JP6424423B2 - Stacking device - Google Patents

Description

  The present invention relates to a magazine and a stacking device.

  DESCRIPTION OF RELATED ART In the manufacturing process of electrical storage apparatuses, such as a lithium ion battery, there exists a lamination | stacking apparatus which laminates | stacks an electrode and a separator on a magazine (refer patent document 1). In such a stacking device, the transfer device adsorbs and transports the electrode by the suction unit, and the electrode is stacked on the magazine by separating the electrode on the magazine.

JP 2005-50583 A

  In the stacking device, the electrodes are separated after sufficiently approaching the electrodes stacked in the magazine in order to prevent misalignment of the electrodes stacked in the magazine. At this time, the transfer device may come too close to the stacked electrodes, and the adsorption portion may hold down the stacked electrodes, which may damage the electrodes. For example, if the positive electrode is damaged, the capacity may be reduced. In addition, if the negative electrode is damaged, lithium may be precipitated.

  In the laminating apparatus described in Patent Document 1, a coil spring is provided in a vacuum head (sucking portion) for sucking an electrode. For this reason, it is possible to buffer the pressing of the electrode by the adsorption portion. However, due to the expansion and contraction of the coil spring due to deterioration or the like of the coil spring, the length of the suction portion may be shifted with respect to the preset length. Since the transport apparatus is controlled based on the preset length of the suction unit, the stacking accuracy is lowered, and there is a possibility that the electrode may be damaged by the suction unit.

  The present invention provides a magazine and a stacking device having a structure capable of improving the stacking accuracy of the stacking member.

  The magazine according to an aspect of the present invention is a magazine that accommodates sheet-like stacking members in a stacked state along the first direction. The magazine includes the placement unit in which the stacking member is stacked and the position in the first direction is adjusted according to the height in the first direction of the stacked stacking member. The placement unit includes a first portion for placing the stacking member, and a second portion for supporting the first portion in a first direction. The second portion is constituted by an elastic member.

  In this magazine, the first portion of the placement portion is supported by the second portion in the stacking direction of the stacking member, and the second portion is formed of an elastic member. For this reason, since it is possible to buffer the pressing of the stack member by the suction portion of the transport device, it is possible to reduce the damage of the stack member by the suction portion. Further, the position of the mounting portion in the stacking direction is adjusted based on the height in the stacking direction of the stacked stacking members. And the 1st part of a mounting part is supported by the 2nd part in the lamination direction of a lamination member. For this reason, even if the second portion expands and contracts due to the deterioration of the elastic member, the position in the stacking direction of the first portion is changed according to the expansion and contraction of the second portion, and the height in the stacking direction of the stacked member is changed. Therefore, the position of the mounting portion can be adjusted in consideration of the influence of the deterioration of the elastic member. As a result, the position of the mounting portion is accurately adjusted, and the stacking accuracy of the stacking member can be improved.

  A laminating apparatus according to an aspect of the present invention includes a placing portion on which a sheet-like laminating member is placed, and a magazine for accommodating the laminating members in a laminated state along the first direction, and And a position adjusting mechanism for adjusting the position of the mounting portion in the first direction in accordance with the height of the member in the first direction. The position adjustment mechanism includes a pressing unit that presses the placement unit in the first direction. The pressing portion includes a first portion for pressing the placement portion, and a second portion for supporting the first portion in the first direction. The second portion is constituted by an elastic member.

  In this stacking device, a first portion for pressing the placement portion in the stacking direction of the stacking member is supported by the second portion in the stacking direction, and the second portion is formed of an elastic member. For this reason, since it is possible to buffer the pressing of the stack member by the suction portion of the transport device, it is possible to reduce the damage of the stack member by the suction portion. The position adjusting mechanism adjusts the position of the mounting portion in the stacking direction based on the height in the stacking direction of the stacked stacking members. The first portion for pressing the placement portion is supported by the second portion in the stacking direction of the stacking member. For this reason, even if the second portion expands and contracts due to the deterioration of the elastic member, the position in the stacking direction of the first portion is changed according to the expansion and contraction of the second portion, and the height in the stacking direction of the stacked member is changed. Therefore, the position of the mounting portion can be adjusted in consideration of the influence of the deterioration of the elastic member. As a result, the position of the mounting portion is accurately adjusted, and the stacking accuracy of the stacking member can be improved.

  According to the present invention, the lamination accuracy of the lamination member can be improved.

It is a side view showing typically the lamination device concerning a 1st embodiment. It is a side view which shows the lamination device concerning a 2nd embodiment typically.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the drawings, the same reference numerals are used for the same or equivalent elements, and the overlapping description is omitted.

