KR100655890B1 - Drywall system using panel stud and construction method - Google Patents

Abstract

The present invention relates to a drywall system using a stud in the form of a panel to construct the inner and outer walls of a building, and a construction method thereof, wherein a stud is vertically inserted between an upper runner 10 and a lower runner 20, and a stud is installed. In the drywall system in which the finishing material is installed on the inner and outer surfaces after the interior material is filled therebetween, the first stud portion 120 bent perpendicularly to both ends of the steel sheet surface 110 and formed outside the steel sheet surface 110. And a plurality of panel-shaped studs 100 formed integrally with the second stud portion 130 formed inside the steel plate surface 110 are connected in a line, and different from each other connected to the upper portion of the first stud portion 120. The second stud portion 130 of the panel-type stud 100 is characterized in that the combination is configured, the insulation and sound insulation performance with the durability and security of the wall, and the work efficiency according to the panel is very high.

Drywall, Panel Studs, Finish Studs, Pads

Description

Drywall system and its construction method using panel type steel plates}

1 is a perspective view showing a state where a conventional stud is installed.

2 is a perspective view showing a conventional stud shape.

Figure 3 is a perspective view showing the assembled state of the drywall system according to one embodiment of the present invention.

Figures 4a, 4b is a perspective view showing one embodiment of a panel-shaped stud and a finish stud constituting the present invention.

Figure 5a, 5b is a plan view showing the assembled and coupled state of the stud constituting the present invention.

6 is a plan view showing a state in which a double wall is configured by using the stud according to the present invention.

Figure 7 is a perspective view showing a state in which the interior material is inserted into the drywall system according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10: upper runner 20: lower runner

40: finishing material 50: interior material

100: panel stud 200: finish stud

110, 210: steel plate surface 120, 220: first stud portion

121, 221: First web 122, 222: First flange

123: leaf 124: pad insertion groove

130, 230: second stud portion 131, 231: second web

132, 232: second flange 140: pad

150: fixed pin

The present invention relates to a drywall system using steel sheets used for the inner and outer walls of a building, and more particularly, to a drywall system using a panel-shaped stud having studs at both ends of a steel sheet surface, and a construction method thereof.

In general, the steel house is a new type of house that uses cold-rolled steel sheets galvanized as the material of the main structural member. Unlike the steel industrialized houses (steel prefabricated houses) that are active in Japan, the steel house has a plate thickness of 1 Cold rolled steel of about ㎜ is used, and it is a method similar to wood using nails rather than steel frame in that it joins frame members with tapping screws without using bolts or welding. It uses the rescue system used and is rapidly spreading in the United States and Australia.

Looking at the characteristics of these steel houses,

First, it is a lightweight, sturdy seismic housing with excellent shock resistance and durability. That is, since the steel house uses a cold rolled steel sheet used as a material for automobiles as a frame member, it is not only resistant to earthquakes and typhoons, but also excellent in corrosion resistance and durability.

Second, design freedom is very large. In other words, it is easy to change the design, and it is easy to remodel and remodel because of the flexibility.

Third, it is excellent in construction and requires no special equipment. In other words, since both tapping screws and power tools are used in assembly, construction can be performed by simple assembly at a construction site, and lighter and stronger than wood of the same dimensions, thereby increasing the spacing of the frame.

Fourth, iron is recyclable, which is advantageous in terms of environmental protection. In other words, timber, which is a valuable forest resource, is limited to the parts directly contacted by humans, and it is preferable in terms of environmental protection because it uses cold rolled steel sheets that are all recyclable as structural materials.

In recent years, the construction of ramen-jo apartments is expected to increase in line with related legislation, such as easing the floor area ratio, and the use of drywall is expected to gradually increase in place of the existing wetwall due to social conditions such as rising labor costs. Accordingly, there is a demand for drywalls suitable for various parts such as exterior walls, interior walls, and inter-walls of buildings, but the development of drywalls for various uses has been rather sluggish.

Drywall systems are mainly used for drywall using concrete panels or steel studs, but drywalls for concrete panels are heavy and difficult to transport and difficult to carry out on-site processing. Drywall is used and the present invention relates to the latter.

