JP2021095723A - Outer wall position adjustment fixture - Google Patents

Abstract

To provide an outer wall position adjustment fixture capable of correcting unevenness between adjacent outer walls irrespective of the width of a joint.SOLUTION: An outer wall position adjustment fixture 24 comprises: a transmission unit 28; a force application unit 30; and a pressing unit 32. The transmission unit 28 includes a fixing part 26 fixable to an outer pillar 14, and an insertion hole 34 provided at a position not overlapping the outer pillar 14 in the thickness direction of an outer wall 18 and formed through in the thickness direction of the outer wall 18. The force application unit 30 is partially inserted through the insertion hole 34 to extend to the indoor side. The pressing unit 32 includes an abutment part 44 partially inserted into a side opposite to the side where the force application unit 30 is inserted through the insertion hole 34 and abuttable against the outer wall 18. Thus, when the force application unit 30 is moved from the indoor side toward the outdoor direction, the outer wall 18 can be moved to the outdoor side with respect to the outer pillar 14 via the pressing unit 32. As a result, unevenness between the adjacent outer walls 18 can be corrected irrespective of the width of a joint.SELECTED DRAWING: Figure 1

Description

The present invention relates to an outer wall position adjusting jig.

The following Patent Document 1 discloses a face-to-face tool for an outer wall panel. This tool has a long member, a support member that swingably supports one end side of the long member in the longitudinal direction, and a claw portion fixed to one end of the long member in the longitudinal direction. This support member is brought into contact with one side of the adjacent outer wall panels from the outdoor side, and the claws are inserted from the joints between the adjacent outer wall panels toward the inside of the building to the other side of the adjacent outer wall panels. While hanging on the edge, push down the other end of the long member in the longitudinal direction. As a result, the other side of the adjacent outer wall panels can be moved to the outdoor side, and the non-landing correction between the adjacent outer wall panels can be performed.

JP-A-2010-106636

However, in the case of the configuration disclosed in Patent Document 1, since the jig is brought into contact with the outdoor side of the outer wall panel to insert the claw portion into the joint, there is a possibility that the claw portion cannot be inserted if the width of the joint is narrow. There is. Therefore, the above prior art has room for improvement in this respect.

In consideration of the above problems, an object of the present invention is to obtain an outer wall position adjusting jig capable of correcting unevenness between adjacent outer walls regardless of the width of the joint.

The outer wall position adjusting jig according to the first aspect is provided on the fixing portion that can be fixed to the skeleton of the building having the outer wall, and the skeleton in the thickness direction of the outer wall. A transmission part provided at a position where it does not overlap and having an insertion hole penetrated in the thickness direction of the outer wall of the building, and a force part having a part inserted into the insertion hole and extended to the indoor side. It has a pressing portion having a contact portion that is partially inserted and is capable of contacting the outer wall on the side of the insertion hole opposite to the side where the force portion is inserted.

In the invention according to the first aspect, the outer wall position adjusting jig according to the second aspect is composed of a cylindrical member whose longitudinal direction is the thickness direction of the outer wall, and the force is applied. The portion is fitted into the insertion hole by a screw action.

The outer wall position adjusting jig according to the third aspect is the invention according to the first or second aspect, wherein the pressing portion is composed of a long member having a thickness direction of the outer wall as a longitudinal direction and is inserted. It has a pressing shaft portion inserted into the hole, and the pressing shaft portion and the insertion hole are each provided with a rotation regulating portion that regulates rotation in the longitudinal direction of the pressing shaft portion. ..

In the invention according to the third aspect, the outer wall position adjusting jig according to the fourth aspect has the rotation restricting portion formed into a square hole-shaped insertion hole and a shape similar to the shape of the insertion hole. It is composed of the pressing shaft portion.

In the invention according to the fourth aspect, the outer wall position adjusting jig according to the fifth aspect has the applied portion within the cross-sectional shape in which the cross-sectional shape orthogonal to the longitudinal direction is orthogonal to the longitudinal direction of the pressing shaft portion. It is configured to fit.

