CN207763128U - Radiator and air-conditioning - Google Patents

Abstract

It includes heat-radiating substrate, heat exchanger tube that the utility model, which provides a kind of radiator and air-conditioning, the radiator,.Heat exchanger tube is arranged on heat-radiating substrate, heat exchanger tube includes active section, active section includes the first pipeline section and the second pipeline section being connected, heat exchange amount in same time between the first pipeline section of unit length and heat-radiating substrate is less than the heat exchange amount between the second pipeline section of unit length and heat-radiating substrate, so that the temperature on heat-radiating substrate at corresponding first pipeline section is higher than the temperature on heat-radiating substrate at corresponding second pipeline section.Radiator provided by the utility model, heat-radiating substrate has different temperature at different locations, to radiate to the electric elements with different radiating requirements, so that the temperature of heat-radiating substrate matches with the radiating requirements of corresponding electric elements, the radiating requirements mismatch of the temperature and electric elements that avoid heat-radiating substrate causes the too low generation condensed water of heat-radiating substrate temperatures at localized regions.

Description

Radiator and air-conditioning

Technical field

The utility model is related to art of refrigeration units, more specifically, are related to a kind of radiator and including the radiator Air-conditioning.

Background technology

Electric elements utilize radiator heat-dissipation in air-conditioning system, heat-radiating substrate by with the heat eliminating medium that is flowed in heat exchanger tube (heat eliminating medium of the flow or independent loops in refrigerant or water system in refrigeration system) exchanges heat and radiates.

Heat exchanger tube is molded by pipeline in the prior art or the form of other parts firm contact or casting package combines two A part, to make can effectively to contact simultaneously heat transfer between two parts.For above several combinations, such as Fig. 1 and Fig. 2 Shown, heat exchanger tube 1 ' is made of the interconnection of one or more straight section, in the range of every straight section and heat-radiating substrate 2 ' contact, Every straight section is continuously contacted with heat-radiating substrate.

Therefore radiator is substantially the heat transfer piece of homogeneous in entirely heat dissipation contact-segment, but for part use condition Under, different positions is equipped with different electric elements on radiator, and the calorific value of these electric elements is different.Existing side The problem is that radiator must be designed by the radiating requirements of maximum heating electric appliance element, this has been resulted in for part case The radiating condition of electric elements is fine, and the temperature of radiator may be too low, and temperature is too low under certain specific working conditions Radiator regional area will produce condensed water, the condensed water of generation is imported to be caused in automatically controlled inside or be attached on electric elements Automatically controlled electric elements damage or disabler.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.

For this purpose, the one side of the utility model is designed to provide a kind of radiator.

The other side of the utility model is designed to provide a kind of air-conditioning including above-mentioned radiator.

To achieve the above object, the embodiment of the one side of the utility model provides a kind of radiator, including：Heat dissipation Substrate；Heat exchanger tube is arranged on the heat-radiating substrate, and the heat exchanger tube includes active section, and the active section includes being connected First pipeline section and the second pipeline section, the heat exchange amount in same time described in unit length between the first pipeline section and the heat-radiating substrate are small Heat exchange amount between the second pipeline section and the heat-radiating substrate described in unit length, so as to correspond to described on the heat-radiating substrate Temperature at one pipeline section is higher than the temperature corresponded on the heat-radiating substrate at second pipeline section.

The radiator that the utility model above-described embodiment provides, heat exchange Bottomhole pressure have refrigerant, water or other heat eliminating mediums, Heat-radiating substrate realizes radiating and cooling of the heat-radiating substrate to electric elements by carrying out heat exchange with heat exchanger tube.It is single in same time Heat exchange amount between the first pipeline section of bit length and heat-radiating substrate is less than the heat exchange between the second pipeline section of unit length and heat-radiating substrate Amount so that the temperature on heat-radiating substrate at corresponding first pipeline section is realized higher than the temperature on heat-radiating substrate at corresponding second pipeline section Heat-radiating substrate has different temperature at different locations, to radiate to the electric elements with different radiating requirements, So that the temperature of heat-radiating substrate matches with the radiating requirements of corresponding electric elements, the temperature and electric appliance member of heat-radiating substrate are avoided The radiating requirements mismatch of part causes the too low generation condensed water of heat-radiating substrate temperatures at localized regions.

