CN208779569U - Radiator and air-conditioning system - Google Patents

Abstract

This application provides a kind of radiator and air-conditioning systems.The radiator includes sensible heat radiating piece and latent heat radiating piece.It is formed with the sticking part for being bonded with first heating element on sensible heat radiating piece, sensible heat pipeline is provided in sensible heat radiating piece.Latent heat radiating piece is disposed adjacent with sensible heat radiating piece, and the irradiation unit for carrying out heat loss through radiation to second heatiing element is formed on latent heat radiating piece, is provided with latent heat pipeline in latent heat radiating piece.Sensible heat heat dissipation can be carried out to heater element simultaneously using the radiator of the utility model and latent heat radiates, radiating efficiency is higher.

Description

Radiator and air-conditioning system

Technical field

The utility model relates to technical field of refrigeration equipment, in particular to a kind of radiator and air-conditioning system.

Background technique

Multi-connected machine central air-conditioning uses more refrigerant heat sink conception at present, and refrigerant heat dissipation has high-efficient, volume The advantages such as small.Its scheme is to increase thermal component on the pipeline that outdoor heat exchanger goes out, and takes away member to be radiated using refrigerant sensible heat The heat of part.

Refrigerant radiator is usually " copper pipe+aluminium sheet " form, such as IPM module high-power electrical heating element and aluminium sheet It contacts, then heat is taken away in the copper pipe internal flow by refrigerant in insertion.Above-mentioned radiating mode is only suitable for utilizing refrigerant sensible heat To take away heat.If the principle using refrigerant latent heat radiates, although the hair of electric heat component can more efficiently be taken away Heat, but can be by the excessive of the temperature of electric heat component reduction, and then can be easy in high-power electrical heating element Upper generation condensation will lead to high-power electrical heating element and burn.

Utility model content

The utility model embodiment provides a kind of radiator and air-conditioning system, exists to solve radiator in the prior art Cannot using refrigerant latent heat radiate the technical issues of.

The application embodiment provides a kind of radiator, comprising: sensible heat radiating piece is formed on sensible heat radiating piece and is used for The sticking part being bonded with first heating element is provided with sensible heat pipeline in sensible heat radiating piece；Latent heat radiating piece, with sensible heat radiating piece It is disposed adjacent, the irradiation unit for carrying out heat loss through radiation to second heatiing element, latent heat radiating piece is formed on latent heat radiating piece It is inside provided with latent heat pipeline, the entrance of latent heat pipeline is provided with first throttle component.

In one embodiment, latent heat pipeline is bent coiling setting in latent heat radiating piece.

In one embodiment, latent heat pipeline S-shaped bending coiling setting in latent heat radiating piece.

In one embodiment, stabilizer blade heat transfer part is additionally provided on sensible heat radiating piece, stabilizer blade heat transfer part and latent heat radiate Part abuts against.

In one embodiment, irradiation unit is fin structure.

Present invention also provides a kind of air-conditioning system, including radiator, radiator is above-mentioned radiator.

In one embodiment, air-conditioning system includes: the first refrigerant pipeline, flows through latent heat radiating piece, and with latent heat pipe Road connection, first throttle element are arranged on the first refrigerant pipeline；Second refrigerant pipeline flows through sensible heat radiating piece, and and sensible heat Pipeline connection is provided with the second restricting element on the second refrigerant pipeline.

In cooling mode, first throttle element is in throttle, and the second restricting element is shown in a fully open operation.

In a heating mode, first throttle element is in close state, and the second restricting element is in throttle.

In one embodiment, air-conditioning system further include: compressor；Outdoor heat exchanger is logical with the output end of compressor The connection of third refrigerant pipeline is crossed, is connect with the first refrigerant pipeline and the second refrigerant pipeline by the 4th refrigerant pipeline；First conveying Pipeline is connect with the second refrigerant pipeline；Second transfer pipeline is connect with the input terminal of compressor, and the first refrigerant pipeline passes through the Five refrigerant pipelines are connect with the second transfer pipeline.

