JP6967641B2 - Positioning connection structure of building materials and its positioning connection method - Google Patents

Description

The present invention relates to a structure and a method for connecting building materials both arranged outside the opening by positioning them in the penetrating direction of the opening, for example, in a switchgear such as a sliding door device or a hinged door device. It can be used for building materials arranged outside the opening that is opened and closed.

Since a switchgear such as a sliding door device is arranged in an opening formed in the wall, the opening that is opened and closed by the door of the switchgear and becomes an entrance / exit forms the frame of the wall on the outside of this opening. A member for forming a frame in which at least a part of the inside is an opening, and a plurality of building materials made of a frame-side member connected to the skeleton-side member are arranged. It is formed by. The following Patent Document 1 shows various building materials both arranged outside the opening.

Japanese Unexamined Patent Publication No. 2013-2093 (Fig. 1)

The building materials, each of which is disposed outside the opening, are required to be appropriately disposed at the correct position in the penetration direction of the opening in order to form the opening as predetermined, and therefore, the operator. Is performing the work of arranging each building material while positioning it in the penetrating direction of the opening, and it is not preferable from the viewpoint of work efficiency that a lot of labor and time are required for this positioning work.

An object of the present invention is to provide a structure for locating a building material and a method for locating the building material so that the building materials both arranged outside the opening can be positioned and arranged in the penetrating direction of the opening. be.

In the positioning structure of the building material according to the present invention, of the two building materials both arranged outside the opening, one building material is positioned and arranged in the penetrating direction of the opening with respect to the other building material. It is a structure for positioning the building material, and at least one of the building materials is a building material provided with a pair of flange portions at intervals in the penetrating direction of the opening, and is located in the other building material. A protruding member is attached, and both ends of the opening in the positioning member in the penetrating direction are in contact with the inner surface of the pair of flanges of the one building material, so that the one building material is the other building material. It is characterized in that it is positioned and arranged in the penetrating direction of the opening.

In this building material positioning structure, at least one of the two building materials arranged outside the opening is a building material provided with a pair of flanges at intervals in the penetrating direction of the opening. There is, and a positioning member is attached to the other building material, and both ends of the opening in the positioning member in the penetrating direction are in contact with the inner surface of the pair of flanges of one building material, so that one building material is in contact with the other. Since the building material is positioned and arranged in the penetrating direction of the opening, both ends of the opening in the penetrating direction come into contact with the inner surface of the pair of flanges of one building material. It can be easily performed by the positioning member, and the improvement of work efficiency can be achieved.
In the above-mentioned building material positioning structure according to the present invention, the positioning member is attached to the other building material, and both ends of the opening in the positioning portion of the positioning member in the penetrating direction are provided in one building material. Since it is in contact with the inner surface of the pair of flange portions, it can be said that the positioning member temporarily connects one building material and the other building material by the positioning member.

Further, in the building material positioning structure according to the present invention, the building material provided with a pair of flange portions at intervals in the penetrating direction of the opening may be only one building material, and both one building material and the other building material. But it may be.

Both one building material and the other building material are building materials provided with a pair of flange portions, and both ends of the positioning member in the penetrating direction of the opening are brought into contact with the inner surfaces of the pair of flange portions of both building materials. Then, the positioning member is positioned and arranged in the penetrating direction of the opening with respect to the other building material to which the positioning member is attached. Therefore, one building material and the other building material are placed in the opening. It will be possible to position and dispose of it more accurately in the penetration direction.

Further, in the present invention, the positional relationship between one building material and the other building material is arbitrary. That is, one building material and the other building material may be a building material arranged in parallel with each other, or may be a building material arranged at an angle with each other.

Further, one building material may include a building material arranged in parallel with the other building material and a building material arranged at an angle with the other building material. In this case, the other building material and the other building material. The building material arranged at an angle is arranged at the end of the building material arranged in parallel with the other building material in the length direction, and the building material arranged in parallel with the other building material by the positioning member. , Both the other building material and the building material arranged at an angle may be positioned and arranged in the penetrating direction of the opening with respect to the other building material.

Further, in the above-mentioned positioning structure of the building material according to the present invention, one building material is a frame-side member for a framework for forming an opening in at least a part of the inside, and the other building material is the frame-side. It may be a skeleton side member to which the members are connected. Further, both one building material and the other building material may be frame-side members for a framework forming an opening in at least a part of the interior, and further, both one building material and the other building material may be used. , It may be a frame side member.

The skeleton side member may be the skeleton member itself, or may be a base member coupled to the skeleton member, that is, a base member of the skeleton member. Further, the frame-side member may be the frame member itself for the above-mentioned framework, or may be a base member coupled to the frame member, that is, a base member of the frame member.

Further, the positioning member according to the present invention is provided on at least one of the two building materials in which both ends of the positioning member in the penetrating direction of the opening are arranged outside the opening. Any shape may be used as long as one building material can be positioned in the penetrating direction of the opening with respect to the other building material by contacting the inner surface of the pair of flange portions. The ejection member is a member having a plate-shaped positioning portion extending from the other building material toward one building material. Further, the positioning member of another example is a member provided with a pair of flange portions at intervals in the penetrating direction of the opening, that is, a channel material, an H-shaped steel, or the like, like one building material.

Further, when the positioning member is a member having a plate-shaped positioning portion extending from the other building material toward one building material as described above, the positioning member can be attached to the other building material. It may have a plate-shaped base portion, and a plate-shaped positioning portion may extend from the base portion toward the one building material.

According to this, the entire positioning member can be formed of a plate material, and the cost of the positioning member can be reduced.

Further, of the two building materials both arranged outside the opening, at least one of the building materials has a web portion for connecting the pair of flange portions provided in the one building material. In some cases, the positioning member may be formed of a springy material from at least the connection portion between the plate-shaped base portion and the plate-shaped positioning portion to the tip portion of the plate-shaped positioning portion. good.

According to this, even if the tip of the positioning portion of the positioning member abuts on the web portion of one of the building materials during the positioning work, the positioning member has a plate-shaped base portion and a plate-shaped positioning portion. The springiness of the plate-shaped positioning part from the connection part to the tip of the plate-shaped positioning part makes it possible for the positioning part to be elastically deformed, thereby causing one building material and the other building material. One building material can be positioned with respect to the other building material until the distance from and is sufficiently small.

