JPH02289746A - Double bent plate material - Google Patents

Abstract

PURPOSE:To improve working property by protruding an inner metal plate on one longitudinal end of a metal plate having a cross section of alternate mountain and valley and an outer metal plate on the other end to a determined length, respectively, and extending the connecting part of the outer metal plate formed of one mountain part and an inclined part in the side edge part of either of the parallel bent materials. CONSTITUTION:Inner and outer metal plates 1, 2 are alternately connected to each other in parallel mountain parts 1a, 2a, valley parts 1b, 2b, and inclined parts 1c, 2c and formed into square wave-shaped cross sections, and short inclined parts 1d, 2d are bent from the both mountain parts 1a, 2a. The upper ridge side end part 11 of the inner metal plate 1 is protruded upward from the upper end part 21 of the outer metal plate 2, and the lower eaves side end part 22 of the outer metal plate 2 is protruded downward from the lower end part 12 of the inner metal plate 1. Outer connecting parts 1e, 2e in which the inner metal 1 in one side edge part of the double bent plate material and the outer metal plate 2 on the other side edge part are extended toward the respective sides are provided. Hence, the manufacturing cost can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application 1] The present invention relates to an improvement of a double-folded plate material mainly used for roofs.

[Fujutsu of Jubei] Jubei is used as a folding material such as the one mentioned above, for example,
As shown in No. 254737, a heat insulating material is filled between the middle part in the width direction of the outer metal plate in a cross-sectional shape in which peaks and valleys are alternately continued by sloped parts, and , Both sides of the outer metal R plates were brought into contact with each other, and one side edge of the inner and outer metal plates was cut and folded back, and the other I edge of the inner and outer metal plates was sandwiched at the folded part. There was something. [Problem to be Solved by the Invention 1] Since the double folding plate material having the inner and outer metal plates has the above-described structure, it is difficult to form an air layer or an air passage between the inner and outer metal plates. In addition, the connection structure in the width direction is complicated and difficult to manufacture, such as by lengthening one side edge of the inner and outer metal plates to form a folded part. There were problems in that they were difficult to connect and difficult to prevent from leaking.

The present invention was made to solve the above-mentioned problems, and it is possible to form an air layer or an air passage between the inner and outer metal plates, and to easily connect them in the arm direction and width direction.
The purpose is to provide a double folding plate material that is easy to produce and inexpensive. [1,000 Steps to Solve the Problems] The double folding plate material of the present invention has a cross-sectional shape in which peaks and valleys are alternately continued by sloped parts, and these metal plates are placed between the inner and outer metal plates. A space part covering almost the entire surface is formed, and at least six of the peaks and valleys in this space are provided with a spacing member for regulating the distance between the inner and outer metal plates, and a spacer is provided in the longitudinal direction along the peaks and valleys. At one end of the direction, the inner metal plate is made to protrude more than the outer metal plate, and at the other end, the outer metal plate is made to protrude more than the inner metal plate over a predetermined length, and parallel to the peaks and valleys. A connecting part made only of an outer metal plate having at least one peak and an inclined part continuing to the outside thereof was extended to one side edge of the folding plate material.

[Function 1] Since the double folding plate material of the present invention has a space between the inner and outer metal plates that covers substantially the entire surface of these metal plates, this space can function as a heat insulating layer and an air passage. In addition, the inner and outer metal plates are separated by the space in both lS parts in the arm direction, and the inner and outer metal plates are shifted by a predetermined distance in the longitudinal direction, so that the inner metal plate is separated from the outer metal plate. Among the double-folded plates that are placed upwards, the lower end of the outer metal plate is used with the edge that protrudes upwards (in the case of a roof, on the ridge side). By stacking and supporting the inner and outer metal plates of the folding plate material on top of the upper ends, the part where the inner metal plates overlap is located higher than the part where the outer metal plates of the upper and lower double folding plate material overlap. Therefore, these double-folded plates can be easily connected in the direction of the eaves (usually in the direction of the eaves), and there will be no problems such as leaks.

