CN114400142B

CN114400142B - Indexing device of explosion-proof block

Info

Publication number: CN114400142B
Application number: CN202111613496.6A
Authority: CN
Inventors: 许继东
Original assignee: Xuancheng Dongke Electric Co ltd
Current assignee: Xuancheng Dongke Electric Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2024-08-23
Anticipated expiration: 2041-12-27
Also published as: CN114400142A

Abstract

The invention provides an indexing device of an explosion-proof block, wherein the groove length directions of a first conveying groove and a second conveying groove which are arranged on a frame are parallel and are staggered in the groove width direction, a pushing mechanism is arranged between the tail end of the first conveying groove and the head end of the second conveying groove, the length, the width and the height of a connecting groove of the pushing mechanism are consistent with those of the first conveying groove and the second conveying groove, the pushing mechanism reciprocates in the groove width direction to push one explosion-proof block at the tail end of the first conveying groove to the flush position of the second conveying groove, a moving unit is arranged on the frame beside the second conveying groove, and the moving unit transfers the explosion-proof block on the pushing mechanism to the second conveying groove. Through setting up between first conveyer trough and second conveyer trough and can only shift an explosion proof piece pushing mechanism, guarantee that every explosion proof piece can both be by the single transposition to the second conveyer trough, the rethread mobile unit guarantees that every explosion proof piece can both be by the transposition to rubber coating position and pole piece bonding position alone, stops to leak the rubber coating, leak the condition emergence of bonding the pole piece.

Description

Indexing device of explosion-proof block

Technical Field

The invention relates to the technical field of capacitor manufacturing, in particular to an indexing device of an explosion-proof block.

Background

The metallized film capacitor has the advantages of high power density, long cycle service life, high charging speed and the like, and has wide application prospect in various fields such as mobile communication, solar power generation, information technology and the like. In the heavy-current charge-discharge technology, particularly in a high-temperature working environment, the metallized film capacitor can generate gases in the super capacitor due to chemical reaction and electrochemical reaction in the capacitor, namely high-temperature evaporation, and the gases are more and more in a sealed state, so that the pressure in the capacitor is gradually increased, and finally the explosion-proof groove on the capacitor shell is broken, so that the capacitor is damaged, and the potential safety hazard is increased. Therefore, an explosion-proof block is added in the capacitor generally, and when the capacitor works, high-temperature gas is generated to expand so as to deform the explosion-proof block, and the circuit is broken, so that the capacitor does not generate heat any more, and the problem of the capacitor heating explosion is solved.

The structure of explosion-proof piece is as shown in fig. 1, including wholly being oval-shaped bottom plate 1, the upper plate face of bottom plate 1 is provided with boss 2, has seted up two utmost point post holes 3 that run through bottom plate 1 on the boss 2, and boss 2 sets up in bottom plate 1 intermediate position department and shape is oval too. In the assembly process of the capacitor, the explosion-proof blocks and the metal pole pieces are assembled together and then are integrally assembled on the capacitor, in order to improve the production efficiency, the assembly process is realized through mechanical automation in the prior art, the explosion-proof blocks conveyed from the vibration disc are glued one by one through the gluing mechanism and then are glued on the pole pieces, how to ensure that each explosion-proof block can be glued without omission is ensured, and each glued explosion-proof block is glued with the pole piece, so that the phenomenon of missing the pole piece is avoided, and the problem to be solved in the industry is solved urgently.

Disclosure of Invention

The invention aims to provide an indexing device for explosion-proof blocks, which can ensure that each explosion-proof block can be glued and a pole piece is stuck.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: an indexing device of an explosion-proof block is characterized in that a first conveying groove and a second conveying groove for conveying the explosion-proof block are arranged on a frame, the groove length directions of the first conveying groove and the second conveying groove are parallel and are arranged in a staggered mode in the groove width direction, a pushing mechanism is arranged between the tail end of the first conveying groove and the head end of the second conveying groove, the pushing mechanism comprises a connecting groove, the length, the width and the height of the connecting groove and the length, the width and the height of the first conveying groove are uniform, the pushing mechanism reciprocates in the groove width direction to push the explosion-proof block at the tail end of the first conveying groove to the flush position of the second conveying groove, and a moving unit is further arranged on the frame beside the second conveying groove and used for transferring the explosion-proof block on the pushing mechanism to the second conveying groove.