As shown in FIG. 1, a dry wall using a conventional steel stud includes an upper and lower tracks 10 and 20 horizontally installed, a plurality of studs 30 vertically disposed therebetween, and a frame member. It consists of a plywood 40 for the inner and outer structures that are attached to the front and rear of the wall skeleton made as a tapping screw, the insulation effect of the dry wall between the inner groove of the stud 30 and the adjacent stud 30 intervals. Primary and secondary insulations, such as rock wool, should be inserted so that they can be increased.

As shown in FIG. 2, the shape of the stud 30 constituting the drywall installed as above is a web 31 having a wide surface, a flange 32 having a narrow surface curved at both ends thereof, and the flange. It consists of C-shaped steel which consists of the leaf 33 bent at the edge part (12).

However, in the case of the conventional steel stud drywall, excessive or insufficient insulation or gypsum board is used in comparison with the corresponding use, resulting in an increase in cost or a decrease in performance. In order to secure the performance of the drywall systems of different materials as described above may be applied to each other, which acted as a factor of deterioration of construction properties and cost increase.

In addition, if the steel studs are not tightly spaced, the insulator can pass through the walls by deliberately destroying the finishing materials and interior materials made of weak strength. Since the interior material to be inserted into the material should be used as a security material, there was a problem in that the installation cost increases.

In particular, such a conventional steel stud drywall has a problem that the workability is deteriorated when the skill of the skilled man is lacking because it is assembled and installed by actually cutting the stud and the runner in the field.

The present invention has been invented to solve the above conventional problems, by forming the studs in the form of a panel and connecting the panel-type studs to improve the work efficiency in the field, and plays a functional role of the conventional stud The purpose of the present invention is to provide a drywall system using panel-type studs and a construction method thereof, which enhances the security of the steel plate surface as well as inserting pads into the respective stud joints to improve insulation or sound insulation. do.

In the drywall system using the panel-shaped stud of the present invention for achieving the above object, after the stud is vertically inserted between the upper runner 10 and the lower runner 20 and the interior material is filled between the studs, In the drywall system having a finish installed on the outer surface, the first stud portion 120 and the steel plate surface 110 which are bent perpendicularly to both side ends of the steel plate surface 110 are formed outside the steel plate surface 110, respectively. A plurality of panel-shaped studs 100 having the second stud portion 130 integrally connected are installed in a row, and second panels of the different panel-shaped studs 100 are connected to the side portions of the first stud portion 120. Stud 130 is characterized in that the combination is configured.

In addition, the drywall system according to the present invention is bent perpendicularly to both side ends of the steel plate surface 210 of the length to finish between the final panel-like stud 100 and the wall is connected to the steel plate surface (210) The first stud portion 220 and the second stud portion 230 formed inwardly comprises a finishing stud 200 formed integrally, the first stud portion 220 is in contact with the wall The second stud portion 230 is installed and coupled to the side of the first stud portion 120 of the panel-shaped stud 100.

In addition, the dry wall construction method according to the present invention comprises the steps of connecting and coupling a plurality of panel-shaped studs 100 to correspond to the length of the wall; Inserting the upper runner 10 and the lower runner 20 into the upper and lower ends of the panel-like stud 100, respectively; Fastening a portion where the flange 21 of the lower runner 20 and the lower end of each panel-shaped stud 100 are in contact with each other; Sequentially fixing each of the lower runner 20 and the upper runner 10 at predetermined positions on the bottom surface and the ceiling surface; Fastening a portion where the flange 11 of the upper runner 10 and the upper end of each panel-shaped stud 100 are in contact with each other; And inserting the interior material 50 between the panel-shaped studs 10 and finishing the process.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

Figure 3 is a perspective view showing the assembled state of the drywall system according to one embodiment of the present invention, 4a, 4b is a perspective view showing one embodiment of the panel-shaped stud and the finishing stud constituting the present invention, Figure 5a, 5b Figure 6 is a plan view showing a state of assembly and coupling of the studs constituting the present invention, Figure 6 is a plan view showing a state in which a double wall is configured by using the stud according to the present invention, Figure 7 is embedded material in a drywall system according to the present invention Is a perspective view showing the inserted state.

