JPH0676716B2 - Thermal strain correction method for coated metal enclosure - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for straightening heat distortion in a coated metal enclosure, which can easily remove wrinkles due to thermal strain generated in the coated metal enclosure by heat during seam welding. .

[Conventional technology and its problems]

2. Description of the Related Art Conventionally, a coated metal enclosure that is watertight and airtight by seam welding a coated metal material (mainly stainless steel) as an underlayer on the inside and outside surfaces of a structure has been actively constructed. In particular, in recent years, the coated metal enclosure has come to be used for a covering portion such as a roof or a wall of a structure.

Since the coated metal enclosure is constructed by seam welding the coated metal materials and joining them together, heat distortion during this welding may cause wrinkles on some parts such as the bottom of the coated metal enclosure. There were many

In particular, when it is used for constructing a roof or wall of a structure, there is a drawback that the appearance of the structure is impaired due to the wrinkles caused by the thermal strain.

[Means for Solving the Problems]

Therefore, as a result of earnestly researching to solve the above-mentioned problems, the inventor has found that the present invention provides a coated metal material in which rising portions are formed on both sides in the width direction of a flat main plate, which is narrower than the width of the coated metal material. It is placed on a base material through an elastic body having a width and elasticity, and a movable suspension is attached to one side of the coated metal material, and then the coated metal material is bonded via the elastic body in the same manner as described above. Is placed on the base material, and the main plate in the vicinity of the compatible rising portion of the adjacent coating metal material is pressed downward, and the compatible rising portion is seam welded to form a cross section of the main plate in a flat chevron arc shape. As a thermal strain correction method in the metal envelope, or, the coated metal material, having a width substantially equal to this coated metal material, and placed on the base material via an elastic body having elasticity, Attach a movable suspension to one side of the coated metal material, and then repeat the same as above. The coated metal material is placed on the base material through the elastic body, and the main plate in the vicinity of the compatible rising portion of the adjacent coated metal material is pressed downward, and the cross-section of the main plate is seam welded at the compatible rising portion. By adopting the thermal strain correction method for the coated metal envelope that is formed into a flat chevron arc, wrinkles due to thermal strain generated in the coated metal envelope due to heat during seam welding can be easily removed, and the above problems are solved. It was done.

〔Example〕

An embodiment of the thermal strain correction method of the present invention will be described below with reference to FIGS. 1 to 10.

First, to describe the constituent members of the present invention, A is a long coated metal material in the longitudinal direction, which is made of stainless steel such as seam weldable and has a plate thickness of about 0.2 mm to about 1 mm ( (See Fig. 1 etc.).

Reference numeral 1 denotes a flat main plate at the bottom of the coated metal material A, and rising portions 2 having a height of about 2 cm to about 10 cm are erected on both sides in the width direction. As the elongated coated metal material A, a metal material such as a coil-shaped stainless steel plate is integrally bent by a roll forming machine or the like.

B ₁ and B ₂ are elastic bodies, and those having elasticity (having good restoring property) are used, and specifically, porous synthetic resin or synthetic rubber is used. This elastic body
B ₁ and B ₂ also have heat insulating properties. The width L ₁ of the elastic body B ₁ is smaller than the width L of the coated metal material A, as shown in FIGS. That is, it is the elastic body B ₁ satisfying the condition L ₁ <L.

Further, as shown in FIG. 5, the width L ₂ of the elastic body B ₂ is substantially the same as the width L of the coated metal material A (see FIG. 5). That is, the elastic body B ₂ has the condition of L ₂ ≈L.

The elastic body B ₁ is, as shown in FIG. 2, about 10 mm in the natural state.
A thickness of about 20 mm or more is used. Alternatively, as shown in FIG. 3, the elastic body B ₁ may be combined in multiple layers to have a thickness of about 10 mm to about 20 mm, or as shown in FIG. The elastic body B ₁ may be folded in half to have a total thickness of about 10 mm to about 20 mm. The elastic bodies B ₁ and B _{2 have} a length substantially equal to that of the coated metal material A, or the elastic bodies B ₁ and B ₂ having appropriate lengths are sequentially arranged in the longitudinal direction to be equal to the coated metal material A. The length may be used.

