CN114050367A - Anti-seismic assembly for lead storage battery - Google Patents

Abstract

The invention provides an anti-seismic assembly for a lead storage battery, and relates to the technical field of lead storage batteries. According to the invention, through the arrangement of the shock-absorbing clamping sliding plate and the threaded fixing hole, when the shock-absorbing clamping sliding plate is used, the shock-absorbing clamping sliding plate is fixed through the threaded fixing hole, so that a lead storage battery shell is fixed, the shock-absorbing clamping sliding plate can be pulled and limited by pulling the shock-absorbing spring, so that the connection strength of the shock-absorbing clamping sliding plate is increased, meanwhile, when shaking occurs, a lead storage battery shell piece can be buffered, so that the lead storage battery shell is protected, the damage of the lead storage battery shell is prevented, through the arrangement of the internal slowing-down rubber pad, the shock-absorbing clamping sliding plate and the internal sliding clamping cavity can be buffered, and meanwhile, the internal slowing-down rubber pad has certain elasticity, so that the shock-absorbing clamping sliding plate can further play a role of shock resistance.

Description

Anti-seismic assembly for lead storage battery

Technical Field

The invention relates to the technical field of lead storage batteries, in particular to an anti-seismic assembly for a lead storage battery.

Background

In addition to lithium batteries, lead storage batteries are also a very important battery system. The lead storage battery has the advantages of stable electromotive force during discharging and the disadvantages of small specific energy (unit weight of stored electric energy) and strong corrosiveness to the environment. The lead accumulator has stable working voltage, wide range of using temperature and current, several hundred cycles of charging and discharging, good storage performance (especially suitable for dry charge storage) and low cost, so it has wide application.

As disclosed in chinese patent publication No.: CN110854450A, a 2V high-capacity lead storage battery, wherein the opening of the tank body is upward, the positive plate and the negative plate of the electrode group are horizontally arranged, and the positive lug and the negative lug in the electrode group are respectively positioned at two opposite sides of the electrode group; the periphery of utmost point crowd still is equipped with the overcoat that is used for the fixed utmost point crowd of pressfitting, the overcoat includes upper cover and the lower cover of mutual lock, and the lateral wall top surface of lower cover is equipped with first gluey groove, and the upper cover has to stretch into the protruding edge in first gluey groove, it has sealed glue to pour into in the first gluey groove. The invention uses the outer sleeve to press and fix the pole group and then assembles the pole group into the battery jar, the outer sleeve is formed by buckling the upper cover and the lower cover, and the upper cover and the lower cover do not need to be provided with demoulding angles during production, thereby balancing the pressure at each position of the pole group and ensuring the effective and balanced pressure of the whole life cycle of the pole group. The polar plate level is placed, effective prevention, the inhomogeneous phenomenon of polar plate utilization ratio that the layering of battery acid density brought has been improved, increase battery life, the anti-seismic performance of battery has been promoted, but the device has following shortcoming in the use, the device is when using, adopt the horizontally mode to place the inside polar plate of lead accumulator, polar plate in it is when the level is placed, horizontal migration can take place, in the in-process of transportation, very easily lead to the polar plate to collide with lead accumulator's shell, cause lead accumulator shell's damage, the production of collision can produce lead accumulator shell and take place certain rocking simultaneously, make lead accumulator can't be better protect its inside spare part, thereby can reduce lead accumulator's life in using.

Disclosure of Invention

The invention aims to solve the defects that when a lead storage battery in the prior art is installed and used, the shell and the interior of the lead storage battery are easy to displace and damage due to vibration, the shell of the lead storage battery is only protected in strength by using reinforcing ribs to prevent damage, but the interior of the shell of the lead storage battery cannot be protected from displacing, so that the service life of the lead storage battery is shortened, and the anti-seismic component for the lead storage battery is provided.

