JP2021139191A - Guide rail connection structure and guide rail connection method in building shutter device - Google Patents

Abstract

To form a guide rail 3 into an elongated shape by connecting a series of rail members 3A and 3B, each of which is formed by extrusion molding of a steel material to be a one-piece member, strong, and free from thermal deformation.SOLUTION: Under a state where the rail members 3A and 3B, each of which is a mold material as a one-piece member formed by extrusion molding of a steel material, are abutted in an end-to-end fashion, a flat connecting member 6 is applied to outer surfaces of groove bottom pieces 3a and first and second groove side pieces 3b and 3c of the abutted portions and the outer surfaces and the connecting member 6 are welded, which make it possible to establish a connection without having to weld the abutted portions.SELECTED DRAWING: Figure 6

Description

The present invention relates to a technical field of a guide rail connecting structure and a guide rail connecting method in a building shutter device installed in an opening such as an entrance / exit of a building.

Today, at openings such as entrances and exits of buildings such as buildings, architectural shutter devices that open and close the openings by moving the shutter curtains up and down on the guide rails provided on both the left and right sides of the openings. Building is widely adopted. In general, when such a building shutter device is installed in an opening of a large building such as a building, the opening may be large (wide) in both horizontal width and vertical height. In such a case, a large-sized architectural shutter device (so-called heavy-duty shutter device) is provided.
As a guide rail provided in such a building shutter device, it has been attempted to integrally form a strong guide rail by welding two (plural) L-shaped or 凵 -shaped mold materials to each other. (See Patent Document 1.).
On the other hand, some openings of large buildings such as airplane hangars and shipyards have a higher frontage height than ordinary buildings such as buildings (for example, the frontage height is 10 m or more). When installing a building shutter device in such an opening with a high frontage height, the guide rail must also be long corresponding to the frontage height, but such a long guide rail is the first to be integrated. Therefore, it is practically difficult to form the rail members, and it is conceivable to connect the end edges of the rail members adjacent to the top and bottom in a series to form a long guide rail. Assuming that the rail members are connected to each other in a series in this way, the rail member is fixed by screwing the covering member and the rail member in a state where the end edges of the rail members facing each other are externally fitted with the covering member. It has been proposed that the guide rails are connected to each other to form a guide rail (see Patent Document 2).

Japanese Unexamined Patent Publication No. 8-158765 JP-A-2007-120282

However, in the case where the mold materials are integrated by welding to form a guide rail, not only the work of welding the mold materials is required, but also the guide rail itself is distorted due to the heat at the time of welding. There is a problem that workability is inferior because more work is required to correct the problem.
Moreover, when a plurality of rail members are formed by welding in this way and the end edges of the rail members facing each other are connected by welding to form a long guide rail, the connecting portion is welded. The guide rail does not warp (deform) due to heat, there are no steps (unevenness, protrusions on the guide surface) on the inner surface of the connecting part of the guide groove due to welding sagging (bead), and the guide rail is used at the construction site, etc. It is necessary to at least satisfy the requirements that stress is not concentrated on the connecting part and it does not deform or bend when it is lifted in a sideways posture, and that the connecting part is not noticeable in appearance. There is a problem that it is practically difficult to satisfy the above requirements by simply welding the butt edge portions to each other.
On the other hand, what connects the guide portions via the covering member provided at the connecting portion is not welding but connection by screws, so that the connection can be performed without welding distortion or welding sagging. However, since it is simply connected by screwing, it is not only weak in strength, but also because there is play in the screw holes, it is difficult to maintain and manage the connected one in a straight line, and when lifting the guide rail, the connection part However, there are problems such as easy bending, and these are problems to be solved by the present invention.