On the other hand, since the inner and outer metal plates are arranged with spacing members interposed in the peaks and troughs of the space, or one of these, adhesives, spot welding, etc. may be applied depending on the material and shape of the spacing members. The spacing member and the inner and outer metal plates can be fixed using the fixing means of 1. This makes it easy to mold the inner and outer metal plates, and the thickness of the empty ltl part is made uniform at each part. can be manufactured easily and inexpensively. Further, the double folding plate material of the present invention has only an outer metal plate having at least one peak and an inclined part continuing outside of the peak on one side edge of the folding plate along the peaks and valleys. Since it has a structure in which the connecting part consisting of
When connecting the folding plates in the direction of the main building perpendicular to the above-mentioned hanging direction, connect the connecting portion made only of the outer metal plate to the peaks or ridges located on the side edges of other adjacent double plate plates. It is possible to easily polymerize from above the slope without mutual interference. In this case, since the connecting part covers the side I & part of the other adjacent double folding plate material by the mountain part and the slope part continuous to this, there is no risk of rainwater etc. entering from the connecting part. ．． In addition, since it is possible to continuously form a dark space between the inner and outer 4-ton plates between adjacent double-folded plates, the heat insulation properties and strength peculiar to double-folded plates are sufficiently maintained even at the joints. It is possible to do so. [Embodiment 1] Hereinafter, an embodiment of the present invention will be explained based on the drawings. An embodiment of the present invention is shown in Figs. 1 to 6. 1 to 3, (1) is an inner metal plate, (2) is an outer metal plate, and inner and outer metal plates (1). (2) has peaks (la), (2a) and valleys (lb), (2b) that are parallel to each other.
) and the inclined part (lc) bent from both sides of these =
(2c) are formed into substantially equal rectangular wavy cross sections connected alternately, with peaks (la) on both sides, (2a)
The short inclined parts (ld) and (2dl) are bent from each other.The inner metal plate (1) is relatively thick and is made of a strong steel plate, etc., and the outer metal plate (2) It is composed of a metal plate whose thickness is relatively thin and the strength is less than the inner metal [(1) ν1 stainless steel plate, copper plate, etc. <11 to prevent corrosion. Inner and outer 4t metal plates (1). 2) are formed to have equal lengths and are stacked on top of each other with a predetermined length shifted in the longitudinal force direction.In other words, the bolts (11 ) protrudes upward from the upper bolt (2I) of the outer metal plate (2), and the lower (eave side) end (22) of the outer metal plate (2) is below the inner metal plate (1). It protrudes downward from the bolt part (l2).Furthermore, as shown in Fig. 2 or 3, this double-folded plate material has only the inner metal (1) on one side edge. An inner connecting portion (1e) extending laterally is provided, and an outer connecting portion i (2e) having only the outer metal plate (2) extending laterally is provided on the other side edge. The outer m connection part (2e) is connected to the peak part (1) located at the end of the inner metal plate (1).
a) ends with a relatively short slope (1d), then a slope (2c), a valley n (2b), and so on. Tilt! ff+(2e
) and then rises to the next mountain 1 (2m)! L, and ends with a relatively short sloped part (2d) that continues to the side of the mountain part (2a).The same goes for the inner connecting part (1e), located at the end of the outer metal plate (2). Yamabe (2)
a) ends with a short slope (2d), and then a slope (lc), a valley (Ib), and so on. It rises to the next mountain I (la) through a slope (1c) and ends with a short slope (1d). In addition, in the structure of the double folding plate material as described above, in practice, the inner and outer metal plates (1), <2) have the same number of peaks (Im), (2a) and valleys (lb). , (2b), and overlap each other by shifting each other by a predetermined length in the longitudinal direction and by one peak in the width direction. In the inner and outer metal plates (1) and (2), there is a space (
3) is formed, and in order to make this space f7S(3) uniform in thickness, the peaks (3a) and troughs (3) of the space 8(3) are
3b) are each provided with a spacing member (4);
The inner and outer metal plates (1), (
2) is fixed. However, the slope part (3c) of the space part (3) is not provided with a means for regulating the distance between the inner and outer members [(1) and (2)]. As shown in FIG. 7, the spacing member (4) is made of a plate-like material such as hard plastic, hard pole paper, or a metal plate. 4b
) is bent. The support part (4&) has inner and outer metal plates (1) and (2) facing each other at peaks (la), I (2a) and valleys (tbL (2b)) via an empty IWl part (3). Almost equal to the width of the short side (a) L ifi (A>+:
The distance (B) between the tips of the shape a s h, fl [s (4b), (4b) is such that the inner and outer metal plates (1), (2) are connected to the peak (la) through the space (3). , (2a) and Tanibe (l
b) l (2b) is formed approximately equal to the width (b) of the opposite barb side. The spacing member (4) connects the tip of the sloped portion (4bL) to the sloped portion (lc) of the inner and outer metal plates (1) and (2) that are continuous to the above-mentioned barbed sides and both sides of these barbed sides. ), (2c) or short slope <lcl)l
(2d) and the bent portions (C) respectively to position the inner and outer metal plates (1) and (2),
The support portions (4a) of the dark space holding member (4) are supported on the short sides, and in this state, the inner and outer metal plates (1). (2)
The tip of the inclined part (4bl, (4b)) and the supporting part (4a) are glued or welded to the opposing surfaces of the slanted part (4bl, (4b)). A large number of them are connected in the upper and lower eaves directions and in the left and right width directions to form the roof or outer wall of the building.In other words, the connections in the eaves direction are the main roof materials of the building, as shown in Figures 4 to 6. (6) Support and fix the ridge side part of the double folding plate material located on the eave side, and the inner and outer metal plates of the other double folding plate material located on the ridge side <1). Support the eave side ends (12) and (22) of (2) by stacking them on the outside of the i part (1+)-(22) on the ridge side of the double folding material already installed below. ．． On the other hand, when connecting the double folding plate materials in the width direction, as shown in FIG. The peak part (2a) of the outer metal plate (2) located at the base bolt part of the inner connecting part (1e) is partially overlapped with the inner connecting part (1e) of another adjacent double folding plate material. ), and at the same time, at the same time, the peak 1 of the inner metal plate (1) of the other folding plate material is placed on top of the peak (1a) of the inner connecting portion (1e). W (la) will polymerize. In the space (3) between the inner and outer connecting parts (le) and (2e), there are the peaks (3a) and valleys (3b).
A spacing member (4) is interposed between the spacing member (4) and the metal plate (+), (2), and the adjacent outer metal plates (2), (2) are connected to each other. Accordingly, the connection in the width direction is completed by fixing with fixing means such as welding or screws.