In the scheme, through setting up one and can only shift an explosion proof piece pushing mechanism between first conveyer trough and second conveyer trough, guarantee that each explosion proof piece can both be by the single transposition to the second conveyer trough, rethread mobile unit guarantees that each explosion proof piece can both be by the single transposition to rubber coating position and pole piece bonding position, stop the condition emergence of gluing, the bonding pole piece of hourglass.

Drawings

FIG. 1 is a schematic diagram of the structure of an explosion proof block;

FIGS. 2 and 3 are schematic views showing the overall structure of the indexing device;

FIG. 4 is an enlarged schematic view of a portion of FIG. 2;

fig. 5 is an enlarged schematic view of a portion of fig. 3.

Detailed Description

Referring to fig. 1-5, an indexing device for an explosion-proof block is provided with a first conveying groove 20 and a second conveying groove 30 for conveying the explosion-proof block a on a frame 10, the groove length directions of the first conveying groove 20 and the second conveying groove 30 are parallel and are arranged in a staggered manner in the groove width direction, a pushing mechanism 40 is arranged between the tail end of the first conveying groove 20 and the head end of the second conveying groove 30, the pushing mechanism 40 comprises a connecting groove 431, the connecting groove 431 is consistent with the length, the width and the height of the first conveying groove 20 and the second conveying groove 30, the pushing mechanism 40 can transfer the explosion-proof block a from the first conveying groove 20 into the second conveying groove 30 only by performing linear motion in the groove width direction, the pushing mechanism 40 reciprocates in the groove width direction to push one explosion-proof block a at the extreme end of the first conveying groove 20 to the flush position of the second conveying groove 30, and a moving unit 50 is further arranged on the frame 10 beside the second conveying groove 30 and transfers the explosion-proof block a on the pushing mechanism 40 to the second conveying groove 30. By arranging the pushing mechanism 40 capable of only transferring one explosion-proof block A at a time between the first conveying groove 20 and the second conveying groove 30, each explosion-proof block A is ensured to be independently indexed to the second conveying groove 30, and each explosion-proof block A is ensured to be independently indexed to the gluing position and the pole piece pasting position through the moving unit 50, so that the situations of glue leakage and pole piece sticking leakage are avoided.

As a preferred solution of the present invention, the pushing mechanism 40 includes a third guide rail 41 disposed on the frame 10 between the tail end of the first conveying trough 20 and the head end of the second conveying trough 30, the length direction of the third guide rail 41 is perpendicular to the first conveying trough 20, a pushing block 43 connected to a piston rod of the third air cylinder 42 is disposed on the third guide rail 41 and forms a sliding fit with the length direction of the third guide rail 41, the width of the pushing block 43 matches with the distance between the tail end of the first conveying trough 20 and the head end of the second conveying trough 30, a linking groove 431 is formed on the pushing block 43, and the third air cylinder 42 drives the linking groove 431 to reciprocate between the tail end of the first conveying trough 20 and the head end of the second conveying trough 30. Firstly, the third air cylinder 42 drives the connection groove 431 to the tail end flush position of the first conveying groove 20, so that the tail end explosion-proof block A of the first conveying groove 20 can enter the connection groove 431 under the natural thrust of the rear explosion-proof block A, then the third air cylinder 42 drives the connection groove 431 to the head end flush position of the second conveying groove 30, the moving unit 50 moves the explosion-proof block A in the connection groove 431 to the gluing position in the second conveying groove 30 for gluing operation, and meanwhile, the third air cylinder 42 drives the connection groove 431 to return to the tail end flush position of the first conveying groove 20 again to implement the pushing action of the next round.

In order to ensure that the explosion-proof blocks a are transferred to the glue coating position one by one for glue coating operation, the groove length of the engagement groove 431 is identical to the length of one explosion-proof block a, so that the explosion-proof blocks a are transferred to the second conveying groove 30 one by one, a sensor can be arranged above the engagement groove 431, and after the sensor collects the explosion-proof blocks a in place on the engagement groove 431, the signal is transmitted to a control system, and the control system controls the pushing mechanism 40 to act.

