KR20130079738A - Secondary battery soaking pallet - Google Patents

Abstract

PURPOSE: A secondary battery soaking pallet is advantageous in various aspects, such as workability and productivity, by performing a large amount of an overall squeezing task of a secondary battery between a plurality of squeezing panels. CONSTITUTION: A secondary battery soaking pallet comprises a plurality of squeezing panels (30) that are arranged so as to move closely in a direction facing each other and in a manner that a battery pouch (4) may be inserted therebetween; and a squeezing drive unit that presses both surfaces of the battery pouch filled with an electrolyte therein by closely moving the squeezing panels in a parallel to help the electrolyte of the battery pouch uniformly spread in a battery.

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 particular, since their product performance depends on the secondary battery which is a key component, the demand for a high performance battery may be very large.

At this time, the secondary battery is made of a three-layer structure of a positive electrode plate, a separator and a negative electrode plate or a multi-layered electrode assembly of a positive electrode plate, a separator, a negative electrode plate, a separator and a positive electrode plate, and is often produced by accommodating the electrode assembly in a pouch. Such a secondary battery may also be referred to as a pouch type secondary battery.

The characteristics of the secondary battery as described above can be recharged after use, and the capacity thereof is not infinite, but it is possible to repeatedly use the same battery by reversely discharging to some extent. In other words, a secondary battery is a battery that can be charged and discharged, unlike a primary battery that cannot be charged, and is widely used in advanced electronic devices such as a mobile phone, a notebook computer, and a camcorder.

Meanwhile, the characteristics required for the secondary battery include various aspects such as charge / discharge characteristics, lifespan, high rate characteristics, stability at high temperature, and the lithium secondary battery has the most attention because of its high voltage and high energy density.

The lithium secondary battery has a high energy density per unit weight and can be rapidly charged, compared to other lead-acid batteries and other secondary batteries such as nickel-cadmium batteries, nickel-hydrogen batteries, and nickel-zinc batteries, and thus increase the use of lithium secondary batteries. It is a trend that is going on.

Lithium oxide is used as a positive electrode active material used for such a lithium secondary battery, and a carbon material is used 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 in manufacturing a secondary battery, the squeegeeing work is required to uniformly distribute and impregnate the electrolyte solution inside the pouch and 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 very advantageous in terms of performance and productivity, and the structure for squeegeeing work for secondary batteries can be relatively simple to provide a secondary battery soaking pallet with a new structure, which is advantageous in terms of assembling and economy. .

According to the present invention for solving the above problems, a plurality of squeegee panel 30 is arranged so as to be moved in close proximity to each other facing each other between the battery pouch (4); By moving the squeegee panel 30 in close proximity to each other to press the both sides of the battery pouch 5 filled with the electrolyte solution at a constant pressure to help the electrolyte of the battery pouch 4 evenly spread throughout the battery. A secondary battery soaking pallet is provided, wherein the main includes a squeegee drive unit.

The squeegee panel 30 is disposed so as to be able to move forward and backward in a space portion formed inside the pallet frame 20 so as to face each other so that the battery pouch 4 can be erected and placed therebetween. The squeegeeing drive unit is disposed so as to be able to move forward and backward at positions facing each other in the space portion of the pallet frame 20 so as to squeeze and put the battery pouches 4 therebetween. A plurality of squeezing panel 30 to form a; A pushing finger 52 is provided at a distal end and disposed at both end positions of the squeegee panel 30, and the pushing finger 52 is positioned at a position for pushing the squeezing panel 30 adjacent to each other close to each other. A quenching frame 50; The squeegee frames 50 are moved in the direction facing each other at both end positions of the squeegee panel 30 so that the pushing fingers 52 push the squeegee panels 30 adjacent to each other in a direction close to each other. Secondary battery soaking pallet, characterized in that it comprises a squeegee frame moving unit 40 for pressing the squeezing space between the squeegee panel 30, the battery pouch 4 is pressed to a predetermined pressure Is provided.

The squeegee frame moving unit 40 is a screw rotatably coupled to the pallet frame 20 through the pair of squeegee frames 50 disposed at both end positions of the squeegee panel 30. A shaft 42; The first screw coupling portion 44 and the second screw coupling portions formed in opposite directions so that the pair of squeezing frames 50 are moved back and forth in a direction facing each other along the outer circumferential surface of the screw shaft 42. A screw engaging portion 46; The screw shaft 42 is rotated so that the pair of squeegee frames 50 are positioned at both sides of the battery pouch 4 by the first screw coupling portion 44 and the second screw coupling portion 46. It may include a rotary driver 48 to advance back and forth in a direction facing each other.

