JP2011038355A - Baseboard for building scaffold - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a baseboard for a building scaffold, which has a function to block the clearance between a tread and the baseboard for a building scaffold. <P>SOLUTION: The baseboard 1 for a building scaffold includes: a baseboard body 4; a first hook 7 formed at one longitudinal end of the baseboard body 4; and a rocking plate 15 attached at the other end of the baseboard body 4. Two second hooks 23 corresponding to two first hooks 7 are formed in the rocking plate. Inside the baseboard body 4, a clearance plate 35 is supported so that it can turn its rotational shaft into an oblong hole of a support plate 36 arranged close to the lower position of the baseboard body 4. The clearance plate 35 can be positioned in a push-down position, wherein it is pushed down outward, and in a housing position, wherein it is overlaid to the baseboard body 4. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  [Technical Field] The present invention relates to a baseboard for a scaffold that is disposed at a foot position along an edge of a footboard of a building scaffold.

In general, building scaffolds temporarily set up at construction sites, etc. have a basic skeleton by combining struts erected at predetermined intervals and beam members (handrails, brackets, etc.) vertically and horizontally, and erection of treads on the beam members. Has been built. The worker works on the tread board and moves on the tread board. Patent document 1 is given as an example of a building scaffold.
However, the operator does not always look at the foot when moving the position of the foot on the tread board or moving the tread board during work. Rather, if you immerse yourself in the work, you can often say that you act on the footboard without worrying about your feet. In such a case, there is a case where a foot is unintentionally stepped outside the tread board. The scaffold does not fall because the scaffolding has pillars and handrails, but it also causes the body to collapse and things to fall. Also, if there is such a stepping off from the psychological viewpoint of the worker, there is a possibility that he / she cannot be immersed in the work.

  Therefore, various baseboards for building scaffolds have been proposed. Patent document 2 is given as an example of such a baseboard for a building scaffold. The skirting board for building scaffold of Patent Document 2 can prevent the operator from stepping off and can be easily detached. A specific method of attaching the skirting board to the scaffolding is as follows. As shown in FIGS. 8 to 10, one hook 21 is engaged with one strut 31a, and the wedge plate 8 of the other wedge fixing portion 7 disposed on the other strut 31b is struck with a hammer or the like. By this, the other support | pillar 31b can be pressed with the wedge board 8 and the 1st curved part 13, and it can attach to a scaffold easily. Moreover, the wedge board 8 can be loosened by hitting the wedge board 8 from the opposite side in the attached state, and the baseboard 1 for building scaffolding can be removed.

JP-A-7-54480 Japanese Patent Laid-Open No. 2005-188023

By the way, as shown in FIG. 6 of the above-mentioned Patent Document 2, the footboard in the scaffold is generally constructed with a hook 34 of the footboard 33 itself with respect to a bracket 32 which is a beam member. Since the hook 34 can move within a certain range in the longitudinal direction of the bracket 32, the position of the tread plate 33 also moves slightly along the bracket 32. Depending on the position of the footboard 33, there is a possibility that a gap may be generated between the footboard 33 and the building scaffolding skirting board 1 when the construction scaffolding skirting board 1 is set at the foot position along the side of the footing board 33. was there. In addition, if the width of the footboard, even if there is no deviation in the mounting position of the footboard 33, is narrower than the length of the bracket, there is a possibility that a gap will be generated between the footboard and the baseboard for the building scaffolding. was there. Since the gap is assumed to drop from the object, there has been a request that it should be avoided if possible.
The present invention is for solving the above-mentioned problems. An object of the present invention is to provide a building scaffolding skirting board having a function of closing a gap formed between a footboard and a building scaffolding skirting board.