The present invention has been created for the purpose of solving these problems in view of the above circumstances, and the invention of claim 1 includes a shutter curtain that partitions an opening such as an entrance / exit of a skeleton back and forth. In a building shutter device provided on both the left and right sides of the opening and provided with a guide rail formed with a guide groove for inwardly fitting the shutter curtain to guide ascending and descending, the guide rail is vertically adjacent to the guide rail. Each of the rail members is a mold material integrally formed by extrusion-molding a steel material, and is formed on the left and right sides, in order to form a long shape by connecting the end edges of the rail members to be formed in a series. A concave groove-shaped guide groove whose inner side in the left-right direction is opened by the groove bottom piece on the outer side in the direction and the first and second groove-side pieces on both the front and rear sides extending inward in the left-right direction from the bottom piece in the left-right direction. It is formed, and the adjacent rail members are connected to each other by welding a connecting member provided in a bridge shape between the outer surfaces of the end edges of the rail members to the outer surfaces. It is a connecting structure of guide rails in a building shutter device characterized by.
The invention according to claim 1 is characterized in that the edge portions of the rail members are connected to each other via a connecting member in a state where at least a part of the end faces facing each other is separated from each other. It is a connecting structure of guide rails in the architectural shutter device of.
According to the invention of claim 3, the connecting material is a flat plate material, which is the connecting structure of the guide rail in the building shutter device according to claim 1 or 2.
According to the invention of claim 4, the connecting material is welded to the outer surfaces of at least two pieces of the groove bottom pieces, the first groove side pieces, and the second groove side pieces. The guide rail connection structure in the architectural shutter device according to any one of claims 1 to 3, wherein the guide rail is connected.
According to the fifth aspect of the present invention, the guide groove has an opening side groove side in which the groove width is narrow because the groove back half portion of the first groove side piece is located outside the opening side half portion in the front-rear direction. It is provided with one part and a wide groove bottom side groove side piece, and when a connecting material is provided on the first groove side piece, the connecting material is an opening side groove side piece and a groove bottom side groove side piece. The guide rail connecting structure in the building shutter device according to any one of claims 1 to 4, wherein the guide rail is welded to the outer peripheral surface of at least one side piece of the portion.
The invention of claim 6 is any one of claims 1 to 5, wherein the connecting position of the rail members is deviated to either one of the vertical directions with respect to the central position in the length direction of the guide rail. It is a connecting structure of a guide rail in the above-described architectural shutter device.
According to the invention of claim 7, the guide rail has a surface portion visible from the outside of the first and second groove side pieces, and a groove inner surface portion at least on the opening side of the guide groove is covered with a decorative plate. Any of claims 1 to 6, wherein the decorative board is connected at a position deviated in the vertical direction from a connecting portion between rail members when a plurality of the decorative boards are connected vertically. It is a connecting structure of guide rails in the architectural shutter device according to 1.
The invention of claim 8 is a guide having a shutter curtain for partitioning an opening such as an entrance / exit of a skeleton in the front-rear direction, and a guide groove provided on both the left and right sides of the opening and for guiding up and down by fitting the shutter curtain inward. In a building shutter device including rails, each of the rail members is a mold material integrally formed by extrusion-molding a steel material, and the groove bottom piece on the outer side in the left-right direction and the left and right from the groove bottom piece. A concave groove-shaped guide groove that opens in the left-right direction is formed by the first and second groove-side pieces on both the front and rear sides that extend inward in the direction, and the guide rail is moved up and down. A connecting material provided in a bridging manner between the groove bottom pieces of adjacent rail members, between the first groove side pieces, and between the outer edges of the second groove side pieces is welded to the outer surfaces. This is a connecting method for connecting rail members to each other to form a long shape. In the connecting method, adjacent rail members are opposed to each other at the end edges of the rail members, and the rail members are connected to each other. A step of placing the rail member on the pedestal in a linear positioning posture, a step of applying a connecting material between the outer surfaces of the placed rail member excluding the outer surface facing the pedestal, and welding the rail members. A building shutter characterized in that a step of rotating the rail member so that the outer surface facing the pedestal is exposed, and a step of applying a connecting member to the exposed outer surface and welding the rail member are sequentially executed. This is a method of connecting guide rails in the device.

According to the invention of claim 1, the rail member is formed as an integral body including a groove bottom piece portion and the first and second groove side pieces by extrusion molding of a steel material, and there is no thermal strain due to welding. When forming a long guide rail by connecting rail members in a series while making it strong, a connecting material provided in a bridge shape between the outer surfaces of the end edges of each rail member is provided. As a result of welding to each of the outer surfaces, the connecting portion does not have thermal strain due to welding, so that linearity can be maintained, and the guide surface does not have welding sagging (beads), so that the smoothness of the guide surface is impaired. Therefore, a connection having excellent strength can be made with excellent appearance without affecting the movement of the shutter curtain.
According to the second aspect of the present invention, even when the end faces of the end edges of the rail members facing each other are separated from each other, the guide rails can be reliably connected via the connecting member to form the guide rail. Therefore, it is not necessary to accurately process (cut) the connecting end edge of the rail member into a horizontal plane, and even if there is a gap between the end faces facing each other, it can be connected without any problem, and workability is improved. improves.
According to the third aspect of the present invention, since the connecting material is a flat plate material, welding can be reliably performed with a gap in the width direction, and a strong connection can be easily performed.
According to the invention of claim 4, the connection of the rail member by the connecting material is outside of at least two pieces of the groove bottom pieces, the first groove side pieces, and the second groove side pieces. Since it can be formed by welding to the side surface, a strong connection can be easily made.
According to the invention of claim 5, the guide groove is formed between the groove side pieces of both grooves, assuming that the guide groove is provided with the opening side groove side piece having a narrow groove width and the groove bottom side groove side piece having a wide groove width. When the windproof member provided on the shutter curtain is locked to prevent the shutter curtain from coming off, but the connecting member is provided on one portion on the first groove side, the connection is formed. The material can be welded to the outer peripheral surface of at least one side piece of the opening side groove side piece and the groove bottom side groove side piece, and the structure can be simplified.
According to the invention of claim 6, since the connecting position of the rail members is deviated in either the vertical direction with respect to the center position in the length direction of the guide rail, the guide rail is lifted in the horizontal state. In some cases, it is possible to avoid inadvertent deformation or bending of the connecting part, as in the case where the central part where the load is most applied (high stress) is the connecting part, and the strength is maintained. Will greatly contribute to.
According to the invention of claim 7, the guide rail formed by connecting the rail members has a surface portion visible from the outside of the first and second groove side pieces, and a groove inner surface portion at least on the opening side of the guide groove. Is covered with a veneer, but when the veneer is a plurality of rail members connected vertically, the rail members are connected at a position deviated in the vertical direction from the connecting portion. Even if there is a gap between the rail members, the appearance is not impaired because the rail members are covered with a decorative plate.
According to the invention of claim 8, the rail members adjacent to each other on the upper and lower sides are bridged between the outer surfaces of the end edges of the groove bottom pieces, the first groove side pieces, and the second groove side pieces. It becomes possible to easily and surely manufacture a strong and long guide rail by connecting them linearly by welding through a connecting material provided in the above, and workability is improved.