The method for locating a building material according to the present invention is to position one of the two building materials arranged outside the opening in the penetrating direction of the opening with respect to the other building material. This is a method for locating a building material, and at least one of the building materials is a building material provided with a pair of flange portions at intervals in the penetrating direction of the opening, and is located in the other building material. It includes a work step for attaching a feeding member and a working step for bringing both ends of the opening in the positioning member in the penetrating direction into contact with the inner surface of the pair of flanges of the one building material. It is characterized by that.

In this method of locating building materials, at least one of the two building materials arranged outside the opening is a building material provided with a pair of flanges at intervals in the penetrating direction of the opening. Yes, to attach a positioning member to the other building material of the two building materials, and to bring both ends of the positioning member in the penetrating direction of the opening into contact with the inner surface of the pair of flanges of one building material. As a result, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and this positioning work is performed by pairing both ends of the opening in the positioning member in the penetrating direction with one building material. It can be easily performed by the simple work of contacting the inner surface of the flange portion of the above, and the work efficiency can be improved.

In the present invention described above, of the two building materials both arranged outside the opening, the one building material provided with a pair of flange portions at intervals in the penetrating direction of the opening is such a building material. As long as it is a building material provided with a pair of flange portions, it may be a building material having an arbitrary shape, and may be, for example, a channel material (grooved steel) or an H-shaped steel.

Further, of the two building materials both arranged outside the opening, the other building material is also a building material provided with a pair of flanges at intervals in the penetrating direction of the opening. The building material may be a building material having an arbitrary shape as long as it is a building material provided with such a pair of flange portions, and may be, for example, a channel material (grooved steel) or an H-shaped steel.

Further, in the present invention, the above-mentioned opening may be opened / closed by the door of the opening / closing device arranged in the opening, or may not be opened / closed and may always maintain the open state. The opening / closing device may be a sliding door device, a hinged door device, a folding door device, or the like.

Further, the opening may be formed only in a part of the inside of the framework, or may be formed in the whole inside of the framework.

Further, the framework may be composed of a three-sided framework, that is, a left and right frame member and an upper frame member, or a four-sided framework, that is, a left and right frame member, an upper frame member, and a lower frame member. It may be a thing.

According to the present invention, it is possible to obtain the effect that the building materials both arranged outside the opening can be positioned and arranged in the penetrating direction of the opening.

FIG. 1 is a front view showing a wall and a sliding door device provided with a framework to which the structure and method according to the embodiment of the present invention are applied. FIG. 2 is a front view showing the surface material of the wall and the door of the sliding door device removed from FIG. FIG. 3 is a cross-sectional view taken along the line S3-S3 of FIG. FIG. 4 is a cross-sectional view taken along the line S4-S4 of FIG. FIG. 5 is a cross-sectional view taken along the line S5-S5 of FIG. FIG. 6 is a partially enlarged view of FIG. 2, which is a transom light, a vertical frame member on the door end side, and a door tail, which are frame members for forming a framework in which a part of the inside is an opening. It is a front view which shows the state after the positioning work about the base member of a side vertical frame member, and the base member of a horizontal skeleton member which is a skeleton member of a wall. FIG. 7 is a partial perspective view of FIG. FIG. 8 shows, among the positioning members shown in FIGS. 1 and 2, a positioning member for positioning the blind base member with respect to the base member of the horizontal frame member of the wall, and a blind base member. It is a front view which shows the base member of the horizontal frame member of a wall. FIG. 9 is a perspective view showing the positioning member of FIG. 8, the plain base member, and the base member of the horizontal frame member of the wall. FIG. 10 shows a bolt and its surrounding structure which are means for adjusting the height positions of the door end side vertical frame member and the door end side vertical frame member shown in FIGS. 2, 3, and 4. It is a side sectional view showing. FIG. 11 is a front view of a partial cross section showing the bolt of FIG. 10 and a wrench for rotating the bolt. FIG. 12 shows a work for positioning and connecting a framework formed of a transom light, a vertical frame member on the door end side, and a vertical frame member on the door end side with respect to a vertical frame member and a horizontal frame member of a wall. It is a front view which shows. FIG. 13 is a front view showing the work for locating the blind base member with respect to the base member of the horizontal frame member of the wall during the work of FIG. FIG. 14 is a perspective view showing another embodiment of the structure for connecting the end portion of the connecting member shown in FIGS. 2 to 5 and the like to the base member of the frame member.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows a framework 1 forming an outer contour of a sliding door device in which a door 2 is movable in the left-right direction, and a partition body for partitioning two spaces in a building, for example, a living room space and a corridor. A wall 3 is shown, and an opening S opened and closed by the door 2 of the sliding door device is formed on the wall 3. The wall 3 includes a plurality of vertical skeleton members 4 extending in the vertical direction, a plurality of horizontal skeleton members 5 extending in the horizontal direction, and gypsum boards attached to both the front and back surfaces of the vertical skeleton members 4 and the horizontal skeleton members 5. It is formed by including a surface base surface material and a surface finishing material such as a vinyl sheet attached to the surface of the surface base surface material.

Therefore, the vertical skeleton member 4 and the horizontal skeleton member 5 are building materials forming the wall 3, are skeleton members of the wall 3, and are also skeleton side members of the wall 3.

When the door 2 that closed the opening S that is the entrance / exit that penetrates the wall 3 is moved to the right side in FIG. 1 to open the opening S, it is formed inside the wall 3 adjacent to the opening S. The door 2 is stored in the door bag 6. Therefore, the door pocket 6 of the present embodiment is a wall storage type provided inside the wall 3.

FIG. 2 shows a front view of the door 2 and the wall 3 of the sliding door device excluding the surface base surface material and the surface finishing material. As shown in FIG. 2, the framework 1 forming the outer contour of the sliding door device includes a door end side vertical frame member 10, a door tail side vertical frame member 11, and these door end side vertical frames. It is formed by a transom 12 installed between the upper part of the frame member 10 and the vertical frame member 11 on the door tail side, and the transom 12 is a frame member on the upper part of the framework 1.

Therefore, the door end side vertical frame member 10, the door end side vertical frame member 11, and the transom light 12 are building materials forming the framework 1, and are frame members of the framework 1. Further, in the door end side vertical frame member 10, the door end side vertical frame member 11, and the transom light 12, the vertical skeleton member 4 and the horizontal skeleton member 5 are the skeleton side members of the wall 3 as described above. It also serves as a frame-side member for the framework 1.

As can be seen from FIG. 1, the transom 12 has a length in the left-right direction straddling the opening S and the door pocket 6, and the upper end is connected to the transom 12 at the boundary between the opening S and the door pocket 6. A vertical frame member 13 having a length extending downward is provided. The vertical frame member 13 is shown by a two-dot chain line in FIG.