  In order to solve the above-mentioned problems, in the invention of claim 1, a plurality of support columns arranged upright at predetermined intervals, a plurality of beam members arranged to intersect the support columns, and the same beam member or the same An architectural scaffold constructed with a basic skeleton from a footboard for a passage erected with respect to a column, and is installed at a foot position along the edge of the footboard in the same scaffolding, with a predetermined interval between them A base plate body disposed so as to seal between the disposed first and second support columns, and formed at or near one end in the longitudinal direction of the base plate body and engaged with the first support column A first engagement member that is formed, a second engagement member that is formed at or near the other end in the longitudinal direction of the baseboard body, and that is engaged with the second support column, and Fixing means for fixing the second engagement member in a state of being engaged with the first and second support columns, respectively; The skirting board main body is disposed on the inner surface of the skirting board body facing the tread board side at the time of mounting, and is formed on the skirting board main body by a rotation shaft formed at an upper position than the tread board arranged at a position closer to the lower part of the skirting board main body. And a clearance plate that is supported so as to be pivotable, and that has a lying position that falls with the pivoting shaft as a base, and a storage position that is arranged in an overlapping manner on the baseboard body. The gist.

In the invention of claim 2, in addition to the configuration of the invention of claim 1, the upper and lower edges of the baseboard body are projected toward the inner surface and the ends thereof are bent and extended in the opposite directions. Thus, a channel-shaped bent end is formed, and the thickness of the gap plate falls within the width of the bent end at the storage position.
According to a third aspect of the invention, in the configuration of the second aspect of the invention, the gap plate is supported so as to be slidable in the vertical width direction of the skirting board body in the storage position, and the pivot shaft is in the upper position. Thus, when the baseboard body is turned upside down, the gap plate moves downward and its lower end is disposed at a position lower than the tip position of the lower bent end in the inverted state of the baseboard body. The gist of this is
According to a fourth aspect of the present invention, in the configuration of the third aspect of the present invention, the tip end of the gap plate is placed on the tread plate at the lying down position, and the back surface of the gap plate is at the base end side. The gist is to abut the tip of the lower bent end of the baseboard body.
According to a fifth aspect of the present invention, in the configuration of the fourth aspect of the present invention, there is a back surface of the gap plate between the rotating shaft and a portion that contacts the tip of the lower bent end of the baseboard body. The gist is that a protruding member is formed between them.

In such a configuration, when the baseboard for building scaffolding is disposed at the foot position along the edge of the footboard, the first and second support members on the left and right sides of the baseboard body are provided as the first and second struts. And are fixed by fixing means to hold them in the engaged state.
As a fixing means, a wedge member that is held so as to be able to advance and retract by a holding member is driven from a position adjacent to either the left or right first and second engaging members, and fixed to the first and second support columns. This is an example. In addition, the first and second engaging members can be configured to change the distance between them, and by increasing the distance between the two, attachment and detachment can be performed so as to provide clearance with respect to the first and second columns. As an example, a configuration in which the first and second engaging members are made to be unremovable by reducing the clearance by reducing the clearance between the first and second engaging members.
On the other hand, a gap plate is disposed on the inner surface side of the skirting board body facing the tread board side, and the gap plate is rotatably supported with respect to the skirting board body by a pivot shaft at a position near the lower part of the skirting board body. Therefore, it is possible to block the gap when there is a gap between the skirting board main body and the tread board by lying down with the rotation shaft as a base.

Such a gap plate has a channel-shaped bent end formed by projecting toward the inner surface direction at the upper and lower edges of the skirting board main body and bending and extending the tip in a direction facing each other. It is preferable that the thickness of the plate be within the width of the bent end at the storage position. That is, in a state where the gap plate is disposed at the storage position, the gap plate does not protrude in the width direction from the skirting board main body, and is compactly accommodated in the skirting board main body.
In addition, the gap plate is supported so as to be slidable in the vertical direction of the skirting board at the storage position, and when the skirting board is turned upside down so that the pivot shaft is at the upper position, the gap plate moves downward. It is preferable that the lower end of the lever is arranged at a position lower than the tip position of the lower bent end in the inverted state of the baseboard body. In such a configuration, if it is not necessary to use the gap plate, if the baseboard body is turned upside down, the gap plate will not fall over and project because the pivot shaft moves upward, and The lower end of the gap plate does not come into contact with the bent end and does not swing outward.

