KR101920078B1 - Preventing separation of the insulation material of the partition wall with the stud and its construction method - Google Patents

Abstract

An object of the present invention is to provide a heat insulating material separation preventing stud of a partition wall capable of shortening the working time and increasing production efficiency because the heat insulating material can be prevented at the same time and the heat insulating material can be prevented from being separated, and a constructing method thereof. The heat insulating material separation preventing stud of the partition wall according to the present invention is provided with upper and lower runners (10, 20) horizontally on a ceiling and the bottom surface for partitioning an indoor space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an insulating material for a partition wall,

The present invention relates to a heat insulating material detachment stud for a partition wall and a method of constructing the same, and more particularly, to a heat insulating material detachment preventing stud and a method of inserting the heat insulating material to prevent detachment of the heat insulating material due to abrasion of the wall due to the flowing down of the heat insulating material joined between the stud and the stud. It is possible to prevent deterioration of insulation and degradation of sound insulation due to local cooling and heating due to dislocation and it is unnecessary to fix a heat insulating material as a separate process by a worker while holding a separate heat insulating fixing pin in the field, And a method of constructing the same. The present invention also relates to a method of manufacturing the same.

Generally, a commercial building is constructed with a large internal space, so that occupants of the building divide it into an appropriate space according to needs. In this case, the partition dividing the internal space is easy to install, has good durability, Insulation, insulation and soundproofing shall be excellent. Nowadays, besides commercial facilities, residential buildings also have walls with varying structure, and various dividers are installed so that they can be tailored to the taste of consumers.

Such gypsum board assemblies are widely used as partitioning compartments for buildings. The gypsum board assembly has a structure in which a gypsum board is assembled on the front and rear surfaces of several studs arranged at regular intervals along the partition surface of the room and a heat insulating material is embedded between the gypsum boards, Insulation is built in between the gypsum boards. The gypsum board assembly having such a structure is continuously installed along the inner partition surface, so that a desired indoor space can be divided into a desired small space.

A typical example of the conventional gypsum board assembly and the partition constructed by the gypsum board assembly will be briefly described below.

A plurality of studs for forming a partition for the compartment of the indoor space are installed at regular intervals along the partition surface of the interior space, and the gypsum boards are assembled to be spaced apart from each other on the front and rear surfaces of the studs, And a gypsum board is attached to the outer side of the gypsum board.

In addition, the space between the gypsum board and the gypsum board is embedded with a heat insulating material supported by a plurality of heat insulating material fixing pins. The heat insulating material fixing pins are attached to the inner wall surfaces of one or both of the gypsum boards provided on the front and rear surfaces of the studs in a lattice form with an adhesive or the like and the heat insulating material is fixed by the several heat insulating material fixing pins.

Prior to fixing to such an insulator fixing pin, the heat insulator is joined so as to be matched between the stud and the stud. This is for sound insulation, insulation and insulation. Then, as described above, since the heat insulating material fixing pin is coupled and fixed to the front and rear surfaces of the stud in a state where the heat insulating material fixing pin is coupled to the inside of the gypsum board by an adhesive or an adhesive sticker, the downward movement of the heat insulating material due to the load Can be prevented.

However, when the adhesive function of the adhesive material or the adhesive sticker is lowered, the insulator fixing pin has a problem that the gypsum board bonded to the front and rear surfaces of the stud protrude from the front surface due to the downward movement of the heat insulating material. .

In addition, since such a heat insulating material fixing pin has to be connected to the worker through an adhesive material or an adhesive sticker in the field, the work is troublesome, the working time is increased, and the total air time is increased, .

The width of the runner and the stud, which are basically installed to install the partition, is determined according to the thickness of the wall. In this case, the insulation always has a constant thickness, so that when the narrow wall is constructed, However, when the width of the wall is large, the space in the stud where the heat insulating material is installed is formed to be large, so that the heat insulating material layer and the air layer are concurrently, and therefore the soundproofing, , There is a problem that additional work must be performed due to poor insulation of the insulation from the outside of the gypsum board.

In this case, when the space of the stud where the heat insulating material is applied is large, a secondary operation is required to fix the heat insulating material to the position where the heat insulating material is installed by using a separate nail or pin from the outside of the gypsum board after completion of the construction, The time is increased and the difficulty is doubled, and there is a problem that the quality of the finish material such as wallpaper is deteriorated due to the work outside the gypsum board.