In the invention according to any one of the first to fifth aspects of the outer wall position adjusting jig according to the sixth aspect, a cushioning member is attached to the abutting portion of the pressing portion.

The outer wall position adjusting jig according to the seventh aspect is the invention according to any one of the first to sixth aspects, wherein the outer wall has a bracket for attaching the outer wall material and the outer wall material to the skeleton. The contact portion of the pressing portion is capable of contacting the bracket.

In the invention according to the seventh aspect of the outer wall position adjusting jig according to the eighth aspect, the contact portion is formed to have a shape similar to the shape of the contact position in the bracket.

In the invention according to any one of the first to eighth aspects, the outer wall position adjusting jig according to the ninth aspect can be attached to a position separated from the fixed portion in the skeleton, and the pressing is performed. A regulating member is provided through which the portion is inserted and restricts the movement of the pressing portion in a direction other than the thickness direction of the outer wall.

According to the first aspect, the outer wall position adjusting jig has a fixing portion, a transmitting portion, a applying portion, and a pressing portion. The fixed part can be fixed to the skeleton of the building, and the transmission part is provided at a position that does not overlap with the skeleton in the thickness direction of the outer wall of the building and is penetrated in the thickness direction of the outer wall of the building. It has an insertion hole. A part of the applying force portion is inserted into the insertion hole and extends to the indoor side. A part of the pressing portion is inserted on the side opposite to the side in which the applying portion is inserted in the insertion hole, and has a contact portion capable of contacting the outer wall. Therefore, when the applying portion is moved from the indoor side toward the outdoor side, the outer wall can be moved to the outdoor side with respect to the skeleton via the pressing portion. That is, the position of the outer wall can be adjusted from the indoor side.

According to the second aspect, the applying portion is composed of a cylindrical member whose longitudinal direction is the thickness direction of the outer wall, and is fitted into the insertion hole by a screw action, so that the applying portion is rotated. As a result, the force-bearing unit can be moved from the indoor side to the outdoor side. Therefore, by adjusting the rotation amount of the applying portion, it is easy to change the moving amount of the applying portion, so that the position of the outer wall via the pressing portion can be easily adjusted.

According to the third aspect, the pressing portion has a pressing shaft portion formed of a long member whose longitudinal direction is the thickness direction of the outer wall, and the pressing shaft portion is inserted into the insertion hole. .. The pressing shaft portion and the insertion hole are each provided with a rotation regulating portion that regulates rotation in the longitudinal direction of the pressing shaft portion. Therefore, when the force is transmitted from the moving applying force portion and the pressing portion moves, it is possible to suppress the pressing portion from rotating about the axial direction. As a result, it is possible to suppress the change in the contact position between the contact portion and the outer wall due to the rotation of the pressing portion, so that the target position of the outer wall can be reliably moved.

According to the fourth aspect, the rotation restricting portion is composed of an insertion hole formed in a square hole shape and a pressing shaft portion formed in a shape similar to the shape of the insertion hole, and thus has a simple configuration. It is possible to suppress the rotation of the pressing portion with the longitudinal direction as the axial direction. As a result, it is possible to suppress the change in the contact position between the contact portion and the outer wall, so that the target position of the outer wall can be reliably moved.

According to the fifth aspect, since the applying portion is configured so that the cross-sectional shape orthogonal to the longitudinal direction fits within the cross-sectional shape orthogonal to the longitudinal direction of the pressing shaft portion, the pressing portion is pressed by the pressing shaft. It is possible to prevent the force portion from being restricted from moving and being unable to transmit the force to the pressing portion because the force portion abuts on the end surface of the insertion hole instead of the pressing shaft portion when the portion is brought into contact with the portion.

According to the sixth aspect, since the cushioning member is attached to the abutting portion of the pressing portion, it is possible to prevent the outer wall from being damaged when the abutting portion abuts on the outer wall. Further, even when the contact position between the contact portion and the outer wall changes due to the change in the position of the outer wall due to the adjustment of the position, the cushioning member can follow the change in the contact position.