First Embodiment
FIG. 1 is a side view schematically showing a stacking device according to the first embodiment. As shown in FIG. 1, the laminating apparatus 1 is an apparatus for laminating and accommodating sheet-like laminating members 11. The lamination member 11 is, for example, an electrode, a separator, and the like for forming an electrode assembly of a storage device such as a lithium ion battery.

  The stacking device 1 includes, for example, a magazine 2, a transport device 3, a position detection unit 4, and an elevating mechanism 6. In the following description, the direction in which the transport device 3 is provided is "up", and the direction in which the elevating mechanism 6 is provided is "down".

  The magazine 2 is a device for accommodating the stacked members 11 in a stacked state along the vertical direction (first direction). The magazine 2 accommodates the laminated members 11 falling from above the accommodation space S in a stacked state. The magazine 2 includes a bottom 21, a guide member 22, and a stage 23.

  The bottom 21 forms the bottom of the magazine 2. The bottom 21 is, for example, a plate-like member. The bottom 21 is provided with an opening 21 a. The opening 21a is a hole which penetrates the bottom 21 in the vertical direction, and has a size enough to allow insertion of a pressing portion 61 (described later) of the lifting mechanism 6.

  The guide member 22 is a portion that defines the housing space S. The guide member 22 defines a housing area in which the stacked member 11 is housed in a plane intersecting the vertical direction. The guide member 22 is, for example, a columnar member extending in the vertical direction. The guide members 22 are provided on the top surface of the bottom portion 21 at predetermined intervals on the periphery of the bottom portion 21.

  The stage 23 is a placement unit on which the stacking member 11 is placed. The stage 23 is provided movably in the vertical direction. The position of the stage 23 in the vertical direction is adjusted in accordance with the height of the stacked members 11 in the vertical direction. A housing space S is defined by the guide member 22 and the stage 23. The stage 23 includes, for example, a first portion 24, a second portion 25, and a third portion 26.

  The first portion 24 is a portion for mounting the stacking member 11. The first portion 24 is, for example, a plate-like member. The stacking member 11 is placed on the upper surface of the first portion 24. The upper surface of the first portion 24 is the upper surface 23 a of the stage 23.

  The second portion 25 is a portion for supporting the first portion 24 in the vertical direction. The second portion 25 is provided on the lower surface of the first portion 24. The second portion 25 is constituted by an elastic member. As the elastic member, for example, a member having expandable characteristics such as a spring mechanism or rubber is used.

  The third portion 26 is a portion on which the second portion 25 is placed. The third portion 26 is, for example, a plate-like member. The third portion 26 is provided below the second portion 25, and the second portion 25 is placed on the top surface of the third portion 26. That is, the first portion 24, the second portion 25 and the third portion 26 are arranged in that order from the top, and the second portion 25 is provided between the first portion 24 and the third portion 26 in the vertical direction. There is.

  The transport device 3 is a device for transporting the stacking member 11. The transport device 3 includes a suction unit 31. The adsorbing portion 31 is a portion for adsorbing the laminated member 11. The suction unit 31 is also called a pad or a vacuum head. The transport device 3 sucks and transports the stacking member 11 by the suction unit 31, releases the suction of the stacking member 11 above the accommodation space S, and drops the stacking member 11. The transport device 3 is controlled so as to drop the stacking member 11 as close as possible to the upper surface 11 a of the stacking member 11 stacked in the magazine 2 (stage 23). When the stacking member 11 is not stacked on the stage 23, the transport device 3 is controlled to drop the stacking member 11 as close as possible to the upper surface 23 a of the stage 23.

  The position detection unit 4 is a device for detecting the position of the upper surface 23 a of the stage 23 or the upper surface 11 a of the stacked member 11 stacked on the stage 23 in the vertical direction. The position detection unit 4 is, for example, a position sensor such as a laser sensor. When the stacking member 11 is not stacked on the stage 23, the position detection unit 4 detects the position of the upper surface 23 a of the stage 23. When the stacking member 11 is stacked on the stage 23, the position detection unit 4 detects the position of the upper surface 11 a of the top stacking member 11 of the stacked members 11 stacked.

  The elevating mechanism 6 is a position adjusting mechanism for adjusting the position of the stage 23 in the vertical direction according to the height in the vertical direction of the stacking member 11 stacked on the stage 23 of the magazine 2. The lifting mechanism 6 includes a pressing unit 61, a support unit 62, and a control device 63.

  The pressing portion 61 is a portion for pressing the stage 23 in the vertical direction. The pressing portion 61 is, for example, a plate-like member. The upper surface of the pressing portion 61 abuts on the lower surface (the lower surface of the third portion 26) 23b of the stage 23, and presses the lower surface 23b upward.

