CN110729443A - Online pulse loop activation antiskid unit of battery - Google Patents

Abstract

The invention discloses an online pulse loop activation anti-skid device for a storage battery, which structurally comprises a bottom pocket layer and a single storage battery, wherein the upper surface of the bottom pocket layer is connected with the bottom end of the single storage battery, an adapter of a loop is sleeved on an activation connector of a pulse activation head, the loop can slide downwards along a soft edge of a seam, the loop can be abutted against the surface of an outer wave soft layer while sliding downwards, so that the loop cannot be damaged due to the influence of a hard force in the swinging process, the buckle head pushes and bears a clamping angle to enable the loop to be smoothly clamped in, when an external connection wire is touched by an external force, a middle column can be driven by the loop to incline, a swinging and folding angle at the lower end of the middle column can be unfolded, so that the whole equipment cannot be swung hard, when the loop is different in size, the loop can be clamped in one seam through swinging and cannot slide out, when the connecting wire is pulled, the end head can swing to a certain degree, so that the connecting wire is prevented from being damaged by brute force.

Description

Online pulse loop activation antiskid unit of battery

Technical Field

The invention belongs to the field of storage batteries, and particularly relates to an online pulse loop activation antiskid device for a storage battery.

Background

When the battery uses the pulse activation, its line connection has modes such as clip, lantern ring, grafting, and the end that its battery linked up if short and when can not pegging graft, just need link up it through the lantern ring, and the shape of its lantern ring is fixed, and the diameter that the battery linked up the end can follow holistic needs and differ.

Based on the findings of the inventor, the existing online pulse activation device for the storage battery mainly has the following defects, such as:

when the lantern ring links up the line for fixed with the lantern ring, the cover is established on the shorter column that links up, and its lantern ring is bigger than the diameter that links up the column, just can be when removing linking equipment, and the lantern ring falls out easily, just if the lantern ring is the slope form at dragging equipment, the card is gone into on the surface that links up the end, can drag down the battery under limited distance.

Therefore, the on-line pulse loop activation antiskid device for the storage battery needs to be provided.

Disclosure of Invention

In order to solve above-mentioned technique when the lantern ring links up the line for fixed with the lantern ring, the cover is established on shorter linking post, and its lantern ring is big than linking the diameter of post, just can be when removing linking equipment, and the lantern ring falls out easily, just if the lantern ring is the slope form at dragging equipment, the card is gone into on the surface that links up the end, can drag the problem of falling the battery under limited distance.

The invention relates to an on-line pulse loop activation anti-skid device of a storage battery, which is achieved by the following specific technical means:

the structure of the device comprises a bottom pocket layer, a single storage battery, a pulse activation head and an insulation end.

The bottom pocket layer upper surface is connected with the monomer battery bottom, the one end that the bottom pocket layer was kept away from to the monomer battery is connected with the pulse activation head, the insulation end runs through inside the pulse activation head.

The pulse activation head comprises an activation joint, a support head and a pocket bottom, the activation joint penetrates through the interior of the support head, and the bottom end of the support head is connected with the pocket bottom.

As a further improvement of the invention, the activation joint comprises a folding angle, an outer fixing layer, a clamping seam soft edge and a central column, wherein the folding angle is connected with the outer fixing layer, the outer fixing layer is arranged on the outer surface of the clamping seam soft edge, the central column is embedded in the clamping seam soft edge, the number of the folding angles is two, and ten clamping seam soft edges are arranged, and five clamping seam soft edges form a group.

As a further improvement of the invention, the seam-locked soft edge comprises an inner swing core, an outer wave soft layer, convex balls, a middle block and two outward swing middle bodies, wherein the inner swing core is arranged inside the outer wave soft layer, the convex balls are arranged inside the outer wave soft layer and attached to the outer surface of the middle block, and the outward swing middle bodies are embedded inside the middle block.