In addition, the gap plate is configured such that the tip of the gap plate is placed on the tread board in the lying down position, and the back surface of the gap plate is in contact with the tip of the lower bent end of the baseboard body at the base end side. It is preferable. That is, the rotation shaft is free and the proximal end side is supported by the distal end of the bent end portion when the gap plate is lying down. As a result, when a load is applied to the gap plate, the excessive weight is not applied to the rotating shaft, and there is no problem with the rotating shaft. It should be noted that it is not always necessary that the entire end of the bent end abuts against the gap plate. Moreover, you may comprise so that it may contact | abut by interposing another member.
Further, it is preferable that a projecting member is formed between the rotating shaft and the portion of the back surface of the gap plate that comes into contact with the tip of the lower bent end of the baseboard body. Even if the gap plate is detached from the skirting board body by forming such a protruding member, the gap plate does not slide down in the direction of the tread board and is once held by the protruding member. It becomes.

  If comprised like invention of said each claim, it will become possible to block the gap which arises between a foot board and a baseboard for building scaffolds with a gap plate.

(A) And (b) is the perspective view seen from the inner side and the outer side of the baseboard for building scaffolds of the Example of this invention. The perspective view in the state where the gap plate was laid down in FIG. (A) is a partially omitted front view of the same building scaffolding baseboard, and (b) is also a partially omitted rear view. (A) is an enlarged perspective view of one end side of the same building scaffolding baseboard, (b) is an exploded perspective view of the other end side of the same building scaffolding baseboard The top view which abbreviate | omits the intermediate | middle in case the rocking | swiveling plate exists in the 1st rocking | fluctuation position in the same building scaffolding baseboard. The top view which abbreviate | omits the intermediate | middle in case the rocking | swiveling plate exists in the 2nd rocking | fluctuation position in the same construction scaffolding baseboard. Explanatory drawing explaining the locking method of the lock mechanism in the direction in which a clearance plate can fall down in the same construction scaffolding baseboard. Explanatory drawing explaining the state which performed the lock from the state of FIG. Explanatory drawing explaining the locking method of the locking mechanism in the direction in which a clearance plate cannot fall down in the same construction scaffolding baseboard. Explanatory drawing explaining the state which performed the lock from the state of FIG. (A) is a schematic diagram for explaining a state in which the gap plate is suspended in the same building scaffolding skirting board, (b) is a schematic diagram for explaining a state in which the gap plate is also laid down, The perspective view explaining the fixed state to the baseboard scaffold for the same construction scaffold. The top view explaining a fixed state to the baseboard scaffold for the same construction scaffold. The top view explaining the state of the scaffold before mounting | wearing the baseboard for construction scaffolds in FIG. (A) And (b) is a perspective view from the front-back direction of a lock nail, (c) is a side view of a lock nail. It is a mounting method of the same building scaffolding skirting, (a) in the middle of mounting (b) is an explanatory view explaining the mounting completion state. The partially abbreviated perspective view of a state where a plurality of the same skirting boards for building scaffolds are loaded.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.
As shown in FIGS. 1 to 3, a baseboard for a building scaffold (hereinafter simply referred to as a baseboard) 1 includes a baseboard body plate 4 composed of a bent plate 2 and a reinforcing plate 3 having a certain thickness. As a part. The bent plate 2 has bent portions 2a and 2b as bent ends obtained by bending upper and lower edges of a rectangular steel plate in the same direction into a channel shape, and corresponds to the width of the bent portions 2a and 2b at both left and right ends thereof. Reinforcing plates 3a and 3b having a width are fixed to form a long baseboard body plate 4, respectively. The bent portions 2a and 2b are configured by the upper and lower edge portions of the bent plate 2 being bent at a right angle toward the inner surface direction (passage side at the time of mounting) and projecting, and the tips thereof are further bent in a direction facing each other. ing.
In the following, the surface facing the passage side when the baseboard body plate 4 is attached is defined as the inner surface, and the surface facing the outer side is defined as the outer surface. Further, the left means the left side in FIG. 3A, and the right means the right side in FIG.
As shown in FIGS. 3 and 4, rectangular through-holes 5 are formed at positions spaced vertically in the longitudinal direction of the baseboard body plate 4. The four through holes 5 in total are arranged in a positional relationship such that they are symmetrical vertically and horizontally.

