CN105823150B - Cooling device and air-conditioning refrigerator all-in-one machine - Google Patents

Abstract

The present invention provides a kind of cooling device and air-conditioning refrigerator all-in-one machines.The cooling device includes：Upper end cover, bottom end cover and babinet, babinet are mounted between upper end cover and bottom end cover, and babinet surrounds the box like structure of sealing with upper end cover, bottom end cover, and the first disengaging liquid pipe is wherein provided on upper end cover, the second disengaging liquid pipe is provided on bottom end cover；Multiple heat exchangers, heat exchanger is honeycomb structure, and multiple heat exchanger stratiforms are arranged in babinet, and the first through hole and reservoir for the liquid to be cooled that circulates wherein are provided on heat exchanger, first through hole is arranged with reservoir interval, and the first cooling medium is stored in reservoir；Multiple inner cover plates, inner cover plate are installed on heat exchangers, and inner cover plate seals reservoir；And multiple cooling bend pipes, cooling bend pipe are mounted between the adjacent heat exchanger of any two, and filled with the second cooling medium in cooling bend pipe, to reach transportable purpose.

Description

Cooling device and air-conditioning refrigerator all-in-one machine

Technical field

The present invention relates to cooling apparatus fields, more particularly to a kind of cooling device, and the sky containing the cooling device Adjust refrigerator integrated machine.

Background technology

Existing dividing wall type cooling device can be divided into shell-and-tube cooling device, plate-type cooling device etc. according to heat-transfer area difference Deng.The coefficient of heat transfer of wherein shell-and-tube cooling device is low, and it is big to occupy volume；The coefficient of heat transfer of plate-type cooling device is high, cooling effect Fruit is good, but it is not pressure-resistant, is easy to block.Existing pore plate cascade type heat exchange device belongs to the improvement of plate-type cooling device, in hole Several row cold and hot liquids first through hole staggeredly are arranged on plate, being one although heat transfer rate can be improved, in its principle changes Pore plate cascade type heat exchange device can only be fixedly mounted in some device by thermal device, when application, not have mobility.

Invention content

Based on this, it is necessary to not have the problem of mobility for existing dividing wall type cooling device, provide one kind and answer It is wide with range, and independently moveable cooling device, and the air-conditioning refrigerator all-in-one machine containing the cooling device.Above-mentioned purpose is logical Cross following technical proposals realization：

A kind of cooling device, including：

Upper end cover, bottom end cover and babinet, the babinet are mounted between the upper end cover and the bottom end cover, the case Body surrounds the box like structure of sealing with the upper end cover, the bottom end cover, wherein being provided with the first liquid in-out on the upper end cover It manages, the second disengaging liquid pipe is provided on the bottom end cover；

Multiple heat exchangers, the heat exchanger is honeycomb structure, and the multiple heat exchanger stratiform is arranged in the babinet In, wherein be provided with the first through hole and reservoir for the liquid to be cooled that circulates on the heat exchanger, the first through hole with The reservoir interval setting, is stored with the first cooling medium in the reservoir；

Multiple inner cover plates are provided with the second through-hole, the position of the first through hole and second through-hole in the inner cover plate Set corresponding, the inner cover plate is mounted on the heat exchanger, and the inner cover plate seals the reservoir；And

Multiple cooling bend pipes, the cooling bend pipe are mounted between the adjacent heat exchanger of any two, and described cold But filled with the second cooling medium in bend pipe.

The distance between two described heat exchangers of arbitrary neighborhood are the height of the babinet in one of the embodiments, 1/10~1/2.

A diameter of 2mm~10mm of first through hole on the heat exchanger in one of the embodiments,.

The area of section of the reservoir is more than or equal to the section face of the first through hole in one of the embodiments, Product.

The bottom-up flowing of liquid to be cooled in one of the embodiments, the second disengaging liquid pipe is feed liquor Pipe, the first disengaging liquid pipe is outlet tube, and the first disengaging liquid pipe passes in and out liquid pipe with described second and is arranged in the cooling The opposite side of device.

