JP2006152723A - Diagonal brace fixing hardware and diagonal brace fixing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide diagonal brace fixing hardware and a diagonal brace fixing method, capable of fixing a brace without impairing an appearance, while surely fixing a column and the brace. <P>SOLUTION: This brace fixing hardware 10 fixes a brace member 1 to an inside corner part formed of a sill 3 and the column 2. The brace fixing hardware 10 comprises a brace fixing part 12 for fixing the brace member 1, and a support part 11 for supporting the brace fixing part 12. The support part 11 is arranged on the sill 3, and supports the column 2. The brace fixing part 12 is fixed to the brace member 1 by a fixing means 13 in a state of being positioned inside the brace member 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a brace fixing hardware and a brace fixing method, and more particularly to a brace fixing hardware and a brace fixing method capable of securely fixing a brace to a support.

2. Description of the Related Art Conventionally, balcony handrails, fences, etc. using a brace structure as decoration are known.
However, since the braces are installed inclined with respect to the base, it is difficult to erect the braces with high strength.
For this reason, conventionally, a technique for fixing the brace with strength by using various members has been provided. However, a technique capable of fixing the brace with higher strength has been desired. .

For this reason, a brace coupling hardware has been developed for the purpose of securely fixing the brace with a base and a support (see, for example, Patent Document 1).
Patent Document 1 discloses a brace connecting hardware having three walls, ie, a column fixing piece, a horizontal member fixing piece, and a brace fixing piece that are orthogonal to each other.
In the brace connecting hardware described in Patent Document 1, the column is fixed to the column fixing piece, the horizontal member is bonded to the horizontal member fixing piece, the brace is joined to the brace fixing piece, and fixed with bolts. It is configured to fix the brace. The brace connecting hardware is connected to the foundation by an anchor bolt.

JP 09-177174 A (3rd and 4th pages, FIGS. 1 and 6)

However, in the technique of the above-mentioned patent document 1, since the brace connecting hardware is attached to the outside, after the brace is installed, the entire brace connecting hardware is exposed to the outside.
For this reason, when it used for the handrail of a balcony which used the brace structure as a decoration, a fence, etc., there existed a problem that design property was impaired.

In order to solve the above problem, as shown in FIG. 9, a method of fixing the support column 2 and the brace 1 with a single bolt 111 is known.
According to this method, the portion where the brace fixing member is exposed to the outside is reduced.
However, the head and legs of the bolt are still exposed, and there is a problem that the design is impaired.

  An object of the present invention is to solve the above-mentioned problems, and to fix the brace and the brace securely, and to fix the brace without impairing the appearance, and the brace fixing It is to provide a method.

  According to the first aspect of the present invention, there is provided a brace fixing hardware for fixing a brace member to an inner corner portion formed by a base and a column, wherein the brace fixing hardware is the striation. A brace fixing part for fixing the brace member, and a support part for supporting the brace fixing part, the support part being disposed on the base and supporting the support column, The brace fixing portion is solved by being fixed to the brace member by the fixing means in a state of being located inside the brace member.

  According to the invention according to claim 6, the above problem is achieved by a brace fixing hardware configured to include a brace fixing portion that fixes the brace member and a support portion that supports the brace fixing portion. A brace member fixing method for fixing a brace member to an inner corner formed by a base and a column, wherein a part of the support member is located between the base and the column, A first step of fixing the strut to the base; a second step of engaging a slit cut from the bottom surface of the brace member with the brace fixing portion; and the brace member and the brace. A third step of disposing a fixing member that fixes the fixing portion through the brace fixing portion from the outside of the bracing member and fixing the bracing member and the brace fixing portion; It is solved by doing.

In this manner, the support column is fixed to the base in a state in which a part of the support member is located between the base and the support column.
Further, the brace member is fixed by fixing the brace fixing portion in a state where it is embedded in the brace member.
Therefore, when a brace is erected using the brace fixing hardware according to the present invention, the brace fixing hardware is hardly exposed to the outside.
Therefore, it is possible to fix the strut and the brace member without impairing the appearance in the state where the brace member is erected.

At this time, it is preferable that a slit for engaging the brace fixing portion is formed in the brace member.
Further, at this time, the base and the support column are joined by a joining member having one end embedded in the support column and the other end side buried in the foundation, and the support member is provided with the joining member disposed therein. It is preferable that the through hole for the joining member is formed.