Therefore, in the present embodiment, the opening S, which is the entrance / exit for people to enter / exit, is composed of the door end side vertical frame member 10, the transom light 12, the vertical frame member 13, and the floor 14 of the opening S. It is an enclosed space, and therefore the opening S is formed in a part of the interior of the framework 1. The vertical skeleton member 4 and the horizontal skeleton member 5 forming the wall 3 are building materials arranged on the outside of the opening S, specifically, on the left or right side of the opening S and on the upper side. The door end side vertical frame member 10, the door end side vertical frame member 11, and the transom light 12 forming the frame 1 are also building materials arranged outside the opening S.

Note that FIG. 1 also shows a reinforcing member 7 erected between the vertical frame member 13 and the door tail side vertical frame member 11 in order to secure the strength of the door pocket 6.

Inside the mainspring 12, a movement mechanism (not shown) for making the door 2 movable in the left-right direction is housed and arranged, and this movement mechanism is located at the upper end of the door 2 which is suspended from above. The figure is for the rail member to which the provided roller is rotatably engaged and the wire attached to the inside of the mainspring 12 and the wire to be laid between the door 2 and the door 2 to open the opening S. 1 When the door 2 is moved to the right, a spring force is accumulated in the spring, and the door 2 is closed and moved by the accumulated spring force.

3, FIG. 4 and FIG. 5 are sectional views taken along the line S3-S3, S4-S4 and S5-S5 of FIG. As shown in FIG. 5, the transom 12 is formed with an inspection port 9 closed by a removable cover member 8 on one side of the opening S in the penetrating direction, and the cover member 8 is formed. By removing it, maintenance, inspection work, etc. of the moving mechanism can be performed from the inspection port 9. These cover members 8 and inspection openings 9 are provided only at the portion corresponding to the opening S in the total length of the transom light 12.

As shown in FIG. 3, in the door end side vertical frame member 10 which is the frame member on the closed side of the door 2 in the framework 1, the base member 20 of the door end side vertical frame member 10 is a screw 30. Further, as shown in FIG. 4, the door tail side vertical frame member 11 which is a frame member on the opening side of the door 2 in the framework 1 has the door tail side vertical frame member. The base member 21 of 11 is connected by a screw 31, and as shown in FIG. 5, the base member 22 of the transom 12 is a screw 32 on the transom 12 which is the frame member on the upper part of the frame 1. It is combined with. A plurality of these screws 30, 31, and 32 are provided in the length direction of the door end side vertical frame member 10, the door tail side vertical frame member 11, and the transom light 12.

The base members 20, 21 and 22, which are rod-shaped members, are the building materials arranged on the outside of the opening S, similarly to the door end side vertical frame member 10, the door tail side vertical frame member 11, and the transom light 12. At the same time, it is also a building material forming the framework 1, and the base members 20, 21 and 22, are the same as the door end side vertical frame member 10, the door end side vertical frame member 11, and the transom light 12. It is also a frame-side member for the framework 1.

Further, among the vertical skeleton members 4 of the wall 3 shown in FIGS. 1 and 2, the vertical skeleton member 4A facing the door end side vertical frame member 10 in the left-right direction is shown in FIG. As shown above, the base member 40 of the vertical skeleton member 4A is connected by the screw 50, and among the vertical skeleton members 4 of the wall 3 shown in FIGS. 1 and 2, the door tail side vertical frame member 11 and As shown in FIG. 4, the base member 41 of the vertical skeleton member 4B is connected to the vertical skeleton member 4B facing in the left-right direction by a screw 51. Further, among the horizontal skeleton members 5 of the wall 3 shown in FIGS. 1 and 2, the horizontal skeleton member 5A facing the transom light 12 in the vertical direction has the same as shown in FIG. The base member 42 of the horizontal frame member 5A is connected by the screw 52. A plurality of these screws 50, 51, 52 are provided in the length direction of the vertical skeleton members 4A, 4B and the horizontal skeleton members 5A.

Regarding the screws 50 and 51, the directions of the screws 50 and 51 are reversed from the directions shown in FIGS. 3 and 4, and the head of the screws 50 and 51 is oriented toward the door end side vertical frame member 10 side. The vertical skeleton member 4A and the base member 40 may be connected to each other, and the vertical skeleton member 4B and the base member 41 may be connected by a screw 51 whose head is directed toward the door tail side vertical frame member 11. You may do it.

The base members 40, 41, 42, which are rod-shaped members like the base members 20, 21 and 22, are arranged outside the opening S like the vertical skeleton members 4A and 4B and the horizontal skeleton side members 5A. It is a building material as well as a building material for the wall 3, and the base members 40, 41, 42 also serve as a skeleton side member for the wall 3 like the vertical skeleton portions 4A, 4B and the horizontal skeleton side member 5A. ing.

Each of the base members 20, 21, 22, 40, 41, 42 has a pair of flange portions 61, 62 provided at intervals in the penetrating direction of the opening S, and the flange portions 61, 62. It is formed of a channel material composed of a web portion 63 that connects the base portions to each other. Further, as shown in FIG. 3, the base member 20 of the door end side vertical frame member 10 and the base member 40 of the vertical frame member 4A are arranged so that their opening sides face each other in the left-right direction. As shown in FIG. 4, the base member 21 of the door tail side vertical frame member 11 and the base member 41 of the vertical frame member 4B are also arranged so that their opening sides face each other in the left-right direction. As shown in the above, the base member 22 of the transom light 12 and the base member 42 of the horizontal frame member 5A are arranged so that their opening sides face each other in the vertical direction.

In FIGS. 1 and 2, the transom light 12, the door end side vertical frame member 10 and the door end side vertical frame member 11 are positioned in the penetrating direction of the opening S with respect to the base member 42 of the horizontal frame member 5A. In addition to showing the positioning members 70 and 71 for positioning, the positioning member 72 for positioning the transom 12 in the penetrating direction of the opening S with respect to the base member 42 of the horizontal frame member 5A is also shown. There is. 6 and 7 show positioning members 70 and 71 arranged near both ends of the transom 12 in the length direction, and FIGS. 8 and 9 show the positioning members 70 and 71 arranged in the middle of the transom 12 in the length direction. The positioned member 72 is shown. As shown in FIGS. 1 and 2, a plurality of the positioning members 72 are provided in the left-right direction, which is the length direction of the transom light 12.