According to the seventh aspect, the outer wall has a bracket for attaching the outer wall material and the outer wall material to the skeleton, and the contact portion of the pressing portion can be brought into contact with the bracket. , When the applied portion is moved to the outdoor side, the bracket is deformed via the pressing portion to move the outer wall. That is, since the bracket that supports the outer wall material on the skeleton is deformed, the position of the outer wall can be adjusted without applying a load to the outer wall rather than moving the outer wall material itself by applying a load.

According to the eighth aspect, since the abutting portion is formed in a shape similar to the shape of the abutting position in the bracket, the abutting portion is formed from the bracket when the load is transmitted from the abutting portion to the bracket. It is possible to suppress the deviation. Therefore, the load can be efficiently transmitted from the pressing portion to the bracket.

According to the ninth aspect, it has a regulating member that can be attached at a position separated from the fixed portion in the skeleton. This restricting member restricts the movement of the pressing portion in a direction other than the thickness direction of the outer wall of the pressing portion through which the pressing portion is inserted. Therefore, when the load is transmitted from the applying portion to the pressing portion, the pressing portion can be efficiently moved to the outer wall side. As a result, the position of the outer wall can be adjusted efficiently.

As described above, the outer wall position adjusting jig according to the present invention has an excellent effect of being able to correct unevenness between adjacent outer walls regardless of the width of the joint.

FIG. 5 is a cross-sectional view showing a state in which the outer wall position adjusting jig according to the first embodiment is fixed to the skeleton of the building as viewed from the upper side of the building. It is sectional drawing which shows the disassembled state of the outer wall position adjustment jig which concerns on 1st Embodiment. It is sectional drawing which shows the state which cut along the line AA in FIG. It is sectional drawing corresponding to FIG. 1 which shows the state which adjusted the position of the outer wall by the outer wall position adjustment jig which concerns on 1st Embodiment. FIG. 5 is a cross-sectional view showing a state in which the outer wall position adjusting jig according to the second embodiment is fixed to the skeleton of the building as viewed from the upper side of the building. It is sectional drawing which shows the state which cut along the line BB in FIG.

(First Embodiment)
Hereinafter, the first embodiment of the outer wall position adjusting jig according to the present invention will be described with reference to FIGS. 1 to 4.

(Overall composition of the building)
As shown in FIG. 1, the building 10 is configured by combining a plurality of box-shaped building units 12 mounted on a foundation (not shown). Outer columns 14 as a skeleton are arranged at each of the four corners of the building unit 12. The outer pillar 14 is formed of square tubular steel in a plan view. The upper ends of the outer columns 14 of the building unit 12 are connected by four ceiling girders (not shown) as a skeleton. Further, the lower ends of the outer columns 14 are connected by four floor girders (not shown) as a skeleton.

An outer wall 18 is provided from one outer pillar 14 to the other outer pillar 14. As an example, the outer wall 18 has a configuration in which a plurality of outer wall material 19 made of a siding material formed in a substantially rectangular plate shape and a plurality of brackets 20 attached to the outer wall material 19 are provided. An outer wall frame (not shown) is attached to the indoor side surface of the wall material 19.

A plurality of brackets 20 are provided at the horizontal end of the outer wall surface member 19 so as to be separated from each other in the vertical direction of the building. As an example, the bracket 20 is made of metal formed in a substantially crank shape in a plan view of a building, and one end portion 20A in the horizontal direction is joined to the back surface of the outer wall surface material 19. On the other hand, the other end 20B of the bracket 20 in the horizontal direction is joined to the side surface 14A of the outer pillar 14. As a result, the outer wall surface material 19 is supported by the outer pillar 14 via the bracket 20.

An inner wall 22 is attached to the indoor side of the outer pillar 14. The inner wall 22 is made of gypsum board or the like as an example, and is attached to the outer pillar 14 via an inner wall frame (not shown). In FIG. 1, the inner wall 22 of the portion corresponding to the outer pillar 14 is removed in order to attach the outer wall position adjusting jig 24 described later.