With such a configuration, the brace fixing portion is embedded in the slit, so that the brace fixing portion is not exposed in the state where the bracing is erected.
Therefore, high merchantability can be obtained without impairing the appearance.
Further, if a slit is formed in the brace member, it is not necessary to align the brace fixing portion and the brace member, and the brace member can be easily disposed at a predetermined position.
Furthermore, it becomes possible to allow the joining member to pass through the support portion, and the base and the support can be easily connected in a state where the support portion is sandwiched, and the design property is improved because the joining member is not exposed to the outside. .

Further, at this time, the brace fixing portion is formed with a through-hole for penetrating the fixing means, and the brace member and the brace fixing portion are formed from the outside of the brace member. It is preferable that the fixing means is disposed to be fixed toward the through hole.
Further, at this time, it is preferable that the brace member is provided with a guide hole for guiding the fixing means from a side surface of the brace member toward the through hole.

With such a configuration, the fixing means is fixed to the drift pin by arranging the fixing means from the outside of the brace toward the through hole formed in the brace fixing portion. When using etc., the drift pin is hardly exposed.
Therefore, high merchantability can be obtained without impairing the appearance.
Further, by fixing in this way, the brace member can be erected with high strength.
Furthermore, since the guide hole is provided toward the through hole, the position of the through hole can be easily recognized, and the brace member can be easily fixed.

According to the present invention, the support portion of the brace fixing member is fixed while being sandwiched between the support column and the base.
Further, the brace member is fixed by fixing the brace fixing portion in a state where it is embedded in the brace member.
Therefore, when a brace member is erected using the brace fixing hardware according to the present invention, the brace fixing hardware is hardly exposed to the outside.
Therefore, it is possible to fix the strut and the brace member without impairing the appearance in the state where the brace member is erected.

Balcony handrails and fences are also installed with the purpose of decoration, but by using the brace fixing hardware according to the present invention, the design of these housing equipment is not impaired, The structural members can be reliably connected.
In addition, since the pillar fixing hardware according to the present invention is hardly visible in the state where the brace member is erected, the place where the brace is erected is not limited, and design freedom is ensured. Can do.

Moreover, the support | pillar and the base are fixed by the joining member in the state which clamped the support part.
Therefore, the support and the base are fixed with high strength, and the support portion fixed in a state of being positioned between the support and the base is also fixed with high strength.
For this reason, the brace member fixed to the brace fixing part supported by this support part is also fixed with high strength, and as a result, the strut, the base, and the brace member are each erected with high strength. The Rukoto.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. Note that the configuration described below does not limit the present invention and can be variously modified within the scope of the gist of the present invention.
In this embodiment, the strut and the brace member can be securely fixed, and the brace member is erected in a state in which the hardware used when the brace member is fixed is hardly visible from the outside. It relates to the brace fixed hardware that can be.

1 to 6 show an embodiment according to the present invention, FIG. 1 is a perspective view of a brace fixing hardware, FIG. 2 is an exploded view showing a state in which a support is erected on a base, and FIG. FIG. 4 and FIG. 5 are explanatory views showing a state in which a brace member is erected, and FIG. 6 is a plan view of FIG. 5 as viewed from the A direction.
7 and 8 show another embodiment of the present invention. FIG. 7 is a perspective view of the second brace fixing hardware, and FIG. 8 is an explanation showing a state in which the brace member is erected. Figure.

FIG. 1 is a perspective view of a brace fixing hardware 10 according to the present embodiment.
The strut means a column fixed at an acute angle with respect to a column that stands substantially vertically from the base.
The brace fixing hardware 10 is a member for fixing the brace member to the strut at an acute angle.
The brace fixing hardware 10 according to the present embodiment includes a support plate 11 and a brace fixing part 12 as support parts.

The support plate 11 according to this embodiment is a substantially rectangular flat plate made of steel, and a through hole 11a for a joining member is formed slightly near the short side of the X direction in FIG.
Further, the brace fixing portion 12 is erected substantially vertically from the support plate 11 along the direction substantially parallel to the long side of the support plate 11 from the substantially central portion of the short side opposite to the X direction in FIG. ing.

