CN218361739U - Cutting machine capable of continuously feeding materials for production of storage battery electrode plates - Google Patents

Abstract

The utility model discloses a cutting machine capable of continuously feeding for producing accumulator plates, which comprises a feeding bin, wherein the lower end of the feeding bin is provided with a front supporting leg and a rear supporting leg, a conveying structure is arranged between the front supporting leg and the rear supporting leg, the right end of the conveying structure is provided with a cutting box, and the inner wall of the feeding bin is embedded with a polar plate; the middle end of the chute is provided with a rotating port, a water drop rod is arranged under the rotating port, the right end of the water drop rod is fixedly provided with a push rod, and the front end of the push rod is connected with a intermittent wheel in a clamping manner. This but guillootine is used in production of battery polar plate of pay-off in succession is provided with the feed bin, carries out intermittent type through the intermittent type wheel that feed bin lower extreme set up and rotates for the polar plate in the feed bin can be orderly gets into and cuts the case and cut, makes and does not need too much artifical the participation when cutting the polar plate, has improved the efficiency when the polar plate cuts, has reduced battery manufacturing cost.

Description

Cutting machine capable of continuously feeding materials for production of storage battery electrode plates

Technical Field

The utility model relates to a guillootine technical field specifically is a but guillootine is used in battery plate production of continuous feeding.

Background

The storage battery is a chemical battery which converts chemical energy into electric energy, the polar plate is a core part of the storage battery, the charging and discharging functions of the storage battery are realized mainly by electrolyzing chemical substances by the polar plate, when the battery polar plate needs to be produced in the production process of the storage battery, a large-sized polar plate needs to be manufactured firstly in order to reduce the cost, and then the polar plate needs to be cut by a cutting machine, for example, a cutting machine for producing the polar plate of the lead-acid storage battery with the publication number of CN202606974U is simple in structure and convenient and fast to operate, and the cutting of the polar plate is realized by arranging a V-shaped cutting groove and a cutter, so that the problems that the existing cutting machine for producing the polar plate of the storage battery is complex in structure and low in operation efficiency are solved, but some problems exist when the cutting machine is used, for example;

the cutting machine for producing the lead-acid storage battery plate is simple in design, but manual operation is required when the cutting machine for producing the lead-acid storage battery plate is used, manual operation is required to be matched with feeding in real time, and during production and processing, the production efficiency cannot meet the production requirement, the cost of using manual operation is greatly increased, and the cutting machine is not suitable for being used in the batch production process;

therefore, the cutting machine capable of continuously feeding for producing the storage battery pole plates can well solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a guillootine is used in production of battery plate that can pay-off in succession to solve the simple and inefficiency problem of guillootine pay-off mode on the existing market that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: a cutting machine capable of continuously feeding for production of storage battery pole plates comprises a feeding bin, a front supporting leg and a rear supporting leg are arranged at the lower end of the feeding bin, a conveying structure is arranged between the front supporting leg and the rear supporting leg, a cutting box is arranged at the right end of the conveying structure, and the pole plates are embedded in the inner wall of the feeding bin;

further comprising:

two side walls of the upper end of the feeding bin are provided with double-row slideways, feeding rods are arranged in the double-row slideways, the lower end of the right side surface of the feeding bin is provided with a feed opening, and the lower end of the feed opening is fixedly provided with a chute;

the middle end of the inclined channel is provided with a rotating port, a water drop rod is arranged right below the rotating port, the right end of the water drop rod is fixedly provided with a push rod, the front end of the push rod is connected with a batch wheel in a clamping manner, the side surface of the upper end of the batch wheel is fixedly connected with a clamping block, and the center of the batch wheel is connected with a feeding bin bearing through a connecting rod;

the intermittent type wheel lower extreme is provided with arrow point card mark, and arrow point card mark inboard installs and hold the power spring, and holds the power spring winding dead lever outside, and dead lever rear end fixedly connected with feeding bin inner wall moreover.

Preferably, the front face of the feeding rod is V-shaped, the right side face of the feeding rod is n-shaped, and the lower end of the feeding rod is inclined in a horizontal direction.

Through the structure, the polar plates are placed in the feeding bin conveniently.

Preferably, the intermittent wheel is provided with U-shaped grooves on four sides, and a clamping block is arranged between every two adjacent U-shaped grooves.

