CN113410554A

CN113410554A - Power battery top cap and power battery

Info

Publication number: CN113410554A
Application number: CN202110641602.5A
Authority: CN
Inventors: 曾志亮; 杜秋文
Original assignee: Shenzhen Everwin Precision Technology Co Ltd
Current assignee: Yibin Changying Precision Technology Co ltd; Shenzhen Everwin Precision Technology Co Ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2021-09-17
Anticipated expiration: 2041-06-09
Also published as: CN113410554B

Abstract

A power battery top cover comprises a cover plate with a through hole, a pole and an insulating body for integrally forming and fixing the pole in the through hole, the insulating body electrically isolates the pole from the cover plate, the cover plate comprises a plate body, the plate body is provided with a fixing part, the through hole penetrates through the fixing part, the plate body extends towards the through hole to form an inner convex part surrounding the periphery of the through hole, the upper surface of the inner convex part is lower than the surface of the outer side surface of the plate body, the lower surface of the inner convex part is higher than the surface of the inner side surface of the plate body, the pole comprises a connecting part exposed at the inner side and the outer side of the plate body, a contact part and an outer convex part formed by extending outwards from the connecting part to the contact part, the insulating body comprises an outer wrapping portion, an intermediate layer and an inner wrapping layer, wherein the intermediate layer extends from the outer side of the outer wrapping portion to a position between the outer convex portion and the inner convex portion, and the inner wrapping layer extends from the inner side of the intermediate layer outwards to cover the inner side of the fixing portion. The application also includes a power battery.

Description

Power battery top cap and power battery

Technical Field

The application relates to the field of power batteries, in particular to a power battery top cover and a power battery.

Background

The power battery comprises a plurality of battery monomers, a confluence assembly and a pair of poles, wherein the battery monomers are connected in parallel, and the pair of poles are electrically connected with the confluence assembly and transmit electric energy out. The power battery is characterized in that liquid substances such as electrolyte are injected into the power battery, the sealing performance of the power battery needs to be maintained, the power battery further comprises a shell and a top cover for sealing the shell, and the pole is fixed on the top cover and needs to be electrically isolated by the cover plate of the top cover. Current power battery top cap generally including set up two at least mounting holes the apron, be fixed in utmost point post in the mounting hole, utmost point post adopts copper or aluminium material to make, for guaranteeing utmost point post is fixed in on the apron, two about utmost point post generally adopts are packing into respectively the back spot welding is fixed in the mounting hole, carries out injection moulding further fixed formation electric isolation layer afterwards, and the cover is equipped with the sealing washer in order to with the sealing washer centre gripping in on at least one of them utmost point post with reach better sealed effect between the apron. The manufacturing process is complex and the manufacturing cost is high.

Disclosure of Invention

Therefore, it is necessary to provide a power battery top cover and a power battery with low manufacturing cost and stable performance.

In order to solve the technical problem, the application provides a power battery top cover, which comprises a cover plate provided with a through hole, a pole and an insulating body for integrally forming and fixing the pole in the through hole, wherein the insulating body electrically isolates the pole from the cover plate, the cover plate comprises a plate body, the plate body is provided with a fixing part, the through hole penetrates through the fixing part, the plate body extends towards the through hole to form an inner convex part surrounding the periphery of the through hole, the upper surface of the inner convex part is lower than the surface of the outer side surface of the plate body, the lower surface of the inner convex part is higher than the surface of the inner side surface of the plate body, the pole comprises a connecting part exposed at the inner side and the outer side of the plate body, a contact part and an outer convex part extending outwards from the connecting part to the contact part, the outer diameter of the outer convex part is larger than the inner diameter of the through hole, so that at least part of the outer convex part is positioned above the inner convex part, the insulating body comprises an outer covering part covering the outer side of the fixing part, an intermediate layer extending from the outer side of the outer covering part to a position between the outer convex part and the inner convex part, and an inner cladding extending outwards from the inner side of the intermediate layer and covering the inner side of the fixing part.

Preferably, the inner convex part is formed by extending from the middle of the plate body towards the through hole, and the inner convex part is sunken relative to the outer side surface and the inner side surface of the plate body.

Preferably, the outer peripheral edge of the upper side of the inner convex part is recessed from the outer side surface of the plate body to form a recessed edge surrounding the inner convex part, the inner side surface of the plate body forms a bonding area at the edge of the inner convex part, the upper surface of the recessed edge is located between the outer side surface of the plate body and the upper surface of the inner convex part, and the width of the upper surface of the inner convex part is greater than the width of the lower surface of the inner convex part.

