JP2019116835A - Lintel of heavy shutter device of building, and fitting method for lintel - Google Patents

Abstract

To eliminate a need on welding work for a heavy shutter device 1 of a building by screwing and fixing inner and outer lintels 19, 20 while allowing positional adjustment in vertical and front-rear directions, the lintels being provided at a swallow port on a ceiling for a shutter curtain 6k.SOLUTION: Highly accurate fitting of lintels is made possible without welding work, by screwing and fixing an upper lintel material 22 that supports inner and outer lintels and a fixture 19f for the outer lintel using a drill screw and allowing positional adjustment in a vertical direction, and screwing and fixing the outer lintel 19 and a lower lintel material 21 that functions as the inner lintel using a drill screw and allowing positional adjustment in a front-rear direction.SELECTED DRAWING: Figure 27

Description

  BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to the technical field of a mounting method of Magsa and Magsa in an architectural weight shutter device installed at an entrance of a building such as a building.

Today, heavy shutters for buildings are sometimes built at openings such as entrances and exits of buildings, but such heavy shutters are generally provided on the ceiling side with a winding drum on which a shutter curtain is wound. It is rotatably supported on the left and right bearing plates (brackets), and the opening is opened and closed by the lifting operation guided by the guide rails of the shutter curtain accompanying the forward and reverse rotation of the winding drum.
The shutter curtain moves in and out through the magusa space between the inner and outer magmas provided between the left and right bearing plates to open and close the opening (see, for example, Patent Document 1).

JP, 2012-211491, A

  However, in the thing of the said patent document 1, although inside and outside Magas are generally fixed by welding to the housing side and a left-right bearing plate by welding, welding work in the high place will be forced in the field In addition to poor workability, for example, in sites where walls, floors, ceilings, etc. have already been completed, or in existing sites, etc., there are places that dislike the occurrence of fire powder or flame (torch) during welding. In the field, there is a problem that the work of covering the surroundings is forced to prevent fire powder and the like from being applied. Furthermore, when there is no commercial power source for welding, there is a problem that the power source must be secured by preparing a generator, etc., and the problem to be solved by the present invention is here.

The present invention has been made to solve these problems in view of the circumstances as described above, and the invention of claim 1 relates to a left and right bearing plate attached to the left and right of a housing opening such as an entrance. The shutter curtain rotatably supports the winding drum on which the shutter curtain is wound, and as the winding drum rotates forward and reverse, the shutter curtain is vertically guided to the guide rail to open and close the opening. In the heavy duty shutter device for construction, in providing the magus at the extended portion of the shutter curtain, the magsa is screwed in an adjustable manner in the longitudinal direction to a mounting bracket screwed in an adjustable manner with respect to the magus support member. It is a maga in an architectural weight shutter device characterized by being fixed.
The invention according to claim 2 is that the magsa is the outer magsa, the magsa support member is the cross rail supported on the housing side, and the mounting bracket is the outer maga mounting bracket screwed in an adjustable manner in the vertical direction to the cross rail. 2. The architectural magnifier according to claim 1, wherein said outer maga is screwed to said outer magsa mounting bracket so as to adjust its position in the front-rear direction.
The invention according to claim 3 is that in the building weight shutter device according to claim 2, wherein the outer maga is reinforced by a reinforcing fitting screwed between the magsa fitting and the cross rail. is there.
According to the invention of claim 4, the magsa is an inner magsa, and the magsa support member is a magma receiving member screwed to the left and right bearing plates supported on the housing side to rotatably support the winding drum. The mounting bracket is a magsa upper member screw-fixed to the magsa receiving member so as to adjust the position in the vertical direction, and the inner magna is a maga lower member screw-fixed to the magsa upper member so as to be adjustable in the longitudinal direction. It is a maga in the weight shutter device for buildings according to claim 1 characterized by things.
The invention of claim 5 is characterized in that the position adjustment is performed by an elongated hole long in the adjustment direction at the screw fixing portion, and the shift prevention after the position adjustment is performed by at least one round hole at the screw fixing portion. A magma according to any one of claims 1 to 4, characterized in that it is a building weight shutter device.
According to the invention of claim 6, the winding drum on which the shutter curtain is wound is rotatably supported by left and right bearing plates attached to the left and right of the opening such as the entrance and the like, and the winding drum rotates forward and reverse. In the heavy duty shutter apparatus for an architecture, the shutter curtain is guided up and down to the guide rail according to the opening and closing of the opening, in order to provide the magus at the extension portion of the shutter curtain, the magus is relative to the magus support member A mounting method of a magus in an architectural weight shutter device comprising the steps of: screwing a mounting bracket in a vertically adjustable position, and screwing the mounting bracket in a longitudinally adjustable manner. is there.