In order to achieve the purpose, the invention adopts the following technical scheme: an anti-seismic assembly for lead storage batteries comprises a lead storage battery body, wherein the lead storage battery body comprises a lead storage battery shell, two sides of the lead storage battery shell are fixedly connected with side supporting and mounting plates, the upper end of the lead storage battery shell is fixedly connected with a lead storage battery top sealing, an inner sliding clamping cavity is formed in the side supporting and mounting plates, the upper end and the lower end in the inner sliding clamping cavity are respectively connected with a damping clamping sliding plate in a sliding manner, a pulling anti-seismic spring is fixedly connected between the two damping clamping sliding plates and used for reducing the vibration amplitude, an inner retarding rubber pad is arranged between the lower part of the damping clamping sliding plate and the end part in the inner sliding clamping cavity and used for further reducing the received vibration, and a buffering protective rubber ring is arranged between the upper end of the damping clamping sliding plate and the side supporting and mounting plates, the buffering protection rubber ring is used for slowing down the impact force between shock attenuation joint slide and the side support mounting panel, one side fixedly connected with of shock attenuation joint slide slows down the rubber strip, it is used for buffering when rocking to produce after the installation of shock attenuation joint slide to slow down the rubber strip.

Preferably, the middle part of one side of the retarding rubber strip is provided with an inner adsorption cavity, and one side of the shock absorption clamping sliding plate is provided with a threaded fixing hole in a penetrating mode.

Preferably, the lower end fixedly connected with of lead accumulator capping connects the flange down, lower joint flange and the inside fixed joint in lead accumulator shell's upper end.

Preferably, the upper end of lead accumulator capping is provided with connecting wire protective structure, connecting wire protective structure includes the electricity spliced pole, the upper end threaded connection of electricity spliced pole has the insulating knob of last extrusion, the cross recess of joint has been seted up to the upper end of the insulating knob of last extrusion.

Preferably, the outer surface of the lower end of the electric connecting column is sleeved with a lower rubber extrusion gasket, and the lower end of the lower rubber extrusion gasket is fixedly bonded with the upper end of the lead storage battery capping.

Preferably, the lead storage battery shell is internally provided with an inner isolation protection structure, the inner isolation protection structure comprises an inner transverse isolation plate, the upper end of the inner transverse isolation plate is clamped with an inner longitudinal isolation plate, the two sides of the inner transverse isolation plate and the inner longitudinal isolation plate are both provided with inner joint grooves, and the side surfaces of the inner transverse isolation plate and the inner longitudinal isolation plate are both fixedly connected with the inside of the lead storage battery shell.

Preferably, be provided with bight protection rubber pad between the bight of interior horizontal division board and interior longitudinal separation board, be provided with middle part protection rubber pad between the middle part of interior horizontal division board and interior longitudinal separation board, the equal fixedly connected with gomphosis joint fixed strip of surface of bight protection rubber pad and middle part protection rubber pad, gomphosis joint fixed strip and the fixed joint of interior gomphosis joint groove, the side of bight protection rubber pad and middle part protection rubber pad respectively with the side fixed connection of interior horizontal division board and interior longitudinal separation board.

Preferably, the lower extreme of lead accumulator shell is provided with the bottom and slows down the structure, the bottom slows down the structure including slowing down protection rubber gasbag, slow down protection rubber gasbag fixed connection at lead accumulator shell's lower extreme, the lower extreme fixedly connected with bottom isolation rubber slab that slows down protection rubber gasbag, the interior gasbag chamber has been seted up to the inside that slows down protection rubber gasbag.

Preferably, the inside of slowing down protection rubber gasbag runs through and has seted up interior logical groove, the inside in interior logical groove is provided with extrusion damping spring, extrusion damping spring's upper end and lead accumulator shell's lower extreme fixed connection.

Preferably, the lower end of the extrusion damping spring is fixedly connected with a bottom support gasket, and the lower end of the bottom support gasket is fixedly bonded with the upper end of the bottom isolation rubber plate.