The specific structure is as follows: the moving unit 50 includes a first guide rail 51 disposed on the frame 10, a length direction of the first guide rail 51 is perpendicular to a slot length direction of the second conveying slot 30, a first slider 53 connected with a piston rod of the first cylinder 52 is disposed on the first guide rail 51 and forms a sliding fit along the length direction of the first guide rail 51, a second guide rail 54 is fixed on the first slider 53, a length direction of the second guide rail 54 is disposed parallel to the slot length direction of the second conveying slot 30, a second slider 56 connected with a piston rod of the second cylinder 55 is disposed on the second guide rail 54 and forms a sliding fit along the length direction of the second guide rail 54, a clamping head 57 is disposed protruding toward the direction of the second conveying slot 30, and an opening of the clamping head 57 is clamped around two ends of the explosion-proof block a boss 2. The first cylinder 52 drives the first slider 53 to reciprocate along the first guide rail 51, drives the clamping head 57 to move in the groove length direction of the second conveying groove 30, so that the clamping head 57 corresponds to the connection groove 431, the glue coating position and the pole piece pasting position, the second cylinder 55 drives the second slider 56 to reciprocate along the second guide rail 54, drives the clamping head 57 to move in the width direction of the second conveying groove 30, and enables the clamping head 57 to advance to the clamping position for clamping the explosion-proof block A or retract to the avoiding position separated from the explosion-proof block A, so that the explosion-proof block A which has been transferred into place in the previous time can not be brought back again in the process of carrying out the next indexing of the explosion-proof block A.

The two clamping heads 57 are arranged on the second sliding block 56 at intervals along the length direction of the second conveying groove 30, and the distance between the two clamping heads 57 is equal to the distance between the gluing position of the explosion-proof block A on the second conveying groove 30 and the pole piece sticking position. When one clamping head 57 clamps the explosion-proof block A on the connecting groove 431, the other clamping head 57 clamps the explosion-proof block A at the gluing position exactly, the explosion-proof block A at the gluing position has completed gluing, at the moment, the second air cylinder 55 acts to push the explosion-proof block A on the connecting groove 431 to the gluing position, the explosion-proof block A at the gluing position is simultaneously pushed to the pole piece pasting position for pole piece pasting, then the first air cylinder 52 acts to drive the two clamping heads 57 to retract in a direction away from the explosion-proof block A, the second air cylinder 55 acts to return the two clamping heads 57 to the connecting groove 431 and the corresponding position of the gluing position again, and the first air cylinder 52 acts to drive the two clamping heads 57 to advance in a direction close to the explosion-proof block A and clamp the explosion-proof block A at the two positions, so that the cycle is started.

Further, the whole clamping head 57 is in a flat plate shape with a plate surface in a horizontal plane, a bayonet 571 is formed in the flat plate towards the direction of the second conveying groove 30, the outline of the bayonet 571 is matched with the outline of the explosion-proof block A and is larger than the outline of the explosion-proof block A, the bayonet 571 is in a tiger mouth shape, the opening size of the bayonet 571 can enable the explosion-proof block A to easily enter, the opening size of the bayonet 571 is not too large, the bottom plate of the clamping head 57 is higher than the upper notch heights of the second conveying groove 30 and the connecting groove 431, the clamping head 57 is guaranteed to be clamped to the boss 2, and the explosion-proof block A is pushed to move forwards.

In order to ensure that the explosion-proof blocks A in the first conveying groove 20 are of a specific posture, the section of the first conveying groove 20 is U-shaped with an upward opening, baffle plates 21 are folded towards the middle at the upper notch positions of two sides, the distance between the two baffle plates 21 is consistent with the width of the boss 2, and due to the arrangement of the baffle plates 21, only one explosion-proof block A can be conveyed forwards in sequence, so that the situation that two adjacent explosion-proof blocks A are stacked is prevented.

Similarly, the second conveying groove 30 and the engagement groove 431 have the same structure and are all in a U-shaped groove shape with an upward opening, the width of the U-shaped groove is matched with the width of the bottom plate 1, and the depth of the groove is matched with the thickness of the bottom plate 1, so that the clamping head 57 can be ensured to clamp the boss 2 and push the explosion-proof block A to move forwards.

The head end of the first conveying groove 20 is connected with the discharge end of the vibration disc, all explosion-proof blocks A at the screening position of the vibration disc are arranged in sequence one by one and have specific postures, and the last explosion-proof block A pushes the previous explosion-proof block A to be conveyed forwards, so that the explosion-proof block A entering the first conveying groove 20 is also the explosion-proof block A meeting the requirements, and the follow-up gluing and the accurate mounting position of the pole piece are ensured.