According to the invention of claim 1 or 6, the magus is screw-fixed to the mounting bracket which is screwed to the magsa support member so that the position can be adjusted in the vertical direction. Since the mounting and fixing by welding becomes unnecessary and the position adjustment in the vertical direction of the magus and the position adjustment in the longitudinal direction can be performed separately, the mounting accuracy is also improved.
According to the second aspect of the present invention, the provision of the outer magnet is achieved by screw fixing, and the welding operation becomes unnecessary.
According to the third aspect of the present invention, it is possible to reinforce the outer magas while the outer magas are fixed to the screws.
By setting it as invention of Claim 4, it becomes possible to provide inner magus by screw fixation and welding operation becomes unnecessary.
According to the invention of claim 5, when adjusting the position in the vertical direction or the front-back direction, at the time of screw fixing, the position can be adjusted by the elongated hole, but at least one is not the elongated hole. Since the holes are round, it is possible to prevent the occurrence of positional deviation by screwing using the round holes after position adjustment.

It is a partially cutaway front view of the weight shutter device for buildings. It is side surface sectional drawing of the weight shutter apparatus for buildings. It is a top view of the weight shutter device for buildings. It is a longitudinal cross-section side view of a ceiling fitting part. It is a front view of a mounting base site | part. It is an enlarged plan view of a mounting base site | part. (A), (B) is a front view of a bearing mounting plate, and a side view. (A), (B) is a front view of a bearing fixing bracket, and a top view. (A) and (B) are a front view and a side view of a spacer for adjustment of a bearing fall. It is a side view of a driven side bearing plate. (A), (B), (C) is a front view, a top view, and a bottom view of a driven side bearing plate. It is a side view of the drive side bearing plate. (A), (B) is a longitudinal cross-sectional view of a drive side bearing plate, and is a side view of a joint boss part. It is an enlarged plan view of the upper end part of a follower side bearing plate. It is an enlarged front view of the attachment site of a driven side bearing plate. It is an expansion longitudinal cross-section side view of an outer side magnet attachment part. (A), (B), (C) is a front view, a side view, and a bottom view of an outer magus. (A), (B) is a front view and a side view of an outer maga attachment bracket. (A), (B), (C) is a side view, a front view, and a bottom view of an outer-magsa reinforcement metal fitting. It is a principal part expansion longitudinal cross-section side view of the outside maga attachment site | part which shows 2nd embodiment. It is an expansion longitudinal cross-section side view of an inside maga attachment part. (A), (B) is a side view showing an assembled state (factory shipment state) of the inner magsa, and a side view of the inner magsa receiving member. (A) and (B) are the top view and front view which show the assembled state of the internal magusa which removed the smoother. (A) and (B) are the top view and the front view of the state which removed the smoother of the inner magusa receptacle material. (A), (B), and (C) are a side view, a front view, and a bottom view of the inner lower member of the magsa. (A), (B), (C) is a side view, a top view, and a front view of the inner magna upper material. It is an enlarged longitudinal cross-section side view which shows the upper end part of the guide rail integrated in the magusa space. It is a horizontal sectional view which shows the state in which the guide rail was integrated. (A), (B), (C) is a front view, a side view, and an exploded plan view of a guide rail. It is a front view which shows the state by which the upper end part of the guide rail was integrated in Magusa. It is a horizontal sectional view which shows the state in which the guide rail of 2nd embodiment was integrated. (A), (B) is the front view and the side view which show the state in which the guide rail of 2nd embodiment was integrated. (A), (B), (C) is the side view of one side of the guide rail of 2nd embodiment, the other side view, an exploded plan view. (A) and (B) are a side view and a front view of a hanging angle. It is an expansion longitudinal section side view of a circle case upper end part.

  Hereinafter, embodiments of the present invention will be described based on the drawings. In the drawings, 1 is a weight shutter device for building which is built in an opening such as an entrance of a building, and the weight shutter device 1 is provided on the upper side (ceiling back) of a ceiling plate 2 of the opening. Brackets 3 and 4, a winding drum 5 rotatably provided on the left and right brackets 3 and 4, a shutter curtain 6 wound on the winding drum 5, and a shutter curtain 6 by rotating the winding drum 5 forward and reverse It is configured using various member devices such as an opening / closing device 7 that opens and closes, and guide rails 8 provided on the left and right of the opening to guide opening and closing of the shutter curtain 6 that opens and closes. As it is (refer to FIG. 1).

  9 is a vertical crosspiece (vertical pillar) provided from the lower end surface of the slab S to the upper surface of the foundation surface (a part hardened with concrete at a position deeper than the floor surface) G in a state of being positioned at both left and right sides of the opening The vertical crosspiece 9 is a pair of C-shaped steels long in the vertical direction, with the straddle portions 9a abutting against each other in a back-to-back manner (or previously integrated by welding in a factory). Left and right sides are opened, and the L-shaped first fixing tool 10 is fixed to the slab S whose one side 10a is the rod side and the base surface G via the anchor bolt 10b, The left and right pair of other pieces 10c of the other fixing piece are set in a state in which the straddle portion 9a is sandwiched from both the left and right sides of the vertical rail 9 and bolt passing through the other piece 10c and the straddle portion 9a -Fixedly supported by the nut 10d (see FIGS. 5 and 6) .