Compared with the prior art, the invention has the advantages and positive effects that,

1. according to the invention, through the arrangement of the shock-absorbing clamping slide plate and the thread fixing hole, when in use, the shock-absorbing clamping slide plate is fixed through the thread fixing hole, so that the lead storage battery shell is fixed, through the arrangement of pulling the shock-proof spring, the position between the two shock-absorbing clamping slide plates can be pulled and limited, so that the connection strength of the shock-absorbing clamping slide plate is increased, meanwhile, when shaking occurs, the lead storage battery shell is buffered, so that the lead storage battery shell is protected, the damage of the lead storage battery shell is prevented, the service life of the lead storage battery is prolonged, through the arrangement of the internal slow-down rubber pad, the shock-absorbing clamping slide plate and the internal sliding clamping cavity can be buffered, meanwhile, the internal slow-down rubber pad has certain elasticity, so that the shock-proof effect can be further achieved, through the arrangement of the buffer protection rubber ring, the shock-absorbing clamping slide plate and the end part of the side support mounting plate can be buffered, thereby be connected between shock attenuation joint slide and the side support mounting panel and protect, use for a long time with the side support mounting panel in order to guarantee shock attenuation joint slide, through the setting that slows down the rubber strip, be used for when fixing shock attenuation joint slide, can cushion between shock attenuation joint slide and the connecting piece, thereby guarantee the integrality of shock attenuation joint slide installation face, the frictional force of face is connected to multiplicable shock attenuation joint slide simultaneously, stability when connecting in order to increase, through the setting of internal absorption cavity, can be when slowing down the rubber strip and being extruded the installation, make the gas escape in the internal absorption cavity, elasticity through, make the inside formation negative pressure of internal absorption cavity, thereby increase and slow down the adsorption affinity between rubber strip and the connecting piece, stability when further increasing the connection.

2. According to the invention, through the arrangement of the lower rubber extrusion gasket and the upper clamping cross groove, when the connecting wire is connected, the connecting wire can be extruded through the upper extrusion insulation knob, so that the lower rubber extrusion gasket is deformed, the end part of the connecting wire is embedded into the lower rubber extrusion gasket, the connecting wire is protected, the connecting wire is prevented from contacting dust and moisture, the damage of the connecting wire is prevented, then the connecting wire is wound in the upper clamping cross groove, the connecting wire is limited, and therefore when the connecting wire shakes, the shaking generated at the connecting part between the connecting wire and the electric connecting column is reduced, the connecting wire is prevented from bearing large shaking, and the connecting wire is easy to break.

3. According to the invention, the inner embedded clamping groove is arranged to play a role of a reinforcing rib, so that the longitudinal strength of the inner transverse partition plate and the inner longitudinal partition plate is increased, the inner transverse partition plate and the inner longitudinal partition plate are prevented from being bent, the corner protective rubber pad and the middle protective rubber pad are arranged to protect the inner transverse partition plate and the inner longitudinal partition plate, and meanwhile, the stability of connection between the inner transverse partition plate and the inner longitudinal partition plate is enhanced, so that the strength of the lead storage battery shell is further increased.

4. According to the invention, the bottom of the lead storage battery shell can be protected by slowing down the arrangement of the protective rubber air bag and the bottom isolation rubber plate, so that the protection of the lead storage battery shell can be further improved, the anti-seismic effect of the lead storage battery shell is further increased, the shock absorption effect can be further increased by extruding the shock absorption spring, so that the shock resistance is further increased, the bottom support gasket is arranged to protect the lower end of the bottom isolation rubber plate and prevent the bottom isolation rubber plate from being damaged, the bottom isolation rubber plate is used to protect the lower end of the slow-down protective rubber air bag, so that the damage of the slow-down protective rubber air bag is prevented, and the service life of the slow-down protective rubber air bag is prolonged.

Drawings

Fig. 1 is a schematic perspective view of an anti-seismic assembly for a lead-acid battery according to the present invention;

fig. 2 is a schematic diagram of an exploded structure of a seismic resistant assembly for a lead storage battery according to the present invention;

fig. 3 is a schematic perspective view of an internal isolation protection structure in an anti-seismic assembly for a lead-acid battery according to the present invention;

FIG. 4 is a schematic cross-sectional view of a lead-acid battery body in an anti-seismic assembly for a lead-acid battery according to the present invention;

FIG. 5 is a schematic diagram of an explosive structure of a bottom mitigating structure in an anti-seismic assembly for a lead-acid battery according to the present invention;