Through the structure, the water dropping rod drives the intermittent wheel to rotate clockwise.

Preferably, the lower end of the arrow mark clip is annular, the upper end of the arrow mark clip is triangular, and the right side wall of the upper end of the arrow mark clip is attached to the left side wall of the clamping block at the lower end of the intermittent wheel.

Through the structure, the intermittent wheel which rotates clockwise is limited to stop continuing rotating.

Preferably, the left end of the chute is higher than the right end of the chute, and the right end of the chute is located above the middle end of the conveying structure.

Through the structure, the polar plate placed above the inclined channel can slide out of the feeding bin through the feed opening downwards.

Preferably, the rotating opening is in a Z shape, the front-back width of the rotating opening is larger than the front-back width of the intermittent wheel and the water drop rod, the upper right of the intermittent wheel is higher than the upper surface of the rotating opening, and the highest position of the water drop rod is lower than the upper surface of the rotating opening.

Through above-mentioned structure setting to water droplet pole and intermittent gear can not be by the main grade of chute when rotatory rotation, make the block of block can get into in the feed bin and contact the netted compartment on the polar plate lower surface simultaneously.

Compared with the prior art, the beneficial effects of the utility model are that: this guillootine is used in production of battery polar plate that can pay-off in succession carries again with the cooperation of intermittent type wheel in to the pay-off storehouse through the material for the mode of polar plate pay-off is more orderly, has improved cutting efficiency, and its concrete content is as follows:

(1) The chute is arranged, and the feeding rod slides towards the lower end of the chute, so that the polar plate at the lower end of the feeding rod is more time-saving and labor-saving when being placed into the feeding bin, the dependence of the cutting machine on manpower is further reduced, and the cutting machine can continuously feed materials;

(2) Be provided with the feeding bin, the intermittent type wheel that sets up through the feeding bin lower extreme carries out intermittent type and rotates for the polar plate in the feeding bin can be orderly get into and cut the case and cut, make and do not need too much artifical the participation when cutting the polar plate, improved the efficiency when the polar plate cuts, reduced battery manufacturing cost.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present invention;

fig. 2 is a schematic view of the top view structure of the slide of the present invention;

FIG. 3 is a schematic structural view of the front view of the intermittent wheel of the present invention;

FIG. 4 is a schematic diagram of a side view structure of the feeding bin of the present invention;

fig. 5 is a schematic view of the top view structure of the polar plate of the present invention.

In the figure: 1. a feeding bin; 2. double rows of slideways; 3. a feeding port; 4. a chute; 401. a rotation port; 5. a feed bar; 6. a water drip bar; 7. supporting legs; 8. a transfer structure; 9. cutting a box; 10. a pole plate; 11. a push rod; 12. a batch wheel; 13. a clamping block; 14. fixing the rod; 15. a power storage spring; 16. and an arrow card mark.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a cutting machine capable of continuously feeding for production of storage battery pole plates comprises a feeding bin 1, wherein the lower end of the feeding bin 1 is provided with a front supporting leg 7 and a rear supporting leg 7, a conveying structure 8 is arranged between the front supporting leg 7 and the rear supporting leg 7, the right end of the conveying structure 8 is provided with a cutting box 9, and pole plates 10 are embedded in the inner wall of the feeding bin 1;

two side walls of the upper end of the feeding bin 1 are provided with double-row slideways 2, feeding rods 5 are arranged in the double-row slideways 2, the lower end of the right side surface of the feeding bin 1 is provided with a feed opening 3, and the lower end of the feed opening 3 is fixedly provided with a chute 4; the polar plate 10 is put into the feeding bin 1, and the polar plate 10 leans to the left against the upper surface of the right half side of the lower end of the feeding rod 5; the front surface of the feeding rod 5 is in a V shape, the right side surface of the feeding rod 5 is in an n shape, and the lower end of the feeding rod 5 is inclined in a shape of being higher at the left and lower at the right; the left end of the chute 4 is higher than the right end of the chute 4, and the right end of the chute 4 is positioned above the middle end of the conveying structure 8; the left side of the lower end of the feeding rod 5 is embedded into the double-row slide ways 2, so that the left side of the lower end of the feeding rod 5 is connected with the feeding bin 1 in a penetrating way; the feeding rod 5 slides downwards along the inner side wall of the double-row slideway 2, and when the bottom of the feeding rod 5 reaches the bottom of the double-row slideway 2, the feeding rod 5 is pulled out towards the right side, so that the polar plate 10 can slide downwards to the upper surface of the inclined way 4, and the problem of shell clamping or irregularity when the polar plate 10 is placed into the feeding bin 1 is solved;