In addition, the radiator that the utility model above-described embodiment provides also has following additional technical feature：

In above-mentioned technical proposal, it is preferable that the contact area of first pipeline section and the heat-radiating substrate is less than described the The contact area of two pipeline sections and the heat-radiating substrate.

It is different from the contact area of heat-radiating substrate by the way that the first pipeline section and the second pipeline section is arranged so that first in same time The heat exchange amount between heat exchange amount and the second pipeline section and heat-radiating substrate between pipeline section and heat-radiating substrate is different.

First pipeline section and the second pipeline section are linearly, and the axis of the first pipeline section and the second pipeline section overlap, the first pipeline section and The cross-sectional area of second pipeline section is identical.Further, the active section of heat exchanger tube is straight tube.

In above-mentioned technical proposal, it is preferable that there is gap, i.e., the first pipe between first pipeline section and the heat-radiating substrate Section is not contacted with heat-radiating substrate, to reduce the heat exchange amount between the first pipeline section and heat-radiating substrate.

In above-mentioned technical proposal, it is preferable that the heat-radiating substrate is equipped with groove, and second pipeline section is placed in the groove It is interior, and be in contact with the cell wall of the groove.

Heat-radiating substrate is equipped with groove of the opening towards the second pipeline section, and the second pipeline section is fastened in groove, and the second pipeline section It is in contact with the cell wall of groove, it is preferable that the second pipeline section is contacted with the groove bottom wall of groove.

In above-mentioned technical proposal, it is preferable that the surface that first pipeline section is corresponded on the heat-radiating substrate is equipped with notch, First pipeline section corresponds to the notch setting, and there are the gaps between the notch.

By the way that notch is arranged at corresponding first pipeline section on heat-radiating substrate, there are gaps between the first pipeline section and notch, real It is existing that there are gaps between first pipeline section and heat-radiating substrate.In a specific embodiment, by Pocket Machining in the related technology Removal, processes notch on heat-radiating substrate.

In above-mentioned technical proposal, it is preferable that thermal insulation barriers are equipped between first pipeline section and the heat-radiating substrate, to subtract Heat exchange amount between small first pipeline section and heat-radiating substrate.

In above-mentioned technical proposal, it is preferable that the thermal insulation barriers include the heat-shrink tube being set on first pipeline section；Or Person, the thermal insulation barriers include thermal isolation film, and thermal isolation film can be set in the outside of the first pipeline section.

In above-mentioned technical proposal, it is preferable that the radiator includes multiple heat exchanger tubes, and the radiator further includes Connecting tube, one end of the connecting tube are connected with one end of a heat exchanger tube, the other end of the connecting tube and another institute The one end for stating heat exchanger tube is connected.

Multiple heat exchanger tube interval settings, further multiple heat exchanger tubes are mutually parallel.Pass through between two neighboring heat exchanger tube Connecting tube is connected, and connecting tube is arc-shaped, and it is linear in heat exchanger tube that setting connecting tube realizes refrigerant or water or heat eliminating medium Flowing.

The embodiment of the utility model the second aspect provides a kind of air-conditioning, including：Electric elements；Any of the above-described embodiment The radiator is connected with the electric elements, for radiating to the electric elements.

The air-conditioning that the embodiment of the utility model the second aspect provides, described in the embodiment including the first aspect Radiator, thus whole advantageous effects of the radiator described in the embodiment with the first aspect, details are not described herein.

In above-mentioned technical proposal, it is preferable that the air-conditioning includes multiple electric elements, in multiple electric elements First pipeline section of one electric elements and the radiator is correspondingly arranged, another described electric elements and the radiator The second pipeline section be correspondingly arranged, wherein the calorific value of one electric elements is less than another described described electric appliance member The calorific value of part.