In this way, the above-mentioned double-folding plate material can be extremely easily connected in both the hand force direction and the width direction. On the other hand, in the above connection structure, the portion where the inner metal plates (1) overlap each other is larger than the portion where the outer metal plates (2) of the double folded plate materials that continue in the direction of the eave ridge closely overlap. Upper (ridge side)
Therefore, as shown in Figure 4, due to the slope of the roof, water flowing over the outer metal plate (2) will flow inward from the connecting part of the outer metal plate (2). does not occur. Furthermore, even if rainwater or the like intrudes from the connecting part of the outer metal plate (2) due to the wind blowing up from the eaves side, the connecting part of the inner metal plate (1) will be stronger than the connecting part of the outer metal plate (2). Since the inner metal plate (1) is located higher than the inner metal plate (1), rainwater, etc. will not enter inside the inner metal plate (1). *Inner and outer metal plates (1) as described above. (2
Even if water enters the space (3) between ), the water will flow over the inner metal plate (1) and onto the inner metal plate (1) of the other double prayer board located on the eave side. The double folded plate material located closest to the eaves is ejected to the outside from the eave side end. Furthermore, the connection WS (2e) in the width direction is the peak part (2
a) and the sloped part (2c) continuous thereto cover the side m part of the other adjacent double folding plate material, so that the rainwater that falls on the connecting part (2e) is absorbed into the inner space of the folding plate material. (
3), and therefore, there is almost no chance of rain leaking from the joints in the flat direction and width direction of this double folded plate material. In addition, since the space between the inner and outer metal plates (1) and (2) can be continuously formed between adjacent double-folded plates, the insulation and strength characteristic of double-folded plates can be achieved. It is possible to hold the joints sufficiently. Mata, Nai, Gaigakin 1 [(1). (2) Interspace fi(3
) can function not only as heat insulation and soundproofing functions, but also as air passages by leaving the top open. As the hot air flows through the space (
3) can prevent stagnation. Furthermore, when using the double prayer plate material of this example on a roof in a snowy area, by making the spacing member (4) strong,
These and the peaks (Im>,
(2a) and the troughs (lb) and (2b) form a box-shaped closed cross-section portion, resulting in a high-strength roof that can withstand the weight of snow.

