CN108470859B - Starter battery, battery body thereof, and variable case - Google Patents

Abstract

The invention discloses a starting battery, a battery main body and a variable shell, wherein the shell comprises an embedded shell and a nested shell, one end of the embedded shell is provided with an embedded opening so as to allow one end of the battery main body to be inserted into the embedded shell from the embedded opening, the nested shell comprises a fixed shell and a telescopic shell, one end of the telescopic shell is connected with the fixed shell and can be telescopic along the length direction of the nested shell, the other end of the telescopic shell is provided with a nested opening so that the nested shell is sleeved outside the other end of the battery main body, the embedded shell and the nested shell can form a closed shell for attaching the battery main body therein, and the accommodating space and the surface volume of the shell can be adjusted by adjusting the telescopic shell. It has the following advantages: the external dimension of the starting battery is variable, and the starting battery is applicable to installation with different space dimensions; the structure design is ingenious and simple, the implementation and the operation are easy, and the manufacturing cost is low.

Description

Starter battery, battery body thereof, and variable case

Technical Field

The present invention relates to the field of starting batteries, and more particularly, to a starting battery, a battery body and a variable case thereof.

Background

The starter battery is an indispensable part of the engine system, and the design of the starter battery is related to the convenience of operation of downstream industries, the purchase of configuration of equipment accessories, and the rapidity of replacement.

The starting battery in the current market has various kinds of starting battery products designed according to different manufacturers and purposes, and the sizes of the starting battery products are different. The appearance size of the starting battery is determined by the design of the starting system, and the appearance sizes of the starting batteries matched with different starting systems are different, so that the starting battery in the market is different in model number and appearance size, lacks of uniform assembly size, is not strong in applicability, and is extremely easy to cause fault or product monopoly in the updating process due to the limitation of the appearance size design of the starting battery.

Disclosure of Invention

The present invention provides a starting battery, a battery body and a variable case thereof, which overcome the shortcomings of the prior art described in the background art.

One of the technical schemes adopted for solving the technical problems is as follows:

the utility model provides a changeable casing of start battery, this casing includes inserts casing and nested casing, the one end of inserting the casing is for inlaying the opening of inserting in order to allow the one end of this battery main part to insert the opening of inserting in this and insert the casing, this nested casing includes fixed casing and one end and connect this fixed casing and can follow the flexible casing of length direction of this nested casing, the other end of this flexible casing is the nested opening so that this nested casing cup joints outside the other end of this battery main part, this inlays and inserts casing and nested casing and can constitute the confined casing that attaches this battery main part wherein, and can adjust the accommodation space and the surface volume of this casing through adjusting this flexible casing.

In one embodiment: the wall of the embedded shell or the nested shell is provided with a chute communicated with the inside and the outside of the embedded shell or the nested shell, and the length direction of the chute is consistent with the length direction of the shell.

In one embodiment: the walls of the embedded shell and the nested shell are respectively provided with a chute communicated with the inside and the outside of the embedded shell or the nested shell, and the length direction of the chute is consistent with the length direction of the shell.

In one embodiment: the sliding groove on the embedding shell extends to the embedding opening, and the sliding grooves on the embedding shell and the embedding shell are positioned on the same length straight line.

In one embodiment: the inner wall of the embedded shell is provided with a guide structure for guiding the moving direction of the battery body.

In one embodiment: the guide structure comprises a guide rail which is convexly arranged on the inner wall of the embedded shell, and the guide rail is arranged along the length direction of the embedded shell and extends to the embedded opening.

In one embodiment: the embedded shell is square and has four inner edges, and the four inner edges are the guide structure.

In one embodiment: the embedded shell is provided with an electrode terminal, the embedded shell is provided with another electrode terminal, and the two electrode terminals are used for being electrically connected with the two electrodes of the battery body in a one-to-one correspondence manner.

In one embodiment: the telescopic shell is of a hierarchical nested telescopic shell structure.

