JP2013197034A - Welding equipment for secondary battery and method of manufacturing secondary battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide welding equipment for a secondary battery and a method of manufacturing a secondary battery that can manufacture a secondary battery having good external appearance quality while preventing soot, spatter and the like from being scattered around a welding part when shield gas is supplied to the welding part during laser welding on a case and a cover plate.SOLUTION: The welding equipment for a secondary battery, having a gas cylinder 12 that is a means of supplying inert gas toward a welding part 9 of a case 2 and a cover plate 4, is provided with an inert gas supply port 10a (or an inert gas supply port 20a), which is an opening for discharging inert gas toward the welding part by being communicated to the gas cylinder 12, located on the upper side in relation to the welding part 9 and an inert gas outlet port 10b (or an inert gas outlet port 20b), which is an opening to which the inert gas supplied to the welding part 9 is guided, located on the lateral side or the downward side in relation to the welding part 9.

Description

  The present invention relates to a secondary battery welding apparatus and a secondary battery manufacturing method.

2. Description of the Related Art Conventionally, a case of a secondary battery (for example, a lithium ion secondary battery) is a rectangular parallelepiped member in which one of six surfaces constituting the rectangular parallelepiped is opened, and the case A structure that uses a lid plate that seals an open surface (hereinafter, referred to as an open portion) of the casing, and the lid plate is laser-welded to the open portion of the case to ensure the airtightness of the casing Is generally known.
As a technique related to a secondary battery having a casing having such a configuration, for example, a technique disclosed in Patent Document 1 shown below is known.

  In the prior art disclosed in Patent Document 1, in the welding jig used when sealing between the case and the cover plate constituting the secondary battery by laser welding from the upper portion of the cover plate, It is set as the structure which prevents the welding failure (welding sagging etc.) in a welding part by spraying shielding gas.

JP 2010-105041 A

  However, in the prior art disclosed in Patent Document 1, the shield gas sprayed toward the welded portion diffuses toward a member such as a gasket disposed on the upper portion of the cover plate, and thus the member is caused during laser welding. As a result, there is a problem that the outer appearance of the secondary battery is deteriorated due to adhesion of fumes, fumes, spatter, or the like.

  The present invention has been made in view of such a current problem, and when supplying a shielding gas to a welded portion during laser welding of a case and a cover plate, soot, fume, spatter, etc. are provided around the welded portion. It is an object of the present invention to provide a secondary battery welding apparatus and a secondary battery manufacturing method capable of preventing the diffusion of the secondary battery and manufacturing a secondary battery having good appearance quality.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

  That is, according to claim 1, a rectangular parallelepiped case having an open portion whose one surface is open, and a lid plate for sealing the open portion, the lid plate being provided in the open portion of the case Is a device for manufacturing a secondary battery having a casing produced by laser welding, and is a means for supplying an inert gas toward a welded portion between the case and the lid plate. A welding apparatus for a secondary battery having an active gas supply means, comprising: an inert gas supply port that communicates with the inert gas supply means and is an opening for discharging an inert gas toward the welded portion. In addition, an inert gas outlet that is an opening for leading out the inert gas supplied to the welded portion is disposed on the side or below the welded portion. It is.

  According to a second aspect of the present invention, a fixing jig that is a jig for fixing the casing is further provided, and the inert gas supply port and the inert gas outlet port are formed in the fixing jig. is there.

  According to a third aspect of the present invention, an inert gas suction means that is a means for sucking an inert gas is further provided, and the inert gas suction means is connected to the inert gas outlet.

  According to a fourth aspect of the present invention, the inert gas outlet is disposed outside the laser beam irradiation position in the welded portion of the casing.

  6. A rectangular parallelepiped case having an open part with one surface opened, and a lid plate for sealing the open part, wherein the lid plate is lasered at the open part of the case. An inert gas, which is a device for manufacturing a secondary battery having a casing generated by welding, and is a means for supplying an inert gas toward a welded portion between the case and the lid plate A welding apparatus for a secondary battery having a supply means, wherein the inert gas supply means is arranged so that a discharge direction of the inert gas by the inert gas supply means is parallel to the welded portion. Is.

  In claim 6, further comprising a fixing jig that is a jig for fixing the housing, the fixing jig includes a wall portion that is a part for enclosing the side of the welded portion, The wall portion is formed at a height from the side of the welded portion so as to be higher than a portion where the adhesion of defective products generated in the welded portion should be prevented.

