JP6202418B1 - Structure - Google Patents

Abstract

An object of the present invention is to provide a structure having improved earthquake resistance and fire resistance in a wooden house. A rectangular frame-like structure is constituted by a lower structure, an upper structure, a left structure, and a right structure made of a standardized wooden material. An intermediate structure made of standard wooden material is placed at a position that is centered and biased outward in the thickness direction, and the brace is placed in parallel with the intermediate structure at a position biased inward. Deploy. Between the intermediate structure, the left structure, and the right structure, a wall-fixing structure is arranged by arranging two standardized wood materials adjacent to each other in a position biased inward, and adjacent to each other. A concave portion is formed in a portion of the wall fixing structure that interferes with the brace, and a concave groove is formed in which the concave portion is connected in an oblique direction, and the brace is received in the concave groove. The middle of the outer plate-like body is fixed to the intermediate structure, and the middle of the inner plate-like body is fixed to the wall fixing structure by a plate-like body fixing means within a predetermined standard interval. [Selection] Figure 1

Description

The present invention relates to a structure having earthquake resistance and fire resistance used for a wooden house.
Specifically, the present invention relates to a structure having improved earthquake resistance and fire resistance used for a wooden house.
More particularly, the present invention relates to a structure having improved earthquake resistance and fire resistance used for a wooden house constructed by a wooden frame wall construction method, a so-called two-by-four construction method.

Recently, interest in earthquake resistance, fire resistance and energy saving has increased, and interest in houses by the wooden frame wall construction method, the so-called two-by-four (2 × 4) construction method has increased, and further earthquake resistance since the Great East Japan Earthquake. There is a strong demand for improved fire resistance.
As a first conventional technique for improving earthquake resistance, a vibration control device having a quadrangular frame formed in a quadrangle in front view by a member including four constituent members, and disposed inside the quadrilateral frame, The vibration control device is connected to the quadrangular frame by four braces extending radially from the vibration control device, and vibration energy of the quadrilateral frame is deformed, and the vibration energy is transmitted via the braces. In the structure with a vibration damping device that suppresses vibration by absorbing by plastic deformation, a bridging member is bridged between two of the four constituent members arranged opposite to each other. In addition, a part of the bridging member is an overlapping portion that overlaps with the vibration damper in the front view, and the overlapping portion is a right angle view from a direction perpendicular to the front view. Vibration damping device with structures wherein the interference between the serial damping device is configured as an interference avoiding portion that is avoided is known (e.g., see Patent Document 1).
As a second conventional technique, a wooden lower horizontal member supported substantially horizontally, first and second wooden pillars standing upright on the lower horizontal member, and these One end of the wooden upper frame member supported substantially horizontally on the pillar of the first pillar and an intermediate portion between the upper end and the lower end of the first pillar are joined via a joint fitting, and the other end is the joint fitting. The first brace joined to the second pillar at a position higher than the joining position by means of the above, and one end is joined to the intermediate portion of the first pillar via the joining fitting, and the other end is made by the joining fitting. A second brace joined to the second pillar at a position lower than the joining position, and the joining bracket is made of a continuous plate-like member and is fixed in contact with the side surface of the pillar. The column fixing part is continuous with the column fixing part and is bent so as to be folded by a vertical folding line. A folding portion that faces the column fixing portion, and a bracing fixing portion that is continuous with the column fixing portion via the folding portion and is fixed to a side surface of the bracing substantially perpendicular to the column fixing portion, The one end of the two braces and the first column to which the braces are joined by deformation of the joint fitting are allowed to be relatively displaced in the axial direction of the first column, and the first column A bearing wall is known in which a stud is provided between the pillar and the second pillar, and the stud and the brace are connected by a nail (see, for example, Patent Document 2).
As a third prior art, the inner space of the pillar / girder structure formed by the adjacent pillars and the upper and lower ends of the adjacent pillars is divided into two in the thickness direction. An upper support plate that has a pair of diagonal members crossing in a letter shape to provide a bracing structure for wall strength enhancement, and the upper and lower ends are fixed to the upper and lower horizontal members in the other space divided in the thickness direction There is known a wall structure with excellent earthquake resistance provided with a seismic reduction mechanism consisting of a pair of lower support plates and a damper device that couples them together to cushion relative movement in the horizontal and vertical directions. (For example, refer to Patent Document 3).

JP-A-2016-000893 (FIGS. 1-5, paragraphs 0005-0007) Japanese Patent No. 5893863 (FIGS. 1-16, paragraphs 0008-0064) JP 2002-188314 (FIGS. 1 to 8, paragraphs 0004 to 0050)

The first prior art can absorb the vibration energy of the rectangular frame that is deformed in front view by the deformation of the vibration control device, and has the advantage of improving the seismic resistance. Since the bridging member (the middle column) for connecting the constituent members is arranged in parallel in the thickness direction of the vibration control tool and the bearing wall, a recess serving as an interference avoiding portion is provided in the middle of the bridging member. A fixing member such as a nail for fixing the plate-like body cannot be locked to the bridging member at the interval. In other words, since there is no bridging member at the part facing the recess for avoiding the vibration control device, the plate-like body constituting the structure is fixed to the bridging member by plate-like body fixing means such as a nail. There is a problem that the fire prevention structure rank cannot be raised above a predetermined rank. This problem will be described using a conventional example shown in FIGS. The left vertical frame 4 and the right vertical frame, which are cross-sectional oblong rectangles formed according to a predetermined standard on the upper surface of the lower frame 2 of the cross-sectional oblong rectangle formed according to a predetermined standard, and are arranged at predetermined intervals An upper frame 8 having a rectangular cross section formed in accordance with a predetermined standard is fixed to the upper ends of the left vertical frame 4 and the right vertical frame 6. The head tether 12 formed based on a predetermined standard is fixed to form a rectangular frame 14 having a vertically long rectangular shape when viewed from the front. In this conventional example, the circular damping device 16 is fixed to the first bracket 18LU fixed to the upper end side surface of the left vertical frame 4, the second bracket 18LL fixed to the lower end side surface, and fixed to the upper end side surface of the right vertical frame 6. The third connecting rod 18RU, the first connecting rod 22LU, the second connecting rod 22LL, the third connecting rod 22RU, and the fourth connecting rod 22RL each having one end fixed to the fourth bracket 18RL fixed to the lower end. They are connected and arranged at the center of the rectangular frame 14. A middle pillar 24 is disposed between the left vertical frame 4 and the right vertical frame 6, the upper end thereof is fixed to the upper frame 8, the lower end is fixed to the lower frame 2, and a concave portion 26 is formed in the middle, and the concave portion 26 is restricted. Accepts shaker 16. An outer wall plate-like body 28 is provided on the outer side of the rectangular frame 14, and a plaster board 32 serving as an inner wall plate-like body is provided on the inner side by a plate-like body fixing means 34 such as a nail at a pitch (interval) determined by the standard. Fixed to the lower frame 2, the left vertical frame 4, the right vertical frame 6, the upper frame 8, the head connection 12, and the middle pillar 24. This pitch is at most 200 millimeters. In this case, the size of the concave portion 26 exceeds 200 mm for receiving the vibration control device 16, and the plate-like body fixing means 34 is driven into the front and back surfaces of the middle column 24 at a pitch determined by the standard. I can't. Accordingly, there is a problem in that there is a limit to improving the fire prevention standard level because the predetermined standard in the fire prevention standard is not satisfied. In other words, even when using bracing to improve seismic resistance, to improve the fireproof standard level, fix the middle of the plate to be fixed on both sides of the load bearing wall with a plate like a nail. The means 34 must be fixed at a predetermined interval. However, when the concave portion 26 for receiving the vibration control device 16 is formed in the middle pillar 24 shown in the first prior art, the inner pillar 24 for fixing the plate-like body fixing means 34 is provided on the inner side facing the concave portion 26. It does not exist and cannot be fixed at a predetermined interval by the plate-like body fixing means 34. Accordingly, as described above, there is a problem that there is a limit to the improvement of the fire prevention standard level.
Even in the second prior art, a stud is used, and the intersection with the brace is fixed by a nail, but there is no escape to avoid interference with the brace such as a notch, so the stud is only on one side of the wall. It must be understood that it is adjacent. Thus, the plate-like body can be fixed to the inter-column with a plate-like body fixing means such as a nail at a predetermined pitch only on one surface constituting the bearing wall, and one plate-like body can be fixed to the inter-column by the plate-like body fixing means. Since it cannot be fixed, there is a problem that there is a limit to improving the fire prevention standard level as in the first prior art.
In the third conventional technique, the wall structure is divided into two in the thickness direction, an X-type bracing structure is arranged on one side, and a vibration damping mechanism is combined with a damper device on the other side, and in the same plane as the bracing structure. One or two middle rails are installed, and a plate-like reinforcing plate installed on one side of the wall structure is fixed with nails. Therefore, one reinforcing plate of the wall structure is fixed to the middle rail by the plate-like body fixing means, but the other reinforcing plate cannot be fixed to the middle rail, so that the fire protection standard level is improved as in the first prior art. There are also problems with limitations.