Various examples of the shape and structure of the elastic body B ₂ are the same as those of the elastic body B ₁ shown in FIGS. 2 to 4.

C is a movable suspension, which is formed by bending a plate material made of stainless steel. This movable suspension C is composed of a suspension main body 3 and a movable tongue piece 4, and the suspension main body 3 has a length of about 0.3 m.
The movable tongue 4 which is a thin plate inside and outside m is slidably provided. The movable suspension C is fixed to a base material D such as concrete or steel frame.

As the base material D, concrete (see FIGS. 1 and 3) or steel frame material (see FIGS. 2 and 4) is used,
If necessary, an intermediate material such as a wooden wool board or a synthetic resin board may be placed (see FIGS. 2 and 4).

E is a seam welder, and sliding base plates 6 and 6 supporting the welder body 5 are fixed to the lower part of the seam welder (see FIG. 7), and electrode rolls 7 and 7 are provided on the left and right below the front side. It is provided so that it can be driven. The pressure applied to the electrode rolls 7, 7 is adjustable so that a current depending on the plate thickness, material, etc., flows through the electrode roll 7. The welding machine body 5 is equipped with a cooling device.

Next, the straightening method of the embodiment of the present invention will be described. First, the straightening method of the first embodiment (when the width L ₁ of the elastic body B ₁ is smaller than the width L of the main plate 1 of the coated metal material A, that is, L ₁ <L)
Is as follows. The elastic body B ₁ having the width L ₁ is placed on the base material D, and the covering metal material A is placed on the elastic body B ₁ while placing the elastic body B ₁ at the substantially central position. At this time, the elastic body B ₁ is set so that the center line in the width direction and the center line in the width direction of the coated metal material A are substantially aligned with each other (see the left side in FIG. 6). That is, the elastic body B ₁ is positioned at the center position in the width direction of the coated metal material A, and it is as if the base material D and the coated metal material A are elastic bodies.
Make B ₁ narrow in the middle. And the coated metal material A
While the movable tongue piece 4 of the movable suspension C is brought into contact with the rising portion 2 on one side, the suspension main body 3 is fixed. At this time, the rising portion 2 and the movable tongue 4 may be temporarily fixed by spot welding at their upper end side positions. Then, the adjacent coated metal material A is also placed on the base material D via the elastic body B _{1 in the same} manner as described above. Next, the sliding base plate of the seam welding machine E is mounted on the main plates 1, 1 in the vicinity of the ascending parts 2, 2 of the adjacent coated metal materials A, A.
6, 6 are placed, and the main plates 1, 1 near the ascending section 2, 2 are pressed downward by the weight of the seam welding machine E. While doing this, the seam welding machine E
Seam welding is performed while holding the movable tongue 4 of the movable suspension C (see FIG. 8). Specifically, the seake welding operation is performed while being narrowed between the power source rolls 7 and 7 of the seam welding machine E together with the rising portions 2 and 2 and the movable tongue 4 sandwiched therebetween.

After passing through the seam welding machine E, the coated metal material A is pushed upward by the elastic body B ₁ packed in the central position while leaving a gap on both sides in the width direction of the coated metal material A. Such a repulsive force is exerted (see FIG. 9), and the cross section of the main plate 1 becomes a flat mountain arc shape. By this action, the wrinkles of the coated metal material A on both sides of the main plate 1 extend in the plane direction to form wrinkles. Is to stretch.

The coated metal enclosure is constructed by sequentially repeating these operations.

Next, the correction method of the second embodiment of the present invention will be explained.
First, correction method of the second embodiment (when the width L ₂ of the elastic body B ₂ is the width L substantially equal to the main plate 1 for coating metal material A, i.e., L ₂ ≒ L)
Is as follows. An elastic body B ₂ having a width L ₂ is placed on the base material D, and the covering metal material A is placed on the elastic body B ₂ while placing the elastic body B ₂ at a substantially central position. At this time, the elastic body B ₂ is set so that both sides thereof in the width direction are substantially aligned with the positions of the rising portions 2 and 2 on both sides of the coated metal material A in the width direction. The subsequent construction order is the same as in the case of the first embodiment.