FIG. 6 is a schematic cross-sectional view of a buffering protection rubber airbag in an anti-seismic assembly for lead-acid batteries according to the present invention;

FIG. 7 is a schematic perspective view of a damping rubber strip in an anti-seismic assembly for lead-acid batteries according to the present invention;

FIG. 8 is an enlarged view of area A in FIG. 5 illustrating a shock-resistant assembly for a lead-acid battery according to the present invention;

fig. 9 is an enlarged structural view of the area B in fig. 7 of the anti-seismic assembly for the lead-acid battery according to the present invention.

Illustration of the drawings:

1. a lead storage battery body; 11. a lead storage battery case; 110. a buffer protection rubber ring; 111. pulling the anti-seismic spring; 112. an inner adsorption cavity; 12. capping the lead storage battery; 13. the side surface supports the mounting plate; 14. slowing down the rubber strip; 15. the sliding plate is clamped in a damping way; 16. the convex plate is clamped at the lower part; 17. a threaded fixing hole; 18. an inner sliding clamping cavity; 19. an inner retarding rubber pad;

2. a connecting wire protection structure; 21. an electrical connection post; 22. an upper extrusion insulation knob; 23. the upper clamp is connected with the cross slot; 24. a lower rubber extrusion washer;

3. an inner isolation guard structure; 31. an inner transverse separator plate; 32. an inner longitudinal separator plate; 33. corner protection rubber pads; 34. a joint clamping groove is embedded; 35. a middle protective rubber pad; 36. embedding and clamping the fixing strip;

4. a bottom retarding structure; 41. slowing down the protective rubber air bag; 42. a bottom isolation rubber plate; 43. an inner through groove; 44. extruding the damping spring; 45. a bottom support pad; 46. an inner balloon cavity.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

Embodiment 1, as shown in fig. 1 to 9, the present invention provides an anti-vibration assembly for a lead storage battery, which includes a lead storage battery body 1, the lead storage battery body 1 includes a lead storage battery housing 11, side support mounting plates 13 are fixedly connected to both sides of the lead storage battery housing 11, a lead storage battery top cover 12 is fixedly connected to an upper end of the lead storage battery housing 11, an inner sliding clamping cavity 18 is formed in the side support mounting plate 13, shock-absorbing clamping sliding plates 15 are slidably clamped to upper and lower ends of the inner sliding clamping cavity 18, a pulling anti-vibration spring 111 is fixedly connected between the two shock-absorbing clamping sliding plates 15, the pulling anti-vibration spring 111 is used to reduce vibration amplitude, an inner damping rubber gasket 19 is disposed between a lower side of the shock-absorbing clamping sliding plate 15 and an end of the inner sliding clamping cavity 18, the inner damping rubber gasket 19 is used to further reduce received vibration, and a buffer protection rubber ring 110 is disposed between an upper end of the shock-absorbing clamping sliding plate 15 and the side support mounting plate 13, buffering protection rubber circle 110 is used for slowing down the impact force between shock attenuation joint slide 15 and the side support mounting panel 13, one side fixedly connected with of shock attenuation joint slide 15 slows down rubber strip 14, it is used for producing when rocking to shock attenuation joint slide 15 installation back to slow down rubber strip 14 to cushion, interior absorption cavity 112 has been seted up at one side middle part that slows down rubber strip 14, threaded fixing hole 17 has been run through to one side of shock attenuation joint slide 15, joint flange 16 under the lower extreme fixedly connected with of lead accumulator capping 12, the inside fixed joint in upper end of lower joint flange 16 and lead accumulator housing 11.

