KR20200070921A - Notching apparatus with increased electrode derailment correction efficiency - Google Patents

Abstract

The present invention relates to notching complex equipment for improving pole plate derailment correcting efficiency, the equipment comprising: an unwinder unit (20) which includes an unwinding roll in which a pole plate (2) is wound in a roll form; and a notching unit (30) which processes notching on the pole plate (2) which is continuously moved in the unwinder unit (20). The unwinder unit (20) is mounted in a base (50) which is placed upright. The base (50) is moved in a direction intersecting a transfer direction of the pole plate (2). The notching unit (30) is mounted in a fixed base (56) separated from the base (50).

Description

Notching apparatus with increased electrode derailment correction efficiency

The present invention relates to a notched composite equipment that improves the efficiency of correcting a plate meander, and more particularly, to a notched composite equipment having a new configuration capable of quickly and accurately correcting a meander plate meander when a plate meander occurs during transport of the plate.

The present invention is a new concept notching composite equipment capable of maximizing productivity by lowering the defect rate by intuitively responding to a deviation in coating height from real-time vision inspection after reaching the product range after notching of the electrode plate for secondary batteries.

The secondary battery can be classified into a can type or a pouch type secondary battery according to the shape of the outer case. In the pouch type secondary battery, a battery cell in which an electrode tab is formed on one side of an electrode plate (positive plate and negative electrode plate) and an electrode plate so that the electrode tab is drawn out It consists of a pouch to wrap and seal. The battery cell is a separator interposed between a plurality of positive electrode plates and a negative electrode plate, and the battery cell is embedded in the pouch and sealed, and the electrode tab on one side of the battery cell has a structure that is drawn out of the pouch. The battery cell is a pouch type secondary battery. A battery cell is made by stacking a plurality of positive electrode plates and a negative electrode plate with a plurality of separators interposed therebetween.

In order to make a battery cell for a secondary battery, notched composite equipment is used. In the notching composite device, the unwinder unit having the unwinding roll in which the pole plate is wound in a roll form, and the reel electrode plate (hereinafter, referred to as the reel electrode plate for convenience) will be continuously moved in the unwinder unit. A transfer operation part to be performed, an EPC (edge position controller) disposed between the pole unwinder unit and the pole plate transfer part, and a notching part to form an electrode tab by notching on the pole plate continuously moved by the transfer operation part, It has a cutting portion for cutting the electrode tab is formed by the notching portion to the individual electrode plate. At this time, the unwinder unit, the transfer operation unit, the EPC, the notching unit, and the cutting unit are mounted on a standing base.

According to the notching composite equipment, the electrode plate is input from the unwinding roll of the unwinder unit through the EPC to the notching portion by the transfer operation unit, and a plurality of electrode tabs are continuously formed on the electrode plate at regular intervals. The formed electrode plate enters the cutting portion and is formed as an individual electrode plate with electrode tabs. At this time, the electrode plate is provided with a surface coated with an active material and a non-coated surface without an active material, and the non-coated surface is formed at an end portion (edge) of the electrode plate. As a result, a meandering phenomenon that does not go straight and is distorted occurs, and the meandering phenomenon of the pole plate is configured to be corrected while passing through the EPC. While the plate is passing through the EPC at high speed, the EPC flows to correct the meandering of the plate. The EPC is configured to flow left and right in a direction intersecting with the direction of transport of the pole plate, and prevents meandering of the pole plate while the EPC flows left and right when the high-speed pole plate passes through the EPC portion.

However, in the case of the existing notching complex equipment, there is a disadvantage that the skew correction of the pole plate is not properly performed. As the pole plate is transferred at a fairly high speed, notching or the like is performed. Since the plate is a considerable high-speed movement, even if the meander is corrected by the EPC, there is a problem in that it is not properly corrected for meander correction because the reaction speed is slow. Conventionally, the unwinder unit, the transfer operation unit, the EPC, the notching unit, and the cutting unit are mounted on an erected base, and the base is composed of a single body and is fixed in an upright position when passing through the EPC. In the EPC part, the meander correction of the pole plate should be made, but since the reaction speed of the EPC part is slow, the meander correction of the pole plate is not properly performed.