(Outer wall position adjustment jig)
An outer wall position adjusting jig 24 is attached to the side surface 14B on the indoor side of the outer pillar 14. The outer wall position adjusting jig 24 has a fixing portion 26, a transmitting portion 28, a applying portion 30, and a pressing portion 32. The fixing portion 26 has a substantially box shape, and as an example, an electromagnet is provided inside, and the fixing portion 26 can be magnetically attached to the outer pillar 14 by operating a switch (not shown).

As shown in FIG. 2, the transmission portion 28 is attached to one side of the fixing portion 26 in the horizontal direction. As a result, the transmission portion 28 can be arranged at a position where the outer pillar 14 and the outer wall 18 (outer wall surface material 19) do not overlap in the thickness direction. Further, the transmission portion 28 is provided with an insertion hole 34. The insertion hole 34 is a through hole penetrated in the horizontal direction and in the thickness direction of the outer wall 18, and includes a square hole portion 36 as a part of the rotation restricting portion and a nut portion 38 inside. Has been done. The square hole portion 36 constitutes the outdoor side of the insertion hole 34, and as shown in FIG. 3, the cross-sectional shape cut along the vertical direction of the building is rectangular. That is, the square hole portion 36 is formed in a square hole shape.

The nut portion 38 constitutes the indoor side of the insertion hole 34, has a circular cross-sectional shape cut along the vertical direction of the building, and has a screw formed on the inner peripheral surface. The diameter of the nut portion 38 is set to be smaller than the opening dimension of the square hole portion 36.

The applying portion 30 is formed of a cylindrical member whose axial direction is the thickness direction of the outer wall 18, and a screw screwing with the screw portion of the nut portion 38 in the insertion hole 34 is formed on the outer peripheral surface. Further, a bolt head 40 is formed on the indoor side of the applying portion 30. Therefore, by rotating the bolt head 40 around the axial direction of the force portion 30 with a tool such as an impact driver with the force portion 30 inserted inside the nut portion 38, the force portion 30 is made thicker than the outer wall 18. It can be moved along the vertical direction.

The pressing portion 32 has a pressing shaft portion 42 as another portion of the rotation restricting portion and a contact portion 44. The pressing shaft portion 42 has a rectangular shape having a cross-sectional shape orthogonal to the longitudinal direction similar to that of the square hole portion 36, and can be inserted into the square hole portion 36. With the above configuration, the applying portion 30 is configured so that the cross-sectional shape orthogonal to the longitudinal direction fits within the cross-sectional shape orthogonal to the longitudinal direction of the pressing shaft portion 42.

The contact portion 44 is provided at one end in the longitudinal direction of the pressing shaft portion 42, and the first contact wall portion 46 and the second contact wall portion 48 have an L-shape when viewed from the upper side of the building. It is formed. The first contact wall portion 46 is a plate-shaped member having a thickness direction substantially the same as the thickness direction of the outer wall 18, and the second contact wall portion 48 is horizontal to the first contact wall portion 46. It is a plate-shaped member that extends from one end in the direction toward the outdoor side and whose thickness direction is horizontal and orthogonal to the thickness direction of the first contact wall portion 46. The first contact wall portion 46 and the second contact wall portion 48 are each set to a size capable of contacting a part of the bracket 20, whereby the contact portion 44 becomes a part of the bracket 20. It is formed in a similar shape (see FIG. 1).

A cushioning member 50 is attached to the inner side surfaces of the first contact wall portion 46 and the second contact wall portion 48, respectively. The cushioning member 50 is made of an elastic member such as rubber as an example, and is set to a size such that it does not protrude from the first contact wall portion 46 and the second contact wall portion 48.

(Action / effect of the first embodiment)
Next, the operation and effect of this embodiment will be described.