Korean Patent Registration No. 10-0431653, registered on May 4, 2004.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a heat insulating material by forming a heat insulating material detachment preventing means integrally on one side of a stud, It is possible to prevent detachment of the heat insulating material only by installing the stud without the need of fixing the heat insulating material, and it is easy to strengthen the bonding with the stud of the heat insulating material and has excellent workability on the spot and the wall is caused by flowing down of the heat insulating material regardless of the width of the stud It is possible to prevent deterioration of insulation and degradation of sound insulation due to local cooling and heating due to removal of heat insulating material due to development or detachment of heat insulating material and to prevent the heat insulating material from being separated at the same time in the field, And a method of constructing the same. It has its purpose.

Further, the present invention eliminates the need for a separate heat-insulating fixing pin, thus eliminating the need to manufacture and installing a heat-insulating fixing pin and eliminating the loss of parts due to the fact that the heat-insulating fixing pin is not needed. It is another object of the present invention to provide a partition for preventing the detachment of the heat insulating material from deteriorating the construction quality due to deterioration of the adhesive force of the insulator fixing pin even after construction and a method of constructing the same.

In order to attain the above object, the heat insulating material detachment prevention stud of the partition wall according to the present invention is characterized in that upper and lower runners (10, 20) are installed horizontally on a ceiling and a bottom surface for partitioning an indoor space, Shaped cross section vertically between the upper and lower runners 10 and 20 in correspondence with the distance corresponding to the width of the heat insulating material 40 and the finishing material 50 for forming the wall on the upper and lower runners 10 and 20, A partition wall in which a stud 30 is installed and a heat insulating material 40 is fitted between the stud 30 and adjacent studs and a finishing material 50 is coupled to the front and rear surfaces of the stud 30, The heat insulating material 40 of the stud 30 is cut in the horizontal direction so as to be bent toward the heat insulating material on one side corresponding to the left and right end portions or is cut in the vertical direction so that the upper side is bent toward the heat insulating material to prevent flow- To be And the heat insulating material separation preventing means (100) penetrating the left and right end portions of the heat insulating material.

Here, the heat-insulating material separation preventing means 100 is formed so that the left and right end portions of the heat insulating material 40 are cut in a horizontal "C" shape so as to be bent toward the heat insulating material on one side of the corresponding stud 30, An incision 110 formed in the form of " ┓ ┓ "; A separation preventing member 120 having a leading end infiltration part 122 formed at an acute angle to facilitate penetration of left and right ends of the heat insulating material 40 at the tip inside the incision part 110; The insertion of the heat insulating material 40 to the joint portion of the stud 30 corresponding to the left and right ends of the heat insulating material 40 and the extending portion of the escape preventing member 120 extends to the right and left of the heat insulating material 40, And a connecting infiltration curved line (130) is formed to facilitate penetration of the part (122) into the heat insulating material.

The gripping infiltration curved line 140 may be further formed between the connection infiltration curved line 130 formed at the connection part of the release prevention member 120 and the end infiltration part 122 of the release prevention member 120, The leading end infiltration part 122 is further penetrated from the gripping infiltration curved line 140 to the left and right end portions of the heat insulating material 40 to a depth corresponding to the length of the leading end infiltration part 122, 40) is further improved.

When the stud 30 is formed to have a width greater than the thickness of the heat insulating material 40 and the release preventing member 120 is formed to have a size corresponding to the width of the stud 30, The end penetration portion 122 is formed so as to be penetrated while pressing one surface of the front and rear surfaces of the left and right end sides of the heat insulation material 40.