Korean Patent Publication No. 10-2013-0048419 (released May 10, 2013) Korea Public Utility Model No. 20-2015-0003358 (released on September 11, 2015) Korean Registered Patent No. 10-1096773 (Registered on December 14, 2011) Korean Registered Patent No. 10-0251078 (2000.01.10 registered)

The present invention was developed to solve the problems as described above, the object of the present invention is the notch of a new configuration capable of quickly and precisely correcting the meandering phenomenon of the pole plate by reacting quickly when the meander plate occurs during the transfer of the pole plate. It is intended to provide complex equipment. An object of the present invention is to apply to a high-speed notching machine of a secondary battery electrode plate process to provide an invention for compensating for the insufficient effect of the conventional notch mold meander correction by two roll EPC.

According to the present invention for solving the above problems, the unwinder unit having an unwinding roll in which a pole plate is wound in a roll form; A transfer operation unit configured to continuously move the pole plate in the unwinder unit; It comprises a; notching unit for forming an electrode tab by notching on the pole plate continuously moved by the transfer operation unit, is configured to include, the unwinder unit is mounted on a base placed upright, the base of the pole plate Provided is a notching composite device which is arranged to be movable in a direction intersecting with the conveying direction, and the conveying operation part and the notching part are mounted on a fixed base separated from the base.

The base is characterized by being configured to be supported and erected by the LM guide.

The base is characterized in that it is configured to slide along the L-M guide by the base moving means to move in a direction crossing the direction of transport of the pole plate.

It is characterized in that it is further provided with a sensor for detecting the meandering of the pole plate during the transfer of the pole plate.

The sensor is characterized in that the EPC sensor.

The notching composite equipment according to the present invention has an effect that the meander correction of the pole plate is properly performed because the reaction speed of the meander correction is sufficiently fast while the entire base moves when the meander plate is meandered. According to the present invention, the entire unwinder unit is driven by EPC sensing to rapidly stabilize the driveability of the plate coating line entering the mold through intuitive plate web driving compensation, thereby improving productivity and improving productivity. have.

1 is a front view showing an unwinding unit and a notching unit in a notching composite equipment improving the efficiency of correcting a meander plate according to the present invention.
2 is an enlarged front view showing the base and the unwinding unit shown in FIG. 1;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention may be more easily understood by referring to the accompanying drawings and the following detailed description. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. For example, when a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected to or connected to the other component, but between each component It should be understood that another component may be “connected”, “coupled” or “connected”.

Referring to the drawings, the notched composite equipment that improves the efficiency of correcting the meander plate according to the present invention includes a reel pole plate 2 (hereinafter, referred to as a pole plate 2 for convenience). The unwinding roll 22 is introduced into the notching part 30, and the notching part 30 continuously forms a plurality of electrode tabs on the pole plate 2 at regular intervals. Meanwhile, the electrode plate 2 on which the electrode tab is formed may enter the cutting portion and be formed as an individual electrode plate 2 having an electrode tab.

In the present invention, the electrode plate 2 is continuously supplied and moved from the unwinder unit 20 having an unwinding roll wound in a roll form, and the unwinding roll 22 of the unwinder unit 20. The electrode plate 2 is provided with a notching portion 30 that forms an electrode tab on the electrode plate 2 by notching. Meanwhile, in the present invention, the unwinder unit 20 may include a transfer operation unit that continuously moves the pole plate 2. The electrode plate 2 is continuously moved by the transfer operation unit, and an electrode tab is formed on the electrode plate 2 by notching in the notching unit 30. A notching mold is provided in the notching part 30 to form an electrode tab on the electrode plate 2 with a notching mold that moves up and down.

In the present invention, a sensor 40 (EPC sensor) is provided. The present invention may further include an auto splicing part (auto splicing part) and a driven guide roller.

The sensor 40 (EPC sensor) is a device for recognizing an unwinding electrode plate 2 coating line and correcting a position to strike an accurate position in a mold. The sensor 40 corrects the position of the pole plate 2 by sensing whether the pole plate 2 is meandering during continuous movement of the pole plate 2.