It is a perspective view of the shutter device for architecture. It is a schematic vertical sectional view of a shutter device for a building. (A) and (B) are a side view showing a connected state of the slats and a plan view of a main part of the slats. (A) and (B) are front view and side view of the guide rail part in the state of being shipped from the factory. It is a horizontal cross-sectional view of the guide rail part in the state of being shipped from the factory. (A), (B), (C), and (D) are a front view, a right side view, a rear view, and a left side view of the connecting portion of the guide rail. It is a top view of the rail member. It is a horizontal sectional view of a guide rail. It is a horizontal sectional view of the guide rail part which shows the state which the guide rail is attached to a support. (A) and (B) are operation explanatory views which show the process of the first half of connecting guide rails. (A) and (B) are operation explanatory views which show the process of the middle part connecting guide rails. (A) and (B) are operation explanatory views showing the latter half process of connecting guide rails. It is a front view of the guide rail part which shows the relationship between the connecting part of a guide rail and the connecting part of a decorative board. (A) and (B) are front views of the guide rails showing the state of the connecting portion of the rail member, respectively. It is a horizontal sectional view of the guide rail of the 2nd Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawing, reference numeral 1 denotes a heavy-duty building shutter device installed in an opening (large opening) E such as an entrance / exit of a building or the like, and the building shutter device 1 is, for example, a plate of 1 mm or more. The shutter curtain 2 is continuously stitched (connected) in a flat plate shape (series) in the vertical direction using a thick slats 2a, and is attached and fixed to the skeleton side in a state of being located at both left and right ends of the opening E. The left and right guide rails 3 in which the guide grooves X for guiding the raising and lowering of the shutter curtain 2 are formed, and the take-up shaft (winding body, winding) housed above the ceiling surface portion H and around which the shutter curtain 2 is wound. Body) 4 and various member devices such as an electric shutter 5 that rotationally drives the take-up shaft 4, and controls that receive signals such as operation signals input from the elevating operation switch SW. The opening / closing control of the shutter curtain 2 is executed by driving the opening / closing machine 5 in the forward / reverse direction based on the opening / closing control command from the unit 5a, and the opening / closing control of the opening E is performed by this. Both are the same as before.

Further, the slats 2a are connected to the upper and lower end edges in a series in the vertical direction so that the adjacent slats 2a can be bent inward and outward, so that the upper and lower interlock coupling portions 2c and 2d and the interlock coupling portion are connected. It is formed by having a curtain surface portion 2e formed between 2c and 2d.
The architectural shutter device 1 is assembled so that when the shutter curtain 2 is in the closed posture, the front surface 2f of the curtain surface portion 2e is located on the outdoor side (outdoor side).
It should be noted that the left and right end edges of the slats 2a selected from the slat 2a that are continuously stitched in the vertical direction (for example, all or every other predetermined piece) extend outward in the left and right direction from the left and right end edges. When the shutter curtain 2 is protruding (protruding) and curved (bent) due to a strong wind, it is locked to a windproof receiving portion provided on the guide rail 3 side as described later to prevent the shutter curtain 2 from being pulled out. A windproof hook (windproof member) 2b for this purpose is provided in a state in which the tip side is bent in a V shape toward the outdoor side in a plan view.

The guide rail 3 employs a mold material in which a steel material (steel, iron material) is integrally formed by extrusion molding (hot extrusion molding), and the guide rail 3 is the inner end of the guide groove X. A pair of first and second groove side pieces extending inward in the left-right direction from the groove bottom piece 3a and the groove opening side of the guide groove X in the indoor and outdoor directions (front-rear direction). By providing 3b and 3c, it is configured in a concave groove shape.
Incidentally, in the present embodiment, the first groove side piece 3b side will be described as the indoor side (indoor side), and the second groove side piece 3c side will be described as the outdoor side (outdoor side) groove side piece.
On the other hand, as the architectural shutter device 1, for example, as a winding method of the shutter curtain 2, a forward winding specification in which the interlock coupling portion 2c is wound so as to face the axial center side and a reverse winding specification in which the interlock coupling portion 2c is wound so as to face the outer diameter side. However, in the present embodiment, the one with the forward winding specification will be described, but the present invention can be carried out even with the reverse winding specification. As the architectural shutter device 1, it is common that the bent side of the windproof hook 2b described above is the outdoor side, and therefore, the definition of "indoor / outdoor" in the present embodiment is defined in the guide rail 3. The second groove side piece 3c side to which the windproof hook 2b described above is locked will be described as the outdoor side.

In the present embodiment, the guide rail 3 is formed by connecting a pair (plurality) of rail members 3A and 3B adjacent to each other in the vertical direction in a series, and the rail members 3A and 3B are all the same. The mold material is used.
First, the shape of the guide rails (rail members 3A and 3B) 3 will be specifically described (see FIG. 7). The groove bottom piece 3a is provided in the opening E so as to be located on the outer side in the left-right direction. It is provided with a groove outer surface 3ay.
Further, the first groove side piece 3b on the indoor side has the same wall thickness as the groove bottom piece 3a from the tip edge (inner end edge) 3r, which is the inner edge in the left-right direction, to the groove bottom piece 3a. By being formed in the shape of a flat plate, the groove inner side surface 3bu and the groove outer surface 3by are provided, and the corner portion 3ab between the groove bottom piece portion 3a has an arc shape in which the groove outer corner surface portion 3abp has a small diameter. However, since the groove inner corner surface portion 3abj has a large-diameter arc shape, the structure is thicker than the groove bottom piece portion 3a and the first groove side piece portion 3b.