Claims

1. An indexing device of an explosion-proof block is characterized in that: a first conveying groove (20) and a second conveying groove (30) for conveying the explosion-proof blocks (A) are formed in the frame (10), the groove length directions of the first conveying groove and the second conveying groove (20, 30) are parallel, the first conveying groove and the second conveying groove are staggered in the groove width direction, a pushing mechanism (40) is arranged between the tail end of the first conveying groove (20) and the head end of the second conveying groove (30), the pushing mechanism (40) comprises a connecting groove (431), the connecting groove (431) is uniform with the length, the width and the height of the first conveying groove and the second conveying groove (20), the pushing mechanism (40) reciprocates in the groove width direction to push one explosion-proof block (A) at the tail end of the first conveying groove (20) to the flush position of the second conveying groove (30), a moving unit (50) is further arranged on the frame (10) beside the second conveying groove (30), and the moving unit (50) transfers the explosion-proof blocks (A) on the pushing mechanism (40) to the second conveying groove (30); the pushing mechanism (40) comprises a third guide rail (41) arranged on the frame (10) between the tail end of the first conveying groove (20) and the head end of the second conveying groove (30), the length direction of the third guide rail (41) is perpendicular to the first conveying groove (20), a pushing block (43) connected with a piston rod of a third air cylinder (42) is arranged on the third guide rail (41) and forms sliding fit in the length direction of the third guide rail (41), the width of the pushing block (43) is matched with the distance between the tail end of the first conveying groove (20) and the head end of the second conveying groove (30), a connecting groove (431) is formed in the pushing block (43), and the third air cylinder (42) drives the connecting groove (431) to reciprocate between the tail end of the first conveying groove (20) and the head end of the second conveying groove (30); the moving unit (50) comprises a first guide rail (51) arranged on the frame (10), the length direction of the first guide rail (51) is perpendicular to the groove length direction of the second conveying groove (30), a first sliding block (53) connected with a piston rod of the first air cylinder (52) is arranged on the first guide rail (51) and forms sliding fit along the length direction of the first guide rail (51), a second guide rail (54) is fixed on the first sliding block (53), the length direction of the second guide rail (54) is arranged in parallel with the groove length direction of the second conveying groove (30), a second sliding block (56) connected with a piston rod of the second air cylinder (55) is arranged on the second guide rail (54) and forms sliding fit along the length direction of the second guide rail (54), a clamping head (57) is convexly arranged towards the direction of the second conveying groove (30), and openings of the clamping head (57) are restrained at two ends of a boss (2) of the explosion-proof block (A) in a surrounding mode.

2. The indexing device of an explosion proof block according to claim 1, wherein: the groove length of the connecting groove (431) is matched with the length of an explosion-proof block (A).

3. The indexing device of an explosion proof block according to claim 1, wherein: the two clamping heads (57) are arranged on the second sliding block (56) at intervals along the length direction of the second conveying groove (30), and the distance between the two clamping heads (57) is equal to the distance between the gluing position of the explosion-proof block (A) on the second conveying groove (30) and the pole piece pasting position.

4. An indexing device for an explosion proof block according to claim 3, wherein: the whole clamping head (57) is in a flat plate shape with the plate surface in the horizontal plane, a bayonet (571) is formed in the flat plate towards the direction of the second conveying groove (30), the outline of the bayonet (571) is matched with the outline of the explosion-proof block (A) and is larger than the outline of the explosion-proof block (A), and the bottom plate of the clamping head (57) is higher than the heights of the upper notch of the second conveying groove (30) and the upper notch of the connecting groove (431).

5. The indexing device of an explosion proof block according to claim 1, wherein: the section of the first conveying groove (20) is U-shaped with an upward opening, baffle plates (21) are folded towards the middle at the upper notch parts of the two sides, and the interval between the two baffle plates (21) is matched with the width of the boss (2).

6. The indexing device of an explosion proof block according to claim 1, wherein: the second conveying groove (30) and the connecting groove (431) have the same structure and are U-shaped grooves with upward openings, the width of each U-shaped groove is matched with the width of the bottom plate (1), and the groove depth is matched with the thickness of the bottom plate (1).

7. The indexing device of an explosion proof block according to claim 5, wherein: the head end of the first conveying groove (20) is connected with the discharge end of the vibration disc.