KR101256052B1 - Secondary battery soaking pallet - Google Patents

Abstract

PURPOSE: A secondary battery soaking pallet is provided to improve the capacity of a secondary battery, to simultaneously squeeze a lot of secondary batteries, thereby quickening and facilitating the production of secondary batteries. CONSTITUTION: A secondary battery soaking pallet comprises a plurality of squeezing panels which face each other inside a pallet frame(10) and putting a battery pouch between the panels; a cam follower unit which moves forwards and backwards the squeezing panel by being connected to the squeezing panel; a rotary shaft unit(44) which is supported by the pallet frame and connected to the cam-follower unit to generate a rotating force for moving forwards and backwards the squeezing panel.

Description

Secondary battery soaking pallet

The present invention relates to a secondary battery soaking pallet, and more particularly, the present invention relates to a secondary battery soaking pallet, and more particularly, to accommodate a large amount of secondary batteries (battery pouches) to perform a squeegeeing operation in a batch. The present invention relates to a new secondary battery soaking pallet, which is very advantageous in various aspects, such as workability and productivity, and has a relatively simple structure for the squeegeeing operation of secondary batteries, which is also advantageous in terms of assembling and economy.

BACKGROUND ART In general, the demand for secondary batteries that can be repeatedly charged and discharged as a power source for portable electronic devices such as PDAs, mobile phones, and notebook computers, electric bicycles, and electric vehicles is rapidly increasing. In this case, the secondary battery is manufactured by forming an electrode assembly having a three-layer structure of a positive electrode plate, a separator, and a negative electrode plate or a multilayer structure of five or more layers of a positive electrode plate, a separator, a negative electrode plate, a separator, and a positive electrode plate, and accommodating the electrode assembly in a pouch.

On the other hand, lithium oxide is used as a positive electrode active material used for secondary batteries, and a carbon material is used a lot as a negative electrode active material. Using such an active material, a predetermined area is laminated by stacking a positive electrode plate having a positive electrode tab on a positive electrode current collector on which a positive electrode active material is formed, a negative electrode plate having negative electrode tab on a negative electrode current collector on which a negative electrode active material is formed, and a separator interposed between the positive electrode plate and the negative electrode plate. To prepare an electrode assembly of the battery pouch, the electrode assembly is accommodated in the pouch, an electrolyte solution is injected into the pouch through an opening of one side of the pouch, and the battery pouch of the secondary battery is charged and discharged. By sealing the one side opening, the manufacture of the pouch type secondary battery is completed.

At this time, when the electrolyte is filled inside the battery pouch of the pouch-type secondary battery, both sides of the battery pouch itself are convex to the outside, so to press the battery pouch both sides to increase the capacity of the battery to spread the electrolyte evenly throughout the battery. It is necessary to work (squeeze) to make it possible. In other words, the electrolyte capacity charged inside the battery pouch of the secondary battery may be spread evenly to increase the capacity of the battery. Therefore, the squeegeeing operation of the secondary battery is necessary to spread the electrolyte evenly, and the electrode plate constituting the battery pouch of the secondary battery is required. The gap between them should be as compact as possible to increase the capacity of the battery.

Since the squeegeeing operation of the secondary battery is not preferable in terms of time and productivity for each secondary electrode, there is a need for a means for quickly and easily squeezing a large amount of secondary batteries (battery pouches). In the squeegeeing operation, a stable and precise squeegeeing operation should be able to be performed to ensure high quality without degrading the quality of the secondary battery.

In the present invention, in order to increase the battery capacity during secondary battery manufacturing, an electrolyte filled inside the pouch is evenly distributed and impregnated, and at the same time, a squeegeeing operation is required to reduce the gap between the electrode plates of the battery pouch as compactly as possible. In order to perform a squeegeeing operation during manufacturing of a secondary battery, a large amount of secondary batteries (ie, battery pouches) may be accommodated between a plurality of squeezing panels, which are main parts, to perform squeegeeing in a batch. It is an object of the present invention to provide a secondary battery soaking pallet which is very advantageous in various aspects such as performance and productivity.

