CN109449473B - Battery protection film pasting mechanism - Google Patents

Abstract

The invention discloses a protective film pasting mechanism for a battery, which comprises: the device comprises a discharging section rack (1), a discharging section bottom plate (2) is installed on the discharging section rack, and a belt conveyor line (3) and an unreeling device (4) are installed on the discharging section bottom plate (2); the drawing die support (6) is arranged below the discharging section bottom plate (2), a film clamping cylinder in the drawing die support can extend out of the discharging section bottom plate, the roller conveying line (5) is arranged above the discharging section bottom plate (2) and is aligned with the conveying line, and the film clamping cylinder on the drawing die support (6) can pass through the middle of the roller conveying line to be connected with a film on the unwinding device (4); put the protection film on the unwinding device, draw the electronic jar of membrane (31) will drag the lower level of conveying face, when belt transfer chain (3) carried cylinder transfer chain (5) with the battery, the protection film can the cladding is on two sides about the battery.

Description

Battery protection film pasting mechanism

Technical Field

The invention relates to a protective film pasting mechanism for a battery.

Background

At present, the process of sticking a protective film on a battery on a packaging machine is less in the market. I take the customer's demand into full consideration, improve original machine, increase the process of pasting the protection film.

Disclosure of Invention

The invention aims to provide a battery protective film pasting mechanism.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a battery protection film attaching mechanism comprising: the device comprises a discharging section rack (1), a discharging section bottom plate (2) is installed on the discharging section rack, and a belt conveyor line (3) and an unreeling device (4) are installed on the discharging section bottom plate (2); the drawing die support (6) is arranged below the discharging section bottom plate (2), a film clamping cylinder in the drawing die support can extend out of the discharging section bottom plate, the roller conveying line (5) is arranged above the discharging section bottom plate (2) and is aligned with the conveying line, and the film clamping cylinder on the drawing die support (6) can pass through the middle of the roller conveying line to be connected with a film on the unwinding device (4); put the protection film on the unwinding device, draw the electronic jar of membrane (31) will drag the lower level of conveying face, when belt transfer chain (3) carried cylinder transfer chain (5) with the battery, the protection film can the cladding is on two sides about the battery.

Preferably, the device is further provided with a conveying line frame (21), a belt conveying line (3) is fixed on the conveying line frame, a side cutting cutter (23) is installed on the side edge, a code spraying component (24) and a code sweeping component (25) are sequentially installed on the belt conveying line (3), and two groups of opposite jetting induction switches (26) are installed on the belt conveying line, wherein after the battery is placed on the belt conveying line (3), the front group of the induction switches (26) senses the battery, the belt conveying line (3) is conveyed to the position of the side cutting cutter (23) in a stepping mode, the side cutting cutter (23) cuts the side edge of the battery in an aligned mode, after the next battery is continuously placed down, the belt conveying line (3) is conveyed in a stepping mode again, when the second group of induction switches (26) senses the battery, a code is sprayed on a code spraying head on the code spraying component (24) in the moving process of the battery, the battery stops after stepping conveying is finished, and at the time, the code is scanned by a code scanning instrument on the corresponding code sweeping component (25); when the third battery is placed on the belt conveying line (3), the battery is continuously conveyed to a subsequent rubberizing process.

Preferably, the device is also provided with an unreeling fixing frame (310), and a protective film unreeling assembly (37), a protective film tensioning assembly (38), a motor unreeling protective film assembly (39) and a protective film cutting assembly (33) are arranged on the unreeling fixing frame;

a C-shaped laminating roller (34) and a vertical assembly (36) are arranged on the roller conveying line (5);

the roller conveying line (5) is arranged behind the belt conveying line (3) according to a drawing, the middle of the roller conveying line is provided with a film drawing electric cylinder (31), and the end part of the film drawing electric cylinder (31) is provided with a film clamping cylinder (32).

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The present invention will be described in detail below with reference to the accompanying drawings so that the above advantages of the present invention will be more apparent.

FIG. 1 is a schematic structural diagram of a protective film attaching mechanism for a battery according to the present invention;

FIG. 2 is a schematic structural diagram of a protective film attaching mechanism for a battery according to the present invention;

fig. 3 is a schematic structural diagram of a battery protection film attaching mechanism of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples.

Specifically, the device comprises a belt conveying line, a roller conveying line, a protective film unreeling device, a protective film cutting device, a protective film drawing device, a battery erecting device and the like. After the side cutting, code spraying and code scanning are finished, the battery is conveyed by a belt conveyor line, a film pulling device pulls a protective film downwards to a set position in advance, and a motor feeding roller discharges materials while the film is pulled, and stops when the protective film is in place; when the batteries are conveyed to the protective film, the upper part is discharged by a motor feeding roller, the lower film-drawing electric cylinder rises, the batteries are conveyed forwards, the upper and lower film-coating pressing rollers press the protective film on the batteries, after the length of discharged materials of the films reaches a set length, an automatic cutting device cuts off the protective film and resets, a film clamping cylinder is opened, the batteries continue to advance to finish film coating, and a film-drawing device rises to clamp the tail end of the cut protective film and pulls down to a set position to prepare for film coating of the next battery. The battery reaches the end of the roller line, and the erecting cylinder acts to erect the battery.

Referring to fig. 1, a discharge section bottom plate (2) is mounted on a discharge section rack (1), and a belt conveyor line (3) and an unreeling device (4) are mounted on the discharge section bottom plate (2);

the drawing die support (6) is arranged below the discharging section bottom plate (2) and enables the film clamping cylinder therein to extend out of the discharging section bottom plate;

the roller conveying line (5) is arranged on the discharging section bottom plate (2) and is aligned with the conveying line, and a film clamping cylinder on the drawing die support (6) can be used for connecting a film on the unwinding device (4) in the middle.

