JPH01256637A - Diagonal bracing structure in wooden house - Google Patents

Abstract

PURPOSE:To dispense with any site-alignment as well as to make shop fabrication easily performable by fitting each of almost disklike fitting projections formed at both sides of a diagonal brace in each of semicircular fitting recesses formed in a groundsill or a column side and a column or girth side. CONSTITUTION:Each of almost disklike fitting projections 11, 11' are formed at both sides of a diagonal brace 10, while each of semicircular fitting recesses 15, 15' corresponding to the fitting projections 11, 11' is formed in a groundsill 12 or a column 13 side, and a column 13' or girth 14 side. Then, the fitting projections 11, 11' of the diagonal brace 10 are fitted in the fitting recesses 15, 15' at the side of the groundsill 12 and the girth 14.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a bracing structure used to increase the earthquake resistance and wind resistance of a wooden house.

(Prior Art) Normally, in order to give FiI4il and wind resistance to a wooden house, braces are placed on the foundation, pillars, sills, frames, etc. The structure shown in Fig. 6 was generally used to create a structure that allows this bracing to be exchanged.

That is, the conventional brace structure will be explained as follows, focusing on braces (21) to (2) shown in FIG. First, the brace (21) on the left side of the figure has both ends processed into a shape corresponding to the intersection of the base and the column and the column and the body gap, and the brace (22) in the center of the figure has the shape that corresponds to the intersection of the base and the column and the body gap Both ends are fitted into recesses formed in predetermined portions of the holder. Further, the brace (23) on the right side of the drawing in FIG. 6 is processed so that the base and the predetermined portions of the trunk and both ends of the brace (23) can be fitted together.

Regardless of which of the above braces (21) to (23) are used, if the height of the house is different, the angle of inclination will be different.Normally, the distance between the pillars of the house is half-open (910 m
This is because m) is approximately constant. Therefore, if the height of the house is different, the machining of both ends of each brace (21) to (23) or the machining of the pillars and body differences must be changed.
These alterations had to be made by the carpenters themselves.

In this way, conventional general braces (21) to (23)
When adopting an earthquake-resistant and wind-resistant structure, the braces (21) to (23), etc. must be processed on-site after the columns are assembled, and this is an important part of building a house. This turned out to be a large and time-consuming task.

Therefore, the inventors of the present invention have conducted extensive research on bracing structures that are easy to process and can be formed in advance at a factory in order to create an earthquake-resistant and wind-resistant structure using bracing. The present invention was completed based on the new finding that adopting four parts yields good results.

(Problem to be solved by the invention) The present invention has been made based on the above circumstances, and the problem to be solved is the difficulty of processing in the conventional brace structure and the uneconomical work based on this. It is gender.

One object of the present invention is, of course, to provide a reliable structure for earthquake resistance and wind resistance, but also to eliminate the need for construction at present, so that a bracing structure that can be easily manufactured in a factory can be constructed with a simple configuration. It is provided by.

(Means for Solving the Problems) The means taken by the present invention to solve the following problems are explained with reference to the figures corresponding to the embodiments. 12) A wooden house in which a pillar (13) erected above and a girder (14) such as a beam or frame extending laterally from the pillar (13) are reinforced with braces (10). In this step, substantially disc-shaped fitting protrusions (11) are formed at both ends of the brace (10), and fitting protrusions are formed on the base (12) or column (13) side and on the column (13) or girth difference side. substantially semicircular fitting recesses (15) into which the braces (10) can fit, and each fitting protrusion (11) of the brace (10) is fitted into these fitting recesses (15). It is a strut (lO) structure characterized by the following characteristics.

That is, in the bracing structure according to the present invention, each substantially disc-shaped fitting protrusion (11) formed at both ends of the bracing (10) is provided.
), the base (12), pillar (13) or trunk difference (14)
It is fitted into a substantially semicircular fitting recess (15) formed in the same shape as the above.

(Operation of the invention and assembly work) The operation of the present invention will be explained below, but before that, the fitting of the brace (10) into the fitting recess (15) such as the column (13), that is, the assembly operation will be explained. Let me explain.

First, in order to obtain this bracing structure, a brace (10) having approximately disk-shaped fitting protrusions (11) is formed at the vq ends, but the length between the inner fitting protrusions (11) is The length can be determined in advance if the location where this brace (10) will be used is determined, so it should be determined accordingly.
), each fitting protrusion (11) of the brace (lO)
A fitting recess (15) corresponding to the above is formed in advance.

These fitting protrusions (11) and fitting recesses (15) are processed in advance at a factory or the like.

After that, assemble the base (12), pillar (13), and torso difference (14) in the state shown in Figure 5, and then attach the base (12), pillar (13), or torso difference (14) assembled in this way. On the other hand, the earthquake-resistant and wind-resistant structure is adopted by bracing (10).The 6-area concave area (15)C-q each bracing (10)
The fitting is performed by opening each fitting recess (15), for example, toward the front side in FIG. 1. That is, each fitting protrusion (11) is fitted into each fitting recess (15) in the lateral direction (from the front side in FIG. 1 toward the back of the paper). In other words, each brace (
10) is moved horizontally relative to the assembled pillar (13), etc., and its respective fitting protrusions (11) are fitted into the respective fitting recesses (15) as they are.