First, the panel-shaped stud 100 according to an embodiment of the present invention, as shown in Figure 4a, the first stud portion 120 and the second stud portion 130 at both ends of the steel plate surface 110 Is formed, the first stud portion 120 is bent perpendicularly to one side (part shown on the right side except the steel plate surface in Figure 4a) of the steel plate surface 110 is formed to the outside of the steel plate surface 110, The two studs 130 are bent perpendicularly to the other side of the steel plate surface 110 (parts shown on the left side except the steel plate surface in FIG. 4A) and are formed inside the steel plate surface 110.

Specifically, the first stud portion 120 is formed with a first web 121 bent vertically on one side of the steel plate surface 110, and outward in parallel with the steel plate surface 110 at the end of the first web 121 The bent first flange 122 is formed. Upper and lower portions of the first flange 122 are screwed to the upper runner 10 and the lower runner 20, respectively.

At this time, the leaf 123 bent inward in parallel with the first web 121 is formed at the end of the first stud portion 120 so that the pad insertion groove 124 is formed. The leaf 123 is to function to better the heat insulation and sound insulation effect by the pad 140.

In addition, the second stud portion 130 is formed with a second web 131 bent perpendicular to the other side of the steel plate surface 110, the width of which is as thick as the thickness of the pad 140 than the width of the first web 121. It is formed short. In addition, a second flange 132 bent in the same direction as the first flange 122 is formed at the end of the second web 131.

Next, the finishing stud 200 shown in Figure 4b is installed between the final panel-like stud 100 and the wall is installed in contact, the width of the steel plate surface 210 is the final panel-shaped stud 100 It is the distance between the first web 121 and the wall of the first stud portion 220 (the right side except the steel plate surface in Figure 4b) and the second stud portion 230 on both sides of the steel plate surface 210 It is similar to the panel stud 100 in that (the left part except the steel plate surface in Fig. 4B) is formed.

However, since the first stud portion 220 should be installed in contact with the wall, the first stud portion 220 is formed inside the steel plate surface 210, and the second stud portion 230 includes the second stud portion constituting the panel stud 100. It is formed in the same structure as 130). That is, only the bending direction of the first stud 220 and the first flange 222 is opposite to the first flange 122 of the panel-shaped stud 100, and the first web 221 and the second stud 230 The second web 231 and the second flange 232 are the same as the panel stud 100.

The coupling relationship between the plurality of panel-shaped studs 100 and one finishing stud 200 configured as described above will be described with reference to FIGS. 5A and 5B.

First, referring to the coupling relationship between the panel-shaped stud 100, the second stud 130 of the other panel-shaped stud 100 on the side of the first stud portion 120 of one panel-shaped stud 100 Combined.

At this time, between the first stud 120 and the second stud portion 130 to be coupled, it is preferable to place a pad 140 made of a member for enhancing the insulation and sound insulation effect. The pads 140 are pressed into each other by the second flange 132 of the second stud portion 130 while being inserted into the pad insertion grooves 124 of the first stud portion 120. ) Will block the transmission of air and sound waves.

The pad 140 may be previously attached to an upper surface of the first flange 122 or a lower surface of the second flange 132.

The plurality of panel-type studs 100 coupled as described above are connected to each other in the same manner, and when the entire width of the panel-type stud 100 is uniformly produced, a space is formed between the walls according to the condition of the wall. In order to seal such a space, it is preferable that the finishing stud 200 connecting the final panel type stud 100 and the wall is added.

Next, looking at the coupling relationship between the panel stud 100 and the finishing stud 200, the second stud portion of the finishing stud 200 on the side of the first stud portion 120 of the final panel stud 100 230 is coupled via the pad 140, the specific coupling relationship is the same as the coupling relationship between the panel-shaped stud (100).

Looking at the dry-wall construction method using the panel-type stud 100 and the finished stud 200 (hereinafter referred to as 'studs 100 and 200') configured as described above are as follows. Hereinafter, for convenience of description, an embodiment using a panel type stud 100 and a finish type stud 200 together will be described. However, the method for constructing a panel type stud according to the present invention includes a case where only the panel type stud 100 is used. do.

