JP2860220B2 - Welding method for vacuum insulation material - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for welding an outer package material of a vacuum heat insulating material used for a refrigerator or the like.

[0002]

2. Description of the Related Art Conventionally, as an outer packaging material of a vacuum heat insulating material, as shown in FIG. 5, a rectangular inner packaging material container 1 filled with perlite or silica powder and an opening for accommodating the inner packaging material container 1 are provided. A rectangular outer packaging container 2 having a bottom wall and a side wall forming a rectangular concave portion 2b and having a flange 2a extending outward from an edge of the side wall; and a concave portion 2b of the outer packaging material container 2 overlapping the flange 2a. And a rectangular lid member 3 for covering the opening of the above. The outer packaging material container 2
Is polyacrylonitrile (200-300 μm thick)
And an aluminum foil (thickness: 5 to 10 μm) laminated with a film sheet having a barrier property, and the concave portion 2b is formed by vacuum forming or the like. The cover 3 is made of polyacrylonitrile (thickness: 50 to 150).
μm) is laminated with polyethylene terephthalate or the like which has been subjected to aluminum evaporation (5 to 10 μm in thickness).

[0003] The conventional method of welding the outer envelope material of the vacuum heat insulating material is as follows.
As shown in FIG. 6, after the inner packaging material container 1 is stored in the outer packaging material container 2, the lid 3 is overlapped with the flange 2 a of the outer packaging material container 2 so that the concave portion of the outer packaging material container 2 in FIG. Cover the opening of 2b. Then, the side wall of the outer packaging material container 2 is pressed against the lower welding lever 11 fixed to the welding table 10 of the welding machine, and a region where the flange 2 a of the outer packaging material container 2 and the lid material 3 overlap in FIG. A,
The upper welding lever 12 is pressed against B and C, respectively, for welding. Then, after air in the inner packaging material container 1 and the inside of the outer packaging material container 2 is degassed by a vacuum packaging material machine (not shown), a portion where the flange 2a of the remaining outer packaging material container 2 and the lid material 3 overlap with each other. Region D is welded to produce a vacuum heat insulating material.

[0004]

However, according to the conventional method of welding an outer package material of a vacuum heat insulating material, as shown in FIG. 7, a region A of a portion where the flange 2a of the outer package container 2 and the lid 3 overlap. , B, C, D, the welding failure due to the displacement of the lid 3 with respect to the outer packaging material container 2 or the lid 3
, The length of the flange 2a of the outer packaging container 2 in the region A, B, C, D where the flange 2a of the outer packaging container 2 overlaps the lid 3 matches the length of the lid 3 corresponding thereto. And wrinkles 13 are generated. Since the wrinkles 13 cause a slow leak at the welded portion and lower the degree of vacuum inside, there is a problem that the heat insulating ability as a vacuum heat insulating material is lowered. In addition, there is a disadvantage that the flatness of the lid 3 is poor due to the generation of the wrinkles 13.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for welding a vacuum heat insulating material to an outer packaging material in which wrinkles at a welded portion are prevented as much as possible and a slow leak does not occur at the welded portion.

[0006]

In order to achieve the above object, a method for welding an outer packaging material of a vacuum heat insulating material according to the present invention comprises forming an inner packaging material container filled with a heat insulating material and a concave portion for accommodating the inner packaging material container. An outer packaging material container having a bottom wall and a side wall, and a flange extending outward from an edge of the side wall, and a lid material overlapping the flange of the outer packaging material container and covering an opening of the outer packaging material container. In the outer material welding method of the vacuum heat insulating material, the flange of the outer material container and the lid material are overlapped, and the overlapping portion of the flange and the lid material is spot-welded at several places. The present invention is characterized in that all of the overlapping portion with the lid member is welded.

[0007] The overlapping portion of the flange of the outer packaging material container and the lid material is substantially rectangular, and the four corners of the overlapping portion are angles formed by the side wall of the outer packaging material container and the flange. Is desirably deformed so as to be larger, and the four corners are spot-welded.

[0008] In addition, the angle between the side wall and the flange of the outer packaging material container is adjusted by adjusting means, and the four corners of the overlapping portion are deformed to spot weld the four corners. It is desirable.

