KR101320568B1 - Hanger for structure of ceiling - Google Patents

Abstract

Hanger for ceiling structure according to the present invention, the fastening portion is fastened to the fastening member and the fastening portion is formed extending, the other side connected to the one side via the elastic force formed on one side while wrapping the mounting member is mounted And a self-supporting mounting portion configured to generate a support force for the mounting member, wherein the self-supporting mounting portion includes a first member extending in the fastening portion and a second bending portion extending in the first member. A member, a third member bent and extended to the second member, and a support member bent and extended to the third member, wherein the first member, the second member, and the third member are convex inwardly. It is formed integrally, and when the mounting member is mounted, the support member is rotated in accordance with the deformation of the first member, the second member and the third member to press the mounting member to contact And, the self-supporting mounting portion, the supporting member provided to support the first member, the second member and the third member on the outside of the first member, the second member and the third member which are formed convex in the inward direction It may further include.

Description

Hanger for Ceiling Structures {HANGER FOR STRUCTURE OF CEILING}

The present invention relates to a hanger for a ceiling structure, and more particularly to a hanger for a ceiling structure that can be coupled to an anchor bolt installed in the ceiling slab to mount a mounting member, such as a channel member.

A considerable number of suspended structures are used for the construction of buildings, and a large amount of suspended structures (or panels for installing panels) are also used for the construction of ceiling panels for finishing the interior of buildings.

Such suspended structures are installed by hanging a hanger on a fixed structure or other structure embedded in a ceiling slab, supporting the target structure on the hanger, and then using the target structure for a necessary use.

Figure 1 shows one embodiment and the state of use of a hanger that is conventionally used.

Referring to FIG. 1, the conventional hanger 100 forms a fastening part 110 and a mounting part 120 at upper and lower ends by bending a metal material having a plate-shaped band, and a mounting part for mounting a structure ( The fixing hole 122 is formed in the 120.

The hanger 100 is to combine the anchor bolt 130 in the fastening hole provided in the fastening unit 110 and then to combine the anchor bolt to the ceiling structure or other structures to be used to hang the hanger 100.

Then, the mounting portion 120 is coupled to the structure 200, and then through the fixing member 140 penetrated through the fixing hole 122 of the mounting portion to limit the movement of the structure 200 to prevent the departure to the upper portion It is.

By the way, the conventional hanger 100 is only limited to the movement in the vertical direction of the structure through the fixing member 140, there is no device for limiting the movement in the horizontal direction may cause the problem that the structure is separated in the left and right directions Can be.

In addition, the fixing member 140 is limited to the vertical movement of the structure 200, there is no function to press the structure to the bottom, the horizontal applied to the structure 200 due to an earthquake or the like affecting the building structure And it does not absorb the impact in the vertical direction is transmitted to the structure as it is a problem that the structure is broken.

Then, in order to fix the structure 200 to the mounting portion 120, the operation of drilling the fixing hole 122 in the mounting portion 120 and the operation of penetrating the fixing member 140 in the fixing hole 122, etc. As a result, the work is cumbersome and the air is long.

The present invention has been proposed in order to solve the above problems, the object of the aspect is to form a bending only without boring of the fixing hole to facilitate the operation, and also to support the mounting member such as a channel member by using the elastic force according to the bending By providing a hanger for the ceiling structure that can be securely fixed to the channel member.

In addition, the present invention, as a side surface, by pressing the structure in a vertical, horizontal direction to fix it, to prevent the structure from leaving in the left and right direction as well as up and down, and strong external impact applied in the longitudinal front, rear, left and right directions by an earthquake or the like. It is an object of the present invention to provide a hanger for a ceiling structure that absorbs stably and prevents damage of the structure fixed to the ceiling.

The present invention as a technical aspect for achieving the above object, the fastening portion is fastened to the fastening member and the fastening portion is formed extending, the one side through the elastic force formed on one side while surrounding the mounting member to be mounted And a self-supporting mounting portion configured to generate a support force for the mounting member on the other side connected to the self-supporting mounting portion, the first member being extended to the fastening portion and bent to the first member. A second member formed to be extended, a third member formed to be bent and extended to the second member, and a support member formed to be bent and extended to a third member, wherein the first member, second member and third are formed. The member is integrally formed convexly inwardly, and when the mounting member is mounted, the support member rotates according to the deformation of the first member, the second member, and the third member. The support member is pressed to support the support member, and the self-supporting support member has the first member, the second member, and the third member on the outer side of the first member, the second member, and the third member which are convex in the inward direction. It provides a ceiling structure hanger further comprising a support member provided to support.

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More preferably, the support member is provided to be in contact with the bent portion between the third member and the support member while being connected to the bent portion between the second member and the third member.