The upper and lower runners 10 and 20 are horizontally disposed on the ceiling and the floor for partitioning the indoor space, and the upper and lower runners 10 and 20 20 having a plurality of vertically extending cross sections between the upper and lower runners 10, 20 in correspondence with the distance corresponding to the width of the heat insulating material 40 for forming the wall and the finishing material 50 A method of constructing a partition wall in which a heat insulating material is fitted between a stud and an adjacent stud and a finishing material is coupled to front and rear surfaces of the stud, (S100) for partitioning the indoor space and selecting the position of the partition wall; A runner installing step (S200) of installing the upper and lower runners (10, 20) horizontally parallel to the ceiling and the bottom surface on the ceiling and bottom surface of the selected location through the positioning step; A plurality of studs 30 are vertically arranged between the upper and lower runners 10 and 20 installed through the runner mounting step in accordance with a distance corresponding to the width of the heat insulating material 40 and the width of the finish material 40 (S300); A heat insulating material attaching step S400 of inserting the heat insulating material 40 between the upper and lower runners 10 and 20 so as to match the left and right end portions of the heat insulating material 40 to the stud 30, Wow; The end inserting portion 122 of the release preventing member 120 of the heat insulating material separating preventing means 100 formed in the stud 30 penetrates the left and right end portions of the heat insulating material 40 through the heat insulating material joining step The end penetration portion 122 of the release prevention member 120 may be bent so that the insulation infiltration member 120 is folded on the basis of the connection infiltration curved line 130 so as to prevent the insulation member 40 from flowing down or being separated by the load between the studs 30, The perforation penetration curved line 140 is further formed between the perforation inflection curved line 140 and the end infiltrated part 122 to the left and right ends of the heat insulating material 40 to have a depth corresponding to the length of the distal infiltrated part 122 (S500); And a finishing step (S600) of finishing the finishing material 50 to correspond to the front, rear, left, and right surfaces of the stud 30.

The detachment preventing means may be formed in such a manner that the width of the stud 30 is greater than the width of the stud 30 so that the detachment preventing member 120 is formed to have a width corresponding to the width of the stud 30, The distal end infiltration portion 122 bent from the gripping infiltration folding line 140 may be pressed against one side of the front and back sides of the left and right end sides of the heat insulating material 40, (S500 '). ≪ / RTI >

According to the present invention, it is possible to prevent the detachment of the heat insulating material only by installing the stud without the necessity of fixing the heat insulating material by the separate adhesive heat insulating material fixing pin by integrally forming the heat insulating material separation preventing means on one side of the stud, It is possible to prevent deterioration of insulation and degradation of sound insulation due to local cooling and heating due to unloading of the wall due to the running of the wall due to the flow of the insulating material and detachment of the heat insulating material regardless of the width of the stud, It is possible to shorten the working time and increase the production efficiency because it is possible to prevent the heat insulating material from being separated at the same time with the construction of the insulation material in the field, and it is not necessary to manufacture and install the heat insulating material fixing pin, There is no loss of parts due to unnecessary, and therefore, It is possible to minimize the economic loss caused by the heat insulating material fixing pin and to prevent the deterioration of the construction quality due to the deterioration of the adhesive force of the heat insulating material fixing pin.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view of a heat insulating material separation preventing stud of a partition wall according to the present invention; FIG.
2 is a side sectional view of an entire construction of a heat insulating material separation preventing stud of a partition wall according to the present invention.
3 is an enlarged perspective view of a substantial part of a heat insulating material separation preventing stud of the partition wall according to the present invention.
4 is an enlarged plan sectional view of a substantial part of a heat insulating material separation preventing stud of a partition wall according to the present invention.
5 is a perspective view showing another embodiment of a heat insulating material separation preventing stud of the partition wall according to the present invention.
6 is a side sectional view of another embodiment of a heat insulating material separation preventing stud of the partition wall according to the present invention.
7 is a block diagram of a method of constructing a heat insulating material separation preventing stud of a partition wall according to the present invention.
8 is a block diagram of another method of constructing a heat insulating material separation preventing stud for a partition wall according to the present invention.
FIG. 9 is a perspective view showing an embodiment of a release preventing member of another method of installing a heat insulating material detachment prevention stud in a partition wall according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in many different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention and to fully disclose the scope of the invention to a person having ordinary skill in the art to which the present invention belongs. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. And, the terms used (hereafter) used herein are intended to illustrate the embodiments and are not intended to limit the invention in any way. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like elements throughout.

FIG. 1 is a perspective view of an entire construction of a heat insulating material detachment prevention stud of a partition wall according to the present invention, FIG. 2 is a side view of a total installation side view of a heat insulating material separation preventing stud of a partition wall according to the present invention, FIG. 4 is an enlarged side sectional view of a substantial part of a heat insulating material separation prevention stud of the partition wall according to the present invention, FIG. 5 is a perspective view showing another embodiment of a heat insulating material separation preventing stud of the partition wall according to the present invention 7 is a block diagram of a method of constructing a heat insulating material separation preventing stud of a partition wall according to the present invention and FIG. 8 is a block diagram of another method of inserting a heat insulating material separation preventing stud of the partition wall according to the present invention , Fig. 9 is a view showing an embodiment of a release preventing member of another method of applying a heat insulating material separation preventing stud for a partition wall according to the present invention Fig.