[0009]

The outer packaging material welding method of the vacuum thermal insulating material having the above-mentioned construction is performed by opening the outer packaging material container with a lid material overlapping the flange of the outer packaging material container for storing the inner packaging material container filled with the heat insulating material. Then, the portion where the flange of the outer packaging material container overlaps the lid material is spot-welded at several places, and then the entire overlapping portion between the flange of the outer packaging material container and the lid material is welded. In this manner, the temporary fixing of the lid material causes the slack of the lid material to be spread evenly over the entire lid material, so that wrinkles are not biased and wrinkles are reduced. Even if wrinkles are formed, large or complicated wrinkles that cause a slow leak at the welded portion do not occur. Therefore, it is possible to prevent the occurrence of wrinkles at the welded portion where the flange of the outer packaging material container and the lid material overlap with each other as much as possible, to prevent the occurrence of slow leak at the welded portion, and to improve the flatness of the lid material 3. . Further, since the lid material is temporarily fixed by the spot welding, when the overlapping portion of the flange of the outer packaging material container and the lid material is welded, no displacement of the lid material with respect to the outer packaging material container occurs. Not bad. Therefore, workability at the time of the above-mentioned welding is improved, and it is easy to respond to automation.

The overlapping portion between the flange of the outer packaging material container and the lid material is substantially rectangular, and the angle formed by the four corners of the overlapping portion between the side wall of the outer packaging material container and the flange increases. When the four corners are spot-welded, even if the lid is loosened, the length of the welded portion of the lid and the length of the corresponding welded portion of the flange of the outer packaging material container are substantially reduced. Since it is possible to make the same, the generation of wrinkles at the welded portion where the flange of the outer packaging material container and the lid material overlap can be further reduced.

The angle between the side wall and the flange of the outer packaging material container is adjusted by adjusting means, and the four corners of the overlapping portion between the flange and the lid material of the outer packaging material container are deformed, When spot-welding the above four corners, adjust the angle between the side wall and the flange of the outer packaging material container in accordance with the looseness of the lid material even if the slackness of the lid material changes, and adjust the length of the welded portion of the lid material and the The length of the welded portion of the flange of the corresponding outer packaging material container can be made substantially the same. Therefore, even if the manner of loosening of the lid material changes, it is possible to prevent the occurrence of wrinkles at the welded portion where the flange of the outer packaging material container and the lid material overlap.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the method for welding an outer packaging material of a vacuum heat insulating material according to the present invention will be described in detail with reference to an embodiment.

FIG. 1 shows the structure of a vacuum heat insulating material according to an embodiment of the present invention, wherein 1 is a rectangular inner container having a bottom wall and a side wall forming a concave portion 1b filled with pearlite or silica powder; Reference numeral 2 denotes a rectangular outer packaging container having a bottom wall and a side wall forming a concave portion 2b for accommodating the inner packaging container 1, and a flange 2a extending outward from an edge of the side wall. A rectangular lid member 3 that overlaps with the flange 2a and covers the opening of the concave portion 2b of the outer packaging material container 2. The inner packaging material container 1 has a flange 1a extending outward from the edge of the side wall. The flange 1a is smaller than the flange 2a of the outer packaging material container 2. The outer packaging material container 2 is made of a film sheet having a barrier property in which polyacrylonitrile (thickness: 200 to 300 μm) and aluminum foil (5 to 10 μm) are laminated, and the concave portion 2b is formed by vacuum forming or the like. ing. The lid 3 is made of polyacrylonitrile (thickness: 50 to 150 μm) by aluminum evaporation (thickness: 5).
-10 μm) laminated with polyethylene terephthalate or the like.

FIG. 2 shows a part of the spot welding machine, which has a substantially trapezoidal cross section which is positioned on the plane of a welding base 5 having a flat plate shape larger than the outer packaging material container 2 with the four side walls of the outer packaging material container 2 interposed therebetween. The end surface of the plate-shaped positioning guide 7 is fixed. Along the positioning guide 7, the outer packaging material container 2 containing the inner packaging material container 1 is mounted such that the bottom surface of the outer packaging material container 2 is in contact with the flat surface of the welding base 5. At the position of the welding base 5 corresponding to the four corners (only two places are shown in FIG. 2) of the flange 2 a of the outer packaging material container 2, as an adjusting means extending in a direction perpendicular to the plane of the welding base 5. The height adjustment screw 6a is screwed. The height adjusting screw 6a has its height adjusted so as to raise the flange 2a of the outer packaging material container 2 to a predetermined height, and is fixed with a fixing lock nut 6b. Height adjustment screw 6
The spot welding head 4 is arranged so that the four corners of the flange 2a of the outer packaging material container 2 lifted by a are set as spot welding positions so as to sandwich the four corners of the flange 2a.

