CN212990937U - Energy storage device riveting device - Google Patents

Abstract

The utility model discloses an energy storage device riveting device, which comprises a reciprocating driving device, a pressing main seat, a pressing needle seat and a riveting die; the pressing main seat is connected with the reciprocating driving device; the lower pressing needle seat is fixedly connected with the lower pressing main seat; the riveting die is fixedly connected with the lower pressing needle seat, a first identification part is arranged on one side of the lower surface of the riveting die, and a second identification part is arranged on the other side of the lower surface of the riveting die. Because riveting die's lower surface is equipped with first identification portion and second identification portion, can form the seal of a government organization in old china to the lead wire after riveting die carries out riveting to ox horn capacitor's lead wire, thereby discern the positive negative pole of lead wire through discerning different seal of a government organization in old china, need not additionally to increase the process, only need to rivet die's lower surface reform transform can, reduced manufacturing cost, improved product competitiveness.

Description

Energy storage device riveting device

Technical Field

The utility model relates to an energy storage device production equipment technical field, more specifically say, relate to an energy storage device riveting device.

Background

The horn capacitor extends outwards to form two leads which are respectively the anode and the cathode of the horn capacitor, the anode and the cathode need to be distinguished during assembly, the lead part of the traditional horn capacitor is not marked during manufacturing, but is distinguished by attaching stickers or other means, the marks are easy to fall off, so that anode and cathode confusion is caused, an attaching process is added, the manufacturing cost is increased, and the competitiveness of products is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an energy storage device riveting device is provided, because riveting die's lower surface is equipped with first identification portion and second identification portion, can form the seal of a government organization in old china to the lead wire after riveting the lead wire of ox horn capacitor through riveting die, thereby discern the positive negative pole of lead wire through discerning different seal of a government organization in old china, need not additionally to increase the process, only need to improve riveting die's lower surface can, manufacturing cost is reduced, product competitiveness has been improved.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

in order to solve the technical problem, the utility model provides an energy storage device riveting device, which comprises a reciprocating driving device, a pressing main seat, a pressing needle seat and a riveting die; the pressing main seat is connected with the reciprocating driving device; the lower pressing needle seat is fixedly connected with the lower pressing main seat; the riveting die is fixedly connected with the lower pressing needle seat, a first identification part is arranged on one side of the lower surface of the riveting die, and a second identification part is arranged on the other side of the lower surface of the riveting die.

Further, the surface of the first identification portion is smooth, and the surface of the second identification portion is uneven.

Furthermore, an inward concave avoiding part is arranged between the first identification part and the second identification part.

Furthermore, the reciprocating driving device comprises a riveting cam and a riveting arm, one end of the riveting arm is connected with the lower pressing main seat, and the other end of the riveting arm is provided with a follow-up bearing corresponding to the riveting cam.

Further, a shaft seat is fixed at the bottom of the pressing main seat, guide shafts are respectively arranged at two ends of the shaft seat, a positioning block is fixed at the bottom of each guide shaft, and an avoiding groove for avoiding the riveting die is formed in each positioning block.

Furthermore, a through hole is formed in the positioning block, a transverse groove penetrating through the axis of the through hole is formed in one side edge of the positioning block, and a threaded hole corresponding to the transverse groove is formed in the other side edge of the positioning block.

Further, the guide shaft includes an end portion and a guide portion, and a diameter of the end portion is larger than a diameter of the guide portion.

Furthermore, one side of the pressing main seat is provided with a proximity switch.

Further, the proximity switch is a square proximity switch.

Further, still be equipped with down the tucking apron on the tucking seat, the riveting die is fixed in down the tucking apron with down between the tucking seat.

The utility model discloses following beneficial effect has:

because riveting die's lower surface is equipped with first identification portion and second identification portion, can form the seal of a government organization in old china to the lead wire after riveting die carries out riveting to ox horn capacitor's lead wire, thereby discern the positive negative pole of lead wire through discerning different seal of a government organization in old china, need not additionally to increase the process, only need to rivet die's lower surface reform transform can, reduced manufacturing cost, improved product competitiveness.

