CN219325710U - Thermal management integrated component - Google Patents

Abstract

The utility model provides a thermal management integrated component, including fluid control integrated module, first support, the second support, first elastic component, the second elastic component, fluid control integrated module includes first connecting portion, second connecting portion, first connecting portion include first wall portion, first pin, second connecting portion include second wall portion, the second post round pin, first pin is connected with first wall portion, the second post round pin is connected with second wall portion, first connecting portion includes fixed fixture block, first support includes solid fixed ring, fixed fixture block is fixed with solid fixed ring, fixed fixture block includes first hole portion, first pin is located first hole portion, fixed fixture block is radial spacing with first pin, first elastic component is located between fixed fixture block and the first wall portion, the second elastic component is located between second post round pin and the second support, reduce thermal management integrated component and support connection structure's vibrations.

Description

Thermal management integrated component

Technical Field

The application relates to the technical field of air conditioner heat management, in particular to a heat management integrated assembly.

Background

The heat management integrated assembly is generally arranged in the automobile heat management system to improve the compactness of the system, the heat management integrated assembly generally comprises a fluid control integrated module, the fluid control integrated module is integrated with components such as a runner plate, a valve or a heat exchanger, and the like, soft connection is generally adopted to reduce noise generated by vibration when the fluid control integrated module is connected with a support, for example, an elastic piece is arranged between the fluid control integrated module and the support to realize soft connection, the shaking amount between the fluid control integrated module and the support is large due to the soft connection mode, and the shaking of the fluid control integrated module and the support is easy to generate noise.

Disclosure of Invention

It is an object of the present application to provide a thermal management integrated assembly that is relatively low in noise.

An embodiment of the application provides a thermal management integrated component, including fluid control integrated module, first support, second support, first elastic component, second elastic component, fluid control integrated module includes first connecting portion, second connecting portion, first connecting portion include first wall portion, first pin, second connecting portion include second wall portion, second pin, first pin with first wall portion connects, the second pin with second wall portion connects, first pin is along keeping away from the direction of second wall portion extends, the second pin is along keeping away from the direction of first wall portion extends, first connecting portion includes fixed fixture block, first support includes solid fixed ring, fixed fixture block with gu fixed ring is fixed, fixed fixture block includes first hole portion, first pin is located first hole portion, fixed fixture block with first radial spacing, first elastic component is located fixed fixture block with between the first wall portion, the second pin is located between the second support and the elastic component.

Above-mentioned technical scheme, first connecting portion is fixed including fixed fixture block, fixed fixture block and the solid fixed ring of first support, and first pin is radial spacing with the first hole portion of fixed fixture block, reduces fluid control integrated module and first support in ascending rocking of circumference, reduces fluid control integrated module and first support and second support because of rocking the noise that produces. And set up first elastic component between fixed fixture block and the first wall portion, set up the second elastic component between second round pin and the second support, reduce the noise that fluid control integrated component produced at vertical rocking.

Drawings

FIG. 1 is a schematic exploded view of one embodiment of a thermal management integrated assembly of the present application;

FIG. 2 is a schematic structural view of a connection between a first bracket and a fluid control module;

FIG. 3 is a schematic side structural view of one embodiment of a thermal management integrated assembly of the present application;

FIG. 4 is a schematic cross-sectional view illustrating a connection manner between the first connecting portion and the first bracket;

FIG. 5 is a schematic diagram of an embodiment of a connecting clip;

FIG. 6 is a schematic cross-sectional view of a connection manner of the second connecting portion and the second bracket;

fig. 7 is a schematic perspective view of an embodiment of a second seal.

Detailed Description

Specific embodiments will now be described in detail with reference to the accompanying drawings. For a complete understanding of the present utility model, numerous specific details are set forth in the following detailed description, but it should be understood by those skilled in the art that the specific components, devices, and features illustrated in the drawings and described herein are merely exemplary and should not be construed as limiting.

As shown in fig. 1, the direction M is a first direction, the direction N is a second direction, the first direction is perpendicular to the second direction, i.e., the first direction is a height direction, and the second direction is a width direction.

As shown in fig. 1-7, the present embodiment discloses a thermal management integrated assembly 100, which is suitable for an automotive thermal management system, and includes a fluid control integrated module 1, where the fluid control integrated module 1 generally includes a flow channel plate and components such as a valve, a pump or a heat exchanger mounted on the flow channel plate, and the flow channel plate has a flow channel, and an interface of the valve, the pump or the heat exchanger is in communication with the flow channel, so as to control different flow modes of fluid.

