JP6751952B1 - Brace unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a brace unit capable of reducing a burden on a construction site worker and easily performing adjustment at a construction site. SOLUTION: The brace unit 10 is a brace unit fixed in a wall frame 2 forming a part of a wooden building 1 and used to reinforce the wall structure of the wooden building 1, and is a base portion. A truss frame having a 21 A portion 20 and a protruding portion 30 projecting from the truss frame portion 20 toward the outside of the outer shape of the truss frame portion 20 [selection diagram] FIG.

Description

The present invention relates to a brace unit used to reinforce the wall structure of a wooden building.

In order to reinforce the wall structure of a wooden building, diagonally extending braces are used in a wall frame surrounded by a base, beams, columns, etc. (see, for example, Patent Document 1). In a general construction method, the brace is wood whose ends are processed according to the wall frame at the construction site, and is fixed in the wall frame at the construction site using fasteners such as nails and a metal truss plate. To. Further, in another construction method, the brace is fitted and fixed in the wall frame as a brace unit (bracing panel) assembled in advance at a factory or the like (see, for example, Patent Document 2). The conventional brace unit has a rectangular brace frame configured with design dimensions and a brace portion fixed diagonally within the rectangular brace. The brace fixed by such a construction method can form a truss structure in a rectangular wall frame and reinforce the wall structure of a wooden building. In addition, the "wall frame" in the present specification is surrounded by horizontally and vertically extending timber in the wall structure regardless of whether it is constructed by the wooden frame construction method or the wooden frame wall construction method. It means a portion having an inner rectangular area (inside the wall frame), and does not necessarily indicate one independent frame.

Japanese Patent Application No. 2009-270279 Japanese Patent Application No. 2004-339868

However, in a general construction method, when processing and fixing the brace 811 at the construction site, it is possible to match the actual product, so it is not necessary to worry about the possibility that the on-site work will be stopped, but the construction site worker There is a problem that the burden is heavy. That is, the construction site worker must cut the wood diagonally by 1 or 2 at each end so that the brace fits properly in the wall frame, which requires high skill. In addition, the construction site worker must install the truss plate at the construction site, which increases the work load.

On the other hand, in another construction method, when a conventional brace unit is used, the burden on the construction site worker can be reduced, but since it is not possible to match the actual product and it is difficult to make adjustments at the construction site, the inside of the wall frame There is a problem that you have to worry about the possibility that the on-site work will stop if it does not fit well.

In view of such a problem, it is an object of the present invention to provide a brace unit capable of reducing the burden on construction site workers and easily performing adjustments at construction sites.

[1] The brace unit according to the present invention is a brace unit that is fixed in a wall frame that constitutes a part of a wooden building and is used to reinforce the wall structure of the wooden building, and is a base portion. , A truss frame portion having a pillar portion connected to the end portion of the base portion and a brace portion connecting to the base portion and the end portion of the pillar portion and having a right-angled triangular shape when viewed in a plane, and a truss frame portion It is characterized in that it includes a protruding portion that protrudes toward the outside of the outer shape of the truss frame portion.

According to the brace unit according to the present invention, it is fixed in a wall frame constituting a part of a wooden building and used to reinforce the wall structure of the wooden building, and is viewed in a plan view. Since the truss frame has a right-angled triangular shape, it is fixed in the wall frame as it is to form a truss structure in the wall frame, so even a construction site worker who does not have high skill can install it. It is possible to reinforce the wall structure of a wooden building with less effort.

Further, according to the brace unit according to the present invention, since the truss frame portion is provided with a protruding portion protruding from the truss frame portion toward the outer outer shape of the truss frame portion, the end portion of the protruding portion is appropriately cut in parallel with the end face to form a wall frame. Since it is possible to match the actual product inside, even a construction site worker who does not have high skill can easily adjust the fitting into the wall frame at the construction site.

As a result, the brace unit according to the present invention is a brace unit that can reduce the burden on the construction site worker and can easily make adjustments at the construction site.

[2] In the brace unit according to the present invention, it is preferable that the projecting portion has at least two or more first-direction projecting portions projecting from the base portion in the direction perpendicular to the elongated direction of the base portion.

