CN218257706U - Thermal management device - Google Patents

Abstract

The utility model provides a heat management device, heat management device includes: the air conditioner comprises a shell, a fan and a fan, wherein the shell is provided with an accommodating cavity and a side plate, the side plate is provided with a vent, the vent is communicated with the accommodating cavity, and the size of the shell in the vertical direction is set between 240mm and 260 mm; the heat exchange assembly is arranged in the accommodating cavity and comprises a condenser and a compressor which are connected with each other, and the condenser is arranged close to the side plate; the radiating assembly is arranged outside the shell and comprises a fan, the fan is fixed on the side plate, the rotation axis of the fan is perpendicular to the side plate, the projection of the fan on the side plate is located in the range surrounded by the edge of the side plate, and the radiating assembly can conduct radiating treatment on the heat exchange assembly. Through the technical scheme provided by the application, the problem that the height of the heat management device in the prior art is high can be solved.

Description

Thermal management device

Technical Field

The utility model relates to a heat management technical field particularly, relates to a heat management device.

Background

The battery thermal management system of the new energy automobile comprises a thermal management device, an expansion water tank and a battery pack. The existing heat management device is composed of elements such as a fan, a condenser and a compressor, is particularly suitable for heat management of a new energy automobile power battery, can adjust the temperature of the battery, enables the battery to work within a certain temperature range, prevents the battery from being out of control due to high temperature and damaged due to low temperature, and can prolong the service life of the battery.

In the prior art, the height of the thermal management device is approximately 287mm, and the height of the battery pack is set between 240mm and 260mm, so that in order to meet the installation requirement of the thermal management device in height, a higher position is reserved in an automobile for installing the thermal management device, and the thermal management device occupies a larger space; with the increase of the endurance mileage, the required battery capacity of a large-tonnage vehicle is increased, the volume of the corresponding battery is increased, the number of the battery packs is increased, and the battery packs are not installed at enough positions in the limited space of the vehicle, so that the heat management device in the prior art cannot meet the development requirement of a new energy vehicle.

SUMMERY OF THE UTILITY MODEL

The utility model provides a heat management device to solve the high higher problem of heat management device among the prior art.

The utility model provides a heat management device, heat management device includes: the air conditioner comprises a shell, a fan and a fan, wherein the shell is provided with an accommodating cavity and a side plate, the side plate is provided with a vent, the vent is communicated with the accommodating cavity, and the size of the shell in the vertical direction is set between 240mm and 260 mm; the heat exchange assembly is arranged in the accommodating cavity and comprises a condenser and a compressor which are connected with each other, and the condenser is arranged close to the side plate; the heat dissipation assembly is arranged outside the shell and comprises a fan, the fan is fixed on the side plate, the rotation axis of the fan is perpendicular to the side plate, the projection of the fan on the side plate is located in the range surrounded by the edge of the side plate, and the heat dissipation assembly can conduct heat dissipation treatment on the heat exchange assembly.

Use the technical scheme of the utility model, heat exchange assembly sets up and is holding the intracavity, and the projection of fan on the curb plate is located the within range that the border of curb plate encloses, can make the height that highly all is not greater than the casing of heat exchange assembly and fan like this, and the size setting of heat management device on vertical side is between 240mm to 260mm promptly. According to the arrangement, the height of the heat management device can be reduced, the occupied volume of the heat management device is reduced, the heat management device does not need to be installed in a targeted manner in the automobile, the space where the heat management device gives way can be used for installing a newly added battery pack, and the development requirement of new energy in the prior art is met. Meanwhile, the size of the heat management device is matched with that of a battery pack in the prior art, so that the interchangeability between the battery pack and the heat management device can be improved, an automobile manufacturer can arrange the heat management device at the position of any battery pack according to customer requirements, and the heat management device is convenient to install.

Further, the condenser is fixed on the side plate, and the size of the condenser in the vertical direction is set between 230mm and 250 mm. The size of the condenser in the vertical direction is set between 230mm and 250mm, so that the heat exchange effect of the condenser can be ensured, and the condenser and the shell can be prevented from interfering.