As a further improvement of the present invention, the swing middle body includes an outer pocket strip, a buckle head, a display angle, a swing back-off, a corner protector, a gradual angle, and an angle expanding head, the swing back-off is embedded inside the outer pocket strip, the swing back-off is connected with the display angle, the display angle is installed inside the buckle head, the corner protector is attached to the outer surface of the gradual angle, the angle expanding head is connected with the swing back-off, four display angles are provided, two display angles are in a group, the outer pocket strip is in a half arc structure, and five gradual angle are provided.

As a further improvement of the invention, the folding angle comprises a support layer surface, three pulling angles and four pulling angles, wherein the support layer surface is connected with the solid clamping body, the pulling angles are arranged in the solid clamping body, and the pulling angles are four.

As a further improvement of the invention, the pulling corner comprises an outer corner, an elliptical ring, a fixed clamping ball, a pulling holding strip and an outer protection strip, wherein the fixed clamping ball is connected with the elliptical ring, the elliptical ring is embedded in the outer corner, the pulling holding strip is installed in the outer protection strip, the fixed clamping ball is of a spherical structure, the elliptical ring is of an elliptical structure, and the pulling holding strip is made of rubber material and has certain resilience.

Compared with the prior art, the invention has the following beneficial effects:

the loop is sleeved on the activation joint of the pulse activation head, the loop can slide downwards along the seam soft edge, the loop can be propped against the surface of the outer wave soft layer while sliding downwards, the outer wave soft layer can generate certain deformation along with the propping of the outer loop, the loop can be smoothly extruded to pass through, the inner swing core can control the swing range of the outer wave soft layer, the outer wave soft layer is pushed to return after the loop passes through, the loop cannot be damaged due to the influence of hard force in the swing process, the buckle head expands the clamping angle to push stress, the swing on the same side can fix the counter force on the stressed end of the swing, the swing back can drive the jointed angle expanding head to fix the stress point, the swing angle of the whole outer wave soft layer is enlarged, the loop can be smoothly clamped, and when the outer connection line is touched by external force, when the activating joint is pulled, the middle column is driven by the ring sleeve to incline, the folding angle at the lower end of the activating joint is unfolded, so that the activating joint cannot be swung firmly by the whole equipment, when the sizes of the ring sleeves are different, the activating joint is clamped into the ring sleeves through the swinging angle, the activating joint is clamped into one gap and cannot slide out, and when the connecting line is pulled, the end head of the activating joint can swing to a certain degree, so that the activating joint is prevented from being damaged by brute force.

Drawings

Fig. 1 is a schematic structural diagram of an online pulse loop activated antiskid device of a storage battery.

Fig. 2 is a schematic diagram of a right-view internal structure of a pulse activation head according to the present invention.

Fig. 3 is a schematic front view of an activating joint according to the present invention.

FIG. 4 is a schematic view of the front view of the inner structure of the soft edge of the seam of the present invention.

Fig. 5 is a schematic front view of the internal structure of the swing middle body according to the present invention.

Fig. 6 is a schematic view of an elevation internal structure of a folding angle according to the present invention.

FIG. 7 is a schematic view of an internal structure of a tear-back corner according to the present invention.

In the figure: bottom pocket layer-11, single storage battery-22, pulse activation head-33, insulation end-44, activation joint-aa 1, support head-aa 2, pocket bottom-aa 3, swing angle-ww 1, outer fixing layer-ww 2, seam soft edge-ww 3, center post-ww 4, inner swing core-g 1, outer wave soft layer-g 2, convex ball-g 3, middle block-g 4, swing middle body-g 5, outer pocket strip-pp 1, buckle head-pp 2, expansion clamp angle-pp 3, swing back-pp 4, edge protection angle-pp 5, continuation angle-pp 6, expansion angle head-7, support layer surface-m 7, clamp body-m 7, pull angle-m 7, outer angle-a 1 7, ring-a 2a 3, fixed ball-pp 7, outer fixing strip-m 7 a 7, and elliptical fixing strip-365.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides an online pulse loop activation antiskid device for a storage battery, which structurally comprises a bottom pocket layer 11, a single storage battery 22, a pulse activation head 33 and an insulation end 44.