According to the brace unit configured in this way, since the protruding portion has the first-direction protruding portion, the end portion of the first-direction protruding portion is appropriately cut parallel to the end face to allow the wall frame to be between the base and the beam (horizontal). Since it is possible to match the actual product with the wall frame material), it is possible to easily adjust the width in the vertical direction at the construction site.

[3] In the brace unit according to the present invention, it is preferable that the first-direction projecting portions project from both ends of the base portion.

According to the brace unit configured in this way, since both ends of the base portion are supported by the first-direction protruding portions, the brace unit can be arranged in the wall frame in a stable posture.

[4] In the brace unit according to the present invention, it is preferable that the protruding portion has at least a second-direction protruding portion that protrudes from the connecting portion between the base portion and the brace portion along the elongated direction of the base portion. ..

According to the brace unit configured in this way, since the protruding portion has the second-direction protruding portion, the end portion of the second-direction protruding portion is appropriately cut parallel to the end face to allow the space between the pillars of the wall frame (vertical wall). Since it is possible to match the actual product with the frame material), it is possible to easily adjust the width in the horizontal direction at the construction site.

[5] In the brace unit according to the present invention, it is preferable that the main material of the truss frame portion and the protruding portion is wood.

According to the brace unit configured in this way, since the main material is wood as a whole, strength can be ensured and it can be easily cut for adjustment.

[6] In the brace unit according to the present invention, it is preferable that the protruding portion of the protruding portion located on the extension of the base portion or the pillar portion is a part of the wood constituting the base portion or the pillar portion.

According to the brace unit configured in this way, since a part of the protruding portion is a part of the wood constituting the base portion or the pillar portion, the protruding portion and the base portion or the pillar portion have an integral structure. Therefore, the number of parts can be reduced and the strength can be increased.

[7] The brace unit according to the present invention preferably further includes a metal truss plate for bridging and joining the timbers constituting the truss frame portion and the protruding portion.

According to the brace unit configured in this way, since the truss plate made of metal is provided, the timbers are joined more firmly by the truss plate, so that the strength can be further increased.

[8] In the brace unit according to the present invention, the truss frame portion is formed in a size that fits in the wall frame of a plurality of sizes, and the entire body including the protruding portion does not fit in the wall frame of the plurality of sizes. It may be formed.

According to the brace unit configured in this way, the truss frame part is the size that fits in the wall frame of multiple sizes, and the whole including the protrusion is the size that does not fit in the wall frame of multiple sizes, so each size Since the protruding portion may be appropriately cut to correspond to the wall frame of the above, it can be applied to a wall frame of a plurality of sizes.

[9] The brace unit according to the present invention preferably has a thickness of 1.5 cm or more as a whole and a thickness of half or less of the small diameter of the pillars constituting the wooden building.

According to the brace unit configured in this way, it is easy to invert each other and stack the two to fit between the columns, so that the two can be stacked to reinforce the wall structure more strongly. ..

[10] In the brace unit according to the present invention, a two-by material is used as the wood, and it is preferable that the thickness direction of the two-by material is orthogonal to the entire plane of the truss frame portion.

According to the brace unit configured in this way, the thickness direction of the two-by material is oriented in the direction orthogonal to the entire plane of the truss frame portion, so that the two are stacked and housed in a wall frame having a thickness dimension of 76 mm or more. Therefore, it is possible to more strongly reinforce the wall structure of a wall having a thickness dimension of 76 mm or more by superimposing the two in symmetrical directions.

According to the present invention, it is possible to provide a brace unit capable of reducing the burden on the construction site worker and easily performing adjustment at the construction site.

It is explanatory drawing of the purpose of use of the brace unit 10 which concerns on embodiment. It is a front view and the side view of the brace unit 10 which concerns on embodiment. It is a flowchart which shows the use method of the brace unit 10 which concerns on embodiment. It is a front view and the cross-sectional view of AA in the usage form of the brace unit 10 which concerns on embodiment.