According to the present invention for solving the above problems, a plurality of squeegee panel 20 is provided to face each other inside the pallet frame 10, the battery pouch 4 is inserted therebetween; And a cam follower unit which is operatively connected to the squeegee panel 20 to relatively forward and backward the squeegee panel 20 disposed at both sides of the battery pouch 4. A soaking pallet is provided.

It is supported by the pallet frame 10 and connected to the cam follower unit so as to be capable of power transmission, and the cam follower unit is driven forward and backward relative to the squeegee panel 20 at both sides of the battery pouch 4. And a rotary shaft unit for generating a rotating force.

The cam follower unit is connected to a plurality of first squeezing panels 20A disposed at one surface position of both surfaces of the battery pouch 4 and is provided to be slidably mounted on the pallet frame 10. (32); A second movable frame 34 connected to the plurality of second squeezing panels 20B disposed to face the first squeezing panel 20A and slidably disposed on the pallet frame 10; It is connected to the cam follower unit and both ends are connected to the first movable frame 32 and the second movable frame 34 to the first movable frame 32 while the seesaw movement in accordance with the rotational power of the rotary shaft unit And a cam follower 36 which allows the connected first squeezing panel 20A and the second squeezing panel 20B connected to the second movable frame 34 to be moved forward and backward in a direction facing each other. Can be.

The rotary shaft unit is rotatably installed on the pallet frame 10 and disposed in the direction orthogonal to the moving direction of the squeegee panel 20, and a cam follower operating shaft 42 connected to the cam follower 36. Wow; A driving rotary shaft 44 rotatably installed on the pallet frame 10 so as to be disposed in a direction parallel to the moving direction of the squeegee panel 20; The rotational force of the driving rotary shaft 44 is transmitted to the cam follower operating shaft 42 so that the other of the first squeegee panel 20A disposed at one surface position of the battery pouch 4 and the battery pouch 4 is different. And a driving gear 52 for causing the second squeezing panel 20B disposed in the plane position to be operated relative to the front and rear of the cam follower 36 by rotation.

Rotational power of the rotary shaft unit is transmitted to the squeegee panel 20 by linear power by the cam follower unit connected to the rotary shaft unit, so that both sides of the battery pouch 4 face each other. Squeeged by the advance of the).

The squeegee panel 20 is arranged in two groups symmetrical in both positions with respect to the drive rotary shaft 44, and the cam follower actuating shaft 42 has one first squeegee panel 20A. A first cam follower operating shaft disposed to be orthogonal to one side position of the group, and disposed to be orthogonal to the other position of the other second squeezing panel 20B to be disposed at a position opposite to the first cam follower operating shaft. And a second cam follower actuating shaft, wherein the driving gear 52 is configured to transmit rotational force simultaneously to the first cam follower actuating shaft and the second cam follower actuating shaft by the rotation of the drive rotary shaft 44. Can be.

A first connecting portion connecting an upper end of the cam follower 36 to the first movable frame 32; It may include a second connecting portion for connecting the lower end of the cam follower 36 to the second movable frame 34.

The driving gear 52 may include any one of a worm gear, a rack gear and a pinion gear, and a bevel gear that transmits the rotational force of the driving rotary shaft 44 to the cam follower operating shaft 42.

The support member 62 is installed upright in the pallet frame 10 and has a coupling slit in which side end portions of the battery pouches 4 inserted between the plurality of squeegee panels 20 are fitted. It is preferable to include.

The present invention is a battery pouch for manufacturing a secondary battery between a plurality of squeegee panel facing each other in a large amount, by driving the rotary shaft unit, the main part by the seesaw rotation of the cam follower, the main part constituting the cam follower unit A plurality of side by side first squeezing panel and the second squeezing panel can be squeezed by pressing the battery pouch while advancing in a direction facing each other, and the drive of the rotary shaft unit to be reversed, the seesaw of the cam follower As the rotation occurs in the opposite direction, the plurality of side-by-side first squeezing panels and the second squeezing panels return to a direction away from each other and can be released while pressing the battery pouch interposed therebetween. Both sides of the battery pouch of the secondary battery inserted between the panels pressurize the opposing squeegee panel Pressed by the action, the electrolyte charged inside the battery pouch is spread evenly, and the electrode is also completely immersed in the electrolyte so that the impregnation can be even, so that the capacity of the secondary battery can be increased, and each battery constituting the battery pouch of the secondary battery Since the gap between the electrode plates is as compact as possible, there is also an effect to increase the capacity of the battery.