The brace fixing part 12 is a substantially square flat plate made of steel, and the fixing pin insertion holes 12a and 12a as through holes are formed in a substantially central part so as to be located on a line inclined with respect to the horizontal direction. Has been.
The angle w formed by the line connecting the centers of the fixing pin insertion holes 12a and 12a with respect to the vertical direction is the angle between the brace member 1 and the support column 2 to be fixed so that a certain strength can be secured. It is decided according to.
In the present embodiment, the acute angle w formed by the line connecting the centers of the fixing pin insertion holes 12a and 12a with respect to the vertical direction is substantially the same as the angle formed by the support column 2 and the brace member 1, Perforated.

However, the angle at which the fixing pin insertion holes 12a and 12a are perforated is not limited to this as long as the fixing strength of the brace can be secured, and the number of perforations of the fixing pin insertion holes 12a and 12a is also limited. It is not limited to two.
The fixing pin insertion holes 12a and 12a are drilled as many as necessary depending on the size of the brace and strut and the required strength.

In addition, when the support plate 11 is divided by the line U of FIG. 1 (a line drawn substantially parallel to the short side of the support plate 11 through the support plate 11 center side end of the brace fixing portion 12). The portion where the brace fixing portion 12 is erected is referred to as “muscle support portion 11b”, and the other portion is referred to as “post support portion 11c”.
The strut support portion 11c is formed in the shape and area substantially the same as the cross-sectional shape and cross-sectional area of the strut to be erected, and the brace support portion 11b has the shape and bottom area of the bottom surface of the strut member to be erected. They are formed in almost the same shape and area.

The column support part 11c according to the present embodiment is formed in a substantially square shape whose one side is the length s of the short side of the support plate 11, and a through hole 11a for a joining member is drilled in a substantially central part. Has been.
Therefore, in this embodiment, the support | pillar which has a substantially square cross section whose one side is s is erected.
The brace support portion 11b according to the present embodiment is formed in a substantially rectangular shape having a short side t and a long side s.
Therefore, in the present embodiment, a bracing member having a substantially rectangular bottom surface with a short side t and a long side s is erected.

Next, with reference to FIGS. 2 to 6, a method of standing the column 2 and the brace 1 on the base 3 using the brace fixing hardware 10 according to the present embodiment will be described.
The brace member 1 and the column 2 according to this embodiment are erected on the base 3.
As for the assembling order, the brace member 1 is fixed to the column 2 via the brace fixing hardware 10 after the column 2 is erected on the base 3.

First, as shown in FIG. 2, the support column 2 is connected and fixed to the base 3 by the joining member 40.
As the base 3, for example, a known square bar is used.
As shown in FIG. 2, a base-side joining member insertion hole 3 a is drilled in the base 3 in a direction substantially perpendicular to the side surface with which the support column 2 contacts.
A joining member 40 described later is inserted into the base-side joining member insertion hole 3a.
The base-side joining member insertion hole 3a is drilled in a substantially vertically downward direction (W direction in FIG. 2) from the contact surface 3c with the support column 2.

A base-side support pin guide hole 3b is drilled from one of the side surfaces orthogonal to the contact surface 3c of the base 3.
The base-side support pin guide hole 3b is formed toward a position where a column support pin through-hole 40a formed in the joining member 40 is disposed when a joining member 40 described later is inserted.

The base-side support pin guide hole 3b is a hole that serves as a guide when a post support pin 40c for fixing a joining member 40 to be described later is driven toward the post support pin through hole 40a.
However, the base support pin guide hole 3b is not necessarily provided, and a mark may be attached to the side surface of the base 3 to indicate the position where the column support pin is driven.

As the support | pillar 2, a well-known square material is used, for example.
As shown in FIG. 2, a column-side joining member insertion hole 2 a is drilled at the lower end of the column 2 in a direction substantially perpendicular to the side surface on which the base 3 contacts.
A joining member 40 to be described later is inserted into the column-side joining member insertion hole 2a.
The column-side joining member insertion hole 2a is drilled in a substantially vertical upward direction (V direction in FIG. 2) from the contact surface 2c with the base 3.

A support-side support pin guide hole 2b is drilled from one of the side surfaces orthogonal to the contact surface 2c of the support 2.
This support column side support pin guide hole 2b is formed toward a position where a support column support pin through hole 40a formed in the connection member 40 is disposed when a later-described connection member 40 is inserted.