The liquid to be cooled flows from up to down in one of the embodiments, and the first disengaging liquid pipe is feed liquor Pipe, the second disengaging liquid pipe is outlet tube.

It is additionally provided with shower on the upper end cover in one of the embodiments, the liquid feeding end of the shower and described the One disengaging liquid pipe connection, the outlet end of the shower are directed at the heat exchanger.

It is phase change material that the first cooling medium cools down medium with described second in one of the embodiments,.

In one of the embodiments, the first cooling medium be water, it is fuse salt, crystalline hydrate salt, paraffin, polynary The mixture of one or more of alcohol, resin acid class.

The second cooling medium is one or more of liquefied ammonia, liquid helium, silicone oil, water, ethyl alcohol, polyethylene glycol Mixture.

In one of the embodiments, the heat exchanger, the upper end cover, the bottom end cover, the inner cover plate with it is described Cooling bend pipe is made of carbon steel, stainless steel, copper, aluminium, ormolu, corronil or aluminium alloy.

The multiple cooling bend pipe forms cooling pipe, the cooling tube in one of the embodiments, after being sequentially connected The both ends in road connect.

The multiple cooling bend pipe forms cooling pipe, the cooling tube in one of the embodiments, after being sequentially connected The both ends in road are separately connected external source.

Further relate to a kind of air-conditioning refrigerator all-in-one machine, including refrigerator and the cooling dress as described in any of the above-described technical characteristic It sets, the cooling device is mounted on the inside of the refrigerator.

The beneficial effects of the invention are as follows：

The present invention cooling device and air-conditioning refrigerator all-in-one machine, structure design advantages of simple, by multiple heat exchangers with it is multiple Cooling bend pipe is separately mounted in the box like structure of the sealing formed by upper end cover, bottom end cover and babinet so that of the invention is cold But device can be moved independently, and treated cooling liquid using heat exchanger and cooling bend pipe simultaneously and cooled down, and cooling efficiency is high.

Description of the drawings

Fig. 1 is the stereogram of the cooling device of one embodiment of the invention；

Fig. 2 is the explosive view of cooling device shown in FIG. 1；

Fig. 3 is the front view of cooling device shown in FIG. 1；

Fig. 4 is the vertical view of cooling device shown in FIG. 1；

Fig. 5 is the sectional view at A-A shown in Fig. 4；

Fig. 6 is the explosive view of heat exchanger shown in Fig. 2 and inner cover plate；

Fig. 7 is the front view of heat exchanger shown in fig. 6 and inner cover plate；

Fig. 8 is the sectional view at B-B shown in Fig. 7；

Fig. 9 is that the cooling bend pipe of cooling device shown in FIG. 1 is the stereogram of Open architecture；

Figure 10 be cooling device shown in FIG. 1 upper end cover on be provided with nozzle from the stereogram in terms of a direction；

Figure 11 be cooling device shown in Fig. 10 upper end cover on be provided with nozzle from the stereogram in terms of other direction；

Wherein：

100- cooling devices；

110- bottom end covers；111- second passes in and out liquid pipe；

120- upper end covers；121- first passes in and out liquid pipe；122- showers；

130- babinets；

140- heat exchangers；141- first through hole；142- reservoirs；

150- inner cover plates；

160- cools down bend pipe

170- collecting pipes.

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, by the following examples, it and combines attached The cooling device and air-conditioning refrigerator all-in-one machine of the present invention is further elaborated in figure.It should be appreciated that described herein Specific examples are only used to explain the present invention, is not intended to limit the present invention.