The auto splicing unit is mounted on the base 50 and is an automatic connection device for the pole plate 2.

The drive type guide roller is also mounted on the base 50, and is a guide roller device that minimizes surface damage due to rotational inertia generated by intermittent driving by driving the guide roller.

What is characteristic in the present invention is that the base 50 and the fixed base 56 are separated, and the base 50 is moved independently from the fixed base 56. An unwinder unit 20 is mounted on the base 50 and a notching portion 30 is mounted on the fixed base 56.

The notching composite equipment of the present invention has a main bottom base (52). The base 50 is connected to the main bottom base 52 through the L-M guide. The connection bottom base 50 is provided on the main bottom base 52, and the lower end of the base 50 is connected to the connection bottom base 50 via an LM guide. Since the connection bottom base 50 is a configuration of the main bottom base 52, the lower end of the base 50 is connected to the main bottom base 52 via an L-M guide. The L-M guide is disposed in a direction intersecting the transport direction of the pole plate 2. In the present invention, the LM guide is disposed in a direction orthogonal to the transport direction of the pole plate 2. The base 50 is supported by the L-M guide and is disposed in a standing state on the main bottom base 52. The LM guides are arranged in a direction perpendicular to the left and right width directions of the standing base 50.

When viewing the notched composite equipment of the present invention from the front, the base 50 is placed upright, and a fixed base 56 is placed next to the base 50. The fixed base 56 is connected to the main bottom base 52. The lower end of the fixed base 56 is connected to the main bottom base 52.

The fixed base 56 is fixed to the main bottom base 52 and does not move, while the base 50 is connected to the main bottom base 52 via an LM guide so that the base 50 follows the LM guide. It is configured to move in the front-rear direction. The base 50 is configured to slide along the L-M guide by the base moving means to move in a direction crossing the direction of transport of the pole plate 2. A base moving means may be connected to the rear surface of the base 50. At this time, the base moving means may be configured as a cylinder. The cylinder rod of the cylinder is connected to the rear surface of the base 50, and the base 50 may be moved back and forth along the LM guide according to the forward and backward movement of the cylinder rod. The pole plate 2 is continuously moved from the unwinder unit 20 toward the notching portion 30, and is operated back and forth in a direction in which the base 50 is orthogonal by the base moving means. When the direction in which the pole plate 2 is conveyed is referred to as a longitudinal direction, a direction in which the base 50 moves is a front-rear direction, and a front-rear direction in which the base 50 is orthogonal to a longitudinal direction that is a conveyance direction of the pole plate 2. You can move to.

On the other hand, in the present invention, the pole plate 2 may be provided with a pole plate transfer support so as to continuously move from the unwinder unit 20 toward the notching portion 30. The pole plate transfer support may be mounted on the base 50. The pole plate transfer support is disposed between the unwinder unit 20 and the notching portion 30, so that the pole plate 2 is continuously transferred from the unwinding roll 22 of the unwinder unit 20 to the pole plate transfer support portion. It can be passed through and supplied to the notching portion 30.

Meanwhile, a sensor 40 for detecting meandering of the pole plate 2 during the transfer of the pole plate 2 is further provided. The sensor 40 is an edge position controller (EPC) sensor. While the electrode plate 2 is supplied from the unwinder unit 20 and moves toward the notching unit 30, the EPC sensor senses whether the electrode plate 2 is meandering. The sensor 40 is disposed between the notching unit 30 and the unwinder unit 20. A sensor 40 may be mounted on the fixed base 56.

In the present invention, the pole plate 2 transfer operation unit may be further provided to continuously supply the pole plate 2 from the unwinding roll 22 of the unwinder unit 20. The pole plate 2 transfer operation part is configured to be mounted on the fixed base 56. Between the unwinder unit 20 and the notching unit 30, the electrode plate 2 transfer operation unit may be disposed.

According to the present invention having the above configuration, the pole plate 2 is fed into the notching portion 30 via the pole plate transfer support portion from the unwinding roll 22 of the unwinder unit 20 by the transfer operation portion. The pole plate 2 may be introduced into the notching portion 30 through the pole plate transfer support provided in the base 50.

