CN110082054B - Impacter for preventing round head from deviating for lead storage battery groove - Google Patents

Abstract

The invention discloses an impacter for preventing a round head of a lead storage battery groove from deviating, which structurally comprises a height frame, an impact bearing head, an impact placing plate, a bottom support seat and a positioning slide rod, wherein the height frame is vertically welded at the top end of the bottom support seat, the impact bearing head comprises an inclined clamping hook, a fixed inner core, a top slide rod, a triangular stable buffer and an impact head, the inclined clamping hook is arranged on the inner wall of the fixed inner core, an object is placed on the impact placing plate and limited by a buffer limiting ball, the semi-ball milling of the impact bearing head is used for pushing gas in a main bag opening to be conveyed into a viscous bag under the stress, a main support layer of the impact bearing head drives the inclined clamping hook to tilt together, a compliant body of the impact bearing body is extruded and stressed, the support body pushes the tilting clamping body to be stressed upwards, a compression sliding bag can move smoothly, a protective bending ball of the protective bending ball protects the bending ball of the bending ball, and can be lifted smoothly in time when the impact head is changed in lane, can not impact other surfaces, and can prevent the other surfaces from being damaged by different stresses.

Description

Impacter for preventing round head from deviating for lead storage battery groove

Technical Field

The invention belongs to the field of storage batteries, and particularly relates to an impacter for preventing a round head of a lead storage battery from deviating.

Background

When each lead storage battery cell leaves a factory, the lead storage battery cell firstly passes an impact test at a certain temperature, unqualified lead storage battery cells can be broken and the like, the lead storage battery cells can leave the factory smoothly only if the lead storage battery cells are qualified, the heads of the impacts are various and have planes, round heads and the like, and the impacts are carried out by controlling the force of the lead storage battery cells by equipment.

Based on the above findings, the inventor found that the conventional lead storage battery impact device mainly has the following disadvantages, for example:

the surface of the lead battery groove is uneven, the force born by each surface is different, when the round head impacts down, the round head sometimes impacts a convex angle, and the round impact head slides to the other surface, so that the other surface is damaged.

Therefore, the impacter for preventing the round head from deviating needs to be provided.

Disclosure of Invention

The problem of lead battery jar surface unsmooth in order to solve above-mentioned technique, the power that each face bore is different, when the button head strikes off, can strike the salient angle sometimes, and the round impact head will slide to another face to cause the damage of another face is solved.

The invention relates to an impacter for preventing a round head from deviating for a lead storage battery groove, which has the purpose and the effect and is achieved by the following specific technical means:

the structure of the device comprises a height frame, an impact bearing head, an impact placing plate, a bottom support seat and a positioning sliding rod.

The altitude frame is perpendicularly welded on the base frame top, strike and bear the head and with positioning slide bar nested and swing joint mutually, strike and place the board and weld in the base frame top, positioning slide bar is equipped with two and perpendicular welding in base frame top.

The impact bearing head comprises an inclined clamping hook, a fixed inner core, a top sliding rod, a triangular stable buffer and an impact head, wherein the inclined clamping hook is installed on the inner wall of the fixed inner core, the top sliding rod is abutted to the outer surface of the inclined clamping hook, and the triangular stable buffer is connected with the impact head.

As a further improvement of the invention, the triangular stable buffer comprises pressure arcs, buffer limit balls, pressure grids and clamping teeth, wherein the pressure arcs are positioned inside the pressure grids, the buffer limit balls are arranged between the pressure arcs, the clamping teeth are arranged on the outer sides of the pressure arcs, the buffer limit balls are of a spherical structure, the number of the pressure arcs is two, and the clamping teeth are of a trapezoidal structure.

As a further improvement of the invention, the top sliding rod comprises a main bag opening, a half ball mill, a sticky bag, a sliding release layer, a main support layer, co-inclined clamping hooks and sliding-in hook angles, the half ball mill is adhered to the outer surface of the main bag opening, the main bag opening is communicated with the sticky bag, the sliding release layer and the main support layer are of an integrated structure, the sliding-in hook angles are connected with the co-inclined clamping hooks, the co-inclined clamping hooks are embedded in the main support layer, the main bag opening is arranged below the co-inclined clamping hooks, the number of the sliding release layers is two, and the half ball mill is of a hemisphere structure and the number of the inclined clamping hooks are two.

As a further improvement of the invention, the slide-in hook angle comprises a press-sliding bag, an inner rolling ball and a reverse sliding body, wherein the inner rolling ball is embedded in the press-sliding bag, the press-sliding bag is arranged between the inner rolling ball and the reverse sliding body, the inner rolling ball is of a spherical structure, and the press-sliding bag is made of rubber materials and has certain elasticity.

As a further improvement of the present invention, the inclined hook comprises a compliant body, a rolling ball, an inner clamping bag, a tilting clamping body, a bottom buckle plate, and a support body, wherein the compliant body is embedded in the bottom buckle plate, the support body is mounted on the outer surface of the bottom buckle plate, the rolling ball is embedded in the inner clamping bag, the inner clamping bag is connected with the tilting clamping body, the support body is abutted against the lower end of the tilting clamping body, and the rolling ball is in a spherical structure.