Further, the thermal management device further comprises: the fixed subassembly sets up and holding the intracavity, and fixed subassembly is fixed on the casing, and fixed subassembly can support the compressor fixedly, and the compressor mounting height on fixed subassembly is between 230mm to 250 mm. The installation height of the compressor on the fixed assembly is set between 230mm and 250mm, so that the vibration generated by the compressor can be effectively reduced, and the interference between the compressor and the shell can be avoided.

Further, the fixing assembly includes: the supporting piece is arranged at the bottom of the accommodating cavity, and the extending direction of the supporting piece is the same as the length direction of the shell; the shock absorption structures are detachably arranged on the support piece, and the shock absorption structures are arranged on the support piece at intervals along the extension direction of the support piece; the support is detachably arranged on the shock absorption structures and used for supporting the compressor. Support piece detachably sets up in the bottom of casing, and shock-absorbing structure detachably sets up on support piece, and support detachably sets up on shock-absorbing structure, so sets up, is convenient for install and dismantle support piece, shock-absorbing structure and support, can guarantee the shock attenuation effect of fixed subassembly to the compressor simultaneously to guarantee that the compressor can normally work.

Further, support piece includes two bases, and two bases set up along the width direction interval of casing, and the extending direction of base is the same with the length direction of casing, and every shock-absorbing structure all includes two shock attenuation pieces, and two shock attenuation pieces set up on two bases one-to-one, and support detachably sets up on two shock attenuation pieces of shock-absorbing structure. Two shock attenuation pieces in two bases and every shock-absorbing structure set up respectively in the left and right sides of compressor, can guarantee the stability when base and shock-absorbing structure support the compressor like this, can guarantee the shock attenuation effect of shock-absorbing structure to the compressor simultaneously, avoid the compressor to rock at the during operation production.

Further, be provided with a plurality of connecting holes on the base, the damping piece includes: the connecting piece is arranged in the connecting hole in a penetrating mode and provided with a fixing section and a connecting section which are arranged oppositely, the diameter of the fixing section is larger than that of the connecting section, the fixing section is arranged at one end, far away from the compressor, of the base, and the connecting section is arranged at one end, close to the compressor, of the base; the upper shock pad and the lower shock pad are sleeved on the connecting section, and the support is arranged between the upper shock pad and the lower shock pad; the fastener sets up on the linkage segment, and the fastener can be fixed shock pad and lower shock pad on the linkage segment. By adopting the structure, the connecting piece can be detachably connected with the upper shock pad and the lower shock pad, so that the upper shock pad and the lower shock pad can be conveniently detached and replaced, and the supporting effect of the upper shock pad and the lower shock pad on the support can be ensured.

Further, the support has supporting part and two connecting portion, the both ends that are located the supporting part respectively of two connecting portion, and the supporting part is used for supporting the compressor, and the height that highly is less than connecting portion of supporting part, two connecting portion are connected with two shock attenuation pieces among the shock-absorbing structure respectively, and connecting portion set up at last shock pad under with between the shock pad, and the linkage segment passes shock pad, connecting portion and last shock pad down in proper order and is connected fixedly with the fastener. Two connecting portion are connected with two shock-absorbing members among the shock-absorbing structure respectively, and connecting portion set up at last shock pad and down between the shock pad, and the linkage segment passes shock pad, connecting portion and last shock pad down in proper order and is connected fixedly with the fastener. So set up, can guarantee the stability of support when fixed, avoid the support to drop by the shock attenuation piece.

Furthermore, the side wall of the lower shock pad is circumferentially and annularly provided with a limiting groove, the connecting part is provided with a through hole, and the connecting part is sleeved in the limiting groove through the through hole. So set up, can further guarantee the stability of connecting portion when the shock pad is fixed down, avoid connecting portion to drop by shock pad down.

Further, the lower shock pad comprises a buffer section and a shock absorption section, the buffer section is arranged above the shock absorption section, and the diameter of the buffer section is smaller than that of the shock absorption section. By adopting the structure, the damping effect of the lower damping pad can be ensured, the structural strength of the lower damping pad can be ensured, and the service life of the lower damping pad is prolonged.