Referring to Fig. 1 and Fig. 2 shown in, the cooling device 100 of one embodiment of the invention, including bottom end cover 110, upper end cover 120, Babinet 130, multiple heat exchangers 140, multiple inner cover plates 150 and multiple cooling bend pipes 160.Babinet 130 is mounted on upper end cover 120 Between bottom end cover 110, and babinet 130 surrounds the box like structure of sealing with upper end cover 120, bottom end cover 110.Wherein upper end cover It is provided with the first disengaging liquid pipe 121 on 120, the second disengaging liquid pipe 111 is provided on bottom end cover 110, under liquid to be cooled passes through Second disengaging liquid pipe 111 of end cap 110 enters in cooling device 100, it is cooling after liquid by upper end cover 120 first into Outlet tube 121 flows out cooling device 100.Heat exchanger 140 is honeycomb structure, and multiple heat exchangers 140 are stratified and set on babinet In 130.

As shown in figure 8, being wherein provided with the first through hole 141 and liquid storage for the liquid to be cooled that circulates on heat exchanger 140 Slot 142, first through hole 141 are arranged with the interval of reservoir 142, and the first cooling medium is stored in reservoir 142.First through hole 141 and the interval of reservoir 142 be situated so as to carry out heat exchange between liquid to be cooled and the first cooling medium, increase heat exchange Area improves heat exchanger effectiveness.It is provided with the second through-hole in inner cover plate 150, position of second through-hole in inner cover plate 150 should be with Position of the first through hole 141 on heat exchanger 140 is corresponding so that liquid to be cooled can pass through first through hole 141 and second Through-hole enters cooling in next step.Inner cover plate 150 is mounted on heat exchanger 140, and inner cover plate 150 seals reservoir 142, prevents from storing up The first cooling medium leakage in liquid bath 142.Certainly, the sealed end of inner cover plate 150 or multiple sealing reservoirs 142 Lid.Further, when reservoir 142 is straight slot, inner cover plate 150 is installed at the both ends that a heat exchanger 140 may be used respectively. Cooling bend pipe 160 is mounted between the adjacent heat exchanger 140 of any two, and medium is cooled down filled with second in cooling bend pipe 160, To ensure the heat exchanger effectiveness higher of cooling device 100.

In the present invention, multiple refers to two or more.In the present embodiment, the quantity of inner cover plate 150 and heat exchanger 140 Quantity is consistent, and is three.As shown in Figure 2 and Figure 5, cooling bend pipe 160 is mounted on the adjacent heat exchanger 140 of any two Between, i.e., cooling bend pipe 160 is alternately arranged with heat exchanger 140, that is, one layer of cooling bend pipe 160 of 140 1 layers of heat exchanger, cooling Filled with the second cooling medium in bend pipe 160.Heat exchanger 140 is used in combination with inner cover plate 150, can make the interior of heat exchanger 140 Portion realizes that the first through hole 141 for the liquid to be cooled that circulates and the reservoir 142 of the cooling medium of storage are intervally arranged, and increases heat exchange Area.First cooling medium is previously charged into reservoir 142, then covers inner cover plate 150 to ensure to seal.In cooling device 100 The number of heat exchanger 140 can change according to actual needs, i.e., the flow of liquid to be cooled is larger or the feelings such as temperature is higher Condition can suitably increase the quantity of heat exchanger 140.

As shown in Fig. 2 to Fig. 8, upper end cover 120, babinet 130, multiple heat exchangers 140, multiple inner cover plates 150, multiple coolings Bend pipe 160 and bottom end cover 110 assemble successively from the bottom to top, and the first disengaging liquid pipe 121 and second passes in and out liquid pipe 111 and is oppositely arranged At the both ends of cooling device 100.Liquid to be cooled is entered by the second disengaging liquid pipe 111 of bottom end cover 110 in heat exchanger 140 In first through hole 141, pass through heat exchanger with the first cooling medium being sealed in advance in the reservoir 142 of heat exchanger 140 140 carry out heat exchange, when flowing through cooling bend pipe 160, then cool down medium with second in cooling bend pipe 160 and carry out heat exchange, then Successively heat exchange is carried out with heat exchanger 140, cooling bend pipe 160.The heat exchanger 140 and cooling bend pipe 160 being arranged by multilayer After collective effect, to which the heat of liquid to be cooled is transferred in the first cooling medium and cooling bend pipe 160 of heat exchanger 140 Second cooling medium in, achieve the purpose that cool.Again by the first liquid in-out of upper end cover 120 after liquid cooling to be cooled Pipe 121 is discharged, and completes the cooling operations of cooling device 100 in this way, while the box like structure sealed can also improve cooling dress The mobility for setting 100 expands the application range of cooling device 100.

