CN219066927U - Heat production recovery structure - Google Patents

Abstract

The utility model provides a heat-generating recovery structure, which comprises a frame main body, wherein a first recovery component and a third recovery component are arranged on the frame main body and are used for recovering heat generated by battery packs in a first cavity, a second cavity, a third cavity and a fifth cavity; and through set up the second and retrieve the subassembly on the frame main part for communicate third cavity, fifth cavity, thereby make the intercommunication between first cavity, second cavity, third cavity, the fifth cavity, consequently, retrieve the subassembly through setting up first recovery subassembly, second recovery subassembly, third, retrieve the heat that the group battery produced in first cavity, second cavity, third cavity, the fifth cavity, improved the radiating effect of group battery, make at the group battery in the course of the work, avoid the group battery high temperature to influence the operation of group battery, and then improve the life of group battery.

Description

Heat production recovery structure

[ field of technology ]

The utility model relates to the technical field of electric vehicle frames, in particular to a heat production recovery structure.

[ background Art ]

In the prior art, as a plurality of heat dissipation components in the electric automobile, such as a motor, a motor driver, a storage battery and the like, a special heat dissipation system is required for heat dissipation; in the running process of the automobile, more heat can be released, the heat dissipation effect of the heat dissipation system is poor, and the service life of the storage battery can be influenced for a long time; in addition, heat generated in the running process of the automobile has a certain utilization value, and great resource waste can be caused by direct heat dissipation.

[ utility model ]

The utility model aims to provide a heat-generating recovery structure, which aims to enhance the heat-dissipating capacity of a heat-dissipating system in an automobile to a battery pack, avoid the influence of overhigh temperature on the operation of the battery pack and prolong the service life of the battery pack.

In order to achieve the above object, the present utility model provides a heat-generating recovery structure, including a frame body and a cooling component disposed on the frame body, where the frame body includes two spaced longitudinal beam sections and a plurality of transverse beam sections horizontally disposed between the two longitudinal beam sections, and the plurality of transverse beam sections are disposed between the two longitudinal beam sections to form a first cavity, a second cavity, a third cavity, a fifth cavity for placing a battery pack, and a fourth cavity for connecting the third cavity and the fifth cavity; the frame main body further comprises a first recovery component for recovering heat generated by the battery pack in the first cavity, the second cavity and the third cavity, and a third recovery component for recovering heat generated by the battery pack in the fifth cavity.

In a preferred embodiment, the cooling component comprises a blower for conveying wind power, a conveying pipeline connected with the air outlets of the blower and a plurality of air outlets arranged on the conveying pipeline, the blower is arranged at one port of the longitudinal beam section, the conveying pipeline is arranged at one side, far away from the transverse beam section, of the longitudinal beam section, and the air outlets are communicated with the first cavity, the second cavity, the third cavity and the fifth cavity.

In a preferred embodiment, the beam section includes first diaphragm, second diaphragm, the level setting of first diaphragm, second diaphragm, same side of first diaphragm, second diaphragm be equipped with longeron section terminal surface vertically second riser, the opposite side of first diaphragm for the second riser be provided with second riser horizontally first riser, the bottom face of first riser with the distance between the top face of second diaphragm is less than the width of second riser, connect between first riser, second riser, the first diaphragm constitutes type structure.

In a preferred embodiment, a recess portion extends upward from the middle of the bottom end surface of the first riser, the recess portion has a semi-circular structure, and a communication portion is installed in the middle of the second riser, and the communication portion is located in a position corresponding to the recess portion.

In a preferred embodiment, the first recovery assembly comprises three first recovery pipes, the three first recovery pipes are respectively arranged in the first cavity, the second cavity and the third cavity, and the three first recovery pipes are longitudinally arranged and horizontally arranged with the longitudinal beam section along a straight line; the third recovery assembly comprises a third recovery pipe which is arranged in the fifth cavity and horizontally arranged with the longitudinal beam section.

In a preferred embodiment, the end surfaces at two ends of the first recovery pipeline and the third recovery pipeline are provided with connecting lugs for connecting the beam sections, the two end surfaces of the first recovery pipeline and the third recovery pipeline are respectively connected with the first vertical plate and the second vertical plate on the beam sections through the connecting lugs, and the two end surfaces of the first recovery pipeline and the third recovery pipeline respectively correspond to the concave parts and the communicating parts on the beam sections.

In a preferred embodiment, the frame body comprises a second recovery assembly, the second recovery assembly comprises two second recovery pipes, the second recovery pipes are of type structures, the two second recovery pipes are installed in the fourth cavity, the openings of the second recovery pipes are attached to opposite sides of the longitudinal beam section, and the second recovery pipes are communicated with the third cavity and the fifth cavity.