Further, radiator unit includes a plurality of fans, and a plurality of fans set up side by side along the length direction of curb plate. So set up, when the diameter of fan reduces, can guarantee radiator unit's the condensation amount of wind through the quantity that increases the fan to make radiator unit satisfy the refrigerating output demand when satisfying the installation space demand.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a schematic structural diagram of a prior art thermal management device;

fig. 2 shows a schematic structural diagram of a thermal management device provided according to an embodiment of the present invention;

FIG. 3 shows a partial enlarged view at A in FIG. 2;

fig. 4 illustrates an exploded view of a thermal management device provided in accordance with an embodiment of the present invention;

fig. 5 shows an exploded view of a fixing assembly provided in accordance with an embodiment of the present invention in cooperation with a compressor;

fig. 6 shows an exploded view of the upper and lower shock absorbing pads cooperating with the bracket according to an embodiment of the present invention;

fig. 7 shows an exploded view of a connector and a support member provided in accordance with an embodiment of the present invention;

fig. 8 shows a schematic structural diagram of a base provided in accordance with an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a housing; 11. an accommodating chamber; 12. a side plate; 121. a vent;

21. a condenser; 22. a compressor;

31. a fan;

40. a fixing component; 41. a support member; 411. a base; 4111. connecting holes; 42. a shock absorbing member; 421. a connecting member; 4211. a fixed section; 4212. a connecting section; 422. an upper shock pad; 423. a lower cushion pad; 4231. a limiting groove; 4232. a buffer section; 4233. a shock absorbing section; 43. a support; 431. a support portion; 432. a connecting portion; 4321. a through hole;

1. a box body; 2. a base body; 3. a damping unit; 4. and (7) connecting the shafts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 2-4, the present application provides a thermal management device that includes a housing 10, a heat exchange assembly, and a heat dissipation assembly. The housing 10 has an accommodating cavity 11 and a side plate 12, a vent 121 is arranged on the side plate 12, the vent 121 is communicated with the accommodating cavity 11, and the size of the housing 10 in the vertical direction is set between 240mm and 260 mm. Heat exchange assembly sets up in holding chamber 11, and heat exchange assembly includes interconnect's condenser 21 and compressor 22, and condenser 21 is close to curb plate 12 and sets up. The heat dissipation assembly is arranged outside the shell 10 and comprises a fan 31, the fan 31 is fixed on the side plate 12, the rotation axis of the fan 31 is perpendicular to the side plate 12, the projection of the fan 31 on the side plate 12 is located in the range surrounded by the edges of the side plate 12, and the heat dissipation assembly can perform heat dissipation treatment on the heat exchange assembly.

Use the technical scheme of this application, heat exchange assembly sets up in holding chamber 11, and the projection of fan 31 on curb plate 12 is located the scope that the border of curb plate 12 encloses, consequently can make heat exchange assembly and fan 31's height all not be greater than the height of casing 10 like this, and the size setting of heat management device on vertical direction is between 240mm to 260mm promptly, as shown in fig. 2, the Z direction is the vertical direction of casing 10 and heat management device promptly, also is the direction of height of casing 10 and heat management device. According to the arrangement, the height of the heat management device can be reduced, the occupied volume of the heat management device is reduced, the heat management device does not need to be installed in a targeted manner in the automobile, the space where the heat management device gives way can be used for installing a newly added battery pack, and the development requirement of new energy in the prior art is met. Meanwhile, the size of the heat management device is matched with that of a battery pack in the prior art, so that the interchangeability between the battery pack and the heat management device can be improved, an automobile manufacturer can arrange the heat management device at the position of any battery pack according to customer requirements, and the heat management device is convenient to install.