  8. A rectangular parallelepiped case having an open portion with one surface opened, and a lid plate for sealing the open portion, wherein the lid plate is disposed on the open portion of the case with a laser. A secondary battery manufacturing method for manufacturing a secondary battery having a casing produced by welding while supplying an inert gas toward a welded portion between the case and the cover plate, the welded portion On the other hand, an inert gas is supplied from above the welded portion, and the supplied inert gas is exhausted from the side or the lower side of the welded portion.

  In the eighth aspect, the supplied inert gas is forcibly exhausted from the side or the lower side of the welded portion.

  The present invention includes a rectangular parallelepiped case having an open portion with one surface open, and a lid plate for sealing the open portion, and the lid plate is laser-mounted on the open portion of the case. A secondary battery manufacturing method for manufacturing a secondary battery having a casing produced by welding while supplying an inert gas toward a welded portion between the case and the cover plate, the welded portion In addition, an inert gas is allowed to flow parallel to the weld.

  As effects of the present invention, the following effects can be obtained.

According to the first aspect of the present invention, the flow of the inert gas can be controlled so that the inert gas around the welded portion does not diffuse to a range other than the welded portion.
Thereby, soot and spatter generated during laser welding can be prevented from diffusing to a range other than the welded portion on the flow of the inert gas.

  In claim 2, the flow of the inert gas around the welded portion can be controlled with a simple configuration.

  In Claim 3, the flow of the inert gas around a welding part can be controlled reliably.

  In Claim 4, it can prevent that a laser beam cross | intersects the flow of an inert gas, and can improve a welding precision.

In claim 5, the flow of the inert gas can be controlled so that the inert gas around the welded portion flows parallel to the welded portion.
As a result, it is possible to make it difficult to attach defective products such as soot, fume, and spatter generated during laser welding to a portion where the adhesion of defective products around the welded portion should be prevented.

  According to the sixth aspect of the present invention, the flow of the inert gas can be controlled so that the inert gas flows through the site around which the defective product should be prevented from adhering.

According to the seventh aspect of the present invention, the flow of the inert gas can be controlled so that the inert gas around the welded portion does not diffuse to a range other than the welded portion.
Thereby, soot and spatter generated during laser welding can be prevented from diffusing to a range other than the welded portion on the flow of the inert gas.

  In Claim 8, the flow of the inert gas around a welding part can be controlled reliably.

In claim 9, the flow of the inert gas can be controlled so that the inert gas around the welded portion flows parallel to the welded portion.
As a result, it is possible to make it difficult to attach defective products such as soot, fume, and spatter generated during laser welding to a portion where the adhesion of defective products around the welded portion should be prevented.

The cross-sectional schematic diagram which shows the whole structure of the secondary battery which is the application object of the welding apparatus which concerns on one Embodiment of this invention. The partial cross section schematic diagram which shows the welding part periphery of the secondary battery which is the application object of the welding apparatus which concerns on one Embodiment of this invention. The partial cross section schematic diagram which shows the state around a welding part at the time of applying the welding apparatus which concerns on 1st embodiment of this invention to a secondary battery. The figure which shows the external appearance quality of a welding part, (a) The figure which shows the favorable external appearance quality at the time of using the welding apparatus which concerns on 1st embodiment of this invention, (b) The defect at the time of using the conventional welding apparatus FIG. The figure which shows the external appearance of a gasket, (a) The figure which shows the favorable external appearance quality at the time of using the welding apparatus which concerns on 1st embodiment of this invention, (b) The bad external appearance at the time of using the conventional welding apparatus The figure which shows quality. The partial cross section schematic diagram which shows the state around a welding part at the time of applying the welding apparatus which concerns on 2nd embodiment of this invention to a secondary battery. The partial cross section schematic diagram which shows the state around a welding part at the time of applying the welding apparatus which concerns on 3rd embodiment of this invention to a secondary battery. The plane schematic diagram which shows the state which applied the welding apparatus which concerns on 3rd embodiment of this invention to a secondary battery.

Next, embodiments of the invention will be described.
First, a secondary battery to which a welding apparatus according to an embodiment of the present invention is applied will be described with reference to FIGS. 1 and 2.
As shown in FIG. 1, a secondary battery 1 to which a welding apparatus according to an embodiment of the present invention is applied includes a wound body 3, an electrolyte solution, and the like inside a casing constituted by a case 2 and a cover plate 4. Is configured to be enclosed.
Terminals 8 and 8 are projected from the upper part of the cover plate 4, and the Z terminals 7 and 7 for fixing the terminals 8 and 8 and the communication portions of the terminals 8 and 8 in the housing are sealed. It is set as the structure provided with the 1st gaskets 5 * 5 and 2nd gaskets 6 * 6 for stopping.