As shown in FIGS. 7 and 9, the entire positioning members 70, 71, 72 are formed by a leaf spring having a width dimension of W1 in the penetrating direction of the opening S. (Although only the positioning member 70 is shown in FIG. 7, the positioning member 71 is the same as the positioning member 70.) Further, these positioning members 70, 71, 72 are plate-shaped. A plate shape that is bent from the base portions 70A, 71A, 72A and the left-right end portions of the base portions 70A, 71A, 72A, that is, the end portions in the moving direction of the door 2, and extends at a downward angle. It is composed of positioning portions 70B, 71B, 72B.

Further, as can be seen from FIGS. 7 and 9, the plate-shaped base portions 70A, 71A, 72A of the positioning members 70, 71, 72 are base members of the horizontal frame member 5A and are formed of a channel material. It is inserted into the inside of the base member 42, and is attached to the inner surface of the web portion 63 of the base member 42 by a fastener such as a screw or welding. Further, the plate-shaped positioning portions 70B and 71B of the positioning members 70 and 71 are a pair of flange portions of the base members 40 and 41 which are the base members of the vertical frame members 4A and 4B and are formed of the channel material. It is inserted between 61 and 62, and is also inserted between the pair of flange portions 61 and 62 of the base member 22 which is a base member of the transom light 12 and is formed of a channel material. The plate-shaped positioning portion 72B of the positioning member 72 is inserted between the pair of flange portions 61 and 62 of the base member 22 of the transom light 12.

Further, as shown in FIGS. 7 and 9, the door end side vertical frame member 10, the door tail side vertical frame member 11, transom light 12, vertical skeleton members 4A and 4B, and screws 30 on the horizontal skeleton member 5A, The distance between the inner surfaces of the pair of flange portions 61, 62 provided on the base members 20, 21, 22, 40, 41, 42 connected by 31, 32, 50, 51, 52 is W2 (FIG. 7). Although only the base member 40 of the vertical skeleton member 4A is shown, the same applies to the base member 41 of the vertical skeleton member 4B.) This interval W2 is the above-mentioned width of the positioning members 70, 71, 72. It is the same as the dimension W1 or slightly smaller than the width dimension W1.

Therefore, both ends of the positioning portions 70B, 71B, 72B of the positioning members 70, 71, 72 in the penetrating direction of the opening S are the pair of flange portions 61 of the base members 20, 21, 22, 40, 41, 42. , 62 can be contacted with the inner surface or with elastic force.

Therefore, as described above, the plate-shaped base portions 70A, 71A, 72A of the positioning members 70, 71, 72 are welded or welded to the inner surface of the web portion 63 of the base member 42 of the horizontal frame member 5A. When attached with, both ends of the openings S in the base portions 70A, 71A, 72A in the penetrating direction come into contact with the inner surfaces of the pair of flange portions 61, 62 of the base member 42, whereby the positioning member 70, 71 and 72 are positioned in the penetrating direction of the opening S and attached to the base member 42.

Further, in the present embodiment, the shaft portion of the screw 52 of FIG. 5 in which the base member 42 is connected to the horizontal frame member 5A is screwed into a screw hole formed in the web portion 63 of the base member 42. However, the hole 64 formed in the skeleton member 5A for inserting the shaft portion of the screw 52 is a long hole long in the penetrating direction of the opening S.

In addition, the direction of the screw 52 is turned upside down, and a hole 64 which is a long hole long in the penetrating direction of the opening S is formed in the web portion 63 of the base member 42, whereby the head is on the lower side. The shaft portion of the screw 52 may be inserted into the elongated hole 64, and the shaft portion may be screwed into the screw hole formed in the horizontal frame member 5A.

As described above, when inserting the positioning portions 70B and 71B of the positioning members 70 and 71 between the pair of flange portions 61 and 62 of the base members 40 and 41 of the vertical frame members 4A and 4B, loosen the screw 52. After that, if the positioning portions 70B and 71B of the positioning members 70 and 71 are inserted between the pair of flange portions 61 and 62 of the base members 40 and 41 of the vertical frame members 4A and 4B, the horizontal frame is inserted. When the positions of the base member 42 of the member 5A and the base members 40 and 41 of the vertical frame members 4A and 4B are displaced in the penetrating direction of the opening S, the positioning portions 70B and 70A of the positioning members 70 and 71 By bringing both ends of the opening S in the penetrating direction into contact with the inner surfaces of the pair of flange portions 61, 62 of the base members 40, 41, the base member 42 of the horizontal body member 5A moves in the length direction of the elongated hole 64. That is, the elongated hole 64 serves as a means for absorbing the above-mentioned deviation, whereby the base member 42 penetrates the opening S with respect to the base members 40 and 41 of the vertical frame members 4A and 4B. After this positioning, the screw 52 is tightened.

Before tightening the screw 52, the base member 42 to which the positioning members 70 and 71 are attached and which is the above-mentioned skeleton side member, and the base members 40 and 41 which are also the skeleton side members. However, they are temporarily connected by the positioning members 70 and 71.

Further, after tightening the screw 52, as described above, the positioning portions 70B of the positioning members 70, 71, 72 in which the base portions 70A, 71A, 72A are attached to the web portion 63 of the base member 42 with screws or the like, 71B, 72B are inserted between the pair of flange portions 61, 62 of the base member 22 of the transom light 12, and both ends of the positioning portions 70B, 71B, 72B in the penetration direction of the opening S are paired flange portions. When the work for contacting the inner surfaces of 61 and 62 is performed, the base member 22 is formed in the opening S with reference to the base members 40 and 41 of the vertical frame members 4A and 4B and the base member 42 of the horizontal frame member 5A. It will be positioned in the penetration direction, that is, the transom 12 to which the base member 22 is preliminarily connected by the screw 32 in FIG. 5 is the base member 40, 41 of the vertical frame members 4A, 4B and the horizontal frame member. The position of the opening S in the penetrating direction is determined with reference to the base member 42 of 5A, whereby the above-mentioned above-mentioned vertical frame member 10 on the door end side, the vertical frame member 11 on the door end side, and the transom light 12 are formed. It is also possible to position the opening S with respect to the framework 1 in the penetrating direction.

When the above positioning work is performed, the positioning members 70, 71, 72 result in the above-mentioned base member 22 which is the frame side member and the above-mentioned base member 40, 41, which is the skeleton side member. The 42 is temporarily connected by the positioning members 70, 71, 72.