When the size of the shell 10 in the vertical direction is smaller than 240mm, the processing difficulty of the thermal management device is increased, and the processing cost of the thermal management device is increased; when the size of the housing 10 in the vertical direction is greater than 260mm, the heat management device occupies a large space, which is inconvenient for installing other elements, and the height of the heat management device is higher than that of the battery pack, so that the interchangeability between the heat management device and the battery pack is poor; therefore, the size of the shell 10 in the vertical direction is set to be 240mm to 260mm, so that the processing difficulty and the processing cost of the heat management device can be reduced, the interchangeability of the battery pack and the heat management device can be ensured, and the heat management device is convenient to mount. Wherein, the size setting of the housing 10 in the vertical direction may be set to 240mm, 245mm, 250mm, 255mm or 260mm, and in the present embodiment, the size setting of the housing 10 in the vertical direction is 255mm. Moreover, with the adoption of the structure, the fan 31 can radiate the condenser 21, so that the normal work of the heat management device is ensured.

Wherein the condenser 21 is fixed on the side plate 12, and the dimension of the condenser 21 in the vertical direction is set between 230mm and 250 mm. In the present embodiment, the gaseous refrigerant is pressed into the condenser 21 by the compressor 22, the gaseous refrigerant releases heat and condenses into a liquid state, and the fan 31 is used to dissipate heat from the condenser 21. When the size of the condenser 21 in the vertical direction is smaller than 230mm, the size of the condenser 21 is smaller, so that the heat exchange effect of the condenser 21 is poor, and the heat exchange requirement cannot be met; when the size of the condenser 21 in the vertical direction is larger than 250mm, the condenser 21 has a large volume, and is easily interfered with the shell 10 when being installed in the accommodating cavity 11, so that the normal assembly of the heat exchange assembly is influenced; therefore, the size of the condenser 21 in the vertical direction is set to be 230mm to 250mm, which not only ensures the heat exchange effect of the condenser 21, but also avoids the condenser 21 from interfering with the casing 10. Wherein, the size of the condenser 21 in the vertical direction may be set to 230mm, 235mm, 240mm, 245mm or 250mm, and in the present embodiment, the size of the condenser 21 in the vertical direction is set to 245mm.

Further, the heat management device further comprises a fixing assembly 40, the fixing assembly 40 is arranged in the accommodating cavity 11, the fixing assembly 40 is fixed on the shell 10, and the fixing assembly 40 can support and fix the compressor 22, so that the stability of the compressor 22 in the working process can be ensured, and the compressor 22 is prevented from shaking during working. Wherein, the installation height of the compressor 22 on the fixing assembly 40 is between 230mm and 250mm, that is, after the compressor 22 is installed on the fixing assembly 40, the distance from the bottom of the fixing assembly 40 to the top of the compressor 22 is between 230mm and 250 mm. The fixing component 40 can fix the compressor and also can damp the compressor, and because the compressor 22 has a certain height, when the installation height of the compressor 22 on the fixing component 40 is less than 230mm, the height of the fixing component 40 is also smaller, so that the fixing component 40 cannot effectively reduce the vibration generated by the compressor 22 during operation; when the installation height of the compressor 22 installed on the fixing assembly 40 is greater than 250mm, the compressor 22 is easily interfered with the housing 10 after being installed in the accommodating chamber 11, and therefore, the installation height of the compressor 22 installed on the fixing assembly 40 is set between 230mm and 250mm, which can effectively reduce the vibration generated by the compressor 22 and prevent the compressor 22 from interfering with the housing 10. Wherein, the installation height of the compressor 22 on the fixing assembly 40 can be set to 230mm, 235mm, 240mm, 245mm or 250mm, in this embodiment, the installation height of the compressor 22 on the fixing assembly 40 is set to 245mm.