As shown in FIG. 2, in the secondary battery 1, the periphery of the portion where the opening portion 2 a and the cover plate 4 are in contact with each other when the cover plate 4 is fitted to the opening portion 2 a of the case 2 (hereinafter referred to as a welded portion 9). ) Is irradiated with laser light (that is, laser welding) to seal the open portion 2a and to ensure the airtightness of the casing of the secondary battery 1.
Further, when laser welding the weld 9, an inert gas such as nitrogen or argon is supplied to the weld 9.

  And the welding apparatus which concerns on one Embodiment of this invention WHEREIN: When the welding part 9 is laser-welded, supplying an inert gas, defective products, such as a soot, a fume, and a spatter which arose in the welding part 9, are 1st. It is configured to be able to prevent diffusion and adhesion toward the gasket 5 or the like.

Next, the configuration of the welding apparatus according to an embodiment of the present invention will be described.
A welding apparatus according to an embodiment of the present invention includes a laser irradiation apparatus (not shown) that is an apparatus for irradiating a welding portion 9 with laser light, and a jig for fixing the case 2 to a predetermined welding position. A fixing jig is provided.
And in the welding apparatus which concerns on one Embodiment of this invention, it has the characteristics in the structure of a fixing jig, and the welding apparatus which concerns on each 1st-3rd embodiment from which the structure of a fixing jig differs after that. The manufacturing method of the used secondary battery will be described sequentially.

  In the present embodiment, the case 2 is exemplified by laser welding in a state where the open portion 2a is disposed in a posture in which the open portion 2a is vertically upward (that is, laser welding is performed so that the bead is substantially horizontal). However, the direction of the opening part 2a when using the welding apparatus according to the present invention is not limited to this, and the direction of the fixing jig can be changed according to the direction of the opening part 2a.

First, a method for manufacturing a secondary battery when using the welding apparatus according to the first embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 3, the welding apparatus according to the first embodiment of the present invention is an apparatus for laser welding the cover plate 4 to the open portion 2 a of the case 2 when the secondary battery 1 is manufactured. A laser irradiation apparatus (not shown) that is an apparatus for irradiating a position with laser light and a fixing jig 10 that is a jig for fixing the case 2 to be welded to a predetermined position are provided.
And the welding apparatus which concerns on 1st embodiment of this invention has the characteristics in the structure of the fixing jig 10, and the structure of parts other than the fixing jig 10 in a welding apparatus is common with the conventional welding apparatus. doing.

Here, the configuration of the fixing jig 10 will be described.
The fixing jig 10 is a member that is used in contact with the side surfaces of the case 2 (four surfaces in contact with the open portion 2a). A total of four fixing jigs 10 corresponding to the four side surfaces are provided. 10 · 10 · 10 is used in cooperation.

That is, the case 2 is clamped at a predetermined position in the welding apparatus by pressing the fixing jigs 10, 10, 10, 10 on the four side surfaces of the case 2, respectively.
And the irradiation position of the laser beam irradiated with a laser irradiation apparatus (not shown) is made to correspond to the welding part 9 in the state which has arrange | positioned the case 2 in the predetermined position.
In the following description, for convenience of explanation, the fixing jig 10 will be described by focusing on one fixing jig 10, but the other three fixing jigs 10, 10, and 10 have the same configuration. .

In the fixing jig 10, an inert gas supply port 10 a that is an opening for injecting an inert gas is formed in a portion above the welded portion 9.
The inert gas supply port 10a is connected to a gas cylinder 12 serving as an inert gas supply unit filled with nitrogen or argon at a predetermined pressure.

The opening direction of the inert gas supply port 10a is the vertical direction, and the inert gas supply port 10a is disposed above the vertical direction when viewed from the welded portion 9 during laser welding.
For this reason, the inert gas injected from the inert gas supply port 10a is injected with directivity toward the welded portion 9, and is configured to be able to perform laser welding while covering the welded portion 9 with the inert gas. ing.

In addition, an inert gas outlet 10b that is an opening for leading out the inert gas supplied to the welded portion 9 is formed in a portion of the fixing jig 10 that is located to the side of the welded portion 9. Yes.
The inert gas outlet 10b has a horizontal opening direction, and the inert gas outlet 10b is a part of the inert gas outlet 10b that is desired to avoid the diffusion of defective products as viewed from the welded portion 9 (that is, the first gasket 5). Etc.).