Outer packaging material container 2 containing inner packaging material container 1
Then, the cover material 3 is attached so as to overlap the flange 2a of the outer packaging material container 2 and cover the opening of the concave portion 2b of the outer packaging material container 2. In this case, four corners of the flange 2a of the outer material container 2 is lifted to a height H ₂ of greater than the height H ₁ of the outer cover material container 2 position by a height adjusting screw 6a.
The height H ₂ is adjusted by loosening degree of the lid 3. That is, as shown in FIG. 3, for example, two corner portions of the flange 2 a of the outer packaging material container 2 and the two corner portions 3 a and 3 b of the lid material 3 are set as spot welding positions, and the outer packaging material container 2 The actual member length L ₁ between the spot welding positions of the flange 2 a and the actual member length L ₂ between the spot welding positions of the two corners 3 a and 3 b of the lid 3 substantially match or as the length L ₂ is slightly larger than the length L _1, to adjust the height H ₂ by the height adjustment screw 6a.

[0016] above four corners and the lid member 3 of the four corners 3a, 3b, 3c, 3d (shown in FIG. 1) and the position of the height H ₂ that overlaps the flange 2a of the outer material container 2 Spot welding is performed by the spot welding head 4. Next, the lid 3 is temporarily fixed from the spot welding machine, the outer packaging container 2 containing the inner packaging container 1 is taken out, and the outer packaging container 2 is removed by a welding machine (not shown) as shown in FIG. Three regions A, where the flange 2a and the lid 3 overlap,
Weld B and C. After the welding of the regions A, B, and C, the air in the inner packaging material container 1 and the inside of the outer packaging material container 2 are degassed by a vacuum packaging machine (not shown). Then, the remaining region D of the overlapping portion of the flange 2a of the outer packaging material container 2 and the lid material 3 is welded by the welding machine.

As described above, by temporarily fixing the lid member 3 to the outer packaging material container 2 by spot welding, the slack of the lid member 3 is evenly spread over the entire lid member 3 so that wrinkles are not biased and wrinkles are prevented. Is less likely to occur. And even if wrinkles are formed, large wrinkles or complicated wrinkles that cause a slow leak at the welded portion do not occur. Therefore, the generation of wrinkles in the areas A, B, C, and D where the flange 2a of the outer packaging material container 2 and the lid material 3 overlap with each other is minimized.
The occurrence of a slow leak in the regions A, B, C, and D can be prevented, and the flatness of the cover member 3 is improved, so that the quality is improved as compared with the related art. Further, since the lid material 3 is temporarily fixed by the spot welding, the regions A, B, and A, where the flange 2a of the outer packaging material container 2 and the lid material 3 overlap each other.
When welding C and D, there is no displacement of the lid material 3 with respect to the outer packaging material container 2, so that poor welding does not occur. Therefore, the workability at the time of the above-mentioned welding is improved, and it is easy to respond to automation.

The four corners of the overlapping regions A, B, C and D of the flange 2a and the lid 3 of the outer packaging container 2 are adjusted by the height adjusting screw 6a to the height of the outer packaging container 2. lift to a height H ₂ of higher than H ₁ position, since the spot welding the four corners, even in the lid member 3 is slackened, the length of the welded portion of the lid 3 shown in FIG. 3 L ₁ and the length L ₂ of the welded portion of the flange 2a of the outer cover material container 2 corresponding thereto can be made substantially the same. Therefore, it is possible to further reduce the occurrence of wrinkles at the welded portion where the flange 2a of the outer packaging material container 2 and the lid 3 overlap.

Further, even if the manner of loosening of the lid member 3 changes, as shown in FIGS. 2 and 3, the height adjusting screw 6a loosens the lock nut 6b for fixing so that the lid member 3 is loosened. it is possible to adjust the height H ₂ in accordance with the can length L ₂ of the welded portion of the flange 2a of the outer cover material container 2 and its corresponding length L ₁ of the welded portion of the cover member 3 substantially the same . Therefore, even if the manner of loosening of the lid member 3 changes, it is possible to prevent the occurrence of wrinkles at the welded portion where the flange 2a of the outer packaging material container 2 and the lid member 3 overlap.

In the above embodiment, perlite or silica powder is used as the heat insulating material in the inner material container 1, but the heat insulating material may be asbestos, alumina fiber or the like.

In the above embodiment, the spots to be spot-welded are the four corners of the region where the flange 2a of the outer packaging material container 2 and the cover material 3 overlap. However, the outer packaging material container other than the four corners is used. It is a matter of course that spot welding may be performed in a region where the second flange 2a and the lid member 3 overlap.