According to the above positioning work, the base members 40 and 41 of the vertical skeleton members 4A and 4B and the base member 42 of the horizontal skeleton member 5A are building materials arranged at an angle of 90 degrees to each other. By positioning the base member 42 to which the protrusion members 70 and 71 are attached in the penetrating direction of the opening S by the positioning members 70 and 71 with respect to the base members 41 and 42, an angle of 90 degrees is formed with each other. The building materials are temporarily connected by the positioning members 70 and 71 and are positioned.

Further, the base member 42 of the horizontal frame member 5A and the base member 22 of the transom 12 are building materials arranged in parallel with each other, and the base member to which the positioning members 70, 71, 72 are attached. By positioning the base member 22 with respect to 42 in the penetration direction of the opening S by the positioning members 70, 71, 72, the building materials parallel to each other are moved by the positioning members 70, 71, 72. It will be temporarily connected and positioned.

In this embodiment, as can be seen from FIGS. 6 and 7, the positioning portions 70B and 71B of the positioning members 70 and 71 are the base members 22, 40 and 41 of the transom light 12 and the vertical frame members 4A and 4B. Although it is inserted only inside the base members 20 and 21 of the door end side vertical frame member 10 and the door tail side vertical frame member 11 described above, it is not inserted inside the positioning parts 70 and 71. The 70B and 71B are also inserted inside the base members 20 and 21, whereby both ends of the positioning portions 70B and 71B in the penetration direction of the opening S are inserted into the pair of flange portions 61 and 62 of the base members 20 and 21. It may also be brought into contact with the inner surface.

According to this, the base member 42 of the horizontal frame member 5A and the base member 22 of the blind 12 are building materials arranged in parallel with each other as described above, and the door end side vertical frame member 10 As shown in FIG. 6, the base members 20 and 21 of the door tail side vertical frame member 11 are building materials arranged at the end portions of the base member 22 of the blind 12 in the length direction. At the same time, the base member 42 of the horizontal frame member 5A, the door end side vertical frame member 10, and the base members 20 and 21 of the door end side vertical frame member 11 are building materials arranged at an angle of 90 degrees with each other. Therefore, the base member 42 to which the positioning members 70 and 71 are attached does not have an angle of 90 degrees with the base member 22 which is a building material arranged in parallel with the base member 42. Both the base members 20 and 21 which are the building materials arranged in the above position can be temporarily connected by the positioning members 70 and 71 for positioning.

Further, as described above, both ends of the opening S in the base portions 70A, 71A, 72A of the positioning members 70, 71, 72 in the penetrating direction are the bases to which these positioning members 70, 71, 72 are attached. Since they are in contact with the inner surfaces of the pair of flange portions 61, 62 of the member 42, these positioning members 70, 71, 72 are mounted in the base member 42 so as to be positioned in the penetrating direction of the opening S. Therefore, the base member 42 and the base member 20, 21, 22, 40, 41 can be more accurately positioned in the penetrating direction of the opening S.

Further, since the entire positioning members 70, 71, 72 are formed by leaf springs as described above, the positioning members 70, 71, 72 are at least plate-shaped with the plate-shaped base portions 70A, 71A, 72A. It has a spring property from the connection portion with the positioning portion 70B, 71B, 72B of the above to the tip portion of the plate-shaped positioning portion 70B, 71B, 72B. Therefore, when the tip portions of the positioning portions 70B, 71B, 72B come into contact with the transom 12 and the web portions 63 of the base members 22, 40, 41 of the vertical frame members 4A, 4B, the positioning portions 70B, 71B, 72B Can be elastically curved and deformed, or the angle formed by the base portions 70A, 71A, 72A and the positioning portions 70B, 71B, 72B can be elastically changed. Therefore, until the tip portions of the positioning portions 70B, 71B, 72B abut on the web portions 63 of the base members 22, 40, 41, the positioning portions 70B, 71B, 72B are placed inside the base members 22, 40, 41. Since it can be sufficiently inserted, even if the base member 22 and the base member 42, the base member 40 and the base member 20, and the base member 41 and the base member 21 approach each other until the distance between them becomes sufficiently small, the positioning member 70, It is possible to perform positioning work between the base member 22 and the base member 42, between the base member 40 and the base member 20, and between the base member 41 and the base member 21 in the penetrating direction of the opening S by the 71 and 72.

It should be noted that the members connected by the above-mentioned screws 30, 31, 32, 50, 51 are connected to each other by, for example, welding performed at a factory without using these screws 30, 31, 32, 50, 51. You may do it.

When the transom 12 which is a constituent member of the framework 1 is positioned in the penetrating direction of the opening S and arranged on the wall 3 by the positioning members 70, 71, 72 as described above, the framework 1 itself Can be positioned on the wall 3 in the penetrating direction of the opening S. As a result, the base member 20 of the door end side vertical frame member 10 shown in FIG. 3 and the base member 40 of the vertical frame member 4A are aligned in the penetrating direction of the opening S, and the door shown in FIG. The base member 21 of the buttock side vertical frame member 11 and the base member 41 of the vertical frame member 4B are also aligned in the penetrating direction of the opening S, and further, with the base member 22 of the transom 12 shown in FIG. The base member 42 of the horizontal body member 5A can also be aligned in the penetrating direction of the opening S. Then, as described above, the positioning members 70, 71, 72 can temporarily connect the base member 42 of the horizontal frame member 5A and the base member 22 of the transom light 12, and the positioning members 70, 71 can be temporarily connected. As described above, the positioning portions 70B and 71B are inserted into the base member 20 of the door end side vertical frame member 10 and the base member 21 of the door tail side vertical frame member 11 to position the positioning members 70 and 71. Therefore, the base member 42 and the base members 20, 21 can be temporarily connected.

In FIGS. 6 and 7, the base member 20 of the door end side vertical frame member 10 and the base member 40 of the vertical frame member 4A are bridged, and these base members 20 and 40 are connected to each other with a gap in the left-right direction. In addition to showing the connecting members 80 and 81 for connecting, the base member 21 of the door tail side vertical frame member 11 and the base member 41 of the vertical frame member 4B are bridged to each other, and the base members 21 and 41 are left and right. Connecting members 82, 83 for connecting with a gap in the direction are shown, and further, they are bridged between the base member 22 of the transom light 12 and the base member 42 of the horizontal frame member 5A, and these base members 22, Connecting members 84 and 85 for connecting 42 to each other with a gap in the vertical direction are also shown.