On the other hand, the second groove side piece 3c is arranged on the outdoor side, and is an opening extending from the tip edge (inner edge) 3h, which is the inner edge in the left-right direction, to the intermediate position in the groove depth direction. The side groove side piece 3d, the intermediate side extension piece 3e extending from the groove back end of the opening side groove side piece 3d toward the outdoor side (outward in the front-rear direction), and the intermediate side extension piece 3e. By providing the groove back side groove side piece 3f extending from the tip edge portion (outdoor side edge portion) of 3e to the groove bottom piece portion 3a, the guide groove X is provided with respect to the groove width of the opening side groove side piece 3d portion. The groove width of the groove back side piece 3f is widened to the outside in the front-rear direction, in other words, the groove back side Xb from the intermediate extending piece 3e to the groove bottom piece 3a. Guide groove shape in which the groove width of the second groove side piece 3c is wider toward the outdoor side than the groove width on the groove opening side Xa side extending from the tip edge portion 3h to the intermediate side extending piece portion 3e. (The back side of the groove has a wide dovetail shape).
Further, from the tip edge portion 3h of the opening side groove side piece portion (second groove side piece portion 3c) 3d, it extends toward the outdoor side with a gap Y in the left-right direction with respect to the groove back side groove side piece portion 3f. 3 g of the extended piece portion on the opening side is formed.

Then, in this way, between the groove opening end and the groove bottom piece 3a, the second groove side piece 3c has an opening side extension piece 3g, an opening side groove side piece 3d, and an intermediate side extension piece 3e. Since the groove-back side groove-side piece 3f is sequentially formed, it is bent into a so-called crank shape. The corner portion 3dg between the opening side extending piece portion 3g and the opening side groove side piece portion 3d has a groove inner corner surface portion 3dgj having a small diameter arc shape and a groove outer corner surface portion 3dgp having a large diameter arc shape. However, in the corner portion 3de between the opening side groove side piece 3d and the intermediate side extension piece 3e, the groove inner corner surface portion 3deg has a small diameter arc shape, and the groove outer corner surface portion 3dgp has a large diameter arc shape. In the corner portion 3ef between the intermediate side extension piece portion 3e and the groove inner side groove side piece portion 3f, the groove inner corner surface portion 3efj has a large-diameter arc shape, and the groove outer corner surface portion 3efp has a small-diameter arc shape. In the corner portion 3af between the groove back side piece 3f and the groove back piece 3a, the groove inner corner surface portion 3afj has a large-diameter arc shape, and the groove outer corner surface portion 3afp has a small-diameter arc shape. With this configuration, each corner portion 3dg, 3de, 3ef, and 3af portion has an opening side extension piece portion 3g, an opening side groove side piece portion 3d, an intermediate side extension piece portion 3e, and a groove back side groove. The structure is thicker than the side piece 3f and the groove bottom piece 3a.
Moreover, by forming the second groove side piece 3c in this way, the opening side extending piece 3g is formed with the left and right inner side surface 3gu and the left and right outer surface 3gy, and the opening side groove side piece 3d is formed. The groove inner side surface 3du and the groove outer surface 3dy are formed, the groove inner side surface 3eu and the groove outer surface 3dy are formed on the intermediate side extension piece 3e, and the groove inner side surface 3fu is formed on the groove inner side groove side piece 3f. And the groove outer surface 3fy are formed.
In this case, the left-right inner side surface 3gu of the opening-side extending piece 3g is positioned at the same position in the left-right direction with respect to the tip edge 3r of the first groove-side piece 3b with the groove opening side Xa. The groove outer surface 3fy of the groove back side groove side piece 3f is located at the same position in the front-rear direction with respect to the tip portion 3s of the opening side extension piece 3g so as to have the gap Y. It is set.

The guide rail 3 is composed of an integrated mold material having a groove shape as described above, and the guide rail 3 is welded to the outer surface 3fy of the groove side groove side piece 3f in the second groove side piece 3c. It is connected to the support column 10 provided on the skeleton side via the mounting metal fitting 7 and the connecting metal fitting 16 welded to the outer surface 3ay of the groove inner piece 3a.
A plurality of the mounting brackets 7 are welded with a gap in the vertical direction, and a long connecting bracket 16 is welded. Further, in the present embodiment, the upper end of the guide rail 3 is welded. At the edge portion, a guide portion 12 for guiding the shutter curtain 3 unwound from the take-up shaft 4 and the guide rail 3 are lifted when the guide rail 3 is lifted upright using a lifting means such as a crane at the site. A locking metal fitting 15 for locking to the means is detachably provided on a bracket 15a provided at the upper end of the guide rail 3.
Then, the guide rail 3 is shipped as a set including the mounting bracket 7, the bracket 15a, and the first and second decorative plates 8 and 9 described later, and is carried into the site. Then, at the site, the mounting bracket 7 is connected to the column 10 via the auxiliary mounting bracket 7a if necessary, and the outer surface 3ay of the groove back piece 3a is connected to the column 10 via the connecting bracket 16. It is configured to be assembled on the skeleton side by being connected by welding.

As described above, the guide rail 3 is provided with the first and second decorative plates 8 and 9, but the first decorative plate 8 is provided on the first groove side piece 3b side, and the second decorative plate 9 is the second. Although provided on the two-groove side piece 3c side, these decorative plates 8 and 9 are fixed to the guide rail 3 via appropriate fixing means such as welding, double-sided adhesive tape, and adhesive. It is configured to be.

The first decorative plate 8 that covers the first groove side piece 3b side has a prospective surface portion 8a that covers the edge portion 3r of the first groove side piece portion 3b and a lateral end from the indoor side end portion of the prospective surface portion 8a. A finding surface portion 8b that is bent toward the direction and covers the tip end side portion (inner portion in the left-right direction) of the groove outer surface 3by with a gap with respect to the groove outer surface 3by of the first groove side piece 3b. The support surface portion 8c that bends from the left-right outer end portion of the finding surface portion 8b toward the indoor side (inner-outer direction outer side) and the groove inner side surface 3bu of the first groove side piece portion 3b are in contact with each other. ) On the inner side surface portion 8d of the groove bent from the outdoor side edge portion of the prospective surface portion 8a toward the outer side in the left-right direction (the inner side of the groove of the guide groove X), and on the side surface 3by of the groove of the first groove side piece 3b. It is configured to include a support piece portion 8e that is fastened and abuts on the support surface portion 8c. It is formed so as to cover from the tip edge portion 3r of the one portion 3b to a position substantially corresponding to the groove inner corner surface portion 3dj position between the opening side groove side piece 3d and the intermediate side extending piece 3e.
Then, in the first decorative plate 8, the tip edge portion 19a of the first auxiliary decorative plate 19 whose base end side is fixed to the support column 10 is the support surface portion 8c and the support piece portion in a state where the guide rail 3 is assembled to the support column 10. It is applied to the contact portion with the 8e and fixed via the screw 19b.