The screw shaft 42 extends in parallel with the squeegee panel 30 accommodating the battery pouch 4 so that a pair of screw shafts whose outer peripheral surfaces at both ends are rotatably coupled to the pallet frame 20 ( It is preferable that the rotary driver 48 comprises a drive rotor 48a and a driven rotor 48b mounted on the pair of screw shafts 42, and the drive rotor 48a and the An endless rotary rotary strap 48c coupled to an outer circumferential surface of the driven rotor 48b and a motor shaft coupled to the screw shaft 42 on which the driving rotor 48a is mounted may be included.

The squeegee panel 30 is preferably moved back and forth relative to each other in a direction facing each other without a position shift by the guide means 26 provided in the pallet frame 20.

The guide means 26 may be formed of a plurality of guide bars penetrating the position close to the four corners of the squeegee panel 30, both ends are fixed to the pallet frame 20.

When the pushing fingers 52 of the squeegee frame 50 are retracted to the original position between the squeegee panel 30 is interposed with a spring for opening the opposing squeegee panel 30 back to its original position by elastic force. It is characterized by.

Pushing guides formed on both sides of the front end of the pushing finger 52 to gradually reduce both widths of the pushing finger 52 with respect to the longitudinal center line toward the squeegee panel 30 to form a triangular pyramid with a sharp tip. It is characterized in that the surface (52a) is provided.

The present invention provides a plurality of pallet frames provided with a space therein and a squeezing space for placing and placing the battery pouches therebetween so as to be movable forward and backward at positions facing each other in the inner space of the pallet frame. A squeegee panel having a squeegee panel, a squeegee frame disposed at both ends of the squeegee panel, and having a pushing finger disposed at a distal end of the squeegee panel to meet a squeegee space between adjacent squeegee panels. And a squeegee frame moving unit which is disposed in opposite directions at both end positions of the squeegee panel such that the pushing fingers push the neighboring squeegee panels in a direction close to each other so that the battery pouches inserted between the squeegee panels are squeezed. As the screw shaft rotates, adjacent neighboring squeegee panels The both sides of the battery pouch of the secondary battery, which is placed in the squeegeeing space between the squeegee panels, are pressed by the pressure action of the plurality of squeezing panels, and the electrolyte filled inside the battery pouch is evenly spread, and the electrode is completely filled with the electrolyte. It is possible to increase the capacity of the secondary battery, so that the impregnation becomes even, so that the gap between the electrode plates constituting the battery pouch of the secondary battery is as compact as possible. It is effective.

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 can be said to have a relatively simple configuration of squeezing (pressing) both sides of the battery pouch of the secondary battery with a plurality of neighboring squeegee panels while the squeegee frame is advanced by the rotation of the screw shaft. In terms of economic feasibility, a favorable effect can be expected.

1 is an external perspective view of a secondary battery soaking pallet according to the present invention;
Figure 2 is a perspective view showing the internal configuration of the main part of the present invention
3 and 4 are plan views showing the structure and operation of the secondary battery soaking pallet shown in FIG.
5 is a side view of FIG. 1

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 30 to put the battery pouch 4 therebetween, and By moving the quenching panels 30 in parallel to each other and pressing both sides of the battery pouch 5 filled with the electrolyte solution at a constant pressure, the electrolyte of the battery pouch 4 is uniformly spread by the capillary phenomenon while the electrolyte is evenly spread throughout the battery. And a squeegee drive unit to help impregnation. The electrolyte solution charged inside the battery pouch 4 is evenly spread, and can be impregnated evenly between the electrode plates by capillary action.