A first object which is a basic object of the present invention is to provide a structure having improved earthquake resistance and fire resistance in a wooden house.
A second object, which is a subordinate object of the present invention, is to provide a structure with improved earthquake resistance and fire resistance in a wooden house that is easy to construct.
A third object, which is a subordinate object of the present invention, is to provide a structure with improved earthquake resistance and fire resistance in an inexpensive wooden house.

In order to achieve this object, the first invention according to claim 1 is configured as follows.
For the rectangular frame formed in a rectangular shape as viewed from the inside by the structures arranged above and below and the left and right structures connecting the structures above and below, Further, an intermediate structure that connects the upper and lower structures is provided between the left and right structures, and plate-like bodies are arranged on the inner and outer surfaces of the rectangular frame. A structure constructed by fixing to an intermediate structure by fixing means such as nailing,
A plurality of wall fixing structures fixed to the upper and lower structures are disposed adjacent to each other between the intermediate structure and at least one of the left and right structures;
Each of the plurality of wall-fixing structures is formed with a recess (162) in the middle, and these recesses are formed so as to be shifted in the vertical direction when viewed from the inner surface or the outer surface, thereby extending in an oblique direction. It is the structure characterized by comprising the concave groove which receives and receiving the said bracing body in the said concave groove.

The second invention according to the present invention is:
The concave portion is a structure according to the first aspect of the present invention, wherein the concave portion has a rectangular groove shape.

A third aspect of the invention relates to
The brace is arranged in the middle of the left and right structures and close to the inner surface in the thickness direction of the structure, and the intermediate structure is arranged on the outer surface side in parallel with the brace, and the left or right The structure according to the first or second invention, wherein the plurality of wall fixing structures are arranged between at least one of the structures and the intermediate structure.

According to a fourth aspect of the present invention,
The brace is disposed between the left and right structures and at a position close to the inner surface in the thickness direction of the structure, and an intermediate structure is disposed on the outer surface side in parallel with the brace, and the left and right structures. The structure according to the first or second invention, wherein the plurality of wall fixing structures are disposed between the intermediate structure and the intermediate structure.

According to a fifth aspect of the present invention,
An upper structure of a wooden cross-section rectangle disposed above, a lower structure of a wooden cross-section rectangle disposed below, and a wooden structure disposed at a predetermined interval so as to connect the upper structure and the lower structure A brace that is made of a material that cannot be nailed diagonally is disposed on a rectangular frame that is formed in a rectangular shape when viewed from the inside by a left structure and a right structure having a rectangular cross section. An intermediate structure with a wooden cross section rectangular fixed to the upper structure and the lower structure is provided between the structures, and the plate-like bodies are vertically and horizontally structured on the inner surface side and the outer surface side of the rectangular frame, and A structure constructed by fixing to an intermediate structure by a plate-like body fixing means such as a nail,
A plurality of wall fixing structures fixed to the upper and lower structures are disposed adjacent to each other between the intermediate structure and at least one of the left and right structures;
Each of the plurality of wall-fixing structures is formed with a recess in the middle, and when viewed from the inner surface side or the outer surface side, the recesses are formed so as to be shifted in the vertical direction to form a groove extending obliquely. And receiving the bracing body in the concave groove,
One of the plate-like bodies is fixed to the wall-fixing structure, and the other plate-like body is fixed to the intermediate structure by a plate-like fixing means.

A sixth invention according to the present invention includes:
An upper structure made of 2 × 6 material arranged above, a lower structure made of 2 × 6 material arranged below, and the upper structure and the lower structure are arranged at predetermined intervals so as to be connected. The square frame is formed of a brace that is made of a material that cannot be nailed in a diagonal direction as viewed from the inner surface with respect to a rectangular frame that is formed into a rectangular shape when viewed from the inside by the left structure and the right structure made of 2 × 6 materials. And an intermediate structure made of 2 × 4 material for connecting the upper structure and the lower structure between the left structure and the right structure, and offset from the indoor side in the direction. Consists of fixing the plate-like body to the upper structure, the lower structure, the left structure, the right structure, and the intermediate structure by plate-like body fixing means such as nailing on the inner surface side and the outer surface side of the frame The structure
A plurality of 2 × 4 wall fixing structures fixed to the upper and lower structures are disposed adjacent to each other between the intermediate structure and at least one of the left and right structures;
Each of the plurality of wall-fixing structures has a recess (162) formed in the middle, and when viewed from the inner surface or the outer surface, the recesses are formed by shifting in the vertical direction and extending obliquely. Forming a groove, receiving the bracing body in the concave groove,
The plate-like body is fixed to the wall-fixing structure by the plate-like body fixing means.

The seventh invention according to the present invention is:
For the rectangular frame formed in a rectangular shape as viewed from the inside by the structures arranged above and below and the left and right structures connecting the structures above and below, Further, an intermediate structure that connects the upper and lower structures is provided between the left and right structures, and plate-like bodies are arranged on the inner and outer surfaces of the rectangular frame. A structure constructed by fixing to an intermediate structure by a plate-like body fixing means such as nailing,
The intermediate structure is configured by adjacently arranging a plurality of standardized structures having recesses formed in the middle, and the recesses formed in the plurality of intermediate structures when viewed from the inner surface side or the outer surface side. It is a structure characterized in that a groove is formed so as to be obliquely extended by being shifted in the vertical direction, and the brace is received in the groove.

The eighth invention according to the present invention is:
The structure according to the sixth or seventh invention, wherein an interval between the fixing means is 200 mm or less.

A ninth invention according to the present invention includes:
The brace is the structure according to any one of the first to eighth inventions, in which a damping body is disposed in the middle.

A tenth aspect of the invention relates to
The brace is a structure according to any one of the first to ninth inventions, characterized in that it includes a bar made of metal.

According to the first invention, the structure formed in the shape of a quadrangular frame by the upper and lower structures and the left and right structures is supported by the brace, and thus is resistant to vibration in the lateral (left and right) direction. In addition, when the vibration control body is interposed, the earthquake resistance is improved. Furthermore, since the intermediate structure is arranged in parallel with the brace and close to the one plate-like body, the one plate-like body is determined by the standard by plate-like body fixing means such as a nail on this intermediate structure. It is fixed at a predetermined interval. On the other hand, between the intermediate structure and the left structure or the right structure, a plurality of wall fixing structures having recesses are disposed adjacent to each other, and these recesses are formed to be shifted in the vertical direction. To form a groove extending obliquely. Therefore, the bracing member in an oblique state can be received in the concave groove, and one surface of the wall fixing structure can be disposed at a position adjacent to the other plate-like body. The recesses formed in the plurality of wall-fixing structures are formed so as to be shifted in the vertical direction and extend in the oblique direction, so that the lower end of the adjacent recesses and the upper end of the recesses are 1 The distance between the plate-like body fixing means such as nails for fixing the reference plate-like body to the wall-fixing structure can be made a predetermined reference. As a result, the interval of the fixing means with respect to the plate-like structures on both sides of the quadrangular frame can be kept within a predetermined reference interval, and there is an advantage that the first object which is the basic object of the present invention can be achieved. In the second to tenth inventions, other objects can be achieved in addition to the first object which is the basic object of the present invention. However, if at least the first object can be achieved, It belongs to the technical scope.