As shown in fig. 5 to 8, the fixing assembly 40 includes a supporter 41, a plurality of shock-absorbing structures, and a plurality of brackets 43. The supporting member 41 is disposed at the bottom of the accommodating chamber 11, and the supporting member 41 extends in the same direction as the longitudinal direction of the housing 10. A plurality of shock-absorbing structures are detachably provided on the support 41, and the plurality of shock-absorbing structures are provided on the support 41 at intervals along the extending direction of the support 41. The plurality of brackets 43 are disposed in one-to-one correspondence with the plurality of shock-absorbing structures, the brackets 43 are detachably disposed on the shock-absorbing structures, and the brackets 43 are used for supporting the compressor 22. Support piece 41 detachably sets up in the bottom of casing 10, and shock-absorbing structure detachably sets up on support piece 41, and support 43 detachably sets up on shock-absorbing structure, so sets up, is convenient for install and dismantle support piece 41, shock-absorbing structure and support 43, can guarantee the shock attenuation effect of fixed subassembly 40 to compressor 22 simultaneously to guarantee that compressor 22 can normally work.

Wherein, support 41 includes two bases 411, and two bases 411 set up along the width direction interval of casing 10, and the extending direction of base 411 is the same with the length direction of casing 10, and every shock-absorbing structure all includes two shock attenuation pieces 42, and two shock attenuation pieces 42 one-to-one set up on two bases 411, and support 43 detachably sets up on two shock attenuation pieces 42 of shock-absorbing structure. Two shock attenuation pieces 42 in two bases 411 and every shock-absorbing structure set up respectively in the left and right sides of compressor 22, can guarantee like this that base 411 and shock-absorbing structure support the stability when compressor 22, can guarantee shock-absorbing structure simultaneously and to compressor 22's shock attenuation effect, avoid compressor 22 to rock at the during operation production.

As shown in fig. 7, the base 411 is provided with a plurality of connecting holes 4111, and the shock absorbing member 42 includes a connecting member 421, an upper shock absorbing pad 422, a lower shock absorbing pad 423 and a fastening member. The connecting member 421 is inserted into the connecting hole 4111, the connecting member 421 has a fixing section 4211 and a connecting section 4212 which are arranged oppositely, the diameter of the fixing section 4211 is larger than that of the connecting section 4212, the fixing section 4211 is arranged at one end of the base 411 far away from the compressor 22, and the connecting section 4212 is arranged at one end of the base 411 close to the compressor 22. The upper cushion 422 and the lower cushion 423 are sleeved on the connecting section 4212, and the bracket 43 is arranged between the upper cushion 422 and the lower cushion 423. A fastener is provided on the connection segment 4212, and the fastener can fix the upper and lower shock absorbing pads 422 and 423 to the connection segment 4212. Connecting piece 421 wears to establish in connecting hole 4111, it establishes on linkage segment 4212 to go up shock pad 422 and lower shock pad 423 cover, support 43 sets up at last shock pad 422 and between lower shock pad 423, the fastener is fixed on linkage segment 4212 with last shock pad 422 and lower shock pad 423, adopt above-mentioned structure, connecting piece 421 can dismantle with last shock pad 422 and lower shock pad 423 and be connected, be convenient for like this dismantle and the replacement last shock pad 422 and lower shock pad 423, can guarantee simultaneously that shock pad 422 and lower shock pad 423 support effect to support 43.

In the present application, the connecting member 421 is a bolt, the fixing section 4211 is a bolt head, the connecting section 4212 is a thread section of the bolt, and the height of the fixing section 4211 is 5mm. As shown in fig. 1, in the prior art, the thermal management device includes a box 1 (equivalent to the housing 10 in the present application), a base 2 (equivalent to the base 411 in the present application), a shock absorption unit 3 (equivalent to the upper shock absorption pad 422 and the lower shock absorption pad 423 in the present application), and a connecting shaft 4 (equivalent to the connecting member 421 in the present application), where the connecting shaft 4 and the shock absorption unit 3 are an integrated structure, the connecting shaft 4 has a first section and a second section (equivalent to the fixing section 4211 in the present application), a compressor 22 is disposed on the first section, the second section is inserted into the base 2, and the height of the second section is 20mm. Since the base 411 only needs to cover the fixing section 4211, the base 411 of the present application is far lower than the base body 2 in the prior art, so that the installation height of the compressor 22 can be reduced.