As shown in fig. 1, the thermal management integrated assembly includes a fluid control integrated module 1, a first bracket 2, a second bracket 3, a first elastic member 4, and a second elastic member 5, the fluid control integrated module 1 includes a first connection portion 11 and a second connection portion 12, the first connection portion 11 includes a first wall portion 111 and a first pin 112, the second connection portion 12 includes a second wall portion 121 and a second pin 122, the first pin 112 is connected with the first wall portion 111, the second pin 122 is connected with the second wall portion 121, the first pin 112 extends in a direction away from the second wall portion 121, the second pin 122 extends in a direction away from the first wall portion 111, the first connection portion 11 includes a fixing clip 123, the first bracket 2 includes a fixing ring 21, the fixing clip 123 is fixed with the fixing ring 21, the fixing clip 123 includes a first hole portion 124, the first pin 112 is located in the first hole portion 124, the fixing clip 123 is radially limited with the first pin 112, the first elastic member 4 is located between the fixing clip 123 and the first wall portion 111, and the second elastic member 5 is located between the fixing clip 122 and the second bracket 3. The first connecting portion 11 includes a fixing clamping block 123, the fixing clamping block 123 is fixed with the fixing ring 21 of the first support 2, the first pin 112 is radially limited with the first hole portion 124 of the fixing clamping block 123, shake of the fluid control integrated module 1 and the first support 2 in the circumferential direction is reduced, and noise generated by shake of the fluid control integrated module 1, the first support 2 and the second support 3 is reduced. Furthermore, the first elastic member 4 is disposed between the fixing block 123 and the first wall portion 111, and the second elastic member 5 is disposed between the second pin 122 and the second bracket 3, so that noise generated by the fluid control assembly 1 during longitudinal shaking is reduced.

In some embodiments, as shown in fig. 1 and 3, the fluid control integrated module 1 includes a main body 10, a first connecting arm 20, and a second connecting arm 30, the first connecting arm 20 is connected to the main body 10, the second connecting arm 30 is connected to the main body 10, the first pin 112 extends along a first direction, the second pin 122 extends along the first direction, the main body 10 extends along the first direction, the first connecting arm 20 is disposed obliquely, the second connecting arm 30 is disposed obliquely, the force exerted by the first support 2 and the second support 3 due to the vertical vibration of the fluid control integrated module 1 is dispersed, the noise generated by the vertical vibration of the fluid control integrated module 1 is reduced, the first wall 111 connects the first connecting arm 20 and the second connecting arm 30, the first connecting portion 11 is two, the first connecting portion 11 is close to the first connecting arm 20, the other first connecting portion 11 is close to the second connecting arm 30, the second wall 121 is located at the main body 10, the second connecting portion 12 is two, the main body 10 includes a first end 101 and the second end 102, the first end 101 is located at the second end 102 is closer to the first end 102 than the first end 102 is located at the second end 102, the first end 102 is closer to the first end 12, and the first end 102 is closer to the first end 12 than the first end 12 is located at the second end 12 is closer to the first end 12.

In some embodiments, as shown in fig. 2-5, the fixing clip 123 includes a first peripheral wall portion 126, a first top wall portion 125, and a clamping portion 127, the first top wall portion 125 includes a flange portion 1251 protruding relative to the first peripheral wall portion 126, the fixing ring 21 includes a first end surface 211 and a second end surface 212, the first end surface 211 is farther from the first wall portion 111 than the second end surface 212 along the extending direction of the first pin 112, the flange portion 1251 abuts against the first end surface 211 of the fixing ring 21, and the clamping portion 127 abuts against the second end surface 212 of the fixing ring 21, so as to prevent noise generated by vibration between the fixing clip and the fixing ring. As shown in fig. 5, the clamping portion 127 includes a connecting arm 1271 and a barb 1272, the barb 1272 is connected with the connecting arm 1271, a first groove 1273 and a second groove 1274 are provided between the connecting arm 1271 and the first peripheral wall portion 126, the first groove 1273 and the second groove 1274 are located at two sides of the connecting arm 1271, the first groove 1273 and the second groove 1274 are provided, the barb 1272 can move relative to the first peripheral wall portion 126, so that the fixing clamping block 123 can be conveniently inserted into the fixing ring 21 from top to bottom, and installation between the fluid control integrated module 1 and the first bracket 2 is facilitated.

In some embodiments, as shown in fig. 2 and 5, the first peripheral wall portion 126 is polygonal, the fixing ring 21 is polygonal, specifically, the first peripheral wall portion 126 is rectangular, the fixing ring 21 is rectangular, the first peripheral wall portion 126 abuts against the fixing ring 21, the polygonal structure prevents the fixing clamp block from rotating circumferentially relative to the fixing ring, so that the fixing structure is more reliable, the fixing clamp block 123 includes a first protrusion 1261, the first protrusion 1261 is located on the first peripheral wall portion 126, the first protrusion 1261 protrudes toward the fixing ring 21, the fixing ring 21 includes a recess 213, the first protrusion 1261 is located on the recess 213, the first protrusion 1261 is fixed with the recess 213 in a limiting manner, the arrangement of the first protrusion 1261 and the recess 213 strengthens the structural strength of the fixing ring 21, and enables the fixing ring 21 to be more tightly attached to the fixing clamp block 123, so as to reduce vibration between the fixing clamp block 123 and the fixing ring 21.