In the present invention, the secondary battery is accommodated between a plurality of squeegee panels arranged side by side in a plurality of rows can be squeezed a large amount of secondary batteries at once, the secondary battery manufacturing operation is quick and easy, Furthermore, a considerable improvement in productivity can be expected.

For example, in view of the fact that the present invention is not preferable in terms of time and productivity for performing the squeegeeing operation on the secondary batteries individually for each secondary electrode, a means for quickly and easily squeezing a large amount of secondary batteries is possible. It can be said that, even in the squeegee operation, the invention can be carried out a stable and precise squeegeeing operation to ensure high quality without degrading the quality of the secondary battery.

In addition, the present invention has the advantage that the squeegee panel located on both sides of the battery pouch forward and backward at the same time at the same time does not move when the battery pouch is squeezed and does not require a moving mechanism, the battery that can be generated when moving It has another useful effect in that it can prevent damage to the pouch.

1 is an external perspective view of a secondary battery soaking pallet according to the present invention;
2 is a plan view of FIG. 1
3 is a perspective view showing the structure of the main part shown in FIG.
4 is a cross-sectional view taken along the line AA of FIG.
5 and 7 is a front cross-sectional view conceptually showing the configuration and operation of the secondary battery soaking pallet according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to the drawings, the secondary battery soaking pallet according to the present invention is arranged to be moved in a direction facing each other, and a plurality of squeegee panel 20 to insert the battery pouch (4) between the pallet, At least one of a rotary shaft unit supported by the frame 10 and a squeegee panel 20 which is operatively connected between the squeegee panel 20 and the rotary shaft unit and disposed at both sides of the battery pouch 4. And a cam follower unit that transmits power to the side of the squeegee panel 20 toward the other side of the squeegee panel 20. The pair of pairs are disposed in a position opposite to the battery pouch 4. By moving the opposite squeegee panel groups 20 in parallel and pressing both sides of the battery pouch 4 filled with the electrolyte therein at a constant pressure, the electrolyte of the battery pouch 4 is stored in the entire battery. While purging it has a feature that allows you to be uniformly impregnated by capillary action.

The pallet frame 10 has a hexahedral box shape having an opening for inserting the battery pouch 4 of the secondary battery into an upper surface thereof. That is, the pallet frame 10 has a structure in which a hexahedral frame-shaped side frame is coupled to a base, and the battery pouch 4 (the inside of the pole plate is laminated and filled with an electrolyte solution) of the secondary battery inside the pallet frame 10. The space part for injecting it is secured. Meanwhile, as shown in FIG. 2, for convenience of understanding, the X arrow direction is defined as the left and right directions and the Y arrow direction is defined as the front and rear directions based on the upper surface of the pallet frame 10.

The rotary shaft unit includes a cam follower operating shaft 42 rotatably installed on the pallet frame 10 so as to be disposed in a direction orthogonal to the moving direction of the squeegee panel 20, and the moving direction of the squeegee panel 20. The drive rotary shaft 44 rotatably installed on the pallet frame 10 so as to be arranged in a side-by-side direction, and the rotational force of the drive rotary shaft 44 is transmitted to the cam follower operating shaft 42 to provide one surface of the battery pouch 4. Driving gear 52 for allowing the first and second squeezing panels 20A disposed at the position and the second squeezing panel 20B disposed at the other surface position of the battery pouch 4 to be operated relative to each other by the cam follower unit. It includes.

The cam follower actuating shaft 42 may be rotatably mounted on a left or right side of the pallet frame 10 via a rotation support means such as a shaft bush, not shown. Reference numeral 46, which is not shown in FIG. 1, is a shaft supporter having a lower end fixed to a base that forms the bottom surface of the pallet frame 10, and is installed upright. The shaft supporter 46 is supported by rotation support means such as a bearing or a shaft bush. The cam follower actuating shaft 42 can take a structure rotatably supported. The cam follower operating shaft 42 is disposed in the Y direction shown in FIG. 2, and the cam follower operating shaft 42 is arranged in a direction perpendicular to the moving direction of the squeegee panel 20. In the present invention, two groups of squeezing panels 20 are installed at the front and rear positions of the pallet frame 10, and the cam follower operating shaft 42 also corresponds to the left and right positions of the pallet frame 10. Each arrangement is shown. Wherever the direction reference of the pallet frame 10 is set, it will be understood that the cam follower operating shaft 42 is arranged in a direction perpendicular to the direction of movement of the squeegee panel 20.