At this time, the secondary battery soaking pallet of the present invention has a hexahedral box shape formed with an opening for inserting the battery pouch 4 of the secondary battery on the upper surface, the inner space portion is provided with a plurality of side-by-side guide bar in the front and rear direction A frame 20, a plurality of squeezing panels 30 which are erected side by side in the vertical direction in the inner space of the pallet frame 20 and slidably coupled to the outer circumferential surface of the guide bar, and the pallet frame ( Both end portions are coupled to each other so as to be rotatable relative to each other, and the screw shafts 42 extend in the left and right directions, and the screw shafts 42 and one squeezing frame are disposed at both end positions of the squeegee panel 30. 50 is coupled to each other by the first screw coupling portion 44, the squeegee frame 50 of the position facing the screw shaft 42 on the other side of the first screw coupling portion 44 and the screw It is coupled by the second screw engaging portion 46 in the opposite direction, the two side by side by the pushing fingers 52 of the tip portion while being operated close to each other in the left-right direction by the rotation of the screw shaft 42 It may include a plurality of squeegee frame 50 for squeezing (pressing) the battery pouch 4 of the secondary battery in close proximity to the quenching panel 30. In addition, the squeegee drive unit is arranged in a space part of the pallet frame 20 so as to be able to move forward and rearward relative to each other to form a squeegee space for placing and inserting the battery pouch 4 therebetween. Two squeezing panels 30 and pushing fingers 52 at the distal ends are disposed at both ends of the squeezing panel 30 so that the pushing fingers 52 are adjacent to each other. The squeegee panel 50 and the squeegee frame 50 adjacent to each other in the direction facing each other at both end positions of the squeegee panel 30 in the position to push the squeegee panel 52 adjacent to each other A configuration including a squeegee frame moving unit 40 which pushes the 30 in a direction close to each other so that the battery pouch 4 injected into the squeeging space between the squeegee panels 30 is pressed at a predetermined pressure to squeeze. Can be taken.

That is, according to the present invention, when the squeezing panel 30 disposed vertically in parallel with each other in a large amount is rotated, the first screw coupling part 44 and the first screw coupling part 44 formed with screws in opposite directions are formed. Two squeezing frames 50 side by side in the left and right directions by the two screw coupling portion 46 are adjacent to each other, and the two opposing squeezing panels 30 with the pushing fingers 52 are adjacent to each other. It is a secondary battery soaking pallet configured to press both sides of a large amount of secondary battery pouches 4 which are erected in a vertical direction between the squeegee panels 30. Meanwhile, as shown in FIG. 2, it should be understood that 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 20 as a component of the present invention.

The pallet frame 20 has a structure in which a side frame 24 of a hexahedron frame shape is coupled to the base 22. Accordingly, the pallet frame 20 is configured in the form of a substantially hexahedral box having an opening on the upper surface thereof, and the battery pouch 4 (the electrode plate is stacked inside the secondary battery and filled with the electrolyte solution) inside the pallet frame 20. The space part for inputting) is secured. In addition, the inner space of the pallet frame 20 is provided with a guide bar extending in the front-rear direction. In the present invention, the guide bar is arranged in four places of up, down, left and right with respect to the front of the pallet frame 20. Of course, both end side circumferences of the guide bar are fixed to the front and rear surfaces of the pallet frame 20 and are arranged side by side in the horizontal direction. Such a guide bar may be referred to as a guide means 26 for guiding each squeegee panel 30 to be stably moved forward and backward without disorientation.

A square plate-shaped squeegee panel 30 is coupled to the guide bar provided inside the pallet frame 20 so as to be relatively slidable. The squeegee panel 30 is provided with slide holes penetrating both front and back, at positions adjacent to the upper, lower, left, and right four corner portions, such that the slide holes are slidable on the respective guide bars arranged horizontally inside the pallet frame 20. By combining, the plurality of squeegee panels 30 have a structure in which they are arranged side by side in the upright direction inside the pallet frame 20. That is, the plurality of squeegee panels 30 are vertically disposed in the front-rear direction of the pallet frame 20 so that each squeegee panel 30 is close to each other or away from each other along the guide bar inside the pallet frame 20. It has a structure that can be operated slide. At this time, the guide bar is arranged in the horizontal direction so as to be parallel to the pallet frame 20 in the vertical direction, so that each squeegee panel 30 can be operated relative to the front and rear stably and precisely without shifting the position along the guide bar. It becomes possible. That is, since each squeegee panel 30 is operated forward and backward while the four corner portions of the squeegee panel 30 are stably supported by a plurality of guide bars disposed at the top, bottom, left and right positions, the squeegee panel ( Stable and precise forward and backward operation can be performed without shifting the position during the forward and backward operation of 30). On the other hand, the lower end of the squeegee panel 30 is preferably further provided with a squeegee operation auxiliary roller 32 in contact with the bottom surface of the pallet frame 20, the squeegee operation auxiliary roller 32 is a pallet frame ( This is because the rolling motion in contact with the upper surface of the base 22 of 20) can be achieved more smoothly and smoothly.