  Reference numeral 11 denotes an upper horizontal bar (horizontal column), and the upper horizontal bar 11 abuts a pair of C-shaped steel straddle portions 11a in a back-and-forth back-to-back manner, with the upper and lower sides open. The L-shaped second fixture 11b, which is disposed, is pre-welded to the vertical beam straddle 9a in the factory in a state where the one piece 11c is inserted from the inner opening of the vertical beam 9 (site The other piece 11e may be inserted from the lower opening of the upper cross bar 11 and applied to the upper cross bar straddle portion 11a, and the lower opening of the upper cross bar 11 may be fixed. Is fixed to the upper horizontal crosspiece 11a via the bolt-nut 11f inserted from the upper part, whereby the upper horizontal cross 11 is fixedly supported to the left and right vertical crosspieces 9 (FIGS. 5, 6, 14, 15) reference).

12 is a lower cross rail, and the lower cross rail 12 is made of one C-shaped steel, is disposed between the left and right vertical cross bars 9 in the state where the upper side is open, and is an L-shaped third fixture One piece 12b of 12a is inserted from the left and right direction inner opening of the vertical rail 9 and welded in advance to the vertical rail straddle 9a at the factory (it may be fixed with a bolt and a nut at the site). The lower horizontal crosspiece 12 is fixedly supported on the left and right vertical crosspieces 9 (see FIG. 5). The lower horizontal crosspiece 12 is fixed from the lower side via the bolt-nut 12f.
In the present embodiment, the left and right vertical bars 9 and the upper horizontal bars 11 are configured using a pair of C-shaped steels, and the lower horizontal bars 12 are configured using one C-shaped steel. Is to provide the necessary strength, and is not particularly limited to these numbers.

  A reinforcing vertical bar 13 is disposed between the upper and lower horizontal bars 11 and 12 with a plurality of C-shaped steels spaced apart from each other in the left-right direction, but an L-shaped fourth fixing tool 13a One piece 13b is welded in advance to the straddle portions 11a and 12e of the upper and lower horizontal bars 11 and 12 in the factory (fixed by bolts and nuts may be used), the other piece 13c is applied to the straddle portion 13d of the reinforcing vertical bar 13 -By fixing with the nut 13f, the reinforcing vertical bar 13 is fixedly supported on the upper and lower horizontal bars 11 and 12 so as to be reinforced (see FIGS. 5 and 6).

Reference numeral 14 denotes a bearing mounting plate, and the bearing mounting plate 14 is made of a flat steel material whose plate surface is directed vertically and horizontally, and the left and right direction outer edge is positioned at the left and right direction outer edge of the left and right vertical rail 9 The upper end edge is located above the straddle 11a position of the upper horizontal beam 11, the lower edge is located at the lower end edge position of the lower horizontal beam 12, and the inner lateral edge is the upper and lower horizontal beams 11, 12 The leg members 9b, 9c, 11g and 12g of the vertical rail 9 and the upper and lower horizontal rails 11 and 12 are in contact with the leg members 9b, 9c, 11g and 12g inward in the lateral direction with respect to the outer edge of the lateral direction. The bearing mounting plate 14 is temporarily fixed by fixing to 11g and 12g via the drill screw 14b, and then fixed to the leg piece 9b on the outer side in the left and right direction of the vertical crosspiece 9 through the bolt and nut 14a. It is supposed to In this case, the bolt of the bolt-nut 14a is inserted from the opening side (the lateral direction outer side) of the vertical crosspiece 9, and the flat washer 14d, the spring washer 14e and the nut are assembled in this order in the screw part penetrating the bearing mounting plate 14 It is designed to be tightened (other bolt-nuts are also tightened in this configuration) (see FIGS. 5, 6, 7, 14, 15).
The bearing mounting plate 14 is provided with a hole 14f for the drill screw 14b and a hole 14g for the bolt and nut 14a.