In the second embodiment, in particular, after passing through the seam welding machine E, the elastic body B ₂ packed in the entire width direction of the coated metal material A pushes up the coated metal material A upward. It is the point of exercising power. Also in this case, the cross section of the main plate 1 can be made into a flat chevron arc.

〔The invention's effect〕

First, in the invention described in claim 1, the coated metal material A in which the rising portions 2, 2 are formed on both sides in the width direction of the flat main plate 1 has a width narrower than the width of the coated metal material A. None, and is placed on the base material D via the elastic body B ₁ having elasticity, the movable suspender C is attached to one side of the coated metal material A, and then the elastic body B ₁ is mounted in the same manner as described above. The coated metal material A is placed on the base material D via the
Compatibility of A While pressing the main plates 1, 1 near the uphill section 2, 2 downward,
Both of which are the same as the conventional construction method. By adopting the thermal strain correction method in the covered metal enclosure in which the cross section of the main plate 1 is formed into a flat chevron arc shape by seam welding the ascending portions 2 and 2, Thus, wrinkles due to thermal strain of the coated metal envelope can be removed by adding a work of interposing the elastic body B ₁ when slightly placing the coated metal material A on the base material D, and secondly, the elasticity. By interposing the elastic body B ₁ having an excellent restoring force between the coated metal material A and the base material D, the heat retaining property in the structure is improved, and the seismic and soundproofing properties are also effective.

These effects will be described in detail. First, at the welded joint portion of the coated metal envelope, extremely high temperature heat is generated during seam welding, so that the coated metal material A forming the coated metal envelope is As shown in FIG. 11, due to thermal strain, a raised portion is formed on a part of the flat main plate 1, and wrinkles are generated on the whole. And even if the heat drops, the coated metal material A
Distortion remains in the wrinkles, making it impossible to remove wrinkles that have occurred once. In the present invention, in removing the wrinkles generated in the above-mentioned coated metal enclosure, the width between the coated metal material A and the base material D is narrower than the width of the coated metal material A at the stage of applying the coated metal enclosure. The elastic body B ₁ having a width and elasticity is interposed, and the main metal plates 1 and 1 in the vicinity of the compatible rising portions 2 and 2 of the adjacent coated metal materials A and A are pressed downward while achieving the compatibility. By seam welding the portions 2 and 2, after the seam welding (after the seam welding machine E has passed), the covering metal material A is packed in the center position while forming a gap on both sides in the width direction. The elastic body B ₁ exerts a repulsive force that pushes the coated metal material A upward (see FIG. 9), and extends the flat main plate 1 of the coated metal material A in a direction orthogonal to the plane. Force (tensile force)
Of the main plate 1 makes the cross section of the main plate 1 into a flat chevron arc shape, and wrinkles such that a raised portion is formed in a part of the coated metal material A can be in the same state as when the wrinkle extends in the plane direction. There is a great effect that the wrinkles on the sides of both sides are stretched to finish the main plate 1 in an extremely orderly manner and the surface of the main plate 1 can be straightened. As described above, the present invention can reliably prevent the generation of wrinkles due to thermal strain.

Even in the present invention having such a great effect, the coated metal material A is placed on the base material D and the adjacent coated metal materials A and A are seam-welded, respectively. When the material A is placed on the base material D, wrinkles due to thermal strain generated in the coated metal material A at the time of seam welding can be removed by simply performing a simple operation involving the elastic body B ₁ . As described above, the work can be performed in a degree slightly exceeding the conventional work time, and the work is not particularly complicated, and the generation of wrinkles due to the thermal strain in the conventional seam welding can be removed.

In addition, since the elastic body B ₁ used in the present invention has excellent elasticity and resilience, it is effective not only for the original heat insulating property but also for the seismic property and soundproof property. Therefore, by interposing the elastic body B ₁ between the covering metal material A and the base material D, for heat retention, earthquake proofing, and sound proofing inside the structure, a sounding sound such as rain and wind, a plate for resonance or resonance, etc. The ringing phenomenon can be prevented.