According to the heat generation recovery structure provided by the utility model, the first recovery component and the third recovery component are arranged on the frame main body and are used for recovering heat generated by the battery pack in the first cavity, the second cavity, the third cavity and the fifth cavity, under the cooperation of the cooling component, the heat radiation effect of the battery pack is enhanced, meanwhile, the heat recovered by the first recovery component and the third recovery component can be possibly utilized, and the second recovery component is arranged, so that the first cavity, the second cavity, the third cavity and the fifth cavity are communicated, and the heat generated by the battery pack in the first cavity, the second cavity, the third cavity and the fifth cavity is recovered by arranging the first recovery component, the second recovery component and the third recovery component, so that the heat radiation effect of the battery pack is improved, the operation of the battery pack is prevented from being influenced by the overhigh temperature of the battery pack in the working process, and the service life of the battery pack is further prolonged.

[ description of the drawings ]

FIG. 1 is a perspective view of a heat-generating recovery structure provided by the present utility model;

FIG. 2 is a perspective view of a portion of the heat-generating recovery structure shown in FIG. 1;

FIG. 3 is a schematic view of the structure of the beam section shown in FIG. 2;

FIG. 4 is an enlarged view of a portion of the heat-generating recovery structure shown in FIG. 2 within circle A;

FIG. 5 is an enlarged view of a portion of the heat-generating recovery structure shown in FIG. 2 within circle B;

reference numerals in the drawings: 100. a heat-generating recovery structure; 10. a frame body; 20. a cooling component; 30. a sealing plate; 11. a stringer section; 12. a beam section; 13. a first cavity; 14. a second cavity; 15. a third cavity; 16. a fourth cavity; 17. a fifth cavity; 21. a blower; 22. a delivery conduit; 23. an air outlet; 40. a first recovery assembly; 41. a first recovery conduit; 42. a connecting lug; 50. a second recovery assembly; 51. a second recovery pipe; 60. a third recovery assembly; 61. a third recovery line; 121. a first riser; 122. a second riser; 123. a first cross plate; 124. a second cross plate; 125. a recessed portion; 126. a communication section;

[ detailed description ] of the utility model

In order to make the objects, technical solutions and advantageous technical effects of the present utility model more clearly apparent, the present utility model is further described in detail below with reference to the accompanying drawings and detailed description; it should be understood that the detailed description is intended to illustrate the utility model, and not to limit the utility model.

It is also to be understood that the terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model; as used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In an embodiment of the present utility model, a heat-generating recovery structure 100 is provided, which is used for recovering and utilizing heat generated by a battery pack in the operation of the battery pack of an automobile, so as to reduce the temperature of the battery pack and enhance the service life of the battery pack.

As shown in fig. 1 and 2, the heat-generating recovery structure 100 includes a frame body 10, a cooling assembly 20 disposed on the frame body 10, and a sealing plate 30, wherein a plurality of heat dissipation holes (not shown) for dissipating heat are formed in the sealing plate 30, the sealing plate 30 is mounted on the frame body 10 to form a plurality of cavities for accommodating the battery pack, the cooling assembly 20 is mounted on one side of the cavities, and the cooling assembly 20 is used for controlling the temperature of the battery pack; when the battery pack works, the temperature reducing component 20 controls the temperature of the battery pack, so that the operation of the battery pack is prevented from being influenced by the overhigh temperature of the battery pack, and the service life of the battery pack is prolonged.

The frame body 10 comprises two longitudinal beam sections 11 which are arranged at intervals and a plurality of transverse beam sections 12 which are horizontally arranged between the two longitudinal beam sections 11, wherein a first cavity 13, a second cavity 14, a third cavity 15, a fourth cavity 16 and a fifth cavity 17 are sequentially formed between the two longitudinal beam sections 11 by the plurality of transverse beam sections 12, and a sealing plate 30 is arranged at the top and bottom of the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 to form a cavity for accommodating a battery pack; the cooling assembly 20 comprises a blower 21 for conveying wind power, a conveying pipeline 22 connected with the blower 21 and a plurality of air outlets 23 arranged on the conveying pipeline 22, wherein the blower 21 is arranged at one port of the longitudinal beam section 11, the conveying pipeline 22 is arranged on one side of the longitudinal beam section 11 far away from the cross beam section 12, the conveying pipeline 22 is fixed on the longitudinal beam section 11 through a mounting piece (not shown), the mounting piece can be connected with the longitudinal beam section 11 through bolts, screws, welding and the like, and the air outlets 23 are communicated with the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17; after the cooling component 20 is started, the air blower 21 conveys wind power into the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 through the conveying pipeline 22 and the air outlet 23, and discharges heat generated by the battery pack through the heat radiation opening, so that the cooling effect on the battery pack is achieved, and the service life of the battery pack is prolonged.