On the other hand, the second decorative plate 9 that covers the second groove side piece 3c side covers the left and right inner side surface 3gu of the opening side extending piece 3g in a state that includes the tip edge 3h of the second groove side piece 3c. Further, a prospective surface portion 9a that covers up to the mounting bracket 7, a support surface portion 9b that is bent outward from the outdoor side end portion of the prospective surface portion 9a in the left-right direction, and an outdoor side edge of the mounting bracket 7. The support piece portion 9c, which is fixed to the portion and comes into contact with the support surface portion 9b, is bent so as to be along (surface contact) the groove inner side surface 3du of the opening side groove side piece portion 3d from the indoor side edge portion of the prospective surface portion 9a. The corresponding portion of the corner portion 3deg is bent so as to be along the groove inner side surface portion 9d and the groove inner side surface 3eu of the intermediate side extending portion 3e from the groove bottom side end edge portion of the groove inner side surface portion 9d. It is configured to include the folded curved surface portion 9e.
Then, in the second decorative plate 9, the tip edge portion 20a of the second auxiliary decorative plate 20 whose base end side is fixed to the support column 10 is the support surface portion 9b and the support piece portion in a state where the guide rail 3 is assembled to the support column 10. It is applied to the contact portion with 9c and fixed via the screw 20b. In the present embodiment, the fixing portion between the second decorative plate 9 and the second auxiliary decorative plate 20 by the screw 20b has a concave groove shape, and the closing member 20c is fitted and attached therein.

The guide rail 3 is formed by connecting the upper and lower rail members 3A and 3B in a series by welding using a flat plate-shaped connecting member 6, and the connecting structure in that case is as follows. ing.
The connecting member 6 is provided in a bridge shape between the outer piece (outer surface) surfaces of the end edge portions 3Aa and 3Ba portions of the rail members 3A and 3B facing each other, and is connected to each outer surface in a series by welding. Will be done.
Specifically, the end edge portions 3Aa and 3Ba of the rail members 3A and 3B are butted against each other in a state of facing each other. In this case, the end edge portions 3Aa and 3Ba are the rail members 3A and 3B. It is not necessary to form it on a plane perpendicular to the core line (center line) in the length direction of the above, and it may be inclined or uneven. In the case of matching, there will be some separated parts, but the present invention will be carried out even in such a butt state, and even in a state where there is no contact part as a butt state (completely separated state). In FIG. 6, the butt is illustrated in a state where there is no contact (a state where the distance is about 2 mm).

In a state where the end edge portions 3Aa and 3Ba of the rail members 3A and 3B are butted against each other, the groove outer surface 3ay between the groove back pieces 3a, the groove outer surface 3by between the first groove side pieces 3b, and the second Connecting material 6, that is, groove bottom side connecting material 6a, first side connection between the groove outer surfaces 3dy between the opening side groove side piece 3d and between the groove outer surfaces 3f between the groove back side groove side pieces 3f in the groove side piece 3c. The rail members 3A and 3B are formed by applying the members 6b, the opening-side connecting member 6d, and the groove bottom-side connecting member 6e in a bridge-like manner, and welding the both end edges of the connecting members 6 in the width direction to the opposite outer surfaces. Are connected in a series to form a long guide rail 3.

In this case, the portion Z welded to the rail members 3A and 3B of the connecting member 6 is not in the abutted edge portions 3Aa and 3Ba positions, but in the length direction from the end edge portions 3Aa and 3Ba positions ( It is set so as to be a portion Z separated in the vertical direction), and the connecting member 6 is set to be provided with an extension portion 6g extending in the vertical direction longer than the welding portion Z. Since the extension portion 6g is provided, for example, when the guide rail 3 is lifted in a sideways posture (for example, a horizontal posture) and is bent, the stress is also received by the extension portion 6g to guide the guide. The linearity of the rail 3 can be maintained.
Since the guide rail 3 in which the rail members 3A and 3B are connected and formed by welding via the connecting member 6 in this way, the three outer surfaces of both the indoor and outdoor outer surfaces and the outer surface on the groove bottom side are fixed by welding. , The strength is increased in the front-rear direction (indoor / outdoor direction) and the left-right direction, and even if the connecting portion C is stress-concentrated when it is lifted in the lateral posture, the connecting portion C may be deformed. It is possible to effectively avoid bending.
However, in carrying out the present invention, when the rail members 3A and 3B are connected by welding via the connecting member 6 to form the guide rail 3, it is necessary to increase the strength in the front-rear direction (indoor / outdoor direction) and the left-right direction. For that purpose, the strength of the connection between the groove bottom pieces 3a, the first groove side piece 3b, and the second groove side piece 3c is weak. Therefore, it is preferable to connect at least two of these parts to each other, and in the case of connecting the two parts, the connection between the groove bottom pieces 3a and the first Either one of the groove-side pieces 3b and the second groove-side piece 3c, the first groove-side piece 3b, and the second groove-side piece 3c are connected. Judging from the original purpose that the guide rail 3 needs to smoothly guide the shutter curtain 3, even when the rail members are connected to each other, the first groove side serving as the guide surface of the shutter curtain 3 Smoothness of each connecting portion between the piece 3b and the second groove side piece 3c (specifically, the groove inner side surface 3du of the opening side groove side piece 3d and the groove inner side surface 3bu of the first groove side piece 3b). In this sense, it is more important to secure the first groove side piece 3b and the second groove side piece 3c than when connecting two places including the groove bottom piece 3a. It can be said that it is preferable to connect two places to each other.
Then, when one part is connected to each other at three places as in the present embodiment, it is preferable because a great increase in strength can be achieved.
Further, in the second groove side piece 3c of the present embodiment, the opening side groove side piece 3d and the groove back side groove side piece 3f are formed in a stepped shape, and the respective pieces 3d and 3f are formed in a stepped shape. When connecting the second groove side piece 3c, of the opening side groove side piece 3d and the groove back side groove side piece 3f, Either one may be connected, and in this case, the groove side groove side is more connected to the opening side groove side piece 3d which substantially constitutes the guide surface of the shutter curtain 3. It can be said that it is more preferable than the case where the single portions 3f are connected to each other, and in this case, since the connecting portion is located on the opening end side of the guide groove X, it can be said that the strength surface is also preferable.