The bottom pocket layer 11 upper surface is connected with monomer battery 22 bottom, the one end that monomer battery 22 kept away from bottom pocket layer 11 is connected with pulse activation head 33, insulating end 44 runs through inside pulse activation head 33.

The pulse activation head 33 comprises an activation joint aa1, a support head aa2 and a pocket bottom aa3, wherein the activation joint aa1 penetrates through the interior of the support head aa2, and the bottom end of the support head aa2 is connected with the pocket bottom aa 3.

The activation joint aa1 comprises a folding angle ww1, an outer fixing layer ww2, a seam soft edge ww3 and a central column ww4, the folding angle ww1 is connected with the outer fixing layer ww2, the outer fixing layer ww2 is installed on the outer surface of the seam soft edge ww3, the central column ww4 is embedded in the seam soft edge ww3, the folding angle ww1 is provided with two, ten and five seam soft edges ww3 are provided, the seam soft edges ww3 can smoothly enter and temporarily position an external object when the external object swings in two different directions, the outer fixing layer ww2 limits the range of the overall swinging motion, and the folding angle ww1 can play a limiting role when the external object swings inwards.

The soft side ww3 of the card seam comprises an inner swing core g1, an outer wave soft layer g2, a convex ball g3, a middle block g4 and a swing middle body g5, wherein the inner swing core g1 is installed inside the outer wave soft layer g2, a convex ball g3 is installed inside the outer wave soft layer g2, the convex ball g3 is attached to the outer surface of the middle block g4, the swing middle body g5 is embedded inside the middle block g4, two convex balls g3 are arranged, the outer wave soft layer g2 can deform to a certain extent under the action of external force and changes along with the pushing force of an external object, the swing core g1 assists the after-returning of the deformation of the outer wave soft layer g2, and the swing middle body g5 plays a role of assisting and buckling when swinging under a large force.

The pendulum orientation midbody g5 comprises an outer pocket strip pp1, a buckle pp2, a folding back angle pp3, a pendulum back pp4, a side protection angle pp5, a gradual angle pp6 and a corner expansion head pp7, the pendulum back pp4 is embedded inside the outer pocket strip pp1, the pendulum back pp4 is connected with the folding back angle pp3, the folding back angle pp3 is installed inside the buckle pp2, the side protection angle pp5 is attached to the outer surface of the gradual angle pp6, the corner expansion head pp7 is connected with the pendulum back pp4, the folding back angle pp3 is provided with four and two in one group, the outer pocket strip pp1 is of a half-arc structure, the gradual angle pp6 is provided with five, the folding back angle pp3 can expand and join up the force between two joined objects, the pendulum 4 applies a force to the same direction swinging, the corner expansion head 7 applies a counter force to the pendulum back pp4, and the pendulum side protection angle pp5 applies the counter force to the gradual angle pp 6.

The swing angle ww1 comprises a support layer m1, a clamping body m2 and a pull-back angle m3, the clamping body m2 is connected with the support layer m1, the pull-back angle m3 is installed inside the clamping body m2, the number of the pull-back angles m3 is three, the number of the clamping bodies m2 is four, the clamping body m2 provides a fixed plate at a position needing stress, the pull-back angle m3 can play a role in pulling back when objects connected to two sides are unfolded in different directions, and the support layer m1 expands the stress area.

The dragging angle m3 comprises an outer angle a1a, an elliptical ring a2a, a fixing ball a3a, a pulling holding strip a4a and an outer protecting strip a5a, wherein the fixing ball a3a is connected with the elliptical ring a2a, the elliptical ring a2a is embedded inside the outer angle a1a, the pulling holding strip a4a is installed inside the outer protecting strip a5a, the fixing ball a3a is of a spherical structure, the elliptical ring a2a is of an elliptical structure, the pulling holding strip a4a is made of rubber materials and has certain resilience, the pulling holding strip a4a controls the overall dragging distance, the fixing ball a3a prevents two objects from sliding excessively, and the elliptical ring a2a can deform to a certain extent when being dragged excessively.