In one embodiment, air-conditioning system further include: compressor；Outdoor heat exchanger is logical with the output end of compressor The connection of third refrigerant pipeline is crossed, is connect with the first refrigerant pipeline and the second refrigerant pipeline by the 4th refrigerant pipeline；First conveying Pipeline is connect with the second refrigerant pipeline, and is connect by the 6th refrigerant pipeline with the first refrigerant pipeline；Second transfer pipeline, with The input terminal of compressor connects.

In one embodiment, air-conditioning system further include: subcooler, subcooler are arranged on the first transfer pipeline；

Super-cooling pipeline is separated from the first transfer pipeline, is flowed through subcooler and is connect with the second transfer pipeline.

In one embodiment, air-conditioning system further includes gas-liquid separator, and gas-liquid separator is arranged in the second delivery pipe On the road.

In one embodiment, air-conditioning system further includes temperature detector, and temperature detector is for detecting radiator Temperature, to control the aperture of first throttle element.

In the above-described embodiments, the refrigerant in sensible heat pipeline can be allowed to utilize sensible heat characteristic by sensible heat radiating piece, not Contact heat dissipation is carried out to first heating element by sticking part in the case where phase transformation.By first throttle component by latent heat pipe Refrigerant decompression in road, then the refrigerant in latent heat pipeline can be allowed to utilize latent heat property by latent heat radiating piece, in the feelings of phase transformation Contactless heat dissipation is carried out to second heatiing element by irradiation unit under condition, will not thus be generated in second heatiing element solidifying Dew, guarantees the electrical safety of second heatiing element.In this way, using the utility model radiator can simultaneously to heater element into The heat dissipation of row sensible heat and latent heat heat dissipation, radiating efficiency are higher.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide a further understanding of the present invention, the utility model Illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.In attached drawing In:

Fig. 1 is the overall structure diagram of the embodiment of radiator according to the present utility model；

Fig. 2 is the side structure schematic view of the radiator of Fig. 1；

Fig. 3 is the latent heat radiating piece schematic cross-sectional view of the radiator of Fig. 1；

Fig. 4 is the structural schematic diagram of the embodiment one of air-conditioning system according to the present utility model；

Fig. 5 is the structural schematic diagram of the embodiment two of air-conditioning system according to the present utility model.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below with reference to embodiment and attached Figure, is described in further details the utility model.Here, the exemplary embodiment and its explanation of the utility model are for solving The utility model is released, but is not intended to limit the scope of the present invention.

Figures 1 and 2 show that the embodiment of the radiator of the utility model, which includes sensible heat radiating piece 10 and dives Hot radiating piece 20.The sticking part 11 for being bonded with first heating element, sensible heat radiating piece 10 are formed on sensible heat radiating piece 10 Inside it is provided with sensible heat pipeline 12.Latent heat radiating piece 20 is disposed adjacent with sensible heat radiating piece 10, is formed on latent heat radiating piece 20 useful In the irradiation unit 21 for carrying out heat loss through radiation to second heatiing element, latent heat pipeline 22, latent heat pipe are provided in latent heat radiating piece 20 The entrance on road 22 is provided with first throttle component.

Using the technical solution of the utility model, the refrigerant in sensible heat pipeline 12 can be allowed to utilize by sensible heat radiating piece 10 Sensible heat characteristic carries out contact heat dissipation to first heating element by sticking part 11 in the case where not phase transformation.Pass through first segment It flows component to be depressured by the refrigerant in latent heat pipeline 22, then the refrigerant in latent heat pipeline 22 can be allowed sharp by latent heat radiating piece 20 With latent heat property, contactless heat dissipation is carried out to second heatiing element by irradiation unit 21 in the case where phase transformation, thus not Condensation can be generated in second heatiing element, guarantee the electrical safety of second heatiing element.In this way, dissipating using the utility model Hot device can carry out sensible heat heat dissipation to heater element simultaneously and latent heat radiates, and radiating efficiency is higher.

It should be noted that the radiator of the utility model is particularly suitable for the integral heat sink of electrical appliance kit.When in use, it allows Sensible heat radiating piece 10 carries out sensible heat heat dissipation to the heating module in electrical appliance kit, then allows latent heat radiating piece 20 to the interior environment of electrical appliance kit Carry out latent heat heat dissipation.In this way, the problem of temperature rise of electrical appliance kit can be solved in terms of two, reliability is improved.The radiator is especially suitable It is at low cost, save space, is high-efficient for sealing the heat dissipation of electrical appliance kit, there is explicit costs advantage for sealed electrical appliance kit.