Such connection work between the rail members 3A and 3B may be performed at the site where the building shutter device 1 is installed, but it is preferably performed at the factory in order to ensure accurate linearity.
In this case, the connecting operation is performed using the pedestal 21 whose seat surface 21a is flat, and an example of the procedure will be described below with reference to FIGS. 10 to 12.
First, the rail members 3A and 3B are placed on the pedestal 21, but for example, the rail members 3A and 3B are linearly adjacent to the seat surface 21a with the first groove side piece 3b facing downward. Place it in the state of being. Then, the outer surface 3ay of the end edge portion of the groove bottom piece 3a of the mounted rail members 3A and 3B (the lateral inner side surface 3gu or the first groove side piece of the opening side extension piece 3g). A linear (planar) contact member 21b is brought into contact with the tip edge portion 3r of the portion 3b), and the rail members 3A and 3B are positioned so as to be in a linear state.

Then, the positioned rail members 3A and 3B are temporarily fixed by using a fastener 22 such as a clamp if necessary, and the abutted edge portions 3Aa and 3Ba are spot-welded to each other by spot welding or the like. It can be temporarily fixed. Further, the contact member 21b can be removed at this stage.
In the rail members 3A and 3B linearly positioned and set on the pedestal 21, the outer surface 3ay of the visible groove bottom piece 3a excluding the first groove side piece 3b facing the pedestal surface 21a and not visible. Connecting plates 6a, 6d, and 6e are bridged between each other, the outer surfaces 3dy of the opening side groove side piece 3d in the second groove bottom piece 3c, and the outer surfaces 3fy of the groove back side groove side piece 3f. While welding, the mounting bracket 7 is welded to the second groove side piece 3c. The stopper 22 will be appropriately removed in the process of welding these.

After that, the rail members 3A and 3B are rotated on the pedestal 21 so that the open end side of the guide groove X faces upward, and the first groove side piece 3b that faces the seat surface 21a and cannot be welded. The rail members 3A and 3B are exposed by exposing the groove outer surface 3by of the above, applying the first side connecting member 6b between the groove outer surfaces 3by of the first groove side piece 3b in a bridge shape, and welding in the same manner as described above. Can form a guide rail 3 connected in a series. In this case, the stopper 22 can be reattached for work if necessary.

After the long guide rail 3 is formed in this way, the first and second decorative plates 8 and 9 are fitted into the guide rail 3 so as to be fitted from the open end edge of the guide groove X facing upward. It may be incorporated, and in this way, a long guide rail 3 in which the necessary parts are incorporated is formed.

The guide rail 3 is formed by connecting a pair of rail members 3A and 3B, but may be formed by connecting three or more rail members in a series, and the rail members may be formed in a series in this way. When connecting, it is preferable that the connecting portion C is not located at the central portion of the guide rail 3 in the length direction. Therefore, when connecting a pair of rail members 3A and 3B, the rail members 3A and 3B are different in length and shortness. As a matter of fact, when these are connected, it is preferable that the connecting portion C is deviated (misaligned) in either one of the vertical directions. , It is possible to avoid the maximum bending stress received by the central portion of the guide rail 3. In this case, it is preferable that the rail member 3A on the long side is located on the lower side (see FIG. 14 (A)).
When the guide rail is formed by connecting three or more rail members 3A, 3B, and 3C in a series, the rail member 3C located at the center of the guide rail 3 is set to the longest one. By doing so (see FIG. 14B), the connecting portion C can be configured to be further separated from the central portion that receives the largest bending stress, and the strength of the guide rail 3 can be increased.

Further, as described above, the guide rails 3 are provided with decorative plates 8 and 9, but the decorative plates 8 and 9 can also be configured by connecting a plurality of decorative plates 8 and 9 in a series, and in this case, the decorative plates It is preferable that the connecting portions D of 8 and 9 are displaced in the vertical direction with respect to the connecting portions C of the rail members 3A and 3B (see FIG. 13), and by doing so, the rail members Even if there is a gap in the connecting portion C between the 3A and 3B, the connecting portion C can be hidden and the visibility is not impaired, and a step between the rail members 3A and 3B (of course, the guide rail 3). Even if there is a step that does not hinder the guidance, the decorative boards 8 and 9 can be attached in a connected state without being affected by the step, and the appearance is excellent in accuracy. Can be expensive. Incidentally, it is proposed that the connecting portion D of the decorative plates 8 and 9 and the connecting portion C of the rail members 3A and 3B are separated from each other by, for example, about 50 cm.