The brace unit, which is an embodiment of the present invention, will be described below with reference to the drawings, but the present invention is not limited to these embodiments. It should be noted that each drawing does not necessarily accurately reflect the actual dimensions and details. In the present specification, the “two-by material” (2X material) refers to all woods standardized with a thickness of about 38 mm and a predetermined width. As two-by materials, for example, "two-by-four material" (2X4 material) having a thickness of about 38 mm x about 89 mm, "two-by-six material" (2X6 material) having a thickness of about 38 mm x a width of about 140 mm, and "two-by-six material" having a thickness of about 38 mm x a width of about 184 mm. "Two-by-eight lumber" (2X8 lumber) and the like are standardized.

[1-1. Configuration of the brace unit 10 according to the embodiment]
FIG. 1 is an explanatory diagram of a purpose of use of the brace unit 10 according to the embodiment.
FIG. 2 is a front view and a side view of the brace unit 10 according to the embodiment. FIG. 2A shows a front view viewed in a plan view, and FIG. 2B shows a right side view thereof.

As shown in FIG. 1, the brace unit 10 according to the embodiment is fitted into a wall frame 2 forming a part of the wall of the wooden building 1 and fixed to the wall structure of the wooden building 1. Used for reinforcement. The wall frame 2 is formed into a rectangular frame by combining a horizontal wall frame material 2H extending in the horizontal direction and a vertical wall frame material 2V extending in the direction perpendicular to the horizontal wall frame material 2H. As the horizontal wall frame material and the vertical wall frame material, for example, a two-by material is used, and a two-by-four material is used for the horizontal wall frame material 2H and the vertical wall frame material 2V of the present embodiment. The horizontal wall frame material 2H and the vertical wall frame material 2V are incorporated in a frame shape so that the width direction thereof faces the thickness direction of the entire wall frame 2. That is, the wall frame 2 of the present embodiment has a thickness of 89 mm and extends in a plane. A plurality of bracing units 10 are supplied to the construction site in a manner manufactured in advance at a factory or the like, and are fixed to the wall frame 2 after being easily adjusted as described later in correspondence with each wall frame 2 at the construction site. To.

As shown in FIG. 2, the streak unit 10 has adjacent side timber 11, opposite side timber 12, hypotenuse timber 13, and leg timber 14 as main materials, and these four timbers are combined. It is configured as a three-dimensional structure having a substantially right-angled triangular shape. For these woods, for example, a two-bye material is used, and a two-by-four material is used for the adjacent side portion constituent wood 11, the opposite side portion constituent wood 12, the hypotenuse portion constituent wood 13, and the leg wood 14 of the present embodiment. The thickness direction of the adjacent side construction wood 11, the opposite side construction wood 12, the hypotenuse construction wood 13, and the leg wood 14 should face in a direction orthogonal to the entire plane of the streak unit 10 (thickness direction of the entire streak unit 10). Is built in. That is, the brace unit 10 is formed to have an overall thickness of about 38 mm (excluding a portion such as the truss plate 40 described later). Adjacent timbers of the adjacent side timber 11, the opposite side timber 12, the hypotenuse timber 13, and the leg timber 14 are firmly joined by nails or fasteners such as a truss plate 40 described later.

A more specific form of the brace unit 10 will be described. Adjacent side constituent wood 11 is arranged along the adjacent side of the inner right triangle. The adjacent side portion constituent wood 11 has a length of 460 mm to 1360 mm so as to correspond to the width direction of the wall frame 2. The side of the adjacent side portion of the timber 11 projects outward from the right triangle on the inner side, and the opposite side of the timber 11 is fixed to the side surface of the opposite side portion of the timber 12. Further, the opposite side constituent wood 12 is arranged along the opposite side of the inner right triangle. The opposite side constituent wood 12 has a length of 1500 mm to 3000 mm so as to correspond to the height direction of the wall frame 2. The opposite side portion of the wood 12 is positioned so that the adjacent side side protrudes outward from the inner right triangle and the hypotenuse side is located at the apex of the right triangle. Further, the hypotenuse constituent wood 13 is arranged along the hypotenuse of the inner right triangle. The hypotenuse constituent wood 13 is diagonally cut on the opposite side and fixed to the end side surface of the opposite side constituent wood 12, and the adjacent side is diagonally cut and fixed to the side surface of the adjacent side constituent wood 11. .. The hypotenuse constituent timber 13 has a length forming a right-angled triangular opposite side portion according to the lengths of the adjacent side portion constituent timber 11 and the opposite side portion constituent timber 12. The leg timber 14 is fixed to the side surface of the adjacent side portion constituent timber 11 so as to extend from the hypotenuse side end portion on the adjacent side of the inner right triangle in parallel with the opposite side.