The surface of the first identification portion is smooth, the surface of the second identification portion is uneven, the smooth lead after riveting of the riveting die is the anode, and the uneven lead is the cathode, so that the anode and the cathode of the lead can be well distinguished.

The first recognition portion may be a protruding or recessed symbol "+", and the second recognition portion is a protruding or recessed symbol "+", as long as the first recognition portion and the second recognition portion have two different imprints, which can distinguish the positive electrode and the negative electrode of the lead.

Be equipped with inside sunken portion of dodging between first discernment portion and the second discernment portion to avoid the lead wire, prevent to weigh the lead wire and hinder or bend.

Drawings

Fig. 1 is the utility model provides a pair of energy storage device riveting device's schematic structure diagram.

Fig. 2 is a schematic structural view of the riveting die.

Fig. 3 is a schematic view of a top view structure of the energy storage device riveting device provided by the present invention.

Fig. 4 is a schematic structural diagram of the positioning block.

Detailed Description

The present invention will be described in detail with reference to the following examples, which are only preferred embodiments of the present invention and are not intended to limit the present invention.

Referring to fig. 1 and 2, for the energy storage device riveting device provided by the present invention, it includes a reciprocating driving device 1, a pressing main seat 2, a pressing needle seat 3 and a riveting die 4; the pressing main seat 2 is connected with the reciprocating driving device 1; the pressing main seat 2 is fixed on the mounting seat through a sliding block, a sliding rail corresponding to the sliding block is arranged on the mounting seat, so that the pressing main seat 2 can slide up and down in the direction set by the sliding rail, and the pressing needle seat 3 is arranged below the pressing main seat 2 and fixedly connected with the pressing main seat; the riveting die 4 is arranged below the lower pressing needle base 3 and fixedly connected with the lower pressing needle base, a first identification part 41 is arranged on one side of the lower surface of the riveting die 4, and a second identification part 42 is arranged on the other side of the lower surface of the riveting die. Because riveting die 4's lower surface is equipped with first identification portion 41 and second identification portion 42, can form the seal of a government organization in old china to the lead wire after riveting die 4 carries out the riveting to ox horn capacitor's lead wire, thereby discern the positive negative pole of lead wire through discerning different seal of a government organization in old china, need not additionally to increase the process, only need to rivet die 4's lower surface reform transform can, reduced manufacturing cost, improved product competitiveness.

Further, in this embodiment, the surface of the first identification portion 41 is smooth, the surface of the second identification portion 42 is uneven, the smooth lead after the riveting die 4 is used as the positive electrode, and the uneven lead is used as the negative electrode, so that the positive electrode and the negative electrode of the lead can be well distinguished.

In other embodiments, the first recognition portion 41 may be a protruding or recessed symbol "+", and the second recognition portion 42 is a protruding or recessed symbol "+", as long as the first recognition portion 41 and the second recognition portion 42 are two different imprints, the positive electrode and the negative electrode of the lead can be distinguished by the different imprints, which all fall within the protection scope of the present invention.

Further, an escape portion 43 which is recessed inward is provided between the first recognition portion 41 and the second recognition portion 42, so that the lead is avoided and is prevented from being crushed or bent.

With reference to fig. 1 and fig. 3, further, the reciprocating driving device 1 includes a riveting cam 11 and a riveting arm 12, one end of the riveting arm 12 is connected to the lower pressing main base 2, and the other end thereof is provided with a follower bearing corresponding to the riveting cam 11. The riveting cam 11 is connected with a power device, a fulcrum is arranged in the middle of the riveting arm 12, when the riveting cam 11 rotates, the fulcrum is abutted to a follow-up bearing, and the follow-up bearing drives the riveting arm 12 to reciprocate up and down under the action of the riveting cam 11, so that the pressing main base 2 is driven to ascend and descend.

Referring to fig. 1 and 4, further, a shaft seat 5 is fixed at the bottom of the main pressing seat 2, two ends of the shaft seat 5 are respectively provided with a guide shaft 6, a positioning block 7 is fixed at the bottom of the guide shaft 6, and the positioning block 7 is provided with an avoiding groove 71 for avoiding the riveting die 4. Fix the back to the lead wire earlier through locating piece 7 and carry out the riveting through riveting die 4 to the lead wire again, prevent the lead wire off tracking, set up on the locating piece 7 and dodge groove 71 so that riveting die 4 can pass locating piece 7 and carry out the riveting to the lead wire.