In the present embodiment configured as described above, the guide rail 3 is a long object in which rail members 3A and 3B made of a mold material integrally formed by extrusion molding of a steel material are connected in a series. The rail members 3A and 3B have a groove bottom piece 3a on the outer side in the left-right direction and the first and second groove-side pieces 3b and 3c on the indoor and outer sides extending inward in the left-right direction from the groove bottom piece 3a. The structure has a guide groove X provided with the above, and as a result, the rail members 3A and 3B themselves are integrated, and welding distortion occurs as in the case where these are formed by welding a plurality of mold materials. Can be made strong in terms of strength.
Then, the rail members 3A and 3B having such strong strength are connected via the connecting member 6 to form the guide rail 3, but in this case, the adjacent rail members 3A and 3B are connected to each other. As a result of welding the connecting members provided in a bridge shape between the outer surfaces of the rail members 3A and 3B to each of the outer surfaces, the connecting portions C of the rail members 3A and 3B themselves are not thermally distorted due to welding. As a result, the linearity can be maintained, and since welding sagging does not occur, the smoothness of the guide surface is not impaired, and a connection having excellent strength can be made with excellent appearance.

In this case, since the rail members 3A and 3B are not connected by welding the end edge portions 3Aa and 3Ba, even if the end edge portions 3Aa and 3Ba are separated from each other, they are connected. Since the rail members 3A and 3B can be connected via the material 6, the end edges 3Aa and 3Ba of the rail members 3A and 3B are abutted against each other in a surface contact manner, so that the rail members 3A and 3B are processed (cut) into a plane shape exactly perpendicular to the length direction. It is not necessary to do so, and even if there is a gap between the end faces facing each other, it can be connected without any problem, and workability is improved.
Moreover, since the connecting material 6 is made of a flat plate material, welding can be reliably performed with a gap in the width direction, and a strong connection can be easily performed.

Further, in this case, when the rail members 3A and 3B are connected via the connecting member 6, the three outer surfaces of the groove bottom piece portions 3a, the first groove side piece 3b, and the second groove side piece 3c are connected. Since it is welded, it is possible to sufficiently cope with the bending stress in the front-back and left-right directions, and the strength can be increased. The strength is often inferior when the first groove side piece 3b is connected to each other and one of the second groove side piece 3c is connected, but when the required strength is sufficient for welding at one place. Can, of course, be adopted. In the case of welding at two or more places, in most cases, the required strength can be secured and it can be adopted, but in order to secure high strength, it can be said that welding at the above three places is preferable.

Further, in the present embodiment, the second groove side piece 3c is formed in a stepped shape with the opening side groove side piece 3d having a narrow groove width and the groove bottom side groove side piece 3e having a wide groove width. As the connecting member 6 provided to connect the second groove side piece 3c to each other, the opening side connecting member 6d to connect the opening side groove side piece 3d to each other and the groove bottom side groove side piece 3f to each other. Since the groove bottom side connecting member 6e is provided, the strength can be further improved. However, such a stepped second groove side piece 3c is connected via the connecting member 6. Of course, one of the opening-side groove-side piece 3d and the groove-bottom-side groove-side piece 3e may be connected by welding via the connecting member 6.

Further, the guide rail 3 is lifted in a sideways posture when being transported, and when the guide rail 3 is lifted upright when being built at the site, the lifting means is locked to the locking metal fitting 15 and lifted. However, in such a case, when a large stress acts on the central portion in the length direction of the guide rail 3, and the central portion is the connecting portion C between the rail members 3A and 3B, the guide rail 3 is said to be the same. Stress is concentrated on the connecting portion C, which is disadvantageous in terms of strength.
Therefore, in order to avoid such a situation, it is preferable that the connecting portion C is vertically displaced so as not to be located at the central portion, and in this case, a pair of upper and lower rail members 3A and 3B are connected. In this case, it can be said that it is preferable that the connecting portion C is arranged above the central portion because it works advantageously in terms of strength.
Further, when the guide rail 3 is formed by connecting the three rail members 3A, 3B, and 3C, if the lengths are the same, it can be said that the connecting portion C is not located at the central portion and is preferable. When the values are different, it is preferable that the one on the middle side (center side) is the longest from the viewpoint of strength.

Further, in the present embodiment, the guide rail 3 is provided with the first and second decorative plates 8 and 9. When the first and second decorative plates 8 and 9 can be provided with a long one corresponding to the length of the guide rail 3, the long one can be used as it is, but the long one is provided. If it is difficult to do so, the first and second decorative plates 8 and 9 may also be connected by dividing them into a plurality of pieces. In this case, the connecting portion D may be connected to the connecting portion C between the rail members. It can be said that it is preferable to shift the position from the viewpoint of appearance.

As described above, the long long guide rail 3 is formed by welding the rail members 3A and 3B to the connecting member 6, and the welded Z is such that the rail members 3A and 3B are linear. Therefore, in this case, adjacent rail members 3A and 3B are placed on the pedestal 21 at the end edge portions 3Aa of the rail members 3A and 3B, as described above. The first groove side piece in a state of facing the pedestal 21 of the rail members 3A and 3B and being hidden after the contact member 21a is applied to the rail members 3A and 3B in a linear positioning posture with the Bas facing each other. Welding was performed with the connecting members 6 (6a, 6d, 6e) applied between the outer surfaces 3ay, 3dy, and 3fy excluding the outer surface 3by of the portion 3b, and then partially welded. The rail members 3A and 3B are rotated so that the outer surface 3by of the first groove side piece 3b facing the pedestal 21 is exposed, and the connecting member is connected to the exposed outer surface by. By applying 6 (6b) and welding Z, the rail members 3A and 3B are connected in a series to form a long guide rail 3.
In this way, the long guide rail 3 can be formed in a linear and strong state by connecting the adjacent rail members 3A and 3B in a series by welding the connecting member 6 to each other. Workability is improved because it can be done easily.