That is, the welding apparatus according to the first embodiment of the present invention further includes a fixing jig 10 that is a jig for fixing the casing (case 2), and is provided with an inert gas supply port 10a. The gas outlet 10b is formed in the fixing jig 10.
Thereby, the flow of the inert gas around the welded portion 9 can be controlled with a simple configuration.

Further, the inert gas outlet 10 b is formed in the fixing jig 10 so as to be located outside the outer position of the case 2.
Thereby, since the flow of the inert gas toward the inert gas outlet 10b does not easily cross the laser beam, the stability of the laser beam is increased, and as a result, the welding accuracy can be improved.

That is, in the welding apparatus according to the first embodiment of the present invention, the inert gas outlet 10b is disposed on the outer side with respect to the irradiation position of the laser beam in the welding portion 9 of the housing (case 2). It is.
With such a configuration, it is possible to prevent the laser beam from intersecting with the flow of the inert gas, and to improve the welding accuracy.

The outlet pipe 11 is connected to the inert gas outlet 10b.
In addition, in this embodiment, although the inert gas outlet 10b located in the side with respect to the welding part 9 is illustrated, the arrangement | positioning of the inert gas outlet 10b may be below the welding part 9. FIG.

  Further, the case 2 and the fixing jig 10 are arranged inside the hermetic layer 14, and are configured such that only the lead-out pipe 11 is connected to the outside of the hermetic layer 14.

For this reason, since the inert gas injected from the inert gas supply port 10a has no escape route other than the inert gas outlet 10b, the inert gas is led out from the outlet pipe 11 after reaching the welded portion 9.
Further, at this time, the defective product generated by the laser welding rides on the flow of the inert gas together with the inert gas, does not stay in the welded portion 9, and does not diffuse outside the welded portion 9. , Discharged from the outlet tube 11.

That is, the fixing jig 10 is configured to control the flow of the inert gas on the side opposite to the first gasket 5 by providing the inert gas outlet 10 b and the outlet pipe 11.
And since it can prevent reliably that a defective product adheres to the 1st gasket 5 grade | etc., By using the fixing jig 10 of such a structure, it concerns on 1st embodiment of this invention. The secondary battery 1 having good appearance quality can be manufactured by the welding device.

In the present embodiment, an inert gas supply port and an inert gas outlet port are formed in a fixing jig (in this embodiment, the fixing jig 10), which is a member conventionally provided in a welding apparatus, to simplify the process. The appearance quality has been improved with a simple structure.
However, the configuration of the welding apparatus according to the present invention is not limited to this, for example, a configuration in which an inert gas supply port and an inert gas outlet port are formed in a member other than the fixing jig, or an inert gas A new member for providing a gas supply port and an inert gas outlet may be added.

Here, the appearance quality of the secondary battery 1 manufactured using the welding apparatus according to the first embodiment of the present invention will be described with reference to FIGS. 4 and 5.
4 (a) and 4 (b) show a laser beam at a predetermined welding position under each welding condition in which the welding output of a laser irradiation device (not shown) is 1200 W and the processing speed is in a range of 4 to 15 m / min. The results of an experiment investigating how the appearance quality around the welded portion 9 changes when the secondary battery 1 is manufactured by laser welding the case 2 and the cover plate 4 are shown.

4A shows a case where the welding apparatus according to the first embodiment of the present invention is used, and FIG. 4B shows a case where a conventional welding apparatus is used. Yes.
The “conventional welding apparatus” mentioned here has an inert gas supply means, but does not have means for exhausting the inert gas (means corresponding to the inert gas outlet 10b). Is.
In addition, the “predetermined welding position” here is based on the position (boundary position) where the case 2 and the cover plate 4 are in contact, and this position has an approach amount of “0” to the first gasket 5. It is specified as a position.

  As shown in FIG. 4B, when the secondary battery 1 is manufactured by laser welding the case 2 and the cover plate 4 using a conventional welding apparatus, a predetermined welding position (that is, the first gasket 5 is attached). When irradiating a laser beam at a position where the approaching amount is “0”, the appearance is poor regardless of the processing speed.

At this time, the appearance of the secondary battery 1 around the welded portion 9 is as shown in FIG. 5B, and the surface is rough due to adhesion of soot and fumes.
In addition, it is not necessary to confirm how the appearance quality changes when the welding position is further moved to the gasket side. Therefore, the appearance changes when the welding position is further moved to the first gasket 5 side. No attempt was made to confirm this.

