CN109546172B - Zinc-silver battery shell bonding device and processing and assembling method - Google Patents

Abstract

The invention relates to a zinc-silver battery shell bonding device and a processing and assembling method, wherein the device comprises: the mounting holes are machined in corresponding positions on the bottom plate; the upright post is provided with a threaded hole at the position close to the bottom plate and is fixed on the bottom plate; the positioning plate is fixed on the bottom plate by using bolts; the beam is provided with mounting holes at the center and two ends; the upper end of the compression screw is square, and the lower end of the compression screw is spherical and is connected to the cross beam; the side shaft screw is connected with the upright post; the center of the pressing block is provided with a spherical hole; and the clamping block is used for respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw. The invention has the advantages that: the structure is simple, the bonding strength and the bonding efficiency of the zinc-silver battery shell are effectively improved, the screw rod can be adjusted, the shell can be used for shells with different sizes, and the application range is wide; the adhesive can also be used for adhering and fixing other objects, and is not limited to the adhesion of the zinc-silver battery shell.

Description

Zinc-silver battery shell bonding device and processing and assembling method

Technical Field

The invention relates to a zinc-silver battery shell bonding device and a processing and assembling method.

Background

The zinc-silver battery has the characteristics of high specific energy, high specific power, capability of discharging with large current, stable discharge voltage, high voltage precision, good reliability and safety and the like, and is widely applied to various fields. The zinc-silver battery generally comprises a shell, a liquid storage device, a battery stack and other components, when the battery pack is activated to use, the gas generator is ignited to generate enough gas, electrolyte stored in the liquid storage device is pushed into the battery stack within a specified time, the electrolyte is activated to establish electromotive force, and voltage is output to the outside.

The battery stack is an important component in a battery pack, the battery stack consists of a pole plate group and a shell, and the bonding strength of the shell must ensure complete isolation between the pole plate group and no leakage of electrolyte. The reliability of the case bonding is directly related to the safety and reliability of the battery. In order to ensure that all parts of the shell can be directly and reliably connected and assembled, a simple and reliable zinc-silver battery shell bonding device needs to be designed urgently.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the zinc-silver battery shell bonding device and the processing and assembling method are simple and effective to realize and can effectively improve the shell bonding strength.

The specific solution technical scheme adopted in the invention is as follows: a zinc-silver battery shell bonding device is characterized by comprising: the mounting holes are machined in corresponding positions on the bottom plate; the upright post is provided with a threaded hole at the position close to the bottom plate and is fixed on the bottom plate; the positioning plate is fixed on the bottom plate by using bolts; the beam is provided with mounting holes at the center and two ends; the upper end of the compression screw is square, and the lower end of the compression screw is spherical and is connected to the cross beam; the side shaft screw is connected with the upright post; the center of the pressing block is provided with a spherical hole; and the clamping block is used for respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw.

Another object of the present invention is to provide a method for processing and assembling a device for bonding a zinc-silver battery case, comprising the steps of: firstly, machining a first steel plate to obtain a bottom plate, and machining mounting holes at corresponding positions on the bottom plate; machining a second steel plate to obtain an upright post, machining threaded holes at two ends of the upright post, and fixing the upright post on the bottom plate by using an inner hexagon bolt; step three, selecting an angle steel machine to process to obtain a positioning plate, and fixing the positioning plate on the bottom plate by using bolts; machining the second steel plate to obtain a cross beam, wherein mounting holes are formed in the center and two ends of the cross beam, and the cross beam is mounted on the stand column; step five, processing by using round steel to obtain a compression screw, wherein the upper end of the compression screw is square, and the lower end of the compression screw is spherical, and connecting the compression screw to the cross beam; processing by adopting round steel to obtain a side shaft screw rod, wherein the right end of the side shaft screw rod is square, and the left end of the side shaft screw rod is spherical, and connecting the side shaft screw rod to the upright post; step seven, processing round steel to obtain a pressing block, and processing a spherical hole in the center of the pressing block; step eight, processing round steel to obtain a clamping block; and step nine, respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw, and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw by using the clamping block.

The invention has the following beneficial effects:

the pressing block is in spherical contact with the compression screw and the side shaft screw respectively, and then is connected by the clamping block. The screw rod all can be adjusted, all can use to not unidimensional casing, and accommodation is wide, and the locating plate is vertical distribution, and the roughness that can effectual assurance between the bonding part and hang down straightness guarantees the bonding position.

The second, it is extensive to use, carries out the machine tooling with first steel sheet and obtains the bottom plate, and corresponding position processing mounting hole on the bottom plate adopts the round steel, and processing obtains compression screw, the compression screw upper end is square, and the lower extreme is the sphere, connects compression screw on the crossbeam, can improve zinc-silver battery case's bonding strength effectively, also can be used to the fixed use of bonding of other things, does not confine to zinc-silver battery case's bonding.