According to the present embodiment, as shown in FIG. 1, the outer wall position adjusting jig 24 has a transmission portion 28, a force portion 30, and a pressing portion 32. The transmission portion 28 is provided at a position where the fixing portion 26 which can be fixed to the outer pillar 14 of the building 10 does not overlap with the outer pillar 14 in the thickness direction of the outer wall 18 of the building 10 and the outer wall of the building 10. It has an insertion hole 34 penetrated in the thickness direction of 18. The force portion 30 is partially inserted into the insertion hole 34 and extends indoors. The pressing portion 32 has a contact portion 44 in which a part of the pressing portion 32 is inserted on the side opposite to the side in which the applying portion 30 is inserted in the insertion hole 34 so that the pressing portion 32 can come into contact with the outer wall 18. Therefore, as shown in FIG. 4, when the applying portion 30 is moved from the indoor side toward the outdoor side, the outer wall 18 can be moved to the outdoor side with respect to the outer pillar 14 via the pressing portion 32. it can. That is, the position of the outer wall 18 can be adjusted from the indoor side (note that in FIG. 4, the amount of movement of the outer wall 18 and the amount of deformation of the bracket 20 are exaggerated to show the movement in an easy-to-understand manner). Thereby, the unevenness between the adjacent outer walls 18 can be corrected regardless of the width of the joint.

Further, since the applying portion 30 is composed of a cylindrical member whose longitudinal direction is the thickness direction of the outer wall 18 and is fitted into the insertion hole 34 by a screw action, the applying portion 30 can be rotated. The force unit 30 can be moved from the indoor side to the outdoor side. Therefore, by adjusting the amount of rotation of the applying portion 30, the amount of movement of the applying portion 30 can be easily changed, so that the position of the outer wall 18 via the pressing portion 32 can be easily adjusted.

Further, the pressing portion 32 has a pressing shaft portion 42 composed of a long member whose longitudinal direction is the thickness direction of the outer wall 18, and the pressing shaft portion 42 is inserted into the insertion hole 34. The pressing shaft portion 42 and the insertion hole 34 are formed in a square hole shape or a prismatic shape so as to regulate the rotation of the pressing shaft portion 42 in the longitudinal direction. Therefore, when the force is transmitted from the moving applying force portion 30 and the pressing portion 32 moves, it is possible to prevent the pressing portion 32 from rotating about the axial direction. As a result, it is possible to prevent the contact position between the contact portion 44 and the outer wall 18 from changing due to the rotation of the pressing portion 32, so that the target position of the outer wall 18 can be reliably moved.

Furthermore, since the pressing shaft portion 42 formed in a shape similar to the shape of the insertion hole 34 is inserted into the insertion hole 34 formed in the shape of a square hole, the pressing portion 32 has a simple configuration. It is possible to suppress the rotation about the longitudinal direction of the. As a result, it is possible to suppress the change in the contact position between the contact portion 44 and the outer wall 18, so that the target position of the outer wall 18 can be reliably moved.

Further, since the applying portion 30 is configured so that the cross-sectional shape orthogonal to the longitudinal direction fits within the cross-sectional shape orthogonal to the longitudinal direction of the pressing shaft portion 42, the applying portion 30 is attached to the pressing shaft portion 42. When the pressing portion 30 comes into contact with the end surface of the insertion hole 34 instead of the pressing shaft portion 42, the movement of the pressing portion 30 is restricted and the force cannot be transmitted to the pressing portion 32. Can be done.

Further, since the cushioning member 50 is attached to the abutting portion 44 of the pressing portion 32, it is possible to prevent the outer wall 18 from being damaged when the abutting portion 44 abuts on the outer wall 18. Further, even if the contact position between the contact portion 44 and the outer wall 18 changes due to the change in the position of the outer wall 18 due to the adjustment of the position, the cushioning member 50 can follow the change in the contact position.

Furthermore, the outer wall 18 has a bracket 20 for attaching the outer wall surface material 19 and the outer wall surface material 19 to the outer pillar 14, and the contact portion 44 of the pressing portion 32 can be brought into contact with the bracket 20. Therefore, when the applying portion 30 is moved to the outdoor side, the bracket 20 is deformed via the pressing portion 32 to move the outer wall 18. That is, since the bracket 20 that supports the outer wall material 19 on the outer pillar 14 is deformed, the position of the outer wall 18 is adjusted without applying a load to the outer wall 18 rather than moving the outer wall material 19 by applying a load. It can be performed.

