JP2004156404A - Steel partition installing structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a steel partition wall installing structure for reducing the member cost, improving the workability, and maintaining structural strength of a steel partition wall when installing a crossing part of the steel partition wall. <P>SOLUTION: This structure of the steel partition wall M has first and second walls 1 and 2 having the crossing part of a plane L shape. The first wall 1 has a first steel stud 3 arranged in the end part, a first face material 5 positioned on the outside and a second face material 6 positioned inside the first steel stud 3. The second wall 2 has a second steel stud 4 arranged in the end part, a third face material 7 positioned on the outside and a fourth face material 8 positioned inside the second steel stud 4. The first face material 5 is joined to the third face material 7 in the relationship of the projected corner. The second face material 6 is joined in the form of butting against the third face material 7. The fourth face material 8 is joined in the form of butting against the second face material 6. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mounting structure for a steel partition having an intersection where the walls intersect.
[0002]
[Background technology]
2. Description of the Related Art Conventionally, a building such as a house is provided with a partition wall that partitions an internal space. There is a method of assembling each core material in a frame shape in advance in a factory or the like to form a panel for a wooden partition wall, transporting the panel to a work site, and then assembling the partition panel in a room. In a steel partition wall, a pair of groove-shaped runners whose openings are arranged to face each other on the ceiling and floor sides, and a steel stud supporting the runners are joined by screws or the like, and the surfaces thereof are connected to each other. There is a method of attaching a face material such as a gypsum board to a partition wall. In any case, there is an advantage that the construction process at the work site is simplified.
[0003]
When the steel partition wall is constructed, the runners are joined to each other in order to assemble according to the compartments in the living room. For example, a portion corresponding to a corner of a living room or the like is formed by joining runners. 16 to 18 show the structure of the joint of each runner. FIG. 16 shows a flat L-shaped joint. Four studs (square prisms) are provided between a ceiling runner (not shown) fixed to the ceiling and floor runners 50 and 60 fixed to the floor. ) 59 is provided upright. The portion where the floor runners 50 and 60 intersect, that is, the joint, is a portion that supports the steel partition wall. Further, gypsum boards 51 to 54 are fixed to the surface of the steel partition wall with nails 80.
[0004]
FIG. 17 shows a planar T-shaped joint, and FIG. 18 shows a planar cross-shaped joint. In these figures, five (FIG. 17) or six (FIG. 18) studs 59 are provided between a ceiling runner (not shown) fixed to the ceiling side and floor runners 50 and 60 fixed to the floor side. The plaster boards 51-55 (FIG. 17) or 51-58 (FIG. 18) are fixed to the surface of the steel partition wall with nails 80. With such a configuration, it is possible to maintain the structural strength of the steel partition wall.
[0005]
[Problems to be solved by the invention]
However, the conventional example described above has two problems. The first problem is that the cost is high. That is, in order to join each runner to the stud and the gypsum board while maintaining strength, the studs had to be arranged adjacently. Therefore, even if the strength is maintained, more studs than necessary are arranged for convenience.
[0006]
The second problem is that the labor on site is complicated. This is related to the first problem, but as the number of studs arranged increases, the number of work steps increases, which leads to a decrease in construction efficiency. In addition, the required staff may be increased accordingly. Therefore, it is desirable that the workability can be improved and the cost can be reduced even if a stud capable of maintaining the required strength is arranged at the joint of the runner.
[0007]
The present invention relates to a steel partition wall capable of reducing member costs and improving workability in mounting an intersection of steel partition walls, and further maintaining the structural strength of the steel partition wall. An object of the present invention is to provide a mounting structure.
[0008]
[Means for Solving the Problems]
The present invention is a structure of a steel partition wall having an intersection where a first wall and a second wall intersect in a plane L-shape, wherein the upper runner is fixed to a ceiling side and the floor is fixed to a floor side. Lower runners, a plurality of square tubular steel studs erected between the upper runner and the lower runner, a plurality of face materials covering both side surfaces of each steel stud and both side surfaces of the runner, Fixing members for fixing the members to the steel studs respectively, wherein the first wall has a first steel stud 3 disposed at an end thereof, and a first face member located outside the first steel stud. 5 and a second face plate 6 located inside the first steel stud, the second wall having a second steel stud 4 disposed at its end and an outside of the second steel stud. , And a fourth face material 8 located inside the second steel stud, and the first face material 5 is located at an outer corner of the third face material 7. Joined at engagement, the second surface member 6 are joined in a form abuts the third surface member 7, the fourth surface material 8 has a structure that is joined in a form abuts the second surface material 6.