More preferably, the second member and the third member are formed convexly inwardly, and the support member is connected to the bent portion between the first member and the second member while being connected to the second member and the third member. And a bent portion between the three members and a bent portion between the third member and the support member.

More preferably, the support member is convex inwardly or the end is formed in the inward direction, and when the mounting member is mounted on the self-supporting mounting portion, the end may be elastically supported by contacting the mounting member.

According to the hanger for the ceiling structure according to the present invention, it is easy to manufacture because it is formed only by bending without the puncturing work of the fixing hole, and accordingly the elastic force and As a result, the mounting member is stably fixed by the supporting force, so that the fixing operation is easy.

In addition, since each member of the mounting portion is fixed by pressing the structure in the vertical and horizontal directions, it is possible to obtain the effect of preventing the structure from being separated in the horizontal direction as well as up and down.

In addition, the hanger for the ceiling structure of the present invention elastically press-fit the mounting member, so as to stably absorb the strong external shock applied in the longitudinal, front, rear, left and right directions due to earthquake, etc. to prevent damage of the structure fixed to the ceiling in advance. Thus, the seismic performance can be improved.

1 is a perspective view showing a hanger according to the prior art
2 and 3 are cross-sectional views showing various embodiments of a hanger for a ceiling structure according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a hanger for a ceiling structure according to the present invention.

2 shows various embodiments of the hanger 1 for a ceiling structure according to the present invention, and FIG. 3 shows embodiments in which the supporting members 25a and 25b are added to the embodiments of FIG. 2, respectively.

Referring to Figure 2, the ceiling structure hanger 1 according to the present invention comprises a fastening portion 10 is fastened to the fastening member and a self-supporting mounting portion 20 is formed integrally extending to the fastening portion Can be.

First, the fastening part 10 may be provided with a fastening hole 12 to enable the bolt coupling. The ceiling structure hanger 1 may be fixed by fastening the fastening member to the fastening hole 12.

For example, the anchor bolt installed in the ceiling slab is passed through the fastening hole 12 and the nut is fastened so that the hanger 1 for the ceiling structure can be fixed to the anchor bolt.

And, the self-supporting mounting portion 20 is formed integrally by extending to the fastening portion 10, the support force on the other side connected to the one side via the elastic force formed on one side while surrounding the mounting member 2 to be mounted This can be configured to occur.

That is, as described in the background art, in the past, the fixing member is inserted into the fixing hole provided in the hanger to fix the channel member, which is the mounting member (2), but in the present invention, the self-supporting mounting portion 20 is provided without the fixing hole and the fixing member. ) The channel member is fixed by the elastic force and the supporting force generated according to its own structure.

The self-supporting mounting part 20 may include a first member 21, a second member 22, a third member 23, and a support member 24.

The first member 21 is formed to extend to the fastening portion 10, the second member 22 is formed to be bent extending to the first member 21, the third member 23 is the second member 22 ) Is bent to extend and formed, the support member 24 may be formed to be bent to extend to the third member (23).

That is, the self-supporting mounting portion 20 may be continuously bent to surround the mounting member (2).

Here, if necessary, the first member 21 may be formed to be bent and extended to the fastening portion 10, the third member 23 is omitted so that the support member 24 is bent to the second member 22. It may be extended.

Referring to FIG. 2, the horizontal fastening portion 10 is bent downwardly to form a first member 21, and the first member 21 is bent and extended in a horizontal direction to the second member 22. May be formed, and the second member 22 may be bent upward to form a third member 23, and the third member 23 may be bent to extend in a horizontal direction to form a support member 24.

In this case, the horizontal direction of the fastening part 10 and the horizontal direction of the second member 22 may be formed in the same direction or in the opposite direction as necessary.

At least the third member 23 of the first to third members 21 and 22 and 23 is formed to be convex in the inward direction, so that the elastic force of the third member 23 when the mounting member 2 is mounted. The support member 24 may be in contact with the mounting member 2 to support the mounting member 2.

Referring to FIG. 2, the mounting member 2 may be mounted in a space formed by the first to third members 21, 22, 23, and the support member 24.

Here, the mounting member 2 may be installed such that the open side faces the first member 21 or the third member 23 as the U-shaped channel member.

By the way, in order to use the support force of the support member 24 by the elastic force of the 3rd member 23, it is preferable to install so that an open side may face the 1st member 21. As shown in FIG.

Referring to FIG. 2A, the third member 23 is formed convexly inward, that is, toward the space, to have elastic force. When the mounting member 2 is mounted, deformation occurs in the third member 23 and the support member 24 by the elastic force, and the support member 24 presses and supports the mounting member 2.

Specifically, the third member 23 is formed convexly inwardly, so that when the mounting member 2 is mounted on the self-supporting mounting portion 20, the convex portion and the mounting member 2 of the third member 23 are mounted. ) Touches and exerts a force on each other.

In other words, when the mounting member 2 is sandwiched between the first member 21 and the third member 23, the mounting member 2 is pressed by the elastic force in the convex portion of the third member 23. As a repulsive force for this, the mounting member 2 presses the third member 23.

At this time, due to the rigidity of the bent portion connecting the second member 22 and the third member 23, the third member 23 is not bent down by the repulsive force of the mounting member 2, and the third member ( The convex portion of 23 is deformed evenly.

As the convex portion of the third member 23 is flatly deformed as described above, the support member 24 rotates in a clockwise direction to contact the mounting member 2 while supporting the mounting member 2.

In summary, when the mounting member 2 is mounted on the self-supporting mounting portion 20 to press the third member 23, the third member 23 may be connected to the second member 22. The convex portion is not flattened by stiffness so that the convex portion is deformed more flatly, and thus the support member 24 is rotated clockwise to press the mounting member 2 downward.

That is, the hanger 1 for the ceiling structure according to the present invention is the third member 23 is deformed by the elastic force when the mounting member 2 is mounted, without a separate fixing member, the third member and the support member 24 ) Can be fixed by pressing the mounting member (2).

Referring to FIG. 2B, the first member 21 and the third member 23 may be convex in the inward direction.

At this time, the third member 23 acts as described above, and in addition, the first member 21 may press the mounting member 2 by an elastic force to stably fix the mounting member 2.

Here, although not shown, when the open side of the U-shaped channel member, which is the mounting member 2, faces the first member 21, the supporting effect by the elastic force of the first member 21 may be reduced.

On the other hand, although not shown, when the mounting member 2 is a rectangular member, the member is also supported by the first member 21, so that the mounting member 2 may be stably fixed.

Referring to FIG. 2C, the second member 22 and the third member 23 may be convex in the inward direction.

At this time, the third member 23 acts as described above, but is further affected by the elastic force of the second member 22 to further press the mounting member 2 to more stably fix the mounting member 2. .

Specifically, when the mounting member 2 is mounted on the self-supporting mounting portion 20, the second member 22 is pressed by the weight of the mounting member 2, so that the convex portion of the second member 22 More flat deformation.

When the second member 22 is flatly deformed in this manner, the third member 23 rotates in a clockwise direction with respect to the bent portion of the second member 22 to press the mounting member 2.

That is, in the case of FIG. 2A, the third member 23 pressurizes the mounting member 2 alone, whereas in the case of FIG. 2C, in addition to the deformation of the second member 22. The third member 23 further presses the mounting member 2.

In addition, the force that the third member 23 presses the mounting member 2 is large, and the force that the mounting member 2 presses the third member 23 is also large. Accordingly, the third member 23 is further flattened so that the support member 24 is further rotated around the bent portion between the third member 23 to further press the mounting member 2.

Although not shown, all of the first member 21 to the third member 23 may be formed to be convex in an inward direction as necessary. In this case, the mounting member 2 can be stably fixed by reinforcing elasticity of the convex portion and deformation caused by the convex portion in the same manner as described above.

Next, the self-supporting mounting portion 20 is a supporting member 25a provided to support the member on the outer side of the first to third members 21, 22, 23 formed convexly inward. It may further include (25b).

In the embodiments shown in Figure 2 the self-supporting mounting portion 20 can be maintained in shape by the rigidity in the bent portion connecting each member.

Accordingly, when the mounting member 2 is mounted on the self-supporting mounting portion 20, each member is supported by the supporting member 2 without being folded, and deformation occurs, and the supporting member 24 is deformed by such deformation. The pressing member 2 is to be pressed.

By the way, when the rigidity in the bent portion is weak may occur when the member is flipped, in this case the deformation hardly occurs, the force that the support member 24 presses the mounting member 2 may be weak. In addition, there is a risk that a large force is applied to the bent portion and broken.

Thus, in the present invention, as shown in Figure 3, the supporting members (25a, 25b) is provided on the outside of the member is formed convex in the inward direction to support the member can be suppressed, as well as the bending portion This can be prevented from being broken.

First, as shown in (a) and (b) of FIG. 3, the supporting member 25a is connected to the bent portion between the second member 22 and the third member 23 while being connected to the third member 23. And a bent portion between the support member 24 may be provided.

Specifically, one end of the support member 25a is joined and fixed to the bent portion between the second member 22 and the third member 23. On the other hand, the support member 25a is formed to be in contact with the bent portion between the third member 23 and the support member 24 only to be contacted and movable.

Accordingly, when the mounting member 2 is mounted on the self-supporting mounting portion 20 so that the mounting member 2 presses the third member 23, the third member 23 is formed of the support member 25a. It is deformed in the flat direction without being folded by the support.