It should be noted that if second heatiing element is not influenced by condensation water, can also allow second heatiing element with Latent heat radiating piece 20 contacts.

Preferably, as depicted in figs. 1 and 2, irradiation unit 21 is fin structure.Heat-transfer surface can be increased by fin structure Product, and then improve radiating efficiency.

More preferably, sensible heat radiating piece 10 and latent heat radiating piece 20 can preferentially choose Copper-Aluminum compound structure, such as copper aluminium The form of die casting, the press-fitting of copper aluminium.In the technical scheme of this embodiment, sensible heat radiating piece 10 and latent heat radiating piece 20 are preferentially chosen Aluminum material, sensible heat pipeline 12 and latent heat pipeline 22 preferentially select copper pipe.

As shown in figure 3, in the technical scheme of this embodiment, latent heat pipeline 22 is bent coiling in latent heat radiating piece 20 and sets It sets, to increase the heat exchange area of latent heat pipeline 22, improves heat exchange efficiency.Optionally, latent heat pipeline 22 is in latent heat radiating piece 20 S-shaped bending coiling setting.Preferably, latent heat pipeline 22 can be the inside for being embedded in latent heat radiating piece 20 or die casting in latent heat The inside of radiating piece 20.

As a preferred embodiment, latent heat pipeline 22 accounts for 20 gross area of latent heat radiating piece on latent heat radiating piece 20 70% or more.

In the technical scheme of this embodiment, the sensible heat pipeline 12 being arranged in sensible heat radiating piece 10 is straight tube.As other Optional embodiment, sensible heat pipeline 12 be U-tube be also feasible.

As shown in Fig. 2, as a preferred embodiment, be additionally provided with stabilizer blade heat transfer part 13 on sensible heat radiating piece 10, Stabilizer blade heat transfer part 13 is abutted against with latent heat radiating piece 20.It is lower since latent heat latent heat of phase change temperature occurring on latent heat radiating piece 20, The heat on sensible heat radiating piece 10 can be transmitted by stabilizer blade heat transfer part 13, reinforces the heat dissipation performance of sensible heat radiating piece 10.

As other optional embodiments, sensible heat radiating piece 10 and latent heat radiating piece 20 can also use relatively independent Structure.

The utility model additionally provides a kind of air-conditioning system, which includes above-mentioned radiator.Using above-mentioned Radiator can the electric heat elements to air-conditioning system fully radiated, guarantee the normal work of electric heat elements, Safeguard the stable operation of air-conditioning system.

The air-conditioning system includes the first refrigerant pipeline 81 and the second refrigerant pipeline 82, and the first refrigerant pipeline 81 flows through latent heat and dissipates Warmware 20, and be connected to latent heat pipeline 22, first throttle element is arranged on the first refrigerant pipeline 81.Second refrigerant pipeline 82 stream It is connected to through sensible heat radiating piece 10, and with sensible heat pipeline 12, is provided with the second restricting element on the second refrigerant pipeline 82.It is optional , in cooling mode, first throttle element is in throttle, and the second restricting element is shown in a fully open operation.Optionally, it is making Under heat pattern, first throttle element is in close state, and the second restricting element is in throttle.Due to the second refrigerant pipeline 82 It is not undergone phase transition with the refrigerant in sensible heat pipeline 12, therefore is in standard-sized sheet in cooling mode, in a heating mode in throttling. In this way, occur hot transmitting by refrigerant own temperature and sensible heat radiating piece 10, and the first heating element directly contacted on radiating It can be high-power IPM module etc..Because not being related to phase transformation, therefore condensation situation will not usually occur.Due to the first refrigerant pipeline 81 It is related to phase transformation with the refrigerant in latent heat pipeline 22, it is therefore desirable to which first throttle element is in throttle.Preferably, first throttle Element and the second restricting element are electric expansion valve.