  The support portion 62 is a portion that supports the pressing portion 61. The support portion 62 is, for example, a columnar member extending in the vertical direction. The support portion 62 is provided to support the pressing portion 61 below the pressing portion 61. The support portion 62 is configured to be movable in the vertical direction.

  The control device 63 is a device that raises or lowers the position of the pressing portion 61 by moving the support portion 62 in the vertical direction. The control device 63 raises or lowers the position of the pressing portion 61 in the vertical direction according to the position of the upper surface 23 a of the stage 23 or the upper surface 11 a of the stacked member 11 detected by the position detection unit 4. The vertical position of the stage 23 is adjusted. The controller 63 (lifting mechanism 6) is configured such that, for example, the vertical position of the upper surface 23a of the stage 23 detected by the position detection unit 4 or the upper surface 11a of the stacking member 11 coincides with a predetermined position. Adjust the vertical position of 23.

  Next, an example of the stacking operation in the stacking device 1 and the magazine 2 will be described.

  First, the elevation mechanism 6 adjusts the position of the upper surface 23a of the stage 23 of the magazine 2 in the vertical direction to coincide with the predetermined position P1. Next, the first stack member 11 is sucked by the transport device 3 including the suction unit 31, and is transported above the storage space S of the magazine 2. Then, the transport device 3 moves downward to the position P2 set in advance, and cancels the suction of the stacking member 11. The position P2 is slightly higher than the position P1, and the distance between the position P1 and the position P2 is sufficiently small that the stacking members 11 falling from the transport device 3 can be stacked without misalignment. Thereby, the stacking member 11 is mounted on the upper surface 23 a of the stage 23.

  Next, the elevation mechanism 6 adjusts the position of the upper surface 11 a of the stacked member 11 placed on the upper surface 23 a of the stage 23 in the vertical direction to coincide with the position P1. Subsequently, the second stack member 11 is adsorbed by the transport device 3 and is transported above the storage space S of the magazine 2. Then, the transport device 3 moves downward to the position P2, and cancels the suction of the stacking member 11. Thus, the second stack member 11 is placed on the top surface 11 a of the first stack member 11 placed on the stage 23. By repeating such a series of operations, the stacking member 11 is stacked in the vertical direction in the housing space S of the magazine 2.

  In the stacking device 1 and the magazine 2 configured as described above, the first portion 24 of the stage 23 is supported by the second portion 25 at the lower side, and the second portion 25 is formed of an elastic member. For this reason, even if the suction unit 31 of the transfer device 3 holds down the stacking member 11 stacked on the stage 23, the pressing force can be buffered by the second portion 25. As a result, damage to the laminated member 11 due to the suction unit 31 can be reduced.

  In the stacking device 1 and the magazine 2, the position of the stage 23 in the vertical direction is adjusted based on the height in the stacking direction (vertical direction) of the stacked members 11 stacked. The first portion 24 of the stage 23 is supported by the second portion 25 below. Therefore, even if the second portion 25 expands and contracts due to the deterioration of the elastic member, the vertical position of the first portion 24 is also changed according to the expansion and contraction of the second portion 25. In response to this, the height in the vertical direction of the stacking member 11 stacked on the stage 23 is changed. That is, the position of the upper surface 23a of the stage 23 detected by the position detection unit 4 or the position of the upper surface 11a of the stacked member 11 stacked on the stage 23 in the vertical direction is a position after being changed by the expansion and contraction of the second portion 25. is there. Therefore, the position of the stage 23 can be adjusted in consideration of the influence of the deterioration of the elastic member. As a result, the position of the stage 23 is accurately adjusted, and the lamination accuracy of the laminated member 11 can be improved.

Second Embodiment
FIG. 2 is a side view schematically showing the stacking device according to the second embodiment. As shown in FIG. 2, the laminating apparatus 1A is different from the laminating apparatus 1 in that a magazine 2A and an elevating mechanism 6A are provided instead of the magazine 2 and the elevating mechanism 6.

  The magazine 2A is different from the magazine 2 in that a stage 23A is provided instead of the stage 23. The stage 23A is a placement unit on which the stacking member 11 is placed. The stage 23A is, for example, a plate-like member. The stacking member 11 is placed on the upper surface 23a of the stage 23A. A housing space S is defined by the guide member 22 and the stage 23A.

  The lifting and lowering mechanism 6A is different from the lifting and lowering mechanism 6 in that a pressing portion 61A is provided in place of the pressing portion 61. The pressing portion 61A is a portion for pressing the stage 23A in the vertical direction. The pressing portion 61A includes, for example, a first portion 64, a second portion 65, and a third portion 66.

  The first portion 64 is a portion for pressing the stage 23. The first portion 64 is, for example, a plate-like member. The upper surface of the first portion 64 abuts on the lower surface 23 b of the stage 23 and presses the lower surface 23 b upward.