The bearing mounting plate 14 is provided with a mounting hole 14c for mounting the bearing fixing bracket 15 at a portion corresponding to the left and right direction inner leg piece 9c of the vertical rail 9, but as described above, the bearing mounting plate 14 is fixed to the vertical rail 9 and the upper and lower horizontal rails 11, 12, then a hole (lower hole) 9d is drilled from the mounting hole 14c to the left and right direction inner leg pieces 9c of the vertical rail 9 using a drill (not shown) Do. After that, apply one piece 15a of the bearing fixing bracket 15 which is L-shaped in which the other piece 15f is screwed to the bearing plate 16, 17 with the bolt and nut 15g in advance against the bearing mounting plate 14, and use the bolt and nut 15b. The bearing fixing bracket 15, the bearing fixing plate 14, and the vertical rail left and right direction inner leg 9c are fastened together and fixed. In this case, the bolt of the bolt-nut 15b is inserted from the inner opening of the vertical crosspiece 9 and the flat washer 15c, the spring washer 15d, and the nut are inserted in that order into the screw part penetrating the bearing fixing bracket 15 and fixed together. (See Figures 4, 5, 6, 7, 14).
Incidentally, reference numeral 15e is a spacer for adjusting the bearing attitude, and the spacer 15e is between the bearing mounting plate 14 and the horizontal beam lateral leg 9b so that the bearing plates 16, 17 described later will be vertical. In this case, the bearing plate is selected by selecting the four mounting positions of the spacer 15e and selecting the number of mountings. The bearing plates 16 and 17 can be adjusted to the vertical posture by adjusting the postures of the vertical movement 16 and 17 (falling posture) and the vertical posture of the left and right end portions (FIGS. 5 and 9). , 15).

Reference numeral 16 denotes a driven side bearing plate constituting the left side bracket 3 in the drawing, and the driven side bearing plate 16 is configured using a substantially square rectangular flat steel plate, but the upper and lower end edges are The upper piece 16a and the lower piece 16b are formed by bending outward in the left-right direction, and a bearing metal 16c is fixed to a central portion via a bolt 16d. The other piece 15f of the bearing fixing bracket 15 is fixed in advance by a bolt-nut 15g on the inner surface in the left-right direction of the rear end edge portion of the driven side bearing plate 16 in the front-rear direction. Incidentally, this fixation may be previously welded at a factory.
The driven bearing plate 16 has one end 15a of the bearing fixing bracket 15 applied to the inner side surface of the bearing mounting plate 14 in the left-right direction, and fixed together on the bearing mounting plate 14 using the bolt and nut 15b as described above. By doing this, the driven side bearing plate 16 can be attached and fixed (see FIGS. 4 to 6, 10, 11).
The driven side bearing plate 16 is provided with an assembly groove 16f for assembling and moving the support shaft 5a of the winding drum 5.

Reference numeral 17 denotes a drive side bearing plate that constitutes the right side bracket 4 in the drawing, and the drive side bearing plate 17 is configured using a rectangular flat steel plate that is long in the front-rear direction. The upper piece 17a and the lower piece 17b are formed by bending outward in the direction, but a double plate with a space to which the auxiliary plate 17c is attached is provided on the rear half of the upper and lower pieces 17a and 17b in the front-rear direction The driven sprocket 17d is rotatably supported in this space via bearings 17e and 17f.
The open / close device 7 is attached to the front half portion of the drive side bearing plate 17 in the front-rear direction, and the drive sprocket 7a of the open / close device 7 and the driven sprocket 17d are interlocked and linked via a drive chain 7b.
And, similarly to the driven side bearing plate 16, the other piece 15f of the bearing fixing bracket 15 is also fixed in advance by the bolt-nut 15g to the drive side bearing plate 17, and one piece 15a of the bearing fixing bracket 15 is attached by bearing The drive-side bearing plate 17 can be attached and fixed by co-clamping and fixing it to the bearing mounting plate 14 side using the bolt-nut 15b as described above, by applying to the inner side surface in the left-right direction of the plate 14 See Figures 4-6, 12, 13).
By the way, between the bearing plate upper pieces 16a, 17a and the leg piece 11g of the upper cross rail 11, a swinging stopper 18 for swinging the both bearing plates 16, 17 in the lateral direction is provided in an inclined manner. However, the front end of the anti-vibration tool 18 is fixed to the bearing plate upper pieces 16a and 17a by the bolt and nut 18a, and the L-shaped metal fitting 18c fixed to the rear end through the bolt and nut 18b is the upper cross rail It is fixed to the 11 leg pieces 11g via a drill screw 18d (see FIGS. 3, 4 and 35).

When the dual bearing plates 16 and 17 are attached to the bearing mounting plate 14 in this manner, the winding drum 5 is to be mounted. For this purpose, the winding drum 5 is removed from the bearing metal 16 c removed from the driven side bearing plate 16. The flange 5e provided at the other end of the winding drum 5 is externally fitted to the joint boss 5b while passing through the one end of the support shaft 5a, and in this state, the support shaft 5a is on the center side And the bearing metal 16c is fixed to the driven side bearing plate 16 through the bolt 16d, whereby the winding drum 5 is assembled.
After the take-up drum 5 is assembled in this manner, the shutter curtain 6 is suspended. In this case, the take-up drum 5 is provided with a suspension fitting (not shown) provided at the uppermost end of the shutter curtain 6. After the assembly and fixation, of the plurality of slats 6a connected and incorporated in advance in the hanging bracket, the uppermost end slat 6a of the plurality of slats 6a connected in a plurality is slidingly moved in the left-right direction After being connected in a state, it is repeatedly connected to the lowermost end slat 6a of the connected slats 6a in a state where the uppermost end slat 6a of the plurality of connected slats 6a is slid in the left-right direction, Finally, by connecting the lowermost seat plate slat 6b, the shutter curtain 6 can be hung and then the shutter curtain Although will be wound to the winding drum 5, embedded operations such shutter curtain 6 in weight shutter device because it has been done in general, will be omitted further description.