In the embodiment of the utility model, the beam section 12 comprises a first transverse plate 123 and a second transverse plate 124 which are abutted against the sealing plate 30, the first transverse plate 123 and the second transverse plate 124 are horizontally arranged, the distance between the first transverse plate 123 and the second transverse plate 124 is the same as the width of the longitudinal beam section 11, the second transverse plate 122 which is perpendicular to the end face of the longitudinal beam section 11 is arranged on the same side of the first transverse plate 123 and the second transverse plate 124, the length of the second transverse plate 122 is the same as the distance between the two longitudinal beam sections 11, the other side of the first transverse plate 123 opposite to the second transverse plate 122 is provided with a first vertical plate 121 which is horizontal to the second vertical plate 122, the distance between the bottom end face of the first vertical plate 121 and the top end face of the second transverse plate 124 is smaller than the width of the second vertical plate 122, and the connection between the first vertical plate 121, the second vertical plate 122 and the first transverse plate 123 forms a type structure for heat supply circulation; the middle part of the bottom end surface of the first vertical plate 121 extends upwards to form a concave part 125, the concave part 125 is in a semicircular structure, the middle part of the second vertical plate 122 is provided with a communication part 126 capable of supplying heat and circulating, the communication part 126 can be a circular through hole or other shapes, such as a rectangle, a triangle and the like, and the position of the communication part 126 is correspondingly arranged with the concave part 125; in the cooling assembly 20, during the operation of the blower 21, cold air enters the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 for accommodating the battery pack through the conveying pipeline 22 and the air outlet 23, and through the communicating part 126, the cold air can flow in the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 for accommodating the battery pack, and the cold air enters the fourth cavity 16 to take away heat generated by the battery pack, thereby improving the heat dissipation effect of the cooling assembly 20.

Further, the frame body 10 includes a first recovery assembly 40, a third recovery assembly 60 for recovering heat; the first recovery assembly 40 comprises three first recovery pipelines 41, wherein the three first recovery pipelines 41 are respectively arranged in the first cavity 13, the second cavity 14 and the third cavity 15, and the three first recovery pipelines 41 are longitudinally arranged and horizontally arranged along a straight line and the longitudinal beam section 11; the third recovery assembly 60 comprises a third recovery conduit 61, the third recovery conduit 61 being mounted in the fifth cavity 17 and being arranged horizontally with respect to the stringer section 11; the end surfaces of the two ends of the first recovery pipeline 41 and the third recovery pipeline 61 are provided with connecting lugs 42 for connecting the beam section 12, the two end surfaces of the first recovery pipeline 41 and the third recovery pipeline 61 are respectively connected with a first vertical plate 121 and a second vertical plate 122 on the beam section 12 through the connecting lugs 42, and the two end surfaces of the first recovery pipeline 41 and the third recovery pipeline 61 respectively correspond to a concave part 125 and a communication part 126 on the beam section 12; under the cooperation of the beam sections 12 in the first cavity 13, the second cavity 14 and the third cavity 15, the three first recovery pipes 41 are communicated with the first cavity 13, the second cavity 14 and the third cavity 15 through the communicating parts 126 and the concave parts 125 arranged on the beam sections 12, so as to form a first recovery assembly 40 for recovering heat generated by the battery packs in the first cavity 13, the second cavity 14 and the third cavity 15; the third recovery assembly 60 for recovering heat generated by the battery pack in the fifth cavity 17 is formed by connecting the third recovery pipe 61 with the fifth cavity 17 through the connecting part 126 and the concave part 125 arranged on the beam section 12 in cooperation with the beam section 12 in the fifth cavity 17; it should be noted that: after the first recovery pipe 41 and the third recovery pipe 61 are connected with the beam section 12 through the connecting lugs 42, gaps exist between the first recovery pipe 41, the third recovery pipe 61 and the beam section 12, and the gaps are arranged so as to facilitate heat flow; the structure formed by the first vertical plate 121, the second vertical plate 122 and the first transverse plate 123 on the beam section 12 is regarded as a heat circulation channel in the heat recovery work of the first recovery assembly 40 and the second recovery assembly 50, and under the cooperation of the circulation channel, heat enters the first recovery pipeline 41 and the second recovery pipeline 61 through the circulation channel, so that the heat recovery efficiency of the first recovery assembly 40 and the third recovery assembly 60 can be improved, and the battery assemblies in the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 can be rapidly cooled.

Further, the frame body 10 includes a second recovery assembly 50 for heat transfer, the second recovery assembly 50 includes two second recovery pipes 51, the second recovery pipes 51 are type structures, the two second recovery pipes 51 are installed in the fourth cavity 16, the openings of the second recovery pipes 51 are attached to opposite sides of the longitudinal beam section 11, the second recovery pipes 51 are communicated with the third cavity 15 and the fifth cavity 17, and the second recovery assembly 50 for communicating the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17 is formed by matching the second recovery pipes 51 with the longitudinal beam section 11.