Existing dividing wall type cooling device is big in the presence of volume is occupied, and exists simultaneously not and has ambulant defect.The present invention Cooling device 100 multiple heat exchangers 140 and multiple cooling bend pipes 160 are separately mounted to by upper end cover 120, bottom end cover 110 And in the box like structure of the sealing of the formation of babinet 130 so that cooling device 100 of the invention can be moved independently, expanded and answered Use range.

As a kind of embodiment, the distance between two heat exchangers 140 of arbitrary neighborhood are the height of babinet 130 1/10~1/2.When 140 quantity of heat exchanger in babinet 130 is more, the distance between two heat exchangers 140 of arbitrary neighborhood Can reduce, but the diameter of cooling bend pipe 160 cannot be less than, that is to say, that when the distance is minimum the end face of heat exchanger 140 and The outer surface of cooling bend pipe 160 is in contact；When 140 quantity of heat exchanger in babinet 130 is more, two heat exchange of arbitrary neighborhood The distance between device 140 can increase, i.e., cooling bend pipe 160 can vacantly be arranged arbitrary neighborhood two heat exchangers 140 it Between.So while cooling, liquid to be cooled can fully be in contact with cooling bend pipe 160, improve heat exchange efficiency.

Further, ranging from 2mm~10mm of the diameter of the first through hole 141 on heat exchanger 140.Closer, After ensureing that inner cover plate 150 can seal up reservoir 142, the diameter of the second through-hole can be more than or equal to first through hole 141 Diameter, when flowing of liquid to be cooled are not in some retardation, are flowed out from heat exchanger 140 convenient for liquid to be cooled.Certainly, The diameter of second through-hole might be less that the diameter of first through hole 141, ensure the leakproofness of reservoir 142.

As a kind of embodiment, the area of section of reservoir 142 is more than or equal to the area of section of first through hole 141, So that the first cooling medium stored in reservoir 142 is more as far as possible, to reach preferably cooling effect.More further Ground, when the first through hole 141 on heat exchanger 140 is embarked on journey according to matrix arranges in column, any two adjacent two first is logical Distance between hole 141 on ranks is 40mm~150mm, in order to the setting of reservoir 142, enables inner cover plate 150 Seal reservoir 142；When the first through hole 141 on heat exchanger 140 is arbitrarily arranged, as long as ensureing any two first through hole Reservoir 142 can be arranged in area between 141.

As a kind of embodiment, liquid to be cooled is bottom-up to be flowed in cooling device 100, the second disengaging liquid pipe 111 be inlet tube, and the first disengaging liquid pipe 121 is outlet tube, and the first disengaging liquid pipe 121 is arranged with the second disengaging liquid pipe 111 cold But the opposite side of device 100, that is to say, that the second disengaging liquid pipe 111 and first passes in and out 121 diagonal setting cooling device 100 of liquid pipe On, it can ensure that liquid to be cooled circulates in cooling device 100 in this way and not form local dead zone, heat exchange efficiency higher.

As a kind of embodiment, the reservoir 142 of heat exchanger 140 with the can be stored in cooling bend pipe 160 simultaneously One cooling medium or the second cooling medium.Further, the first cooling medium and the second cooling medium are phase change material so that Cooling device 100 is independent removable, carries out independent cooling operations, can be widely applied to the cooling of the higher liquid of temperature.Pass through Phase change material can increase thermal energy storage capacity so that heat exchange efficiency improves.Storage of the first cooling medium-tight in heat exchanger 140 In liquid bath 142, after being pre-cooled by extraneous low-temperature receiver, then to flow through the liquid to be cooled of cooling device 100 into Row cooling.Further, the temperature of the first cooling medium and the temperature of the second cooling medium are below the temperature of liquid to be cooled Degree.