At this time, as the bent portion between the third member 23 and the support member 24 is moved upward in contact with the support member 25a, the support member 24 is approximately clockwise around the bent portion. Pressing the mounting member (2) while rotating.

Meanwhile, as shown in FIG. 3C, when the second member 22 and the third member 23 are formed convexly inwardly, the supporting member 25b is formed of the first member 21 and the first member. It is provided to be in contact with the bent portion between the second member 22 and the third member 23 and the bent portion between the third member 23 and the support member 24 while being connected to the bent portion between the two members 22. Can be.

Specifically, one end of the supporting member 25b is joined and fixed to the bent portion between the first member 21 and the second member 22. On the other hand, the support member 25b is not in contact with the bent portion between the second member 22 and the third member 23 and the bent portion between the third member 23 and the support member 24 to be in contact only. It can be formed and moved.

Accordingly, when the mounting member 2 is mounted on the self-supporting mounting portion 20 so that the mounting member 2 presses the first to third members 23, the members are supported by the support member 25b. It is deformed in a flat direction without being flipped over.

At this time, the bent portion between the second member 22 and the third member 23 is moved to the left in contact with the supporting member 25b. Therefore, it is preferable that the supporting member 25b and the third member 23 are configured to be spaced apart at predetermined intervals so that the bent portion can be moved.

In addition, the bent portion between the third member 23 and the support member 24 is moved upward in contact with the support member 25, whereby the support member 24 is approximately clocked around the bent portion. While pressing in the direction to press the mounting member (2).

That is, the supporting member 25 may reinforce the force for fixing the mounting member 2 by the self-supporting mounting portion 20 in the embodiments shown in FIG. 2.

Although not shown, a support member may be provided on the outer side of the first member 21.

2 and 3 illustrate the supporting members 25a and 25b on the outer side of the member, the self-supporting mounting portion 20 is formed in a substantially c-shape. Convex members are also possible to be provided inside the self-supporting mounting portion 20.

In addition, the supporting members 25a and 25b may be, for example, welded to the bent portion of the second member 22 and the third member 23 or to the bent portion of the first and second members. Junction can be fixed.

Next, the support member 24 may be convex inwardly or end portions formed inwardly in contact with each other to support and support the mounting member 2 when the mounting member 2 is mounted.

That is, the support member 24, the end is formed in the inward direction as shown in Figures 2 and 3, the end may be supported in contact with the mounting portion, although not specifically shown, but formed convexly convex portion is mounted It may be supported by contact with the part.

At this time, in order to facilitate the operation of fitting the mounting member 2 in the open upper side of the self-supporting mounting portion 20, as shown, the support member 24 is shorter than the other members while the end is inward It is more preferable to form.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 ... hangers for ceiling structures 10 ... fasteners
20 ... self-supporting mounts 21, 22, 23 ... first, second, third members
24 ... support member 25a, 25b ... support member

Claims (6)

A fastening part 10 fastened to the fastening member; And
It is formed to extend to the fastening portion 10, the self-supporting mounting portion is configured to generate a support force for the mounting member on the other side connected to the one side via the elastic force formed on one side while wrapping the mounting member to be mounted 20, including;
The self-supporting mounting portion 20 may include a first member 21 extending from the fastening portion 10, a second member 22 extending and bending to the first member, and the first member 21. And a third member 23 bent and extended to the second member, and a support member 24 formed to be bent and extended to the third member.
The first member, the second member and the third member are integrally formed convexly inwardly, and when the mounting member is mounted, the support member 24 according to the deformation of the first member, the second member and the third member. ) Rotates and presses the mounting member to support the contact,
The self-supporting mounting portion 20 is a support provided to support the first member, the second member and the third member on the outside of the first member, the second member and the third member are formed convex in the inward direction. Ceiling structure hanger further comprising members (25a, 25b).
delete delete The method of claim 1,
The support member 25a is in contact with the bent portion between the second member 22 and the third member 23 while contacting the bent portion between the third member 23 and the support member 24. Hanger for ceiling structure, characterized in that provided to.
The method of claim 1,
The second member 22 and the third member 23 are formed convexly inwardly,
The supporting member 25b is connected to the bent portion between the first member 21 and the second member 22 while the bent portion between the second member 22 and the third member 23 and the Ceiling structure hanger, it characterized in that it is provided in contact with the bent portion between the third member (23) and the support member (24).
The method according to any one of claims 1, 4, and 5,
The support member 24 is convex in the inward direction or the end is formed in the inward direction, when the mounting member is mounted on the self-supporting mounting portion 20, the end is in contact with the mounting member to elastically support Hangers for ceiling structures.

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