Next, an outer (outdoor side) magna 19 is to be attached. The outer magna 19 is formed with a U-shaped cross support 19a whose upper end is opened in the front-rear direction and the cross support 19a is formed. By pressing the support plate 19c against the lower piece of the cross support portion 19a by means of a screw 19b screwed from the upper side, the lint cross (glass cloth) 19d is held. A support piece 19e extending outward in the front-rear direction is provided at the vertical middle portion of the outer magna 19, and the support piece 19e is brought into contact with the lower piece 19g of the L-shaped outer magma attachment bracket 19f. The drill screw 19h is fixed in a state in which the position in the front-rear direction is adjusted (a state in which the dimension from the shutter core X to the outer side of the magmas interior side 19o can be taken). The upper half 19i of the outer-magsa attachment bracket 19f abuts on the lower cross-piece leg 12g and is fixed to the lower cross-piece 12 by the drill screw 19j, but is formed on the upper half 19i Among the plurality of screw holes, the screw hole 19 l long in the vertical direction except for the screw hole 19 k of at least one round hole. Then, when fixing the outer magna 19 to the lower crosspiece 12 via the outer magna mounting bracket 19f, the long screw hole 19l is used to adjust the position of the outer magna 19 in the vertical direction and fixed by the drill screw 19j. Finally, by fixing the screw hole 19k of the round hole with the drill screw 19j, it is considered that positional deviation of the outer magna 19 does not occur in the vertical direction.
Further, the outer maga 19 is reinforced by a reinforcing fitting 19m. The reinforcement bracket 19m is fixed to the lower cross section of the lower cross beam straddle portion 12e and the lower half of the outer massa mounting bracket 19f via a drill screw 19n, thereby reinforcing the outer massa 19.
The indoor side surface 19o of the outer magma 19 faces the lower piece 23e of the maga lower member 23 described later to form a magsa space M. Further, the outer side of the outer side of the mages bottom 19p is bent from the lower end of the outer side 19a to form the outer side bottom 19p, and the outdoor side 19q is formed upwardly from the outer side end of the outer side bottom 19p. The ceiling plate 2 is supported in a state of riding on the upper end of the outer side piece 19 q (see FIGS. 4 and 16 to 19).

  Incidentally, as shown in FIG. 20, the outer maga 19 can be made as in the second embodiment. In this case, the outdoor side piece 19q is high up to the lower surface position of the lower piece 19g, and the contact piece 19r bent from the upper end of the outdoor side piece 19q toward the outdoor side is from the lower side of the lower piece 19g. It is made to contact | abut and it fixes with the drill screw 19s, and it can implement also in this way. Positioning in the front-rear direction of the outer magna 19 in this case can be performed by moving the contact piece 19 r back and forth.

  Reference numeral 20 denotes an inner (indoor side) magsa, and the inner magsa 20 is composed of a magsa receiving member 21, a magsa upper member 22 and a magsa lower member 23, but the magsa receiving member 21 has a rectangular shape The rectangular tubular member 21a long in the direction, the smoother 21c fixed integrally to the outdoor side surface 21b of the rectangular tubular member 21a, and the indoor side surface 21d of the rectangular tubular member 21a are fixed from the vertical middle position to the indoor side On the case stopper 21e extending and the piece piece 21g for reinforcement which is fixed to the upper surface 21f of the rectangular cylinder 21a and extends upward in a state flush with the indoor side surface 21d and the lower surface 21h of the rectangular cylinder 21a Although it is fixed and includes a maga attachment 21i extending downward in a state flush with the side surface 21b of the rectangular cylindrical member and a closing plate 21j that closes both ends of the rectangular cylindrical member 21a, The upper surface 21 f of the cylindrical member is the driven side, Magus attachment members 16g, 17g fixed so as to project on the opposite side (inward in the left-right direction) with the lower pieces 16b, 17b of the dynamic bearing plates 16, 17 and the lower pieces 16b, 17b from below. Although it is fixed to these bearing plates 16 and 17 by bolts and nuts 21n which are attached through the rectangular cylindrical member 21a and the magsa mounting member 21i from the mounting materials 16g and 17g side (see FIGS. 4 and 21 to 25) The bolt holes 16h and 17h provided in the magsa attachment members 16g and 17g are long holes, so that the lateral position adjustment of the magsa receiving member 21 can be performed (see FIGS. 21 to 25).