  As shown in FIGS. 1 to 4, hooks 7 are respectively disposed at adjacent positions inside the upper and lower through holes 5 on the right end side on the outer surface of the skirting board main plate 4. The pair of upper and lower hooks 7 are constituted by a long plate-like base plate 8 and a metal plate integrally formed with a hook body 9 having a shape in which the tip end side is narrowed into a horn of a cow extending from the base plate 8 as a base. . The hook body 9 is curved and formed so that the reinforcing plate 3a direction (outward in the longitudinal direction of the baseboard body plate 4) is the inner curved portion 9a, and the thickness direction is the width direction of the baseboard body plate 4 Is approximately the same. As shown in FIGS. 3 and 4A, the hook body 9 has a base portion at a position slightly retracted from the outer end (near the reinforcing plate 3a) of the base plate 8, and at this base portion position, the hook body 9 is the base plate 8. It is in a position that is further retracted, and is in an outwardly advanced state that is the same as the outer end of the base plate 8 at the extended tip position. The hook body 9 extends in the direction of the reinforcing plate 3a and is inclined in the direction of the adjacent through holes 5 at the same time. The upper and lower hook bodies 9 are expanded toward the tip in a side view as shown in FIG. Will be placed. As shown in FIG. 3A, each hook body 9 is arranged facing each through hole 5 adjacent to the hook 7. In the present embodiment, the hook body 9 corresponds to the first engaging member. In addition, let the right end part side of this baseboard main body board 4 be a fixed end side.

As shown in FIGS. 1 to 4, a swing plate 15 as a swing member is disposed on the outer surface of the skirting board 4 near the left end. The swing plate 15 includes a main body 16 having the same vertical width as the baseboard main body plate 4. The upper and lower edges of the main body 16 are bent to form sandwiching pieces 17 that sandwich and support the baseboard main body plate 4 from above and below.
An oblong through hole 19 that is long in the vertical direction is formed near the center of the main body 16 (close to the reinforcing plate 3b). An insertion piece 20 bent inward is formed integrally with the main body 16 outside the through hole 19. The distal end of the insertion piece 20 is bent to form a bent portion 21 that prevents the insertion piece 20 from coming off. Rectangular insertion holes 22 are formed at two locations above and below the main body 16 of the insertion piece 20. A pair of hooks 23 are disposed at positions where the through hole 19 of the main body 16 is sandwiched from above and below. The hook 23 is attached so as to have a left-right mirror image relationship with the hook 7 disposed on the right end side of the baseboard body plate 4. The hook 23 also has a hook body 25 based on a long plate-like base plate 24 and a base plate 24 shaped like a cow's horn with its tip side narrowed, but the shape is in a mirror image relationship with that of the hook 7. Since the configuration is the same, detailed description is omitted. A side surface of the hook body 25 facing the reinforcing plate 3b is an inner curved portion 25a. An outer end surface 24 a is defined between the outer end of the base plate 24 and the base portion of the hook body 25. The outer end surface 24a corresponds to a second outwardly extending surface.