The specific setting and function of the lead storage battery body 1 are described below, through the setting of the shock-absorbing clamping sliding plate 15 and the thread fixing hole 17, when in use, the shock-absorbing clamping sliding plate 15 is fixed through the thread fixing hole 17, thereby fixing the lead storage battery shell 11, through the setting of pulling the shock-proof spring 111, the position limitation between the two shock-absorbing clamping sliding plates 15 can be pulled, thereby increasing the connection strength of the shock-absorbing clamping sliding plate 15, meanwhile, when shaking occurs, the lead storage battery shell 11 is buffered, thereby protecting the lead storage battery shell 11, preventing the damage of the lead storage battery shell 11, through the setting of the internal buffer rubber pad 19, the buffer between the shock-absorbing clamping sliding plate 15 and the internal sliding clamping cavity 18 can be buffered, meanwhile, the internal buffer rubber pad 19 has certain elasticity, thereby further playing a shock-proof role, through the setting of the buffer protection rubber ring 110, can buffer between the ends of the shock-absorbing clamping sliding plate 15 and the side supporting mounting plate 13, thereby protecting the connection between the shock-absorbing clamping sliding plate 15 and the side supporting mounting plate 13, so as to ensure the long-term use of the shock-absorbing clamping sliding plate 15 and the side supporting mounting plate 13, and can buffer between the shock-absorbing clamping sliding plate 15 and the connecting piece when the shock-absorbing clamping sliding plate 15 is fixed by the arrangement of the shock-absorbing rubber strip 14, thereby ensuring the integrity of the mounting surface of the shock-absorbing clamping sliding plate 15, simultaneously increasing the friction force of the connecting surface of the shock-absorbing clamping sliding plate 15, so as to increase the stability when in connection, and through the arrangement of the inner absorption cavity 112, when the shock-absorbing rubber strip 14 is extruded and mounted, the gas in the inner absorption cavity 112 can be discharged, through the elasticity of the shock-absorbing rubber strip 14, so that the inside of the absorption cavity 112 forms negative pressure, thereby increasing the absorption force between the shock-absorbing rubber strip 14 and the connecting piece, to further increase the stability of the connection.

As shown in fig. 1 and 2, a connecting wire protection structure 2 is arranged at the upper end of the lead storage battery capping 12, the connecting wire protection structure 2 comprises an electric connection post 21, an upper extrusion insulation knob 22 is in threaded connection with the upper end of the electric connection post 21, an upper clamping cross groove 23 is formed in the upper end of the upper extrusion insulation knob 22, a lower rubber extrusion washer 24 is sleeved on the outer surface of the lower end of the electric connection post 21, and the lower end of the lower rubber extrusion washer 24 is fixedly bonded with the upper end of the lead storage battery capping 12.

The effect that its whole connecting wire protective structure 2 reaches does, through the setting of lower rubber extrusion packing ring 24 and last joint cross slot 23, when connecting the connecting wire, can extrude the connecting wire through last extrusion insulating knob 22, thereby make lower rubber extrusion packing ring 24 produce deformation, make the tip of connecting wire bury down in the rubber extrusion packing ring 24, thereby protect the connecting wire, prevent connecting wire contact dust and moisture, in order to prevent the damage of connecting wire, twine the connecting wire in last joint cross slot 23 afterwards, it is spacing to carry out the connecting wire, thereby can be when the production rocks, the rocking reduction that the junction production between connecting wire and the electric connection post 21 produced, it is great to rock in order to prevent that the connecting wire from bearing, make the connecting wire fracture easily.

As shown in fig. 2 and 3, an inner isolation protection structure 3 is arranged inside a lead storage battery shell 11, the inner isolation protection structure 3 includes an inner transverse isolation plate 31, an inner longitudinal isolation plate 32 is clamped at the upper end of the inner transverse isolation plate 31, inner embedded clamping grooves 34 are respectively arranged on both sides of the inner transverse isolation plate 31 and the inner longitudinal isolation plate 32, the side surfaces of the inner transverse isolation plate 31 and the inner longitudinal isolation plate 32 are fixedly connected with the inside of the lead storage battery shell 11, a corner protection rubber pad 33 is arranged between the corner parts of the inner transverse isolation plate 31 and the inner longitudinal isolation plate 32, a middle protection rubber pad 35 is arranged between the inner transverse isolation plate 31 and the middle part of the inner longitudinal isolation plate 32, embedded clamping fixing strips 36 are fixedly connected to the outer surfaces of the corner protection rubber pad 33 and the middle protection rubber pad 35, the embedded clamping fixing strips 36 are fixedly clamped with the inner embedded clamping grooves 34, the side surfaces of the corner protective rubber pads 33 and the middle protective rubber pads 35 are fixedly connected with the side surfaces of the inner transverse partition plate 31 and the inner longitudinal partition plate 32, respectively.