When the adjacent side constituent timber 11, the opposite side constituent timber 12, the hypotenuse constituent timber 13, and the leg timber 14 are viewed as a unit, the brace unit 10 has a truss frame portion having a right-angled triangular shape when viewed in a plane. 20 is provided, a protruding portion 30 projecting from the truss frame portion 20 toward the outside of the outer shape of the truss frame portion 20, and a truss plate 40 as one of the fasteners. The brace unit 10 is formed in a size in which the truss frame portion 20 fits in the wall frame (2) of a plurality of sizes, and the entire body including the protrusion 30 does not fit in the wall frame (2) of a plurality of sizes. It is formed by size. That is, even if the size of the wall frame 2 varies to some extent, the brace unit 10 is formed so as to be appropriately fitted in the wall frame (2) by appropriately cutting the end portion of the protruding portion 30. ..

The truss frame portion 20 has a right-angled triangular shape when viewed in a plane, and has a base portion 21, a pillar portion 22 connected to the end portion of the base portion 21, and a brace connected to the base portion 21 and the end portions of the pillar portion 22. It has a unit 23. The base portion 21 is a portion corresponding to the position of the adjacent side of the right triangle overlapped with the truss frame portion 20. The pillar portion 22 is a portion corresponding to the opposite side position of the right triangle overlapped with the truss frame portion 20. The brace portion 23 is a portion corresponding to the position of the hypotenuse of a right triangle overlapped with the truss frame portion 20. Since the truss frame portion 20 has a truss shape and a stable shape, it is difficult to be deformed by an external force.

The projecting portion 30 is formed from two or more first-direction projecting portions 30A projecting from the base portion 21 in the longitudinal direction of the base portion 21 and a connecting portion between the base portion 21 and the brace portion 23 to form the base portion 21. It has a second-direction protruding portion 30B that protrudes along the longitudinal direction. The first-direction protruding portion 30A protrudes from both ends of the base portion 21. In other words, the protruding portion 30 is a first protruding portion 31 which is a portion of the opposite side constituent timber 12 which protrudes from the truss frame portion 20 as a first-direction protruding portion 30A, and the entire leg wood 14. It has two protruding portions 32. Further, the projecting portion has a third projecting portion 33 which is a portion projecting from the truss frame portion 20 in the adjacent side portion constituent wood 11 as the second direction projecting portion 30B. That is, the first protruding portion 31 of the protruding portion 30 located on the extension of the pillar portion 22 is a part of the opposite side portion constituting wood 12 constituting the pillar portion 22. Further, the third protruding portion 33 of the protruding portion 30 located on the extension of the base portion 21 is a part of the adjacent side portion constituent wood 11 which constitutes most of the base portion 21. The protruding portion 30 protrudes from the truss frame portion 20 with a certain length so that it can be cut along the cut line CL shown in FIG. 2A, for example, in correspondence with the wall frame 2 when used. ing.

The truss plate 40 is a metal flat plate having a through hole. The truss plate 40 is arranged so as to extend over the surface of a plurality of woods at the joint portion, and the woods are bridged and joined by being fixed by hitting wood screws or the like so as to pass through the through holes thereof. Is used for. The truss plate 40 may have various shapes such as the large truss plate 41 and the small truss plate 42 shown in FIG. 2A, and may be appropriately selected according to the size of the joint. Further, the truss plate 40 is preferably fixed to both surfaces of the truss frame portion 20 and the protruding portion 30 as shown in FIG. 2B in order to further increase the strength.

[1-2. How to use the brace unit 10 according to the embodiment]
FIG. 3 is a flowchart showing how to use the brace unit 10 according to the embodiment.
FIG. 4 is a front view and a sectional view taken along the line AA in the usage mode of the brace unit 10 according to the embodiment. FIG. 4A shows a front view, and FIG. 4B shows a cross-sectional view taken along the line AA of FIG. 4A.