  According to the second invention, since the basic configuration is the same as that of the first invention, the first object of the present invention can be achieved. Furthermore, in the second invention, the recess has a square groove shape. The square groove shape can be easily formed by a carpenter tool such as a saw. Therefore, according to the 2nd invention, construction is easy and there exists an advantage which can achieve the 2nd objective of the present invention.

According to the third invention, since the basic configuration is the same as that of the first invention, the first object which is the basic object of the present invention can be achieved. Furthermore, in the third invention, since the intermediate structure and the wall fixing structure are made of a wooden material that is smaller than the left and right structures, the cost can be reduced and the third object, which is a subordinate object of the present invention. There are advantages that can be achieved.

  According to the fourth invention, since the basic configuration is the same as that of the first invention, the first object which is the basic object in the present invention can be achieved. Furthermore, in the fourth aspect of the invention, the brace is arranged in the middle of the left and right structures and close to the inner surface, and the intermediate structure is arranged on the outer surface side in parallel with the brace. In addition, since the brace and the intermediate structure can be maximized in the allowable installation range, there is an advantage that the earthquake resistance can be further improved.

  According to the fifth aspect, since the basic configuration is the same as that of the first aspect, the first object which is the basic object in the present invention can be achieved. Further, in the fifth aspect of the invention, the upper structure, the lower structure, the left structure, the right structure, the intermediate structure, and the wall fixing structure are made of wood. .

According to the sixth aspect of the invention, the structure formed in a square frame shape by the upper and lower structures and the left and right structures made of 2 × 6 material is supported by the brace, so The resistance to vibrations in the direction is improved, and when a damping body is interposed, the earthquake resistance is further improved. Further, since the intermediate structure constituted by the 2 × 4 material in parallel with the brace is arranged (offset) toward the one plate-like body, the one plate-like body is attached to this intermediate structure such as a nail. It is fixed at a predetermined interval by the plate-like body fixing means. On the other hand, between the intermediate structure and the left structure or the right structure, a wall fixing structure formed with a recess made of 2 × 4 material is disposed adjacent to each other, and these recesses are arranged in the vertical direction. By being formed so as to be offset, a concave groove extending in an oblique direction is formed. The brace that is oblique to the concave groove can be received in the concave groove, and one surface thereof can be disposed at a position adjacent to the other plate-like body. Since the recesses formed in the plurality of wall fixing structures are formed so as to be displaced in the vertical direction, the lower end of the adjacent recesses and the upper end of the recesses are shorter than the entire length of one recess, and the plate-like body The interval between the plate-like body fixing means such as nails when fixing the to the wall fixing structure can be set within a predetermined reference interval. As a result, the interval between the plate-like body fixing means with respect to the plate-like body structures on the inner surface side and the outer surface side of the rectangular frame can be kept within a predetermined reference interval, thereby achieving the first object which is the basic object of the present invention. There are advantages you can do. Furthermore, in the sixth aspect of the invention, since the upper structure, the lower structure, the left structure, the right structure, the intermediate structure, and the wall fixing structure are standardized, the wooden material is used. Since it is inexpensive and the construction period is short, there is an advantage that a house can be constructed at a low cost and the third object which is a subordinate object of the present invention can be achieved.

According to the seventh invention, the intermediate structure is constituted by a plurality of standardized wooden structures, and each of them has a groove extending in an oblique direction by being shifted in the vertical direction to form a square groove. Grooves are formed. Since the brace is located in the concave groove, the brace and the intermediate structure can coexist in the same plane. Accordingly, the recesses formed in the plurality of intermediate structures are formed so as to be shifted in the vertical direction and extend in the oblique direction, so that the lower end of the adjacent recesses and the upper end of the recesses are 1 It becomes shorter than the full length of one recessed part, and the space | interval of plate-shaped body fixing means, such as a nail which fixes a plate-shaped body to the structure for wall fixation, can be less than a predetermined reference | standard. As a result, when viewed from the inner surface side or the outer surface side of the quadrangular frame, the distance between the plate-like body fixing means and the plate-like body structure can be kept within a predetermined reference distance. There is an advantage that one object can be achieved. In the seventh invention, since the inner plate-like body can be fixed to the intermediate structure by the plate-like body fixing means, the earthquake resistance and the fire resistance can be improved at a low cost. There are advantages that can be achieved.

According to the eighth invention, since the basic configuration is the same as that of the sixth or seventh invention, the first object which is the basic object of the present invention and the third object which is the subordinate object. Can be achieved. Further, the eighth aspect of the present invention has an advantage that a predetermined fire prevention standard can be achieved because the distance between the fixing means is 200 millimeters or less.

According to the ninth aspect, since the basic configuration is the same as the first to eighth aspects, the first object which is the basic object of the present invention can be achieved. Furthermore, the ninth aspect of the present invention has an advantage that the seismic resistance can be improved because the damping body is arranged in the middle of the bracing.

According to the tenth aspect, since the basic configuration is the same as the first to ninth aspects, the first object which is the basic object of the present invention can be achieved. Further, the tenth aspect of the invention has an advantage that the seismic resistance can be improved at a low cost since the brace includes a bar made of metal.

FIG. 1 is an internal view of the structure of Example 1 according to the present invention. 2A and 2B show a structure according to the first embodiment of the present invention, in which FIG. 2A is a cross-sectional view taken along line YY in FIG. 1, FIG. 2B is a plan view of the mounting body, and FIG. is there. 3 is a cross-sectional view of the structure according to the first embodiment of the present invention taken along line XX in FIG. FIG. 4 is an external view of the structure of Example 1 according to the present invention. 5A and 5B show the structure according to the first embodiment of the present invention, in which FIG. 5A is an enlarged view of a damping body, and FIG. 5B is an enlarged view of a bracket. FIG. 6 is a partially enlarged view of the structure of Example 1 according to the present invention. FIG. 7 is an inner surface view of the second embodiment according to the present invention. 8 is a cross-sectional view taken along line YY in FIG. 7 of Example 2 according to the present invention. FIG. 9 is an inner surface view of the third embodiment according to the present invention. FIG. 10 is an inner surface view of the fourth embodiment according to the present invention. FIG. 11 is a sectional view taken along line XX in FIG. 10 of Example 4 according to the present invention. FIG. 12 is an internal view of an example of a conventional structure. FIG. 13 is an external view of an example of a conventional structure. FIG. 14 is a cross-sectional view of the conventional structure taken along line XX in FIG.

The best form of the structure of the present invention is an upper structure made of 2 × 6 wooden material arranged above, a lower structure made of 2 × 6 wooden material arranged below, and the upper structure and Constructed by iron material diagonally in the inner surface of a rectangular frame formed in a rectangular shape in the inner surface by a left structure and a right structure made of 2 × 6 wooden materials arranged at predetermined intervals so as to connect the lower structure By the 2 × 4 wood material that is arranged by offsetting the bracing body that is biased inward in the thickness direction of the square frame and that connects the upper structure and the lower structure between the left structure and the right structure An intermediate structure is provided, and on the outer surface side of the rectangular frame, a plate-like outer plate-like body is provided as an upper structure, a lower structure, a left structure, a right structure, and a nail or the like on the intermediate structure. Fixing with plate-like body fixing means A more configuration structure thereof,
A plurality of 2 × 4 wall fixing structures fixed to the upper and lower structures are disposed adjacent to each other between the intermediate structure and at least one of the left and right structures;
Each of the plurality of wall-fixing structures is formed with a recess in the middle, and when viewed from the inner surface side or the outer surface side, the recesses are formed so as to be shifted in the vertical direction to form a groove extending obliquely. And receiving the bracing body in the concave groove,
An inner plate-like member different from the outer plate-like member is fixed to the wall-fixing structure by the plate-like member fixing means at intervals of 200 millimeters or less.