[0009]
According to the present invention, it is possible to reduce the number of steel studs and reduce member costs while maintaining the strength of the partition wall having the plane L-shaped intersection. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened. Specifically, the second face material is inserted between the first steel stud and the second steel stud arranged at the intersection where the first wall and the second wall intersect in a plane L shape. Insert so that it hits the three facings. The second face member may be used in place of the steel studs to support the steel partition wall.
[0010]
Further, the present invention is a steel partition wall structure having an intersection where the first wall, the second wall, and the third wall intersect in a plane T-shape, wherein the upper runner is fixed to the ceiling side. A lower runner fixed to the floor side, a plurality of square tubular steel studs erected between the upper runner and the lower runner, and a plurality of covering both side surfaces of each steel stud and both side surfaces of the runner. And a fixing member for fixing each of the surface materials to the steel studs. The first wall has a first steel stud 14 disposed at an end thereof, and both sides of the first steel stud. The first wall member 17 and the second wall member 18 are located on the second wall, and the second wall has a second steel stud 15 disposed at an end thereof and a second wall located outside the second steel stud. A third face member 19 and a fourth face member 20 located inside the second steel stud are provided, and the third wall is provided with a third face member disposed at an end thereof. The stud 16 is provided with a fifth face member 21 located outside the third steel stud, and a sixth face member 22 located inside the third steel stud. The second face material 18 is joined in a form striking the third face material 19, the fourth face material 20 is joined in a form striking the second face material 18, and the sixth face material is joined. Reference numeral 22 denotes a structure in which the third surface member 19 and the fifth surface member 21 are joined to each other so as to abut against the first surface member 17.
[0011]
With this configuration, it is possible to reduce the number of steel studs and reduce the cost of members while maintaining the strength of the partition wall having the plane T-shaped intersection. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened.
[0012]
Specifically, among the first to third steel studs arranged at the intersections where the first to third walls intersect in a plane T-shape, the first to third steel studs are located between the first and second steel studs. The two face materials are inserted so as to abut against the third face material, and the first face material is inserted between the first steel stud and the third steel stud so as to abut the fifth face material.
[0013]
That is, the first face material and the second face material have a function as a support material, and are integrated by the steel studs arranged in a horizontal straight line and the first and second face materials that fix them to each other, A steel partition wall structure having a certain strength can be obtained.
[0014]
Further, the present invention is a steel partition wall structure having an intersection where the first wall, the second wall, and the third wall intersect in a plane cross shape, and an upper runner fixed to a ceiling side. , A lower runner fixed to the floor side, a plurality of square tubular steel studs erected between the upper runner and the lower runner, and a plurality of covering both side surfaces of each steel stud and both side surfaces of the runner. A first member is provided at each of the first and second steel studs. The first wall includes a first member and a fixing member for fixing each of the first and second members to the steel stud. A first wall member 37 and a second wall member 38, and the second wall has a second steel stud 35 disposed at an end thereof and a third surface located on both sides of the second steel stud. A third steel stud 36 disposed at an end thereof and a third steel stud 36 disposed at an end thereof. A fifth face material 41 and a sixth face material 42 are provided on both sides of the column, and the third face material 39 and the fourth face material 40 are joined in a form abutting against the first face material 37, and the fifth face material 41 is provided. In addition, the sixth face member 42 has a structure in which the sixth face member 42 is joined so as to abut the first face member 37.
[0015]
With this configuration, it is possible to reduce the number of steel studs and reduce the cost of members while maintaining the strength of the partition wall having a plane cross-shaped crossing portion. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened.
[0016]
Specifically, of the first to third steel studs arranged at the intersection where the first wall and the second wall intersect in a plane cross shape, between the first steel stud and the second steel stud. Is provided with a second face material, and the first face material is provided between the first steel stud and the third steel stud. That is, a steel partition wall structure that maintains a certain strength can be provided by the steel studs arranged in a horizontal straight line and the first and second face members that fix them to each other.
[0017]
It is preferable that the upper runner and the lower runner are formed of a channel steel having a web and a flange, and a notch portion into which the end of the steel stud enters is formed between the flanges. When formed in this manner, the workability when erecting a steel stud on each runner is improved. That is, since each runner is groove-shaped, when erecting steel studs between them, either the upper runner or the lower runner must be erected first and then fixed. Is cut out, the steel stud can be slid from the side to be erected, and the work can be facilitated.
[0018]
It is preferable that the face material sandwiched between the steel studs is arranged in a state of being fixed to any one of the steel studs in advance. In this case, even if the face material is arranged inside the intersection, it can be easily fixed, so that the workability is improved. That is, the face material and the steel stud are fixed with screws or the like, but when inserting the face material between the steel studs located inside the intersection, it is difficult to fix with the screw or the like later. However, by arranging them after fixing them in advance, it becomes possible to easily and surely fix the face material and the steel studs.