Wherein, unreel the device and go up and put the protection film, draw the electronic jar of membrane (31) will drag the lower level of transport face, when belt transfer chain (3) carried cylinder transfer chain (5) with the battery, the protection film can cladding is on two sides about the battery.

Referring to fig. 2, the belt conveyor line (3) is fixed on the conveyor line frame (21), the side cutting knife (23) is installed on the side edge, the code spraying component (24) and the code scanning component (25) are sequentially installed on the belt conveyor line (3), and two groups of correlation induction switches (26) are installed.

After the battery is put on belt conveyor line (3), the battery is sensed to a set of preceding induction switch (26), belt conveyor line (3) step-by-step carry side cutting cutter (23) position, side cutting cutter (23) are neat to the battery side, after next battery continues to put down, belt conveyor line (3) step-by-step transport once more, when second group induction switch (26) sense the battery, spout the pier on yard subassembly (24) and spout the sign indicating number at the battery motion in-process, stop after step-by-step transport, the sign indicating number is swept to the yard appearance that sweeps on the yard subassembly (25) of correspondingly sweeping this moment.

When the third battery is placed on the belt conveying line (3), the battery is continuously conveyed to a subsequent rubberizing process.

Referring to fig. 3, a protective film unwinding assembly (37), a protective film tensioning assembly (38), a motor unwinding protective film assembly (39) and a protective film cutting assembly (33) are mounted on the unwinding fixing frame (310);

a C-shaped laminating roller (34) and a vertical assembly (36) are arranged on the roller conveying line (5);

the roller conveying line (5) is arranged behind the belt conveying line (3) according to a drawing, the middle of the roller conveying line is provided with a film drawing electric cylinder (31), and the end part of the film drawing electric cylinder (31) is provided with a film clamping cylinder (32).

Wherein, after a coil stock of a protective film is placed on a protective film unreeling assembly (37), one end of the protective film bypasses a protective film tensioning assembly (38) and a motor unreeling protective film assembly (39), a film-drawing electric cylinder (31) ascends, a film-clamping cylinder (32) clamps the end of the protective film, the film-drawing electric cylinder (31) descends to pull the film by the length of one battery, the motor unreeling protective film assembly (39) synchronously rotates to unreel the material when descending, when the battery on a belt line is conveyed to touch the protective film and is pushed onto a C-shaped film-covering roller (34), the film-clamping cylinder (32) unreels the end of the protective film, the roller conveying line (5) and the C-shaped film-covering roller (34) drive the battery to move forwards, the motor unreeling protective film assembly (39) synchronously rotates to unreel, and after the battery passes through the motor unreeling protective film assembly (39) (keeps a certain length), the motor unreeling protective film assembly (39) stops unreeling, the cylinder on the protective film cutting assembly (33) drives the blade to cut off the protective film, the battery continues to move forward to finish rubberizing, and the cylinder on the vertical assembly (36) drives the battery to be vertical after the rightmost end of the roller conveying line (5) is sensed by the sensing switch.

Finally, it should be noted that: 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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. A battery protection film attaching mechanism is characterized by comprising: the device comprises a discharging section rack (1), a discharging section bottom plate (2) is installed on the discharging section rack, and a belt conveyor line (3) and an unreeling device (4) are installed on the discharging section bottom plate (2); the drawing die support (6) is arranged below the discharging section bottom plate (2), a film clamping cylinder in the drawing die support can extend out of the discharging section bottom plate, the roller conveying line (5) is arranged above the discharging section bottom plate (2) and is aligned with the conveying line, and the film clamping cylinder on the drawing die support (6) can pass through the middle of the roller conveying line to be connected with a film on the unwinding device (4); a protective film is placed on the unreeling device, the film-drawing electric cylinder (31) draws the battery to the lower side of the conveying surface, and when the battery is conveyed to the roller conveying line (5) by the belt conveying line (3), the protective film can be coated on the upper surface and the lower surface of the battery; the battery pack conveying device is characterized by further comprising a conveying line frame (21), wherein a belt conveying line (3) is fixed on the conveying line frame, side cutting cutters (23) are installed on the sides, a code spraying assembly (24) and a code sweeping assembly (25) are sequentially installed on the belt conveying line (3), and two groups of correlation induction switches (26) are installed on the side cutting cutters, wherein when a battery is placed on the belt conveying line (3), the battery is sensed by the front group of induction switches (26), the belt conveying line (3) is conveyed to the position of the side cutting cutters (23) in a stepping mode, the side cutting cutters (23) are aligned with the sides of the battery, when the next battery is continuously placed down, the belt conveying line (3) is conveyed in a stepping mode again, when the battery is sensed by the second group of induction switches (26), a code is sprayed on a code spraying head on the code spraying assembly (24) in the movement process of the battery, the battery stops after stepping conveying is finished, and at the time, the code is swept by a code scanner on the code sweeping assembly (25); when the third battery is placed on the belt conveying line (3), the battery is continuously conveyed to a subsequent rubberizing process.

2. The battery protection film attaching mechanism according to claim 1, further comprising an unwinding fixing frame (310), on which a protection film unwinding assembly (37), a protection film tensioning assembly (38), a motor protection film unwinding assembly (39) and a protection film cutting assembly (33) are mounted;

a C-shaped laminating roller (34) and a vertical assembly (36) are arranged on the roller conveying line (5);

the roller conveying line (5) is installed at the rear of the belt conveying line (3), the film drawing electric cylinder (31) is installed in the middle, and the film clamping cylinder (32) is installed at the end part of the film drawing electric cylinder (31).

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