In some specific embodiments, as shown in connection with fig. 6 and 7, the second elastic member 5 includes a second top wall portion 51 and a second peripheral wall portion 52, the second top wall portion 51 includes a second hole portion 511, the second stud 122 abuts against the second hole portion 511, the second bracket 3 includes a support portion 31, the support portion 31 includes a third hole portion 32, at least part of the second peripheral wall portion 52 is located in the third hole portion 32, the second peripheral wall portion 52 abuts against the third hole portion 32, and the second top wall portion 51 abuts against the support portion 31. The second bracket 3 is flexibly connected with the second column pin 122 through the second elastic piece 5, and the weight of the fluid control management module 1 is supported through the supporting part 31 of the second bracket 3, so that the reliability of the connecting structure is improved, the connecting structure is not rigidly connected, and the noise generated by collision is reduced.

In some embodiments, the second elastic member 5 is internally provided with a rigid member 6, and the rigid member 6 includes a third top wall portion 61 and a third peripheral wall portion 62, the third top wall portion 61 being connected to the third peripheral wall portion 62, the third top wall portion 61 being located in the second top wall portion 51, and the third peripheral wall portion 62 being located in the second peripheral wall portion 52. The rigidity of the second elastic member 5 is improved by the arrangement of the rigid member 6, so that the deformation of the second elastic member 5 is reduced, and the second elastic member 5 can better support the fluid control integrated module 1. As shown in fig. 6, along the extending direction of the second pin 122, the height of the third hole portion 32 is smaller than the height of the third peripheral wall portion 62, the height of the third peripheral wall portion 62 is smaller than the height of the second peripheral wall portion 52, and the height of the second pin 122 protruding out of the second hole portion 511 is smaller than the height of the second peripheral wall portion 52, so that it is ensured that there is sufficient contact between the second pin 122 and the second hole portion 511, and the second pin 122 is completely accommodated inside the second elastic member 5, avoiding interference of the second pin 122 with other components. The second top wall 51 includes a second convex portion 512, the second convex portion 512 protruding in a direction away from the second peripheral wall 52, the second stud 122 penetrating the second convex portion 512, the second convex portion 512 abutting the second wall 121. The provision of the second projection 512 increases the thickness of the second top wall portion 51, so that the second seal 5 provides sufficient elasticity to support the fluid control integrated module 1.

In some embodiments, as shown in fig. 7, the second hole 511 includes a third wall 513, the third wall 513 is cylindrical, the third wall 513 includes a plurality of ribs 514, the plurality of ribs 514 are arranged along a circumferential direction of the third wall 513, the ribs 514 extend Fang Xiangyan l along the second pin 122, and the ribs 514 abut the second pin 122. The convex rib 514 can promote the extrusion of the second sealing element 5 to the second stud 122, so that the second stud 122 is matched with the second sealing element 5 more tightly, and vibration is reduced.

Of course, other structures of the second sealing member 5 may be used, as long as the flexible connection between the second support 3 and the fluid control integrated module 1 is ensured.

It should be noted that: the reservoir provided by the present application is described in detail above. Specific examples are set forth herein to illustrate the principles and embodiments of the present application, and the description of the examples above is only intended to assist in understanding the core ideas of the present application. It should be noted that it would be obvious to those skilled in the art that various improvements and modifications can be made to the present application without departing from the principles of the present application, and such improvements and modifications fall within the scope of the claims of the present application.

Claims (10)

1. The utility model provides a thermal management integrated component, its characterized in that includes fluid control integrated module (1), first support (2), second support (3), first elastic component (4), second elastic component (5), fluid control integrated module (1) includes first connecting portion (11), second connecting portion (12), first connecting portion (11) include first wall portion (111), first pin (112), second connecting portion (12) include second wall portion (121), second pin (122), first pin (112) with first wall portion (111) are connected, second pin (122) with second wall portion (121) are connected, first pin (112) are along keeping away from second wall portion (121) direction extension, second pin (122) are along keeping away from first wall portion (111) direction extension, first connecting portion (11) include fixture block (123), first support (2) include solid fixed ring (21), solid fixed ring (123) and solid fixed ring (21) are located with first pin (124) are located first pin (124) in fixed hole (124), the first elastic piece (4) is located between the fixed clamping block (123) and the first wall part (111), and the second elastic piece (5) is located between the second column pin (122) and the second bracket (3).