Preferably, a plurality of notches are formed in the inner convex part, a plurality of space avoiding parts are arranged at positions of the outer convex part corresponding to the notches of the inner convex part, and the space avoiding parts and the notches are at least partially overlapped in the vertical direction to form a plastic flowing channel.

Preferably, a plurality of protruding pieces are formed between the adjacent space avoiding parts, a plurality of through holes penetrating through the inner convex parts are further formed between the notches, and the through holes correspond to the space avoiding parts to form plastic flow channels.

Preferably, the outer cladding of the insulation body is wrapped on the upper surface of the outer convex part and the upper side of the concave edge, and the outer cladding protrudes upwards from the outer side surface of the board body; the middle layer is filled in the upper surface of the inner convex part and positioned between the inner convex part and the outer convex part to realize electrical isolation of the inner convex part and the outer convex part; the outer cladding layer wraps the lower surface of the inner convex portion, the peripheral surface of the connecting portion and the bottom surface of the combining area.

Preferably, the pole further includes an embedded portion located between the outer convex portion and the connecting portion, the outer diameter of the connecting portion is smaller than the outer diameter of the embedded portion, and the intermediate layer includes a horizontal portion located between the inner convex portion and the outer convex portion and a vertical portion extending downward from an inner side of the horizontal portion and located between an inner edge of the inner convex portion and an outer peripheral surface of the embedded portion; the inner cladding comprises an embedded part bottom surface and an inner convex part bottom surface which are filled in the periphery of the connecting part, an inner cladding main body of the bottom surface of the combining area and a blind hole embedding part filled in the blind holes.

Preferably, a first receiving space for receiving the outer protrusion is formed between the outer cladding and the middle layer, a second receiving space for receiving the inner protrusion is formed between the middle layer and the inner cladding, and the outer cladding, the middle layer and the inner cladding of the insulation body are of an integral structure.

Preferably, the insulation body is made of modified PPS (polyphenylene sulfide), and the areas where the cover plate and the pole are combined with the insulation body are subjected to nano-etching hole treatment to form a plurality of nano-micropores on the surface of metal, so that plastic materials enter the nano-micropores to achieve better bonding force and sealing property.

The technical problem is not solved, this application still includes a power battery, including the shell, install in a plurality of battery monomer in the shell, and aforementioned top cap, the top cap closing cap in the shell just will be a plurality of battery monomer links together, be equipped with positive negative post on the top cap, battery monomer is connected to through the mode of establishing ties on the positive negative post.

This application power battery top cap and power battery are through the utmost point post that adopts a body structure, and utmost point post structural design goes up accessible stamping process shaping, has reduced the manufacturing degree of difficulty, only needs simultaneously will through the plastic utmost point post is fixed in on the fixed part of apron, get rid of current top cap needs built-in sealing washer, the complicated technical problem of utmost point post structure, insulator forms respectively through integrated into one piece and wraps up and be fixed in the surrounding layer and the inner cladding of both sides about the apron and be connected surrounding layer and inner cladding intermediate level as an organic whole realize utmost point post and the electric isolation of apron just realize firmly combining fixedly and realize sealing.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a perspective view of a power battery of the present application;

FIG. 2 is a perspective view of a top cover of the power cell of the present application;

fig. 3 is an exploded perspective view of a top cover of a power battery of the present application;

FIG. 4 is an enlarged view of a portion of the cover plate of the top cap of the power cell of the present application, viewed from a top-down perspective;

fig. 5 is a partial enlarged view of the cover plate of the top cover of the power battery of the present application, viewed from the bottom up;

fig. 6 is a perspective view of a pole of a top cover of a power battery of the present application;

fig. 7 is a perspective view of another angle of the terminal post of the top cover of the power battery of the present application;

fig. 8 is a perspective view of the insulator of the top cap of the power cell of the present application;

FIG. 9 is a cross-sectional view taken along the line B-B in FIG. 8;

fig. 10 is a sectional view taken along the broken line a-a shown in fig. 2.