[0019]
In the present invention, a steel partition wall structure having an intersection where the first wall and the second wall intersect in a plane L-shape, wherein the upper runner is fixed to the ceiling side and the upper runner is fixed to the floor side. A lower runner, a plurality of square tubular steel studs erected between the upper runner and the lower runner, a plurality of face materials covering the side faces of the steel studs and the side faces of the runner, A fixing member for fixing a material to each of the steel studs, wherein the first wall has a first steel stud 3 disposed at an end thereof, and a first wall located outside the first steel stud. A second steel stud 4 disposed at an end thereof; and a second steel stud 4 disposed at an end of the second steel stud 4. It has a third face member 7 located outside the stud and a fourth face member 8 located inside the second steel stud, and the intersection has a front face. The first steel stud 3 and the second steel stud 4 are arranged in such a manner that their side surfaces are joined at the intersection, and the first face material 5 enters or exits from the third face material 7. It is also possible to adopt a configuration in which the second face material 6 is joined to the fourth face material 8 in a relation of an entrance corner or an exit corner.
[0020]
Further, it is a structure of a steel partition wall having an intersection where the first wall and the second wall intersect in a plane L-shape, wherein an upper runner fixed to the ceiling side and a lower part fixed to the floor side. Runners, a plurality of square studs erected between the upper runner and the lower runner, a plurality of face materials covering the side faces of the studs and the side faces of the runners, and fixing each face material to the studs, respectively A wooden stud 90 is disposed at the intersection, and the first wall has a first face member 5 located outside the wooden stud 90 and a second face member located inside the wooden stud. 6, the second wall includes a third face material 7 located outside the wooden stud, and a fourth face material 8 located inside the wooden stud, and the second face 6 and the second The four face materials 8 are fixed to a batten 91 attached to a wooden stud 90. It can also be.
[0021]
In the present invention, an upper runner fixed to a ceiling side is a structure of a steel partition wall having an intersection where the first wall, the second wall, and the third wall intersect in a plane T-shape, A lower runner fixed to the floor side, a plurality of square tubular steel studs erected between the upper runner and the lower runner, and a plurality of surfaces covering side surfaces of the steel studs and side surfaces of the runner And a fixing member for fixing each of the face materials to the steel stud, wherein the first wall has a batten 91 disposed at an end thereof, and first faces located on both sides of the batten. A first steel stud 14 disposed at an end thereof, and a third face member 19 located outside the first steel stud 14. And a fourth face member 20 located inside the first steel stud, wherein the third wall is disposed at an end thereof. A second steel stud 15, a fifth face member 21 located outside the second steel stud, and a sixth face member 22 located inside the second steel stud, The material 20 may be fixed to a batten 91 attached to the first steel stud 14, and the sixth face member 22 may be fixed to a batten attached to the second steel stud 15. .
[0022]
In addition, the first wall, the second wall, and the third wall have a structure of a steel partition wall having an intersection portion that intersects in a plane T-shape, and an upper runner fixed to a ceiling side and a floor side. A plurality of rectangular studs erected between the upper runner and the lower runner, a plurality of face materials covering the side faces of the studs and the side faces of the runner, and A wooden stud 90 is disposed at the intersection, the first wall is a batten 91 disposed at an end thereof, and the first wall is located on both sides of the batten. The second wall includes a face member 17 and a second face member 18, and the second wall includes a third face member 19 located outside the wooden stud 90 and a fourth face member 20 located inside the wooden stud. The third wall comprises a fifth face member 21 located outside the wooden stud, A sixth surface member 22 located inside the pillar is provided, and the fourth surface member 20 and the sixth surface member 22 may be fixed to a batten 91 attached to a wooden stud 90, respectively. .
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
1 to 3 are plan views showing a joining process of an L-shaped joining portion of a steel partition wall according to the present invention.
In this embodiment, an example in which the present invention is applied to a house will be described.
[0024]
The steel partition wall M shown in FIGS. 1 to 3 is applied as a partition that partitions a living room space of a house. The steel partition wall M is constructed by transporting each of the upper and lower runners, steel studs, and gypsum board, etc., processed to predetermined dimensions at a factory or the like to a work site, and then arranging them at predetermined locations for construction. Is done. In 1st Embodiment, when arrange | positioning the steel partition wall M in the location located in the corner part of a living room, the example of the joining form of the part which the steel partition wall M cross | intersects in a plane L shape is shown.