The brace unit 10 is used by performing a confirmation step ST1, an adjustment step ST2, a fitting step ST3, and a fixing step ST4 by a construction site worker at a construction site, as shown in FIG.

First, in the confirmation step ST1, it is confirmed whether or not the brace unit 10 can be fitted into the wall frame 2 in a state where the upper surface (upper side in FIG. 2) and the side surface of the opposite side constituent wood 12 are in contact with the inner surface of the wall frame 2. If they do not fit (if they are unlikely to fit), check how much the protrusion 30 gets caught in the wall frame, and fit the brace unit 10 into the wall frame 2 with a slight gap from the wall frame 2. , The position of the cut line CL (see FIG. 2) is determined, and the process proceeds to the adjustment step ST2. If they fit (when the gap with the wall frame is likely to be fitted within a small range), the process proceeds to the fitting step ST3. The cut line CL is parallel to the end face of the protrusion 30.

Next, in the adjustment step ST2, the end portion of the protruding portion 30 is cut along the cut line CL parallel to the end face defined in the confirmation step ST1, and the process returns to the confirmation step ST1.

Next, in the fitting step ST3, as shown in FIG. 4, the brace unit 10 is fitted into the wall frame 2 in a state where the upper surface (upper side of FIG. 2) and the side surface of the opposite side constituent wood 12 are in contact with the inner surface of the wall frame 2. Include.

Next, in the fixing step ST4, as shown in FIG. 4, the brace unit is formed by striking fasteners such as wood screws from the outside of the wall frame 2 to the end faces of the adjacent side constituent wood 11 and the opposite side constituent wood 12. 10 is fixed to the wall frame 2. A fastener such as a wood screw may be struck on the end face of the leg wood 14.

Further, preferably, in order to further increase the strength of the wall structure, as shown on the left side of FIG. 4A and FIG. 4B, a plurality of brace units 10 may be overlapped and fixed in the wall frame 2. At that time, by turning one brace unit 10A and the other brace unit 10B in the left-right inverted direction, the strength of the wall structure can be increased as a whole, and the hypotenuse constituent timber 13 (the brace portion 23) crosses. , The strength of the wall structure against external force from either the left or right can be increased evenly. As described above, the wall frame 2 and the brace unit 10 are configured by using the two-by-four material in the same manner, but the orientations of the wood of the wall frame 2 and the wood of the brace unit 10 are different by 90 degrees. Therefore, even if the brace units 10A and 10B are stacked, they fit within the wall frame 2.

[1-3. Actions and effects according to the embodiment]
According to the brace unit 10, it is fixed in the wall frame 2 forming a part of the wooden building 1 and used to reinforce the wall structure of the wooden building 1, and is viewed in a plan view. Since the truss frame portion 20 having a right-angled triangular shape is provided, the truss structure is formed in the wall frame 2 by being fixed as it is in the wall frame 2, so that the construction site worker does not have high skill. However, the wall structure of the wooden building 1 can be reinforced with less installation labor.

According to the brace unit 10, since the projecting portion 30 projecting from the truss frame portion 20 toward the outer shape of the truss frame portion 20 is provided, the end portion of the projecting portion 30 is appropriately cut in parallel with the end surface to form the wall frame 2. Since it is possible to match the actual product inside, even a construction site worker who does not have a high skill can easily adjust the fitting into the wall frame 2 at the construction site.

As a result, the brace unit 10 becomes a brace unit that can reduce the burden on the construction site worker and can easily make adjustments at the construction site.

According to the brace unit 10, since the projecting portion 30 has the first-direction projecting portion 30A, the end portion of the first-direction projecting portion 30A is appropriately cut parallel to the end face to appropriately cut the base-beam interval (horizontal wall) of the wall frame 2. Since it is possible to match the actual product with the frame material (between 2H), it is possible to easily adjust the width in the vertical direction at the construction site.