The second technical scheme adopted by the invention for solving the technical problems is as follows:

the battery body of the variable shell is arranged on one scheme, a sliding button is arranged on the side face of the battery body, the sliding button penetrates through a sliding groove on the embedded shell or the nested shell to the outer side of the embedded shell or the nested shell, and the sliding button drives the battery body to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

The third technical scheme adopted by the invention for solving the technical problems is as follows:

the battery body of the variable shell is arranged on one scheme, at least one sliding button is arranged on the side face of the battery body, the sliding button correspondingly penetrates through the sliding groove on the embedded shell and/or the embedded shell to the outer side of the embedded shell and/or the embedded shell, and the sliding button drives the battery body to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

The fourth technical scheme adopted for solving the technical problems is as follows:

the battery body of the variable shell is arranged on one of the schemes, a guide groove which can be matched with the guide rail is concavely arranged on the outer wall of the battery body, the battery body moves along the guide of the guide rail and the guide groove, two sliding buttons are arranged on the side face of the battery body, the two sliding buttons correspondingly penetrate through sliding grooves on the embedded shell and the embedded shell to the outer sides of the embedded shell and the embedded shell, and the sliding buttons drive the battery body to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

The fifth technical scheme adopted by the invention for solving the technical problems is as follows:

the battery body is a square body and is provided with four external edges and corners, and the four external edges and corners are correspondingly matched with the four internal edges and corners of the embedded shell respectively so as to guide the battery body to move along the guiding directions of the external edges and corners.

The sixth technical scheme adopted by the invention for solving the technical problems is as follows:

a starting battery comprising the variable case of the starting battery according to one of the technical aspects and the battery main body according to the fourth technical aspect.

A starting battery comprising the variable case of the starting battery according to one of the aspects and the battery main body according to the fifth aspect.

Compared with the background technology, the technical proposal has the following advantages:

1. according to the invention, the integral starting battery shell is divided into the embedded shell and the embedded shell, the embedded shell is provided with the telescopic shell, and the accommodating space and the surface volume of the shell are adjusted by adjusting the telescopic shell, so that the external dimension of the starting battery can be changed, and the starting battery is suitable for installation with different space dimensions.

2. The invention can be suitable for installing the starting battery in different starting systems by simply pushing and pulling the nested shell to change the external dimension of the starting battery through improving the starting battery structure, reduces the model stock of a seller, reduces the selection difficulty of a purchaser, avoids the phenomena of product faults and monopoly, and reduces the downstream industrial cost.

3. The invention adopts the variable shell structure, the battery main body and the structure of the starting battery, has ingenious and simple design, is easy to realize and operate, and has lower manufacturing cost.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is one of the schematic structural diagrams of a starting battery.

Fig. 2 is a schematic perspective view of the starter battery shown in fig. 1.

Fig. 3 is a second schematic view of the structure of the starting battery.

Fig. 4 is a schematic view of a starting battery with a guide rail and channel structure.

Fig. 5 is a schematic view of a starter battery having an outer corner and an inner corner.

Fig. 6 is a section A-A of fig. 5.

Detailed Description

Referring to fig. 1 to 3, a variable case of a starting battery includes a socket case 10 and a nest case 20, one end of the socket case 10 is a socket opening to allow one end of the battery body 30 to be inserted into the socket case 10 from the socket opening, the nest case 20 includes a fixed case 21 and a telescopic case 22 having one end connected to the fixed case 21 and telescopic in a length direction of the nest case 20, the other end of the telescopic case 22 is a socket opening to allow the nest case 20 to be sleeved outside the other end of the battery body 30, the socket case 10 and the nest case 20 can constitute a closed case in which the battery body 30 is attached, and an accommodation space and a surface volume of the case can be adjusted by adjusting the telescopic case 22. The battery body 30 attached in the case is partially located in the insert case 10, and partially is in the nest case 20.

The insertion housing 10 is provided with an electrode terminal 11, and the insertion housing 20 is provided with another electrode terminal 23 for electrically connecting two electrodes of the battery body 30 in one-to-one correspondence.

The telescopic housing 22 may be a hierarchical nested telescopic tube structure, and has N (N is a natural number) telescopic joints, where each N telescopic joint can cover a battery main body portion located outside the nested housing 10 after being stretched, and the external dimension and the accommodating space of the housing are changed by shrinking or expanding the push-pull hierarchy of the telescopic housing 22.

In a preferred embodiment, the wall of the embedded casing 10 or the embedded casing 20 is provided with a chute for connecting the inside and the outside of the embedded casing or the embedded casing, and the length direction of the chute is consistent with the length direction of the casing.