  On the other hand, as shown in FIG. 4 (a), the secondary battery 1 is manufactured by laser welding the case 2 and the cover plate 4 using the welding apparatus having the fixing jig 10 according to the first embodiment of the present invention. When manufactured, when the laser beam is irradiated to a predetermined welding position, the appearance quality around the welded portion 9 of the manufactured secondary battery 1 is good even if the processing speed is changed in the range of 4 to 15 m / min. is there.

  At this time, the appearance of the secondary battery 1 around the welded portion 9 is as shown in FIG. 5 (a), and there is no adhesion of wrinkles or fumes, and the surface is not rough. ing.

Then, the case 2 and the cover plate 4 are laser welded by moving the welding position to the gasket side by 0.1 mm (that is, under the condition that the distance between the portion where the defective product is not desired to adhere and the welded portion 9 is closer). Thus, the secondary battery 1 is manufactured.
Then, even in this case, even if the processing speed is changed in the range of 4 to 15 m / min, the appearance quality around the welded portion 9 of the manufactured secondary battery 1 can be maintained well.

Further, the secondary battery 1 is manufactured by laser welding the case 2 and the cover plate 4 by further moving the welding position to the gasket side by 0.1 mm (that is, 0.2 mm from the predetermined welding position).
Then, even in this case, even if the processing speed is changed in the range of 4 to 15 m / min, the appearance quality around the welded portion 9 of the manufactured secondary battery 1 can be maintained well.

  As described above, when the secondary battery 1 is manufactured by laser welding the case 2 and the cover plate 4 using the welding apparatus according to the first embodiment of the present invention, it is surely provided around the welded portion 9 (that is, Since the defective product can be prevented from diffusing (toward the first gasket 5), the secondary battery 1 having good appearance quality can be reliably manufactured.

Next, a method for manufacturing a secondary battery when using the welding apparatus according to the second embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 6, the welding apparatus according to the second embodiment of the present invention is an apparatus for laser welding the cover plate 4 to the open portion 2 a of the case 2 when the secondary battery 1 is manufactured. A laser irradiation device (not shown) that is a device for irradiating the position with laser light and a fixing jig 20 that is a jig for fixing the case 2 to be welded to a predetermined position are provided.
And the welding apparatus which concerns on 2nd embodiment of this invention has the characteristics in the structure of the fixing jig 20, and the structure of parts other than the fixing jig 20 in a welding apparatus is common with the conventional welding apparatus. doing.

Here, the configuration of the fixing jig 20 will be described.
The fixing jig 20 is a member that is used in contact with the side surfaces of the case 2 (four surfaces in contact with the open portion 2a). A total of four fixing jigs 20 corresponding to the four side surfaces are provided. 20/20/20 are used in cooperation.

That is, the case 2 is clamped at a predetermined position in the welding apparatus by pressing the fixing jigs 20, 20, 20, 20 on the four side surfaces of the case 2, respectively.
And the irradiation position of the laser beam irradiated with a laser irradiation apparatus (not shown) is made to correspond to the welding part 9 in the state which has arrange | positioned the case 2 in the predetermined position.
In the following, for convenience of explanation, the fixing jig 20 will be described by focusing on one fixing jig 20, but each of the other three fixing jigs 20, 20, 20 has the same configuration. .

An inert gas supply port 20a that is an opening for injecting an inert gas is formed around the welded portion 9 in the fixing jig 20.
The inert gas supply port 20 a has a horizontal opening direction and is disposed above the welded portion 9.
The inert gas supply port 20a is connected to a gas cylinder 12 serving as an inert gas supply unit filled with nitrogen or argon at a predetermined pressure.

In addition, an inert gas outlet 20b that is an opening for leading out the inert gas is formed in a part of the fixing jig 20 that is located to the side of the welded portion 9.
The inert gas outlet 20b has a horizontal opening direction, and the inert gas outlet 20b is a part of the inert gas outlet 20b that is desired to avoid the diffusion of defective products when viewed from the welded portion 9 (that is, the first gasket 5). Etc.).
In addition, in this embodiment, although the inert gas outlet 20b located in the side with respect to the welding part 9 is illustrated, the arrangement | positioning of the inert gas outlet 20b may be below the welding part 9. FIG.