Drawings

FIG. 1 is a front view of an embodiment of the bonding device for a zinc-silver battery case of the present invention;

FIG. 2 is a top view of an embodiment of the bonding apparatus for a zinc-silver battery case according to the present invention;

FIG. 3 is an assembly view of a screw and a pressing block of the embodiment of the bonding device for the zinc-silver battery shell of the invention;

fig. 4 is a schematic diagram of a positioning plate of an embodiment of the bonding device for a zinc-silver battery shell of the invention.

The reference numbers are schematic:

1. bottom plate 2, positioning plate 3, upright post 4, cross beam 5 and compression screw

6. Pressing block 7, clamping block 8, side shaft screw rod

Detailed Description

For a further understanding of the invention, its nature and efficacy, reference should be made to the following examples, which are set forth in the following detailed description and illustrated in the accompanying drawings:

example 1

Referring to fig. 1 to 4, the device for bonding a casing of a zinc-silver battery according to the present embodiment includes: a mounting hole is processed at a corresponding position on the bottom plate 1; the upright post 3 is provided with a threaded hole at the position, close to the bottom plate 1, of the upright post 3 and is fixed on the bottom plate 1; the positioning plate 2 is fixed on the bottom plate 1 by bolts; the beam 4 is provided with mounting holes at the center and two ends of the beam 4; the upper end of the compression screw rod 5 is square, and the lower end of the compression screw rod 5 is spherical and is connected to the cross beam 4; a side shaft screw 8 connected with the upright column 3; a pressing block 6, wherein a spherical hole is machined in the center of the pressing block 6; and a clamping block 7, wherein the pressing block 6 is in spherical contact with the compression screw 5 and the side shaft screw 8 respectively, and then is connected by using the clamping block 7.

In this embodiment, the right end of the side shaft screw is square, and the left end is spherical.

In this embodiment, the pressing screw performs vertical movement adjustment.

In this embodiment, the side shaft screw is adjusted to move left and right.

In this embodiment, the pressing block is connected through a spherical surface, and is adjusted by rotating 360 degrees.

The processing and assembling method of the zinc-silver battery shell bonding device in the embodiment comprises the following steps:

firstly, machining a first steel plate to obtain a bottom plate, and machining mounting holes at corresponding positions on the bottom plate;

machining a second steel plate to obtain an upright post, machining threaded holes at two ends of the upright post, and fixing the upright post on the bottom plate by using an inner hexagon bolt;

step three, selecting an angle steel machine to process to obtain a positioning plate, and fixing the positioning plate on the bottom plate by using bolts;

machining the second steel plate to obtain a cross beam, wherein mounting holes are formed in the center and two ends of the cross beam, and the cross beam is mounted on the stand column;

step five, processing by using round steel to obtain a compression screw, wherein the upper end of the compression screw is square, and the lower end of the compression screw is spherical, and connecting the compression screw to the cross beam;

processing by adopting round steel to obtain a side shaft screw rod, wherein the right end of the side shaft screw rod is square, and the left end of the side shaft screw rod is spherical, and connecting the side shaft screw rod to the upright post;

step seven, processing round steel to obtain a pressing block, and processing a spherical hole in the center of the pressing block;

step eight, processing round steel to obtain a clamping block;

and step nine, respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw, and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw by using the clamping block.

The invention can effectively improve the bonding strength and bonding efficiency of the zinc-silver battery shell, the screw rod can be adjusted, the invention can be used for shells with different sizes, and the application range is wide; the adhesive can also be used for adhering and fixing other objects, and is not limited to the adhesion of the zinc-silver battery shell.

In the case of the example 2, the following examples are given,

the zinc-silver battery shell bonding device of the embodiment comprises: the mounting holes are machined in corresponding positions on the bottom plate; threaded holes are processed in two ends of each upright column, a threaded hole is processed in a position, close to the bottom plate, of one upright column, and the upright columns are fixed on the bottom plate through hexagon socket head bolts; the two positioning plates are fixed on the bottom plate by bolts; the central position and two ends of the cross beam are provided with mounting holes which are arranged on the upright post; the upper end of the compression screw is square, and the lower end of the compression screw is spherical and is connected to the cross beam; the right end of the side shaft screw is square, and the left end of the side shaft screw is spherical and is connected to the right upright post; the center of the pressing block is provided with a spherical hole; a clamping block; and respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw, and connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw by using the clamping block.

In this embodiment, the number of the stand is two, and a threaded hole is processed near the bottom plate portion of one of the stands, uses hexagon socket head cap screw to fix on the bottom plate.

In this embodiment, the number of the positioning plates is two, and the positioning plates are vertically arranged.

In this embodiment, the right end of the side shaft screw is square, and the left end is spherical.

In this embodiment, the pressing screw performs vertical movement adjustment.

In this embodiment, the side shaft screw is adjusted to move left and right.