On the other hand, as shown in FIG. 4, the base plate 4 on which the swing plate 15 is stacked is formed on the reinforcing plate 3 b with a rectangular slit 27 that is long up and down, and the base plate 4 is formed inside the slit 27. A small slit 28 parallel to the slit 27 is formed.
A lock claw 30 constituting a lock mechanism is attached via a small slit 28. As shown in FIG. 15, the lock claw 30 is a lock that is arranged on the inner side of the base plate 4 and the slide shaft 31 that is guided with the periphery of the small slit 28 as a rail, the frame 32 that is exposed on the swing plate 15 side. A nail body 33 is provided. The lock claw body 33 is configured in an L shape in a side view, and the short portion 33a serves as the handle of the operator and the long portion 33b serves as the action portion. The lock claw 30 is loosely fitted along the small slit 28 so as to be movable up and down and rotatable.
The oscillating plate 15 has its insertion piece 20 inserted inward from the slit 27 toward the inner side of the skirting board main plate 4, and with the lock claw 30 attached so as not to fall off, the skirting board 15 is fixed by the fixing screw 34 via the clamping piece 17. The main plate 4 is supported so as to be swingable in the horizontal direction.
The rocking plate 15 is engaged with the edge of the slit 27 at the first rocking position (the state shown in FIG. 5) overlapped with the left end of the base plate 4 and the bent portion 21 at the tip of the insertion piece 20. Thus, it is possible to move between the second swing position (state of FIG. 6) in which further swing in the opening direction is restricted. When the swing plate 15 is in the first position, the hook main body 25 is disposed facing each through hole 5 adjacent to each hook main body 25. When the swing plate 15 is in the first swing position, the top 32 of the lock claw 30 is disposed in the through hole 19 of the main body 16, so that the top 32 does not interfere with the main body 16. In addition, let the left end part side of this baseboard main board 4 be a rocking | fluctuation end side.

As shown in FIGS. 1 to 3, a gap plate 35 is accommodated on the inner surface side of the skirting board 4. The gap plate 35 is a rectangular aluminum alloy plate in a front view. The gap plate 35 is formed by extrusion molding in this embodiment, and has a hollow structure with reinforcing ribs inside as shown in FIG. The maximum thickness of the gap plate 35 is configured to be smaller than the thickness of the baseboard body plate 4, that is, the width of the bent portions 2a and 2b. Rotating shafts 38 projecting outward in the longitudinal direction are fixed to both ends of the base portion of the gap plate 35.
On the other hand, a support plate 36 in which a long hole 37 is formed is fixed to a position near both ends in the longitudinal direction of the skirting board 4 and to the bent portion 2b side. The gap plate 35 is hooked to the elongated hole 37 of the support plate 36 by a rotation shaft 38. A plurality of small protrusions 40 for preventing slipping are formed on the surface of the gap plate 35 along the longitudinal direction. A protrusion 39 is formed along the longitudinal direction at a position near the base on the back surface of the gap plate 35.
As shown in FIG. 11A, when the skirting board body plate 4 is used in a state where the bent portion 2b side is disposed on the upper side, the gap plate 35 is pivoted with respect to the elongated hole 37 of the support plate 36. 38 is suspended at the lowest position. At this time, the gap plate 35 is moved closer to the lower end than the end of the bent portion 2a disposed on the lower side of the skirting board main plate 4, and thus interferes with the bent portion 2a and is stored in the skirting board main plate 4. It is not exposed by being swung outward from the formed position.
On the other hand, as shown in FIG. 11B, when the skirting board main body plate 4 is used in a state where the bent portion 2a side is disposed on the upper side, the gap plate 35 moves by an amount corresponding to the long hole 37, and the phantom line Therefore, the gap plate 35 is accommodated in the skirting board main body plate 4 as shown by the solid line around the rotation shaft 38 because the gap plate 35 moves backward to a position where it does not interfere with the tip of the bent portion 2b. It is possible to fall out of position. As shown in FIG. 11B, the gap plate 35 is supported in a lying state along the tip of the bent portion 2b. Even if the rotation shaft 38 of the gap plate 35 drops off from the support plate 36 or the rotation shaft 38 is broken, a protrusion 39 formed near the base of the back surface of the gap plate 35. This prevents slipping off.