The effect that isolation protective structure 3 reaches in its whole does, through seting up of interior gomphosis joint groove 34, can play the effect of strengthening rib, thereby horizontal division board 31 and interior longitudinal separation board 32's longitudinal strength in the increase, horizontal division board 31 and interior longitudinal separation board 32 produce the bending in preventing, through bight protection rubber pad 33 and middle part protection rubber pad 35's setting, be used for protecting horizontal division board 31 and interior longitudinal separation board 32 in interior, stability when being connected between horizontal division board 31 and the interior longitudinal separation board 32 in can strengthening simultaneously, thereby further increase lead accumulator housing 11's intensity.

As shown in fig. 5-6 and fig. 8, the lower end of the lead storage battery shell 11 is provided with a bottom retarding structure 4, the bottom retarding structure 4 comprises a retarding protective rubber airbag 41, the retarding protective rubber airbag 41 is fixedly connected to the lower end of the lead storage battery shell 11, the lower end of the retarding protective rubber airbag 41 is fixedly connected with a bottom isolation rubber plate 42, an inner airbag cavity 46 is formed inside the retarding protective rubber airbag 41, an inner through groove 43 is formed inside the retarding protective rubber airbag 41 in a penetrating manner, an extrusion damping spring 44 is arranged inside the inner through groove 43, the upper end of the extrusion damping spring 44 is fixedly connected with the lower end of the lead storage battery shell 11, a bottom support gasket 45 is fixedly connected with the lower end of the extrusion damping spring 44, and the lower end of the bottom support gasket 45 is fixedly bonded with the upper end of the bottom isolation rubber plate 42.

The effect that its whole bottom slows down structure 4 and reaches is, through slowing down the setting of protection rubber gasbag 41 and bottom isolation rubber plate 42, can protect the bottom of lead accumulator shell 11, thus can further improve the further protection to lead accumulator shell 11, thus further increase the antidetonation effect of the invention, through the setting of extrusion damping spring 44, can further increase the damping effect, thus further increase the shock resistance, through the setting of bottom support gasket 45, be used for protecting the lower extreme of bottom isolation rubber plate 42, prevent the damage of bottom isolation rubber plate 42, bottom isolation rubber plate 42 is used for protecting the lower extreme that slows down protection rubber gasbag 41, thus prevent the damage that slows down protection rubber gasbag 41, in order to increase the life who slows down protection rubber gasbag 41.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes by using the technical contents disclosed in the above description to other fields, but any simple modification, equivalent change and change made to the above embodiments according to the technical essence of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. An anti-seismic assembly for lead accumulators comprising a lead accumulator body (1), characterized in that: the lead storage battery comprises a lead storage battery body (1) and is characterized in that the lead storage battery body (1) comprises a lead storage battery shell (11), side supporting and mounting plates (13) are fixedly connected to the two sides of the lead storage battery shell (11), a lead storage battery top cover (12) is fixedly connected to the upper end of the lead storage battery shell (11), an inner sliding clamping cavity (18) is formed in the side supporting and mounting plates (13), damping clamping sliding plates (15) are slidably clamped to the upper end and the lower end of the inner sliding clamping cavity (18), a pulling anti-seismic spring (111) is fixedly connected between the two damping clamping sliding plates (15), and the pulling anti-seismic spring (111) is used for reducing the vibration amplitude;

the utility model discloses a damping joint slide plate, including damping joint slide plate (15), be provided with inside rubber pad (19) that slows down between the below of damping joint slide plate (15) and the inside tip of interior slip joint chamber (18), inside rubber pad (19) that slows down is used for further reducing the vibrations that receive, be provided with between the upper end of damping joint slide plate (15) and side support mounting panel (13) buffering protection rubber circle (110), buffering protection rubber circle (110) are used for slowing down the impact force between damping joint slide plate (15) and side support mounting panel (13), one side fixedly connected with of damping joint slide plate (15) slows down rubber strip (14), it is used for cushioning when rocking to produce after damping joint slide plate (15) installation to slow down rubber strip (14).