In this embodiment, the pressing block is connected through a spherical surface, and is adjusted by rotating 360 degrees.

The zinc-silver battery shell bonding device and the processing and assembling method of the embodiment comprise the following steps:

step one, selecting a No. 45 steel plate with the thickness of 40mm, machining to obtain a bottom plate, and machining mounting holes in corresponding positions on the bottom plate;

step two, selecting a No. 45 steel plate with the thickness of 30mm, machining to obtain two upright columns, machining threaded holes at two ends of each upright column, machining a hole at the position, close to the bottom plate, of one upright column, and fixing the upright columns on the bottom plate by using hexagon socket head cap screws;

step three, selecting an angle steel machine to process to obtain two positioning plates, and fixing the positioning plates on the bottom plate by using bolts;

step four, selecting a No. 45 steel plate with the thickness of 40mm, machining to obtain a cross beam, wherein mounting holes are formed in the center position and two ends of the cross beam, and mounting the cross beam on the stand column;

step five, processing by using round steel to obtain a compression screw, wherein the upper end of the compression screw is square, and the lower end of the compression screw is spherical, and connecting the compression screw to the cross beam;

processing by adopting round steel to obtain a side shaft screw rod, wherein the right end of the side shaft screw rod is square, and the left end of the side shaft screw rod is spherical, and connecting the side shaft screw rod to the upright post;

step seven, processing round steel to obtain a pressing block, and processing a spherical hole in the center of the pressing block;

step eight, processing round steel to obtain a clamping block;

and step nine, respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw, and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw by using the clamping block.

The invention can effectively improve the bonding strength and bonding efficiency of the zinc-silver battery shell, the screw rod can be adjusted, the invention can be used for shells with different sizes, and the application range is wide; the adhesive can also be used for adhering and fixing other objects, and is not limited to the adhesion of the zinc-silver battery shell.

The invention has the following beneficial effects:

the pressing block is in spherical contact with the compression screw and the side shaft screw respectively, and then is connected by the clamping block. The screw rod all can be adjusted, all can use to not unidimensional casing, and accommodation is wide, and the locating plate is vertical distribution, and the roughness that can effectual assurance between the bonding part and hang down straightness guarantees the bonding position.

The second, it is extensive to use, carries out the machine tooling with first steel sheet and obtains the bottom plate, and corresponding position processing mounting hole on the bottom plate adopts the round steel, and processing obtains compression screw, the compression screw upper end is square, and the lower extreme is the sphere, connects compression screw on the crossbeam, can improve zinc-silver battery case's bonding strength effectively, also can be used to the fixed use of bonding of other things, does not confine to zinc-silver battery case's bonding.

While the invention has been described with reference to preferred embodiments, it is not intended to be limited thereto. It is obvious that not all embodiments need be, nor cannot be exhaustive here. Variations and modifications of the present invention can be made by those skilled in the art without departing from the spirit and scope of the present invention by using the design and content of the above disclosed embodiments, and therefore, any simple modification, parameter change and modification of the above embodiments based on the research essence of the present invention shall fall within the protection scope of the present invention.

Claims (3)

1. A processing and assembling method of a zinc-silver battery shell bonding device is characterized in that: the method comprises the following steps:

firstly, machining a first steel plate to obtain a bottom plate, and machining mounting holes at corresponding positions on the bottom plate;

machining a second steel plate to obtain an upright post, machining threaded holes at two ends of the upright post, and fixing the upright post on the bottom plate by using an inner hexagon bolt;

step three, selecting an angle steel machine to process to obtain a positioning plate, and fixing the positioning plate on the bottom plate by using bolts;

machining the second steel plate to obtain a cross beam, wherein mounting holes are formed in the center and two ends of the cross beam, and the cross beam is mounted on the stand column;

step five, processing by using round steel to obtain a compression screw, wherein the upper end of the compression screw is square, and the lower end of the compression screw is spherical, and connecting the compression screw to the cross beam;

processing by adopting round steel to obtain a side shaft screw rod, wherein the right end of the side shaft screw rod is square, and the left end of the side shaft screw rod is spherical, and connecting the side shaft screw rod to the upright post;

step seven, processing round steel to obtain a pressing block, and processing a spherical hole in the center of the pressing block;

step eight, processing round steel to obtain a clamping block;

and step nine, respectively contacting the pressing block with the spherical surfaces of the compression screw and the side shaft screw, and then connecting the pressing block with the spherical surfaces of the compression screw and the side shaft screw by using the clamping block.

2. The processing and assembling method of the bonding device for the zinc-silver battery shell as claimed in claim 1, wherein the bonding device comprises: the first steel plate is a No. 45 steel plate with the thickness of 30 mm.

3. The method for processing and assembling the bonding device for the zinc-silver battery shell as claimed in claim 1, wherein the second steel plate is a No. 45 steel plate with a thickness of 30 mm.

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