The support column side support pin guide hole 2b is a hole that serves as a guide when a support column support pin 40c for fixing a joining member 40 described later is driven toward the support column support pin through hole 40a.
However, the base support pin guide hole 3b is not necessarily provided, and a mark may be attached to the side surface of the column 2 to indicate the position where the column support pin is driven.

As the brace member 1, for example, a known square bar is used.
As shown in FIG. 4, the brace member 1 extends along the corners formed by the struts 2 and the base 3 in a state where the angle formed by the brace members 1 and the struts 2 forms a predetermined angle. In addition, two end portions thereof are cut out. By being cut out in this manner, a notch surface 1a (side contacting the support column 1) and a notch surface 1b (side contacting the support plate 11) are formed at the end of the brace member 1.
The notch surface 1a and the notch surface 1b are orthogonal to each other.
Further, the support column 1 is in contact with the notch surface 1a, and the upper surface of the support plate 11 placed on the base 3 is in contact with the notch surface 1b.

In addition, the slit 1c is formed toward the substantially perpendicular | vertical upper direction from the notch surface 1b.
The slit 1 c is cut substantially parallel to the longitudinal direction of the base 3.
The slit 1 c is a slit into which the brace fixing part 12 formed in the brace fixing metal 10 is inserted, and the width thereof is formed substantially the same as the thickness of the brace fixing part 12.
Moreover, it is preferable that the shape of the slit 1c is formed to be substantially the same as the shape of the brace fixing portion 12 so that the brace fixing portion 12 is engaged.

Further, pin guide holes 1d and 1d as guide holes are drilled from side surfaces substantially perpendicular to the notch surface 1b.
The pin guide holes 1d and 1d are drilled toward positions where the fixing pin insertion holes 12a and 12a are disposed when the brace fixing portion 12 is inserted into the slit 1c.
The pin guide holes 1d and 1d are holes that serve as guides when a fixing pin for fixing the brace fixing portion 12 is driven toward the fixing pin insertion holes 12a and 12a.
However, the pin guide holes 1d and 1d are not necessarily provided, and a mark for indicating a position where the fixing pin is driven may be attached to the side surface of the bracing member 1.

The joining member 40 is formed of, for example, a substantially cylindrical member, and the vertical length thereof is the vertical length of the column-side joining member insertion hole 2a and the vertical length of the base-side joining member insertion hole 3a. It is almost the same as the sum of Sa.
The outer diameter of the joining member 40 is slightly smaller than the inner diameter of the base-side joining member insertion hole 3a and the inner diameter of the support-side joining member insertion hole 2a.

Column support pin through-holes 40a and 40a are formed at the upper end (V direction side end in FIG. 2) and the lower end (W direction side end in FIG. 2) of the joining member 40, respectively.
After the joining member 40 is embedded in the support column 2 and the base 3, the support column support pins 40 c and 40 c are driven from the outside of the support column 2 and the base 3 toward the support column support pin through holes 40 a and 40 a.
Thus, the support | pillar support pins 40c and 40c are driven in, and the support | pillar 2 is fixed to the base 3 and the brace fixed metal fitting 10 via the joining member 40. FIG.

In addition, a well-known drift pin is used as support | pillar support pins 40c and 40c.
Further, the diameters of the column support pin through holes 40a and 40a are formed to be slightly smaller than the diameters of the column support pins 40c and 40c.
Therefore, the column support pins 40c and 40c are fixed in a state in which the column support pin through holes 40a and 40a are expanded.
For this reason, the column support pins 40c and 40c are in close contact with the column support pin through holes 40a and 40a, and the joining member 40 is securely fixed by the column support pins 40c and 40c.

Further, the outer diameter of the column support pin 40c is formed to be slightly larger than the inner diameter of the base side support pin guide hole 3b and the inner diameter of the column side support pin guide hole 2b.
In addition, although the raw material of the joining member 40 is selected by the intensity | strength requested | required of the support | pillar to stand, in this embodiment, the joining member 40 made from steel is used.

(Stand standing method)
As shown in FIGS. 2 and 3, the support column 2 and the base 3 are connected via a joining member 40.
First, as shown in FIG. 2, the fixed brace 10 is placed at a predetermined position of the base 3.
At this time, the brace fixing metal 10 is placed at a position where the base side joining member insertion hole 3 a formed in the base 3 communicates with the through hole 11 a for the joining member formed in the brace fixing metal 10.

