KR20150081619A - An Aligning Apparatus for Stepped Battery and a Method thereof - Google Patents

Abstract

The present invention relates to an alignment apparatus of a stepped battery and an alignment method wherein a meandering of the stepped battery is corrected, and a hot press process is performed, thereby solving the problems caused by the meandering of the stepped battery. The present invention relates to an electrode alignment apparatus, comprising: a lower jig (22); an upper jig (24) installed on an upper part of the lower jig and capable of ascending and descending toward the lower jig; an alignment jig (30) installed on an upper part of the lower jig (22); and a gauge unit (40) for moving the stepped battery (10) placed on the lower jig (22) toward an aligned surface of the alignment jig (30).

Description

An Aligning Apparatus for a Stepped Battery and a Method Therefor,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an aligning apparatus and an aligning method for a battery, and more particularly, to a stepping battery which corrects meander of a stepped battery and performs a hot press process to solve a problem caused by meandering To an alignment apparatus and an alignment method.

In recent years, as the shape of various electronic products has diversified, and at the same time, miniaturization and slimness have been made, it has become impossible to efficiently use the internal space of a miniaturized and slimmed electronic product with a conventional rectangular parallelepiped battery.

Accordingly, the shape of the battery is made to be various shapes apart from the shape of the rectangular parallelepiped so as to match the shape of the space in which the battery is to be housed in the electronic product. One of them is a stepped battery.

A stepped battery is a battery in which cells of various sizes and shapes are sequentially stacked to realize a desired shape (see Laid-Open Patent Publication No. 2013-106781). However, if the cells having different sizes and shapes are sequentially stacked, it is possible to manufacture a battery having a desired shape only when these cells are stacked at exactly the desired position. If a specific cell among the stacked cells is stacked out of position Not only can it cause various problems in the manufacturing process, but also cause a defect in the battery after manufacture.

FIG. 1 is a side view of a cell after completion of stacking and folding processes, and FIG. 2 is a side view of a cell after completion of stacking and folding processes.

As shown in FIG. 1, when the stepped battery 10 including the large cell 12 and the small cell 14 is stacked by a folding process, the separation membrane 16 There is a possibility that a meander occurs in which the small cell 14 is shifted leftward and rightward relative to the large cell 12 as shown in FIG.

If there is no correction for such meandering, the shape of the stepped battery and the shape of the pouch do not correspond to each other due to the small cell stuck in the subsequent process, for example, when the packaging is carried out, so that the pouch is broken or the cell is damaged. .

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus and method for correcting skew of a battery, more specifically, skew of a stepped battery.

Another object of the present invention is to provide a sorting apparatus and a method for aligning meandering of a stepped battery and performing hot pressing at the same place so as to prevent meandering from occurring in a subsequent process.

It is another object of the present invention to provide an alignment apparatus and method which can be flexibly applied to a stepped battery of various shapes and dimensions.

According to an aspect of the present invention, there is provided an electronic device including: a lower jig; An upper jig (24) installed on an upper portion of the lower jig and descending and raising toward the lower jig; An alignment jig 30 installed on the upper portion of the lower jig 22; And a gauge unit (40) for moving the stepped battery (10) placed on the lower jig (22) toward the alignment surface of the alignment jig (30).

Here, the lower jig and the upper jig may be hot press jigs.

Here, the alignment surface of the alignment jig 30 corresponds to the ideal side surface shape of the stepped battery 10.

The alignment jig 30 may be configured such that two or more stages 31 and 33 are detachably coupled.

Here, the two or more stages (31, 33) can be adjusted relative to each other.

The two or more stages may be configured to be fixed on the lower jig 22 with bolts 35.

At least two ends of the alignment jig 30 may be selected from a plurality of stages having different heights and fixed on the lower jig.

Here, the alignment surface of the alignment jig 30 is arranged so as to be in contact with the small cell as it goes to the lower end and as it goes to the upper cell as it goes to the upper end.

Wherein the upper jig presses the entire surface of the stepped battery top placed on the lower jig.

Here, the height of the gauge unit 40 is smaller than the height of the stepped battery 10.

Here, the height of the alignment jig 30 is smaller than the height of the stepped battery 10.

The surface of the gauge unit 40 in contact with the stepped battery has a shape corresponding to an ideal side shape of the stepped battery 10 in contact with the surface.

The present invention also provides a method of manufacturing a semiconductor device, comprising: arranging an alignment jig (30) on a lower jig (22); Placing the stepped battery (10) on the lower jig (22); Aligning the meandering by pushing the stepped battery (10) placed on the lower jig (22) toward the aligning jig (30); And lowering the upper jig (24) in a state in which the alignment surface of the stepped battery and the alignment jig are in close contact with each other, thereby pressing the stepped battery (10).

Here, the lower jig and the upper jig are hot press jigs.

Here, the alignment surface of the alignment jig 30 has a shape corresponding to an ideal side surface shape of the stepped battery 10.