The structure 100 of Example 1 which concerns on this invention with reference to FIGS. 1-6 is demonstrated.
The structure 100 is a load-bearing wall structure with a rectangular frame 102 used in a so-called two-by-four (2 × 4) construction method as a wooden framed wall construction method composed of standard structural lumber. The lower structure 104, the upper structure 106, the left structure 108, and the right structure 112 are configured. In the present invention, the brace 114 for improving the earthquake resistance and the load resistance are improved. An intermediate structure 116, a wall fixing structure 118, an outer plate 122, and an inner plate 124 are included. For convenience of explanation, the side of the structure 100 that is located on the indoor side of the building will be described as the inside, and the side that is positioned on the outdoor side will be described as the outside. Therefore, the inside view means a state viewed from the indoor side.

First, the rectangular frame 102 will be described.
The quadrangular frame 102 has a function of having a predetermined strength by being formed into a quadrangular shape using a standardized wooden material. In the first embodiment, the lower structure 104, the upper structure 106, and the left structure 108 and the right structure 112 are integrated by using a wooden structure fixing means 134 such as a nail to form a vertically long rectangle having a predetermined strength.

Next, the lower structure 104 will be described.
The lower structure 104 is installed on the upper side of the end joist, the side joist, or the base (both not shown), and the left structure 108 and the right structure 112 are erected at a predetermined interval. , Left structural body 108, right structural body 112, outer plate-like body 122, and inner plate-like body 124 together with the function of forming a load bearing wall. A standard wooden product having a horizontally long rectangular shape, specifically, a 2 × 6 wooden material having a predetermined length, a rectangular cross section having a thickness of 2 inches and a width of 6 inches is used. However, a wider 2 × 8 wooden material can also be used.

Next, the upper structure 106 will be described.
In the upper structure 106, the upper ends of the left structure 108 and the right structure 112 are fixed, and adjacent frames are connected to each other by a wooden head connecting material 128, so that the lower structure 104, the upper structure 106, and the left The structure 108, the right structure 112, the outer plate 122, and the inner plate 124 have a function of forming a bearing wall. In the first embodiment, the cross section in the thickness direction of the structure 100 is A standard wooden product having a horizontally long rectangular shape, specifically, a 2 × 6 wooden material having a predetermined length, a rectangular cross section having a thickness of 2 inches and a width of 6 inches is used. However, when the lower structure 104 uses a wider 2 × 8 wooden material, the same 2 × 8 wooden material can also be used.

Next, the left structure 108 will be described.
The left structure 108 is erected on the lower structure 104 and supports the upper structure 106. The lower structure 104, the upper structure 106, the right structure 112, the outer plate 122, and the inner plate A function of forming a bearing wall together with the body 124, and in the first embodiment, the structure 100 has a wooden standard product whose cross section in the thickness direction is a vertically long rectangle, specifically, has a predetermined length. Three 2 × 6 wooden materials having a rectangular cross section thickness of 2 inches and a width of 6 inches are used. However, when the lower structure 104 uses a wider 2 × 8 wooden material, the same 2 × 8 wooden material can be used, and two 2 × 6 wooden materials are used in consideration of the required strength. You can also. The left structure 108 is fixed by the wooden structure fixing means 134 of a plurality of predetermined standard nails 132 that are driven upward from the lower end surface of the lower structure 104 or obliquely driven from the upper side surface to the lower structure 104. Has been.

Next, the right structure 112 will be described.
The right structure 112 is erected on the lower structure 104 at a predetermined interval standardized with respect to the left structure 108 and supports the upper structure 106, and also includes the lower structure 104, the upper structure 106, and the left structure. Together with the body 108, the outer plate-like body 122, and the inner plate-like body 124, it has a function of constituting a bearing wall. In the first embodiment, the cross section in the thickness direction of the structure body 100 is a vertically long rectangle. Three standard products, specifically, 2 × 6 wooden materials having a predetermined length, a rectangular cross section having a thickness of 2 inches and a width of 6 inches are used. However, when the lower structure 104 uses a wider 2 × 8 wooden material, the same 2 × 8 wooden material can be used. In addition, two 2 × 6 wooden materials can be used in consideration of the required strength. The right structure 112 is fixed to the lower structure 104 by a plurality of predetermined standard nails 132 driven into the lower structure 104 upward from the lower end surface of the lower structure 104 or obliquely from the upper side surface, The upper structure 106 is fixed by a plurality of predetermined standard wooden structure fixing means 134 driven downward from the upper side.

Next, the bracing body 114 will be described.
The brace 114 meets a predetermined standard in terms of incombustibility or flame retardancy, and is in the lateral direction of the rectangular frame 102 (the longitudinal direction of the lower structure 104 or the upper structure 106, or the left structure 108 or the right structure). Vibration having a function of improving the proof strength in the short direction of the body 112, and in the first embodiment, a vibration constituted by a material that cannot be fixed by driving or screwing the wooden structure fixing means 134 such as a nail or a wood screw. Damping brace 114S having a damping function is arranged in the diagonal direction of the rectangular frame 102. The material in which the wooden structure fixing means 134 cannot be driven or screwed in refers to a metal, a composite resin structure, or the like. As the brace 114, the seismic reinforcement 114R (see FIGS. 9 and 10) that improves the seismic strength can be used in addition to the vibration control brace 114S of the first embodiment. Note that the bracing means that the structure is arranged in an X shape in the diagonal direction of the quadrilateral frame 102, and one inclined structure or a plurality of inclined structures are represented by the lower structure 104, the upper structure 106, the left It is a concept that also includes a truss structure configured by connecting the structure 108 or the right structure 112 obliquely. Therefore, the diagonal direction is oblique to the lower structure 104, the upper structure 106, the left structure 108, or the right structure 112, in addition to the case where the brace 114 is on the diagonal of the rectangular frame 102. Including the case. Note that the brace 114 is juxtaposed with the intermediate structure 116 in the thickness direction of the structure 100 in order to improve predetermined earthquake resistance standards and load resistance. In other words, the brace 114 is offset from the center inward or outward in the thickness direction of the structure portion 100.

Next, the vibration damping interlaced body 114S of the first embodiment will be described.
The vibration damping brace 114S is non-combustible or flame retardant, and has a function of improving the lateral strength of the rectangular frame 102 and attenuating the lateral vibration. The vibrator 136 and the brace bar 148 are configured to be attached to the left structure 108 or the right structure 112 via the attachment body 142.

First, the damping body 136 will be described.
The damping body 136 is nonflammable or flame retardant, and has a function of suppressing vibration by absorbing vibration energy by the energy absorbing mechanism 138. Energy is absorbed by deformation of an oil damper, viscoelastic material, or metal. Absorbing passive damping mechanism is adopted. This is because the passive vibration damping mechanism is advantageous in terms of cost and long-term operation stability. In particular, in the present invention, in order to satisfy a predetermined fire resistance function, the damping body 136 is made of a non-combustible or flame-retardant material. In the first embodiment, the damping body 136 is made of metal, It is constituted by a circular damping ring 144 made of a relatively soft metal material such as aluminum or a relatively thin iron-based metal, preferably steel. However, as the material of the damping ring 144, a glass fiber composite material, a carbon fiber composite material, an aramid fiber composite material, or the like can be adopted, and the shape thereof is a polygon such as a rectangle or a hexagon, an ellipse, or the like. Any material that can absorb energy by deformation may be used. In the first embodiment, bracing bars 148 are provided radially from the damping body 136, that is, the damping ring 144 in four directions. As in the first embodiment, when the damping body 136, that is, the damping ring 144 is made of a nonflammable material such as metal or a flame retardant material, there is an advantage that the fire resistance can be improved. A bracket 146 having a channel cross-section for connecting the brace bar 148 is provided on the circumferential surface of the damping ring 144.