As shown in fig. 6, the bracket 43 has a support part 431 and two connection parts 432, the two connection parts 432 are respectively located at both ends of the support part 431, the support part 431 is used to support the compressor 22, and the height of the support part 431 is smaller than that of the connection parts 432. With the above structure, the mounting height of the compressor 22 can be further reduced, so that the size of the thermal management device in the vertical direction can be reduced, and the height difference between the support portion 431 and the connection portion 432 can be adjusted as needed. The two connecting portions 432 are respectively connected with the two shock absorbing members 42 in the shock absorbing structure, the connecting portion 432 is disposed between the upper shock absorbing pad 422 and the lower shock absorbing pad 423, and the connecting section 4212 sequentially penetrates through the lower shock absorbing pad 423, the connecting portion 432 and the upper shock absorbing pad 422 and is fixedly connected with the fastening member. So set up, can guarantee the stability of support 43 when fixed, avoid support 43 to drop by damper 42.

The side wall of the lower shock pad 423 is circumferentially and annularly provided with a limiting groove 4231, the connecting portion 432 is provided with a through hole 4321, and the connecting portion 432 is sleeved in the limiting groove 4231 through the through hole 4321. With such an arrangement, the stability of the connection portion 432 fixed to the lower cushion 423 can be further ensured, and the connection portion 432 is prevented from falling off from the lower cushion 423. In addition, in the present application, an opening is provided at one end of the upper cushion 422 close to the lower cushion 423, the opening is covered at the upper end of the lower cushion 423, and the bottom end of the upper cushion 422 abuts against the upper surface of the connecting portion 432.

Specifically, lower cushion 423 includes a cushioning segment 4232 and a cushioning segment 4233, cushioning segment 4232 is disposed above cushioning segment 4233, and a diameter of cushioning segment 4232 is smaller than a diameter of cushioning segment 4233. When the compressor 22 is in vibration, the buffering section 4232 is easily deformed, so that the vibration of the compressor 22 can be effectively alleviated. Adopt above-mentioned structure, can guarantee the shock attenuation effect of shock pad 423 down, can guarantee the structural strength of shock pad 423 down simultaneously, improve the life of shock pad 423 down.

Further, the heat dissipation assembly includes a plurality of fans 31, and the plurality of fans 31 are disposed side by side along the length direction of the side plate 12. So set up, when fan 31's diameter reduces, can guarantee radiator unit's condensation amount of wind through the quantity that increases fan 31 to make radiator unit satisfy the refrigerating output demand when satisfying the installation space demand. In the prior art, the thermal management device comprises two fans 31, as shown in fig. 3, and in the present application, the heat dissipation assembly comprises 3 fans 31.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

Unless specifically stated otherwise, the relative arrangement of parts and steps, numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

For ease of description, spatially relative terms such as "over 8230 \ 8230;,"' over 8230;, \8230; upper surface "," above ", etc. may be used herein to describe the spatial relationship of one device or feature to another device or feature as shown in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary terms "at 8230; \8230; above" may include both orientations "at 8230; \8230; above" and "at 8230; \8230; below". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and if not stated otherwise, the terms have no special meaning, and therefore, the scope of the present invention should not be construed as being limited.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A thermal management device, comprising:

the air conditioner comprises a shell (10), wherein the shell (10) is provided with an accommodating cavity (11) and a side plate (12), a ventilation opening (121) is formed in the side plate (12), the ventilation opening (121) is communicated with the accommodating cavity (11), and the size of the shell (10) in the vertical direction is set between 240mm and 260 mm;

the heat exchange assembly is arranged in the accommodating cavity (11) and comprises a condenser (21) and a compressor (22) which are connected with each other, and the condenser (21) is arranged close to the side plate (12);

the heat dissipation assembly is arranged outside the shell (10), the heat dissipation assembly comprises a fan (31), the fan (31) is fixed to the side plate (12), the rotating axis of the fan (31) is perpendicular to the side plate (12) and is arranged, the fan (31) is located in the range surrounded by the edge of the side plate (12) in the projection mode on the side plate (12), and the heat dissipation assembly can conduct heat dissipation treatment on the heat exchange assembly.