Description of the reference numerals

-a housing-10; a top cover-A; a cover plate-20; -a fixed part-21, 22; perforation-211; an inner convex part-212; notch-2121; a through-hole-2122; binding region-213; a blind hole-2131; recessed edge-214; an explosion-proof port-23; a liquid injection hole-24; a plate body-25; outer side-251; a medial side-252; a pole-30; a contact portion-31; an outer convex part-32; upper surface-321; a lower surface-322; a tab-323; an escape portion-324; an embedded part-33; a connecting portion-34; column-35; an insulator body-40; an outer cladding-41; an intermediate layer-42; an inner cladding-43; a first housing space-411; a cover edge-412; a horizontal portion-421; a vertical portion-422; a second receiving space-423; an inner pack body-431; inner wrap end-432; blind hole insert-433; connecting sheet-50; a welding plate-51; drainage connection end-52; an explosion-proof sheet-61; a protective membrane-62.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments.

Referring to fig. 1, the power battery of the present application includes a housing 10, a plurality of battery cells (not shown) mounted in the housing 10, and a top cover a covering the housing 10 and connecting the battery cells together. The battery is characterized in that the top cover A is provided with a positive electrode post and a negative electrode post 30, and the battery monomer is connected to the positive electrode post and the negative electrode post 30 in a parallel or series mode.

As shown in fig. 2 to 5, the power battery top cover a includes a cover plate 20 having fixing

portions

21 and 22, a terminal 30 disposed in the

fixing portions

21 and 22, and an insulating body 40 integrally formed on the cover plate 20 and the terminal 30. The cover plate 20 is provided with two

fixing portions

21 and 22, the pole 30 comprises a negative pole and a positive pole, and the negative pole and the positive pole are respectively fixed in the two

fixing portions

21 and 22.

The cover plate 20 has a plate-like structure of a substantially rectangular parallelepiped shape, and the cover plate 20 includes a plate body 25 having an outer surface 251 and an inner surface 252, an explosion vent 23 formed by vertically penetrating the plate body 25, a liquid injection hole 24, and the

fixing portions

21 and 22. An explosion-proof sheet 61 is welded and fixed on the inner side of the explosion-proof opening 23, and a protective membrane 62 is pasted on the outer side of the explosion-proof opening 23. The pour hole 24 is typically sealed with a rubber plug.

Referring to fig. 4 and 5, the

fixing portions

21 and 22 include a through hole 211 formed through the plate 25 and an inner protrusion 212 formed radially inward of the through hole 211 from the plate 25. The inner protrusion 212 is formed by protruding from the middle portion of the plate body 25, that is, the thickness of the inner protrusion 212 is smaller than the thickness of the plate body 25, the upper surface of the inner protrusion 212 is lower than the outer side surface 251 of the plate body 25, and the bottom surface of the inner protrusion 212 is higher than the inner side surface 252 of the plate body 25. The inner side surface 252 of the plate body 25 is formed with a combination area 213 at the outer periphery of the inner protrusion 212, and the combination area 213 is provided with a plurality of blind holes 2131 upward. A plurality of through holes 2122 are uniformly formed through the inner convex part 212, and a plurality of notches 2121 are partially cut between adjacent through holes 2122 of the inner convex part 212.

The outer side surface 251 of the plate body 25 is recessed downward at the edge of the inner convex portion 212 to form a recessed edge 214, and the upper surface of the recessed edge 214 is lower than the outer side surface 251 of the plate body 25 and higher than the upper surface of the inner convex portion 212.

As shown in fig. 2 to 9, with particular emphasis on fig. 6 and 7, the terminal 30 includes a pillar 35, a contact portion 31 formed on an upper surface of the pillar 35, an outward protrusion 32 formed to protrude outward from the pillar 35, an embedded portion 33 formed on a lower side of the pillar 35, and a connecting portion 34 formed on a bottom surface of the pillar 35. The outer diameter of the convex portion 32 is larger than the outer diameter of the contact portion 31, the outer diameter of the contact portion 31 is larger than the outer diameter of the embedded portion 33, and the outer diameter of the embedded portion 33 is larger than the outer diameter of the connecting portion 34. The convex portion 32 is located between the contact portion 31 and the embedded portion 33, and the connecting portion 34 is formed to protrude downward from the embedded portion 33. The outer diameter of the male protrusion 32 is larger than the inner diameter of the through hole 211 of the cover plate 20, so that the male protrusion 32 is located above the female protrusion 212 and supported by the female protrusion 212.

