KR101142499B1 - Wall panel system of structure - Google Patents

Abstract

It provides a wall panel system of the structure that can improve the sound insulation performance of the wall by improving the configuration of the wall separating the structure space. The wall panel system of the structure has at least two sides and extends in the longitudinal direction, the first member constituting the framework of the wall, the second member coupled to both sides of the first member to form a double wall, the first member and the second, respectively. A third member interposed on at least one surface between the members, the third member defining a space between the first member and the second member, wherein the third member is formed into a sound insulating surface shape having a plurality of holes cut into a predetermined length; The sound transmitted through the first member and the second member.

Structures, Walls, Noise, Sound Insulation

Description

WALL PANEL SYSTEM OF STRUCTURE}

The present invention relates to a panel system, and more particularly to a wall panel system of a structure reinforced with sound insulation.

In general, the walls of a structure that is constructed using a dry method is aligned with the steel studs of the 'c' shaped lightweight steel standing in the longitudinal direction of the wall, and then attaching and fixing a heat insulating material and a plurality of finishing materials around the steel studs to fix the walls. Form.

As described above, the drywall constructed by the dry method has a disadvantage in that the transmission sound in the high frequency region is increased due to the characteristics of the double wall, and thus, the sound insulation performance of the entire wall is deteriorated.

It provides a wall panel system of the structure that can improve the sound insulation performance of the wall by improving the configuration of the wall separating the structure space.

The wall panel system of the structure has at least two sides and extends in the longitudinal direction, the first member constituting the framework of the wall, the second member coupled to both sides of the first member to form a double wall, the first member and the second, respectively. A third member interposed on at least one surface between the members, the third member defining a space between the first member and the second member, wherein the third member is formed into a sound insulating surface shape having a plurality of holes cut into a predetermined length; The sound transmitted through the first member and the second member.

The third member has a fastening hole formed therein, a fastening portion fixed in contact with the first member, a first connection portion extending from one end of the fastening portion, and having a set angle and being bent toward the second member side, and one end extending to the first connection portion. Formed to extend in the longitudinal direction of the first member, one side of which is coupled to the second member to maintain a distance between the first member and the second member, and is formed to extend at the other end of the junction to have a set angle A second connection portion that is bent in the direction of the first member side, wherein the sound insulating surface shape of the third member can be made over the entire surface of the third member.

The sound insulating surface of the third member has a plurality of cut-out peripheries formed in a concave-convex shape, and the concave-convex shape of the third member is alternately formed to correspond to other concave-convex shapes adjacent to each other. Can be. The sound insulating surface shape of the third member may be repeatedly formed at predetermined intervals along the length direction and the width direction of the third member. The cut holes of the third member may have a length of about 20-30 mm.

In the connection relationship between the other end of the second connection part and the first member, the other end of the second connection part may form a free end. The third member has a length measured in the width direction of 600 mm to 1,200 mm, and a length measured along the length direction of the first member may be formed in a rectangular shape of 40 to 60 mm. The fastening part may have a length measured in the longitudinal direction of the first member to 15 to 20 mm.

The first member may be made of a steel stud in the longitudinal section of the 'c' shape.

The third member may be formed of roll forming aluminum, and the third member may be formed of a plurality of resilient channels.

It may further include a sound insulating member interposed between one surface of the second member and the third member.

The wall panel system of the structure according to the present invention improves the disadvantage that the transmission sound in the high frequency region is increased due to the characteristics of the double drywall that is built by the dry method, it is easy to improve the residential performance of the occupants.

In addition, it is possible to absorb and attenuate vibration by sound energy introduced into the wall, and to improve sound insulation performance in the high frequency region of the wall panel.

In addition, it is possible to increase the sound energy absorbing ability to the drywall, and to increase the elasticity by treating a portion of the end as a free end that is not fixed to increase the extinction blocking of the negative energy.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the specification and drawings, the same reference numerals denote the same elements.

1 is a partial perspective view showing a wall panel system configuration of a structure according to an embodiment of the present invention.

An embodiment of the present invention includes a first member 10, a second member 20; 20a, 20b, and a third member 30 constituting a panel for drywall of a structure, and used for intergenerational walls of the structure. It improves the sound insulation performance of drywall.

The first member 10 has both sides, extends in the longitudinal direction, and constitutes a frame of the wall. The first member 10 may be formed of a steel stud having a longitudinal section of the '' '.

The second member 20 is coupled to both surfaces of the first member 10 to form a double wall. The second member 20 may be made of an outer finish and an inner finish, such as gypsum board or plywood.