2. The thermal management integrated assembly of claim 1, wherein the fixed clip (123) includes a first peripheral wall portion (126), a first top wall portion (125), and a clip portion (127), the first top wall portion (125) includes a flange portion (1251) protruding relative to the first peripheral wall portion (126), the fixed ring (21) includes a first end surface (211) and a second end surface (212), the first end surface (211) is farther from the first wall portion (111) than the second end surface (212) along an extension direction of the first stud (112), the flange portion (1251) is in abutment with the first end surface (211) of the fixed ring (21), and the clip portion (127) is in abutment with the second end surface (212) of the fixed ring (21).

3. The thermal management integrated assembly of claim 2, wherein the snap fit portion (127) includes a connecting arm (1271) and a barb (1272), the barb (1272) being connected to the connecting arm (1271), the connecting arm (1271) having a first groove (1273) and a second groove (1274) between the first peripheral wall portion (126), the first groove (1273) and the second groove (1274) being located on either side of the connecting arm (1271).

4. The thermal management integrated assembly of claim 2, wherein the first peripheral wall portion (126) is polygonal, the retaining ring (21) is polygonal, the first peripheral wall portion (126) abuts against the retaining ring (21), the retaining clip (123) includes a first protrusion (1261), the first protrusion (1261) is located on the first peripheral wall portion (126), the first protrusion (1261) protrudes toward the retaining ring (21), the retaining ring (21) includes a recess (213), the first protrusion (1261) is located on the recess (213), and the first protrusion (1261) is in limited fixation with the recess (213).

5. The thermal management integrated assembly according to any one of claims 1-4, wherein the second elastic member (5) comprises a second top wall portion (51) and a second peripheral wall portion (52), the second top wall portion (51) comprises a second hole portion (511), the second stud (122) abuts against the second hole portion (511), the second bracket (3) comprises a supporting portion (31), the supporting portion (31) comprises a third hole portion (32), at least part of the second peripheral wall portion (52) is located at the third hole portion (32), the second peripheral wall portion (52) abuts against the third hole portion (32), and the second top wall portion (51) abuts against the supporting portion (31).

6. The thermal management integrated assembly according to claim 5, wherein the second elastic member (5) is internally provided with a rigid member (6), the rigid member (6) comprising a third top wall portion (61) and a third peripheral wall portion (62), the third top wall portion (61) being connected to the third peripheral wall portion (62), the third top wall portion (61) being located in the second top wall portion (51), the third peripheral wall portion (62) being located in the second peripheral wall portion (52).

7. The thermal management integrated package according to claim 6, wherein the third hole portion (32) has a height smaller than the third peripheral wall portion (62) along the extending direction of the second pin (122), the third peripheral wall portion (62) has a height smaller than the second peripheral wall portion (52), and the second pin (122) protrudes from the second hole portion (511) to a height smaller than the second peripheral wall portion (52).

8. The thermal management integrated assembly of claim 5, wherein the second top wall portion (51) includes a second protrusion (512), the second protrusion (512) protruding away from the second peripheral wall portion (52), the second stud (122) extending through the second protrusion (512), the second protrusion (512) abutting the second wall portion (121).

9. The thermal management integrated assembly of claim 5, wherein the second hole portion (511) includes a third wall portion (513), the third wall portion (513) is cylindrical, the third wall portion (513) includes a plurality of ribs (514), the plurality of ribs (514) are arranged along a circumferential direction of the third wall portion (513), the ribs (514) extend in an extending direction of the second stud (122), and the ribs (514) abut the second stud (122).

10. The thermal management integrated assembly of any one of claims 1-4, wherein the fluid control integrated module (1) comprises a body portion (10), a first connecting arm (20), a second connecting arm (30), the first connecting arm (20) being connected to the body portion (10), the second connecting arm (30) being connected to the body portion (10), defining a first direction and a second direction, the first direction being perpendicular to the second direction, the first pin (112) extending in the first direction, the second pin (122) extending in the first direction, the body portion (10) extending in the first direction, the first connecting arm (20) being arranged obliquely, the second connecting arm (30) being arranged obliquely, the first wall portion (111) connecting the first connecting arm (20) and the second connecting arm (30), the first connecting portion (11) being two, the first connecting arm (11) being located near the first end portion (12) and the second connecting arm (10), the first connecting arm (11) being located near the first end portion (12), the first end part (101) is closer to the first connecting arm (20) than the second end part (102), the two second connecting parts (12) are positioned on two sides of the main body part (10) along the second direction, and the second connecting parts (12) are closer to the first connecting arm (20) than the second end part (102) along the first direction.

Images