The heat insulating material detachment prevention stud of the partition wall according to the present invention does not require the use and process of a separate adhesive heat insulating material fixing pin and is integrally formed on the stud itself so as to prevent the heat insulating material from flowing down, Which can achieve an excellent quality of installation, excellent sound insulation, excellent sound insulation, and excellent insulation performance, can be easily installed, is more economical, can shorten the installation time of the partition and improves the efficiency of construction, The upper and lower runners 10 and 20 are provided with a ceiling for partitioning the space and horizontally and horizontally on the floor surface and a heat insulating material 40 for forming a wall on the upper and lower runners 10 and 20, A plurality of studs 30 having a plurality of " C " shaped cross sections are vertically arranged between the upper and lower runners 10 and 20 at a distance corresponding to the width of the stud 30, 1 and 2, the heat insulating material 40 of the stud 30 is fitted in the partition wall in which the heat insulating material 40 is fitted and the front and rear faces of the stud 30 are coupled with the finishing material 50, Is cut in the horizontal direction so as to be bent toward the heat insulating material on one side corresponding to the left and right ends or is cut in the vertical direction so that the upper side is bent toward the heat insulating material so that the heat insulating material is infiltrated into the left and right ends of the heat insulating material so as to prevent the falling- The departure-preventing means 100 is formed.

3 and 4, the heat insulating material separation preventing unit 100 includes a cutout 110, a release preventing member 120, and a continuous infiltration curved line 130. As shown in FIG.

The cutout part 110 is formed to be bent toward the heat insulating material 40 to be described later so that the left and right end parts of the heat insulating material 40 are bent to the heat insulating material side on one surface of the corresponding stud 30, As shown in Fig. 5 and Fig. 6, or in the form of a "vertical" direction so that the upper side is bent toward the heat insulating material. The portion that does not form the cutout portion 110 is a connected infiltration curved line 130 that is formed integrally with a vertical surface with the bent front and rear surfaces of the stud 30 having a "C" shape in cross section.

Here, the connection infiltration curved line 130 is formed by a separation preventing member, which will be described later, as a reference line for bending toward the heat insulating member in a state where the separation preventing member 120 is integrated with the stud, to prevent the heat insulating material from escaping from the studs Respectively.

The release preventing member 120 is formed inside the cut-out portion 110 and is formed with an acute angle end penetrating portion 122 for facilitating penetration of the left and right end portions of the heat insulating material 40. The distal end penetration portion 122 of the release preventing member 120 may be formed in various shapes such as a fork shape, a right triangle shape, a wedge shape, and an arrow shape.

As described above, the connection infiltration curved line 130 is formed in the left and right sides of the heat insulating material so that the release preventing member 120 formed between the cutouts 110 can easily penetrate into the left and right end faces of the heat insulating material 40. [ The heat insulating material 40 is separated from the left and right sides of the heat insulating material 40 along with the one side of the stud 30 corresponding to the left and right end portions of the heat insulating material 40, The leading end penetrating portion 122 of the preventing member 120 is formed so as to easily penetrate into the heat insulating material.

3 to 6, when the jointed infiltration curved line 130 formed in the connecting portion of the separation preventing member 120 and the distal infiltrated portion 122 of the separation preventing member 120 are gripped, The infiltration curved line 140 is further formed so that the leading end infiltration part 122 penetrates the left and right end parts of the heat insulating material 40 from the gripping infiltration curved line 140 to a depth corresponding to the length of the leading infiltration part 122 So that the release preventing member 120 is provided to further improve the holding force of the heat insulating material 40.

9, when the width of the stud 30 is formed to be larger than the thickness of the heat insulating material 40 and the release preventing member 120 is formed to have a size corresponding to the width of the stud 30, The end penetration portion 122 bent from the infiltration curved line 140 is formed so as to penetrate one side of the front and rear surfaces of the left and right end sides of the heat insulating material 40, One of the faces corresponds to one of the front and rear faces of the stud, and the opposite face, which does not correspond to any one of the front and rear faces of the stud, is held by the front and rear faces of the heat insulating material, 122) is fixed to one of the front and rear surfaces of the heat insulating material.