The connecting members 80, 81, 82, 83, 84, 85 in which a plurality of the base members 20, 21, 22, 40, 41, 42, which are rod-shaped members, are arranged in the length direction, are plate-shaped. It is an elongated member, and as shown in FIGS. 3 to 5, of these connecting members 80, 81, 82, 83, 84, 85, the connecting members 80, 82, 84 are in the length direction. One end is a flange portion 61 of the base member 20 of the door end side vertical frame member 10, a flange portion 61 of the base member 21 of the door end side vertical frame member 11, and a flange portion of the base member 22 of the blind 12. It is connected to 61 with a screw 88 which is a fastener, and the other end portion of the connecting members 80, 82, 84 in the length direction is vertically connected to the flange portion 61 of the base member 40 of the vertical frame member 4A. The flange portion 61 of the base member 41 of the skeleton member 4B and the flange portion 61 of the base member 42 of the horizontal skeleton member 5A are connected to each other by a screw 89 which is a fastener. Further, of the connecting members 80, 81, 82, 83, 84, 85, one end of the connecting members 81, 83, 85 in the length direction is a flange portion of the base member 20 of the door end side vertical frame member 10. 62, the flange portion 62 of the base member 21 of the door tail side vertical frame member 11, and the flange portion 62 of the base member 22 of the blind 12 are connected by a screw 88, and the connecting members 81, 83, 85 are connected. The other end in the length direction is the flange portion 62 of the base member 40 of the vertical skeleton member 4A, the flange portion 62 of the base member 41 of the vertical skeleton member 4B, and the flange portion 62 of the base member 42 of the horizontal skeleton member 5A. And, it is connected with a screw 89.

That is, the connecting members 80, 82, 84 are arranged on one surface in the penetrating direction of the opening S in the base members 20, 21, 22, 40, 41, 42, and the connecting members 81, 83, 85 are the base members. It is arranged on the other surface in the penetrating direction of the opening S at 20, 21, 22, 40, 41, 42.

Further, in the present embodiment, one of the screws 88 and 89, and in the present embodiment, the screw 88 is a normal screw, so that the shaft portion of the screw 88 is a connecting member 80, 81, 82, 83. , 84, 85 is inserted into the holes formed in the flange portions 61, 62 of the base members 20, 21 and 22, and is screwed into the screw holes formed in advance. A shaft portion is inserted into the holes formed in the connecting members 80, 81, 82, 83, 84, 85, and this shaft portion performs thread cutting holes in the flange portions 61, 62 of the base members 40, 41, 42. It is a tex screw that is screwed in.

Further, the connecting members 80, 82, 84 connecting the flange portions 61 of the base members 20, 21 and 22 and the flange portions 61 of the base members 40, 41, 42, and the flange portions of the base members 20, 21 and 22 As shown in FIG. 6, the connecting members 81, 83, 85 connecting the 62 and the flange portions 62 of the base members 40, 41, 42 are arranged in a so-called “sliding state”. That is, the connecting members 80, 82, 84 arranged on one surface of the base member 20, 21, 22, 40, 41, 42 in the penetrating direction of the opening S are in a state of being tilted from the horizontal direction to one side. The connecting members 81, 83, 85 arranged in the other surface of the base member 20, 21, 22, 40, 41, 42 in the penetrating direction of the opening S are located on the other side from the horizontal direction. It is arranged in a state of being tilted to.

Therefore, after rotating the connecting members 80, 81, 82, 83, 84, 85 around the screw 88 and arranging the connecting members 80, 82, 84 and the connecting members 81, 83, 85 in a crossed state. When the connecting members 80, 81, 82, 83, 84, 85 are connected to the base members 40, 41, 42 by the tex screw 89, the base members 20, 21, 22 and the base members 40, 41, 42 are connected to the base member 80. , 81, 82, 83, 84, 85 are connected in the vertical and horizontal directions without misalignment, and the rotation angles of the connecting members 80, 81, 82, 83, 84, 85 centered on the screw 88. Therefore, in the base member 20, the base member 40, and the base member 21 and the base member 41, the base members 20, 21 and the base members 40, 41 can be connected to each other with an appropriate distance in the left-right direction. In the base member 22 and the base member 42, the base member 22 and the base member 42 can be connected by setting an appropriate vertical distance between the base member 22 and the base member 42.

3 and 4 are views of the door end side vertical frame member 10 and the door tail side vertical frame member 11 provided at the lower ends of the door end side vertical frame member 10 and the door tail side vertical frame member 11. A bolt 91 which is a height position adjusting means for adjusting the height position from the floor 14 shown in 1 is shown. As shown in FIG. 10, the shaft portion of the bolt 91 has a plate shape attached to the lower end portion of the base member 20 of the door end side vertical frame member 10 and the base member 21 of the door tail side vertical frame member 11. It is screwed from above into the screw holes 92A formed vertically in the base member 92, and the lower end of the shaft portion of the bolt 91 is in contact with the floor 14.

A hexagonal hole 91A shown in FIG. 11 is formed on the head of the bolt 91, and a hexagonal wrench 93 having a hexagonal ball point portion 93A inserted and engaged in the hexagonal hole 91A is rotated at the tip. By operating the bolt 91, the height positions of the base members 20 and 21 of the door end side vertical frame member 10 and the door end side vertical frame member 11 can be adjusted.

The hexagon wrench 93 has a small gap between the base member 20 of the door end side vertical frame member 10 shown in FIG. 3 and the base member 40 of the vertical frame member 4A, and the door end side shown in FIG. Since it can be inserted into a small gap between the base member 21 of the vertical frame member 11 and the base member 41 of the vertical frame member 4B, it is inserted into these gaps at an angle in the vertical direction, the horizontal direction, and the front-back direction. By rotating the bolt 91 with the hexagon wrench 93, the height positions of the door end side vertical frame member 10 and the door end side vertical frame member 11 are adjusted.

12 and 13 show the door end side vertical frame member 10 and the door tail side vertical frame member 11 constituting the framework 1 in a space surrounded by the vertical frame members 4A and 4B and the horizontal frame member 5A. The work for inserting the eye 12 and positioning the framework 1 in the penetrating direction of the opening S by the positioning members 70, 71, 72 attached to the base member 42 of the horizontal frame member 5A is shown.