That is, the welding apparatus according to the second embodiment of the present invention further includes a fixing jig 20 that is a jig for fixing the casing (case 2), and is provided with an inert gas supply port 20a and an inert gas. The gas outlet 20 b is formed in the fixing jig 20.
Thereby, the flow of the inert gas around the welded portion 9 can be controlled with a simple configuration.

Further, the inert gas outlet 20 b is formed in the fixing jig 20 so as to be located outside the outer position of the case 2.
Thereby, since the flow of the inert gas toward the inert gas outlet 20b does not easily cross the laser beam, the stability of the laser beam is increased, and as a result, the welding accuracy can be improved.

Moreover, in the welding apparatus which concerns on 2nd embodiment of this invention, the inert gas outlet 20b is arrange | positioned on the outer side with respect to the irradiation position of the laser beam in the welding part 9 of a housing | casing (case 2). It is.
With such a configuration, it is possible to prevent the laser beam from intersecting with the flow of the inert gas, and to improve the welding accuracy.

The inert gas outlet 20b is connected to a vacuum pump 13, which is a means for exhausting the inert gas from the welded portion 9.
Then, by operating the vacuum pump 13, the inert gas injected from the inert gas supply port 20 a flows downward by the suction force generated at the inert gas outlet 20 b and reaches the welded portion 9.
For this reason, it is comprised so that laser welding can be performed, covering the welding part 9 with the inert gas injected from the inert gas supply port 20a.

Thereafter, the inert gas supplied to the welded portion 9 is exhausted from the inert gas outlet 20b without diffusing toward the first gasket 5.
Further, at this time, the defective product generated along with the laser welding is discharged from the welded portion 9 along with the inert gas along with the inert gas.

In other words, the flow of the inert gas is controlled by the fixing jig 20 so that the inert gas discharged from the inert gas supply port 20a flows on the opposite side to the first gasket 5. Yes.
And since it can prevent reliably that a defective product adheres to the 1st gasket 5 by using the fixing jig 20 of such a structure, the welding which concerns on 2nd embodiment of this invention By the apparatus, the secondary battery 1 having good appearance quality can be manufactured.

  In addition, in the welding apparatus according to the first embodiment having the fixing jig 10 described above, a configuration in which only the outlet pipe 11 is provided in the inert gas outlet 10b is illustrated, but according to the first embodiment. The fixing jig 10 provided in the welding apparatus may be configured to connect the vacuum pump 13 to the outlet pipe 11.

That is, the welding apparatus according to the first and second embodiments of the present invention further includes a vacuum pump 13 that is a means for sucking an inert gas, and the vacuum pump 13 is connected to the inert gas outlet. 10b (or inert gas outlet 20b).
With such a configuration, the flow of the inert gas around the welded portion 9 can be reliably controlled.

  Moreover, in the welding apparatus which concerns on 1st and 2nd embodiment of this invention, the rectangular parallelepiped case 2 which has the open part 2a with which one surface was open | released, and the cover plate for sealing the open part 2a 4, and a secondary battery 1 having a housing generated by laser welding the lid plate 4 to the open portion 2 a of the case 2, and welding the case 2 and the lid plate 4. A welding apparatus for a secondary battery having a gas cylinder 12 as an inert gas supply means, which is a means for supplying an inert gas toward the section 9, for releasing the inert gas communicating with the gas cylinder 12 An inert gas supply port 10a (or an inert gas supply port 20a), which is an opening, is disposed above the welded portion 9 and is an opening for leading out the inert gas supplied to the welded portion 9. An inert gas outlet 10b , An inert gas outlet 20b), is to place the side or downward with respect to the weld portion 9.

  Furthermore, the manufacturing method of the secondary battery 1 using the welding apparatus according to the first and second embodiments of the present invention includes a rectangular parallelepiped case 2 having an open portion 2a having one surface open, and an open portion. A rechargeable battery 1 having a housing that is formed by laser welding the cover plate 4 to the open portion 2 a of the case 2, and the case 2 and the cover plate 4. It manufactures, supplying an inert gas toward the welding part 9, Comprising: An inert gas is supplied with respect to the welding part 9 from the upper direction of this welding part 9, and the side of the welding part 9 or The supplied inert gas is exhausted from below.

With such a configuration, the flow of the inert gas can be controlled so that the inert gas around the welded portion 9 does not diffuse to a range other than the welded portion 9.
Thereby, it is possible to prevent defective products such as soot, fume, and spatter generated during laser welding from being diffused to a range other than the welded portion 9 on the flow of the inert gas.