As shown in FIGS. 3 and 4, the stud 30 according to the present invention has a structure in which when the heat insulating material separation preventing means 100 is formed in a transverse shape, the stud 30 penetrates and is fixed to left and right ends of the heat insulating material, As shown in Fig. 9, it is possible to fix the heat insulating material in place by gripping the left and right end portions of the heat insulating material while grasping the left and right end portions of the heat insulating material to grip the left and right end portions of the heat insulating material by hand, There is no distortion due to the insulation load even after the lapse of time.

5 and 6, when the heat insulating material separation preventing means 100 is formed in a vertical shape, the heat insulating material separation preventing means performs the same function as a wedge so that the heat insulating material is prevented from being downwardly tilted by the load It is possible to prevent the deterioration of the quality of the construction due to the folding phenomenon caused when the heat insulating material is moved to the downward position after the construction.

As shown in the block diagram of FIG. 7, the method for constructing the heat-insulating material separation preventing stud of the partition wall according to the present invention includes a ceiling for partitioning the indoor space and a horizontal The upper and lower runners 10 and 20 are provided with upper and lower runners 10 and 20 in correspondence with a distance corresponding to the width of the heat insulating material 40 for forming a wall and the finish material 50, A plurality of studs 30 having a plurality of vertically-shaped cross sections are installed between the studs 30 and the adjacent studs 30 and the heat insulating material 40 is fitted between the adjacent studs 30, A step of inserting a step S300, a step of inserting a heat insulating material S400, a step of inserting a heat insulating material S400, a step of inserting a heat insulating material S400, (S500), and the finishing step (S600), when the partition wall is constructed, It is possible to secure the excellent quality of construction quality by preventing the falling of the wall due to the load, preventing the poor construction of the wall due to the pumping phenomenon caused by the load, maintaining the insulation by fixing the fixed position of the insulation, soundproofing and insulating property.

The positioning step (SlOO)

The indoor space of the building is partitioned and the partition wall of the indoor space to be partitioned is selected.

remind The runner installing step (S200)

The upper and lower runners (10, 20) are horizontally installed parallel to the ceiling and the floor surface on the ceiling and bottom surface of the selected location through the positioning step.

remind Stud In the step S300,

A plurality of studs 30 are vertically arranged between the upper and lower runners 10 and 20 installed through the runner mounting step in accordance with a distance corresponding to the width of the heat insulating material 40 and the width of the finish material 40. Here, the stud 30 corresponds to a frame for fixing the heat insulating material and the finishing material in the space to be divided, and the number of the studs to be installed is determined in the space to be divided in consideration of the width of the heat insulating material and the finishing material.

The insulator joining step (S400)

A heat insulating material 40 is provided between the upper and lower runners 10 and 20 and the studs 30 installed between the upper and lower runners 10 and 20 so that the left and right ends of the heat insulating material 40 are coupled to the stud 30. In this case, the studs are formed such that one side of the heat insulating material is inserted into the inside of the stud, and the other side is formed in a shape corresponding to the outside of the stud .

The step S500 of combining the departure prevention means

The end inserting portion 122 of the release preventing member 120 of the heat insulating material separating preventing means 100 formed in the stud 30 penetrates the left and right end portions of the heat insulating material 40 through the heat insulating material joining step The end penetration portion 122 of the release prevention member 120 may be bent so that the insulation infiltration member 120 is folded on the basis of the connection infiltration curved line 130 so as to prevent the insulation member 40 from flowing down or being separated by the load between the studs 30, The perforation penetration curved line 140 is further formed between the perforation inflection curved line 140 and the end infiltrated part 122 to the left and right ends of the heat insulating material 40 to have a depth corresponding to the length of the distal infiltrated part 122 So that the heat insulating material is fixed to the studs so that they remain intact even when they are flown for a long period of time.

In this case, the above-mentioned heat insulating material corresponds to the front and rear width of the inside of the stud, and the bent portion constituting the front and rear sides of the stud surrounds the left and right end sides and the end side front and rear faces of the heat insulating material. The insulator of the form that is full of the front and rear width of the stud is applied at the time of joining. That is, when the width of the inner side of the stud is the same as the thickness of the heat insulating material, the releasing preventing member 120 of the heat insulating material separating preventing means 100 is folded along the front and back sides of the stud, By simply bending to the end of the insulation by reference, the insulation is fixed in place.