The outer convex portion 32 includes an upper surface 321 and a lower surface, a plurality of protruding pieces 323 are formed on the outer circumference of the outer convex portion 32 in an outward protruding manner, and a plurality of space-avoiding portions 324 are formed between the plurality of protruding pieces 323. When the pole 30 is a positive pole, the column body 35 is a whole made of the same metal material, specifically an aluminum alloy material; when the pole 30 is a negative pole, the column body 35 is made of aluminum alloy, the connecting portion 34 is made of copper alloy, and the connecting portion 34 is fixed to the lower end of the column body 35 through friction welding and other processes. The connecting piece 50 includes a welding plate 51 welded to the lower side of the connecting portion 34 and a drain connecting end 52 bent and extended downward from the welding plate 51.

Referring to fig. 8 to 10, the cover plate 20 and the post 30 are fixed in an injection mold for injection molding the insulation body 40. Specifically, the post 30 and the cover plate 20 are injection molded in a mutually independent and isolated state, and after molding, the insulator 40 fixes the post 30 in the

fixing portions

21 and 22 of the cover plate 20; the outer projection 32 of the pole 30 and the protruding piece 323 thereon are positioned above the inner projection 212 of the cover plate 20 and are kept in a non-contact state, so that an isolation gap is formed between the outer projection 32 and the inner projection 212. Meanwhile, the clearance 324 of the male protrusion 32 corresponds to the notch 2121 of the female protrusion 212. The tabs 323 of the male protrusion 32 are located within the confines of the female protrusion 212 without protruding beyond the female protrusion 212, and the buried portion 33 is located within the perforations 211 between the female protrusions 212. The outer diameter of the embedded portion 33 is smaller than the inner diameter of the through hole 211, and the contact portion 31 and the connection portion 34 are exposed to the upper and lower surfaces of the cap plate 20, respectively.

The insulation body 40 includes an outer cladding 41, an intermediate layer 42 formed by extending inward from the lower side of the outer periphery of the outer cladding 41, an inner cladding 43 formed by extending downward from the inner end edge of the intermediate layer 42 and then extending outward, and a pole hole 44 vertically penetrating through the insulation body 40. The post 40 is wrapped within the post hole 44.

The outer cladding 41 covers the outer side of the inner protrusion 212 of the cover plate 20, the recessed edge 214 and the upper surface 321 of the outer protrusion 32 of the pole 30. A first receiving space 411 for receiving the external protrusion 32 of the pole 30 and the protruding piece 323 thereon is formed between the external cladding 41 and the middle layer 42, an upper inner edge of the external cladding 41 covers the upper surface 321 of the external protrusion 32 and forms a covering end edge 412, and the thickness of the covering end edge 412 is smaller than that of the external cladding 41.

The middle layer 42 is formed by extending from the outer lower edge of the outer cladding 41 to the post hole 44 and then extending downward from the edge of the post hole 44, and includes a horizontal portion 421 and a vertical portion 422, wherein the horizontal portion 421 fills the bottom surface 322 of the outer protrusion 32 and the upper surface of the inner protrusion 212 to achieve electrical isolation. The vertical portion 422 fills the space between the embedded portion 33 and the inner edge of the inner protrusion 212 to achieve electrical isolation. A second receiving space 423 for receiving the inner protrusion 212 is formed between the inner cladding 43 and the intermediate layer 42, the inner side of the inner cladding 43 covers the bottom surface of the embedded portion 33 on the outer periphery of the connecting portion 34 to form an inner cladding main body 431, the outer side of the inner cladding main body 431 extends outwards to form an inner cladding end portion 432 wrapped on the bonding area 213 of the inner side surface 251 of the plate body 25, and the inner cladding end portion 432 is formed with a plurality of blind hole embedding portions 433 for filling the blind holes 2131. The mutual holding of the blind hole 2131 and the blind hole embedding part 433 can increase the bonding force between the insulating body 40 and the board body 25. The through holes 2122 on the inner protrusion 212 are also filled with plastic to enhance the coupling force.

When the insulation body 40 is injection molded, the clearance portion 324 of the outer protrusion 32 of the pole 30 corresponds to the notch 2121 of the inner protrusion 212, so that plastic can smoothly flow through the clearance portion 324 and the notch 2121.

The insulation body 40 is made of PPS modified plastic with high strength and strong bonding force, and the parts of the inner convex parts 212, the outer convex parts 32 and the like which are combined with the plastic can be subjected to nano etching hole treatment to form a plurality of nano micropores, so that the plastic can enter the nano micropores to form a product with strong bonding force and good sealing property.

