heat dissipation electrical device (10) is not less than dew point temperature.

3. heat dissipation equipment according to claim 2, it is characterized in that, described temperature control device comprises the first control valve (4) and the first temperature sensor (5), described first temperature sensor (5) for measuring the temperature of the cooling fluid entering into described containing cavity (11) in advance, and opens described first control valve (4) when the temperature of the cooling fluid detected is not less than dew point temperature;

Described first control valve (4) is for opening or close the path of the cooling fluid be passed in described containing cavity (11).

4. heat dissipation equipment according to claim 3, it is characterized in that, described heat dissipation equipment also comprises storage container (2), described storage container (2) has the storage chamber (21) for storing cooling fluid, and described storage chamber (21) is communicated with between described containing cavity (11).

5. heat dissipation equipment according to claim 4, is characterized in that, the first pipeline (3) between described storage chamber (21) and described containing cavity (11) is provided with described first control valve (4); And/or described first temperature sensor (5) is arranged in described storage chamber (21).

6. heat dissipation equipment according to claim 3, is characterized in that, described temperature control device also comprises the second temperature sensor (6) and the second control valve (7);

Described second temperature sensor (6) is for measuring the fluid temperature (F.T.) in described containing cavity (11), and measuring the temperature that obtains higher than opening described second control valve (7) during set point, described set point is 40 °-60 °;

Described second control valve (7) is for opening or close the path of the fluid flowing out described containing cavity (11).

7. heat dissipation equipment according to claim 6, is characterized in that, the second temperature sensor (6) is arranged in described containing cavity (11);

Described heat dissipation equipment also comprises storage container (2), described storage container (2) has the storage chamber (21) for storing cooling fluid, and described storage chamber (21) is communicated with between described containing cavity (11);

Described storage chamber (21) is also communicated with by the second pipeline (8) with between described containing cavity (11), and described second pipeline (8) is provided with described second control valve (7).

8. heat dissipation equipment according to claim 4, is characterized in that, described storage container (2) is also communicated with disposal fluids discharge line (9).

9. a cooling system, comprises refrigeration plant, it is characterized in that, also comprises the arbitrary described heat dissipation equipment of claim 1-8;

The cooling fluid that described refrigeration plant produces is passed in described heat dissipation equipment.

10. cooling system according to claim 9, is characterized in that, described refrigeration plant is air-conditioning.