[0025]
As shown in FIGS. 1 to 3, a steel partition wall M crossed in a plane L shape is formed between a groove-shaped steel runner 1, 2 composed of a web W and a flange F, and a steel runner 1, 2. A plurality of gypsum boards 5 to 8 covering the rectangular tubular steel studs 3 and 4 erected on each side and the flanges F on both sides of each steel stud 3 and 4 and both sides of the steel runners 1 and 2; Each of the gypsum boards 5 to 8 is configured by screws, nails, and the like 70 (hereinafter, fixing members 70) for fixing to the steel studs 3, 4, respectively.
[0026]
As a construction procedure, steel runners 1 and 2 are fixed to a ceiling side (not shown) and a floor side, respectively, and a steel stud 4 is erected at an end of the steel runner 2. A gypsum board 6 is sandwiched between the steel runners 1 and 2, and is joined to the steel studs 4 by a fixing member 70. Further, the gypsum board 8 is placed inside the steel runner 2 by abutting the gypsum board 6 and joined to the steel stud 4 by the fixing member 70.
[0027]
Next, a steel stud 3 is erected at the end of the steel runner 1. The steel stud 3 is joined to the gypsum board 5 disposed outside the steel runner 1 by a fixing member 70. The gypsum board 5 is in a relationship with the gypsum board 7 at a protruding corner. Lastly, the gypsum board 7 having the steel runners 1 and 2 spread over it is joined to the steel studs 3 and 4 with the fixing members 70. By the above construction procedure, the first wall A and the second wall B (FIG. 3) having the plane L-shaped intersection are formed.
[0028]
Therefore, since the gypsum board 6 is inserted between the steel studs 3 and the steel studs 4, the gypsum board 6 functions as a support material. Therefore, when compared with the conventional example (FIG. 16), four studs 59 are arranged at the intersections, but can be formed by two steel studs. That is, while maintaining the strength of the steel partition wall M, it is possible to reduce the number of steel studs to be arranged and to reduce member costs. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened.
[0029]
As shown in FIG. 11, the steel runner 2 has a groove shape as described above, and one end of the steel runner 2 is formed in a notch shape. By forming in this manner, the end of the steel stud 4 can be slid from the notch D between the flanges F to be erected, and the construction process can be simplified. In this embodiment, the steel runner 2 and the steel studs 4 are used as an example, but the steel runner 1 and the steel studs 3 may have the same configuration.
[0030]
Next, a second embodiment of the present invention will be described. 4 to 7 are plan views showing the joining process of the T-shaped joining portion of the steel partition wall according to the present invention. In 2nd Embodiment, when arrange | positioning the steel partition wall M in the location which partitions between living rooms, the example of the joining form of the part which the steel partition wall M cross | intersects in a plane T shape is shown.
[0031]
The steel partition wall M crossed in a plane T shape shown in FIGS. 4 to 7 is provided between the grooved steel runners 11 to 13 formed of the web W and the flange F and the steel runners 11 to 13. Square stylus-made steel studs 14-16, a plurality of gypsum boards 17-22 covering the side faces of each steel stud 14-16 and the flanges F on both sides of the steel runners 11-13, and each gypsum board 17 to 22 are fixed to the steel studs 14 to 16, respectively.
[0032]
As a construction procedure, the steel runners 11 to 13 are fixed to the ceiling side (not shown) and the floor side, respectively, and the steel studs 14 are erected at the end of the steel runner 11. The gypsum board 17 is joined to one side of the steel stud 14 with a fixing member 70. Next, the steel stud 16 provided at the end of the steel runner 13 is joined to the gypsum board 17 by the fixing member 70. Further, after the steel stud 15 and the gypsum board 18 are joined by the fixing member 70, they are disposed between the end of the steel runner 12 and the steel stud 14 as shown in FIG.
[0033]
Lastly, the gypsum boards 19 and 20 are joined to the steel studs 15 and the gypsum boards 21 and 22 are joined to the steel studs 16 by the fixing members 70, respectively. Further, the gypsum board 17 is in contact with the gypsum board 21, the gypsum board 18 is in contact with the gypsum board 19, the gypsum board 20 is in contact with the gypsum board 18, and the gypsum board 22 is in contact with the gypsum board 17. The gypsum board 19 and the gypsum board 21 are formed as a single sheet, and integrally connect the steel runners 12 and 13 and the steel studs 14 to 16. By the above-described construction procedure, the first wall A, the second wall B, and the second wall C (FIG. 7) are formed at the intersection of the plane T shape.
[0034]
Therefore, the gypsum board 17 and the gypsum board 18 have a function as a supporting material, and are integrated by the steel studs 14 to 16 arranged in a horizontal straight line and the gypsum boards 17 and 18 for fixing them together. Constant strength can be maintained. For this reason, compared with the conventional example (FIG. 17), although five studs 59 are arranged at the intersection, it can be formed by three steel studs. That is, while maintaining the strength of the steel partition wall M, it is possible to reduce the number of steel studs to be arranged and to reduce member costs. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened.