Next, the lower end side of the joining member 40 is inserted through the joining member through hole 11 b and inserted into the base side joining member insertion hole 3 a formed in the base 3.
In this state, the column support pin 40c is driven along the base side support pin guide hole 3b (toward the column support pin through hole 40a), and the joining member 40 is fixed to the base 3.

Next, as shown in FIG. 3, the column-side joining member insertion hole 2 a is inserted into the upper end side of the joining member 40.
After the insertion, as shown in FIG. 4, the column support pin 40 c is driven along the column support pin guide hole 2 b (toward the column support pin through hole 40 a), and the joining member 40 is fixed to the column 1.
As described above, the sum of the vertical length of the column-side joining member insertion hole 2a and the vertical length of the base-side joining member insertion hole 3a is substantially the same as the vertical length of the joining member 40. When the joining member 40 is inserted and fixed in the support-side joining member insertion hole 2a and the base-side joining member insertion hole 3a, the bottom surface of the support 2 contacts the upper surface of the support plate 11 placed on the base 3. It will be fixed in contact.

(Riding member standing method)
As shown in FIGS. 4 and 5, the brace member 1 is fixed to the column 1 by the brace fixing portion 12 formed on the brace fixing hardware 10.
First, as shown in FIG. 4, the brace member 1 is installed with its notch surface 1 a facing the column 2.
At this time, the brace fixing portion 12 formed in the brace fixing hardware 10 is inserted into the slit 1 c formed in the brace member 1.
In a state where the brace member 1 is inserted into the brace fixing portion 12, the notch surface 1a of the brace member 1 and the side surface of the support column 1 come into contact with each other, and the notch surface 1b and the brace fixing hardware 10 are supported. The plate 11 is in contact.

  Next, as shown in FIG. 5, the fixing pins 13 and 13 are driven in along the pin guide holes 1d and 1d (toward positions where the fixing pin insertion holes 12a and 12a are disposed). In this way, the brace member 1 is fixed to the base 3 and the support column 2 via the brace fixing hardware 10.

As the fixing pins 13, for example, known drift pins are used.
Further, the outer diameters of the fixing pins 13 and 13 are formed to be slightly larger than the diameters of the fixing pin insertion holes 12a and 12a drilled in the brace fixing portion 12.
Therefore, when the fixing pin is driven into the fixing pin insertion holes 12a and 12a, the fixing pin penetrates the fixing pin insertion holes 12a and 12a in a state where the fixing pin insertion holes 12a and 12a are expanded.

For this reason, the fixing pin is in close contact with the fixing pin insertion holes 12a, 12a, and the brace fixing portion 12 is securely fixed by the fixing pin.
FIG. 6 is a plan view of the state in which the brace member 1 is fixed as viewed from the direction A in FIG.
In this way, the brace member 1 is installed at the corners formed by the base 3 and the support 2.

FIG.7 and FIG.8 is explanatory drawing which shows other embodiment of a brace fixed metal fitting. In the present embodiment, members and the like that are the same as those in the above embodiment are denoted by the same reference numerals, description thereof is omitted, and only differences are described.
The second brace fixing hardware 20 shown in FIG. 7 is a hardware used when the brace is installed in the corner portion.
As shown in FIG. 7, the second brace fixing hardware 20 has a configuration in which one brace support portion 11 b is added to the brace fixing hardware 10.
The second brace fixing hardware 20 is composed of a column support part 11c and two brace support parts 11b and 11b.
The brace support portions 12b and 12b are respectively formed continuously on two substantially orthogonal sides of the support column support portion 11c.
The structure of the column support part 11c and the brace support parts 12b and 12b is the same as that of the fixed hardware 10.

Next, a method for erecting the support column 2 and the brace members 1 and 1 on the bases 3 and 3 using the second brace fixing hardware 20 will be described.
First, the second brace fixing hardware 20 is placed on the upper surface of the corner portion.
The method of fixing the support column 2 to the base 3 is the same as when using the brace fixing hardware 10.
Next, a state in which the bracing members 1 and 1 are erected is shown in FIG.
In FIG. 8, the pin guide holes 1d, 1d, 1d, 1d are omitted because the drawing becomes complicated. However, as in the case where the brace fixing hardware 10 is used, the brace members 1, 1 are not provided. Are provided with pin guide holes 1d, 1d, 1d, 1d.