Next, the bracket 146 will be described.
The bracket 146 is nonflammable or flame retardant, and has a function of connecting a brace rod 148 described later to the damping ring 144. In the first embodiment, after being formed separately from metal, It is a cross-section channel-shaped bracket integrated by welding or the like and integrally formed with the damping ring 144, and corresponds to the number of bracing bars 148, the first bracket 146A, the second bracket 146B, the third bracket 146C and the fourth bracket 146D are provided at predetermined positions so as to protrude from the peripheral surface. The predetermined position is the relationship between the first bracket 146A, the second bracket 146B, the third bracket 146C, and the fourth bracket 146D acting on the damping ring 144 in relation to the mounting body 142 described later. It is a positional relationship that does not act as a shearing force, but generally acts as a tensile force or a compressive force. In addition, since the bracket 146 is nonflammable or flame retardant, there is an advantage that fire resistance can be improved. Since the first bracket 146A, the second bracket 146B, the third bracket 146C, and the fourth bracket 146D all have the same structure, the third bracket 146C will be described as a representative with reference to FIG. The third bracket 146C forms a side view channel type by a left side plate 146L, a right side plate 146R, and a bracket bottom plate 146S, and an end portion of a third bracing rod 148C described later between the left side plate 146L and the right side plate 146R. Are arranged, and the end portions are attached by connecting pins 146P supported by the left side plate 146L and the right side plate 146R, respectively.

Next, the bracing rod 148 will be described.
The brace 148 is non-combustible or flame retardant and is connected to the lower structure 104, the upper structure 106, the left structure 108, or the right structure 112, and is resistant to lateral movement thereof. In the first embodiment, four first bracing bars 148A, second bracing bars 148B, third bracing bars 148C made of metal, and A fourth bracing rod 148D is provided. These brace bars 148 are fixed to the left structure 108 or the right structure 112 via the attachment body 142. Since the brace bar 148 is non-combustible or flame retardant, there is an advantage that fire resistance can be improved. One end of the first bracing rod 148A is the first bracket 146A, one end of the second bracing rod 148B is the second bracket 146B, the third bracing rod 148C is the third bracket 146C, and the fourth bracing rod 148D. Is connected to the fourth bracket 146D by a connecting pin 146P.

Next, the attachment body 142 will be described mainly with reference to FIG.
The attachment body 142 has incombustibility or flame retardancy determined by a predetermined standard, and attaches the brace bar 148 to the lower structure 104, the upper structure 106, the left structure 108, or the right structure 112. In the first embodiment, the planar view made of metal is a channel-like bracket, and is fixed to the left structure 108 or the right structure 112 by a standardized nail or the like. . Specifically, the attachment body 142 corresponds to the first bracing rod body 148A, the second bracing rod body 148B, the third bracing rod body 148C, and the fourth bracing rod body 148D. A second mounting body 142B, a third mounting body 142C, and a fourth mounting body 142D are provided. Since the first mounting body 142A, the second mounting body 142B, the third mounting body 142C, and the fourth mounting body 142D are all the same structure, the first mounting body 142A is representative of FIGS. ). The first attachment body 142A is formed into a channel view channel shape by the inner plate 142i, the outer plate 142o, and the attachment body bottom plate 142S, and extends in the vertical direction between the inner plate 142i and the outer plate 142o. A receiving groove 142G is formed. The other end of the first bracing bar 148A is inserted into the receiving groove 142G, and is attached to the first attachment body 142A by the first pivot pin 1421 and the second pivot pin 1422. Since the attachment body 142 is non-combustible or flame-retardant, there is an advantage that fire resistance can be improved. In the first embodiment, the first mounting body 142A is fixed to the inner surface of the upper end portion of the left structure 108 by a mounting body fixing means (not shown) such as a standardized nail, and the second mounting body 142B is fixed to the left structure. The third attachment body 142C is fixed to the inner surface of the upper end portion of the right structure 112 by an attachment body fixing means (not shown). The 4 attachment body 142D is fixed to the inner surface of the lower end portion of the right structure 112 by an attachment body fixing means (not shown). As shown in FIG. 2A, the first mounting body 142A, the second mounting body 142B, the third mounting body 142C, and the fourth mounting body 142D are structured in the thickness direction of the structure 100, and thus the rectangular frame 102. Are arranged (offset) so as to be biased toward the inside (left side in FIG. 2A). Thereby, for example, when a force is applied to the upper structure 106 in the right direction in FIG. 1, the left structure 108 and the right structure 112 are inclined to the right. As a result, a tensile force acts on the second bracing rod 148B and the third bracing rod 148C, a compressive force acts on the first bracing rod 148A and the fourth bracing rod 148D, and the upper structure 106 When moving in the left direction, a force acts in the opposite direction, which acts as a resistance against the deformation of the rectangular frame 102, and the proof stress is greatly improved as compared with the case where the brace 114 is not provided. In the first embodiment, since the damping body 136 is interposed, the vibration damping body 136 is deformed, so that the vibration energy can be attenuated, and the earthquake resistance can be further improved. it can.

Next, the intermediate structure 116 will be described.
The intermediate structure 116 improves the yield strength of the structure 100, and in the middle, preferably in the middle, between the left structure 108 and the right structure 112, a predetermined interval defined by the plate-like body fixing means 152, For example, it has a function for fixing the outer plate-like body 122 with an interval (pitch) of 200 mm or less, and in the first embodiment, a standard wooden product in which the cross section in the thickness direction of the structure 100 is a vertically long rectangle, Specifically, the first intermediate structure 116L and the second intermediate structure 116R, which are 2 × 4 wooden materials having a predetermined length and a rectangular cross section thickness of 2 inches and a width of 4 inches, are adjacent to each other. Is provided. The lower end of the intermediate structure 116 is fixed by a wooden structure fixing means 134 composed of a plurality of standardized nails driven upward from the lower structure 104 or obliquely from the side surface of the intermediate structure 116. Is fixed by a wooden structure fixing means 134 such as a nail driven downward from the upper structure 106. Therefore, the intermediate structure 116 is arranged so as to be biased outward in the thickness direction of the structure 100 such that the outer end face 116o thereof is flush with the lower structure outer end face 104o and the upper structure outer end face 106o, and is arranged on the inner side. It is arranged in parallel with the brace 114 that is biased. Therefore, it is necessary for the brace 114 to have a thickness within a range of 2 inches excluding 4 inches of the thickness of the intermediate structure 116.

Next, the wall fixing structure 118 will be described.
The wall fixing structure 118 has a function of fixing the inner plate-like body 124 by a plate-like body fixing means 152 such as a nail at a predetermined predetermined interval, for example, an interval of 200 mm or less. 1, a standard wooden product having a cross section in the thickness direction of the structure 100 that is a vertically long rectangle, specifically, a left wall fixing structure 118L is disposed between the left structure 108 and the intermediate structure 116. The right wall fixing structure 118R is disposed between the right structure 112 and the intermediate structure 116. Since the left wall fixing structure 118L and the right wall fixing structure 118R have the same configuration and are symmetrical with respect to the intermediate structure 116, the left wall fixing structure 118L will be described as a representative. The description of the right wall fixing structure 118R is omitted by replacing L with R to the same portion. The left wall fixing structure 118L has a predetermined length, a horizontal cross section of a rectangle, two adjacent 2 × 4 wooden members having a thickness (width direction of the rectangular frame 102) of 2 inches and a width of 4 inches. Is provided. In other words, the left wall fixing structure 118L includes the first wall fixing structure 156L and the second wall fixing structure 158L, and the lower ends thereof are directed upward from the lower structure 104 or the first wall fixing structure 118L. The first wall fixing structure 156L and the second wall fixing structure 158L are fixed by the wooden structure fixing means 134, which is a standardized nail driven obliquely downward from the side surface, and the upper end is the upper side. In the thickness direction of the structure 100, the first inner end face 156Li and the second inner end face 158Li are formed as the lower structure inner end face 104i and the upper structure in the thickness direction of the structure 100 by the wooden structure fixing means 134 which is a nail driven downward from the structure 106. Arranged so as to be flush with the inner body end face 106i, a part thereof is arranged on the same plane 158 as the brace 114 that is biased inside. Therefore, in order to avoid interference with the brace 114, a recess 162 is formed in the wall fixing structure 118. Further, when the structure 100 is viewed from the side (thickness direction), as shown in FIGS. 2 and 3, the wall fixing structure 118 and the intermediate structure 116 are formed at the center in the thickness direction of the structure 100. The overlapping relationship is set. In the first embodiment, the overlap amount is 2 inches.