The pallet frame 20 is provided with two side-by-side screw shafts 42 which are coupled in a rotatable manner so that the outer circumferential surfaces of both ends are relatively rotated. The outer circumferential surface at both ends of each screw shaft 42 may have a structure coupled to the left and right surfaces of the pallet frame 20 via relative rotation guide means 26 such as a bushing.

Two side-by-side squeegee frames 50 are disposed at both end side positions of the squeegee panel 30, and each squeegee frame 50 is disposed on the outer circumferential surface of the screw shaft 42 by screws that pass through both sides. Screwed together. At this time, the squeegee frame 50 in one position and the squeegee frame 50 in the other position are formed by the first screw engaging portion 44 and the second screw engaging portion 46 in which the directions of the screws are opposite to each other. When the screw shaft 42 is rotated by being coupled to the screw shaft 42, the two squeezing frames 50 parallel to each other by the first screw coupling portion 44 and the second screw coupling portion 46. It may be operated to advance in a direction facing each other or to retreat in a direction facing each other. Specifically, if the first screw coupling portion 44 is a right screw, the second screw coupling portion 46 is composed of a left screw, so when the screw shaft 42 is rotated, the squeegee frame 50 in two left and right positions is Relative forward and backward operation in the direction facing each other. In the present invention, the first screw coupling portion 44 is formed by forming the right screw on the inner circumferential surface of the screw hole of one squeegee frame 50 and forming the right screw on the outer circumferential surface of the screw shaft 42, the second screw coupling portion 46 may form a left screw on the inner circumferential surface of the screw hole of the other squeegee frame 50 and a left screw on the outer circumferential surface of the corresponding screw shaft 42. On the contrary, the left screw is formed on the outer peripheral surface of the screw shaft 42 corresponding to the inner peripheral surface of the screw hole of the one squeezing frame 50 to form the first screw engaging portion 44, and the screw of the other squeezing frame 50 is formed. The second screw coupling portion 46 may be formed by forming a right screw on a portion of the outer peripheral surface of the screw shaft 42 corresponding to the inner circumferential surface of the ball.

In addition, the squeegee frame 50 is provided with a plurality of pushing fingers 52 on the surface facing the end of the squeegee panel 30, when each squeegee frame 50 is advanced in a direction facing each other, The pushing pouch 52 narrows the two opposing squeegee panels 30 to each other, and the battery pouch 4 of the secondary battery erected in a direction perpendicular to the squeegee space between the two squeegee panels 30. ) Can be squeezed (pressed) by an appropriate pressure by the pair of squeegee panels 30, and thus, by the pressing action of the plurality of squeegee panels 30, inside the battery pouch 4 of the secondary battery. As the charged electrolyte is spread evenly, the capacity of the battery can be increased, and the gap between the battery pouches 4 of the battery pouch 4 can be closely packed as compactly as possible, thereby increasing the capacity of the battery.

At this time, each pushing finger 52 of the squeegee frame 50 is disposed along the front and rear direction of the squeegee frame 50 at regular intervals, so that the forward and the pushing fingers 52 of the squeegee frame 50 are separated. When squeezing the battery pouch 4 by advancing, a precise and uniform squeegeeing operation can be made.

In addition, the front end portion of the pushing finger 52 is provided with a pushing guide surface 52a which gradually decreases so that both widths thereof become symmetrical with respect to the longitudinal center line toward the end direction of the squeegee panel 30. When viewed from the top of the squeegee frame 50, the pushing guide surface 52a causes the pushing finger 52 to gradually decrease the two-sided distance symmetrically with respect to the width reference centerline so that the tip of the pushing finger 52 is reduced. To form a triangular pyramid.

Therefore, when the squeezing frame 50 is advanced toward the end direction of the squeegee panel 30, the pushing guide surface 52a (exactly, the triangular pyramidal portion of the pushing finger 52) is squeezed. Since the pushing finger 52 is reliably guided between the two opposing squeegee panels 30 which are in contact with the end of each other, the squeegeeing operation reliability of the battery pouch 4 can be further improved. That is, each pushing finger 52 of the squeegee frame 50 enters between the two squeezing panels 30 more smoothly by the pushing guide surface 52a forming the triangular pyramid shape. By making the quenching panel 30 close, the squeegeeing operation reliability of the battery pouch 4 is increased.