As a kind of embodiment, the first cooling medium is water, fuse salt, crystalline hydrate salt, paraffin, polyalcohol, fat The mixture of one or more of acids.First cooling medium-tight is stored in the reservoir 142 of heat exchanger 140. Further, the second cooling medium is the mixed of one or more of liquefied ammonia, liquid helium, silicone oil, water, ethyl alcohol, polyethylene glycol Close object.Second cooling medium-tight is stored in cooling bend pipe 160.

As a kind of embodiment, heat exchanger 140, upper end cover 120, bottom end cover 110, inner cover plate 150 and cooling bend pipe 160 are made of carbon steel, stainless steel, copper, aluminium, ormolu, corronil or aluminium alloy.Wherein heat exchanger 140, upper end cover 120, bottom end cover 110, inner cover plate 150 and cooling bend pipe 160 are preferably made of ormolu or corronil, can improve in this way Heat exchanger effectiveness.

Referring to Figure 10 and Figure 11, as a kind of embodiment, liquid to be cooled flows from up to down, the first disengaging liquid pipe 121 be inlet tube, and the second disengaging liquid pipe 111 is outlet tube；Shower 122, the feed liquor of shower 122 are additionally provided on upper end cover 120 End is connected to the first disengaging liquid pipe 121, and the outlet end of shower 122 is directed at heat exchanger 140.In the present embodiment, the first liquid in-out Pipe 121 is arranged at the center of 120 end face of upper end cover, and shower 122 is additionally provided on upper end cover 120, liquid to be cooled Circulation style is changed to from top to bottom, i.e., the first disengaging liquid pipe 121 on upper end cover 120 is inlet tube, and second on bottom end cover 110 Disengaging liquid pipe 111 is outlet tube.The effect of shower 122 so that liquid to be cooled contact heat-exchanging device in a manner of shower type 140, and heat exchange is carried out with the first cooling medium in heat exchanger 140, the second cooling medium in cooling bend pipe 160 respectively, Reach cooling effect.Further, the size of shower 122 can be changed in conjunction with actual needs.Certainly, the first disengaging liquid pipe 121 can also be arranged the opposite side in but device 100 with the second disengaging liquid pipe 111, pass through connecting tube connection the first disengaging liquid pipe 121 With the liquid feeding end of shower 122.

As shown in Fig. 1 and Fig. 9, as a kind of embodiment, multiple cooling bend pipes 160 form cooling tube after being sequentially connected Road, the both ends connection of cooling pipe, the i.e. structure of cooling pipe are enclosed construction.The second cooling in cooling bend pipe 160 is situated between Matter is cooled down as can cooling down medium with first in heat exchanger 140 by extraneous low-temperature receiver so that cooling device 100 is independent removable It is dynamic, independent cooling operations are carried out, the cooling of the higher liquid of temperature is can be widely applied to.Certainly, the structure of cooling pipe also may be used Think Open architecture, i.e., multiple cooling bend pipes 160 form cooling pipe after being sequentially connected, and the both ends of cooling pipe are separately connected External source.For cooling device 100 when carrying out cooling operations, the both ends of cooling pipe are separately connected external source, the second cooling Medium circulation flows, and improves heat exchange efficiency.The all external collecting pipe 170 in the both ends of cooling pipe, the size root of collecting pipe 170 Change according to the number and change in size of cooling bend pipe 160.Certainly, the cooling between the adjacent heat exchanger 140 of any two is curved Pipe 160 forms cooling pipe after being sequentially connected, cooling pipe at this time can be enclosed structure, can also be open Structure.When cooling pipe is open structure, multiple collecting pipes 170 can be drawn and connect with external source.