This application power battery top cap and power battery are through the utmost point post 30 that adopts a body structure, and utmost point post 30 structural design goes up accessible stamping process shaping, has reduced the manufacturing degree of difficulty, only needs simultaneously will utmost point post 30 is fixed in on the fixed part 21 of

apron

20, 22, get rid of current top cap and need built-in sealing washer, the complicated technical problem of utmost point post structure.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A power battery top cover comprises a cover plate provided with a through hole, a pole and an insulating body for integrally forming and fixing the pole in the through hole, wherein the insulating body electrically isolates the pole from the cover plate, the power battery top cover is characterized in that the cover plate comprises a plate body, a fixing part is arranged on the plate body, the through hole penetrates through the fixing part, the plate body extends towards the through hole to form an inner convex part surrounding the periphery of the through hole, the upper surface of the inner convex part is lower than the surface of the outer side surface of the plate body, the surface of the inner convex part is higher than the surface of the inner side surface of the plate body, the pole comprises a connecting part exposed at the inner side and the outer side of the plate body, a contact part and an outer convex part extending outwards from the connecting part to the contact part, the outer diameter of the outer convex part is larger than the inner diameter of the through hole, so that at least part of the outer convex part is positioned above the inner convex part, the insulating body comprises an outer covering part covering the outer side of the fixing part, an intermediate layer extending from the outer side of the outer covering part to a position between the outer convex part and the inner convex part, and an inner cladding extending outwards from the inner side of the intermediate layer and covering the inner side of the fixing part.

2. The power cell cap of claim 1, wherein the internal protrusion extends from the middle of the plate toward the aperture, and is recessed relative to both the outer side and the inner side of the plate.

3. The power cell header of claim 2, wherein the inner protrusion has an upper outer perimeter that is recessed from an outer side of the plate to form a recessed edge around the inner protrusion, wherein the inner side of the plate forms a bonding area at the inner protrusion edge, wherein the recessed edge has an upper surface that is located between the outer side of the plate and the inner protrusion upper surface, and wherein the inner protrusion upper surface has a width that is greater than a width of the inner protrusion lower surface.

4. The top cap of claim 3, wherein the inner protrusion has a plurality of notches, the outer protrusion has a plurality of recess portions corresponding to the notches of the inner protrusion, and the recess portions and the notches are at least partially overlapped in a vertical direction to form a plastic flow channel.

5. The top cover of the power battery as claimed in claim 4, wherein a plurality of protruding pieces are formed between adjacent space avoidance portions, a plurality of through holes penetrating through the inner convex portions are further formed between the notches, and the through holes form plastic flow channels corresponding to the space avoidance portions.

6. The top cap of claim 5, wherein the outer covering of the insulating body covers the upper surface of the outer protrusion and the upper side of the concave edge, and the outer covering protrudes upward from the outer side surface of the plate body; the middle layer is filled in the upper surface of the inner convex part and positioned between the inner convex part and the outer convex part to realize electrical isolation of the inner convex part and the outer convex part; the outer cladding layer wraps the lower surface of the inner convex portion, the peripheral surface of the connecting portion and the bottom surface of the combining area.

7. The power cell top cap of claim 6, wherein the post further comprises a buried portion between the outer protrusion and the connecting portion, wherein the connecting portion has an outer diameter smaller than an outer diameter of the buried portion, and wherein the intermediate layer comprises a horizontal portion between the inner protrusion and the outer protrusion and a vertical portion extending downward from an inner side of the horizontal portion between an inner edge of the inner protrusion and an outer circumferential surface of the buried portion; the inner cladding comprises an embedded part bottom surface and an inner convex part bottom surface which are filled in the periphery of the connecting part, an inner cladding main body of the bottom surface of the combining area and a blind hole embedding part filled in the blind holes.

8. The top cap of claim 7, wherein a first receiving space is formed between the outer cladding and the middle layer for receiving the outer protrusion, a second receiving space is formed between the middle layer and the inner cladding for receiving the inner protrusion, and the outer cladding, the middle layer and the inner cladding of the insulator are of an integral structure.

9. The top cap of claim 8, wherein the insulation body is made of modified PPS, and the regions where the cover plate, the terminal post and the insulation body are combined are subjected to nano-etching to form nano-pores on the metal surface, so that plastic materials enter the nano-pores to achieve better bonding force and sealing property.

10. A power battery is characterized by comprising a shell, a plurality of battery monomers arranged in the shell and a top cover according to any one of claims 1 to 9, wherein the top cover is sealed on the shell and connects the battery monomers together, the top cover is provided with a positive pole and a negative pole, and the battery monomers are connected to the positive pole and the negative pole in a series connection mode.