In addition, although the upper member 22 of L-shaped is constituted by the upper material main body 22a and the reinforcement piece 22d fixed so as to extend between the upper piece 22b and the lower piece 22c of the upper material main body 22a, the reinforcement piece 22d is The upper piece 22b is extended upward, and a reinforcement piece piece 22e for reinforcing and fixing the magus receiver reinforcement piece material 21g is provided at the upper end portion of the upper piece 22b.
Then, the upper part 22b is fixed to the mounting part 21i by using the drill screw 22f in a state where the upper piece 22b is in contact with the outer side surface 21b of the rectangular cylinder and the mounting part 21i from the outdoor side. In this case, a plurality of screw holes for the drill screw 22f are formed in the magsa attachment 21i, one of which is a round screw hole 21k and the other is a vertically long screw hole 21l. It has become. Then, after adjusting the position of the upper member 22 in the vertical direction with the long hole screw hole 21l and fixing it with the drill screw 22f, the screw hole 21k of the round hole is fixed by the drill screw 22f, It is designed to regulate positional deviation in the direction.
As described above, after fixing the magus material 22 to the magus receiving member 21, the reinforcing piece 21g and the reinforcing piece 22e are further fixed by the drill screw 22g (FIG. 4, FIG. 21, 26).

Furthermore, although the lower magsa member 23 has an inverted L-shape, the upper piece 23a of the lower maga member 23 is abutted from the lower side to the lower upper maga member 22c and is fixed using a drill screw 23b. However, among the plurality of screw holes drilled in the upper piece 23, one is a round screw hole 23c, and the remaining is a long long screw hole 23d which is long in the front-rear direction. Then, when the lower maga material 23 is attached to the upper magsa material 22, the position of the lower maga material 23 in the longitudinal direction is adjusted by the long screw holes 23 d (dimensions from the shutter core X to the lower material lower piece 23 e After fixing by the drill screw 23b, the screw hole 23c of the round hole is fixed by the drill screw 23b to thereby control the positional deviation of the lower maga material 23 in the front-rear direction. By doing this, as described above, the lower piece 23e of the lower maga material 23 faces the indoor side surface 19o of the outer maga 19 to form the magusa space M (FIG. 4, 21, 25) reference).
A bottom piece 23f is formed from the lower end of the lower piece 23e toward the indoor side, and an indoor side piece 23g is formed upward from the indoor side end of the bottom piece 23f. A ceiling is provided to the indoor side piece 23g. The board 2 is provided so as to ride on it so that the ceiling board 2 can be supported.

  A round case 24 covers the shutter curtain 6 wound around the winding drum 5, and the upper end portion 24a bent in an L shape has an upper cross bar 11 via a drill screw 24b. The lower end 24d is fixed to the side surface 21d of the rectangular cylinder through the drill screw 24e. However, since the round case 24 is long in the lateral direction, the elastic force is small. Therefore, it is considered that the lower end 24d is locked to the case receiving member 21e and temporarily held, and from this state, the lower end 24d is screw-fixed to the side surface 21d of the rectangular cylinder interior (FIGS. See 35).

  25 is a hanging angle, and the hanging angle 25 is disposed so as to surround the outer side of the round case 24 to reinforce and fix the inner magna 20 to the upper horizontal crosspiece 11 and has a U-shape. The lower leg 25a is fixed via a drill screw 25b to a hanging angle attaching member 21m in which the lower leg 25a is fixed to the corner between the rectangular cylinder indoor side 21d and the case stopper 21e, and the upper leg 25c is attached to the rear end A mounting fitting 25d which is long in the left-right direction is provided, and the mounting fitting 25d is fixed to the upper horizontal crosspiece 11 via a drill screw 25e (see FIGS. 4, 21 and 35).

  Further, the guide rail 8 is set to be wider than the outer side of the mages outdoor side piece 19q and the lower side of the magsa lower member indoor side piece 23g, but the guide rail 8 is a rail in which the guide groove 8a is formed. Although it is configured using a main body 8b, a fixing metal fitting 8c for fixing the rail main body 8b to the inner side leg 9c of the vertical rail in the lateral direction, and an L-shaped connecting piece 8k, The metal fitting 8c is made of a J-shaped steel material provided with left and right long and short pieces 8d and 8e and a straddle portion 8f connecting the long and short leg pieces 8d and 8e. Further, the rail body 8b is formed by bending front and rear looking surfaces 8g and 8h extending in the front and rear direction from the opening end of the guide groove 8a and a front side looking surface 8g and bent forward and leftward from the front and rear direction front and rear The front connection piece 8i which is bent backward in the direction and further bent outward in the left and right direction, and the one bent in the left and right direction from the rear end in the front and rear direction of the rear side look surface 8h It is comprised by the back side connection piece 8j bent toward the direction back. In the present embodiment, the rail main body 8b is integrated by welding three bent plate members as illustrated (see FIG. 29).