[0035]
Further, similarly to the first embodiment, the steel runners 12 and 13 have a groove shape, and one end of each of the steel runners 12 and 13 is formed in a cutout shape. By forming in this manner, it becomes possible to slide the ends of the steel studs 15 and the steel studs 16 between the flanges F from the cutouts D and stand upright, thereby simplifying the construction process. it can.
[0036]
Further, the gypsum board 17 and the gypsum board 18 are fixed to the steel stud 15 in advance, and are disposed. With such a construction procedure, the gypsum board 17 and the gypsum board 18 can be easily inserted into the T-shaped intersection, and can be fixed to the steel studs 15 and 16 with certainty, so that it can be efficiently performed. Can be constructed.
[0037]
Next, a third embodiment of the present invention will be described. 8 to 10 are plan views showing the joining process of the cruciform joint of the steel partition wall according to the present invention. In the third embodiment, an example of a joining form of a portion where the steel partition wall M intersects in a plane cruciform when the steel partition wall M is disposed at a location that partitions the living room will be described.
[0038]
8 to 10, the steel partition wall M crossed in a plane cross shape is provided between the steel runners 31 to 33 and the groove-shaped steel runners 31 to 33 formed of the web W and the flange F. Square girder steel studs 34 to 36, a plurality of gypsum boards 37 to 42 covering both side surfaces of the steel studs 34 to 36 and flanges F on both sides of the steel runners 31 to 33, and each gypsum board 37 To 42 are fixed to the steel studs 34 to 36, respectively.
[0039]
As a construction procedure, the steel runners 31 to 33 fixed to the ceiling side (not shown) and the floor side are respectively fixed, and the steel studs 36 are erected at the end of the steel runner 33, and The gypsum board 37 is joined to the stud 36 with a fixing member 70. Next, a steel stud 34 is erected at a portion where the steel runner 31 and the steel runners 32 and 33 cross in a cross shape. Further, after the steel stud 35 and the gypsum board 38 are joined by the fixing member 70, they are disposed between the end of the steel runner 32 and the steel stud 34 as shown in FIG.
[0040]
Finally, gypsum boards 39 and 40 are joined to steel studs 35 on both sides of steel runner 32 with fixing members 70, and gypsum boards 41 and 42 are attached to steel studs 36 on both sides of steel runner 33. It is joined by the fixing member 70. Further, the gypsum boards 39 and 40 are joined so as to abut against the gypsum board 38, and the gypsum boards 41 and 42 are joined so as to abut the gypsum board 37. By the above construction procedure, the first wall A, the second wall B, and the third wall C (FIG. 10) are formed at the intersection of the plane cross.
[0041]
Therefore, the steel studs 34 to 36 and the gypsum boards 37 and 38, which are arranged in a straight line at the crossing points, have a function as a supporting material, and can maintain a certain strength. It becomes. For this reason, compared with the conventional example (FIG. 18), although five studs 59 are arranged at the intersection, the studs can be formed with three steel studs. That is, while maintaining the strength of the steel partition wall M, it is possible to reduce the number of steel studs to be arranged and to reduce member costs. Further, by reducing the number of steel studs, the construction process can be simplified, and the workability can be improved and the construction period can be shortened.
[0042]
Further, similarly to the first embodiment, the steel runners 32 and 33 have a groove shape, and one end of each of the steel runners 32 and 33 is formed in a cutout shape. By forming in this way, it becomes possible to slide the ends of the steel studs 35 and the steel studs 36 between the flanges F from the cutouts D and to stand up, thereby simplifying the construction process. it can.
[0043]
The gypsum board 37 is fixed to the steel stud 36 in advance and the gypsum board 38 is fixed to the steel stud 35 in advance. By adopting such a construction procedure, the plaster board 37 and the gypsum board 38 can be easily inserted into the cross-shaped intersection, and can be securely fixed to the steel studs 35 and 36, so that construction can be performed efficiently. can do.
[0044]
FIG. 12 is a plan view showing a fourth embodiment of the present invention. In this embodiment, as in the first embodiment, the present invention is applied to a wall in which a first wall and a second wall intersect in a plane L shape.
[0045]
That is, as shown in FIG. 12, the steel partition walls crossed in a plane L-shape are formed between groove-shaped steel runners 1 and 2 composed of a web and a flange, and between the steel runners 1 and 2. Square girder steel studs 3 and 4, a plurality of gypsum boards 5 to 8 covering both side surfaces of each steel stud 3 and 4 and flanges on both sides of the steel runners 1 and 2, and each gypsum board 5 To 8 are fixed to the steel studs 3 and 4 respectively by screws, nails, and the like (hereinafter, fixing members).