The third member 30 is interposed on at least one surface between the first member 10 and the second member 20, and forms a space between the first member 10 and the second member 20. The third member 30 is formed in a sound insulating surface shape having a plurality of holes cut into a predetermined length to sound insulation transmitted through the first member 10 and the second member 20.

The sound insulating member 40 may be further included between the one surface of the second member 20 and the third member 30.

2 is a partial perspective view illustrating a coupling relationship between a first member and a third member according to an exemplary embodiment of the present invention, and FIG. 3 is a diagram illustrating a sound insulation surface shape of the third member.

The third member 30 includes a fastening portion 32, a first connecting portion 34, a joining portion 36, and a second connecting portion 38.

The fastening part 32 is formed with a fastening hole 31 into which the fastening member 33, a screw and a bolt are inserted, and is a part fixed in contact with the first member 10. The fastening part 32 is a part which is in surface contact with the first member 10, and is formed in a plane to correspond to the contact surface of the first member 10. The fastening hole 31 formed in the fastening part 32 may be formed to correspond to the correlation with the hole 12 formed in the first member 10. As shown in FIG. 2, when the third member 30 is fastened to the two first members 10, the third members 30 are formed at both sides of the fastening part 32 to be spaced apart from the first members 10. A plurality of fastening holes 31 of the fastening portion 32 may be formed as necessary to change the fastening position according to the operator's selection. For example, when a plurality of positions of the fastening hole 31 are formed at intervals set along the longitudinal direction of the fastening portion 32, the third member 30 may be separated even if the spaced apart intervals of the first member 10 are not constant. ) Can be attached to the first member 10. In addition, the fastening hole 31 formed in the longitudinal middle position of the fastening part 32 may be coupled to one first member 10 in a one-to-one correspondence. That is, as the plurality of fastening holes 31 formed in the fastening part 32 are selected, the coupling relationship between the third member 30 and the first member 10 may be selected as one to one or one to two. .

The first connection part 34 extends from one end of the fastening part 32 to be bent toward the second member 20 side with a set angle. The set angle of the first connection part 34 is about 45 degrees and the curved angle may be set in consideration of the distance between the first member 10 and the second member 20.

One end portion of the junction portion 36 extends in the first connection portion 34 and extends in parallel along the longitudinal direction of the first member 10, and one surface thereof is coupled to the second member 20 to form the first member 10. The distance between the second member 20 and the second member 20 is kept spaced apart. The joining portion 36 can obtain an increase in workability by easily securing the attaching surface of the second member 20 which is a finishing material (gypsum board or plywood). 2 and 3, the sound insulation surface shape may be formed over the entire surface of the third member 30. As shown in FIG. 3, the sound insulating surface shape of the third member 30 is formed in a concave-convex shape around the plurality of cut holes, and the concave-convex shape of the third member 30 is adjacent to each other. It is formed staggered with each other in correspondence with other irregularities. The sound insulating surface shape of the third member 30 is repeatedly formed at predetermined intervals along the longitudinal direction and the width direction of the third member 30 to form a wave pattern. The cut hole of the third member 30 has a length of about 20-30 mm.

In this case, the holes cut out from the sound insulating surface shape of the junction part 36 and the concave-convex array may be formed at regular intervals, or may be formed in an irregular arrangement. And the surface of the junction 36 includes both sides. On the other hand, the sound insulating surface shape of the junction portion 36 may be formed on the entire surface of the third member 30, may be formed only on the surface selected in accordance with the design change.

As described above, the sound insulating surface shape of the joining part 36 may be formed in a perforated shape to secure an easy joining surface when joining the gypsum board or plywood as a finishing material. In addition, when the third member 30 is installed, it prevents rocking or bending, and thus construction is easy.

The second connecting portion 38 extends at the other end of the junction portion 36 and is bent in a direction toward the first member 10 with a set angle. The set angle of the second connecting portion 38 is about 45 degrees and may be set in consideration of the distance between the first member 10 and the second member 20.

The third member 30 may have a length measured in the width direction of 600 mm to 1,200 mm, and the length measured along the length direction of the first member 10 may be 40 to 60 mm. The overall shape of the third member 30 may be formed in a rectangular shape. The size of the third member 30 considers the distance between the first member 10 on which the third member 30 is mounted and the workability of the operator, and may be changed as necessary. The third member 30 is formed by cold forming steel sheet or aluminum of 0.5 mm to 0.8 mm in roll forming or extrusion molding. Therefore, the third member 30 can be mass-produced. Here, the fastening portion 32 is formed with a length of 15 ~ 20mm measured along the longitudinal direction of the first member 10. The first connecting portion 34 and the second connecting portion 38 are each 5 to 10 mm, and the bonding portion 36 is formed to 20 to 30 mm.

4 is a side view of FIG. 1, and FIG. 5 is a plan view of FIG. 1.