Next, the recess 162 will be described.
The recess 162 has a function of receiving the bracing members 114 installed on the same plane 158 so as not to interfere with each other. In the first embodiment, the first wall fixing structure 156L includes the first bracing rod. A first recess 162AU corresponding to the body 148A and a second recess 162AL corresponding to the second bracing bar 148B are formed, and the second wall fixing structure 158L has a third corresponding to the first bracing bar 148A. A recessed portion 164AU and a fourth recessed portion 164AL corresponding to the second bracing bar 148B are formed. As shown in FIG. 2, the first concave portion 162AU, the second concave portion 162AL, the third concave portion 164AU, and the fourth concave portion 164AL are laterally rectangular concave portions that open toward the inside, and are formed to have approximately the same dimensions. However, the first concave portion 162AU is formed so as to be shifted upward in the vertical direction with respect to the third concave portion 164AU, thereby forming a first concave groove 166LU that is lowered to the right. Accordingly, the first bracing bar 148A can be positioned in the first concave groove 166LU. Further, the second concave portion 162AL is formed so as to be shifted downward in the vertical direction with respect to the fourth concave portion 164AL, thereby forming a second concave groove 166LL rising upward. Accordingly, the second bracing bar 148B can be positioned in the second concave groove 166LL. Similarly, the third bracing bar 148C constitutes a third groove 166RU that rises to the right and is composed of a fifth recess 162BU and a seventh recess 164BU. Located in. Similarly, the fourth bracing rod body 148D forms a fourth groove 166RL with a lower right shoulder composed of the sixth recess 162BL and the eighth recess 164BL, and the fourth bracing rod 148D is the fourth recess 166RL. Located in. In other words, the first bracing bar 148A and the second bracing bar 148B can coexist in the same plane 158 as the left wall fixing structure 118L. Further, the third bracing rod body 148C and the fourth bracing rod body 148D can coexist in the same plane 158 as the right wall fixing structure 118R. The first concave portion 162AU, the second concave portion 162AL, the third concave portion 164AU, the fourth concave portion 164AL, the fifth concave portion 162BU, the sixth concave portion 162BL, the seventh concave portion 164BU, and the eighth concave portion 164BL are braided at the construction site. It is common to work with an electric saw while confirming the positional relationship with the body 114, but it is added when there is an inconvenience at the construction site because a recessed part 162 is formed in a standardized wood manufacturing factory. It can also be crafted.

Next, the outer plate-like body 122 will be described mainly with reference to FIG.
The outer plate-like body 122 is disposed on the outer surface side of the structure 100, and is a standardized nail or the like for the lower structure 104, the upper structure 106, the left structure 108, the right structure 112, and the intermediate structure 116. By being fixed to these by the plate-like body fixing means 152, it has a function of strengthening at least the proof stress of the structure 100. In the first embodiment, a structural plywood for a wall having a thickness of 9 mm is used. ing. Lower structure outer end surface 104o of the lower structure 104 on the outer plate 122 side, upper structure outer end surface 106o of the upper structure 106, left structure outer end surface 108o of the left structure 108, and right structure of the right structure 112 The body outer end surface 112o and the intermediate structure outer end surface 116o of the intermediate structure 116 are in contact with the outer plate-like body 122 as a whole, and therefore, a predetermined interval defined in the standard, for example, an interval of 200 mm or less Thus, the outer plate 122 can be fixed to them by the plate fixing means 152.

Next, the inner plate-like body 124 will be described.
The inner plate-like body 124 is disposed on the inner surface side of the structure 100. The lower structure inner end surface 104i of the lower structure 104, the upper structure inner end surface 106i of the upper structure 106, and the left structure inner side of the left structure 108 End surface 108i, right structure inner end surface 112i of right structure 112, and wall fixing structure inner end surface of wall fixing structure 118 (first wall fixing structure 156L, second wall fixing structure 158L) By fixing to the plate-like body fixing means 152 such as a nail standardized to 118i, it has at least a function of strengthening the proof stress of the structure 100. In the first embodiment, a thickness of 12. 5 mm fireproof structural plywood, specifically gypsum board, is used. The inner plate-like body 124 is adjacent to the lower structure inner end face 104i, the upper structure inner end face 106i, the left structure inner end face 108i, and the right structure inner end face 112i without a break. However, the wall fixing structure 118 (the first wall fixing structure 156L, the second wall fixing structure 158L) is provided at a portion facing the first concave groove 166LU to the eighth concave groove 167LL. The body inner end face 118i does not exist. Since the vertical lengths of the individual first recesses 162AU to the fourth recesses AL exceed a predetermined distance (200 millimeters) defined in the standard, the plate-like body fixing means 152 is set at intervals set in the standard. Can not be fixed by. However, by using the adjacent first wall fixing structure 156L and the second wall fixing structure 158L, the plate-like body fixing means 152 can be fixed at intervals determined by the standard, as will be described later. it can.

Next, the operation of the present invention will be described with reference to FIG.
FIG. 6 is an enlarged view of the first concave groove 166LU formed in the first wall fixing structure 156L, and is an example in which a standardized nail is used as the plate-like body fixing means 152. A wood screw or the like can be used instead. The plate-like body fixing means 152 for fixing the inner plate-like body 124 is a standardized reference interval LS. In the first embodiment, the lower structure 104, the upper structure 104 is spaced at intervals of 200 millimeters or less. It is fixed to the structure 106, the left structure 108, the right structure 112, or the wall fixing structure 118. Specifically, the first plate-like body fixing means 1521 is driven through the inner plate-like body 124 in the middle of the upper structure 106 at the vertical position. The second plate fixing means 1522 is driven into the lower second wall fixing structure 158L separated by the reference interval LS. The third plate fixing means 1523 is driven into the first wall fixing structure 156L just above the upper end of the first recess 162AU at the first interval L1 shorter than the reference interval LS. The fourth plate fixing means 1524 is driven into the second wall fixing structure 158L just above the upper end of the third recess 164AU at an interval shorter than the reference interval LS, in the first embodiment, the first interval L1. . The third plate fixing means 1523 can also be driven into the second wall fixing structure 158L. Next, the fifth plate fixing means 1525 is driven into the first wall fixing structure 156L just below the lower end of the first recess 162AU at the reference interval LS. Next, the sixth plate fixing means 1526 is driven into the second wall fixing structure 158L just below the lower end of the third recess 164AU at the reference interval LS. The sixth plate fixing means 1526 may be driven into the first wall fixing structure 156L. Similarly, the interval between the plate-like member fixing means 152 around the other second concave groove 166LL, third concave groove 166RU, and fourth concave groove 166RL is driven at a reference interval LS or an interval shorter than the reference interval LS. I can do it. In other words, even if the inclination angle of the brace 114 is increased by driving into the first wall fixing structure 156L and the second wall fixing structure 158L arranged adjacent to each other, the first wall fixing In other words, by using the structural body 156L and the second wall fixing structure 158L, in other words, the fourth plate-like body struck slightly above the upper edge of the recess 164AU in the second wall fixing structure 158L. The fixing means 1524 and the fifth plate-like body fixing means 1525 which is driven slightly downward from the lower end of the first recess 162AU of the adjacent first wall fixing structure 156L are driven into separate adjacent members. Therefore, it can be driven at intervals equal to or shorter than the reference interval LS. In other words, the inner plate-like body 124 is fixed by the plate-like body fixing means 152 to the left wall fixing structure 118L using a wooden material standardized at a predetermined prescribed interval or less. Can do. However, in the conventional method based on the vertical length LG of the first concave portion 162AU or the third concave portion 164AU, the length LG is significantly larger than the reference interval LS, and the inner plate-like body 124 is separated by an interval equal to or less than the reference interval LS. Can not be fixed. However, in the present invention, two standardized wooden materials are juxtaposed in parallel, so that the adjacent first concave portion 162AU and second concave portion 162AL are connected to the first wall fixing structure 156L and the second wall. By shifting the fixing structure 158L in the longitudinal direction, the length of the recess in which the first bracing rod 148A is located can be substantially shortened, and the inner plate-like body 124 is spaced at a distance equal to or less than the reference interval LS. It can be fixed by the shape fixing means 152. Three or more standardized wooden materials can be juxtaposed, but it is preferable that the number is two because the cost increases and the distance between the plate-like body fixing means 152 in the lateral direction increases. In the first embodiment, the brace 114 can be a simple tension member that does not use the damping body 136 or a seismic brace 114R (see FIG. 9 or FIG. 10) as a pulling member. In this case, although the seismic resistance of the structure 100 is lower than that of the vibration control interlaced body 114S, the earthquake resistance can be improved at a lower cost than that of the vibration control interlaced body 114S.