The driving rotary shaft 44 is disposed in a direction parallel to the moving direction of the squeegee panel 20. That is, the drive rotary shaft 44 is disposed in the direction orthogonal to the cam follower actuating shaft 42. In the present invention, the driving rotary shaft 44 is disposed in the horizontal direction at an approximately intermediate position with respect to the front and rear directions of the pallet frame 10, and the driving rotary shaft 44 has a shaft bush or a bearing in the pallet frame 10. It can be mounted with the same rotation support means.

Meanwhile, the present invention provides a first movable frame 32 connected to a plurality of first squeezing panels 20A disposed at one surface position of both surfaces of the battery pouch 4 and slidably installed on the pallet frame 10. And a second movable frame 34 connected to the plurality of second squeezing panels 20B disposed to face the first squeezing panel 20A and slidably disposed on the pallet frame 10. do.

The first movable frame 32 may be disposed relative to the pallet frame 10 by a guide means such as an L guide. The first movable frame 32 faces the first slide frame 32a disposed in a pair so as to face each other in the front-rear direction (the Y-direction in the figure) on the pallet frame 10 in both the left and right directions, respectively. It consists of a first connecting frame 32b has a rectangular frame shape. The first movable frame 32 is arranged in pairs on the pallet frame 10 in parallel.

Both ends of the first squeegee panel 20A are coupled to a slot formed on an inner side surface of the first movable frame 32 (specifically, an inner side surface of the first slide frame 32a), and thus, a plurality of first squeezing panels. The structure arrange | positioned at fixed intervals along the left-right direction (X direction in drawing) of the pallet frame 10 of 20A is taken. The pair of first movable frames 32 are interconnected by two connecting bars connected in an intersecting direction, so that the two upper and lower first movable frames 32 are arranged in pairs up and down on the pallet frame 10. do.

The second movable frame 34 may also be disposed relative to the pallet frame 10 by a guide means such as an L guide. The second movable frame 34 also faces the second slide frame 34a disposed in a pair so as to face each other in the front-rear direction (the Y-direction in the figure) on the pallet frame 10, and both ends thereof are each paired in a left-right direction. It consists of a second connecting frame 34b has a rectangular frame shape. Similarly, the second movable frame 34 is disposed on the pallet frame 10 in a pair up and down. The second movable frame 34 has a structure arranged side by side in the vertical direction with respect to the first movable frame 32.

Both end portions of the second squeezing panel 20B are coupled to slots formed on an inner surface of the second movable frame 34 (specifically, inner surfaces of the second slide frame 34a facing each other) to form a plurality of second portions. The squeegee panel 20B has a structure arranged at regular intervals along the left and right directions (X direction in the drawing) of the pallet frame 10. Each second squeezing panel 20B is disposed at an opposite position facing the first squeezing panel 20A, and the secondary between the first squeezing panel 20A and the second squeezing panel 20B. The battery pouch 4 for batteries is put in.

The center of the cam follower 36 is connected to the cam follower operating shaft 42 and disposed in the vertical direction. The cam follower operating shaft 42 is arranged in the horizontal direction, and the cam follower 36 is arranged in the vertical direction crossing the cam follower operating shaft 42. In addition, the lower end of the cam follower 36 is connected to the outermost first squeezing panel 20A among the plurality of first squeezing panels 20A via the first connecting part, and the upper end of the cam follower 36 is It may take a structure connected to the second movable frame 34 via the second connecting portion.