However, as shown in Fig. 9, the inner front and rear width of the stud is formed to be larger than that of the heat insulating material, and the heat insulating material separation preventing means 100 formed on the stud is formed to have a size corresponding to the inside longitudinal width of the stud, When the infiltration preventing member 120 of the heat insulating material separation preventing means 100 is difficult to penetrate into the infiltration preventing curved portion 130 of the end penetrating portion 122 and the grip infiltration curved line 140 formed between the leading end infiltrating portion 122 and the connected infiltration curving line 130, And then the front infiltration portion 122 is infiltrated and fixed to the front and rear surfaces of the end portion of the heat insulating material together with the grip of the heat insulating material. ) Is replaced with the step of joining the departure preventing means.

That is, in the release preventing means grip penetration step 500 '

The detachment preventing means may be formed in such a manner that the width of the stud 30 is greater than the width of the stud 30 so that the detachment preventing member 120 is formed to have a width corresponding to the width of the stud 30, When the width of the separation preventing member 120 is smaller than the width of the separation preventing member 120, the leading end infiltration part 122 bent from the gripping infiltration curved line 140 penetrates while pressing one of the front and back surfaces of the left and right end sides of the heat insulating material 40 , And when the thickness of the heat insulating material is smaller than the length of the stud and the heat insulating material separation preventing means 100, the heat insulating material is applied according to the order of the block diagram of FIG. 8, and this can be installed as shown in FIG.

Meanwhile, the step of engaging the release preventing means and the step of penetrating the gripping preventing means may serve as a wedge in which the heat insulating material is prevented from flowing downward when vertically formed, so that the heat insulating material can be maintained in a fixed position for a long time do.

The finishing step (S600)

The finishing material 50 is joined to the front and rear surfaces of the stud 30 in correspondence with each other. After that, wallpaper and various interior films can be applied and finished. Although the gypsum board is generally used as the finishing material, it has recently been changed to a non-combustible material that is more beneficial to fire and human body, and also to an environmentally friendly material.

In addition, since the finishing material provided through the finishing step corresponds to a flat flat surface of which the left and right ends of the stud are bent, it is possible to construct an even surface without a difference in level between the finishing material and the finishing material, And the like.

Accordingly, the stud according to the present invention and the method of using the same according to the present invention are distinguished from the type of the fixing pin attached to the inside of the finishing material by the conventional adhesive or adhesive sticker to fix the heat insulating material. It is not necessary to reduce the labor cost and the stud construction and to fix the insulation at the same position at the same time, thus reducing the construction time, improving the construction efficiency, and constructing the construction quality with high quality.

In addition, it is possible to maintain the original construction quality as it is after a long time, and it is obvious that it can maintain the heat insulation, insulation and sound insulation effect continuously. Since there is no need to carry out the field work with a separate part of the insulation pin, The construction time can be increased and the economic loss can be minimized.

Furthermore, it is possible to prevent the deterioration of the construction quality caused by the downward deflection or the folding due to the load of the heat insulating material due to the detachment of the heat insulating material fixing pin due to the deterioration of the conventional adhesive force, .

While the present invention has been described in detail with reference to the embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope and spirit of the invention. And embodiments of the present invention.

10, 20: Upper and lower runner 30: Stud
40: Insulation 50: Finishing material
100: Heat insulating material separation preventing means 110:
120: release preventing member 122:
130: concurrent penetration curve 140: phage penetration curve
S100: Position selection step S200: Runner installation step
S300: Step of inserting stud S400: Insulation joining step
S500: Combination of departure prevention means S500 ': Departure prevention means Phage penetration step
S600: Finishing step

Claims (6)