Moreover, in the manufacturing method of the secondary battery 1 using the welding apparatus according to the first and second embodiments of the present invention, the inert gas supplied from the side or the lower side of the welded portion 9 is supplied by the vacuum pump 13. Force exhaust.
With such a configuration, the flow of the inert gas around the welded portion 9 can be reliably controlled.

Next, a method for manufacturing a secondary battery in the case of using the welding apparatus according to the third embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 7, the welding apparatus according to the third embodiment of the present invention is an apparatus for laser welding the cover plate 4 to the open portion 2 a of the case 2 when the secondary battery 1 is manufactured. A laser irradiation apparatus (not shown) that is an apparatus for irradiating a position with laser light and a fixing jig 30 that is a jig for fixing the case 2 to be welded to a predetermined position are provided.
And the welding apparatus which concerns on 3rd embodiment of this invention has the characteristics in the structure of the fixing jig 30, and the structure of parts other than the fixing jig 30 in a welding apparatus is common with the conventional welding apparatus. doing.

Here, the configuration of the fixing jig 30 will be described.
As shown in FIG. 8, the fixing jig 30 is a member used in contact with the side surfaces of the case 2 (four surfaces in contact with the opening 2 a), and a total of four fixing jigs 30 correspond to the four side surfaces. The fixing jigs 30, 30, 30, 30 are used in cooperation.

That is, the case 2 is clamped at a predetermined position in the welding apparatus by pressing the fixing jigs 30, 30, 30, 30 on the four side surfaces of the case 2.
And in the state which has arrange | positioned case 2 in the predetermined position, the irradiation position of the laser beam irradiated by a laser irradiation apparatus (not shown) corresponds to the welding part 9. FIG.

As shown in FIG. 7, a wall portion 30a, which is a portion extending upward to prevent diffusion of the inert gas, is formed in an upper portion of the fixing jig 30 as compared with the welded portion 9. Has been.
And in the welding apparatus which concerns on 3rd embodiment of this invention, an inert gas is injected toward a horizontal direction with the gas cylinder 12 along the wall part 30a, and this inert gas is supplied to the welding part 9. It is configured to do.
For example, in the present embodiment, a plurality of injection nozzles connected to the gas cylinder 12 are arranged so that the injection direction is parallel to the welded portion 9 and the wall portion 30a, and the inert gas is injected in the horizontal direction. It is said.

By setting it as the structure which provides such a wall part 30a, an inert gas can be flowed along the wall part 30a, and the flow direction of an inert gas can be controlled horizontally.
As a result, the flow of the inert gas becomes parallel to a portion (that is, the first gasket 5 or the like) where it is desired to avoid the diffusion of the defective product.
For this reason, soot, fume, spatter and the like do not collide with the first gasket 5 in the vertical direction, so that soot, fume, spatter and the like can be made difficult to adhere.

  Further, by providing the wall 30a, for example, even when a gas having a specific gravity smaller than air such as nitrogen is used as the inert gas, the supplied inert gas is in a range other than the welded portion 9. The first gasket 5 can be surrounded by an inert gas that flows horizontally with respect to the first gasket 5.

  And by using the fixing jig 30 having such a configuration, it is possible to reliably prevent a defective product from adhering to the first gasket 5 or the like, and therefore according to the third embodiment of the present invention. The secondary battery 1 having good appearance quality can be manufactured by the welding device.

That is, the welding apparatus according to the third embodiment of the present invention further includes a fixing jig 30 that is a jig for fixing the case 2, and the fixing jig 30 is disposed on the side of the welding portion 9. The part which is provided with the wall part 30a which is a site | part for enclosing, and should prevent adhesion of the defective product (a flaw, a fume, a sputter | spatter, etc.) produced | generated in the weld part 9 from the side of the weld part 9. (In the present embodiment, the first gasket 5) is formed at a height that extends upward.
With such a configuration, the flow of the inert gas is flown so that the inert gas flows through the portion (the first gasket 5 in the present embodiment) that should prevent the adhesion of defective products around the welded portion 9. Can be controlled.

  Moreover, in the welding apparatus which concerns on 3rd embodiment of this invention, the rectangular parallelepiped case 2 which has the open part 2a with which one surface was open | released, and the cover plate 4 for sealing the open part 2a, And an apparatus for manufacturing a secondary battery 1 having a casing generated by laser welding the lid plate 4 to the open portion 2a of the case 2, and a welding portion 9 between the case 2 and the lid plate 4. A welding apparatus for a secondary battery having a gas cylinder 12 as a means for supplying an inert gas toward the gas cylinder 12, wherein the discharge direction of the inert gas from the gas cylinder 12 is parallel to the weld 9. It arranges so that it may become.