2. An anti-seismic assembly for a lead-acid battery, according to claim 1, characterized in that: an inner adsorption cavity (112) is formed in the middle of one side of the retarding rubber strip (14), and a threaded fixing hole (17) is formed in one side of the shock absorption clamping sliding plate (15) in a penetrating mode.

3. An anti-seismic assembly for a lead-acid battery, according to claim 1, characterized in that: the lower end fixedly connected with of lead accumulator capping (12) is joint flange (16) down, joint flange (16) and the inside fixed joint in upper end of lead accumulator shell (11) down.

4. An anti-seismic assembly for a lead-acid battery, according to claim 1, characterized in that: the upper end of lead accumulator capping (12) is provided with connecting wire protective structure (2), connecting wire protective structure (2) include electric connection post (21), the upper end threaded connection of electric connection post (21) has last extrusion insulating knob (22), joint cross recess (23) have been seted up to the upper end of going up extrusion insulating knob (22).

5. An anti-seismic assembly for a lead-acid battery, according to claim 4, characterized in that: the outer surface of the lower end of the electric connecting column (21) is sleeved with a lower rubber extrusion gasket (24), and the lower end of the lower rubber extrusion gasket (24) is fixedly bonded with the upper end of the lead storage battery capping (12).

6. An anti-seismic assembly for a lead-acid battery, according to claim 1, characterized in that: the lead accumulator shell (11) is internally provided with an inner isolation protection structure (3), the inner isolation protection structure (3) comprises an inner transverse isolation plate (31), an inner longitudinal isolation plate (32) is clamped at the upper end of the inner transverse isolation plate (31), inner joint clamping grooves (34) are formed in the two sides of the inner transverse isolation plate (31) and the inner longitudinal isolation plate (32), and the side surfaces of the inner transverse isolation plate (31) and the inner longitudinal isolation plate (32) are fixedly connected with the inner portion of the lead accumulator shell (11).

7. An anti-seismic assembly for a lead storage battery according to claim 6, characterized in that: be provided with bight protection rubber pad (33) between the bight of interior horizontal division board (31) and interior vertical division board (32), be provided with middle part protection rubber pad (35) between the middle part of interior horizontal division board (31) and interior vertical division board (32), bight protection rubber pad (33) and the equal fixedly connected with gomphosis joint fixed strip (36) of surface of middle part protection rubber pad (35), gomphosis joint fixed strip (36) and interior gomphosis joint groove (34) fixed joint, the side of bight protection rubber pad (33) and middle part protection rubber pad (35) respectively with the side fixed connection of interior horizontal division board (31) and interior vertical division board (32).

8. An anti-seismic assembly for a lead-acid battery, according to claim 1, characterized in that: the lower extreme of lead accumulator shell (11) is provided with bottom and slows down structure (4), bottom slows down structure (4) including slowing down protection rubber gasbag (41), slow down protection rubber gasbag (41) fixed connection at the lower extreme of lead accumulator shell (11), the lower extreme fixedly connected with bottom isolation rubber slab (42) that slows down protection rubber gasbag (41), interior gasbag chamber (46) have been seted up to the inside that slows down protection rubber gasbag (41).

9. An anti-seismic assembly for a lead storage battery as defined in claim 8, wherein: the inside of slowing down protection rubber gasbag (41) runs through and has seted up interior logical groove (43), the inside of interior logical groove (43) is provided with extrusion damping spring (44), the lower extreme fixed connection of the upper end of extrusion damping spring (44) and lead accumulator shell (11).

10. An anti-seismic assembly for a lead-acid battery, according to claim 9, characterized in that: the lower end of the extrusion damping spring (44) is fixedly connected with a bottom supporting gasket (45), and the lower end of the bottom supporting gasket (45) is fixedly bonded with the upper end of the bottom isolation rubber plate (42).

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