[0046]
Specifically, the first wall A includes a first steel stud 3 disposed at an end thereof, a first face material 5 located outside the first steel stud 3, and a first steel stud 3. And a second face member 6 located inside the stud. The second wall B has a second steel stud 4 disposed at an end thereof, a third face member 7 located outside the second steel stud 4, and an inside of the second steel stud 4. And a fourth face member 8 located thereon. And the 1st steel stud 3 and the 2nd steel stud 4 are arrange | positioned in the intersection part in the form which joins side surfaces in an intersection part. The first face material 5 is joined to the third face material 7 in a relation of an incoming corner (or an outgoing corner). The second face material 6 is joined to the fourth face material 8 in a relation of an incoming corner (or an outgoing corner). The second face material 6 and the fourth face material 8 are fixed to the edge-shaped batten 91, 91 attached to the first structural stud 3 with nails, screws, or the like. In this embodiment, substantially the same effects as in the first embodiment can be obtained.
[0047]
FIG. 13 is a plan view showing a fifth embodiment of the present invention. This embodiment is also an example applied to the structure of a steel partition wall having an intersection where the first wall A and the second wall B intersect in a plane L shape.
[0048]
That is, as shown in FIG. 13, the steel partition walls crossed in a plane L-shape are groove-shaped steel runners 1 and 2 composed of a web and a flange, and are erected between the steel runners 1 and 2. A rectangular wooden stud 90 to be formed, a plurality of face materials covering the side face of each stud 90 and the side face of the runner, and a fixing member for fixing each face material to the stud are provided. Specifically, a wooden stud 90 is arranged at the intersection, and the first wall A has a first face material 5 located outside the wooden stud 90 and a second face material 6 located inside the wooden stud 90. And The second wall B includes a third face member 7 located outside the wooden stud 90 and a fourth face member 8 located inside the wooden stud 90. The second face material 6 and the fourth face material 8 are fixed to a batten 91 attached to a wooden stud 90. Thus, by using the wooden studs 90 instead of the steel studs, it is possible to further reduce costs, improve workability, and the like.
[0049]
FIG. 14 is a plan view showing a sixth embodiment of the present invention. This embodiment is an example applied to a steel partition wall having an intersection where a first wall A, a second wall B, and a third wall C intersect in a plane T shape. That is, two square tubular steel studs erected between the steel runners 11, 12, 13; a plurality of face materials covering the side faces of the steel studs and the side faces of the runner; A fixing member for fixing to each of the manufacturing studs.
[0050]
Specifically, the first wall A includes a batten 91 disposed at an end thereof, and first and second face members 17 and 18 located on both sides of the batten 91. The second wall B has a first steel stud 14 disposed at an end thereof, a third face member 19 located outside the first steel stud 14, and a third wall member 19 located inside the first steel stud 14. And a fourth face material 20 to be used. The third wall C has a second steel stud 15 disposed at an end thereof, a fifth face member 21 located outside the second steel stud 15, and an inside located inside the second steel stud 15. And a sixth face member 22. The fourth face member 20 is fixed to a batten 91 attached to the first steel stud 14, and the sixth face member 22 is fixed to a batten attached to the second steel stud 15. In this embodiment, substantially the same effects as in the second embodiment can be obtained.
[0051]
FIG. 15 is a plan view showing a seventh embodiment of the present invention. In this embodiment, similarly to the sixth embodiment, an example is shown in which the first wall, the second wall, and the third wall are applied to a steel partition wall having an intersection that intersects in a plane T shape. I have. That is, a plurality of square studs erected on the steel runner 11.12.13, a plurality of face materials covering the side faces of each stud and the side face of the runner, and a fixing member for fixing each face material to the stud, respectively. And
[0052]
Specifically, a wooden stud 90 is disposed at the intersection, and the first wall A has a batten 91 disposed at an end thereof, and the first face material 17 and a second bamboo plate located on both sides of the batten 91. The second wall B includes a third face member 19 located outside the wooden stud 90 and a fourth face member 20 located inside the wooden stud 90. The wall includes a fifth face material 21 located outside the wooden stud and a sixth face material 22 located inside the wooden stud 90, and the fourth face material 20 and the sixth face material 22 are each a wooden stud 90. Is fixed to the battens 91 attached to the tongue. In this embodiment, substantially the same effects as those of the second and fifth embodiments can be obtained.
[0053]
【The invention's effect】
As described above, according to the mounting structure of the steel partition according to the present invention, in mounting the intersection of the steel partition, the member cost is reduced and the workability is improved, and the steel partition is further improved. Can be maintained.