In the present invention, one end side of the first cam follower holder 37 is directly connected to the outermost first squeegee panel 20A, and the other end side of the cam follower holder 37 connects the first cam connecting shaft 37a. It is coupled to the first movable hole (36a) formed in the lower end of the cam follower (36). Since the first movable hole 36a is formed in the shape of a long hole extending vertically, when the cam follower 36 rotates about the center, the first cam connecting shaft 37a slides along the first movable hole 36a. The cam follower 36 is rotated smoothly. The first cam follower holder 37, the first cam connecting shaft 37a, and the first movable hole 36a in the form of a long hole may be the first connecting portion.

In addition, the upper and lower ends of the joint block 39jb are respectively connected to two upper and lower second movable frames 34 disposed up and down on the pallet frame 10, and one end side of the second cam follower holder 39 is a joint. It is connected to the block 39jb, the other end side of the second cam follower holder 39 is coupled to the second movable hole 36b formed at the upper end of the cam follower 36 via the second cam connecting shaft 39a. . Since the second movable hole 36b also has a long hole shape extending up and down, the second cam connecting shaft 39a slides along the second movable hole 36b when the cam follower 36 rotates about the center thereof. The cam follower 36 is rotated smoothly as well. The joint block 39jb, the second cam follower holder 39, the second cam connecting shaft 39a, and the second movable hole 36b in the form of a long hole may be the second connecting portion.

The driving gear 52 may be composed of a worm gear provided with a drive rotary shaft 44 and a worm gear having a worm wheel coupled to the worm and simultaneously coupled to the cam follower operating shaft 42 coaxially. By rotating the driving rotary shaft 44 in one direction, the cam follower operating shaft 42 is rotated in one direction by the worm gear to rotate the cam follower 36 in one direction with respect to the center. do.

Then, the upper end of the cam follower 36 is pulled outward of the pallet frame 10 and the lower end is pushed inwardly into the pallet frame 10, and the first connecting part is connected to the lower end of the cam follower 36. Since the first movable frame 32 is connected to the unit and the second movable frame 34 is connected to the upper end of the cam follower 36, the first movable frame 32 and the plurality of first squeegees mounted thereon. The panel 20A, the second movable frame 34, and the plurality of second squeezing panels 20B mounted thereto are adjacent to each other in a direction facing each other.

Meanwhile, when the driving rotary shaft 44 is rotated in another direction by the rotating device or the like, the cam follower operating shaft 42 is rotated in the other direction by the worm gear while the cam follower 36 is rotated in one direction with respect to the center. Rotate in the opposite direction, in which case the cam follower 36 is pushed back into the pallet frame 10 with respect to the center and the bottom is pushed back out of the pallet frame 10 to its original position. As a result, the plurality of first squeezing panels 20A and the second squeezing panels 20B are spaced apart from each other again in a direction away from each other.

In summary, the cam follower unit is connected to a plurality of first squeezing panels 20A arranged at one side of the battery pouches 4 on both sides, and at the same time, the first movable frame is slidably installed on the pallet frame 10. A second movable frame 34 connected to the plurality of second squeezing panels 20B disposed to face the first squeezing panel 20A and slidably disposed on the pallet frame 10. And a first movable frame (22) coupled to the cam follower operating shaft 42 and both ends connected to the first movable frame 32 and the second movable frame 34 to perform a seesaw motion according to the rotational power of the rotary shaft unit. And a cam follower 36 which allows the first squeezing panel 20A connected to 32 and the second squeezing panel 20B connected to the second movable frame 34 to be operated relative to each other in a direction facing each other. The rotary shaft The rotary power of the rotary shaft unit (specifically, the cam follower operating shaft 42) is transmitted to the squeegee panel 20 by linear power by the seesaw movement of the cam follower 36 connected to the bonnet. ) Both surfaces are squeezed by the first and second squeezing panels 20A and 20B facing each other.

On the other hand, the driving gear 52 has been described as being made of a worm gear, in addition to the worm gear, rack gear, pinion gear, bevel gear may be employed. Employing rack gears and pinion gears, the drive rotary shaft 44 may be provided with rack gear forward and backward means without the necessity, and may have a structure for coaxially connecting the pinion gears to the cam follower operating shaft 42. . Such worm gears, rack gears and pinion gears and bevel gears are examples of power transmission means for squeezing the battery pouch 4 to the squeezing panel 20 by operating the cam follower unit, and other gears may be employed. Will have to understand.