the middle end of the chute 4 is provided with a rotating port 401, a water drop rod 6 is arranged right below the rotating port 401, the right end of the water drop rod 6 is fixedly provided with a push rod 11, the front end of the push rod 11 is connected with a batch wheel 12 in a clamping manner, the side surface of the upper end of the batch wheel 12 is fixedly connected with a clamping block 13, and the center of the batch wheel 12 is connected with a bearing of the feeding bin 1 through a connecting rod; starting a motor output end connected with the left end of the water drop rod 6 to enable the water drop rod 6 to rotate anticlockwise by taking the motor output end as a circle center, simultaneously clamping and connecting a stop cock 12 by a push rod 11 at the right end of the water drop rod 6, and driving the stop cock 12 to rotate clockwise by taking a self central point as a circle center, so that a clamping block 13 on the outer side surface of the upper end of the stop cock 12 pushes a reticular structure in the polar plate 10 through a rotating port 401 to further drive the polar plate 10 to move to the lower right and slide along a chute 4 to the upper surface of a conveying structure 8 arranged on the inner side of the supporting leg 7 through a feed opening 3; the rotary port 401 is Z-shaped, the front and back width of the rotary port 401 is larger than the front and back width of the intermittent wheel 12 and the water drop rod 6, the upper right of the intermittent wheel 12 is higher than the upper surface of the rotary port 401, and the highest position of the water drop rod 6 is lower than the upper surface of the rotary port 401; the four sides of the intermittent wheel 12 are provided with U-shaped grooves, and a clamping block 13 is arranged between every two adjacent U-shaped grooves;

an arrow mark clamping 16 is arranged at the lower end of the intermittent wheel 12, a force storage spring 15 is arranged on the inner side of the arrow mark clamping 16, the force storage spring 15 is wound on the outer side of the fixed rod 14, and the rear end of the fixed rod 14 is fixedly connected with the inner wall of the feeding bin 1; the lower end of the arrow mark card 16 is annular, the upper end of the arrow mark card 16 is triangular, and the right side wall of the upper end of the arrow mark card 16 is attached to the left side wall of the clamping block 13 at the lower end of the intermittent wheel 12; the cutting box 9 on the right side of the feeding bin 1 moves through the conveying structure 8, meanwhile, the clamping block 13 on the outer side face of the lower end of the intermittent wheel 12 drives the arrow clamping mark 16 to rotate anticlockwise by taking the fixed rod 14 as a circle center, and the arrow clamping mark 16 is reset by the power storage spring 15 after the clamping block 13 is separated from contact with the arrow clamping mark 16, so that the purpose of conveying the polar plate 10 outwards from the feeding bin 1 is finally achieved; after the water drop rod 6 continues to rotate anticlockwise to enable the push rod 11 to be separated from the clamping with the intermittent wheel 12, the clamping block 13 at the right end of the intermittent wheel 12 is attached to the arrow-shaped clamping mark 16, so that the arrow-shaped clamping mark 16 can limit the bottommost polar plate 10 in the feeding bin 1 through the intermittent wheel 12 and the clamping block 13, and the polar plate 10 is prevented from falling out of the feeding bin 1 due to gravity.

The working principle is as follows: firstly, the left side of the lower end of a feeding rod 5 is embedded into a double-row slideway 2, then a polar plate 10 is placed into a feeding bin 1, the polar plate 10 leans to the right upper surface of the lower end of the feeding rod 5 leftwards, at the moment, the feeding rod 5 slides downwards, the feeding rod 5 is pulled out towards the right side when the bottom of the feeding rod 5 reaches the bottom of the double-row slideway 2, the polar plate 10 is placed into the feeding bin 1, and the polar plate 10 is conveniently and smoothly fed out from a feed opening 3;