In summary, in the heat-generating recovery structure 100 provided by the present utility model, the first recovery assembly 40 and the third recovery assembly 60 are disposed on the frame body 10, so as to recover the heat generated by the battery packs in the first cavity 13, the second cavity 14, the third cavity 15 and the fifth cavity 17; and through set up the second and retrieve the subassembly 50 on the frame main part 10 for communicate third cavity 15, fifth cavity 17, thereby make the first cavity 13, second cavity 14, third cavity 15, fifth cavity 17 between communicate, consequently, through setting up first recovery subassembly 40, second recovery subassembly 50, third recovery subassembly 60, retrieve the heat that the group battery produced in first cavity 13, second cavity 14, third cavity 15, the fifth cavity 17, improved the radiating effect of group battery, make in the group battery at the course of the work, avoid the operation of group battery high influence group battery of group battery temperature, and then improve the life of group battery.

The present utility model is not limited to the details and embodiments described herein, and thus additional advantages and modifications may readily be made by those skilled in the art, without departing from the spirit and scope of the general concepts defined in the claims and the equivalents thereof, and the utility model is not limited to the specific details, representative apparatus and illustrative examples shown and described herein.

Claims (7)

1. The heat-generating recovery structure is characterized by comprising a frame main body and a cooling component arranged on the frame main body; the frame main body comprises two longitudinal beam sections arranged at intervals and a plurality of transverse beam sections horizontally arranged between the two longitudinal beam sections, and a plurality of transverse beam sections are arranged between the two longitudinal beam sections to form a first cavity, a second cavity, a third cavity and a fifth cavity for placing a battery pack and a fourth cavity for connecting the third cavity and the fifth cavity; the frame main body further comprises a first recovery component for recovering heat generated by the battery pack in the first cavity, the second cavity and the third cavity, and a third recovery component for recovering heat generated by the battery pack in the fifth cavity.

2. A heat recovery structure according to claim 1, wherein; the cooling assembly comprises a blower for conveying wind power, a conveying pipeline connected with the blower and a plurality of air outlets arranged on the conveying pipeline, the blower is arranged at one port of the longitudinal beam section, the conveying pipeline is arranged at one side of the longitudinal beam section away from the transverse beam section, and the air outlets are communicated with the first cavity, the second cavity, the third cavity and the fifth cavity.

3. A heat recovery structure according to any one of claims 1-2, wherein; the crossbeam section includes first diaphragm, second diaphragm, first diaphragm the level setting of second diaphragm, first diaphragm the same side of second diaphragm be equipped with longeron section terminal surface vertically second riser, first diaphragm for the opposite side of second riser be provided with second riser horizontally first riser, the bottom face of first riser with the distance between the top face of second diaphragm is less than the width of second riser, first riser the second riser the connection between the first diaphragm constitutes type structure.

4. A heat recovery structure according to claim 3, wherein; the middle part of the bottom end surface of the first vertical plate upwards extends to form a concave part, the concave part is of a semicircular structure, and the middle part of the second vertical plate is provided with a communicating part which is arranged at a position corresponding to the concave part.

5. A heat recovery structure according to claim 4, wherein; the first recovery assembly comprises three first recovery pipelines, the three first recovery pipelines are respectively arranged in the first cavity, the second cavity and the third cavity, and the three first recovery pipelines are longitudinally arranged and horizontally arranged with the longitudinal beam section along a straight line; the third recovery assembly comprises a third recovery pipe which is arranged in the fifth cavity and horizontally arranged with the longitudinal beam section.

6. A heat recovery structure according to claim 5, wherein; the connecting lugs used for connecting the beam sections are arranged on the end faces of the two ends of the first recovery pipeline and the end faces of the two ends of the third recovery pipeline, the two end faces of the first recovery pipeline and the two end faces of the third recovery pipeline are connected with the first vertical plate and the second vertical plate on the beam sections through the connecting lugs respectively, and the two end faces of the first recovery pipeline and the two end faces of the third recovery pipeline correspond to the concave parts and the communicating parts on the beam sections respectively.

7. A heat recovery structure according to claim 6, wherein; the frame main part includes the second recovery subassembly, the second is retrieved the subassembly and is included two second recovery pipelines, the second is retrieved the pipeline and is type structure, two the second is retrieved the pipeline and is installed in the fourth cavity, the second is retrieved the opening part laminating of pipeline the opposite side of longeron section, the second is retrieved pipeline intercommunication third cavity, fifth cavity.

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