The specific use mode and function of the embodiment are as follows:

in the invention, when the single storage battery 22 needs to be subjected to online pulse activation, the loop is sleeved on the activation joint aa1 of the pulse activation head 33 through the joint of the loop sleeve, the loop sleeve can slide downwards along the seam soft edge ww3 and can be buckled on the surface of the outer soft layer g2 while sliding downwards, the outer soft layer g2 can generate certain deformation along with the pressing of the outer loop sleeve so that the loop sleeve can be smoothly extruded and passed through, when the outer soft layer g2 swings along with the loop sleeve, the convex ball g3 and the inner swing core g1 which are connected together in the inner part swing core g1 can control the swing range of the outer soft layer g2, and the outer soft layer g2 is pushed to return to the position after the loop sleeve passes through, the convex ball g3 is used for assisting the swing of the outer soft layer g2, so that the outer soft layer g2 is not damaged by the influence of the swing force in the swing process of the outer soft layer g2, when the loop is not slid downwards at a sufficient distance, the swinging middle body g5 is simultaneously stressed and swung, the buckle pp2 abutting against the middle block g4 is stressed, the stress range of the swing back pp4 is expanded according to the expansion buckle angle pp3, the buckle pp2 pushes the expansion buckle angle pp3 to bear force, the swing back pp4 on the same side fixes the stressed end in a counter-force manner, the swing back pp4 drives the jointed angle expansion head pp7 to fix the stress point, the swing pp4 can smoothly present the counter-force to abut against the stress point, the swing angle of the whole outer wave soft layer g2 is enlarged, the loop can be smoothly clamped, the angle expansion head pp7 can squeeze and buffer the gradual angle expansion pp6, the swing back pp4 can have a back-swinging force when the resistance is lost, the loop is clamped into the inner part of the W3 and then contacts with the loop, when the loop is pulled by external force, the loop is activated, the external force is exerted on the loop, the center post ww4 will be driven by the ring cover and have a certain slope, the pendulum folding angle ww1 of its lower extreme will be unfolded, the opposite side will be extruded, the one end of expanding presss from both sides solid m2 will drag oval ring a2a and the assistance of solid card ball a3a, lets it draw armature strip a4a and is pulled apart, its solid card ball a3a prevents that the both ends that link up from sliding, lets it can be better pulled apart, makes it can not whole equipment by the hard pendulum.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (3)

1. The utility model provides an online pulse ring cover activation antiskid unit of battery, its structure includes end pocket layer (11), monomer battery (22), pulse activation head (33), insulating end (44), its characterized in that:

the bottom pocket layer (11) upper surface is connected with monomer battery (22) bottom, the one end that bottom pocket layer (11) was kept away from in monomer battery (22) is connected with pulse activation head (33), insulating end (44) run through inside pulse activation head (33).

2. The on-line pulse loop activation antiskid device for the storage battery of claim 1, wherein: the pulse activation head (33) comprises an activation joint (aa1), a support head (aa2) and a pocket bottom (aa3), wherein the activation joint (aa1) penetrates through the interior of the support head (aa2), the bottom end of the support head (aa2) is connected with the pocket bottom (aa3), the activation joint (aa1) comprises a folding angle (ww1), an outer fixing layer (ww2), a seam soft edge (ww3) and a center pillar (ww4), the folding angle (ww1) is connected with the outer fixing layer (ww2), the outer fixing layer (ww2) is installed on the outer surface of the seam soft edge (ww3), and the center pillar (ww4) is embedded in the seam soft edge (ww 3).

3. The on-line pulse loop activation antiskid device for the storage battery as claimed in claim 2, wherein: the soft limit of joint seam (ww3) includes interior pendulum core (g1), outer soft layer (g2), protruding ball (g3), well piece (g4), pendulum to midbody (g5), interior pendulum core (g1) is installed inside outer soft layer (g2), outer soft layer (g2) internally mounted has protruding ball (g3), protruding ball (g3) are laminated in midbody (g4) surface, the pendulum is embedded inside midbody (g5) in midbody (g 4).

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