As a further improvement of the invention, the tilting clamp body comprises a main layer, a bending strip and a protective bending ball, the bending strip is embedded in the main layer, the protective bending ball is arranged in the bending strip, the protective bending ball is connected with the main layer through the bending strip, fifteen protective bending balls are arranged, and the bending strip is made of rubber.

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

place its object on the board is placed in the impact, make its impact carrier head down along the location slide bar through the adjustment, limit the ball by the buffering and carry on spacingly to it, its half ball-milling will be in the lump atress promote the inside gas of total bag mouth to carry toward gluing the bag in, make its main layer of holding in the palm drive with inclining trip together tilting, extrude the atress to its barocline body, its support body will promote the tilting card body up atress, make the removal that the smooth bag of pressure sliding can be smooth, its protection curved ball protects its bending, can appear when changing the way at the impact head, timely with its homeopathic hoist, can not bump into on other faces, prevent that the atress difference from causing the damage for other faces.

Drawings

Fig. 1 is a schematic structural diagram of an impactor for preventing a round head from deviating for a lead storage battery cell.

FIG. 2 is a schematic diagram of a front view of an internal structure of an impact carrier head according to the present invention.

FIG. 3 is a schematic diagram of an elevational internal structure of a triangular stabilizing buffer according to the present invention.

FIG. 4 is a front view of the inner structure of the top slide bar according to the present invention.

Fig. 5 is a schematic view of an interior structure of a slide-in hook according to the present invention.

Fig. 6 is a schematic front view of an inner structure of an inclined hook according to the present invention.

Fig. 7 is a front view of an internal structure of a tilting card body according to the present invention.

In the figure: an overhead frame-1, an impact bearing head-2, an impact placing plate-3, a bottom support seat-4, a positioning slide rod-5, an inclined clamping hook-21, a fixed inner core-22, a top slide rod-23, a triangular stable buffer-24, an impact head-25, a pressure arc-241, a buffer limit ball-242, a pressure grid-243, a clamping tooth-244, a total bag opening-231, a hemisphere mill-232, a viscous bag-233, a sliding release layer-234, a main support layer-235, a homocline clamping hook-236, a sliding hook angle-237, a sliding pressing bag-2371, an inner rolling ball-2372, a reverse sliding body-2373, a forward pressing body-211, a rolling clamping ball-212, an inner clamping bag-213, a tilting clamping body-214, a bottom buckle disc-215, a support body-216, a main layer-2141, a bending strip-2142, a positioning slide rod-5, an inclined clamping hook-21, a fixed inner, Protective bending ball-2143.

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 impacter for preventing a round head of a lead storage battery cell from deviating, which structurally comprises a height frame 1, an impact bearing head 2, an impact placing plate 3, a bottom support seat 4 and a positioning slide rod 5.

1 vertical welding of altitude frame is on 4 tops of base frame seat, strike carrier head 2 and 5 nested and swing joint mutually of location slide bar, strike and place board 3 and weld in 4 tops of base frame seat, location slide bar 5 is equipped with two and welds perpendicularly on 4 tops of base frame seat.

Impact carrier head 2 is including slope trip 21, fixed inner core 22, top slide bar 23, triangle stable buffering 24, impact head 25, slope trip 21 is installed in fixed inner core 22 inner wall, top slide bar 23 supports at slope trip 21 surface, triangle stable buffering 24 is connected with impact head 25.

The triangular stable buffer 24 comprises a pressure arc 241, a buffer limit ball 242, a pressure grid 243 and a latch 244, wherein the pressure arc 241 is located inside the pressure grid 243, the buffer limit ball 242 is installed between the pressure arc 241, the latch 244 is arranged on the outer side of the pressure arc 241, the buffer limit ball 242 is of a sphere structure, the pressure arc 241 is provided with two latches 244, the latches 244 are of a trapezoid structure, the latch 244 can be connected stably, the pressure arc 241 can give a certain buffer force when being pressed externally, and the buffer limit ball 242 assists in back support.

The top sliding rod 23 comprises a main bag opening 231, a hemispherical mill 232, an adhering bag 233, a sliding and releasing layer 234, a main supporting layer 235, a co-inclining hook 236 and a sliding-in hook 237, wherein the semi-ball mill 232 is adhered to the outer surface of the main bag opening 231, the main bag opening 231 and the adhering bag 233 are communicated with each other, the sliding and releasing layer 234 and the main supporting layer 235 are of an integrated structure, the sliding-in hook 237 is connected with the co-inclining hook 236, the co-inclining hook 236 is embedded in the main supporting layer 235, the main bag opening 231 is arranged below the co-inclining hook 236, the sliding and releasing layer 234 is provided with two semi-ball mills 232, the semi-ball mills are provided with two semi-inclining hooks 236, the semi-ball mills do not slide when being extruded outside, the main bag opening 231 is better stressed, the sliding and releasing layer 234 can assist an object to slide smoothly when being in contact with the outside, and the co-inclining hooks 236 can support the sliding-inclining hook 237 to run smoothly.