If the regulation permits, the brace 114 and the wall fixing structure 118 can be arranged outside, and the intermediate structure 116 can be arranged inside.

Next, Embodiment 2 will be described with reference to FIGS.
The second embodiment is an example in which the brace 114 is one, and the same parts as those in the first embodiment are denoted by the same reference numerals, and different structures will be described. The brace 114 of the second embodiment is a second damping brace 114B, and a fifth brace having a lower end pivotally attached to a fifth bracket 146E fixed to the side of the lower end of the left structure 108. The body 148E, the sixth bracing bar 148F pivotally attached to the sixth bracket 146F fixed to the upper end side surface of the right structure 112, and the energy absorbing mechanism 138 are configured. In the second embodiment, the energy absorbing mechanism 138 is a vibration damper 168. It is preferable that the energy absorbing mechanism 138 is biased inward as in the first embodiment and a metal damper is used to improve fire resistance. In the second embodiment, a recess 162 is formed in the intermediate structure 116. Therefore, in the second embodiment, the intermediate structure 116 is arranged adjacent to the center between the left structure 108 and the right structure 112 by 2 × 6 materials, which are standardized wooden materials, and each of the intermediate structures 116 is recessed. 162 is formed. Specifically, the first intermediate structure 116L is formed with a ninth recess 164L in the middle in the vertical direction and a tenth recess 164R in the middle in the vertical direction of the second intermediate structure 116R, which are shown in FIG. As shown in the figure, a fifth groove 166B that rises to the right is formed. A fifth bracing bar 148E is disposed in the fifth concave groove 166B. Therefore, in the second embodiment, the wall fixing structure 156 (first wall fixing) is provided in the same plane as the ninth recess 164L of the first intermediate structure 116L and the tenth recess 164R of the second intermediate structure 116R. Structural body 156L and second wall fixing structure 158L). Accordingly, the brace 114 and the intermediate structure 116 are juxtaposed in the thickness direction of the structure 100, and the ninth concave portion 164L and the tenth concave portion 164R are displaced in the vertical direction. A groove 166B is formed. Therefore, also in the second embodiment, as in the first embodiment, the lower edge of the ninth recess 164L in the first wall fixing structure 156L and the upper edge of the tenth recess 164R in the second wall fixing structure 158L. Is shorter than the reference interval LS, and can be fixed at an interval equal to or shorter than the reference interval LS. Therefore, the fire resistance of the structure 100 can be improved. The horizontal depth of the ninth concave portion 164L and the tenth concave portion 164R is at most 2 inches in order to maintain strength, and the plate-like body fixing means 152 is omitted except for the intermediate structure 116. In the second embodiment, the bracing body 114 can be replaced with the seismic bracing 114R in the same manner as in the first embodiment.

Next, Embodiment 3 will be described with reference to FIG.
In the third embodiment, there is one brace 114 as in the second embodiment. However, as in the first embodiment, the left wall fixing structure 118L and the right wall fixing structure are provided on the left and right sides of the intermediate structure 116, respectively. This is an example in which 118R is provided. Specifically, the brace 114 of Example 3 is a seismic brace 114R. The seismic bracing 114R is a bracing that does not have a vibration damping function, and simply means that the bracing 114 for improving the proof stress is disposed between structures. The first wall fixing structure 156L constituting the left wall fixing structure 118L is formed with an eleventh recess 163L as a recess 162, and the second wall fixing structure 158L is formed with a twelfth recess 165L as a recess 162. As a result, a ninth groove 167L that rises to the right is formed. The effect in this case is the same as that of the first embodiment. The third wall fixing structure 156R constituting the right wall fixing structure 118R is formed with a thirteenth recess 163R as the recess 162, and the fourth wall fixing structure 158R is formed with a fourteenth recess 165R as the recess 162. Thus, a tenth concave groove 167R that rises to the right is formed. The tenth concave groove 167R is disposed on an extension line that rises to the right of the ninth concave groove 167L. Accordingly, the seismic reinforcing bar 114R is located in the ninth concave groove 167L and the tenth concave groove 167R, and can be juxtaposed with the intermediate structure 116 in the thickness direction of the structure 100. In this state, the inner plate 124 is defined by the plate fixing means 152 as the left wall fixing structure 118L and the right wall fixing structure 118R by the plate fixing means 152 as in the first embodiment. Can be fixed at specified intervals. It should be noted that the plate-like body fixing means 152 shows only portions related to the left wall fixing structure 118L and the right wall fixing structure 118R, and other portions are omitted. Further, the plate-like body fixing means 152 can dispose the left wall fixing structure 118L and the right wall fixing structure 118R at a distance from the intermediate structure 116. Either the wall fixing structure 118L or the right wall fixing structure 118R may be provided, and the inner plate 124 may be fixed by the plate fixing means 152.

Next, a fourth embodiment will be described with reference to FIGS.
The fourth embodiment is different from the first embodiment in the configuration in which the brace 114 is the seismic bracing 114R and is connected to the lower structure 104, the upper structure 106, the left structure 108, and the right structure 112. Different. The same parts as those in the first embodiment are denoted by the same reference numerals, description thereof will be omitted, and different configurations will be described.
In the fourth embodiment, the bracket 146, specifically, the seventh bracket 146G is the lower surface of the center portion of the upper structure 106, the eighth bracket 146H is the right side surface of the center portion of the left structure 108, and the ninth bracket 146I is the lower structure. The upper surface of the central portion of the body 104 and the tenth bracket 146J are fixed to the left side surface of the right structure 112. The seventh brace 146G and the eighth bracket 146H are respectively fixed to the ends of the seventh bracing bar 148G whose upper side is inclined to the right side, and the eighth bracket 146H and the ninth bracket 146I are eighth side bracings whose upper side is inclined to the left side. The ends of the rods 148H are fixed to the ninth bracket 146I and the tenth bracket 146J, respectively. The ends of the ninth bracing rod 148I whose upper side is inclined toward the right structure 112 are fixed to the tenth bracket 146J. The end portions of the tenth bracing bar body 148J whose upper side is inclined toward the left structure 108 are fixed to the seventh bracket 146G. These bracing bars 148 function as a resistance against lateral deformation of the structure 100. In the thickness direction of the structure 100, the first inner end face 156Li and the second inner end face 158Li are arranged inwardly so as to be flush with the lower structure inner end face 104i and the upper structure inner end face 106i. The portions are arranged in the same plane 158 as the brace 114 arranged inwardly biased. Therefore, in order to avoid interference with the brace 114, a recess 162 is formed in the wall fixing structure 118. Further, when the structure 100 is viewed in the cross-section along the line XX in FIG. 10, the wall fixing structure 118 and the intermediate structure 116 overlap at the center in the thickness direction of the structure 100 as shown in FIG. Set in a relationship. Also in the fourth embodiment, the overlap amount is 2 inches.

