KR102408414B1 - Insulator fixing clip - Google Patents

Abstract

A heat insulating material fixing clip is disclosed. Insulation material fixing clip according to an embodiment of the present invention, a stud coupling portion coupled to one side of the stud constituting the skeleton of the drywall structure; an insulating material support part connected to the stud coupling part and supporting the insulating material disposed between the studs; and a heat insulator holder provided at an end of the heat insulator support for fixing the heat insulator while at least a portion is inserted into the heat insulator.

Description

Insulator fixing clip

The present invention relates to an insulating material fixing clip, and more particularly, to an insulating material fixing clip which can be effectively fixed so that the insulating material disposed between the studs does not sag or flow down by its own weight.

In an office, factory, or house, space is partitioned or separated in order to use indoor space efficiently. In this way, in order to divide or separate one space into several spaces, a simple wall structure, particularly a drywall structure, is constructed.

Unlike a wet wall structure formed by curing concrete, the drywall structure is easy to construct and can be installed without burdening the building.

In addition, the use of drywall structures is increasing day by day because facility costs are low, quick work is possible, and demolition is convenient.

The drywall structure can be constructed by arranging a plurality of studs in a row between the runners installed on the ceiling and the floor, arranging the insulation between the studs, and then fixing the finish panel to the outside of the insulation.

However, in the case of such a typical drywall structure construction method, there is no means for fixing the insulating material arranged between the studs, there is a problem that the insulating material arranged between the studs can easily flow down.

This will be explained in more detail.

Since the insulating material disposed between the studs plays an important role in providing the insulating function of the wall, it is also arranged densely and several sheets between the studs. The insulating material placed in between may sag or flow down under its own weight.

If the insulator leaks out or is crooked, it inevitably causes the inconvenience of the operator having to rearrange the insulator again in the process of fixing the finished panel.

Accordingly, some have tied wires or wires to the studs and bent the ends to fix the insulation, but this method not only has a weak bonding force with the studs, but also has poor workability, which can delay the air. Structural improvement is urgently needed.

Korean Intellectual Property Office Application No. 20-2013-0008257

Accordingly, the technical problem to be achieved by the present invention is to provide an insulating material fixing clip that can be effectively fixed so that the insulating material disposed between the studs does not sag or flow down by its own weight.

According to an aspect of the present invention, a stud coupling portion coupled to one side of the stud constituting the skeleton of the drywall structure; an insulating material support part connected to the stud coupling part and supporting the insulating material disposed between the studs; and a heat insulator holder provided at an end of the heat insulator support for fixing the heat insulator while at least a portion of the heat insulator is inserted into the heat insulator.

The insulator support portion may include: a first insulation support wing portion provided to extend from one side of the stud coupling portion and supporting the outer wall of the insulation material at the corresponding position; and a second extending from the end of the first insulator supporting wing, disposed at a different angle from the first insulating supporting wing, and supporting the outer wall of the insulator at the corresponding position or a part of the insulator is inserted into the insulator. It may include a wing portion for supporting the insulating material.

A folding line is formed between the wing portion for supporting the first insulation material and the wing portion for supporting the second insulation material. can

The length of the wing portion for supporting the first insulation material and the wing portion for supporting the second insulation material may be the same, and a reinforcing rib for reinforcing the member is provided in a partial region of the wing portion for supporting the first and second insulation material and the stud coupling portion. can be provided.

The insulator holder part may be formed to be bent at the end of the insulator support part along a direction in which the stud coupling part is coupled to the stud, and the insulator holder part is caught by the insulator in a state in which the insulator is inserted into the insulator, and separation is prevented. 1 may include a hook holder.

The insulator holder part is provided continuously to the first hook holder along the direction in which the first hook holder is inserted into the heat insulator, and is caught by the heat insulator while being inserted into the heat insulator together with the first hook holder. It may further include a second hook holder to be stopped.

It is provided on the stud coupling part, and may further include a stud binding force improving part for improving binding force with the stud.

The stud binding force improving part may be provided to be cut and bent from the wall of the stud coupling part, and may be symmetrically disposed on both sides of the wall of the stud coupling part.

Based on the stud coupling part, the insulating material support part and the insulating material holder part may be disposed symmetrically as a pair on both sides thereof.