When the electrode plate 2 enters the notching portion 30, the electrode tab is formed on the electrode plate 2 by cutting a portion of the electrode plate 2 by punching and die of a notching mold that moves up and down of the notching portion 30, , The electrode plate 2 on which the electrode tab is formed enters the cutting portion and is formed of a rectangular individual electrode plate 2 having an electrode tab.

At this time, in the present invention, the base 50 provided with the unwinder unit 20 is moved forward and backward in a direction orthogonal to the transport direction of the pole plate 2 independently of the fixed base 56 on which the notching unit 30 is mounted. When the pole plate 2 is continuously transported, a meandering phenomenon of the pole plate 2 occurs (that is, the pole plate 2 is not properly transported along the transport path, and a deviation from the transport path occurs) , By straightening or reversing the base 50 in a direction orthogonal to the transport direction of the pole plate 2, the meander of the pole plate 2 is quickly corrected. In the present invention, when the sensor 40 is sensed as meandering of the pole plate 2 by the EPC sensor, the base 50 is immediately activated by the operation of the base moving means (for example, the cylinder). ) The meandering of the pole plate 2 can be corrected immediately while moving forward or backward in the direction orthogonal to the transfer direction. When the base moving means is a cylinder, the base 50 and the unwinder unit 20 mounted thereon by the forward and backward operation of the cylinder (when the transport support portion of the electrode plate 2 is mounted on the base 50, the unwinder The unit 20 and the pole plate 2 transfer support part) can move in a direction orthogonal to the transfer direction of the pole plate 2.

Therefore, the notched composite equipment according to the present invention is configured to move the entire base 50 as compared to the conventional meandering partly corrected by the EPC when the pole plate 2 is meandered, during the high-speed transfer of the pole plate 2 ) Since the reaction speed of the meander correction is fast enough, the meander correction of the pole plate 2 is properly performed. In the case of attempting to correct the meandering of the pole plate 2 by using only the EPC part, since the reaction speed of the EPC part is slow, the meandering correction of the pole plate 2 is not properly performed, but in the present invention, the entire base 50 is By moving, the reaction speed becomes high, and thus, the meander correction of the polar plate 2 in high-speed transport is properly performed due to the rapid reaction speed. By preventing the error in the meander correction of the pole plate 2, it will be said to be very reliable in the meander correction of the pole plate 2 compared to the conventional one.

In the above, specific examples of the present invention have been described above. However, the spirit and scope of the present invention are not limited to these specific embodiments, and various modifications and variations are possible within a range that does not change the gist of the present invention. Anyone who has it will understand.

Therefore, the above-described embodiments are provided to fully inform the person of ordinary skill in the art to which the present invention pertains, the scope of the invention, and should be understood as illustrative in all respects and not restrictive. The invention is only defined by the scope of the claims.

2. Plate 20. Unwinder unit
22. Unwinding roll 30. Notching part
40. Sensor 50. Base
56. Fixed base

Claims (5)

An unwinder unit 20 having an unwinding roll in which the pole plate 2 is wound in a roll form;
It comprises a; notching unit 30 for notching the pole plate 2 continuously moved in the unwinder unit 20;
The unwinder unit 20 is mounted on the base 50 which is placed upright, and the base 50 is configured to be movable in a direction crossing the transport direction of the pole plate 2,
The notching unit 30 is a notched composite equipment to improve the plate meander correction efficiency, characterized in that mounted on a fixed base (56) separated from the base (50).
According to claim 1,
The base 50 is a notched composite device with improved pole plate meandering efficiency, characterized in that it is configured to be supported and erected by an L-M guide.
According to claim 2,
The base 50 is a notched composite equipment with improved polar plate meander correction efficiency, characterized in that it is configured to slide along the L-M guide by a base moving means to move in a direction crossing the direction of transport of the pole plate (2).
According to claim 1,
Notched composite equipment to improve the correction efficiency of the meander plate meander, characterized in that further provided with a sensor 40 for detecting the meander of the pole plate (2) during the transfer of the pole plate (2).
The method of claim 4,
The sensor 40 is an EPC sensor, characterized in that the notch composite equipment to improve the meander plate skew correction efficiency.

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