  The second portion 65 is a portion for supporting the first portion 64 in the vertical direction. The second portion 65 is provided on the lower surface of the first portion 64. The second portion 65 is constituted by an elastic member. As the elastic member, for example, a member having expandable characteristics such as a spring mechanism or rubber is used.

  The third portion 66 is a portion for mounting the second portion 65. The third portion 66 is, for example, a plate-like member. The third portion 66 is provided below the second portion 65, and the second portion 65 is placed on the upper surface of the third portion 66. That is, the first portion 64, the second portion 65 and the third portion 66 are arranged in that order from the top, and the second portion 65 is provided between the first portion 64 and the third portion 66 in the vertical direction. There is.

  Since the stacking operation in the stacking device 1A and the magazine 2A is the same as the stacking operation in the stacking device 1 and the magazine 2, the description thereof is omitted.

  In the laminating apparatus 1A configured as described above, the first portion 64 for pressing the stage 23A in the vertical direction is supported by the second portion 65 at the lower side, and the second portion 65 is formed of an elastic member. There is. For this reason, even if the suction unit 31 of the transfer device 3 holds down the stacking member 11 stacked on the stage 23A, the pressing force can be buffered by the second portion 65. As a result, damage to the laminated member 11 due to the suction unit 31 can be reduced.

  In addition, the lifting mechanism 6 adjusts the position of the stage 23A in the vertical direction based on the height in the stacking direction (vertical direction) of the stacked members 11 stacked. The first portion 64 for pressing the stage 23A is supported by the second portion 65 at the lower side. For this reason, even if the second portion 65 expands and contracts due to the deterioration of the elastic member, the vertical position of the first portion 64 is also changed according to the expansion and contraction of the second portion 65. In response to this, the height in the vertical direction of the stacking member 11 stacked on the stage 23A is changed. That is, the position of the upper surface 23a of the stage 23A detected by the position detection unit 4 or the position of the upper surface 11a of the stacked member 11 stacked on the stage 23A in the vertical direction is a position after being changed by the expansion and contraction of the second portion 65. is there. Therefore, the position of the stage 23A can be adjusted in consideration of the influence of the deterioration of the elastic member. As a result, the position of the stage 23A is accurately adjusted, and the stacking accuracy of the stacking member 11 can be improved.

  The magazine and the stacking apparatus according to the present invention are not limited to the above embodiment. For example, the number and arrangement of the second portions 25 in the stacking device 1 may be changed as appropriate. Similarly, the number and arrangement of the second portions 65 in the stacking device 1A can be changed as appropriate.

  In the first embodiment, the stage 23 includes the first portion 24, the second portion 25, and the third portion 26, but the present invention is not limited thereto. For example, the stage 23 may include the first portion 24 and the second portion 25. In the second embodiment, the pressing portion 61A includes the first portion 64, the second portion 65, and the third portion 66, but is not limited thereto. For example, the pressing portion 61A may include the first portion 64 and the second portion 65.

  1, 1A: stacking device, 2, 2A: magazine, 6, 6A: lifting mechanism (position adjusting mechanism), 11: stacking member, 23, 23A: stage (mounting portion), 24: first portion, 25: fifth 2 parts, 26 ... 3rd part, 61, 61A ... Press part, 64 ... 1st part, 65 ... 2nd part, 66 ... 3rd part.

Claims (2)

A magazine for accommodating sheet-like lamination members in a stacked state along the vertical direction ;
And a transport device that has a suction unit that suctions the stacked member, and suctions the stacked member by the suction unit and sequentially transports and stacks above the magazine.
The magazine, the said lamination members that have been successively conveyed by the conveying device are stacked and monitor, according to the height in the vertical direction of the laminated the laminated member, the position in the vertical direction is adjusted Equipped with the
The above-mentioned placement part is
A first portion for mounting the stacking member;
And a second portion for supporting the first portion below.
The laminating apparatus , wherein the second portion is constituted by an elastic member. A magazine which has a mounting portion on which a sheet-like stacking member is placed, and stores the stacking member in a stacked state along the vertical direction;
A conveying device having an adsorption unit for adsorbing the stacking member, and adsorbing the stacking member by the adsorption unit and sequentially transporting and laminating the magazine above the magazine ;
And a position adjusting mechanism for adjusting the position of the placing portion in the vertical direction according to the height in the vertical direction of the laminated members stacked.
The position adjustment mechanism includes a pressing unit that presses the placement unit in the vertical direction,
The pressing portion includes a first portion for pressing the placement portion, and a second portion for supporting the first portion below.
The laminating apparatus, wherein the second portion is constituted by an elastic member.

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