Further, since the contact portion 44 is formed in a shape similar to the shape of the contact position in the bracket 20, the contact portion 44 is moved from the bracket 20 when the load is transmitted from the contact portion 44 to the bracket 20. It is possible to suppress the deviation. Therefore, the load can be efficiently transmitted from the pressing portion 32 to the bracket 20.

(Second Embodiment)
Next, the outer wall position adjusting jig according to the second embodiment of the present invention will be described with reference to FIGS. 5 and 6. The same components as those of the above-described first embodiment are designated by the same numbers, and the description thereof will be omitted.

The outer wall position adjusting jig 60 according to the second embodiment has the same basic configuration as that of the first embodiment, and the fixing portion 62 and the transmitting portion 64 are integrally configured, and the regulating member 66 is formed. The feature is that is provided.

That is, as shown in FIG. 5, an outer wall position adjusting jig 60 is attached to the indoor side surface 14B of the outer pillar 65 made of wood. The outer wall position adjusting jig 60 has a fixing portion 62, a transmitting portion 64, a applying portion 30, a pressing portion 32, and a regulating member 66.

The fixing portion 62 has a pair of grip portions 68 and a bolt member 70 that connects the grip portions 68 to each other. The grip portion 68 is formed with an insertion hole 72 into which the bolt member 70 is inserted. As a result, the distance between the pair of grips 68 can be changed along the longitudinal direction of the bolt member 70, and the nut 74 is attached to the bolt member 70 while the outer pillar 65 is gripped by the pair of grips 68. By screwing and fastening, the pair of gripping portions 68 and thus the fixing portion 62 can be fixed to the outer pillar 65.

The transmission portion 64 is integrally formed with one side of the pair of grip portions 68, and is attached so as to project to one side in the horizontal direction with the grip portion 68. As a result, the transmission unit 64 can be arranged at a position where the outer pillar 65 and the outer wall 18 do not overlap in the thickness direction. Further, the transmission portion 64 is provided with an insertion hole 76. The insertion hole 76 is a through hole penetrated in the horizontal direction and in the thickness direction of the outer wall 18, and includes a square hole portion 80 as a part of the rotation restricting portion and a nut portion 38 inside. Has been done. The square hole portion 80 constitutes the outdoor side of the insertion hole 76, and has a hexagonal cross-sectional shape cut along the vertical direction of the building (see FIG. 6). That is, the square hole portion 80 is formed in a square hole shape.

The pressing portion 32 is inserted into the square hole portion 80, and the applying portion 30 is inserted into the nut portion 38. Further, the pressing shaft portion 42 of the pressing portion 32 is inserted through the regulating member 66. The regulating member 66 can be fixed at a position separated from the fixing portion 62, specifically, on the side surface 14A of the outer pillar 65, and has a through hole 84 penetrating in the thickness direction of the outer wall 18. There is. The pressing shaft portion 42 is inserted into the through hole 84.

(Action / effect of the second embodiment)
Next, the operation and effect of the second embodiment will be described.

Even with the above configuration, the fixing portion 62 and the transmission portion 64 are integrally configured, and the outer wall position adjusting jig 24 of the first embodiment is configured in the same manner as the outer wall position adjusting jig 24 except that the regulating member 66 is provided. Therefore, the same effect as that of the first embodiment can be obtained. Further, the outer wall position adjusting jig 60 has a regulating member 66 that can be attached at a position separated from the fixing portion 62 on the outer pillar 65. The restricting member 66 restricts the movement of the outer wall 18 of the pressing portion 32 in a direction other than the thickness direction through which the pressing portion 32 is inserted. Therefore, when the load is transmitted from the applying portion 30 to the pressing portion 32, the pressing portion 32 can be efficiently moved to the outer wall side. As a result, the position of the outer wall 18 can be adjusted efficiently.

In the second embodiment described above, the regulation member 66 is provided, but the present invention is not limited to this, and the configuration may not include the regulation member 66.