Furthermore, in the present invention, since the elastic body B ₁ having a width narrower than the width of the coated metal material A and having elasticity is interposed, the voids are formed on both sides in the width direction of the coated metal material A. With the elastic body B ₁ packed in the central position, it is possible to form a flat chevron-shaped arc with sufficient repulsive force to push the coated metal material A upward.

Next, in the invention described in claim 2, the elastic body B ₁ in the constitution of the first invention is replaced with an elastic body B ₂ , and this width is made equal to the width of the coated metal material A. Thus, first, an elastic body B ₂ having a width substantially equal to that of the coated metal material A is interposed between the coated metal material A and the base material D, and an elastic body is provided between the coated metal material A and the base material D. B ₂ will be tightly packed into every corner. Therefore, the repulsive force acts from the inside to the outside on the surface of the coated metal material A near the rising portion 2 as well. Therefore, during seam welding, the self-weight of the seam welding machine E is transmitted through the sliding base plate 6 and applies a load to the surface of the coated metal material A near the rising portion 2, and the surface near the rising portion 2 is folded. The strong repulsive force of the elastic body B ₂ inside the surface in the vicinity of the rising portion 2 can prevent the deformation of No. 2 and the wrinkles due to the thermal strain can be extended, and extremely excellent correction of thermal strain can be performed.

In particular, the elastic body B ₂ having substantially the same width as that of the coated metal material A is interposed between the base material D of the coated metal material A, so that the elastic body B is closely packed between the coated metal material A and the base material D. _2, the cross section of the coated metal material A in the width direction forms a very harmonious arc, and when used as the outermost surface coating portion of the structure, it can be made extremely aesthetically superior. As for other effects, since the other structure of the second aspect of the invention is the same as that of the first aspect of the invention, the same effect as the first aspect of the invention can be exhibited.

[Brief description of drawings]

The drawings show an embodiment of the present invention, in which FIG. 1 is a perspective view showing a main structure during construction of the present invention, and FIGS. 2 to 5 show a main structure during construction of the present invention. Longitudinal sectional views, FIGS. 6 to 8 are longitudinal sectional views of main parts showing the order of construction of the present invention, FIG. 9 is a longitudinal sectional view of a coated metal enclosure constructed according to the present invention, and FIG. 10 is a book. FIG. 11 is a longitudinal sectional view showing a construction state of the invention, and FIG. 11 is a longitudinal sectional view showing a conventional construction state. A ... coated metal material, B _1, B ₂ ... elastic body, C ... movable retaining clips, D ... base material, 1 ... main plate, 2 ...... rising portion.

Front Page Continuation (72) Inventor Yoshinobu Nakamura 2-9-2 Kyobashi, Chuo-ku, Tokyo Sanko Kinzoku Kogyo Co., Ltd. (56) Reference JP 57-119047 (JP, A) -165024 (JP, U) Actual development Sho 62-160029 (JP, U) Product catalog "Sanko-style curved roof tile" January 1972, Sanko Metal Industry Co., Ltd.

Claims (2)

[Claims] 1. A coated metal material having a rising portion formed on both sides in the width direction of a flat main plate, and having a width narrower than the width of the coated metal material and having an elastic body on the base material. The movable metal suspension is attached to one side of the coated metal material, then the coated metal material is placed on the base material via the elastic body in the same manner as described above, and the adjacent coated metal material is compatible. A method for straightening thermal distortion in a coated metal enclosure, characterized in that the main plate near the above portion is pressed downward and the ascending portion is seam welded to form a cross section of the main plate into a flat chevron arc shape. 2. A coated metal material in which rising portions are formed on both sides of a flat main plate in the width direction is provided on a base material via an elastic body having a width substantially equal to that of the coated metal material and having elasticity. Place the movable suspension on one side of the coated metal material, then mount the coated metal material on the base material via the elastic body in the same manner as described above, and make the adjoining coated metal material compatible. A method for straightening thermal distortion in a coated metal enclosure, characterized in that the main plate in the vicinity is pressed downward and the compatible rising portion is seam welded to form a cross section of the main plate in the shape of a flat chevron.