As a preferred embodiment, air-conditioning system further includes temperature inspection in the technical solution of the utility model Device 90 is surveyed, temperature detector 90 is used to detect the temperature of radiator, to control the aperture of first throttle element, adjustment latent heat heat dissipation The cooling capacity of part 20.

Fig. 4 shows the embodiment one of the air-conditioning system of the utility model, in the technical solution of embodiment one, air-conditioning system System includes compressor 30, outdoor heat exchanger 40, the first transfer pipeline 71 and the second transfer pipeline 72.Outdoor heat exchanger 40 and pressure The output end of contracting machine 30 is connected by third refrigerant pipeline 83, passes through the 4th with the first refrigerant pipeline 81 and the second refrigerant pipeline 82 Refrigerant pipeline 84 connects.First transfer pipeline 71 is connect with the second refrigerant pipeline 82, the second transfer pipeline 72 and compressor 30 Input terminal connection, the first refrigerant pipeline 81 are connect by the 5th refrigerant pipeline 85 with the second transfer pipeline 72.

Optionally, in refrigeration, the first transfer pipeline 71 is refrigerant output pipe, and the second transfer pipeline 72 is refrigerant return Pipeline.In heating, the first transfer pipeline 71 is refrigerant return pipeline, and the second transfer pipeline 72 is refrigerant output pipe.

In the technical solution of embodiment one, radiator is between outdoor heat exchanger 40 and the first transfer pipeline 71, can To make full use of the high pressure low temperature refrigerant come out from outdoor heat exchanger 40, there is optimal heat dissipation effect.Application Example one Technical solution, high pressure low temperature refrigerant a part in third refrigerant pipeline 83 flow into the first refrigerant pipeline 81 and undergo phase transition, finally The second transfer pipeline 72 is flowed by five refrigerant pipelines 85, returns to compressor 30；High pressure low temperature in third refrigerant pipeline 83 is cold Another part of matchmaker flows into the second refrigerant pipeline 82, does not undergo phase transition, then is continued to output by the first transfer pipeline 71 to downstream Heat exchanger carry out using.

Fig. 5 shows the embodiment two of the air-conditioning system of the utility model, in the technical solution of embodiment two, air-conditioning system System further includes compressor 30, outdoor heat exchanger 40, the first transfer pipeline 71 and the second transfer pipeline 72.Outdoor heat exchanger 40 and pressure The output end of contracting machine 30 is connected by third refrigerant pipeline 83, passes through the 4th with the first refrigerant pipeline 81 and the second refrigerant pipeline 82 Refrigerant pipeline 84 connects.First transfer pipeline 71 is connect with the second refrigerant pipeline 82, and passes through the 6th refrigerant pipeline 86 and first Refrigerant pipeline 81 connects, and the second transfer pipeline 72 is connect with the input terminal of compressor 30.

In the technical solution of embodiment two, radiator is between outdoor heat exchanger 40 and the first transfer pipeline 71, can To make full use of the high pressure low temperature refrigerant come out from outdoor heat exchanger 40, there is optimal heat dissipation effect.Application Example one Technical solution, high pressure low temperature refrigerant a part in third refrigerant pipeline 83 flows into the first refrigerant pipeline 81 and undergoes phase transition, another Part flows into the second refrigerant pipeline 82 and does not undergo phase transition, and finally converges to the first transfer pipeline 71 and continues to output heat exchange to downstream Device carry out using.

Preferably, in the technical solution of embodiment two, air-conditioning system further includes subcooler 50 and super-cooling pipeline, subcooler 50 are arranged on the first transfer pipeline 71, and super-cooling pipeline is separated from the first transfer pipeline 71, flow through subcooler 50 and second defeated Pipeline 72 is sent to connect.The use for cooperating subcooler 50 by super-cooling pipeline, can provide the degree of supercooling in the first transfer pipeline 71.