According to another aspect of the present invention, the upper runner and the lower runner disposed to correspond to the ceiling and the floor of the space; a plurality of studs arranged in a vertical direction between the upper and lower runners and spaced apart from each other, forming a skeleton of the drywall structure; an insulating material disposed between the studs; an insulating material fixing clip coupled to the studs and fixing the neighboring insulating material at the corresponding position; and a finishing panel installed inside and outside the heat insulating material, wherein the insulating material fixing clip includes: a stud coupling part coupled to one side of the studs constituting the skeleton of the drywall structure; an insulating material support part connected to the stud coupling part and supporting the insulating material disposed between the studs; and a heat insulator holder provided at an end of the heat insulator support for fixing the heat insulator in a state in which at least a portion is inserted into the heat insulator.

The insulator support portion may include: a first insulation support wing portion provided to extend from one side of the stud coupling portion and supporting the outer wall of the insulation material at the corresponding position; and a second extending from the end of the first insulator supporting wing, disposed at a different angle from the first insulating supporting wing, and supporting the outer wall of the insulator at the corresponding position or a part of the insulator is inserted into the insulator. and a wing portion for supporting an insulator, wherein a fold line is formed between the wing portion for supporting the first insulator and the wing portion for supporting the second insulator, and the wing portion for supporting the second insulator is higher than the wing portion for supporting the first insulator. It can be beveled closer to the insulation.

Reinforcing ribs for reinforcing the member may be provided in a portion of the first and second heat insulator supporting wing portions and the stud coupling portion.

The insulator holder part may be formed to be bent at the end of the insulator support part along a direction in which the stud coupling part is coupled to the stud, and the insulator holder part is caught by the insulator in a state in which the insulator is inserted into the insulator, and separation is prevented. 1 may include a hook holder.

The insulator holder part is provided continuously to the first hook holder along the direction in which the first hook holder is inserted into the heat insulator, and is caught by the heat insulator while being inserted into the heat insulator together with the first hook holder. It may further include a second hook holder to be stopped.

It is provided on the stud coupling part, and may further include a stud binding force improving part for improving binding force with the stud.

According to the present invention, the insulating material disposed between the studs can be effectively fixed so as not to sag or flow down by its own weight.

1 is a perspective view of an insulating material fixing clip according to an embodiment of the present invention.
FIG. 2 is a rear perspective view of FIG. 1 ;
3 is a perspective view of a state in which the insulating material fixing clip of FIG. 1 is coupled to the stud.
FIG. 4 is a partial cross-sectional view of area A of FIG. 3 .
5 is a partial cross-sectional structural view of a drywall structure including an insulating material fixing clip according to an embodiment of the present invention.
6 and 7 are modified examples of the insulating material holder part in the insulating material fixing clip according to another embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is a perspective view of an insulating material fixing clip according to an embodiment of the present invention, FIG. 2 is a rear perspective view of FIG. 1 , FIG. 3 is a perspective view of a state in which the insulating material fixing clip of FIG. 1 is coupled to a stud, and FIG. 4 is FIG. 3 is a partial cross-sectional view of area A, and FIG. 5 is a partial cross-sectional structural view of a drywall structure including an insulating material fixing clip according to an embodiment of the present invention.

Referring to these drawings, when the insulating material fixing clip 130 according to the present embodiment is applied, the insulating material 122 disposed between the studs 120 can be effectively fixed so as not to sag or flow down by its own weight.

As described above, in the process of fixing the finishing panels 124a and 124b as shown in FIG. 5 when the insulating material 122 disposed between the studs 120 flows down or becomes distorted, the operator again removes the insulating material 122. Inevitably, the inconvenience of redeployment is inevitable.

However, in the case of the present embodiment, since it is possible to prevent the insulator 122 from falling out of the seat or being skewed by a simple method of installing the insulating material fixing clip 130, the conventional problems can be completely solved. That is, when the operator arranges the insulating material 122 between the studs 120 , the work is also very convenient because the insulating material fixing clip 130 according to the present embodiment can be coupled while sandwiching the studs 120 .

The present invention capable of providing such an effect can be applied to a drywall structure as shown in FIG. 5 including the insulating material fixing clip 130 in addition to the structure or part called the insulating material fixing clip 130 . Hereinafter, for convenience of description, the structure of the insulating material fixing clip 130 will be described first.