[0022]

As is clear from the above, according to the method for welding the outer packaging material of the vacuum thermal insulating material of the present invention, the inner packaging material container filled with the thermal insulating material is formed by the recess formed by the bottom wall and the side wall of the outer packaging material container. To be stored. Further, the lid material is attached to the opening of the concave portion of the outer packaging material container so as to overlap with the flange extending outward from the edge of the side wall of the outer packaging material container. After spot-welding the overlapping portion between the flange of the outer packaging material container and the lid material at several places, all the overlapping portions between the flange of the outer packaging material container and the lid material are welded. Therefore, according to the present invention, the temporary fixing of the lid member spreads the slack of the lid member evenly over the entire lid member, so that wrinkles are not biased and wrinkles are reduced. Even if wrinkles are formed, large or complicated wrinkles that cause a slow leak at the welded portion do not occur. Therefore, it is possible to minimize the occurrence of wrinkles at the welded portion where the flange of the outer packaging material container and the cover material overlap, thereby preventing the occurrence of a slow leak at the welded portion and at the same time the flatness of the cover material is reduced. Better and better quality. Further, since the lid material is temporarily fixed by the spot welding, when the overlapping portion between the flange of the outer packaging material container and the lid material is welded, the displacement of the lid material with respect to the outer packaging container does not occur, and poor welding is caused. Does not occur. Therefore, workability at the time of welding is greatly improved as compared with the related art, and automation can be easily performed.

The overlapping portion between the flange of the outer packaging material container and the lid material is substantially rectangular, and the angle between the four corners of the overlapping portion and the side wall of the outer packaging material container and the flange is increased. When the four corners are spot-welded, even if the lid is loose, the length of the welded portion of the lid and the length of the corresponding welded portion of the flange of the outer packaging material container are substantially reduced. Can be the same. Therefore, it is possible to further reduce the generation of wrinkles at the welded portion where the flange of the outer packaging material container and the lid material overlap.

Further, the angle formed by the side wall and the flange of the outer packaging material container is adjusted by adjusting means, and the four corners of the overlapping portion are deformed to spot weld the four corners. In this case, even if the manner of loosening of the lid material changes, the angle between the side wall and the flange of the outer packaging material container is adjusted accordingly, so that the length of the welded portion of the lid material and the corresponding flange of the outer packaging material container are adjusted. The lengths of the welded portions can be made substantially the same. Therefore, even if the manner of loosening of the lid material changes, it is possible to prevent wrinkles at the welded portion where the flange of the outer packaging material container and the lid material overlap.

[Brief description of the drawings]

FIG. 1 is a view showing a configuration of an outer packaging material of a vacuum heat insulating material according to one embodiment of the present invention.

FIG. 2 is a side view of a part of the spot welding machine of the embodiment.

FIG. 3 is a side view of the outer packaging material of the vacuum heat insulating material after spot welding in the above embodiment.

FIG. 4 is a perspective view of an outer packaging material of the vacuum heat insulating material after welding in the above embodiment.

FIG. 5 is a view showing a configuration of a conventional outer packaging material of a vacuum heat insulating material.

FIG. 6 is a side view of a part of a conventional welding machine.

FIG. 7 is a perspective view of an outer packaging material of a vacuum heat insulating material manufactured by the conventional welding machine.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Inner packaging container, 2 ... Outer packaging container, 2a ... Flange, 3
... lid material, 4 ... spot welding head, 5 ... welding base, 6
a: height adjusting screw, 6b: locking nut, 7: positioning guide, 10: welding table, 11: lower welding bar, 12: upper welding bar.

Claims (3)

(57) [Claims] 1. An inner packaging material container filled with a heat insulating material, an outer packaging material container having a bottom wall and a side wall forming a recess for accommodating the inner packaging material container, and further having a flange extending outward from an edge of the side wall. In a method for welding a vacuum heat insulating material comprising a lid material that overlaps the flange of the outer packaging material container and covers an opening of the outer packaging material container, the flange of the outer packaging material container and the lid material are overlapped. Wherein the overlapped portion of the flange and the lid material is spot-welded at several places, and then the entire overlapped portion of the flange of the outer package material container and the lid material is welded. Law. 2. An overlapping portion between the flange of the outer packaging material container and the lid material is substantially rectangular, and four corners of the overlapping portion form an angle between the side wall of the outer packaging material container and the flange. 2. The method for welding an outer packaging material of a vacuum heat insulating material according to claim 1, wherein the four corners are spot-welded by deforming so as to be larger. 3. An adjusting means for adjusting an angle between the side wall and the flange of the outer packaging material container, deforming the four corners of the overlapping portion, and spot welding the four corners. The method for welding an outer packaging material of a vacuum heat insulating material according to claim 2, wherein: