JPH06108571A - Floor construction - Google Patents

Abstract

PURPOSE:To make a floor surely supportable as well as to enable it to cope with any variation or the like in the thickness of structural steel available in a beam supporting the floor. CONSTITUTION:C-steel is used for a beam 10, while a bracket 40 or a connecting member between this beam 10 and a joist 20 is installed so as to be projected in space between an upper flange 12 and a lower flange 13 from a C-steel web 11 and thereby it is made so as not to be affected by a change in groove breadth B of C-steel. This bracket 40 and an end of the joist 20 are joined together, while a particle board 30 or floor board material is formed so as to make the end 31 overhang up to where it is positined in the upper side of an outer side surface of the upper flange 12. The end 31 of the particle board 30 and the outer side surface of the upper flange 12 are joined together, thereby preventing any lateral buckling from occurring.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor structure, in which channel steels having various thicknesses are used as a beam material, and a beam for receiving a floor plate material is housed in the groove of the channel steel. It can be used when joining with joists.

[0002]

BACKGROUND ART FIG. 2 shows a conventional example of a floor structure in which a beam, joists and a floor board are joined together. Beam 91 has C as beam material
Shaped steel (channel steel) is used, and a bracket 92 is provided inside the groove of the C-shaped steel. The bracket 92 is
The upper and lower edges 93A and 93B are fixed to the inner surfaces of the upper and lower flanges of C-shaped steel, respectively.

The joist 94 is fixed to the bracket 92 with a wooden screw 96 while the lower surface 95 of the end portion of the joist 94 is brought into contact with the inner surface of the lower flange of the C-shaped steel, whereby the beam 91 and the joist 94 are fixed.
Is being joined with. A floor plate material 97 is attached to the upper side of the joists 94.

According to the installation structure of the bracket 92 in such a conventional floor structure, the upper and lower edges 93A of the bracket 92,
Since the inner surfaces of the upper and lower flanges of the C-shaped steel are supported by 93B, the lateral buckling of the C-shaped steel does not occur due to the force received from the end of the joist 94, and the bending of the joist 94 can be suppressed and the floor can be suppressed. The function of the beam 91 to support the can be fully exerted.

[0005]

However, in such a conventional floor structure, the bracket 92 in which lateral buckling does not occur.
The floor structure can be reliably supported due to the installation structure, but the thickness T of the C-shaped steel used for the beam 91 supporting the floor is T
There is a problem that it is not possible to deal with changes in

That is, while the height H of the beam 91 has a constant value, there are various thicknesses T of the C-shaped steel, and the groove width B of the beam 91 does not have a constant value. In addition, when the height H of the beam 91 itself is different, the groove width B of the beam 91 is also different. Therefore, the upper and lower edges 93A and 93B of the bracket 92 are
The distance between them must correspond to the groove width B of the beam 91 which changes according to the height H and the thickness T of the beam 91,
In addition to the number of types of the height H of the beam 91, there is a problem that the same number of brackets 92 as the number of types of the thickness T at each height H must be prepared.

An object of the present invention is to provide a floor structure that can reliably support the floor and can cope with changes in the thickness of the steel material used for the beams that support the floor.

[0008]

SUMMARY OF THE INVENTION The present invention is a floor structure having a beam member, a floor plate member, and a joist supporting the lower surface side of the floor plate member, wherein the beam member is provided at both ends of the web and the web member. Is formed by the upper and lower flanges provided so as to form a right angle with, the joining member protruding between the upper and lower flanges is fixed to the web, and the end of the joist is attached to the joining member. And the floor plate is formed so as to project to an end of the floor plate that is located above the outer surface of the upper flange, and the end of the floor plate is joined to the outer surface of the upper flange. Is characterized by.

[0009]

In the present invention as described above, since the joining member for joining the ends of the joist is provided so as to project from the web of the beam member between the upper and lower flanges, the joining member is provided at a distance between the inner surfaces of the upper and lower flanges. Since it is not affected, it becomes possible to deal with a change in the thickness of the beam material.

Further, since the floor board is provided so as to project to the position where the end of the floor board is located above the outer surface of the upper flange of the beam, and the outer surface of the upper flange is joined to the end of the floor board, Lateral buckling of the beam can be suppressed by the force received from the end of the joist. Therefore, the bending of the joists can be suppressed, the function of the beam can be sufficiently exerted, and the floor can be reliably supported, thereby achieving the above-mentioned object.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows a floor structure in which a beam 10 and a joist 20 are joined to each other at a right angle, and a particle board 30, which is a floor board material, is attached to the upper side of the joist 20. A C-shaped steel is used for the beam 10, and the C-shaped steel is formed by a web 11 and an upper flange 12 and a lower flange 13 provided at both ends of the web 11 at right angles thereto. There is. The joist 20 is made of prismatic wood.

Inside the groove of the C-section steel used for the beam 10,
A bracket that is a joining member that joins the beam 10 and joist 20
40 are provided. The bracket 40 is provided so as to project from the surface of the web 11 into the inside of the groove, and its vertical width W is smaller than the groove width B of the C-shaped steel, and its shape is L-shaped. The bracket 40 and the web 11 are joined and fixed by spot welding 50 (spot welding) at four locations.

The joist 20 has a lower flange 21 on the lower surface 21 at the end thereof.
It is fixed to the bracket 40 by four wooden screws 51 while making contact with the inner surface of 13. In addition, the upper part of the end of the joist 20 is stepped with a height L, so that the end of the joist 20 can be inserted into the beam 10 by avoiding the upper flange 12. ing.

The particle board 30 is attached to the upper side of the joist 20 with a nail or the like, and is provided so as to project to the position where the end portion 31 is located above the outer surface of the upper flange 12. End 31 of particle board 30
The upper flange 12 and the upper flange 12 are joined by hitting the pin 52 with a drill or the like.

In this embodiment, the downward force applied to the joist 20 is almost transmitted from the bottom surface 21 of the end of the joist 20 to the inner surface of the lower flange 13, and is directly applied to the lower flange 13 of the beam 10. As a result, a small part of the force is transmitted to the web 11 of the beam 10 through the bracket 40.

The bracket 40 is used to position the joint between the beam 10 and the joist 20, that is, to receive the joist 20 when the joist 20 slides in the longitudinal direction of the joist 10. And
Between the upper flange 12 and the end 31 of the particle board 30, a pulling force acts on each other via the pin 52, which serves to suppress the deformation of the cross-sectional shape of the C-shaped steel.

According to this embodiment, the bracket
Since 40 is provided so as to project from the web 11 into the groove of the C-shaped steel, it may be affected by the distance between the inner surfaces of the upper flange 12 and the lower flange 13 as in the conventional bracket 92. Since it does not exist, it is possible to cope with a change in the thickness T of the C-shaped steel and the like.

Further, the particle board 30 has its end portion 31
Is provided so as to project to a position above the outer surface of the upper flange 12, and the end portion 31 of the particle board 30 is fixed to the outer surface of the upper flange 12 by the pin 52, so the force received from the end portion of the joist 20. This makes it possible to prevent lateral buckling of the C-shaped steel from occurring. Therefore, the bending of the joist 20 can be suppressed, the function of the beam 10 can be sufficiently exerted, and the floor can be reliably supported.

Since the bracket 40 is provided, the beam 10 and the joist 20 can be reliably positioned, and the joist 20 can be prevented from moving in the longitudinal direction of the joist 10.

Further, since the lower end surface 21 of the joist 20 is in contact with the inner surface of the lower flange 13, almost all the downward force applied to the joist 20 is directly received by the lower flange 13, The rigidity of the bracket 40 can be kept low to the extent that it has a positioning function for the 10 and joist 20.

Further, since the upper portion of the end portion of the joist 20 is processed in a step shape having a height L, the upper flange 12 can be avoided without any problem even if the thickness T of the C-section steel changes. Joist
The ends of 20 can be inserted inside the beam 10.

The present invention is not limited to the above-mentioned embodiment, and the following modifications and the like are also included in the present invention. That is, in the above embodiment, the bracket 40 and the web 11 are joined by spot welding 50 at four locations, but the welding locations are not limited to four locations, and the joining method is also limited to spot welding. For example, bolts may be used instead.

Further, in the above embodiment, the bracket 40 and the joist 20 are fixed by four wooden screws 51, but the number of the wooden screws 51 is not limited to four, and the fixing method is also a wooden screw fixing. The fixing method is not limited to the above, and other fixing methods may be used.

Further, in the above embodiment, the end portion 31 of the particle board 30 and the upper flange 12 are joined by hitting the pin 52, but other joining methods may be used.

In the above embodiment, the bottom surface of the end of the joist 20 is also used.
Although 21 is only placed on the inner surface of the lower flange 13, the end of the joist 20 and the lower flange 13 are joined to each other like the end 31 of the particle board 30 and the upper flange 12 are joined by the pin 52. They may be joined by a pin or the like, and by doing so, the effect of preventing lateral buckling can be further improved.

Further, in the above embodiment, the bottom surface 21 of the end of the joist 20 and the inner surface of the lower flange 13 are in contact with each other, but there is a gap when the height of the joist 20 is small. May be. However, in this case, the load cannot be received by the inner surface of the lower flange 13, so the bracket
It is desirable to increase the rigidity of 40. A spacer or the like may be sandwiched in such a gap, and by doing so, the load bearing by the inner surface of the lower flange 13 can be obtained, so that the rigidity of the bracket 40 can be suppressed to a low level.

Also, changes in the height H and thickness T of the beam 10 and joists
From the relationship with the height dimension of 20, when the height position of the upper surface of the joist 20 and the outer surface of the upper flange 12 do not match, for example, when the upper surface of the joist 20 is above the outer surface of the upper flange 12 In addition, a spacer or the like may be appropriately sandwiched between the end 31 of the particle board 30 and the upper flange 12 according to the step difference. On the other hand, when the outer surface of the upper flange 12 is above the upper surface of the joist 20, a step is provided on the lower surface side of the end 31 of the particle board 30, or a spacer is provided between the particle board 30 and the joist 20. Etc. may be sandwiched.

Further, in the above-mentioned embodiment, the C-shaped steel is used as the beam material, but it may be H-shaped steel or the like, that is, it has a groove into which the end of the joist 20 can be inserted. Channel steel may be used.

Further, in the above embodiment, the bracket 40
Is L-shaped, but it may be T-shaped or the like, in short, as long as it is provided in a protruding shape from the web 11 into the groove and has a shape capable of fixing the joist 20. The material and size of the bracket 40 may be arbitrarily selected as long as the material and size are suitable for the joining member.

[0030]

As described above, according to the present invention, the joining member for connecting the beam member and the joist is provided so as to project from the web of the beam member between the upper and lower flanges. In addition to being able to cope with changes in the thickness of the timber, etc., since the end of the floor board and the outer surface of the upper flange of the beam are joined, lateral buckling can be prevented and the floor can be supported securely. You can

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a configuration diagram showing a conventional example.

[Explanation of symbols]

 10 Beam using C-shaped steel as beam material 11 Web 12 Upper flange 13 Lower flange 20 Joist 30 Particle board which is floor board material 40 Bracket which is a joining member

Claims (1)

[Claims] 1. A floor structure having a beam member, a floor plate member, and a joist supporting a lower surface side of the floor plate member, wherein the beam member is provided on a web and both ends of the web so as to form a right angle thereto. Is formed by the upper and lower flanges, a joining member protruding between the upper and lower flanges is fixed to the web, and the end portion of the joist is joined to the joining member, The floor structure, wherein the end portion is formed so as to project to a position above the outer surface of the upper flange, and the end portion of the floor plate material is joined to the outer surface of the upper flange.