In addition, the squeegee panel 30 is further provided with a roller 32 whose outer circumferential surface is in contact with the side surface of the pushing finger 52 of the squeegee frame 50. The roller 32 of the squeegee panel 30 is in contact with the side of the pushing guide surface of the tip of the pushing finger 52, and the squeezing panel 30 in the forward operation of the squeezing frame 50 and the pushing finger 52. The roller 32 is in contact with the side of the pushing finger 52, the roller 32 is rotated while the pushing finger 52 can be moved forward more smoothly, so that the squeegeeing operation can be made more smoothly and safely do.

According to the present invention, the squeezing frames 50 are brought into close proximity to each other at opposite ends of the squeegee panel 30 so that the pushing fingers 52 push the squeezing panels 30 adjacent to each other in a direction close to each other. And a squeegee frame moving unit 40 to allow the battery pouch 4 to be squeezed between the two squeezing panels 30 which can be operated in close proximity.

In the present invention, the squeegee frame moving unit 40 penetrates through a pair of squeegee frames 50 disposed at both end positions of the squeegee panel 30, and is coupled to the pallet frame 20 by a screw shaft ( 42 and a pair of squeezing frames 50, respectively, coupled to the screw shaft 42, and the first screw coupling portion 44 and the second screw coupling portion 46, which are opposite to each other, in directions of screws. ) And a pair of squeezing frames 50 by the first screw coupling portion 44 and the second screw coupling portion 46 to rotate the screw shaft 42 to the battery pouch 4 of the secondary battery. And a rotary driver 48 for advancing back and forth in a direction facing each other at a position at both sides. In this case, the screw shaft 42 extends in parallel with the squeegee panel 30 that accommodates the battery pouch 4 so that a pair of screw shafts 42 whose outer peripheral surfaces at both ends are rotatably coupled to the pallet frame 20. It would be desirable to consist of).

The rotary driver 48 is infinitely coupled to the drive rotor 48a and the driven rotor 48b respectively mounted on the pair of screw shafts 42 and the outer circumferential surfaces of the drive rotor 48a and the driven rotor 48b. It may have a configuration including a motor having a motor shaft coupled to the orbital rotary strap 48c and the screw shaft 42 on which the drive rotor 48a is mounted.

The drive rotor 48a and the driven rotor 48b may be pulleys, and the rotary strap 48c may be a timing belt. Therefore, when the drive rotor 48a is rotated by the motor shaft rotation of the motor, one screw shaft 42 is rotated and at the same time, when the driven rotor 48b is rotated by the rotary strap 48c, the other screw is rotated. Since the shaft 42 is also rotated in the same direction as the screw shaft 42 on one side, the pair of squeezing frames 50 is connected to the first screw coupling portion 44 and the second screw coupling portion 46. By being close to each other in the same direction, it is possible to squeeze (pressing) the two squeegee panel 30 in close proximity and press both sides of the battery pouch (4) that is put in the vertical direction therebetween.

On the other hand, the present invention is configured to be able to return the squeegee panel 30, which has been adjacent to each other by the return means 26, to its original position. At this time, the return means in the present invention may be composed of a spring interposed between the neighboring squeegee panel 30. In the present invention, the guide bar is provided to pass through the slide hole formed in the four corners of the squeegee panel 30, while being coupled to the outer circumferential surface of the guide bar, both ends are in contact with the two squeezing panel 30 interposed spring It may be configured as. Preferably, spring grooves are formed on the surfaces of the two squeezing panels 30 that face each other, and both ends of the spring are coupled to the spring grooves so that the springs are stably interposed between the two squeezing panels 30. It is desirable to.

Accordingly, in a state in which two neighboring squeegee panels 30 are close to each other and the battery pouch 4 is squeezed, a spring is compressed and a squeegee frame that maintains the proximity of the two squeegee panels 30 ( When the pushing fingers 52 of 50) are retracted to their original positions and the pushing fingers 52 are pulled out between the two squeezing panels 30, the compressed spring is squeezed by the elastic restoring force. Since the 30 is pushed back to its original position, the two squeezing panels 30 which are close to each other can be automatically returned to their original positions. At this time, the spring is interposed between the two squeegee panel 30 while being coupled to the outer peripheral surface of the guide bar coupled through the four corners of the squeegee panel 30, the elastic restoring force of the spring of the squeegee panel 30 Since it works evenly in the four directions of up, down, left, and right, each squeegee panel 30 can be stably returned to its original position without shifting the position, and moreover, the squeegee panel 30 is slid guided by a plurality of guide bars. As a result, the return operation of the squeegee panel 30 can be performed.