  Furthermore, the manufacturing method of the secondary battery 1 using the welding apparatus according to the third embodiment of the present invention includes a rectangular parallelepiped case 2 having an open portion 2a with one surface open, and the open portion 2a sealed. A secondary battery 1 having a housing that is formed by laser welding the lid plate 4 to the open portion 2 a of the case 2, and a welded portion 9 between the case 2 and the lid plate 4. In this case, the inert gas is supplied to the welded portion 9 in parallel with the welded portion 9.

With such a configuration, the flow of the inert gas can be controlled so that the inert gas around the welded portion 9 does not diffuse to a range other than the welded portion 9.
Thereby, it is possible to prevent defective products such as soot, fume, and spatter generated during laser welding from being diffused to a range other than the welded portion 9 on the flow of the inert gas.

DESCRIPTION OF SYMBOLS 1 Secondary battery 2 Case 2a Opening part 5 First gasket 10 Fixing jig (first embodiment)
10a Inert gas supply port 10b Inert gas outlet 20 Fixing jig (second embodiment)
20a Inert gas supply port 20b Inert gas outlet 30 Fixing jig (third embodiment)
30a wall

Claims (9)

A rectangular parallelepiped case having an open portion with one surface opened and a lid plate for sealing the open portion, and generated by laser welding the lid plate to the open portion of the case A secondary battery having a housing,
Is an apparatus for manufacturing
A secondary battery welding apparatus having an inert gas supply means which is a means for supplying an inert gas toward a welded portion between the case and the lid plate,
An inert gas supply port which is an opening communicating with the inert gas supply means and discharging the inert gas toward the weld;
Disposed above the weld, and
An inert gas outlet that is an opening for extracting the inert gas supplied to the weld;
Arranged on the side or below the weld,
A welding apparatus for a secondary battery. Furthermore, a fixing jig that is a jig for fixing the housing is provided,
The inert gas supply port and the inert gas outlet port;
Forming on the fixture;
The secondary battery welding apparatus according to claim 1. Furthermore, an inert gas suction means that is a means for sucking the inert gas is provided,
The inert gas suction means;
Connected to the inert gas outlet,
The secondary battery welding apparatus according to claim 1, wherein the secondary battery welding apparatus is provided. The inert gas outlet is
Arranged on the outside with respect to the irradiation position of the laser beam in the welded portion of the housing,
The secondary battery welding apparatus according to any one of claims 1 to 3, wherein the welding apparatus is a secondary battery. A rectangular parallelepiped case having an open portion with one surface opened and a lid plate for sealing the open portion, and generated by laser welding the lid plate to the open portion of the case A secondary battery having a housing,
Is an apparatus for manufacturing
A secondary battery welding apparatus having an inert gas supply means which is a means for supplying an inert gas toward a welded portion between the case and the lid plate,
The inert gas supply means;
The inert gas discharge direction by the inert gas supply means is arranged so as to be parallel to the weld.
A welding apparatus for a secondary battery. Furthermore, a fixing jig that is a jig for fixing the housing is provided,
The fixing jig is
A wall portion that is a part for enclosing the side of the welded portion;
The wall,
From the side of the welded portion, it is formed at a height that extends above the site where the adhesion of defective products generated in the welded portion should be prevented.
The secondary battery welding apparatus according to claim 5. A rectangular parallelepiped case having an open portion with one surface opened and a lid plate for sealing the open portion, and generated by laser welding the lid plate to the open portion of the case A secondary battery having a housing,
A method of manufacturing a secondary battery manufactured while supplying an inert gas toward a welded portion between the case and the lid plate,
For the weld,
Supplying an inert gas from above the weld, and
Exhaust the supplied inert gas from the side or lower side of the weld,
A method for producing a secondary battery. Forcibly exhausting the supplied inert gas from the side or lower side of the weld,
The method for producing a secondary battery according to claim 7. A rectangular parallelepiped case having an open portion with one surface opened and a lid plate for sealing the open portion, and generated by laser welding the lid plate to the open portion of the case A secondary battery having a housing,
A method of manufacturing a secondary battery manufactured while supplying an inert gas toward a welded portion between the case and the lid plate,
In the weld,
Flowing an inert gas parallel to the weld,
A method for producing a secondary battery.