Note that the double folding plate material of this example can be manufactured to the desired dimensions on-site by using a roll 7 ohming process, etc., but instead of doing this, Materials that are pre-finished to specified dimensions in the longitudinal and width directions at the factory are generally referred to as ``standard length materials.'' It is preferable to use a fixed-size folded version, which facilitates handling, transportation, and construction, and also improves economic efficiency because no materials are wasted. In addition, the double-folding plate material of this example is formed by overlapping inner and outer metal plates having the same number of peaks and valleys, shifted from each other in the width direction and width direction. In this case, almost all of the corrugated plates for double-folding plates available from Junmai can be used, so production costs can be significantly reduced. On the other hand, as shown in Fig. 2 or Fig. f143, the space (3c) between the adjacent spacing members (4) is filled with heat insulating and Q-sound material (5) made of glass wool, foam, etc. By doing so, it is possible to further improve the heat insulation and sound performance of the double folded material. Furthermore, in the above embodiment, as described above, the inner and outer metal plates (1) and (2) have the same number of peaks (1a). (2a
) and troughs (lb), (2b), these are shifted in the width direction and overlapped to create an oval pattern, but instead of doing this, the outer metal plate (2) is It is also possible to create a structure in which only the connecting portion (2e) is provided and this is overlapped over the side edge of another adjacent double folding plate material in a range that does not interfere with each other, that is, over the length of the connecting portion (2e). This also makes it possible to maintain the features of the present invention, such as good connection workability, waterproofness, and low cost. Further, in the above embodiment, the peak portion (
Although the spacing member (4) is provided in the troughs (3a) and troughs (3b), the H of the spacing member (4) depends on the required strength as a folding plate material, and therefore the required strength is low. In some cases, the spacing member (4) may be provided only at the peaks (3a) or valleys (3b) of the space.Furthermore,
In the present invention, the spacing member (4) is not necessarily limited to that of the above-mentioned embodiment, and may be modified as appropriate, such as a plurality of pipe materials arranged closely and parallel to each other, for example.
In addition, the spacing member (4) is the inner and outer metal plate (1) l (2
) may be placed over the entire part of the overlapping part, or short pieces may be placed at appropriate intervals in multiple positions in the direction of the handle. In addition, when filling the space (3) with a heat insulating and sound absorbing material (5) made of a foam material, etc., if this heat insulating and sound absorbing material (5) has a certain degree of strength and rigidity, the dead body will not be able to cover itself as a dark barrier. Inner and outer tX as holding members
Board (1). A structure may be adopted in which the interval (2) is maintained. It goes without saying that the double-folded plate material of the present invention can be used not only for roofs but also for the exterior walls of buildings. [Effect of the invention 1 As explained above, according to the double folding plate material of the present invention, a space is formed in the darkness of the inner and outer metal plates, covering almost the entire surface of these metal plates. can function as a heat insulating layer and air passage. *In addition, the inner and outer metal plates are separated by the space at both ends in the longitudinal direction, and the inner and outer metal plates are shifted over a predetermined length in the longitudinal direction, so that the inner metal RK is separated from the outer metal plate. Using the bolt part that protrudes from the plate upward, the lower bolt part of the inner and outer metal plate of the double folding plate material located above is used as the inner and outer metal part of other double folding plate material located below. By stacking and supporting the upper part of the board, the part where the inner metal plates overlap is located higher than the part where the outer metal plates of the upper and lower double folded plate material overlap, so these two The multi-folded plates can be easily connected in the longitudinal direction, and problems such as leaks will not occur. On the other hand, since the inner and outer metal plates are interposed with a spacing member between the peaks and valleys of the space, or one of these, adhesion or spot welding may be used depending on the material, shape, etc. of the spacing member. Since the spacing member and the inner and outer metal plates can be fixed together using an appropriate fixing means, it is easy to form the inner and outer metal plates, and it is easy to make the thickness of the space uniform in each part. Moreover, it can be manufactured at low cost. In particular, in the double folding plate material of the present invention, the outer metal plate has at least 1 @ peak portion and an inclined portion continuing outside the folding plate material on one side edge of the folding plate material along the peak portions and the valley portions. The connecting part consists of only! Since it has a L-shaped structure, when connecting double-folded plates laterally, start from above one edge of the double-folded plate and connect the connecting part of the other adjacent double-folded plates. can be easily polymerized without interfering with each other.
At this time, the connecting part made of the outer metal plate covers the side edges of the other double folding plate materials with the mountain part and the slope part continuous to this, so there is no risk of rainwater etc. entering from the connecting part. In addition, since the space between the inner and outer metal plates is continuously formed between adjacent double-folded plates, the insulation and strength characteristic of double-folded plates are sufficiently maintained even at the joints. can do. Furthermore, in the double-folded plate material of the present invention, by making it a standard length material with at least the dimension in the direction of the folding hand as a default value, handling, portability, construction workability, and economic efficiency are improved. By stacking the inner and outer metal plates, which have peaks and troughs, while shifting each other in the longitudinal and width directions, we can use almost the same wavy plate material for double-folding plates from Jubai, further reducing production costs. can do.