At this time, in the present invention, the squeegee panel 20 is disposed in two groups symmetrical at both positions with respect to the driving rotary shaft 44, and the cam follower operating shaft 42 is one first squeegee panel. (20A) a first cam follower operating shaft disposed to be orthogonal to one side position of the group, and orthogonal to the other position of the second second squeezing panel 20B to be disposed opposite the first cam follower operating shaft; And a second cam follower actuating shaft disposed so that the first cam follower actuating shaft and the second cam follower actuating shaft rotate in opposite directions by the rotation of the driving rotary shaft 44. May be configured to transmit rotational force as simultaneously as possible. On the outer circumferential surface of both end portions of the drive rotary shaft 44 horizontally disposed at the middle position in the front and rear direction of the pallet frame 10 as one axis, two screw portions having opposite screw directions are formed, and the first cam follower operating shaft And a worm wheel that is coaxially coupled to the second cam follower operating shaft to each of the threaded portions of the drive rotary shaft 44, the first cam follower operating shaft and As the second cam follower operating shaft rotates in the opposite direction to each other, the first squeezing panel 20A and the second squeezing panel 20B disposed on the pallet frame 10 in two front and rear directions are relatively moved forward and backward. It becomes possible to squeeze the battery pouch 4 of. Of course, when the first squeezing panel 20A and the second squeezing panel 20B are configured in one group, only one cam follower driving shaft 42 may be required.

In addition, the present invention is installed upright in the interior of the pallet frame 10 and a plurality of squeezing panel 20, that is, put between the first squeezing panel 20A and the second squeezing panel 20B therein. It may further include a supporting member 62 having a coupling slit for supporting both side ends of the battery pouch 4 to be inserted. This supporting member 62 is provided between the opposing first and second squeegee panels 20B. Reference numeral 14 is a support block for forming a lower slit for supporting the lower end of the battery pouch 4. Since both ends of the battery pouch 4 are fitted into the engaging slit of the supporting member 62, and the lower end of the battery pouch 4 is fitted into the lower slit of the support block 14, thereby stably standing, so that the precise battery pouch 4 It helps to make squeegeeing work.

The process of squeezing the battery pouch 4 for manufacturing the secondary battery according to the present invention having the above-described configuration will be described with reference to FIGS. 5 to 7 again, the coupling slit and the support block of the supporting member 62 ( Put the battery pouch 4 between the squeezing panels 20 which face each other so that both side ends and the lower end of the battery pouch 4 are fitted in the lower slit of 14), and the driving rotary shaft 44 is pushed. When rotated in one direction by the rotating device shown, as shown in Figure 7, the cam follower 36 is rotated about the center in a seesaw manner, the upper end of the cam follower 36 is pushed outward (FIG. 7 The first movable frame 32 and the first squeezing panel 20A are rotated in the direction in which the cam follower 36 rotates inward (left direction in FIG. 7). Inward) Since the second movable frame 34 and the second squeezing panel 20B slide outward from the pallet frame 10, the plurality of first and second squeezing panels 20A and the second squeezing side by side are slid. While the panel 20B is advanced in a direction facing each other, the battery pouch 4 interposed therebetween can be pressed and squeezed, and when the driving rotary shaft 44 is rotated in a different direction by a rotating device not shown, The battery pouch interposed therebetween while the see-through rotation of the cam follower 36 takes place in the opposite direction and the plurality of parallel first and second squeezing panels 20A and 20B return in a direction away from each other. Press (4) to release the squeezed state. In FIG. 6, the first squeezing panel 20A and the second squeezing panel 20B are returned to their original positions. At this time, the end of the driving rotary shaft 44 is provided with a pin member (44a), the rotary device not shown is provided with a rotary spoke formed with a pin coupling groove, the pin coupling groove of the rotary spoke provided in the rotary device In the state in which the pin member 44a at the end of the driving roller shaft 44 is engaged, the driving rotary shaft 44 can be rotated by the driving of the rotating apparatus. Of course, the rotary device is normally retracted to the outside of the pallet frame 10, and then enters the pallet frame 10 direction for rotation of the drive rotary shaft 44, and the drive rotary shaft 44 into the pin coupling groove of the rotary spoke. It can be configured to couple the pin member (44a).