then, the motor output end connected with the left end of the water drop rod 6 is started, the water drop rod 6 rotates anticlockwise by taking the motor output end as a circle center, meanwhile, the push rod 11 drives the intermittent wheel 12 to rotate clockwise by taking the center point of the intermittent wheel as the circle center, the clamping block 13 drives the net-shaped structure in the pole plate 10 through the rotating opening 401, the pole plate 10 slides to the upper surface of the conveying structure 8 along the chute 4 through the discharging opening 3, then the pole plate moves to the inside of the cutting box 9 through the conveying structure 8, meanwhile, the clamping block 13 on the outer side face of the lower end of the intermittent wheel 12 drives the arrow mark clamping 16 to rotate anticlockwise by taking the fixed rod 14 as the circle center, the arrow mark clamping 16 is reset through the power storage spring 15 after the clamping block 13 is separated from the arrow mark clamping 16, after the push rod 11 is separated from the intermittent wheel 12, the clamping block 13 is attached to the arrow mark 16, the limit of the bottommost pole plate 10 in the feeding bin 1 is reached, the pole plate 10 is prevented from sliding out of the feeding bin 1 due to avoid causing congestion on the upper surface of the front conveying structure 8 due to influence on the normal production process.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A cutting machine capable of continuously feeding for production of storage battery pole plates comprises a feeding bin (1), wherein the lower end of the feeding bin (1) is provided with a front supporting leg (7) and a rear supporting leg (7), a conveying structure (8) is arranged between the front supporting leg and the rear supporting leg (7), the right end of the conveying structure (8) is provided with a cutting box (9), and the inner wall of the feeding bin (1) is provided with a pole plate (10);

it is characterized by also comprising:

two side walls of the upper end of the feeding bin (1) are provided with double-row slideways (2), feeding rods (5) are arranged in the double-row slideways (2), the lower end of the right side surface of the feeding bin (1) is provided with a feed opening (3), and the lower end of the feed opening (3) is fixedly provided with a chute (4);

the middle end of the chute (4) is provided with a rotating port (401), a water drop rod (6) is arranged under the rotating port (401), the right end of the water drop rod (6) is fixedly provided with a push rod (11), the front end of the push rod (11) is connected with an intermittent wheel (12) in a clamping manner, the side surface of the upper end of the intermittent wheel (12) is fixedly connected with a clamping block (13), and the center of the intermittent wheel (12) is connected with a bearing of the feeding bin (1) through a connecting rod;

an arrow mark clamping mark (16) is arranged at the lower end of the intermittent wheel (12), a force storage spring (15) is installed on the inner side of the arrow mark clamping mark (16), the force storage spring (15) is wound on the outer side of the fixed rod (14), and the rear end of the fixed rod (14) is fixedly connected with the inner wall of the feeding bin (1).

2. The cutting machine capable of continuously feeding for producing the storage battery plate as claimed in claim 1, wherein: the front surface of the feeding rod (5) is V-shaped, the right side surface of the feeding rod (5) is n-shaped, and the lower end of the feeding rod (5) is inclined with a higher left end and a lower right end.

3. The cutting machine capable of continuously feeding for producing the storage battery plate as claimed in claim 1, wherein: the intermittent wheel (12) has been seted up "U" shape recess on four sides, and is provided with block (13) between per two adjacent "U" shape recesses.

4. The cutting machine capable of continuously feeding for producing the storage battery plate as claimed in claim 1, wherein: arrow point card mark (16) lower extreme is the ring shape, and arrow point card mark (16) upper end sets up to triangle-shaped, and arrow point card mark (16) upper end right side wall pastes in the left side wall of intermittent wheel (12) lower extreme block (13) moreover.

5. The cutting machine for producing battery plates capable of feeding continuously as claimed in claim 1, wherein: the left end of the inclined channel (4) is higher than the right end of the inclined channel (4), and the right end of the inclined channel (4) is positioned above the middle end of the conveying structure (8).

6. The cutting machine for producing battery plates capable of feeding continuously as claimed in claim 1, wherein: the rotating opening (401) is Z-shaped, the front-back width of the rotating opening (401) is larger than the front-back width of the intermittent wheel (12) and the water drop rod (6), the upper right of the intermittent wheel (12) is higher than the upper surface of the rotating opening (401), and the highest position of the water drop rod (6) is lower than the upper surface of the rotating opening (401).

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