The insulating material fixing clip 130 is a structure or component coupled to the stud 120 as shown in FIG. 3 , and serves to fix the insulating material 122 disposed around the stud 120 .

As previously mentioned for a while, in the drywall structure shown in FIG. 5 , a plurality of studs 120 are arranged in a row between the upper and lower runners 111 and 112 installed on the ceiling and the floor, and then the insulation 112 between the studs 120 . ), it can be constructed by fixing the first and second finishing panels 124a and 124b to the outside of the insulator 112. If the insulator 112 disposed between the studs 120 is not fixed, its own weight may sag or flow downward.

When the insulator 112 flows down and deviates from the seat or is skewed, the operator inevitably has to rearrange the insulator 112 again in a later process, which inevitably causes the air to be delayed.

Accordingly, in the present embodiment, the insulator 112 is fixed by using the insulating material fixing clip 130 in order to eliminate the occurrence of such loss. When the insulator 112 is fixed, since the insulator 112 does not flow down, the operation is not cumbersome, and the number of workers can be reduced. Of course, it is also possible to provide an air shortening effect.

In particular, since the insulating material fixing clip 130 applied to fix the insulating material 112 in this embodiment has a structure that is easily coupled to the stud 120, workability is very excellent.

The insulating material fixing clip 130 may include a stud coupling part 131 , an insulating material support part 132 , and an insulating material holder part 133 .

The stud coupling part 131 , the insulating material support part 132 , and the insulating material holder part 133 may be individually manufactured and then connected, but it is preferable for the construction to be an integrated structure of one body. That is, it may be preferable in terms of manufacturing, cost, and handling to be integrally manufactured in the shape of FIGS. 1 and 2 at a time using a thin and long member such as an iron plate.

The stud coupling portion 131 is a portion coupled to one side of the stud 120 constituting the skeleton of the drywall structure. That is, the stud coupling part 131 is formed in the center of the insulating material fixing clip 130 , and can be detachably coupled to the stud 120 .

This stud coupling part 131 is bent and molded into an approximately Hangul U-shape. Therefore, when the stud coupling part 131 is pressed against the stud 120 and pressed, the stud coupling part 131 can be easily coupled while being fitted to the stud 120 .

In particular, when both walls of the stud coupling part 131 are inclined inward, the stud coupling part 131 may be firmly bound to the stud 120 due to its own elasticity, and this point is also within the scope of the present embodiment. should be said to belong.

However, it can be said that the binding force to the stud 120 is large only by the shape of the stud coupling part 131 . If the stud coupling portion 131 is easily separated from the stud 120 , the fixing effect of the insulator 112 is inevitably reduced.

In other words, when the binding force of the stud coupling portion 131 to the stud 120 is high, the insulation fixing clip 130 does not easily separate from the stud 120 , and only then, the fixing effect of the insulation material 112 can be increased.

For this purpose, that is, in order to improve the binding force of the stud coupling part 131 with respect to the stud 120 , the stud coupling force improving part 135 is provided in the stud coupling part 131 . The stud binding force improving part 135 is provided to be cut and bent from the wall of the stud coupling part 131 and is symmetrically disposed on both sides of the wall of the stud coupling part 131 .

Therefore, when the stud coupling part 131 of the insulating material fixing clip 130 is coupled to the stud 120 as shown in FIGS. 4 and 5 , the stud coupling force improving part 135 is provided on both walls of the stud coupling part 131 . Since it is shaped to support the wall of the stud 120 , the binding force of the stud coupling portion 131 to the stud 120 may be increased.

The insulator support part 132 is connected to the stud coupling part 131 and serves to support the insulator 122 disposed between the studs 120 . In the present embodiment, the insulating material support 132 may include a first insulator supporting wing 132a and a second insulator supporting wing 132b.

The first insulator supporting wing portion 132a is provided to extend from one side of the stud coupling portion 131 and supports the outer wall of the insulator 122 at the corresponding position.

Of course, a portion of the first insulator supporting wing portion 132a may support the insulator 122 while being inserted into the insulator 122 .