Furthermore, a through hole 72 is formed in the positioning block 7, a transverse groove 73 penetrating through the axis of the through hole 72 is formed in one side edge of the positioning block 7, and a threaded hole 74 corresponding to the transverse groove 73 is formed in the other side edge of the positioning block 7. After the guide shaft 6 is inserted into the through hole 72, the guide shaft 6 is locked by the screw hole 74.

Further, the guide shaft 6 includes an end portion 61 and a guide portion 62, and the diameter of the end portion 61 is larger than that of the guide portion 62. The guide part 62 of guiding axle 6 passes axle bed 5 and locating piece 7, the great then card of tip 61 size is in the top of axle bed 5, guide part 62 overlaps between axle bed 5 and locating piece 7 and is equipped with spring 8, when pressing down main base 2 down, locating piece 7 and die holder butt, guiding axle 6 stops motionless, axle bed 5 continues down to press down and compression spring 8, then riveting die 4 carries out the riveting to the lead wire, axle bed 5 rises earlier under spring 8's effect during the return stroke, locating piece 7 still with the die holder butt, when axle bed 5 butt to guiding axle 6's tip 61, drive locating piece 7 and rise, thereby accomplish a cycle.

Furthermore, a proximity switch 9 is disposed on one side of the pressing main base 2, and the proximity switch 9 is used for detecting whether the pressing main base 2 is in place.

Further, the proximity switch 9 is a square proximity switch 9.

Further, still be equipped with down on the lower needle seat 3 and press the needle apron 31, riveting die 4 is fixed in press the needle apron 31 down with between the lower needle seat 3.

The above embodiments only express the embodiments of the present invention, and the description thereof is specific and detailed, but the invention can not be understood as the limitation of the patent scope of the present invention, but all the technical solutions obtained by adopting the equivalent substitution or equivalent transformation should fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy storage device riveting device which characterized in that, it includes:

a reciprocating drive device;

the pressing main seat is connected with the reciprocating driving device;

the pressing needle seat is fixedly connected with the pressing main seat;

and the riveting die is fixedly connected with the lower pressing needle seat, one side of the lower surface of the riveting die is provided with a first identification part, and the other side of the lower surface of the riveting die is provided with a second identification part.

2. The energy storage device riveting apparatus according to claim 1, wherein the first identification portion has a smooth surface, and the second identification portion has an uneven surface.

3. The energy storage device riveting device according to claim 1, wherein an inward-concave avoiding portion is arranged between the first identification portion and the second identification portion.

4. The energy storage device riveting device of claim 1, wherein the reciprocating drive device comprises a riveting cam and a riveting arm, one end of the riveting arm is connected with the main pressing base, and the other end of the riveting arm is provided with a follower bearing corresponding to the riveting cam.

5. The energy storage device riveting device of claim 1, wherein a shaft seat is fixed at the bottom of the main pressing seat, two ends of the shaft seat are respectively provided with a guide shaft, a positioning block is fixed at the bottom of the guide shaft, and the positioning block is provided with an avoiding groove for avoiding the riveting die.

6. The energy storage device riveting device according to claim 5, wherein the positioning block is provided with a through hole, one side of the positioning block is provided with a transverse groove penetrating through the axis of the through hole, and the other side of the positioning block is provided with a threaded hole corresponding to the transverse groove.

7. The energy storage device riveting apparatus of claim 5, wherein the guide shaft comprises an end portion and a guide portion, the end portion having a diameter greater than a diameter of the guide portion.

8. The energy storage device riveting device of claim 1, wherein one side of the main lower pressing seat is provided with a proximity switch.

9. The energy storage device riveting apparatus of claim 8, wherein the proximity switch is a square proximity switch.

10. The energy storage device riveting device according to claim 1, wherein a lower needle pressing cover plate is further arranged on the lower needle base, and the riveting die is fixed between the lower needle pressing cover plate and the lower needle base.

Images