The additional aspect and advantage of the utility model will become apparent in following description section, or new by this practicality The practice of type is recognized.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination following accompanying drawings to embodiment Become apparent and is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram at first visual angle of radiator in the related technology；

Fig. 2 is the structural schematic diagram at second visual angle of radiator in the related technology.

Wherein, the correspondence in Fig. 1 and Fig. 2 between reference numeral and component names is：

1 ' heat exchanger tube, 2 ' heat-radiating substrates, 21 ' grooves.

Fig. 3 is the structural schematic diagram at first visual angle of radiator described in the embodiments of the present invention one；

Fig. 4 is the structural schematic diagram at second visual angle of radiator described in the embodiments of the present invention one；

Fig. 5 is the structural schematic diagram at the radiator third visual angle described in the embodiments of the present invention one；

Fig. 6 is the structural schematic diagram at the 4th visual angle of radiator described in the embodiments of the present invention one；

Fig. 7 is the structural schematic diagram at first visual angle of radiator described in the embodiments of the present invention two；

Fig. 8 is the structural schematic diagram at second visual angle of radiator described in the embodiments of the present invention two；

Fig. 9 is the structural schematic diagram at the radiator third visual angle described in the embodiments of the present invention two；

Figure 10 is the structural schematic diagram at the 4th visual angle of radiator described in the embodiments of the present invention two.

Wherein, the correspondence in Fig. 3 to Figure 10 between reference numeral and component names is：

100 radiators, 1 heat exchanger tube, 11 active sections, 111 first pipeline sections, 112 second pipeline sections, 2 connecting tubes, 3 heat-radiating substrates, 31 grooves, 32 notches, 4 thermal insulation barriers.

Specific implementation mode

In order to be more clearly understood that the above objects, features, and advantages of the utility model, below in conjunction with the accompanying drawings and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are elaborated in the following description in order to fully understand the utility model, still, this practicality It is novel to be implemented different from mode described here using other, therefore, the scope of protection of the utility model not by The limitation of following public specific embodiment.

Radiator and air-conditioning according to some embodiments of the utility model is described with reference to the accompanying drawings.

As shown in Figure 3 and Figure 7, according to a kind of radiator 100 of the utility model some embodiments offer, including heat dissipation base Plate 3, heat exchanger tube 1.Heat exchanger tube 1 is arranged on heat-radiating substrate 3, and heat exchanger tube 1 includes active section 11, and active section 11 includes being connected First pipeline section 111 and the second pipeline section 112, the heat exchange amount in same time between the first pipeline section of unit length 111 and heat-radiating substrate 3 Less than the heat exchange amount between the second pipeline section of unit length 112 and heat-radiating substrate 3, so that corresponding first pipeline section 111 on heat-radiating substrate 3 The temperature at place is higher than the temperature on heat-radiating substrate 3 at corresponding second pipeline section 112.

The radiator 100 that the utility model above-described embodiment provides, the interior flowing of heat exchanger tube 1 have refrigerant, water or other heat dissipations Medium, heat-radiating substrate 3 realize radiating and cooling of the heat-radiating substrate 3 to electric elements by carrying out heat exchange with heat exchanger tube 1.It is identical Heat exchange amount in time between the first pipeline section of unit length 111 and heat-radiating substrate 3 is less than the second pipeline section of unit length 112 and heat dissipation Heat exchange amount between substrate 3 so that temperature on heat-radiating substrate 3 at corresponding first pipeline section 111 is corresponding the higher than on heat-radiating substrate 3 Temperature at two pipeline sections 112 realizes that heat-radiating substrate 3 has different temperature at different locations, to different heat dissipations The electric elements of demand radiate so that the temperature of heat-radiating substrate 3 matches with the radiating requirements of corresponding electric elements, keeps away The radiating requirements mismatch of the temperature and electric elements of exempting from heat-radiating substrate 3 causes the too low generation of 3 temperatures at localized regions of heat-radiating substrate Condensed water.

Heat-transfer pipe includes active section and extended segment, and the outside that heat exchange base material is located at heat exchange base material is stretched out in extended segment.