The invention further relates to a kind of air-conditioning refrigerator all-in-one machine, including refrigerator and cooling device 100, cooling device 100 is pacified Mounted in the inside of refrigerator, refrigerator is a part for evaporator of refrigerator, for the first cooling medium and the second cooling medium It is cooled down.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the scope of the claims of the present invention therefore be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (13)

1. a kind of cooling device, which is characterized in that including：

Upper end cover, bottom end cover and babinet, the babinet be mounted between the upper end cover and the bottom end cover, the babinet with The upper end cover, the bottom end cover surround the box like structure of sealing, wherein being provided with the first disengaging liquid pipe, institute on the upper end cover It states and is provided with the second disengaging liquid pipe on bottom end cover；

Multiple heat exchangers, the heat exchanger is honeycomb structure, and the multiple heat exchanger stratiform is arranged in the babinet, Described in first through hole and reservoir for the liquid to be cooled that circulates, the first through hole and the storage are provided on heat exchanger Liquid bath interval is arranged, and the first cooling medium is stored in the reservoir；

Multiple inner cover plates are provided with the second through-hole, the position phase of the first through hole and second through-hole in the inner cover plate Corresponding, the inner cover plate is mounted on the heat exchanger, and the inner cover plate seals the reservoir；And

Multiple cooling bend pipes, the cooling bend pipe is mounted between the adjacent heat exchanger of any two, and the cooling is curved Filled with the second cooling medium in pipe.

2. cooling device according to claim 1, which is characterized in that between two heat exchangers of arbitrary neighborhood away from From 1/10~1/2 of the height for the babinet.

3. cooling device according to claim 2, which is characterized in that first through hole on the heat exchanger it is a diameter of 2mm~10mm.

4. cooling device according to claim 3, which is characterized in that the area of section of the reservoir is more than or equal to described The area of section of first through hole.

5. cooling device according to any one of claims 1 to 4, which is characterized in that the liquid to be cooled is bottom-up Flowing, it is described second disengaging liquid pipe be inlet tube, it is described first disengaging liquid pipe be outlet tube, it is described first disengaging liquid pipe with it is described The opposite side in the cooling device is arranged in second disengaging liquid pipe.

6. cooling device according to any one of claims 1 to 4, which is characterized in that the liquid to be cooled is from up to down Flowing, the first disengaging liquid pipe is inlet tube, and the second disengaging liquid pipe is outlet tube.

7. cooling device according to claim 6, which is characterized in that be additionally provided with shower, the flower on the upper end cover The liquid feeding end spilt is connected to the first disengaging liquid pipe, and the outlet end of the shower is directed at the heat exchanger.

8. cooling device according to claim 1, which is characterized in that the first cooling medium is situated between with second cooling Matter is phase change material.

9. cooling device according to claim 8, which is characterized in that the first cooling medium is water, fuse salt, crystallization The mixture of one or more of hydrated salt, paraffin, polyalcohol, resin acid class,

The second cooling medium is the mixing of one or more of liquefied ammonia, liquid helium, silicone oil, water, ethyl alcohol, polyethylene glycol Object.

10. cooling device according to claim 1, which is characterized in that the heat exchanger, the upper end cover, the lower end Lid, the inner cover plate are with the cooling bend pipe by carbon steel, stainless steel, copper, aluminium, ormolu, corronil or aluminium alloy It is made.

11. cooling device according to claim 1, which is characterized in that the multiple cooling bend pipe is formed after being sequentially connected Cooling pipe, the both ends connection of the cooling pipe.

12. cooling device according to claim 1, which is characterized in that the multiple cooling bend pipe is formed after being sequentially connected The both ends of cooling pipe, the cooling pipe are separately connected external source.

13. a kind of air-conditioning refrigerator all-in-one machine, including refrigerator, which is characterized in that further include such as any one of claim 1 to 12 institute The cooling device stated, the cooling device are mounted on the inside of the refrigerator.