Next, an example of how to use the skirting board 1 configured as described above will be described. In the following description, the inside or the front refers to the tread 53 side of FIG. 13, and the outside or the rear refers to the right direction in FIG.
As shown in FIG. 12 and FIG. 13, as a beam member supported on a pair of front and rear columnar columns 51 erected at a predetermined interval in the longitudinal direction and inner and outer columns 51 at a construction site. The columnar bracket 52 forms a frame assembled vertically and horizontally. And the passage of a building scaffold will be constructed along the outer wall E of a to-be-constructed object by constructing the tread board 53 as a floor surface of each floor of a scaffold via the hook 54 to the bracket 52.
Since the width of the tread 53 is shorter than the length of the bracket 52, for example, when the tread 53 is installed on the bracket 52, as shown in FIG. When approaching, a large gap S is formed outward. In this embodiment, the skirting board 1 is attached and sealed between the left and right support columns 51, and at the same time, the gap plate 35 of the skirting board 1 is laid down to seal the gap S. Therefore, it is assumed that the mounting operation is performed in such a direction that the bent portion 2a is disposed on the upper side of the baseboard body plate 4.

As shown in FIG. 6, the operator swings the swing plate 15 to the second swing position to support the skirting board 1 and from the passage side (inside) of the building scaffold as shown in FIG. The skirting board 1 is brought closer to the left and right columns 51a and 51b. At this time, the operator operates to support the skirting board 1 on the swing end side as much as possible and press it against the support column 51a from the fixed end side. First, the non-moving end side is brought close to a position where the column 51a is sandwiched by the inner curved portion 9a of the hook body 9 and the outer end surface 8a of the base plate 8 as shown in FIG. And also on the swing end side, the support column 51 b is disposed at a position where it is sandwiched between the inner curved portion 25 a of the hook body 25 and the outer end surface 24 a of the base plate 24.
In the state of FIGS. 6 and 16A, the distance between the left and right hook bodies 9 and 25 is closer than the first swing position as shown in FIGS. The tips of the hook bodies 9 and 25 have a slight clearance with respect to the columns 51a and 51b. As a result, the hook bodies 9 and 25 are arranged at the positions shown in FIG. 16A without interfering with the columns 51a and 51b. Is possible. In this state, the skirting board main body plate 4 is disposed obliquely with respect to the line segment L connecting the columns 51a and 51b.

Next, the swing plate 15 is moved to the second swing position in such a state that the inner curved portions 9a, 25a of the hook bodies 9, 25 on the left and right sides are arranged at positions that surround the outer peripheries of the columns 51a, 51b, respectively. To the first swing position. Specifically, instead of rocking the rocking plate 15, the operator presses the baseboard body plate 4 from the inside toward the outside. Then, in the state of FIG. 16A, the baseboard body plate 4 disposed obliquely with respect to the line segment L connecting the columns 51 a and 51 b moves to a position parallel to the line segment L. That is, the rocking plate 15 is rocked relative to the first rocking position by rocking the base plate body plate 4 side.
At this position, the distance between the left and right support columns 51a and 51b is farther than that in the second swing position, so that the front ends of the hook bodies 9 and 25 are located with respect to the left and right support columns 51a and 51b. Clearance disappears. Therefore, even if the skirting board 1 is moved inward, even if the hook bodies 9 and 25 interfere with the support columns 51a and 51b and are moved outward, the outer end surfaces 8a and 24a of the base plates 8 and 24 are connected to the support columns. It cannot be moved because it interferes with 51a and 51b.
Since the hooks 7 and 23 are formed at two positions apart from each other in the upper and lower directions, if either the swinging end side or the stationary end is lifted (that is, the left and right are inclined in front view), the hook body 9 , 25 and the support columns 51a and 51b, such a removal is not possible.