In another preferred embodiment, referring to fig. 1 to 3, the walls of the insert housing 10 and the nest housing 20 are respectively provided with a sliding groove 12, 24 for connecting the inside and the outside of the insert housing 10 or the nest housing 20, and the length direction of the sliding groove 12, 24 is consistent with the length direction of the housing. The sliding groove 12 on the embedded shell 10 can extend to the embedded opening, the sliding groove 24 on the embedded shell 20 can extend to the embedded opening, the sliding grooves 12 and 24 on the embedded shell 10 and the embedded shell 20 are positioned on the same length straight line, and the sliding grooves 12 and 24 can be arranged at the lower part of the side surface of the shell or on the top surface of the shell.

The inner wall of the insertion housing 10 is provided with a guide structure for guiding the movement direction of the battery body.

In another preferred embodiment, referring to fig. 4, the guiding structure includes a guiding rail 13 protruding on the inner wall of the insertion housing 10, and the guiding rail 13 is disposed along the length direction of the insertion housing 10 and extends to the insertion opening.

In another preferred embodiment, referring to fig. 5 and 6, the insert housing 10 is square and has four inner corners, and the four inner corners form the guiding structure. In practical applications, the four inner corners may be further optimized to form a trench structure 14 (concave arc modification is made on the inner corners).

Corresponding to the change of the structure of the housing to which the battery body is attached, the battery body also makes an adaptive structural change, concretely as follows:

corresponding to the variable housing in a preferred embodiment, a sliding button 31 is disposed on a side surface of the battery body 30, the sliding button 31 passes through a sliding groove on the insert housing 10 or the insert housing 20 to the outside of the insert housing 10 or the insert housing 20, and the sliding button 31 drives the battery body 30 to move along the length direction of the housing to adjust the placement position of the battery body in the housing (according to the optimal position of the battery body and the housing).

Corresponding to the variable housing in another preferred embodiment, please refer to fig. 1 to 3, at least one sliding button 31 is disposed on a side surface of the battery body, the sliding button 31 correspondingly passes through the sliding grooves 12, 24 on the embedded housing 10 and/or the nested housing 20 to the outside of the embedded housing 10 and/or the nested housing 20, and the sliding button 31 drives the battery body 30 to move along the length direction of the housing to adjust the placement position of the battery body in the housing (according with the optimal position of the battery body and the housing).

The above-mentioned matching structure of the sliding button 31 and the sliding slot may be similar to the matching structure of the sliding button of the blade of the utility knife and the sliding slot on the knife shell, but is not limited to the matching structure of the sliding button and the sliding slot of the utility knife.

Corresponding to the variable housing in the preferred embodiment, referring to fig. 4, a guide groove 32 capable of being matched with the guide rail 13 is concavely provided on the outer wall of the battery body 30, the battery body 30 moves along the guide of the guide rail 13 and the guide groove 32, a set of matching structures of the guide groove 32 and the guide rail 13 can be provided, and the matching structures of the guide groove 32 and the guide rail 13 can be provided on the upper side of the battery body 30, and the matching structures of the guide groove 32 and the guide rail 13 can be provided on the upper side and the lower side of the battery body 30 respectively. Two sliding buttons 31 are arranged on the side surface of the battery body 30, the two sliding buttons 31 penetrate through the sliding grooves 12 and 24 on the embedded shell 10 and the embedded shell 20 to the outer sides of the embedded shell 10 and the embedded shell 20 in a one-to-one correspondence manner, and the sliding buttons 31 drive the battery body 30 to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

Referring to fig. 5 and 6, the battery body 30 is square and has four external corners corresponding to the four internal corners of the insert housing 10, respectively, to guide the battery body 30 to move along the guiding directions of the external corners and the internal corners. In practical application, the four outer edges and corners can be optimized to form a convex rail structure 33 (the outer edges and corners are modified by convex arc), and the guiding movement of the battery body is realized by the cooperation of the convex rail structure 33 and the groove structure 14.

A starter battery comprising a variable housing (including a nest housing 10 and a nest housing 20) of the starter battery of a preferred embodiment and a battery body 30 of a further preferred embodiment.

A starter battery comprising a variable housing (including a nest housing 10 and a nest housing 20) of the starter battery of another preferred embodiment and a battery body 30 of yet another preferred embodiment.

According to the invention, the integral starting battery shell is divided into the embedded shell 10 and the embedded shell 20, the embedded shell 20 is provided with the telescopic shell 22, and the accommodating space and the surface volume of the shell are adjusted by adjusting the telescopic shell 22, so that the external dimension of the starting battery is changeable, and the starting battery is suitable for installation of different space dimensions, namely, the starting battery in different starting systems, the model stock of a seller is reduced, the selection difficulty of a purchaser is reduced, the occurrence of product fault and monopoly phenomena is avoided, and meanwhile, the downstream industrial cost is reduced. The variable shell structure, the battery main body and the starting battery structure adopted by the invention have ingenious and simple design, easy realization and operation and lower manufacturing cost.