[Brief explanation of the drawing]

Fig. 1 is a perspective view of the main part of an embodiment of the double folding plate material according to the present invention, Fig. 2 is a front view thereof, and Fig. 143 is a detailed view of the connecting portion thereof. FIG. 4 is a schematic vertical cross-sectional view showing the usage state of the example, and FIGS. 5 and 6 are enlarged vertical cross-sectional views showing details of the peaks and valleys of the double folding plate material of the younger brother 4. be. Figure MS7 is an external perspective view of an example of the spacing member. (1). (2)...Inner and outer metal plates, (lm). (2
a) - Yamabe, (lb), (2b)...Tanibe, {1c
), (2c)--slope part, (ld), (2d)--short slope part, (1e)--inner connecting part, (2e)--
・Outer connecting part, (1+L(12)... end of inner metal plate, (21), (22)... end of outer metal plate, <3)
...Space part, (3a)...Mountain part, (3b)
...Trough, (3C)...Slope, (4)...
- Spacing member, (4a)...Support part, (4b)...
・Slope part, (5)...insulation, sound absorbing material, (6)・
・Main building material. Procedural amendment (formality) June 1, 1999 Commissioner of the Japan Patent Office Fumi Takeshi Yoshida Indication of the case 1999 Patent Application No. 56072 Name of the invention Double folding plate material 3. Relationship with the person making the amendment

Claims (3)

[Claims] (1) A space is formed between the inner and outer metal plates with a cross-sectional shape in which peaks and valleys are alternately continued by sloped parts, and a space covering almost the entire surface of these metal plates is formed, and the peaks and valleys in this space are At least one of the inner and outer metal plates is provided with a spacing member for regulating the interval between the inner and outer metal plates, and at one end in the longitudinal direction along the peaks and valleys, the inner metal plate is placed closer to the outer metal plate than the other end. In this case, the outer metal plate is made to protrude from the inner metal plate over a predetermined length, and on one side edge of the folding plate material parallel to the ridges and troughs, at least one of the ridges and the outer side of the ridges are attached. A double folding plate material characterized in that a connecting part consisting only of an outer metal plate is extended and has a continuous inclined part. (2) The inner and outer metal plates each have the same number of peaks and troughs, and are superimposed with one peak offset from each other in the width direction. Double folded plate material. (3) The double folding plate material according to claim (1), wherein the inner and outer metal plates are formed to have a predetermined longitudinal dimension.