It goes without saying that the present invention is not limited to that of the embodiment, and the guide rail 3 can be implemented even if the guide rail 3 is provided with a smoke-proof sealing material 23. .. This will be described as the second embodiment shown in FIG. 15, but in the guide rail 3 in this case, the second groove side piece portion 3c narrows the groove width as in the first embodiment. The one without the opening side groove side piece 3d and corresponding to the groove back side groove side piece 3e is extended as it is toward the groove opening side, and the tip edge portion 3k thereof is the first groove side piece. The sealing material 23 is provided on the support bracket 24 which is fixed to the tip edge portion 3k in a state of being integrated with the second decorative plate 9 so as to reach the intermediate portion which does not reach the tip edge portion 3r of the portion 3b. It has become a thing. In this case, a locking piece portion 3m for locking the windproof hook 2b is formed at an intermediate portion in the left-right direction of the second groove side piece portion 3c.
In this case, as described above, the adjacent rail members are connected to each other in a series via the connecting member 6, but for the second groove side piece 3c, the connecting member 6f is connected to the outer surface 3cy of the second groove side piece 3c. Similarly, the long guide rails 3 are connected and formed in a series by providing them in a bridge shape and welding Z to the outer surface 3cy, and the present invention can be carried out in this way as well. ..

The present invention can be used as a building shutter device installed in an opening such as an entrance / exit of a building or the like.

1 Architectural shutter device 2 Shutter curtain 3 Guide rail 3a Groove bottom piece 3b First groove side piece 3c Second groove side piece 3d Opening side groove side piece 3A, 3B Rail member 6 Connecting material 6a Groove bottom side connecting material 6b 1st side connecting material 6d Opening side connecting material 6f Groove bottom side connecting material 8 1st decorative plate 9 2nd decorative plate C Connecting part X Guide groove Z Welding

Claims (8)

It is configured to include a shutter curtain that partitions an opening such as an entrance / exit of the skeleton back and forth, and a guide rail that is provided on both the left and right sides of the opening and has a guide groove formed by fitting the shutter curtain inward to guide ascending and descending. In the building shutter device
In forming the guide rail into a long shape by connecting the end edges of the rail members adjacent to each other in a series.
Each of the rail members is a mold material integrally formed by extrusion-molding a steel material, and is the first of both front and rear sides extending inward in the left-right direction from the groove bottom piece portion on the outer side in the left-right direction and the groove bottom piece portion in the left-right direction. , A concave groove-shaped guide groove with an opening on the inside in the left-right direction is formed by the second groove side piece.
The adjacent rail members are connected to each other by welding a connecting member provided in a bridge shape between the outer surfaces of the end edges of the rail members to the outer surfaces. Guide rail connection structure in the device. The guide in the architectural shutter device according to claim 1, wherein the edge portions of the rail members are connected to each other via a connecting member in a state where at least a part of the end faces facing each other is separated from each other. Rail connection structure. The guide rail connecting structure in the architectural shutter device according to claim 1 or 2, wherein the connecting material is a flat plate material. Claims 1 to 3 are characterized in that the connecting material is welded to the outer surfaces of at least two pieces of the groove bottom pieces, the first groove side pieces, and the second groove side pieces. The connecting structure of the guide rail in the architectural shutter device according to any one of. The guide groove has a narrow groove width on the opening side and a wide groove bottom because the back half of the groove on the first groove side is located outside the opening side half in the front-rear direction. It is provided with a gutter side piece, and when the connecting material is provided on the first groove side piece, the connecting material is at least one side piece of the opening side groove side piece and the groove bottom side groove side piece. The connecting structure of a guide rail in the building shutter device according to any one of claims 1 to 4, wherein the guide rail is welded to the outer peripheral surface of the portion. The architectural shutter device according to any one of claims 1 to 5, wherein the connecting position of the rail members is deviated to either one in the vertical direction with respect to the central position in the length direction of the guide rail. Guide rail connection structure. The guide rail has a surface portion that is visible from the outside of the first and second groove side pieces, and a groove inner surface portion at least on the opening side of the guide groove, which is covered with a decorative plate. The architectural shutter according to any one of claims 1 to 6, wherein when a plurality of rail members are connected vertically, they are connected at a position deviated in the vertical direction from the connecting portion of the rail members. Guide rail connection structure in the device. It is configured to include a shutter curtain that partitions an opening such as an entrance / exit of the skeleton back and forth, and a guide rail that is provided on both the left and right sides of the opening and has a guide groove formed by fitting the shutter curtain inward to guide ascending and descending. In the building shutter device
Each of the rail members is a mold material integrally formed by extrusion molding a steel material, and has a groove bottom piece on the outer side in the left-right direction and the first on both front and rear sides extending inward in the left-right direction from the groove bottom piece. A concave groove-shaped guide groove is formed in which the inside in the left-right direction is opened by the second groove side piece.
A connecting member provided with the guide rails bridged between the groove bottom pieces of the rail members adjacent to each other, the first groove side pieces, and the outer edges of the second groove side pieces. , A connecting method for connecting rail members to each other to form a long shape by welding to each outer surface, and the connecting method is
A process of placing adjacent rail members on a pedestal in a positioning posture in which the end edges of the rail members face each other and the rail members are in a straight line.
A step of applying and welding a connecting material between the outer surfaces excluding the outer surface facing the pedestal of the mounted rail member.
A step of rotating the welded rail member so that the outer surface facing the pedestal is exposed.
A step of applying a connecting member to the exposed outer surface and welding.
A method of connecting guide rails in a building shutter device, characterized in that

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