In the brace unit 10, the first-direction projecting portions 30A project from both ends of the base portion 21. Therefore, according to the brace unit 10, both ends of the base portion 21 are supported by the first-direction projecting portions 30A, so that the brace unit 2 can be arranged in a stable posture.

According to the brace unit 10, since the projecting portion 30 has the second-direction projecting portion 30B, the end portion of the second-direction projecting portion 30B is appropriately cut in parallel with the end face to allow the space between the columns of the wall frame 2 (vertical wall frame). Since it is possible to match the actual product with the material (between 2V), it is possible to easily adjust the width in the horizontal direction at the construction site.

In the brace unit 10, the truss frame portion 20 and the protruding portion 30 are mainly made of wood. Therefore, according to the brace unit 10, since the main material is wood as a whole, strength can be ensured and it can be easily cut for adjustment.

In the brace unit 10, the protruding portions 31 and 33 located on the extension of the base portion 21 or the pillar portion 22 of the protruding portion 30 are a part of the wood constituting the base portion 21 or the pillar portion 22. Therefore, according to the brace unit 10, since some of the protruding portions 31, 33 are a part of the wood constituting the base portion 21 or the pillar portion 22, the protruding portions 31, 33 and the base portion 21 or the pillar Since the portion 22 and the integrated structure are formed, the number of parts can be reduced and the strength can be increased.

According to the brace unit 10, since the metal truss plate 40 for bridging and joining the timbers constituting the truss frame portion 20 and the protruding portion 30 is provided, the timbers are more firmly joined by the truss plate 40. Therefore, the strength can be further increased.

According to the brace unit 10, the truss frame portion 20 is a size that can be accommodated in the wall frame 2 of a plurality of sizes, and the entire body including the protrusion 30 is a size that cannot be accommodated in the wall frame 2 of a plurality of sizes. Since the protruding portion 30 may be appropriately cut to correspond to the wall frame 2, it can be applied to the wall frame 2 of a plurality of sizes.

According to the brace unit 10, since the thickness direction of the two-by material faces the direction orthogonal to the entire plane of the truss frame portion 20, it is possible to stack the two and fit them in the wall frame 2 having a thickness dimension of 76 mm or more. Therefore, it is possible to more strongly reinforce the wall structure of a wall having a thickness dimension of 76 mm or more by superimposing the two in symmetrical directions.

According to this embodiment, it is possible to provide the brace unit 10 which can reduce the burden on the construction site worker and can easily perform the adjustment at the construction site.

Although the present invention has been described above based on the above embodiment, the present invention is not limited to the above embodiment. It can be carried out in various aspects within a range that does not deviate from the purpose, and for example, the following modifications are also possible.

(1) The number, shape, position, orientation, size, material, fastening method, fastening position, etc. of the components described in the above embodiment are examples and can be changed as long as the effects of the present invention are not impaired. Is.

(2) In the above-described embodiment, it has been described that the two-by-four material is used for the horizontal wall frame material 2H and the vertical wall frame material 2V, but the present invention is not limited thereto. For example, as the horizontal wall frame material 2H and the vertical wall frame material 2V, other two-by materials such as a two-by-six material and a two-by-eight material may be used. Further, as the horizontal wall frame material 2H and the vertical wall frame material 2V, square timbers other than two-bye members may be used. As described above, the horizontal wall frame material and the vertical wall frame material may be any wood extending horizontally and vertically that constitutes a portion having an enclosed inner rectangular area (inside the wall frame), and are not necessarily one independent. It does not have to be a part of the frame body, and may be constructed by the wooden frame construction method or the wood frame wall construction method.

(3) In the above-described embodiment, it has been described that the two-by-four material is used for the wood constituting the brace unit 10, but the present invention is not limited to this. For example, as the wood constituting the brace unit 10, other two-by materials such as a two-by-six material and a two-by-eight material may be used. Further, as the wood constituting the brace unit 10, a square lumber other than the two-bye lumber may be used.