In this state, the operator locks the swing plate 15 so as not to swing in the second swing position direction in a state where the skirting board 1 is fixed at a position where the left and right support columns 51a and 51b are blocked. As shown in FIG. 7, the swing plate 15 in the first swing position is overlapped with the skirting board main plate 4 from the outside, so that the insertion piece 20 of the main body 16 protrudes inside the skirting board main plate 4. The lock claw body 33 is disposed at a position adjacent to the lock claw body 33. The operator operates the short portion 33a of the lock claw body 33 to rotate the long portion 33b whose weight is directed downward with the slide shaft 31 as the center of rotation, and the insertion piece as shown in FIG. 20 is inserted into the lock through hole 22 formed on the lower side in this direction.
On the other hand, a gap S is formed between the skirting board 1 and the tread board 53 at the stage where the skirting board 1 is arranged at the position where the left and right support columns 51a and 51b are blocked, as shown in FIGS. The gap plate 35 is laid down and the gap S is sealed. The clearance of the gap plate 35 may be either after locking or before locking.
The gap plate 35 is accommodated without protruding outward from the thickness of the skirting board 4. When the gap plate 35 is rotated using the rotation shaft 38 at the lower position as a rotation fulcrum, the gap plate 35 is exposed to the outside of the skirting board body plate 4 (solid line in FIG. 11B). . In this embodiment, since the position of the rotation shaft 38 is above the upper surface of the tread plate 53, the lying gap plate 35 is grounded on the tread plate 53 with its tip end hanging obliquely. At this time, the base end side of the gap plate 35 is supported by the tip of the bent portion 2b as shown in FIG.

Next, the installation work of the baseboard 1 when there is no gap S with the tread board 53 or not so large will be briefly described. In this case, since it is not necessary to use the gap plate 35, the baseboard body plate 4 is turned upside down. That is, the bent portion 2b is mounted on the upper side so that it is mounted between the left and right support columns 51a and 51b. When the skirting board 4 is turned upside down, the gap plate 35 is in a positional relationship such that it is suspended from above as shown in FIG. 11A, so that the gap plate 35 does not fall down. The mounting method for the left and right support columns 51a and 51b is the same as described above. In the locking operation, since the skirting board body plate 4 is inverted, the hanging direction of the lock claw body 33 is reversed from the above as shown in FIG. Accordingly, the operator operates the short portion 33a of the lock claw body 33 to rotate the long portion 33b whose tip is directed downward by its own weight, and this is formed on the insertion piece 20 as shown in FIG. It is inserted into the lock through hole 22 arranged on the lower side in the direction (the lock through hole 22 arranged on the upper side in the above).
Further, since the baseboard 1 configured in this manner is arranged with the hook main bodies 9 and 25 facing the through hole 5, the hook main body 9 and the protruding hook main body 9 and 25 projecting when stacked adjacent to each other in the same direction as shown in FIG. 25 can pass through the baseboard body plate 4 of the adjacent baseboard 1 at the position of the through-hole 5 and avoid interference with the baseboard body plate 4 of the adjacent baseboard 1 when storing or transporting without taking up space Is advantageous.

With this configuration, the present embodiment has the following effects.
(1) The skirting board 1 can be easily attached to the support columns 51a and 51b only by the oscillating operation of the oscillating plate 15, the work is easy, and the skirting board 1 itself has no member protruding inward or outward. Due to its simple appearance, it will not interfere with the work even if it is installed.
(2) Since the operator can prevent the swing plate 15 from swinging in the second swing position direction with the lock claw body 33 locked from the inside, the base plate 1 should be securely fixed to the mounting position. Can do.
(3) Even if the baseboard body plate 4 is turned upside down, the mounting work to the columns 51a and 51b does not change, and the locking operation of the lock claw body 33 can be performed either upside down. Since the workability does not differ depending on the vertical direction, work efficiency is good.
(4) When a gap S is formed between the skirting board 1 and the tread board 53, the gap S can be filled by overturning the gap plate 35.
(5) When it is not necessary to use the gap plate 35, the gap plate 35 is held in the stored state only by turning the baseboard body plate 4 upside down, so that the gap plate 35 does not get in the way.
(6) Since the gap plate 35 is supported by the distal end of the bent portion 2b on the base end side, and no load is applied to the rotating shaft 38, a problem occurs around the rotating shaft 38. The fear is reduced.
(7) Since the protrusion 39 is formed on the back surface of the gap plate 35, the gap plate 35 does not slide down even if there is a problem that the rotating shaft 38 is broken.