It is assembled to a pillar (13) or the like. In addition,
Each fitting protrusion (11) may be fixed to each fitting recess (15) with a nail or the like.

Therefore, the work of assembling this brace (10) to the pillar (13) etc. is extremely easy. In addition, a fitting recess (
15) and each of the fitting protrusions (11) of the brace (10) are based on a circle, so the fitting protrusions (11) and the fitting recesses (15) are processed at the factory etc. Even when doing so, the processing is extremely easy.

As shown in FIGS. 3 and 4, each brace (10) assembled to the pillar (13) etc. in this manner has its respective fitting protrusion (11). Approximately half the circumferential end surface of is in contact with the inside of the fitting recess (15). This is because each fitting recess (15) has a substantially semicircular shape that allows each fitting protrusion (11) to fit therein. Therefore, bracing (10)
The force applied to the fitting recess (
15), it is dispersed with respect to the pillar (1 piece), etc., on the approximately half-circumferential end surface that is in contact with the column (15). This always works in a constant state even if the inclination angle of the brace (10) changes as shown by the dotted line in Figure 3 due to the difference in the height of the house. , the force acting on the fitting portion is evenly distributed, and cracks do not occur due to stress concentration or the like. Since each fitting protrusion (11) of the brace (lO) is approximately disc-shaped, each fitting recess (15)
) is not changed.

In addition, although it is possible to configure each fitting protrusion (It) of the brace (10) to be approximately spherical, each fitting protrusion (It)
Since it is very difficult to process 11) into a spherical shape, it is more advantageous to make it into a disk shape as in the present invention.

(Example) Next, the present invention will be described in detail based on an example shown in the drawings.

FIG. 1 shows the main parts of a house that employs the bracing structure according to the present invention. The part shown in Fig. 1 shows the state in which the pillars (13), the foundation (12), and the girder (14) of the house are assembled together, and is a part of the state shown in Fig. 5. This is what was extracted. Of course, the bracing structure according to the present invention can also be adopted for the second floor of the two-story house shown in FIG. It is the thing that becomes).

In this bracing structure, first, a bracing (10) as shown in FIG. 2 is employed. This brace (lo) has approximately disk-shaped fitting protrusions (11) formed in advance on both ends thereof, and the distance between the fitting protrusions (11), that is, the length of the brace (10) is , this is preset depending on where it will be used.

On the other hand, the assembled base (12) as shown in Figure 1
, for the pillar (13) and the torso difference (14), in the part corresponding to the part where the brace (10) is to be assembled,
A substantially semicircular fitting recess (15) into which each fitting protrusion (11) of the brace (10) can fit is formed. This fitting recess (
The formation of 15) is performed on the base (12) or pillar (13) as shown in Fig. 4, and on the pillar (13) or barrel gap (14) as shown in Fig. 3. If it is possible to form a bracing structure, it is sufficient to form it on either one of the members that intersect with each other.In addition, different names are given to the trunk difference (14) depending on the part of the house. This is a general term for things that extend horizontally from the pillars (13), such as the floor, upper frame, and lower frame.

(Effects of the Invention) As detailed above, the present invention is as exemplified in the above embodiments.

``A foundation (I2), a pillar (13) erected on this foundation (12), and a girth difference (14) such as a frame or frame extending laterally from this pillar (13) are braced ( In a wooden house reinforced by lO).

Approximately disc-shaped fitting protrusions (11) are formed at both ends of the brace (lO), and the fitting protrusions are inserted into the base (12) or column (13) side and the column (13) or trunk difference side. Approximately semicircular fitting recesses (15) are formed to fit each fitting protrusion (II) of the brace (lO) into these fitting recesses (15). ”, which not only makes it possible to create a reliable earthquake- and wind-resistant structure, but also eliminates the need to do so on-site, making it possible to create a bracing structure that can be easily manufactured in a factory with a simple configuration. It can be provided.

[Brief explanation of the drawing]

Fig. 1 is a partial front view showing the main parts of a house employing the bracing structure according to the present invention, Fig. 2 is an enlarged perspective view of the bracing, and Fig. 3
The figure is a partially enlarged front view showing the fitted state between the upper fitting protrusion and the fitting recess of the brace, and Figure 4 shows the fitted state of the lower fitting protrusion and the fitting recess of the brace. FIG. 5 is a partial perspective view of the assembled base and pillars, and FIG. 6 is a front view of the conventional bracing structure. Explanation of symbols 10--Strings, 11. ---Fitting protrusion, 12--
Base, 13-... Column 14... Trunk difference, 15-... Fitting recess. Figure 1 Figure 3 Figure 4 Figure 6 1 unit

Claims (1)

[Scope of Claims] A wooden house in which a foundation, a pillar erected on the foundation, and a body part such as a beam or frame extending laterally from the pillar are reinforced by bracing, Approximately disc-shaped fitting protrusions are formed at both ends of the bracing, and on the base or column side and the column or girth difference side,
A brace characterized in that substantially semicircular fitting recesses into which the fitting protrusions can fit are formed, and each fitting protrusion of the brace is fitted into these fitting recesses. structure.