[Brief description of the drawings]
FIG. 1 is a plan view showing a joining process of a joining portion (L-shape) of a steel partition wall according to a first embodiment of the present invention.
FIG. 2 is a plan view showing a joining process of a joining portion (L-shape) of the steel partition wall according to the first embodiment of the present invention.
FIG. 3 is a plan view showing a joining process of a joining portion (L-shape) of the steel partition wall according to the first embodiment of the present invention.
FIG. 4 is a plan view showing a joining process of a joining portion (T-shape) of a steel partition wall according to a second embodiment of the present invention.
FIG. 5 is a plan view showing a joining process of a joining portion (T-shape) of a steel partition wall according to a second embodiment of the present invention.
FIG. 6 is a plan view illustrating a joining process of a joining portion (T-shape) of a steel partition wall according to a second embodiment of the present invention.
FIG. 7 is a plan view showing a joining process of a joining portion (T-shape) of a steel partition wall according to a second embodiment of the present invention.
FIG. 8 is a plan view showing a joining step (cross-shaped) of a joining portion (cross shape) of a steel partition wall according to a third embodiment of the present invention.
FIG. 9 is a plan view showing a joining step (cross shape) of a joining portion (cross shape) of a steel partition wall according to a third embodiment of the present invention.
FIG. 10 is a plan view showing a joining step (cross shape) of a joining portion (cross shape) of a steel partition wall according to a third embodiment of the present invention.
FIG. 11 is a perspective view showing a shape of a steel runner according to the first to third embodiments of the present invention.
FIG. 12 is a plan view showing a fourth embodiment of the present invention.
FIG. 13 is a plan view showing a fifth embodiment of the present invention.
FIG. 14 is a plan view showing a sixth embodiment of the present invention.
FIG. 15 is a plan view showing a seventh embodiment of the present invention.
FIG. 16 is a plan view showing a conventional technique of the present invention.
FIG. 17 is a plan view showing a conventional technique of the present invention.
FIG. 18 is a plan view showing a conventional technique of the present invention.
[Explanation of symbols]
1,2,11-13,31-33 Steel runner
3,4,14 ~ 16,34 ~ 36 steel studs
5-8,18-22,39-42 Gypsum board
50, 60 floor runner
51-58 face material
59 studs
70 Fixing member
80 nails
A First wall
B Second wall
C Third wall
D Notch
F flange
M steel partition wall
W Web

Claims (9)

A steel partition wall structure having an intersection in which a first wall and a second wall intersect in a plane L-shape, wherein an upper runner fixed to a ceiling side and a lower runner fixed to a floor side. A plurality of square tubular steel studs erected between the upper runner and the lower runner, a plurality of face materials covering both side surfaces of the steel studs and both side surfaces of the runner, and each face material. A fixing member for fixing to each of the steel studs,
The first wall has a first steel stud disposed at an end thereof, a first face member located outside the first steel stud, and a second surface located inside the first steel stud. With materials,
The second wall has a second steel stud disposed at an end thereof, a third face member located outside the second steel stud, and a fourth face located inside the second steel stud. With materials,
The first face material is joined to the third face material in a protruding corner relationship, the second face material is joined in a form abutting against the third face material, and the fourth face material is joined to the second face material. A mounting structure for a steel partition, which is joined in such a form as to abut against a material. A steel partition wall structure having an intersection in which a first wall, a second wall, and a third wall intersect in a plane T-shape, wherein the upper runner is fixed to a ceiling side and the floor is fixed to a floor side. Lower runners, a plurality of square tubular steel studs erected between the upper runner and the lower runner, and a plurality of face materials covering both side surfaces of each of the steel studs and both side surfaces of the runner. A fixing member for fixing each face material to the steel stud,
The first wall includes a first steel stud disposed at an end thereof, and first and second face members located on both sides of the first steel stud,
The second wall has a second steel stud disposed at an end thereof, a third face member located outside the second steel stud, and a fourth face located inside the second steel stud. With materials,
The third wall has a third steel stud disposed at an end thereof, a fifth face member located outside the third steel stud, and a sixth face located inside the third steel stud. With materials,
The first face material is joined in a form abutting on the fifth face material, the second face material is joined in a form abut on the third face material, and the fourth face material is abut on the second face material. Wherein the sixth face member is joined so as to abut against the first face material, and the third face material and the fifth face material are joined to each other. A structure of a steel partition wall having an intersection in which a first wall, a second wall, and a third wall intersect in a plane cross shape, wherein an upper runner is fixed to a ceiling side, and is fixed to a floor side. A lower runner, a plurality of square tubular steel studs erected between the upper runner and the lower runner, a plurality of face materials covering both side surfaces of each of the steel studs and both side surfaces of the runner, A fixing member for fixing each face material to the steel stud, respectively,
The first wall includes a first steel stud arranged at the intersection, and first and second face members located on both sides of the first steel stud.