The upper and lower runners 10 and 20 are installed horizontally on the ceiling and the bottom surface for partitioning the indoor space and the heat insulating material 40 and the finishing material 50 for forming a wall are formed on the upper and lower runners 10 and 20, A plurality of studs 30 having a plurality of " C " shaped cross sections are vertically arranged between the upper and lower runners 10 and 20 in correspondence with a distance corresponding to the width of the stud 30, In which a heat insulating material (40) is fitted, and a finishing material (50) is coupled to the front and rear surfaces of the stud (30)
The heat insulating material 40 of the stud 30 is cut in the horizontal direction so as to be bent toward the heat insulating material on one side corresponding to the left and right ends or is cut in the vertical direction so that the upper side is bent toward the heat insulating material to prevent flow- (100) penetrating the left and right end portions of the heat insulating material so as to prevent the heat insulating material from falling off.
The method according to claim 1,
The heat insulating material separation preventing means 100 is formed so that the left and right end portions of the heat insulating material 40 are cut in the horizontal direction "C" so as to be bent toward the heat insulating material on one side of the corresponding stud 30, An incision 110 cut in a " ┓ "shape;
A separation preventing member 120 having a leading end infiltration part 122 formed at an acute angle to facilitate penetration of left and right ends of the heat insulating material 40 at the tip inside the incision part 110;
The insertion of the heat insulating material 40 to the joint portion of the stud 30 corresponding to the left and right ends of the heat insulating material 40 and the extending portion of the escape preventing member 120 extends to the right and left of the heat insulating material 40, And a connecting infiltration curved line (130) is formed to facilitate penetration of the part (122) into the heat insulating material.
3. The method of claim 2,
A gripping infiltration curved line 140 is further formed between a concatenated infiltration curved line 130 formed at a connecting portion of the separation preventing member 120 and a leading infiltration portion 122 of the separation preventing member 120, The portion 122 is further penetrated from the gripping infiltration curved line 140 to the left and right end portions of the heat insulating material 40 to a depth corresponding to the length of the leading infiltration portion 122, So that the engaging force of the partition wall is further improved.
The method of claim 3,
When the stud 30 is formed to have a width larger than the thickness of the heat insulating material 40 and the release preventing member 120 is formed to have a size corresponding to the width of the stud 30, The infiltration part (122) is formed so as to be penetrated while pressing on one side of the front and rear faces of the left and right end sides of the heat insulating material (40)
The upper and lower runners 10 and 20 are installed horizontally on the ceiling and the bottom surface for partitioning the indoor space and the heat insulating material 40 and the finishing material 50 for forming a wall are formed on the upper and lower runners 10 and 20, A plurality of studs 30 having a plurality of " C " shaped cross sections are vertically arranged between the upper and lower runners 10 and 20 in correspondence with a distance corresponding to the width of the stud 30, A method of constructing a partition wall in which a heat insulating material (40) is fitted, and a finishing material (50) is coupled to the front and rear surfaces of the stud (30)
(S100) for partitioning the indoor space and selecting the position of the partition wall;
A runner installing step (S200) of installing the upper and lower runners (10, 20) horizontally parallel to the ceiling and the bottom surface on the ceiling and bottom surface of the selected location through the positioning step;
A plurality of studs 30 are vertically arranged between the upper and lower runners 10 and 20 installed through the runner mounting step in accordance with a distance corresponding to the width of the heat insulating material 40 and the width of the finish material 40 (S300);
A heat insulating material attaching step S400 of inserting the heat insulating material 40 between the upper and lower runners 10 and 20 so as to match the left and right end portions of the heat insulating material 40 to the stud 30, Wow;
The end inserting portion 122 of the release preventing member 120 of the heat insulating material separating preventing means 100 formed in the stud 30 penetrates the left and right end portions of the heat insulating material 40 through the heat insulating material joining step The end penetration portion 122 of the release prevention member 120 may be bent so that the insulation infiltration member 120 is folded on the basis of the connection infiltration curved line 130 so as to prevent the insulation member 40 from flowing down or being separated by the load between the studs 30, The perforation penetration curved line 140 is further formed between the perforation inflection curved line 140 and the end infiltrated part 122 to the left and right ends of the heat insulating material 40 to have a depth corresponding to the length of the distal infiltrated part 122 (S500);
And a finishing step (S600) of finishing the finishing material (50) to correspond to the front, rear, left and right sides of the stud (30).
6. The method of claim 5,
The detachment preventing means may be formed in such a manner that the width of the stud 30 is greater than the width of the stud 30 so that the detachment preventing member 120 is formed to have a width corresponding to the width of the stud 30, When the width of the separation preventing member 120 is smaller than the width of the separation preventing member 120, the leading end infiltration part 122 bent from the gripping infiltration curved line 140 is pressed toward one side of the left and right end side of the heat insulating material 40, (S500 '). The method of claim 1, wherein the step (S500'

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