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.

4. battery pouch 20. pallet frame
22. Base 24. Side Frame
26. Guide means 30. Squeegee panel
36. Roller 42. Screw shaft
44. First screw joint 46. Second screw joint
48. Rotary driver 48a. Driven rotor
48b. Driven rotor 48c. Rotary strap
50. Squeeze Frame 52. Pushing Finger
52a. Pushing guide surface 60. Return means

Claims (8)

A plurality of squeegee panels 30 arranged to be moved in a direction facing each other, with the battery pouch 4 being disposed therebetween;
By moving the squeegee panel 30 in parallel and close to both sides of the battery pouch (4) filled with the electrolyte solution at a predetermined pressure to help the electrolyte of the battery pouch (4) evenly spread to the battery Secondary battery soaking pallet comprising a squeegee drive unit.
The method of claim 1,
The squeegee panel 30 is disposed so as to be able to move forward and backward in a space portion formed inside the pallet frame 20 so as to face each other so that the battery pouch 4 can be erected and placed therebetween. Form the
The squeezing drive unit,
A pushing finger 52 is provided at a distal end and disposed at both end positions of the squeegee panel 30, and the pushing finger 52 is disposed at a position for pushing the squeezing panel 30 adjacent to each other close to each other. A squeegee frame 50;
The squeegee frames 50 are moved in the direction facing each other at both end positions of the squeegee panel 30 so that the pushing fingers 52 push the squeegee panels 30 adjacent to each other in a direction close to each other. Secondary battery soaking, comprising: a squeegee frame moving unit 40 to be pressed into the squeegee space between the squeegee panel 30 to be squeezed by a predetermined pressure; palette.
The method of claim 1,
The squeegee frame moving unit 40,
A screw shaft (42) rotatably coupled to the pallet frame (20) through the pair of squeegee frames (50) disposed at both end positions of the squeegee panel (30);
The first screw coupling portion 44 and the second screw coupling portions formed in opposite directions so that the pair of squeezing frames 50 are moved back and forth in a direction facing each other along the outer circumferential surface of the screw shaft 42. A screw engaging portion 46;
The screw shaft 42 is rotated so that the pair of squeegee frames 50 are positioned at both sides of the battery pouch 4 by the first screw coupling portion 44 and the second screw coupling portion 46. Secondary battery soaking pallet comprising a; rotary driver (48) to be advanced back and forth in a direction facing each other.
The method of claim 3,
The screw shaft 42 extends in parallel with the squeegee panel 30 accommodating the battery pouch 4 so that a pair of screw shafts whose outer peripheral surfaces at both ends are rotatably coupled to the pallet frame 20 ( 42),
The rotary driver 48 is axially coupled to one of the screw shafts 42 of the pair of screw shafts 42 and is driven by the motor shaft of the motor while driving the rotor shaft 48a to rotate the screw shaft 42. ), A driven rotor 48b axially coupled to the other screw shaft 42 of the pair of screw shafts 42, and coupled to an outer circumferential surface of the drive rotor 48a and the driven rotor 48b. A secondary battery soaking pallet comprising an endless rotary strap (48c).
The method of claim 1,
The squeegee panel 30 is a secondary battery soaking pallet, characterized in that the relative direction is moved forward and backward in the direction facing each other by the guide means (26) provided in the pallet frame (20).
The method of claim 5,
Secondary battery soaking, characterized in that the guide means 26 consists of a plurality of guide bars which are fixed to the pallet frame 20 at both ends through a position proximate to the four corner portions of the squeegee panel 30. palette.
7. The method according to any one of claims 1 to 6,
The pair of opposing squeegee panels 30 which form a squeegee space into which the battery pouch 4 is introduced is returned by the return means when the pushing fingers 52 of the squeegee frame 50 are retracted to their original positions. A secondary battery soaking pallet, characterized in that it is configured to be opened back to its original position by (26).
The method of claim 1,
Pushing guides formed on both sides of the front end portion of the pushing finger 52 to gradually reduce both widths of the pushing finger 52 with respect to a longitudinal center line toward the squeegee panel 30 to form a sharp triangular pyramid shape. Secondary battery soaking pallet, characterized in that the surface (52a) is provided.

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