Embodiment one：

A kind of radiator 100, including heat-radiating substrate 3, heat exchanger tube 1.Heat exchanger tube 1 is arranged on heat-radiating substrate 3, heat exchanger tube 1 Including active section 11, active section 11 includes the first pipeline section 111 and the second pipeline section 112 that are connected, unit length in same time Heat exchange amount between first pipeline section 111 and heat-radiating substrate 3 is less than changing between the second pipeline section of unit length 112 and heat-radiating substrate 3 Heat, so that the temperature on heat-radiating substrate 3 at corresponding first pipeline section 111 is corresponded to higher than on heat-radiating substrate 3 at the second pipeline section 112 Temperature.

Preferably, as shown in Figures 3 to 6, the contact area of the first pipeline section 111 and heat-radiating substrate 3 is less than the second pipeline section 112 With the contact area of heat-radiating substrate 3.

It is different from the contact area of heat-radiating substrate 3 by the way that the first pipeline section 111 and the second pipeline section 112 is arranged so that when identical Heat exchange amount between the first pipeline section of interior unit length 111 and heat-radiating substrate 3 and the second pipeline section of unit length 112 and heat-radiating substrate Heat exchange amount between 3 is different.

First pipeline section 111 and the second pipeline section 112 are linearly, and the axis weight of the first pipeline section 111 and the second pipeline section 112 It closes, the first pipeline section 111 is identical with the cross-sectional area of the second pipeline section 112.Further, the active section of heat exchanger tube 1 is straight tube.

Preferably, between the first pipeline section 111 and heat-radiating substrate 3 have gap, i.e. the first pipeline section 111 partly or entirely with dissipate Hot substrate 3 does not contact, to reduce the heat exchange amount between the first pipeline section 111 and heat-radiating substrate 3.

Preferably, heat-radiating substrate 3 is equipped with groove 31, and the second pipeline section 112 is placed in groove 31, and with the cell wall of groove 31 It is in contact.

Heat-radiating substrate 3 is equipped with groove 31 of the opening towards the second pipeline section 112, and the second pipeline section 112 is fastened in groove 31, And second pipeline section 112 be in contact with the cell wall of groove 31, it is preferable that the second pipeline section 112 is contacted with the groove bottom wall of groove 31.

Preferably, it is equipped with notch 32 close to the surface of the first pipeline section 111 on heat-radiating substrate 3, the first pipeline section 111, which corresponds to, to be lacked Mouth 32 is arranged, and there are gaps between notch 32 so that the first pipeline section does not contact with heat-radiating substrate or reduce contact area.

By the way that notch 32 is arranged at corresponding first pipeline section 111 on heat-radiating substrate 3, between the first pipeline section 111 and notch 32 There are gap, realize that there are gaps between the first pipeline section 111 and heat-radiating substrate 3.In a specific embodiment, by related skill The processing removal (as shown in Figure 2) of local groove 21 ', processes notch 32 on heat-radiating substrate 3 in art.

The first pipeline section of many places can be set on heat exchanger tube, it is corresponding that many places notch is set on heat-radiating substrate, and lack Mouth is corresponded with the first pipeline section, and the position of notch and the first pipeline section is arranged according to the location arrangements of back side electric elements not The place for needing the heat dissipation capacity for radiating or needing smaller.It is of course also possible to which the first pipeline section at one is arranged on heat exchanger tube, radiate base Notch corresponding with the first pipeline section at one is set on plate, and the position of notch and the first pipeline section is according to the positions of back side electric elements Arrangement, is arranged the place smaller in the heat dissipation capacity that need not be radiated or need.

Preferably, radiator 100 includes multiple heat exchanger tubes 1, and radiator 100 further includes connecting tube 2, and the one of connecting tube 2 End is connected with one end of a heat exchanger tube, and the other end of connecting tube 2 is connected with one end of another heat exchanger tube.

The setting of the interval of multiple heat exchanger tubes 1, heat exchanger tube take the shape of the letter U.It is connected by connecting tube 2 between two neighboring heat exchanger tube 1, Connecting tube 2 is arc-shaped, and setting connecting tube 2 realizes the linear flow of refrigerant or water or heat eliminating medium in heat exchanger tube 1.