The second insulator supporting wing 132b extends from the end of the first insulator supporting wing 132a, and is disposed at a different angle from the first insulator supporting wing 132a, and the insulator ( It serves to support the outer wall of the 122) or to support it while a part is inserted into the insulator (122).

A fold line 132c between the first and second heat insulator support wing parts 132a and the second heat insulator support wing 132b so that the angles of the first and second heat insulator support wing parts 132a and 132b are different from each other. this is formed

At this time, the second insulator supporting wing 132b is inclined closer to the insulator 122 than the first insulator supporting wing 132a. Therefore, as schematically shown in FIG. 5 , unlike the first insulator supporting wing 132a that mainly supports the outer wall of the insulator 122 , the second insulator supporting wing 132b is partially in It can be seen that the insulating material 122 is supported while being inserted.

In this embodiment, the length of the wing portion 132a for supporting the first insulation material and the wing portion 132b for supporting the second insulation material are provided to be the same. However, there is no relation even if the length of one of the first and second heat insulating material support wing portions (132a, 132b) is longer than the length of the other.

In addition, since the insulating material fixing clip 130 of this embodiment is processed into the shape of FIGS. 1 and 2 using a thin iron plate as described above, structural strength may be weak. In order to compensate for this, the reinforcing rib 134 is will be prepared The reinforcing rib 134 is provided in the form of a belt in some regions of the first and second insulator supporting wing portions 132a and 132b and the stud coupling portion 131 to reinforce the member. The shape of FIGS. 1 and 2 with respect to the insulating material fixing clip 130 does not change due to the reinforcing rib 134 .

The insulator holder part 133 is provided at the end of the insulator support part 132 and serves to fix the insulator 122 in a state in which at least a portion is inserted into the insulator 122 .

The insulator holder part 133 is formed to be bent at the end of the insulator support part 132 along the direction in which the stud coupling part 131 is coupled to the stud 120 . In this embodiment, the insulating material holder part 133 includes a first hook holder (133a) and a second hook holder (133b).

The first hook holder 133a is used as a part in which the insulator holder part 133 is caught by the heat insulator 122 while being inserted into the insulator 122 and prevents separation. Since the insulator 122 is in the form of a fiber, the position may be fixed while being caught by the first hook holder 133a inserted into the insulator 122 .

The second hook holder 133b is a portion in which the heat insulating material holder part 133 is continuously provided to the first hook holder 133a along the direction in which the first hook holder 133a is inserted into the heat insulating material 122 . The second hook holder 133b is caught by the insulator 122 while being inserted into the insulator 122 together with the first hook holder 133a to prevent separation. In other words, in the present embodiment, the heat insulating material 122 can be stably fixed due to the dual device of the first hook holder 133a and the second hook holder 133b.

In addition, in the present embodiment, the insulating material support part 132 and the insulating material holder part 133 are symmetrically disposed on both sides of the stud coupling part 131 as a pair. Therefore, it may be advantageous to stably fix the insulators 122 on both sides of the studs 120 at once.

Hereinafter, the process of constructing the drywall structure as shown in FIG. 5 will be described.

First, the upper runner 111 is installed on the ceiling of the space of the building for the construction of the drywall structure, and the lower runner 112 corresponding to the upper runner 111 is installed on the floor of the space.

Next, a plurality of studs 120 constituting the skeleton of the drywall structure are vertically disposed between the upper and lower runners 111 and 112 . Since the size of the insulating material 122 and the first and second finishing panels 124a and 124b is standardized, the plurality of studs 120 are arranged at a predetermined distance from each other.

Next, the first finishing panel 124a is installed on one side of the studs 120 (S13). The first finishing panel 124a may be fixed to the studs 120 with screws.

Next, the insulating material 122 is disposed between the studs 120 at the opposite position of the first finishing panel 124a. At the same time or after that, the insulation material fixing clip 130 of this embodiment described above is coupled to the studs 120 so that the insulation material 122 adjacent to the studs 120 is fixed by the insulation material fixing clip 130 .

This step (S15) will be described in more detail. When the stud coupling part 131 is pushed against the stud 120, the stud coupling part 131 can be easily coupled to the stud 120. The binding force of the stud coupling portion 131 is increased. In this process, the insulator holder part 133 having a sharp tip is inserted into the insulator 122 to fix the insulator 122 at the corresponding position. Therefore, the heat insulating material 122 does not flow down by its own weight.