Before this work is performed, as described above, the screw 52 shown in FIG. 5 is loosened, and the positioning portions 70B and 71B of the positioning members 70 and 71 are used as the base members 40 of the vertical frame members 4A and 4B. By inserting it between the pair of flange portions 61 and 62 of 41, the positions of the base member 42 of the horizontal skeleton member 5A and the base members 40 and 41 of the vertical skeleton members 4A and 4B are in the penetrating direction of the opening S. When misaligned, both ends of the positioning portions 70B and 70A of the positioning members 70 and 71 in the penetrating direction of the opening S come into contact with the inner surfaces of the pair of flange portions 61 and 62 of the base members 40 and 41. The screw 52 moves in the length direction of the elongated hole 64 in FIG. 5, and the base member 42 of the horizontal skeleton member 5A moves in the penetration direction of the opening S with reference to the base members 40 and 41 of the vertical skeleton members 4A and 4B. It is positioned, and after this positioning, the screw 52 is tightened.

Further, when performing the work shown in FIGS. 12 and 13, the connecting members 80, 81, 82, 83, 84, 85 are connected to the door end side vertical frame member 10 and the door tail side vertical by using only the screw 88 in advance. It is coupled to the base members 20, 21 and 22 of the frame member 11 and the transom light 12. It should be noted that such connecting members 80, 81, 82, 83, 84, 85 are produced in advance at the factory and brought into the work site where the wall 3 and the sliding door device shown in FIG. 1 are installed and constructed. The work for connecting the connecting members 80, 81, 82, 83, 84, 85 to the base members 20, 21, 22 with the screws 88 may be performed at the factory or at the work site.

In the work shown in FIGS. 12 and 13, the height position of the framework 1 including the door end side vertical frame member 10, the door tail side vertical frame member 11, and the transom light 12 is bolted 91 by the hexagon wrench 13 shown in FIG. It is an operation to raise the height by rotating the frame 1, whereby the height position of the framework 1 can be set to an appropriate height with respect to the skeleton member 5A. When the height position of the frame 1 is raised in this way, the base member 42 of the horizontal frame member 5A and the base member 22 of the transom light 12 are positioned inside the base member 22 as shown in FIG. Is temporarily connected by the positioning member 72 to be positioned in the penetrating direction of the opening S to obtain an appropriate height positional relationship, and as described above, the positioning members 70 and 71 are positioned. As shown in FIG. 6, the portions 70B and 71B are inserted into the base member 22, so that the base member 42 and the base member 22 are penetrated through the opening S even by the positioning members 70 and 71. While being positioned in, they are temporarily connected to form an appropriate height positional relationship.

After that, the connecting members 80, 81, 82, 83, 84, 85 are rotated around the screw 88, and the connecting members 80, 81, 82, 83, 84, 85 are subjected to the above-mentioned thread cutting hole processing. The vertical skeleton members 4A, 4B and the horizontal skeleton members 5A are connected to the base members 40, 41, 42 by the tex screw 89, and this connection is connected to the connecting members 80, 82, 84 and the connecting members 81, 83, 85 as described above. And are placed in a crossed state.

As a result, the base member 42 of the horizontal skeleton member 5A, the base member 22 of the transom light 12, the base member 40 of the vertical skeleton member 4A, the base member 20 of the door-to-door vertical frame member 10, and the base member 41 of the vertical skeleton member 4B. The base member 21 of the door tail side vertical frame member 11 is immovably connected in the vertical direction and the horizontal direction, respectively.

Further, the horizontal skeleton member 5A and the blind 21 have a positional error in the height direction, and the vertical skeleton members 4A and 4B, the door end side vertical frame member 10, and the door tail side vertical frame member 11 have a horizontal position error. Even if there is, these errors can be absorbed by the rotation angle around the screw 88 about the connecting members 80, 82, 84 and the connecting members 81, 83, 85 arranged in the slanted state. ..

Further, in the present embodiment, the base member 42 of the horizontal skeleton member 5A and the base member 22 of the transom light 12, the base member 40 of the vertical skeleton member 4A, the base member 20 of the door end side vertical frame member 10, and the vertical skeleton member 4B. The base member 41 and the base member 21 of the door tail side vertical frame member 11 are not connected by welding, respectively, and the base members 42 and 22 are mechanically connected to each other, the base members 40 and 20 are connected to each other, and the base members 41 and 21 are mechanically connected to each other. Connecting members 80, 81, 82, 83, 84, 85 in which both ends in the length direction are connected to these base members 20, 21, 22, 40, 41, 42 by screws 88, 89 serving as connecting means. Since the base members 42 and 22 are connected to each other, the base members 40 and 20 are connected to each other, and the base members 41 and 21 are connected to each other. Installation of a sliding door device that can be opened and closed by step 2 At a construction work site, it can be easily performed without using a welding device, and work efficiency can be improved.

In FIG. 14, instead of connecting the connecting member 80 to the base member 20 with the screw 88 described above, the connecting member 80 is grounded by the engaging means 95 formed as a mechanical coupling means between the connecting member 80 and the base member 20. An embodiment of rotatably coupling to the member 20 is shown.

The engaging means 95, which is a mechanical coupling means like the screw 88, is formed on the engaging portion 96 formed on the connecting member 80 and the engaging portion formed on the base member 20. The 96 is insertable and engageable, and is composed of an engaged portion 97 that makes the connecting member 80 rotatable around the engaging portion 96. The engaging portions 96 are formed by a pair of L-shaped hook portions 96A and 96B provided in the length direction of the connecting member 80, and these hook portions 96A and 96B are in a back-to-back state and are in opposite directions to each other. Is formed of. Such hook portions 96A and 96B can be easily provided on the connecting member 80 by punching and bending a plate material which is a material of the connecting member 80.

The engaged portion 97 of the base member 20 is composed of a round hole portion 97A and a pair of elongated hole portions 97B and 97C extending from the round hole portion 97A to the opposite sides.

The pair of hook portions 96A and 96B are inserted into the pair of elongated hole portions 97B and 97C from the front surface side of the base member 20 to project to the back surface side of the base member 20, and then the connecting member 80 is engaged with the engaging portion 96. When rotated to the center, the pair of hook portions 96A and 96B engage with the portion of the back surface of the base member 20 detached from the pair of elongated hole portions 97B and 97C, so that the engagement portion 96 is provided. One end of the member 80 is coupled to the base member 20. After this, the other end of the connecting member 80 is coupled to the above-mentioned base member 40 by the above-mentioned Tex screw 89.

Even by the mechanical coupling means by the engaging means 95 including the engaging portion 96 and the engaged portion 97, one end of the connecting member 80 can be rotatably and mechanically coupled to the base member 20. Can be done.