Further, in the first embodiment and the second embodiment described above, the square hole portions 36 and 80 have a rectangular or hexagonal cross-sectional shape, but the cross-sectional shape is not limited to this and may be a triangular shape or other square holes. May be good. Further, the pressing shaft portion 42 is made of a cylindrical member, and the insertion holes 34 and 76 into which the pressing shaft portion 42 is inserted are formed in a cylindrical shape to form protrusions, grooves, etc. on the outer peripheral surface of the cylindrical member and the insertion holes. By forming fitting portions that fit into the protrusions, grooves, or the like on the 34 and 76, the rotation of the pressing shaft portion 42 in the longitudinal direction may be restricted.

Further, the contact portion 44 is formed in a shape similar to a part of the bracket 20, but is not limited to this, and may have a hemispherical shape or another shape. Further, the abutting portion 44 is configured to abut on the bracket 20, but the present invention is not limited to this, and the abutting portion 44 may be configured to abut on other parts such as the outer wall surface material 19 and the outer wall frame. Further, the contact portion 44 is provided with the cushioning member 50, but the present invention is not limited to this, and a configuration in which the cushioning member 50 is not provided may be used.

Furthermore, although the applying force portion 30 is formed with screws, the present invention is not limited to this, and a configuration in which there is no screw and the load is received from the indoor side to the outdoor side to move may be used, or any other configuration may be used. May be.

Further, the pressing portion 32 and the applying portion 30 are separate members, but the present invention is not limited to this, and the pressing portion 32 and the applying portion 30 may be formed of the same member.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above, and it is possible to carry out various modifications other than the above within a range not deviating from the gist thereof. Of course.

10 Building 14 Outer pillar (framework)
18 Outer wall 20 Bracket 24 Outer wall position adjustment jig 26 Fixing part 28 Transmission part 30 Applying part 32 Pressing part 34 Insertion hole 42 Pressing shaft part 44 Contact part 50 Cushioning member 60 Outer wall position adjusting jig 62 Fixing part 64 Transmission part 66 Regulator 76 Insertion hole

Claims (9)

A fixed part that can be fixed to the frame of a building with an outer wall,
A transmission portion provided in the fixing portion, provided at a position not overlapping with the skeleton in the thickness direction of the outer wall, and provided with an insertion hole penetrated in the thickness direction of the outer wall of the building.
A force part that is partially inserted into the insertion hole and extends indoors,
A pressing portion having a contact portion in the insertion hole, which is partially inserted on the side opposite to the side where the force portion is inserted and is capable of contacting the outer wall.
Outer wall position adjustment jig with. The force portion is formed of a cylindrical member whose longitudinal direction is the thickness direction of the outer wall, and the force portion is fitted into the insertion hole by a screw action.
The outer wall position adjusting jig according to claim 1. The pressing portion has a pressing shaft portion that is composed of a long member whose longitudinal direction is the thickness direction of the outer wall and is inserted into the insertion hole.
The pressing shaft portion and the insertion hole are each provided with a rotation restricting portion that regulates rotation in the longitudinal direction of the pressing shaft portion.
The outer wall position adjusting jig according to claim 1 or 2. The rotation restricting portion is composed of the insertion hole formed in a square hole shape and the pressing shaft portion formed in a shape similar to the shape of the insertion hole.
The outer wall position adjusting jig according to claim 3. The force portion is configured so that the cross-sectional shape orthogonal to the longitudinal direction fits within the cross-sectional shape orthogonal to the longitudinal direction of the pressing shaft portion.
The outer wall position adjusting jig according to claim 4. A cushioning member is attached to the contact portion of the pressing portion.
The outer wall position adjusting jig according to any one of claims 1 to 5. The outer wall has an outer wall material and a bracket for attaching the outer wall material to the skeleton.
The contact portion of the pressing portion is capable of contacting the bracket.
The outer wall position adjusting jig according to any one of claims 1 to 6. The contact portion is formed in a shape similar to the shape of the contact position in the bracket.
The outer wall position adjusting jig according to claim 7. It is possible to attach the pressing portion to a position separated from the fixing portion in the skeleton, and a restricting member is provided through which the pressing portion is inserted and restricts the movement of the pressing portion other than in the thickness direction of the outer wall.
The outer wall position adjusting jig according to any one of claims 1 to 8.

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