As shown in FIG. 8, the bracing members 1, 1 are respectively installed with their notch surfaces 1 a, 1 a facing in the direction facing the column 2.
At this time, the brace fixing portions 12 and 12 formed in the second brace fixing hardware 20 are inserted into the slits 1c and 1c formed in the brace members 1 and 1, respectively.
In the state in which the brace members 1 and 1 are inserted into the brace fixing portions 12 and 12, the notch surfaces 1a and 1a of the brace members 1 and 1 and the side surfaces of the support column 1 abut and the notch surface 1b. 1b and the support plate 11 of the second brace fixing hardware 20 are in contact with each other.

Next, similarly to the case of using the brace fixing hardware 10, along the pin guide holes 1d, 1d, 1d, 1d (toward the positions where the fixing pin insertion holes 12a, 12a, 12a, 12a are disposed). Then, the fixing pins 13, 13, 13, 13 are driven. In this way, the brace members 1 and 1 are fixed to the bases 3 and 3 and the support column 2 through the second brace fixing hardware 20.
Thus, also in the corner portion, it is possible to fix the two brace members 1 and 1 to the single support column 2.

1 is an overall perspective view of a brace fixing hardware according to an embodiment of the present invention. It is an exploded view which shows the state by which the support | pillar which concerns on one Embodiment of this invention is erected on the foundation. It is explanatory drawing which shows the state by which the support | pillar which concerns on one Embodiment of this invention is erected. It is explanatory drawing which shows the state in which the brace member which concerns on one Embodiment of this invention is standingly arranged. It is explanatory drawing which shows the state in which the brace member which concerns on one Embodiment of this invention is standingly arranged. It is the top view which looked at FIG. 5 from the A direction. It is a perspective view of the 2nd brace fixed metal fitting concerning other embodiments of the present invention. It is explanatory drawing which shows the state by which the bracing member which concerns on other embodiment of this invention is standingly arranged. It is explanatory drawing which shows a well-known technique.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Bracing member 1a Notch surface 1b Notch surface 1c Slit 1d Guide hole (pin guide hole)
2 support 2a support-side joining member insertion hole 2b support-side support pin guide hole 2c contact surface 3 foundation 3a foundation-side joining member insertion hole 3b foundation-side support pin guide hole 3c contact surface 10 brace fixing metal 11 support part (support) Board)
11a Through hole for joining member 11b Brace support part 11c Strut support part 12 Brace fixing part 12a Through hole (fixing pin insertion hole)
13 Fixing means (fixing pin)
20 Second brace fixing metal 40 Joining member 40a Post support pin through hole 40c Post support pin 111 bolt

Claims (6)

A brace fixing hardware for fixing a brace member to an inner corner formed by a base and a pillar,
The brace fixing hardware is configured to include a brace fixing part that fixes the brace member, and a support part that supports the brace fixing part,
The support portion is disposed on the base and supports the support column.
The brace fixing hardware, wherein the brace fixing portion is fixed to the brace member by an adhering means in a state of being located inside the brace member. The brace fixing hardware according to claim 1, wherein a slit engaging with the brace fixing portion is formed in the brace member. The base and the support column are joined by a joining member in which one end is embedded in the support column and the other end side is embedded in the foundation,
The brace fixing hardware according to claim 1, wherein a through hole for a joining member for arranging the joining member is formed in the support portion. The brace fixing part is formed with a through hole for allowing the fixing means to pass therethrough, and the brace member and the brace fixing part are directed from the outside of the brace member toward the through hole. The brace fixing hardware according to claim 1, wherein the brace fixing hardware is fixed by disposing the fixing means. The brace fixing according to claim 4, wherein the brace member is provided with a guide hole for guiding the adhering means from a side surface of the brace member toward the through hole. hardware. A brace member in an inner corner formed by a base and a column by a brace fixing hardware configured to include a brace fixing part that fixes the brace member and a support part that supports the brace fixing part. A brace member fixing method for fixing
A first step of fixing the support to the base in a state where a part of the support member is located between the base and the support;
A second step of engaging a slit cut from the bottom surface of the brace member with the brace fixing portion;
A fixing member for fixing the brace member and the brace fixing portion is disposed through the brace fixing portion from the outside of the brace member, and the brace member and the brace fixing portion are fixed. A bracing member fixing method comprising: performing a third step.

Images