  Here, the upper end portion of the guide rail 8 is set so as to reach the smoother 21c attachment portion by inserting the magsa space M, and the front and rear pieces and the groove bottom piece of the guide groove upper portion are expanded to form the curtain guide 8l. However, as described above, the guide rail 8 is set to be wider than the outer side of the magas outdoor side piece 19q and the lower side of the magsa lower material indoor side piece 23g. , No. 8 m in which the portion that interferes with the outer magsa bottom piece 19 p and the outdoor side piece 19 q is notched, and interferes with the lower piece 23 e, the bottom piece 23 f, and the indoor side piece 23 g A portion is cut away, and a second cutaway portion 8n is formed up to the position where the indoor side upper end abuts on the upper piece 23a of the inner magusa 20 (the one drawn by a thick line in FIG. 27 is a guide rail That). By doing so, when the guide rail 8 is assembled, the outer magna 19 fits into the first notch 8m, and the inner magusa 20 fits into the second notch 8n. Even if the guide rails 8 and the inner and outer magmas 19 and 20 are not welded, the guide rails 8 can be used to maintain the strength of the inner and outer magmas 19 and 20 (see FIGS. 27 and 30).

  Next, the procedure for installing the guide rail 8 is as follows. First, the upper end of the fixing bracket 8c is inserted upward from the magus space M, and the straddle portion 8f is adjusted by the drill screw 8o while adjusting the left and right position of the fixing bracket 8c. It fixes to the vertical rail left-right direction inner side leg piece 9c. Next, in a state where one of the connection pieces 8k is temporarily fixed by the bolt 8p, the rail main body 8b is abutted between the short leg 8e and the rear connection piece 8j, the other of the front connection piece 8i and the connection piece 8k These are fixed with drill screws 8q and 8r in a state where they are in contact with the above. After that, loosen the bolt 8p, adjust the position of the guide groove 8a in the front-rear direction by the long hole 8s formed in the long leg 8d, and tighten the bolt 8p so that the guide rail 8 can be assembled. (See Figures 27-30).

  The guide rail 8 can also be as in the second embodiment shown in FIGS. In this case, the leg pieces 8t and 8u of the fixing metal fitting 8c have substantially the same length, and the rear connection piece 8j and the leg piece 8t of the rail main body 8b are the same as those of the first embodiment. Similarly, for the leg 8u, a fixing piece 8w bent backward from the tip of the front connection piece 8i is attached to the leg 8u and fixed by a drill screw 8x. (See FIGS. 31 to 33).

The guide rail 8 of the second embodiment is set so as to be wider on the side of the outer magna 19 and, therefore, when assembled on the upper end portion of the guide rail 8, the outer magna 19 is assembled. The first notch 8m to be inserted is formed. By doing this, the strength maintenance of the outer maga 19 can be achieved. In this case, there is no support by the guide rail 8 for the inner maga 20, and therefore, in the present embodiment, the inner maga 20 (lower maga material 23) is long in the left and right direction and abuts the guide rail 8 in the left and right direction , And fixed by screwing in the drill screw 8y from the inner maga 20 side (see FIG. 32).
By the way, as the guide rail 8, when it is desired to maintain only the strength of the inner magsa 20, the inner magsa 20 side is set wide oppositely to this, and the second notch 8n where the inner magusa 20 is inserted into the guide rail 8. May be formed.

  In the present embodiment, bolt-nut fixing and drill screw fixing are selected as screw fixing. However, the present invention is not limited to this, and can be appropriately selected as necessary, such as fixing with screws.

  In the present embodiment configured as described above, the weight shutter device 1 is provided on the left and right bearing plates (brackets 3, 4) 16, 17 provided on the ceiling side with the winding drum 5 on which the shutter curtain 6 is wound. The opening portion is opened and closed by the elevating operation guided rotatably by the guide rail 8 of the shutter curtain 6 accompanying the forward and reverse rotation of the winding drum 5. In this case, the shutter curtain 6 moves in and out through the magusa space M between the inner and outer magmas 20 and 19 provided between the left and right bearing plates 16 and 17 to open and close the opening.

In this case, with regard to the outer maga 19, the outer maga mounting bracket 19 f, which is an outer maga support member, is attached and fixed to the lower crosspiece 12 in the state of adjusting the upper and lower sides. On the other hand, the outer magna 19 can be adjusted in the front-rear direction so that the outer maga indoor side 19o, which is the outer magma surface, is at a predetermined distance from the shutter core X. 19h, even if the screw is fixed by 19h, high-precision mounting and fixing can be simplified and welding work can be made unnecessary.
Further, it is convenient that the outer magna 19 is reinforced by a reinforcing metal fitting 19m screwed to the outer magma mounting metal fitting 19f and the lower cross rail 12 by a drill screw 19n.