Here, the alignment jig 30 is formed by stacking two or more separate stages 31 and 33 on the lower jig so that the alignment jig 30 is fixed to the lower jig after adjusting the relative positions of the two or more stages with respect to each other.

Here, the alignment surface of the alignment jig 30 is arranged so as to be in contact with the small cell as it goes to the lower end and as it goes to the upper cell as it goes to the upper end.

According to the present invention, the stepped battery can be prevented from skewing by performing the hot pressing process immediately while easily correcting the meandering of the stepped battery.

Further, according to the present invention, it is possible to flexibly adapt to various shapes and dimensions, so that the meandering of various stepped batteries can be corrected while the production line is simplified.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Figure 1 is a side view of a cell that has undergone a stacking and folding process,
FIG. 2 is a side view of a cell that has undergone stacking and folding processes,
3 is a view showing a state where the alignment jig is mounted on the electrode alignment apparatus according to the present invention and the stepped battery is placed,
FIG. 4 is a view showing a process of aligning the meandering by pushing the stepped battery of FIG. 3 with the aligning jig;
FIG. 5 is a view showing a state in which the alignment of FIG. 4 is continued,
FIG. 6 is a view showing a state where the upper jig is lowered after the alignment of FIG. 5 to perform a hot press, and
7 is a view showing a configuration of an alignment jig according to the present invention.

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

FIG. 3 is a view illustrating a state in which an alignment jig is mounted on an electrode alignment apparatus according to the present invention and a stepped battery is placed thereon, FIG. 4 is a view illustrating a process of aligning a meandering line by pushing the stepped battery of FIG. FIG. 5 is a view showing a state in which the alignment of FIG. 4 is continued and the alignment of the meander line is completed; and FIG. 6 is a view showing a state of performing a hot press by lowering the upper jig after alignment of FIG.

The electrode aligning apparatus of the present invention includes a lower jig (22) having a flat plate shape and an upper jig (24) provided at an upper portion of the lower jig and descending and raising toward the lower jig. The lower jig and the upper jig are hot press jigs 20 for heating and pressing the stepped battery 10 to attach the separator and the electrode folded in the folding process.

A gauge unit 40 is installed on the lower jig 22 so that the gauge unit can be moved forward and backward in at least one direction along the plane of the lower jig on the lower jig.

An alignment jig (30) is provided on the upper portion of the lower jig. The alignment jig 30 can be installed directly on the upper surface of the lower jig. When the alignment jig is directly mounted on the upper surface of the lower jig, the alignment jig can be maintained in a heated state by receiving heat from the lower jig as a hot press jig. The alignment surface of the alignment jig 30 has a shape corresponding to the ideal side surface shape of the stepped battery 10.

The gauge unit 40 can be retracted from the alignment jig or battery cell toward the alignment jig.

As shown in Fig. 3, the stepped battery 10 is placed on the lower jig so that the small cell 14 is disposed lower and the larger cell 12 is disposed higher. The stepped battery 10 is a step preceding the electrode aligning process and the hot pressing process. It is preferable that the stepping battery 10 is subjected to an alignment process after a process of removing a tent shape by pressing a tent-shaped separator 16 (see FIG. 1) Do.

When the stepped battery 10 is placed on the lower jig, the stepped battery 10 in which the gauge unit 40 is placed on the lower jig 22 as shown in Fig. 4 is inserted into the alignment jig 30, As shown in Fig.

Since the alignment surface of the alignment jig 30 has a shape corresponding to the ideal side surface shape of the stepped battery 10, the gauge unit 40 continuously moves as described above, (10) comes into contact with the alignment surface of the alignment jig (30), alignment is performed with respect to the meandering line.

6, the upper jig 24 is lowered and the stepped battery 10 is heated and pressed.

As shown, the large cell 12 of the stepped battery is located above the small cell 14 so that the pressing of the upper jig 24 can pressurize the entire area of the stepped battery. In other words, if the stepped battery is placed on top of the large cell so that the small cell of the stepped battery is positioned above the large cell, applying pressure to the top of the stepped battery may be understood as inappropriate.

The height of the gauge unit 40 and the height of the alignment jig 30 are different from each other in order to allow the upper jig 24 to be pressed against the entire area of the large cell 12 of the stepped battery. ) Or a little smaller than the height thereof.

In the above-described apparatus, the case where the stepped battery has the step shape on only one side has been described. However, in the case of the stepped battery having the step shape on both sides, the surface of the gauge unit 40, The shape of the alignment jig 30 as well as the shape of the gauge unit 40 can be applied together by configuring the stepped battery 10 so as to have a shape corresponding to the ideal side shape of the stepped battery 10 in contact with the surface.

Needless to say, the alignment jig 30 may simply correspond to the vertical side of the stepped battery and the gauge unit may correspond to the step side of the stepped battery.

Meanwhile, the alignment jig according to the present invention may have a shape as shown in FIG. 7 to correspond to the shape and dimensions of various stepped batteries. 7 is a view showing a configuration of an alignment jig according to the present invention.