The sliding hook angle 237 comprises a sliding pressing bag 2371, an inner rolling ball 2372 and a reverse sliding body 2373, wherein the inner rolling ball 2372 is embedded into the sliding pressing bag 2371, the sliding pressing bag 2371 is installed between the inner rolling ball 2372 and the reverse sliding body 2373, the inner rolling ball 2372 is of a sphere structure, the sliding pressing bag 2371 is made of rubber materials and has certain elasticity, the inner rolling ball 2372 can move along the force of the sliding pressing bag 2371, the force is limited in an auxiliary manner, and the reverse sliding body 2373 can enable a contacted object to move smoothly.

The inclined hook 21 includes a forward pressing body 211, a rolling ball 212, an inner clamping pocket 213, a tilting clamping body 214, a bottom buckle disc 215, and a support body 216, the forward pressing body 211 is embedded in the bottom buckle disc 215, the support body 216 is installed on the outer surface of the bottom buckle disc 215, the rolling ball 212 is embedded in the inner clamping pocket 213, the inner clamping pocket 213 is connected with the tilting clamping body 214, the support body 216 is abutted against the lower end of the tilting clamping body 214, the rolling ball 212 is of a spherical structure, the forward pressing body 211 can be flexibly and flexibly assisted to smoothly move and roll an object in contact with the object, the rolling ball 212 can clamp the object moving on the inner clamping pocket 213, and the forward pressing body 211 can extrude the tilting clamping body 214 together through the support body 216 when being pressed, so that the object can better pass through.

Wherein, the tilting card body 214 includes main layer 2141, crooked strip 2142, the crooked ball 2143 of protection, crooked strip 2142 imbeds inside main layer 2141, the crooked ball 2143 of protection is installed inside crooked strip 2142, the crooked ball 2143 of protection is connected with main layer 2141 through crooked strip 2142, the crooked ball 2143 of protection is equipped with fifteen, crooked strip 2142 is the rubber material, the crooked ball 2143 of protection can protect it when crooked strip 2142 is crooked, crooked strip 2142 can in time drive main layer 2141 return when losing the resistance.

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

in the invention, an object is placed on the impact placing plate 3, the impact bearing head 2 falls down along the positioning slide rod 5 by adjustment, the impact head 25 is collided with the object, the pressing arc 241 is extruded in the pressing grid 243, the buffering limiting ball 242 limits the impact head, the half ball mill 232 is stressed to push the air in the main bag opening 231 to be conveyed into the sticking bag 233, the sticking bag is buffered to a certain degree, when the impact head 25 is impacted to a convex angle, the main supporting layer 235 drives the tilting clamping hook 236 to tilt together, the sliding pressing bag 2371 is lifted upwards along the bottom buckle disc 215 to extrude and stress the sequential pressing body 211, the supporting body 216 pushes the lifting clamping body 214 to be stressed upwards, the sliding pressing bag 2371 can smoothly move, the reverse sliding body 2373 is movably clamped on the inner clamping bag 213, the reverse sliding body 2373 is clamped by the rolling clamping ball 212, and the main layer 2141 is weighted, the bending strip 2142 is driven to tilt downward, and its protective bending ball 2143 protects it from bending.

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 (1)

1. The utility model provides an impacter of button head off tracking is prevented to lead accumulator groove, its structure includes altitude frame (1), strikes carrier head (2), strikes and places board (3), base support seat (4), location slide bar (5), its characterized in that: the height frame (1) is vertically welded at the top end of the bottom support seat (4), the impact bearing head (2) is embedded and sleeved with the positioning slide rod (5) and movably connected with the positioning slide rod, the impact placing plate (3) is welded at the top end of the bottom support seat (4), and the two positioning slide rods (5) are vertically welded at the top end of the bottom support seat (4);

the impact bearing head (2) comprises an inclined clamping hook (21), a fixed inner core (22), a top sliding rod (23), a triangular stable buffer (24) and an impact head (25), wherein the inclined clamping hook (21) is installed on the inner wall of the fixed inner core (22), the top sliding rod (23) abuts against the outer surface of the inclined clamping hook (21), the triangular stable buffer (24) is connected with the impact head (25), the triangular stable buffer (24) comprises a pressure arc (241), a buffer limit ball (242), a pressure grid (243) and a latch (244), the pressure arc (241) is located inside the pressure grid (243), the buffer limit ball (242) is installed between the pressure arcs (241), and the latch (244) is arranged on the outer side of the pressure arc (241);

the top sliding rod (23) comprises a main bag opening (231), a hemispherical mill (232), a sticky bag (233), a sliding release layer (234), a main supporting layer (235), a co-inclined hook (236) and a sliding-in hook angle (237), wherein the semi-ball mill (232) is adhered to the outer surface of the main bag opening (231), the main bag opening (231) and the sticky bag (233) are mutually communicated, the sliding release layer (234) and the main supporting layer (235) are of an integrated structure, the sliding-in hook angle (237) is connected with the co-inclined hook (236), the co-inclined hook (236) is embedded into the main supporting layer (235), and the main bag opening (231) is arranged below the co-inclined hook (236).

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