2. The thermal management device according to claim 1, characterized in that the condenser (21) is fixed to the side plate (12), the dimension of the condenser (21) in the vertical direction being set between 230mm and 250 mm.

3. The thermal management device of claim 1, further comprising:

the fixing assembly (40) is arranged in the accommodating cavity (11), the fixing assembly (40) is fixed on the shell (10), the fixing assembly (40) can support and fix the compressor (22), and the installation height of the compressor (22) on the fixing assembly (40) is 230 mm-250 mm.

4. A heat management device according to claim 3, characterized in that said fixing assembly (40) comprises:

a support member (41) disposed at the bottom of the accommodating chamber (11), wherein the support member (41) extends in the same direction as the longitudinal direction of the housing (10);

a plurality of shock absorbing structures detachably provided on the support (41), the plurality of shock absorbing structures being provided on the support (41) at intervals along an extending direction of the support (41);

the support frames (43) are arranged in one-to-one correspondence with the shock absorption structures, the support frames (43) are detachably arranged on the shock absorption structures, and the support frames (43) are used for supporting the compressors (22).

5. The heat management device according to claim 4, wherein the supporting member (41) comprises two seats (411), the two seats (411) are arranged at intervals along the width direction of the shell (10), the extending direction of the seats (411) is the same as the length direction of the shell (10), each shock absorbing structure comprises two shock absorbing members (42), the two shock absorbing members (42) are arranged on the two seats (411) in a one-to-one correspondence manner, and the bracket (43) is detachably arranged on the two shock absorbing members (42) of the shock absorbing structure.

6. A heat management device according to claim 5, characterized in that the base (411) is provided with a plurality of connection holes (4111), and the shock absorbing member (42) comprises:

the connecting piece (421) is arranged in the connecting hole (4111) in a penetrating manner, the connecting piece (421) is provided with a fixing section (4211) and a connecting section (4212) which are arranged oppositely, the diameter of the fixing section (4211) is larger than that of the connecting section (4212), the fixing section (4211) is arranged at one end, far away from the compressor (22), of the base (411), and the connecting section (4212) is arranged at one end, close to the compressor (22), of the base (411);

the shock absorber comprises an upper shock absorption pad (422) and a lower shock absorption pad (423), the upper shock absorption pad (422) and the lower shock absorption pad (423) are sleeved on the connecting section (4212), and the support (43) is arranged between the upper shock absorption pad (422) and the lower shock absorption pad (423);

a fastener provided on the connection section (4212), the fastener being capable of fixing the upper cushion (422) and the lower cushion (423) on the connection section (4212).

7. The heat management apparatus according to claim 6, wherein the bracket (43) has a support portion (431) and two connection portions (432), the two connection portions (432) are respectively located at both ends of the support portion (431), the support portion (431) is used for supporting the compressor (22), the height of the support portion (431) is smaller than the height of the connection portions (432), the two connection portions (432) are respectively connected with the two shock absorbing members (42) in the shock absorbing structure, the connection portions (432) are disposed between an upper shock absorbing pad (422) and a lower shock absorbing pad (423), and the connection section (4212) sequentially passes through the lower shock absorbing pad (423), the connection portions (432) and the upper shock absorbing pad (422) and is fixedly connected with the fastening member.

8. The heat management device according to claim 7, wherein a limit groove (4231) is circumferentially and annularly arranged on the side wall of the lower shock pad (423), a through hole (4321) is arranged on the connecting portion (432), and the connecting portion (432) is sleeved in the limit groove (4231) through the through hole (4321).

9. The thermal management device of claim 6, wherein the lower shock pad (423) comprises a cushioning section (4232) and a shock section (4233), the cushioning section (4232) being disposed above the shock section (4233), the cushioning section (4232) having a diameter that is less than a diameter of the shock section (4233).

10. The thermal management device according to claim 1, wherein said heat dissipation assembly comprises a plurality of said fans (31), said plurality of fans (31) being arranged side by side along the length of said side plate (12).

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