Embodiment two：

A kind of radiator 100, including heat-radiating substrate 3, heat exchanger tube 1.Heat exchanger tube 1 is arranged on heat-radiating substrate 3, heat exchanger tube 1 Including active section 11, active section 11 includes the first pipeline section 111 and the second pipeline section 112 that are connected, unit length in same time Heat exchange amount between first pipeline section 111 and heat-radiating substrate 3 is less than changing between the second pipeline section of unit length 112 and heat-radiating substrate 3 Heat, so that the temperature on heat-radiating substrate 3 at corresponding first pipeline section 111 is corresponded to higher than on heat-radiating substrate 3 at the second pipeline section 112 Temperature.

As shown in Figure 7 to 10, thermal insulation barriers 4 are equipped between the first pipeline section 111 and heat-radiating substrate 3, to reduce the first pipe Heat exchange amount between section 111 and heat-radiating substrate 3.Between the first pipeline section and the contact surface of heat-radiating substrate setting thermal insulation barriers or every From material so that the heat-transfer effect between the first pipeline section and heat-radiating substrate is deteriorated.

The first pipeline section of many places can be set on heat exchanger tube, and the corresponding setting between heat-radiating substrate and the first pipeline section is more A thermal insulation barriers, and thermal insulation barriers and the first pipeline section correspond, the position of thermal insulation barriers and the first pipeline section is according to back side electric elements part Location arrangements, the place smaller in the heat dissipation capacity that need not be radiated or need is set.It is of course also possible to be arranged on heat exchanger tube The position of thermal insulation barriers corresponding with the first pipeline section, thermal insulation barriers and the first pipeline section is arranged at one on heat-radiating substrate for first pipeline section at one The location arrangements according to back side electric elements are set, the place smaller in the heat dissipation capacity that need not be radiated or need is set.

Preferably, thermal insulation barriers 4 include the heat-shrink tube being set on the first pipeline section 111, and shrinkable sleeve is located at the first pipeline section Outside；Alternatively, thermal insulation barriers 4 include thermal isolation film (thermal insulation film), thermal isolation film can be set in the outside of the first pipeline section 111.

Preferably, heat-radiating substrate 3 is equipped with groove 31, and the second pipeline section 112 is placed in groove 31, and with the cell wall of groove 31 It is in contact.

Heat-radiating substrate 3 is equipped with groove 31 of the opening towards the second pipeline section 112, and the second pipeline section 112 is fastened in groove 31, And second pipeline section 112 be in contact with the cell wall of groove 31, it is preferable that the second pipeline section 112 is contacted with the groove bottom wall of groove 31.

Preferably, radiator 100 includes multiple heat exchanger tubes 1, and radiator 100 further includes connecting tube 2, and the one of connecting tube 2 End is connected with one end of a heat exchanger tube, and the other end of connecting tube 2 is connected with one end of another heat exchanger tube.

The setting of the interval of multiple heat exchanger tubes 1, heat exchanger tube take the shape of the letter U.It is connected by connecting tube 2 between two neighboring heat exchanger tube 1, Connecting tube 2 is arc-shaped, and setting connecting tube 2 realizes the linear flow of refrigerant or water or heat eliminating medium in heat exchanger tube 1.

The embodiment of the utility model the second aspect provides a kind of air-conditioning, including electric elements, any of the above-described embodiment Radiator 100, radiator is connected with electric elements, for electric elements radiate.

The air-conditioning that the embodiment of the utility model the second aspect provides, because of the heat dissipation of the embodiment including the first aspect Device 100, thus whole advantageous effects of the radiator 100 of the embodiment with the first aspect, details are not described herein.

Preferably, air-conditioning includes multiple electric elements, an electric elements in multiple electric elements and radiator 100 First pipeline section 111 is correspondingly arranged, and is radiated to one electric elements by the heat-radiating substrate at the first pipeline section, another electric appliance Second pipeline section 112 of element and radiator 100 is correspondingly arranged, by the heat-radiating substrate at the second pipeline section to another described electric appliance Element radiates, wherein the calorific value of an electric elements is less than the calorific value of another electric elements.