Meanwhile, the plurality of first squeezing panels 20A and the second squeezing panels 20B may be divided into a plurality of groups on the first movable frame 32 and the second movable frame 34 connected to the cam followers 36. The first movable frame 32 and the second movable frame 34 are integrally connected to each other and configured to slide inside the pallet frame 10 by a precision slide means such as an LM guide. The panel 20A and the second squeezing panel 20B can be operated stably and precisely relative forward and backward without distorting positions.

In addition, in the present invention, since the pair of first squeezing panel 20A and the second squeezing panel 20B located on both sides of the battery pouch 4 move forward and backward at the same distance, the battery pouch 4 is replaced. There is another advantage in that it does not move when quenched and does not require a moving mechanism, and can prevent damage to the battery pouch 4 which may occur when moving.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

10. Pallet Frame 14. Support Block
20. Squeegee Panel 20A. First squeeze panel
20B. Second squeegee panel 32. First movable frame
34. Second movable frame 36. Cam follower
42. Cam follower operating shaft 44. Drive rotary shaft
52. Driving gear 62. Supporting member

Claims (6)

A plurality of squeegee panels 20 provided to face each other inside the pallet frame 10 and into which the battery pouches 4 are inserted;
A cam follower unit which is operatively connected to the squeegee panel 20 to relatively forward and backward the squeegee panel 20 disposed at both sides of the battery pouch 4;
It is supported by the pallet frame 10 and connected to the cam follower unit so as to be capable of power transmission, and the cam follower unit is driven forward and backward relative to the squeegee panel 20 at both sides of the battery pouch 4. Includes; rotary shaft unit for generating a rotating force to
The cam follower unit,
A first movable frame 32 connected to the plurality of first squeezing panels 20A disposed at one surface position of both sides of the battery pouch 4 and slidably mounted to the pallet frame 10;
A second movable frame 34 connected to the plurality of second squeezing panels 20B disposed to face the first squeezing panel 20A and slidably disposed on the pallet frame 10;
It is connected to the cam follower unit and both ends are connected to the first movable frame 32 and the second movable frame 34 to the first movable frame 32 while the seesaw movement in accordance with the rotational power of the rotary shaft unit And a cam follower (36) configured to perform relative forward and backward operation in a direction facing each other to the connected first squeezing panel (20A) and the second movable frame (34). Secondary battery soaking pallet characterized in that.
delete delete The method of claim 1,
The rotary shaft unit,
A cam follower operating shaft (42) rotatably mounted to the pallet frame (10) and connected to the cam follower (36) so as to be disposed in a direction orthogonal to the moving direction of the squeegee panel (20);
A driving rotary shaft 44 rotatably installed on the pallet frame 10 so as to be disposed in a direction parallel to the moving direction of the squeegee panel 20;
The rotational force of the driving rotary shaft 44 is transmitted to the cam follower operating shaft 42 so that the other of the first squeegee panel 20A disposed at one surface position of the battery pouch 4 and the battery pouch 4 is different. And a driving gear (52) for allowing the second squeezing panel (20B) disposed at a surface position to be operated relative to forward and backward according to the rotation of the cam follower (36).
5. The method of claim 4,
The squeegee panel 20 is arranged in two groups symmetrical in both positions with respect to the drive rotary shaft 44, and the cam follower actuating shaft 42 has one first squeegee panel 20A. A first cam follower operating shaft disposed to be orthogonal to one side position of the group, and disposed to be orthogonal to the other position of the other second squeezing panel 20B to be disposed at a position opposite to the first cam follower operating shaft. And a second cam follower actuating shaft, wherein the driving gear 52 is configured to transmit rotational force to the first cam follower actuating shaft and the second cam follower actuating shaft simultaneously by rotation of the drive rotary shaft 44. Secondary battery soaking pallet, characterized in that.
The method of claim 1,
A supporting member 62 having a supporting slit installed upright in the pallet frame 10 and having a supporting slit inserted into and supported by side ends of the battery pouches 4 inserted between the plurality of squeegee panels 20. Secondary battery soaking pallet further comprising.

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