(1) After coupling the necessary number of studs (100, 200) according to the length of the wall, the upper runner 10 and the lower runner 20 is fitted to the top and bottom, respectively. At this time, the second web 131 of the first panel-shaped stud 100 and the first web 221 of the finished stud 200 are in contact with the wall.

The height of the panel stud 100 and the finished stud 200 should be such that the diagonal length of the sides is less than the height (ceiling) between the floor and the ceiling. This is to avoid interference with the ceiling when standing in the transverse direction in the construction process.

In addition, the width of the flange 11 of the upper runner 10 should be greater than the height difference between the ceiling and the studs (100, 200). This is to prevent the top of the studs 100 and 200 from being separated from the upper runner 10 attached to the ceiling later. On the other hand, the width of the flange 21 of the lower runner 20 is manufactured to an appropriate length that can support the studs (100, 200).

(2) A screw or the like is fastened to a portion where the flange 21 of the lower runner 20 and the lower portion of the first flanges 122 and 222 of the studs 100 and 200 are in contact with each other. In this case, the clamping force may be increased by fixing the screw to a predetermined position on the opposite flange 21 of the steel plate surfaces 110 and 120 and the lower runner 20 on the opposite side.

Thereafter, by temporarily performing the above fixing operation on the flange 11 of the upper runner 10, it is possible to prevent separation of the studs 100 and 200 connected to each other during the standing operation of the studs 100 and 200.

(3) After performing the ink stroke on the floor surface and the ceiling surface where the wall is installed, the lower runner 20 is fixed to the floor using a shot pin or the like. At this time, the bottom surface and the ceiling surface is preferably smooth enough. Of course, you can do it in advance.

(4) If the flange 11 of the upper runner 10 and the top of the studs 100 and 200 are temporarily fixed, the upper runner 10 is fixed to the ceiling surface using shot pins and the like after the release. . At this time, the top of the stud (100, 200) is maintained in the inserted state inside the upper runner (10).

(5) A screw or the like is fastened to a portion where the flange 11 of the upper runner 10 and the first flanges 122 and 222 of the studs 100 and 200 contact.

At this time, it is preferable to form the perforated portion 12 in the longitudinal direction in advance in the flange 11 portion of the upper runner 10 corresponding to the position where the screw is fastened, and fix the screw or the like to this portion. This is for the wall to cushion the deflection of the ceiling slab after wall installation.

(6) As described above, after the plurality of studs 100 and 200 are installed between the upper runner 10 and the lower runner 20 between the floor and the ceiling, the interior material 50 made of insulation or sound absorbing material may be used as necessary. Insert it. At this time, it is preferable that the interior material 50 is fixed to the steel plate surface 110 using a plurality of fixing pins 150 or the like as a means for preventing the inserted interior material 50 from flowing down. This state is shown in FIG.

(7) After the insertion of the interior material 50 is completed, the finishing material 40 is fixed to the first flanges 122 and 222 of the studs 100 and 200 by using a screw or the like, and then the wallpaper is finished on the surface of the finishing material 40. Construction of drywall is completed by final finishing with paint and paint.

On the other hand, the drywall system according to the present invention can be installed as a double wall, as shown in Figure 6, in addition to the construction of a single wall, as well as to the site of various uses, such as indoor partition wall, generational wall, outer wall. Construction is possible and can be freely installed in openings such as windows and doors.

As described above, the detailed description of the present invention has been described with respect to specific embodiments, which are merely exemplary and various modifications are possible without departing from the scope of the technical idea of the present invention.

As described in detail above, by using the drywall system using the panel-shaped stud of the present invention, the structural performance of the wall by the steel plate can be solved and security problems can be solved, and each panel-type stud and the stud-type stud The pad is inserted into the connection portion of the has the advantage of ensuring excellent housing performance by further increasing the insulation or sound insulation effect. In particular, the stud has a panel shape, and thus the work efficiency is remarkably improved as compared with the conventional drywall system.