Electric elements are located at the back side of heat-radiating substrate, electric elements be connected using fasteners such as screws with radiator or It is mutually clamped or is connected through a screw thread, and electric elements are connected with pcb board.

Preferably, heat exchanger tube is copper material, and heat-radiating substrate is aluminium material.

In conclusion the radiator 100 that the utility model embodiment provides, effectively avoids entire heat-radiating substrate and heat exchanger tube Contact, to avoid the place smaller in the heat dissipation capacity in the place or needs that need not radiate, since heat transfer causes heat-radiating substrate Temperature is too low, and the risk of condensed water is generated to increase heat-radiating substrate at this.

In the description of the present invention, unless otherwise clearly defined and limited, term " multiple " refers to two or two More than a；Unless otherwise prescribed or illustrate, term " connection ", " fixation " etc. shall be understood in a broad sense, for example, " connection " can be It is fixedly connected, may be a detachable connection, or be integrally connected, or electrical connection；It can be directly connected, it can also be in Between medium be indirectly connected.For the ordinary skill in the art, above-mentioned term can be understood at this as the case may be Concrete meaning in utility model.

In the description of this specification, it is to be understood that the instructions such as term "upper", "lower", "front", "rear", "left", "right" Orientation or positional relationship be to be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and letter Change description, do not indicate or imply the indicated device or unit and must have specific direction, with specific azimuth configuration and Operation, it is thus impossible to be construed as a limitation of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiments or example In can be combined in any suitable manner.

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, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

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

Heat-radiating substrate；With

Heat exchanger tube is arranged on the heat-radiating substrate, and the heat exchanger tube includes active section, and the active section includes the to be connected One pipeline section and the second pipeline section, the heat exchange amount in same time described in unit length between the first pipeline section and the heat-radiating substrate are less than Heat exchange amount between second pipeline section and the heat-radiating substrate described in unit length, so as to correspond to described first on the heat-radiating substrate Temperature at pipeline section is higher than the temperature corresponded on the heat-radiating substrate at second pipeline section.

2. radiator according to claim 1, which is characterized in that

First pipeline section is less than the contact of second pipeline section and the heat-radiating substrate with the contact area of the heat-radiating substrate Area.

3. radiator according to claim 1, which is characterized in that

There is gap between first pipeline section and the heat-radiating substrate.

4. radiator according to claim 3, which is characterized in that

The surface that first pipeline section is corresponded on the heat-radiating substrate is equipped with notch, and first pipeline section corresponds to the notch and sets It sets, and there are the gaps between the notch.

5. radiator according to claim 1, which is characterized in that

The heat-radiating substrate is equipped with groove, and second pipeline section is placed in the groove, and is connected with the cell wall of the groove It touches.

6. radiator according to any one of claim 1 to 5, which is characterized in that

Thermal insulation barriers are equipped between first pipeline section and the heat-radiating substrate.

7. radiator according to claim 6, which is characterized in that

The thermal insulation barriers include the heat-shrink tube being set on first pipeline section；Alternatively, the thermal insulation barriers include thermal isolation film.

8. radiator according to any one of claim 1 to 5, which is characterized in that

The radiator includes multiple heat exchanger tubes, and the radiator further includes connecting tube, one end of the connecting tube with One end of one heat exchanger tube is connected, and the other end of the connecting tube is connected with one end of another heat exchanger tube.

9. a kind of air-conditioning, which is characterized in that including：

Electric elements；

Such as radiator described in any item of the claim 1 to 8, it is connected with the electric elements, for electric appliance member Part radiates.

10. air-conditioning according to claim 9, which is characterized in that

The air-conditioning includes multiple electric elements, the electric elements and the heat dissipation in multiple electric elements First pipeline section of device is correspondingly arranged, and second pipeline section of another described electric elements and the radiator is correspondingly arranged, wherein institute The calorific value for stating the electric elements is less than the calorific value of another electric elements.