  Further, with regard to the inner maga 20, the magsa upper member 22 corresponding to the inner maga support member is attached and fixed in a vertically adjustable manner with respect to the maga receiving member 21 supported on the housing side via the bearing plates 16 and 17. As a result of the magma lower member 23 to be the inner magma 20 being attached and fixed to the magsa upper member 22 so as to be adjustable in the front-rear direction position, the vertical position of the inner magusa lower piece 23 f and the outdoor side surface of the inner magusa 20 It is possible to adjust the longitudinal position of the lower piece 23e with high accuracy, and furthermore, since these can be screwed by the drill screw 22f and the drill screw 23b, it is possible to carry out the simple and easy operation as in the welding operation. .

Moreover, in this case, when adjusting the position of the outer magna 19 in the vertical direction, adjusting the magusa upper member 22 of the inner magusa 20 in the vertical direction, and adjusting the magna lower member 23 in the front-rear direction, After adjusting the position in the vertical direction using the long screw hole 19l provided in the bracket 19f, screw fixation is performed by the drill screw 19j, and thereafter, screw fixation is performed to the round screw hole 19k using the drill screw 19j. After the screw is fixed, the external magnet mounting bracket 19f is not displaced by the long screw hole 19l.
With regard to the upper member 22 of the inner member 20, the vertical position is adjusted by the screw holes 21l of the long holes provided in the member 21 and then screwed with the drill screw 22f. Since the screw is fixed to the screw hole 21k via the drill screw 22f, although position adjustment is possible using the screw hole 21l of the long hole, there is no occurrence of positional deviation after screwing. .
Further, with regard to the lower maga material 23, after adjusting the position in the front-rear direction by the screw holes 23d of the long holes provided in the lower maga material 23, screw fixation is performed by the drill screw 23b, and then the screw holes 23c of the round holes are made. Since screw fixation is carried out via the drill screw 23b, although position adjustment is possible using the screw hole 23d of the long hole, displacement does not occur after screw fixation.

  INDUSTRIAL APPLICABILITY The present invention can be used for the mounting method of Magsa and Magsa in an architectural weight shutter device installed at the entrance of a building such as a building.

DESCRIPTION OF SYMBOLS 1 shutter device 5 take-up drum 6 shutter curtain 8 guide rail 19 outer magsa 19 f outer magsa mounting bracket 19 h drill screw 19 j drill screw 19 k round screw hole 19 l long screw hole 19 o indoor side 19 p Magsa upper material 22c lower piece 22f drill screw 23 magsa lower material 23b drill screw 23c round hole screw hole 23d long hole screw hole 23e lower piece 23f bottom piece

Claims (6)

A take-up drum on which a shutter curtain is wound is rotatably supported by left and right bearing plates attached to the left and right of a housing opening such as an entrance and the like, and the shutter curtain is guided as the take-up drum rotates forward and reverse. In the architectural weight shutter device in which the rail is guided up and down to open and close the opening, in order to provide the magna at the extended portion of the shutter curtain, the magma is adjustable in the vertical direction with respect to the magusa support member. A magma in a heavy duty shutter device for architecture, which is screw-fixed to a mounting bracket to be screw-fixed so as to adjust its position in the front-rear direction. The magsa is an outer maga, the magsa support member is a cross rail supported on the side of the housing, and the mounting bracket is an outer maga mounting bracket screw-fixed to the horizontal cross so that the vertical position adjustment is possible. 2. A magma according to claim 1, further comprising a screw fixed to said outer magna mounting bracket so as to adjust its position in the front-rear direction. 3. A magma according to claim 2, wherein said outer magna is reinforced by a reinforcing clasp fixed by screws between the magsa mounting clasp and the cross rail. The magsa is an inner magsa, and the magsa support member is a magsa receiving member screwed to the left and right bearing plates supported on the housing side so as to rotatably support the winding drum, and the mounting bracket is the magsa A magma upper member screw-fixed to the receiving member so as to be adjustable in the vertical direction position, and an inner magna is a magma lower member screw-fixed to the magsa upper member so as to be adjustable in the longitudinal direction. Magsa in the architectural weight shutter device according to 1. The position adjustment is performed by an elongated hole elongated in the adjustment direction at the screw fixing portion, and the shift prevention after position adjustment is performed by at least one round hole at the screw fixing portion. Magsa in the architectural weight shutter device according to any one. A take-up drum on which a shutter curtain is wound is rotatably supported by left and right bearing plates attached to the left and right of an opening such as an entrance and the like, and the shutter curtain is guided along with the forward and reverse rotation of the take-up drum. In the architectural weight shutter device in which the opening and closing portion is opened and closed by guiding the magnifier, the magma is mounted on the magusa support member so as to be adjustable in the vertical direction when the magma is provided at the extended portion of the shutter curtain. A method of mounting a maga in a construction weight shutter device, comprising the steps of: screwing a metal fitting; and screwing the metal fitting to the mounting metal in a freely adjustable manner in the longitudinal direction.

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