In the technical solution of the above embodiments one and embodiment two, air-conditioning system all includes gas-liquid separator 60, gas Liquid/gas separator 60 is arranged on the second transfer pipeline 72.Gas-liquid separator 60 can make gaseous coolant and liquid refrigerants in refrigerant Separation reduces the impact for compressor.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, the utility model embodiment can have various modifications and variations.All spirit in the utility model Within principle, any modification, equivalent replacement, improvement and so on be should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of radiator characterized by comprising

Sensible heat radiating piece (10) is formed with the sticking part for being bonded with first heating element on the sensible heat radiating piece (10) (11), sensible heat pipeline (12) are provided in the sensible heat radiating piece (10)；

Latent heat radiating piece (20) is disposed adjacent with the sensible heat radiating piece (10), is formed on the latent heat radiating piece (20) useful In the irradiation unit (21) for carrying out heat loss through radiation to second heatiing element, the latent heat radiating piece (20) is interior to be provided with latent heat pipeline (22), the entrance of the latent heat pipeline (22) is provided with first throttle component.

2. radiator according to claim 1, which is characterized in that the latent heat pipeline (22) is in the latent heat radiating piece (20) bending coiling setting in.

3. radiator according to claim 2, which is characterized in that the latent heat pipeline (22) is in the latent heat radiating piece (20) S-shaped bending coiling setting in.

4. radiator according to claim 1, which is characterized in that be additionally provided with stabilizer blade biography on the sensible heat radiating piece (10) Hot portion (13), the stabilizer blade heat transfer part (13) abut against with the latent heat radiating piece (20).

5. radiator according to claim 1, which is characterized in that the irradiation unit (21) is fin structure.

6. a kind of air-conditioning system, including radiator, which is characterized in that the radiator is described in any one of claims 1 to 5 Radiator.

7. air-conditioning system according to claim 6, which is characterized in that the air-conditioning system includes:

First refrigerant pipeline (81) flows through the latent heat radiating piece (20), and is connected to the latent heat pipeline (22), described first Restricting element is arranged on first refrigerant pipeline (81)；

Second refrigerant pipeline (82) flows through the sensible heat radiating piece (10), and is connected to the sensible heat pipeline (12), described Two refrigerant pipelines are provided with the second restricting element on (82).

8. air-conditioning system according to claim 7, which is characterized in that in cooling mode, at the first throttle element In throttle, second restricting element is shown in a fully open operation.

9. air-conditioning system according to claim 7, which is characterized in that in a heating mode, at the first throttle element In closed state, second restricting element is in throttle.

10. air-conditioning system according to claim 7, which is characterized in that the air-conditioning system further include:

Compressor (30)；

Outdoor heat exchanger (40) is connect with the output end of the compressor (30) by third refrigerant pipeline (83), with described the One refrigerant pipeline (81) and second refrigerant pipeline (82) are connected by the 4th refrigerant pipeline (84)；

First transfer pipeline (71) is connect with second refrigerant pipeline (82)；

Second transfer pipeline (72) is connect with the input terminal of the compressor (30), and first refrigerant pipeline (81) passes through the Five refrigerant pipelines (85) are connect with second transfer pipeline (72).

11. air-conditioning system according to claim 7, which is characterized in that the air-conditioning system further include:

Compressor (30)；

Outdoor heat exchanger (40) is connect with the output end of the compressor (30) by third refrigerant pipeline (83), with described the One refrigerant pipeline (81) and second refrigerant pipeline (82) are connected by the 4th refrigerant pipeline (84)；

First transfer pipeline (71) is connect with second refrigerant pipeline (82), and by the 6th refrigerant pipeline (86) with it is described First refrigerant pipeline (81) connection；

Second transfer pipeline (72) is connect with the input terminal of the compressor (30).

12. air-conditioning system according to claim 11, which is characterized in that the air-conditioning system further include: subcooler (50), The subcooler (50) is arranged on first transfer pipeline (71)；

Super-cooling pipeline separates from first transfer pipeline (71), flows through the subcooler (50) and second delivery pipe Road (72) connection.

13. air-conditioning system according to any one of claims 10 to 12, which is characterized in that the air-conditioning system further includes Gas-liquid separator (60), the gas-liquid separator (60) are arranged on second transfer pipeline (72).

14. air-conditioning system according to claim 7, which is characterized in that the air-conditioning system further includes temperature detector (90), the temperature detector (90) is used to detect the temperature of the radiator, to control the aperture of the first throttle element.