Claims (11)

In the drywall system in which a stud is inserted vertically between the upper runner 10 and the lower runner 20 and a finishing material is installed on the inner and outer surfaces after the interior material is filled between the studs. A plurality of first studs 120 formed at both sides of the steel plate surface 110 and vertically bent to the outside of the steel plate surface 110 and the second stud portion 130 formed inside the steel plate surface 110 are integrally formed. Panel-type studs 100 are installed in series in a row, The second stud portion 130 of the different panel-shaped studs (100) which are connected to the first stud portion (120) side portion is coupled to the dry wall system using a panel-shaped stud, characterized in that configured. The method of claim 1, Dry wall system using a panel-shaped stud, characterized in that between the first stud portion 120 and the second stud portion 130, the pad 140 is made of a heat insulating or sound insulation member. The method of claim 2, The first stud portion 120 includes a first web 121 bent perpendicularly to one side of the steel plate surface 110; The first flange 122 bent outward in parallel with the steel plate surface 110 is formed at the end of the first web 121, The second stud portion 130 has a second web 131 and a second web 131 bent in the same direction as the first web 121 as short as the thickness of the pad 140 on the other side of the steel plate surface 110 A second flange 132 bent in the same direction as the first flange 122 is formed at the end, The pad 140 is a drywall system using a panel-type stud, characterized in that disposed between the first flange 122 and the second flange (132). The method of claim 3, Dry wall system using a panel-type stud is characterized in that the leaf 123 is bent inward parallel to the first web 121 at the end of the first flange 122 to form a pad insertion groove 124 . The method according to any one of claims 1 to 4, The height of the panel-shaped stud 100 is a diagonal length of the side is less than the ceiling height, the width of the flange 11 of the upper runner 10 is a panel-shaped stud, characterized in that larger than the difference between the height of the ceiling and the panel-shaped stud 100 Drywall system using The method of claim 5, The first stud portion 220 which is bent perpendicularly to both ends of the steel sheet surface 210 having a length closing the final panel-shaped stud 100 and the wall is connected to each other and formed inside the steel sheet surface 210 and The second stud portion 230 is configured to further include a closed stud 200 formed integrally, The first stud portion 220 is installed in contact with the wall, the second stud portion 230 is a panel-shaped stud, characterized in that coupled to the first stud portion 120 side of the panel-shaped stud 100 is configured Used drywall system. The method of claim 6, Between the first stud portion 120 of the panel-shaped stud 100 and the second stud portion 230 of the finished stud 200, a pad 140 made of a heat insulating or sound insulating member is placed and configured. Drywall system using panel studs. The method of claim 7, wherein The first stud portion 220, the first web 221 bent perpendicular to one side of the steel plate surface 210, the first bent inward parallel to the steel plate surface 210 at the end of the first web 221 1 flange 222 is formed, The second stud portion 230 has a second web 231 and a second web 231 that are bent in the same direction as the first web 221 as short as the thickness of the pad 140 on the other side of the steel plate surface 210 . A second flange 232 bent in the opposite direction to the first flange 222 is formed at the end, The pad 140 is placed between the first flange 122 of the panel-shaped stud 100 and the second flange 232 of the finished stud 200, the drywall system using a panel-type stud, characterized in that configured . In the drywall construction method using the panel-shaped stud 100 of claim 5, Connecting and coupling a plurality of panel-shaped studs 100 to correspond to the length of the wall; Inserting the upper runner 10 and the lower runner 20 into the upper and lower ends of the panel-like stud 100, respectively; Fastening a portion where the flange 21 of the lower runner 20 and the lower end of each panel-shaped stud 100 are in contact with each other; Sequentially fixing each of the lower runner 20 and the upper runner 10 at predetermined positions on the bottom surface and the ceiling surface; Fastening a portion where the flange 11 of the upper runner 10 and the upper end of each panel-shaped stud 100 are in contact with each other; And Dry wall construction method using a panel-type stud comprising the step of finishing the interior after inserting the interior material between the panel-shaped stud (10). The method of claim 9, Using a panel-type stud, characterized in that it further comprises the step of connecting the plurality of panel-type studs 100 to the wall and then inserting the finishing stud 200 between the final panel-type stud 100 and the wall Drywall construction method. The method of claim 9, After the flange 21 of the lower runner 20 and the lower end of each panel-shaped stud 100 are fastened to each other, the flange 11 of the upper runner 10 and the upper end of each panel-shaped stud 100 are fastened. Dry wall construction method using a panel-type stud, characterized in that further comprising the step of temporarily tightening the contact portion.

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