In addition, this invention is not limited to the said Example, It is also possible to change and actualize as follows.
In the above description, the pair of upper and lower hooks 7 and 23 are provided in the left-right direction of the baseboard body plate 4, but three or more hooks 7 and 23 on one side may be provided.
In the above description, the outer end surfaces 8a and 24a of the base plates 8 and 24 correspond to the first and second outwardly extending surfaces, but the outer surface of the baseboard body plate 4 and the swing plate are not provided without providing the base plates 8 and 24. The outer surfaces of the 15 main bodies 16 can be used as the first and second outwardly extending surfaces. In addition, the first and second outwardly extending surfaces may be configured so as to be able to sandwich the support columns 51a and 51b in cooperation with the hook bodies 9 and 25.
The shapes of the baseboard main body plate 4, the fixing portion main body 9, the wedge plate 8, and the hook 23 are not limited to the shapes of the above-described embodiments, and the shapes and sizes thereof are free within the scope of the present invention. And
In the construction scaffold of the above embodiment, the baseboard 1 is set only on the outside of the passage, but of course it may be arranged on the inside. In that case, since there is no gap S on the inner side, it is preferable to prevent the gap plate 35 from being used by turning the baseboard body plate 4 upside down unlike the outer side.
The material of each member such as the baseboard body 4 is made of metal, but other materials may be used as long as the object of the present invention can be achieved.
A holding means may be provided to hold the gap plate 35 in the storage position without falling down. For example, a structure in which an engaging protrusion and its catch are provided between the opposing surfaces of the gap plate and the skirting board body 4 is conceivable.
In addition, it is free to implement in a mode that does not depart from the spirit of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Scaffolding board for scaffolding, 4 ... Baseboard main board, 9 ... Hook main body as 1st engaging member, 25 ... Hook main body as 2nd engaging member, 15 ... Swing plate as fixing means, 35 ... Gap plate, 51 (51a, 51b) ... Column, 52 ... Bracket as beam member, 53 ... Tread.

Claims (5)

Basically, a plurality of columns arranged upright at predetermined intervals, a plurality of beam members arranged so as to intersect with the columns, and a footboard for a passage constructed with respect to the beam members or the columns. An architectural scaffold with a built skeleton, and is attached to a foot position along an edge of the tread board in the architectural scaffold,
A baseboard body arranged to seal between the first and second pillars arranged adjacent to each other at a predetermined interval;
A first engagement member formed at or near one end in the longitudinal direction of the baseboard body and engaged with the first strut;
A second engaging member that is formed at or near the other end in the longitudinal direction of the baseboard body and is engaged with the second column;
Fixing means for fixing the first and second engaging members in a state of being engaged with the first and second support columns, respectively;
The skirting board main body is disposed on the inner surface of the skirting board body facing the tread board side at the time of mounting, and is formed on the skirting board main body by a rotation shaft formed at an upper position than the tread board arranged at a position closer to the lower part of the skirting board main body. A construction comprising a clearance plate that is pivotally supported with respect to the rotation shaft and can take a lying position and a storage position that is arranged in an overlapping manner on the baseboard body. Scaffolding baseboard. At the upper and lower edges of the base plate body, channel-shaped bent ends are formed by projecting toward the inner surface and bending and extending the tips in opposite directions, and the thickness of the gap plate The baseboard for an architectural scaffold according to claim 1, wherein the baseboard fits within the width of the bent end at the storage position. The gap plate is supported so as to be slidable in the vertical width direction of the skirting board body in the storage position, and when the skirting board body is turned upside down so that the rotation shaft is at the upper position, the gap plate is The baseboard for an architectural scaffold according to claim 2, wherein the baseboard is moved downward and its lower end is disposed at a position lower than a tip position of a lower bent end portion in the inverted state of the baseboard body. The tip of the gap plate is placed on the tread plate in the lying position, and the back surface of the gap plate is in contact with the tip of the lower bent end of the baseboard body on the base end side. The skirting board for building scaffolds according to any one of claims 1 to 3. 5. A projecting member is formed on the back surface of the gap plate between the rotating shaft and a portion that contacts the tip of the lower bent end of the baseboard body. Skirting boards for architectural scaffolds as described in 1.

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