When the fixing of the insulating material 122 by the insulating material fixing clip 130 is completed, the second finishing panel 124b is installed on the exposed surface of the insulating material 122 to finish the wall.

According to this embodiment, which acts in the structure as described above, the insulating material 122 disposed between the studs 120 can be effectively fixed so as not to sag or flow down by its own weight.

6 and 7 are modified examples of the insulating material holder in the insulating material fixing clip according to another embodiment of the present invention.

In the above-described embodiment, the insulating material holder part 133 was manufactured to have a structure including the first hook holder 133a and the second hook holder 133b as shown in the enlarged picture of FIG. 2 .

However, in the embodiment of FIGS. 6 and 7 , the insulating material holder parts 233 and 333 include only the first hook holders 233a and 333a.

Instead, the insulating material holder part 233 of FIG. 6 forms an inclined surface 233b inclined in a straight line to the rear of the first hook holder 233a, and the insulating material holder part 333 of FIG. 7 is the first hook holder An inclined surface 333b inclined in a curved shape to the rear of the 333a is formed. These inclined surfaces 233b and 333b may serve to guide the first hook holder 233a to be well embedded in the heat insulating material 122 .

Even if the embodiment of Figs. 6 and 7 is applied, the effect of the present invention can be provided in which the insulating material 122 disposed between the studs 120 can be effectively fixed so as not to sag or flow down by its own weight.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations fall within the scope of the claims of the present invention.

111: upper runner 112: lower runner
120: stud 122: insulation
124a, 124b: finishing panel 130: insulating material fixing clip
131: stud coupling part 132: insulation support part
132a: wing portion for supporting the first insulation material 132b: wing portion for supporting the second insulation material
132c: fold line 133: insulation material holder part
133a: first hook holder 133b: second hook holder
134: reinforcing rib 135: stud binding force improvement part

Claims (15)

a stud coupling part coupled to one side of the studs constituting the skeleton of the drywall structure;
an insulating material support part connected to the stud coupling part and supporting the insulating material disposed between the studs; and
a heat insulating material holder provided at an end of the heat insulator supporting part and fixing the heat insulator in a state in which at least a portion is inserted into the heat insulator;
The insulating material support portion,
a wing portion for supporting a first insulation material provided to extend from one side of the stud coupling portion and supporting an outer wall of the insulation material at the corresponding position; and
A second insulator extending from the end of the wing for supporting the first insulator and disposed at a different angle from the angle of the wing for supporting the first insulator, supporting the outer wall of the insulator at the corresponding position or a second insulator supported while being partially inserted into the insulator Includes a support wing,
The length of the wing portion for supporting the first insulation material and the wing portion for supporting the second insulation material are provided to be the same,
Reinforcing ribs for reinforcing the member are provided in some regions of the first and second insulating material supporting wing portions and the stud coupling portion,
The insulator holder part is formed to be bent at the end of the insulator support part along the direction in which the stud coupling part is coupled to the stud, and is caught by the insulator in a state in which it is inserted into the insulator, and a first hook holder to prevent separation. Insulation material fixing clip characterized by. delete According to claim 1,
A folding line is formed between the wing portion for supporting the first insulation material and the wing portion for supporting the second insulation material. Insulation material fixing clip, characterized in that. delete delete According to claim 1,
The insulator holder part is continuously provided to the first hook holder along the direction in which the first hook holder is inserted into the heat insulator, and is caught by the heat insulator while being inserted into the heat insulator together with the first hook holder. Insulation material fixing clip, characterized in that it further comprises a second hook holder to be blocked. According to claim 1,
The insulating material fixing clip, which is provided on the stud coupling part, and further comprises a stud binding force improving part for improving the binding force with the stud. 8. The method of claim 7,
The stud binding force improving part is provided to be cut and bent from the wall of the stud coupling part, and the insulation fixing clip, characterized in that it is symmetrically disposed on both sides of the wall of the stud coupling part. According to claim 1,
The insulating material fixing clip, characterized in that the insulator support part and the insulating material holder part are symmetrically disposed on both sides of the stud coupling part as a pair. delete delete delete delete delete delete

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