Next, the concave portion 162 for avoiding the interference between the brace 114 and the wall fixing structure 118 will be described. In the fourth embodiment, as in the first embodiment, the left wall fixing structure 118L is disposed between the left structure 108 and the intermediate structure 116, and the right structure 112 and the intermediate structure 116 are disposed between them. The right wall fixing structure 118R is disposed. Also in the fourth embodiment, since the left wall fixing structure 118L and the right wall fixing structure 118R are configured symmetrically about the intermediate structure 116, the left wall fixing structure 118L will be described. The description of the right wall fixing structure 118R is omitted by changing L in the code to R. The left wall fixing structure 118L includes a first wall fixing structure 156L and a second wall fixing structure 158L, and is fixed to the lower structure 104 and the upper structure 106 as in the first embodiment. ing. In the fourth embodiment, the first wall fixing structure 156L is formed with a fifteenth recess 163LU corresponding to the seventh bracing bar 148G and a sixteenth recess 163LL corresponding to the eighth bracing bar 148H, The second wall fixing structure 158L is formed with a seventeenth recess 165LU corresponding to the seventh bracing rod 148G and an eighteenth recess 165LL corresponding to the eighth bracing rod 148H. The fifteenth concave portion 163LU, the sixteenth concave portion 163LL, the seventeenth concave portion 165LU, and the eighteenth concave portion 165LL are horizontally-oriented rectangular concave portions that open toward the inside, and are formed to have approximately the same dimensions. The 163LU is formed so as to be shifted downward in the vertical direction with respect to the seventeenth concave portion 165LU, thereby jointly forming a seventh concave groove 167LU that rises to the right. Therefore, the seventh bracing bar 148G can be positioned in the seventh concave groove 167LU. In addition, the sixteenth recess 163LL is formed so as to be shifted upward in the vertical direction with respect to the eighteenth recess 165LL, thereby forming an eighth recess groove 167LL that is lowered to the right. Accordingly, the eighth bracing bar 148H can be positioned in the eighth concave groove 167LL. Similarly, the ninth bracing bar 148H and the tenth bracing bar 148J can be positioned in the ninth concave groove 167RU and the tenth concave groove 167R. Thereby, the brace 114 and the wall fixing structure 118 can coexist in the same space. Further, the first inner end face 156Li and the second inner end face 158Li constituting the left wall fixing structure 118L are provided flush with the lower structure inner end face 104i and the upper structure inner end face 106i. The plate-like body 124 can be fixed by the plate-like body fixing means 152 at intervals equal to or less than a predetermined interval defined in the standard, as in the first embodiment.

102 rectangle frame
104 Lower structure
106 Upper structure
108 Left structure
112 Right structure
114 bracing
116 Intermediate structure
118 Wall fixing structure
122, 124 plate
136 Damping body
152 Plate body fixing means
156L, 158L structure
162 recess
166 groove

Claims (10)

A rectangular frame (102) formed into a rectangular shape in the inner surface by the upper and lower structures (104, 106) and the left and right structures (108, 112) connecting the upper and lower structures (104, 106). On the other hand, the brace (114) made of a material that cannot be nailed is arranged in a diagonal direction, and the upper and lower structures (104, 106) between the left and right structures (108, 112). An intermediate structure (116) for connecting the plate-like body (122, 124) to the upper, lower, left and right structures (104, 106, 108, 112) on the inner surface side and outer surface side of the rectangular frame (102). And a structure constructed by fixing the intermediate structure (116) by plate-like body fixing means (152) such as nailing,
A plurality of wall fixing structures (118) fixed to the upper and lower structures (104, 106) are provided between the intermediate structure (116) and at least one of the left and right structures (108, 112). Placed next to each other
Each of the plurality of wall fixing structures (118) is formed with a recess (162) in the middle, and these recesses (162) are formed by being shifted in the vertical direction when viewed from the inner surface side or the outer surface side. A structure characterized in that a concave groove (166) extending obliquely is formed, and the bracing body (114) is received in the concave groove (166).   The structure according to claim 1, wherein the recess (162) has a square groove shape.   The bracing body (114) is located in the middle of the left and right structures (108, 112) and close to the inner surface in the thickness direction of the structure body, and is parallel to the bracing body (114) on the outer surface side. The intermediate structure (116) is disposed, and the plurality of wall fixing structures (118) are provided between at least one of the left or right structure (108, 112) and the intermediate structure (116). The structure according to claim 1, wherein the structure is arranged.   The bracing body (114) is disposed in the middle of the left and right structures (108, 112) and close to the inner surface, and the intermediate structure (116) is arranged on the outer surface side in parallel with the bracing body (114). The wall fixing structures (118) are disposed between the left and right structures (108, 112) and the intermediate structure (116). 2. The structure described in 2. An upper structure (106) of a wooden cross section rectangle disposed above, a lower structure (104) of a wooden cross section rectangle disposed below, and the upper structure (106) and the lower structure (104). A material that cannot be nailed to the rectangular frame (102) formed into a rectangular shape in the inner surface by the left structure (108) and the right structure (112) having a rectangular wooden cross section arranged at predetermined intervals so as to be connected. The bracing body (114) constituted by the diagonal structure is arranged in a diagonal direction, and the upper structure (106) and the lower structure (104) between the left structure (108) and the right structure (112). ) And an intermediate structure (116) having a rectangular cross section of wood, and the plate bodies (122, 124) on the inner surface side and the outer surface side of the rectangular frame (102). 104) and the intermediate structure (116) by fixing with plate-like body fixing means (152) such as nailing,
A plurality of wall fixing structures (118) fixed to the upper and lower structures (104, 106) are provided between the intermediate structure (116) and at least one of the left and right structures (108, 112). Placed next to each other
Each of the plurality of wall fixing structures (118) is formed with a recess (162) in the middle, and these recesses (162) are formed by being shifted in the vertical direction when viewed from the inner surface side or the outer surface side. Forming a groove (166) extending diagonally, and receiving the brace (114) in the groove (166),
One of the plate-like bodies (124) is fixed to the wall-fixing structure (118), and the other plate-like body (122) is fixed to the intermediate structure (116) by the plate-like body fixing means (152). A structure characterized by being made. An upper structure (106) made of 2 × 6 material arranged above, a lower structure (104) made of 2 × 6 material arranged below, and the upper structure (106) and the lower structure ( 104) is connected to the rectangular frame (102) formed in a rectangular shape by the inner surface by the left structure (108) and the right structure (112) made of 2 × 6 materials arranged at predetermined intervals so as to be connected to each other. A brace (114) made of a material that cannot be nailed in the diagonal direction of the line of view is offset on the inner surface side in the thickness direction of the rectangular frame (102), and further, the left structure (108) and the right structure ( 112) is provided with an intermediate structure (116) made of 2 × 4 material for connecting the upper structure (106) and the lower structure (104), and the inner surface side of the rectangular frame (102) and On the outer surface side, the plate-like body (122, 124) is made up of the upper structure (106), the lower structure (104), the left structure (108), the right structure (112), and the intermediate structure (116). )) By a plate-like body fixing means (152) such as nailing,
A plurality of 2 × 4 wall-fixing structures (118) fixed to the upper and lower structures (104, 106) include the intermediate structure (116) and at least the left and right structures (108, 112). ) Next to each other,
Each of the plurality of wall fixing structures (118) is formed with a recess (162) in the middle, and these recesses (162) are formed by being shifted in the vertical direction when viewed from the inner surface side or the outer surface side. Forming a groove (166) extending diagonally, and receiving the brace (114) in the groove (166),
A structure characterized in that the plate-like body (124) is fixed to the wall-fixing structure (118) by the plate-like body fixing means (152). A rectangular frame (102) formed into a rectangular shape when viewed from the inside by the upper and lower structures (106, 104) and the left and right structures (108, 112) connecting the upper and lower structures (106, 104). On the other hand, the brace (114) made of a material that cannot be nailed or the like is disposed in a diagonal direction, and the upper and lower structures (106, 104) between the left and right structures (108, 112). Intermediate structures (116) for connecting the plate-like bodies (122, 124) to the upper, lower, left, and right structures (106, 104, 108, 112) on the inner surface side and outer surface side of the rectangular frame (102). ) And the intermediate structure (116) by fixing with a plate-like body fixing means (152) such as nailing,
The intermediate structure (116) is configured by adjacently arranging a plurality of standardized structures (116L, 116R) having a recess (162) formed in the middle, and the plurality of intermediate structures (116L, 116R) When the concave portion (162) formed on the inner surface or the outer surface side is viewed from the inner surface side or the outer surface side, a concave groove (166B) extending obliquely is formed by being shifted in the vertical direction, and the concave groove (166B) A structure characterized by receiving the brace (114).   The structure according to claim 6 or 7, wherein an interval between the plate-like body fixing means (152) is 200 mm or less. The structure according to any one of claims 1 to 8, wherein a damping body (136) is disposed in the middle of the brace (114). The structure according to any one of claims 1 to 9, wherein the brace (114) includes a bar made of metal.

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