As shown in Fig. 7 (a), the alignment jig 30 is manufactured by separating the first stage 31 and the second stage 33 into separate parts in two or more stages, The first and second ends are configured to be positionally adjustable with respect to each other, and as shown in (c), after the position adjustment, they are fastened with the bolts 35 to fix the positions thereof do.

Also, each of the stages 31 and 33 can be configured to have a plurality of heights h corresponding to the respective steps of the stepped battery. Therefore, when the external shape or dimension of the step battery to be corrected is changed, the stage having the height (h) corresponding thereto is selected and the position is adjusted and fixed, so that it can be used for diagonal correction of various stepped batteries.

Hereinafter, an alignment method according to the electrode alignment apparatus of the present invention will be described.

The alignment jig 30 is first placed on the lower jig 22 and the stepped battery 10 is placed on the lower jig 22. [

The aligning jig 30 selects the end having the thickness corresponding to each end of the stepped battery to be aligned and adjusts the position of the end to correspond to the shape of the stepped battery, . As shown in the drawing, the alignment jig 30 is arranged so that the alignment surface thereof contacts the small cell as it goes to the bottom, and comes in contact with the large cell as it goes to the top.

Next, the stepped battery 10 placed on the lower jig 22 is pushed toward the alignment jig 30 to align the meandering line. This is done by a gauge unit (40).

The alignment jig is configured in a shape corresponding to the ideal side configuration of the stepped battery, so that when the stepped battery is brought into close contact with the alignment jig with the gauge unit, correction for meandering is made. It is needless to say that the gauge unit can also be made to correspond to the ideal side shape of the stepped battery as described above.

In this state, when the upper jig 24 is lowered to press the stepped battery 10 to complete the hot press process, the hot press process is completed simultaneously with the serpentine alignment. The alignment jig is also installed on the lower jig, which is a hot press, so that heat is applied to the step portion of the stepped battery.

It is to be understood that the invention is not limited to the disclosed exemplary embodiments, but is capable of modifications within the technical scope of the invention described in the claims.

10: Stepped battery
12: Large cell
14: Small cell
16: Membrane
20: Hot press jig
22: Lower jig
24: Upper jig
30: alignment jig
31: First stage
33: second stage
35: Bolt
40: Gauge unit

Claims (17)

A lower jig 22;
An upper jig (24) installed on an upper portion of the lower jig and descending and raising toward the lower jig;
An alignment jig 30 installed on the upper portion of the lower jig 22; And
And a gauge unit (40) for moving the stepped battery (10) placed on the lower jig (22) toward the alignment surface of the alignment jig (30). The method according to claim 1,
Wherein the lower jig and the upper jig are hot press jigs. The method according to claim 1,
Wherein an alignment surface of the alignment jig (30) has a shape corresponding to an ideal side shape of the stepped battery (10). The method of claim 3,
Wherein at least two ends (31, 33) of the aligning jig (30) are detachably fastened. The method of claim 4,
Wherein the two or more stages (31, 33) are capable of adjusting the position relative to each other. The method according to claim 4 or 5,
Wherein the at least two ends are fixed on the lower jig (22) with bolts (35). The method according to claim 4 or 5,
Wherein at least two ends of the aligning jig (30) are selected from a plurality of steps having different heights and are fixed on the lower jig. The method according to claim 1,
Wherein the alignment surface of the alignment jig (30) is in contact with the small cell toward the lower end and in contact with the large cell toward the upper end. The method of claim 8,
And the upper jig presses the entire surface of the stepped battery top placed on the lower jig. The method of claim 9,
Wherein the height of the gauge unit (40) is less than the height of the stepped battery (10). The method of claim 9,
Wherein the height of the alignment jig (30) is smaller than the height of the stepped battery (10). The method according to claim 1,
Wherein the surface of the gauge unit (40) in contact with the stepped battery has a shape corresponding to an ideal side shape of the stepped battery (10) in contact with the surface. Installing an alignment jig (30) on the lower jig (22);
Placing the stepped battery (10) on the lower jig (22);
Aligning the meandering by pushing the stepped battery (10) placed on the lower jig (22) toward the aligning jig (30); And
And lowering the upper jig (24) to press the stepped battery (10) while the alignment surface of the stepped battery and the alignment jig are in close contact with each other. 14. The method of claim 13,
Wherein the lower jig and the upper jig are hot press jigs. 14. The method of claim 13,
Wherein an alignment surface of the alignment jig (30) has a shape corresponding to an ideal side shape of the stepped battery (10). 16. The method of claim 15,
The alignment jig (30) has two or more separately arranged stages (31, 33) stacked and fixed on a lower jig, wherein an alignment of the alignment jig (30) . The method according to claim 13 or 16,
Wherein the alignment surface of the alignment jig (30) is in contact with the small cell toward the lower end and in contact with the large cell toward the upper end.

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