The second wall includes a second steel stud disposed at an end thereof, and third and fourth face members located on both sides of the second steel stud;
The third wall includes a third steel stud disposed at an end thereof, and fifth and sixth face members located on both sides of the third steel stud,
The third face material and the fourth face material are joined in a form abutting on the first face material, and the fifth face material and the sixth face material are joined in a form abutting on the first face material. The mounting structure of the steel partition. The mounting structure of a steel partition according to any one of claims 1 to 3, wherein the upper runner and the lower runner are formed of a channel steel having a web and a flange, and a notch into which an end of the steel stud enters between the flanges. An attachment structure for a steel partition, which is formed. The mounting structure of a steel partition according to claim 2 or 3, wherein the face material sandwiched between the steel studs is disposed in a state of being fixed to one of the steel studs in advance. Mounting structure of steel partition characterized by the following. A steel partition wall structure having an intersection in which a first wall and a second wall intersect in a plane L shape, wherein an upper runner fixed to a ceiling side and a lower runner fixed to a floor side. A plurality of square tubular steel studs erected between the upper runner and the lower runner; a plurality of face materials covering the side faces of the steel studs and the side faces of the runner; A fixing member fixed to each of the studs, wherein the first wall has a first steel stud disposed at an end thereof, a first face member located outside the first steel stud, A first steel stud located inside the first steel stud, the second wall having a second steel stud disposed at an end thereof, and a third face located outside the second steel stud. A face material, and a fourth face material located inside the second steel stud, wherein the first steel stud and the second steel stud are provided at the intersection. The manufacturing stud is arranged in such a form that the side surfaces are joined at the intersection, the first face material is joined to the third face material in an entering corner or an outgoing corner relationship, and the second face material is An attachment structure for a steel partition, wherein the steel partition is joined to the fourth face member in a relation of an entrance corner or an exit corner. A steel partition wall structure having an intersection in which a first wall and a second wall intersect in a plane L shape, wherein an upper runner fixed to a ceiling side and a lower runner fixed to a floor side. A plurality of square studs erected between the upper runner and the lower runner, a plurality of face materials covering the side faces of the studs and the side faces of the runner, and a fixing member for fixing each face material to the stud respectively. A wooden stud is arranged at the intersection, the first wall includes a first face material located outside the wooden stud, and a second face material located inside the wooden stud, The second wall includes a third face material located outside the wooden stud and a fourth face material located inside the wooden stud, wherein the second face material and the fourth face material are attached to the wooden stud. A mounting structure for a steel partition fixed to a batten. A steel partition wall structure having an intersection in which a first wall, a second wall, and a third wall intersect in a plane T-shape, wherein the upper runner is fixed to a ceiling side and the floor is fixed to a floor side. A lower runner, a plurality of square tubular steel studs erected between the upper runner and the lower runner, a plurality of face materials covering the side surfaces of the steel studs and the side surfaces of the runner, A fixing member for fixing the face material to the steel stud, respectively, wherein the first wall has a batten arranged at an end thereof, and a first face material and a second face located on both sides of the batten. A first steel stud disposed at an end thereof; a third face member located outside the first steel stud; and a second steel wall disposed inside the first steel stud. A fourth steel plate located at the end of the third wall, and a third steel stud disposed at an end of the third wall and an outer portion of the second steel stud. And a sixth face member located inside a 23 steel stud, wherein the fourth face material is fixed to a batten attached to the first steel stud, and 6. A structure for mounting a steel partition, wherein the six face materials are fixed to a batten attached to the second steel stud. A steel partition wall structure having an intersection in which a first wall, a second wall, and a third wall intersect in a plane T-shape, wherein the upper runner is fixed to a ceiling side and the floor is fixed to a floor side. Lower runners, a plurality of square studs erected between the upper runner and the lower runner, a plurality of face materials covering the side faces of the studs and the side faces of the runners, and each face material to the studs, respectively. A wooden stud is arranged at the intersection, the first wall is a batten arranged at an end thereof, and a first face plate and a second bamboo plate located on both sides of the batten are provided. The second wall comprises a third face located outside the wooden stud, and a fourth face located inside the wooden stud, wherein the third wall comprises the wooden stud. A fifth face material located outside the stud and a sixth face material located inside the wooden stud are provided, Serial fourth surface member and the sixth face material mounting structure of the steel partition, characterized in that it is fixed to a batten which Sowase wooden studs, respectively.

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