The foregoing description is only illustrative of the preferred embodiments of the present invention, and therefore should not be taken as limiting the scope of the invention, for all changes and modifications that come within the meaning and range of equivalency of the claims and specification are therefore intended to be embraced therein.

Claims (15)

1. A variable housing for a starter battery, characterized by: the shell comprises an embedded shell and a nested shell, wherein one end of the embedded shell is provided with an embedded opening so as to allow one end of the battery body to be inserted into the embedded shell from the embedded opening, the nested shell comprises a fixed shell and a telescopic shell, one end of the telescopic shell is connected with the fixed shell and can stretch out and draw back along the length direction of the nested shell, the other end of the telescopic shell is provided with a nested opening so that the nested shell is sleeved outside the other end of the battery body, the embedded shell and the nested shell can form a closed shell in which the battery body is assembled, and the accommodating space and the surface volume of the shell can be adjusted by adjusting the telescopic shell.

2. The variable case of a starting battery according to claim 1, wherein: the wall of the embedded shell or the nested shell is provided with a chute communicated with the inside and the outside of the embedded shell or the nested shell, and the length direction of the chute is consistent with the length direction of the shell.

3. The variable case of a starting battery according to claim 1, wherein: the walls of the embedded shell and the nested shell are respectively provided with a chute communicated with the inside and the outside of the embedded shell or the nested shell, and the length direction of the chute is consistent with the length direction of the shell.

4. A variable housing for a starter battery according to claim 3, wherein: the sliding groove on the embedding shell extends to the embedding opening, and the sliding grooves on the embedding shell and the embedding shell are positioned on the same length straight line.

5. The variable case of a starting battery according to claim 3 or 4, characterized in that: the inner wall of the embedded shell is provided with a guide structure for guiding the moving direction of the battery body.

6. The variable case of a starting battery according to claim 5, wherein: the guide structure comprises a guide rail which is convexly arranged on the inner wall of the embedded shell, and the guide rail is arranged along the length direction of the embedded shell and extends to the embedded opening.

7. The variable case of a starting battery according to claim 5, wherein: the embedded shell is square and has four inner edges, and the four inner edges are the guide structure.

8. The variable case of a starting battery according to claim 1, wherein: the embedded shell is provided with an electrode terminal, the embedded shell is provided with another electrode terminal, and the two electrode terminals are used for being electrically connected with two electrodes of the starting battery in a one-to-one correspondence manner.

9. The variable case of a starting battery according to claim 1, wherein: the telescopic shell is of a hierarchical nested telescopic shell structure.

10. The battery body attached to the variable case of claim 2, wherein: the side of the battery body is provided with a sliding button, the sliding button passes through a sliding groove on the embedded shell or the embedded shell to the outer side of the embedded shell or the embedded shell, and the sliding button drives the battery body to move in the length direction of the shell so as to adjust the placement position of the battery body in the shell.

11. The battery body attached to the variable case of claim 3, wherein: at least one sliding button is arranged on the side surface of the battery body, the sliding button correspondingly penetrates through the sliding groove on the embedded shell and/or the embedded shell to the outer side of the embedded shell and/or the embedded shell, and the sliding button drives the battery body to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

12. The battery body attached to the variable case of claim 6, wherein: the outer wall of the battery body is concavely provided with a guide groove which can be matched with the guide rail, the battery body moves along the guide of the guide rail and the guide groove, the side surface of the battery body is provided with two sliding buttons, the two sliding buttons penetrate through the sliding grooves on the embedded shell and the embedded shell to the outer sides of the embedded shell and the embedded shell in a one-to-one correspondence mode, and the sliding buttons drive the battery body to move in the length direction of the shell to adjust the placement position of the battery body in the shell.

13. The battery body attached to the variable case of claim 7, wherein: the battery body is a square body and is provided with four external edges and corners, and the four external edges and corners are correspondingly matched with the four internal edges and corners of the embedded shell respectively so as to guide the battery body to move along the guiding of the external edges and corners.

14. A starting battery characterized by: a variable case including the starter battery of claim 6 and the battery main body of claim 12.

15. A starting battery characterized by: a variable case including the starter battery of claim 7 and the battery main body of claim 13.