(4) In the above-described embodiment, the two-by-four material is used for the wood constituting the brace unit 10, that is, the brace unit 10 has been described as having an overall thickness of about 38 mm. Is not limited to this. However, the brace unit is generally configured to be less than half the small diameter of the pillars that make up the wooden building so that it can be easily inverted and stacked together to fit between the pillars. It is preferable to have. The brace units configured in this way can be inverted from each other and placed on top of each other to reinforce the wall structure more strongly. In the Building Standards Law, a thickness of 3 cm or more is required for the brace that bears the compressive force, and a thickness of 1.5 cm or more is required for the brace that bears the tensile force. For this reason, the brace unit is configured to have a thickness of 1.5 cm or more as a whole, even if it is considered that one of them can bear the tensile force when the two bracing units are inverted and arranged on top of each other. Is preferable.

(5) In the above-described embodiment, it has been described that the brace unit 10 is composed of four pieces of wood, but the present invention is not limited thereto. The overall shape of the brace unit may include a truss frame and protrusions, for example, all protrusions may be made of wood other than the truss frame. Further, the number of protruding portions may be 4 or more, which is larger than that of the above-described embodiment.

(6) In the above-described embodiment, the truss plate 40 has been described as being along only the joint portion between woods, but the present invention is not limited thereto. For example, the truss plate may be one truss plate that covers the entire surface of the brace unit.

1 ... Wooden building, 2 ... Wall frame, 2H ... Horizontal wall frame material, 2V ... Vertical wall frame material, 10, 10A, 10B ... Brace unit, 11 ... Adjacent side construction wood, 12 ... Opposite side construction wood, 13 ... Slope constituent wood, 14 ... Leg wood, 20 ... Truss frame part, 21 ... Base part, 22 ... Pillar part, 23 ... Brace part, 30 protruding part, 30A ... First direction protruding part, 30B ... Second direction protruding Part, 31 ... 1st protruding part, 32 ... 2nd protruding part, 33 ... 3rd protruding part, 40 ... truss plate, CL ... cut line, ST1 ... confirmation process, ST2 ... adjustment process, ST3 ... fitting process, ST4 ... Fixing process

Claims (10)

A brace unit that is fixed in a wall frame that forms part of a wooden building and is used to reinforce the wall structure of the wooden building.
A truss frame portion having a base portion, a pillar portion connected to the end portion of the base portion, and a brace portion connected to the base portion and the end portion of the pillar portion, and having a right-angled triangular shape when viewed in a plane. When,
From the truss frame portion to the outside of the outer shape of the truss frame portion, at least, the base portion projects in a direction perpendicular to the longitudinal direction of the base portion, or the connection portion between the base portion and the brace portion is used. With a protrusion that protrudes along the longitudinal direction of the base ,
A brace unit characterized in that at least the end of the protruding portion is cut so that it can be fitted into the wall frame . The brace unit according to claim 1, wherein the projecting portion has at least two or more first-direction projecting portions projecting from the base portion in a direction perpendicular to the elongated direction of the base portion. The brace unit according to claim 2 , wherein the first-direction projecting portion projects from both ends of the base portion.
Claims 1 to 3 characterized in that the protruding portion has at least a second-direction protruding portion that protrudes from the connecting portion between the base portion and the brace portion along the elongated direction of the base portion. The brace unit according to any one item. The brace unit according to any one of claims 1 to 4, wherein the truss frame portion and the protruding portion are made of wood as a main material. The brace according to claim 5, wherein the protruding portion of the protruding portion located on the base portion or an extension of the pillar portion is a part of the wood constituting the base portion or the pillar portion. unit. The brace unit according to claim 5 or 6, further comprising a metal truss plate for bridging and joining the timbers constituting the truss frame portion and the protruding portion. A claim characterized in that the truss frame portion is formed in a size that fits in a wall frame of a plurality of sizes, and the entire body including the protruding portion is formed in a size that does not fit in the wall frame of the plurality of sizes. Item 6. The brace unit according to any one of Items 5 to 7. The thickness of the truss frame section, on 1.5cm than, and any one of claims 5-8, characterized in that it is constituted by a small-diameter half hereinafter pillars constituting the wooden structure The brace unit described in. The brace according to any one of claims 5 to 9, wherein a two-by material is used as the wood, and the thickness direction of the two-by material is oriented in a direction orthogonal to the entire plane of the truss frame portion. unit.

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