Further, the engaging means 95 by the engaging portion 96 and the engaged portion 97 can be applied to the connecting members 81, 82, 83, 84, 85 and the base members 21 and 22.

The present invention can be used for the work of arranging building materials both arranged outside the opening by positioning them in the penetrating direction of the opening. For example, the present invention can be opened and closed by an opening / closing device such as a sliding door device or a hinged door device. It can be used for building materials arranged outside the opening to be formed.

1 Framework of sliding door device 2 Door 3 Wall 4,4A, 4B Vertical skeleton member that is a building material and is a skeleton side member 5,5A Horizontal skeleton member that is a building material and is a skeleton side member 10 Building material The door end side vertical frame member which is a frame side member 11 The door end side vertical frame member which is a frame side member 12 The door end side vertical frame member which is a frame side member 12 There is no building material which is an upper frame member Eyes 20,21,22 Base member 40,41,42 which is a building material and is a frame side member Base member 61,62 which is a building material and is a skeleton side member 61,62 Flange part 63 Web part 70,71 , 72 Positioning member 70A, 71A, 72A Base part 70B, 71B, 72B Positioning part 80, 81, 82, 83, 84, 85 Connecting member 89 Texbis S opening

Claims (11)

Of the two building materials both arranged outside the opening, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and the positioning of the building material for connecting these building materials is performed. It ’s a connected structure,
A plurality of positioning members for positioning the one building material in the penetrating direction of the opening with respect to the other building material parallel to the one building material, and a plurality of the two building materials in the length direction. The pieces are arranged, each of which is bridged over the two building materials, one end of each length direction is bonded to the one building material, and the other end of each length direction is the other. It is composed of a connecting member to be bonded to a building material .
The positioning member has a base portion attached to the other building material and a positioning portion in which both ends of the opening in the penetrating direction come into contact with the one building material.
The one building material is formed of a channel material composed of a pair of flange portions provided at intervals in the penetrating direction of the opening and a web portion connecting the base portions of these flange portions, and the pair of building materials. When both ends of the positioning portion inserted between the flange portions in the penetrating direction of the opening contact the inner surfaces of the pair of flange portions, the one building material with respect to the other building material. A positioning connection structure for building materials, characterized in that the building material is positioned in the penetrating direction of the opening. Of the two building materials both arranged outside the opening, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and the positioning of the building material for connecting these building materials is performed. It ’s a connected structure,
A plurality of positioning members for positioning the one building material in the penetrating direction of the opening with respect to the other building material parallel to the one building material, and a plurality of the two building materials in the length direction. The pieces are arranged, each of which is bridged over the two building materials, one end of each length direction is bonded to the one building material, and the other end of each length direction is the other. It is composed of a connecting member to be bonded to a building material.
The plurality of connecting members include a connecting member whose inclinations in the spacing direction between the one building material and the other building material are opposite to each other. structure. In the positioning connection structure of the building material according to claim 2 , the connecting member having the opposite inclinations of the one building material and the other building material with respect to the spacing direction is the one building material and the other building material. A positioning connection structure for building materials, characterized in that the openings are arranged at positions spaced apart in the penetrating direction of the building material. Of the two building materials both arranged outside the opening, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and the positioning of the building material for connecting these building materials is performed. It ’s a connected structure,
A plurality of positioning members for positioning the one building material in the penetrating direction of the opening with respect to the other building material parallel to the one building material, and a plurality of the two building materials in the length direction. The pieces are arranged, each of which is bridged over the two building materials, one end of each length direction is bonded to the one building material, and the other end of each length direction is the other. It is composed of a connecting member to be bonded to a building material.
The positioning member has a building material disposed at an angle with the other building material at an end portion in the length direction of the one building material in a penetrating direction of the opening with respect to the other building material. A positioning connection structure for building materials, which is characterized by being a member for positioning. In the positioning connection structure of the building material according to claim 4 , the building material disposed at an angle with the one building material at the end in the length direction of the one building material and parallel to the building material. It is characterized in that a plurality of the arranged building materials are arranged in the length direction of these building materials, and each of them is connected by a connecting member that is bridged and connected to these building materials. Positioning connection structure of building materials. In the positioning connection structure of the building material according to any one of claims 1 to 5, the one building material is a frame-side member for a framework for forming the opening in at least a part of the inside, and the other one. The building material is a skeleton-side member to which the frame-side member is connected, and is a positioning connection structure for the building material. Of the two building materials both arranged outside the opening, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and the positioning of the building material for connecting these building materials is performed. It ’s a connected structure,
A plurality of positioning members for positioning the one building material in the penetrating direction of the opening with respect to the other building material parallel to the one building material, and a plurality of the two building materials in the length direction. The pieces are arranged, each of which is bridged over the two building materials, one end of each length direction is bonded to the one building material, and the other end of each length direction is the other. It is composed of a connecting member to be bonded to a building material.
The opening is a positioning connection structure for building materials, which is opened and closed by a door of a sliding door device. In the positioning connection structure of the building material according to any one of claims 1 to 7, a plurality of the building materials are arranged in the length direction of the two building materials, and each of the two building materials is bridged to the two building materials. The member is a positioning connection structure of a building material, wherein the one end portion and the other end portion in the length direction are bonded to the one building material and the other building material by a fastener. Of the two building materials both arranged outside the opening, one building material is positioned in the penetrating direction of the opening with respect to the other building material, and the positioning of the building material for connecting these building materials is performed. It ’s a connection method,
The first work step for positioning the one building material in the penetrating direction of the opening by the positioning member with respect to the other building material parallel to the one building material.
A work process in which a plurality of building materials are arranged in the length direction of the two building materials and the two building materials are connected by a connecting member bridged over these building materials, and one end in the length direction is connected to the one building material. A second work step for connecting the two building materials by the plurality of connecting members by connecting the other end portion in the length direction of the connecting member to which the portions are connected to the other building material.
A method for locating and connecting building materials, which is characterized by containing. In the method for positioning and connecting building materials according to claim 9, in the second work step, after adjusting the distance between the two building materials, one end of the building material in the length direction is bonded to the one building material. It is a work process for connecting the other end of the connecting member in the length direction to the other building material after rotating the connecting member around the one end. A method of positioning and connecting building materials, which is characterized by. In the method for positioning and connecting building materials according to claim 10, the other end of the connecting member in the length direction is rotated around the one end, and then the other end is rotated. A method for locating and connecting building materials, wherein the work step for binding to a building material is performed by a tex screw that is screwed into the other building material while performing thread cutting holes.

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