In the connection relationship between the other end of the second connection part 38 and the first member 10, the other end of the second connection part 38 forms a free end. That is, the fastening part 32 is fastened by being fastened to the first member 10 through the fastening member 33, whereas the second connection part 38 is spaced apart from or in contact with the first member 10, thereby freeing the free end. To form. Therefore, a separate fixing means is not necessary to connect the second connecting portion 38 and the first member 10. With the other end of the second connection portion 38 as the free end, the negative energy transmitted to the third member 30 is extinguished and blocked by the elasticity of the third member 30 along the free end.

The third member 30 may be formed of a plurality of resilient channels, and the third member 30 may be interposed on both surfaces between the first member 10 and the second member 20.

In general, the resilient channel is to be simply bonded to the entire surface of the drywall, it is difficult to improve the sound insulation performance by the material of the resilient channel itself without a separate surface treatment. In other words, the planar surface of the resilient channel is simply bonded to the entire surface of the drywall, so that only the effect of the resilient channel itself function can be obtained. In addition, when both ends of the resilient channel are bonded to the structural member, some of the high frequency sounds transmitted through the resilient channel may exist. Therefore, there is a disadvantage in that the transmission sound in the high frequency region is increased due to the characteristics of the double wall, and thus there is a problem that the sound insulation performance of the entire wall is lowered.

The present invention provides a perforated resilient channel to drywall to improve sound insulation performance at high frequency, which is a disadvantage of conventional drywall, and to improve transmission sound blocking ability through elasticity enhancement and to secure an easy attachment surface of a finishing material (gypsum board or plywood). It is applied.

The third member 30 according to the embodiment of the present invention is formed of a cut-out hole and a concave-convex sound insulating surface shape. The sound insulating surface shape absorbs and attenuates vibration caused by sound energy introduced into a wall. The sound insulation performance in the high frequency range of a wall panel can be improved.

The third member 30 according to the embodiment of the present invention increases the ability of absorbing negative energy to the drywall and increases the elastic energy by increasing the elasticity by treating it as a free end that does not fix a part of the end, thereby increasing the extinction blocking of the negative energy. .

As described above, the embodiment of the present invention is provided between the first member 10 and the second member 20 through the third member 30 interposed between the first member 10 and the second member 20. Form a space. In addition, it improves the sound insulation performance at high frequencies, which is a disadvantage of the existing drywall, and improves the transmission sound blocking ability by increasing the elasticity, and can easily improve the workability by securing an attachment surface such as gypsum board or plywood as a finishing material.

1 is a partial perspective view showing a wall panel system configuration of a structure according to an embodiment of the present invention.

2 is a partial perspective view illustrating a coupling relationship between a first member and a third member according to an exemplary embodiment of the present invention.

3 is a view showing the sound insulating surface shape of the third member.

4 is a side view of FIG. 1.

<Description of the symbols for the main parts of the drawings>

10; First member 20; Second member

30; Third member 32; Fastening part

34; First connecting portion 36; copula

38; Second connection

Claims (13)

A first member having at least two sides and extending in the longitudinal direction and constituting a frame of the wall; Second members each joined to both surfaces of the first member to constitute a double wall; and A third member interposed between at least one surface of the first member and the second member and forming a space between the first member and the second member Including; The third member is formed in a sound insulating surface shape having a plurality of holes cut into a predetermined length to sound insulating noise transmitted through the first member and the second member, The sound insulation surface shape of the third member is a wall panel system of a structure made over the entire surface of the third member. The method of claim 1, The third member is A fastening hole formed with a fastening hole and fixed to be in contact with the first member; A first connection part extending from one end of the fastening part and having a set angle and being bent toward the second member side; One end of which is formed to extend in the first connection part and extends in the longitudinal direction of the first member, and a joint part of which one surface is coupled to the second member to maintain a distance between the first member and the second member; A second connection part extending from the other end of the junction part and having a set angle and being bent toward the first member side; Wall panel system of the structure comprising a. 3. The method of claim 2, The sound insulation surface shape of the said 3rd member is a wall panel system of the structure by which the several periphery of the cut | disconnected hole is formed in uneven | corrugated shape. The method of claim 3, The uneven shape of the said 3rd member is mutually formed mutually corresponding to the uneven shape adjacent to each other, The wall panel system of the structure. 5. The method of claim 4, The sound insulation surface shape of the third member is repeatedly formed at predetermined intervals along the longitudinal and width directions of the third member. The method of claim 1, The cut-out hole of the third member has a length of about 20 to 30mm in the wall panel system of the structure. 3. The method of claim 2, And a connection relationship between the other end of the second connection part and the first member, wherein the other end of the second connection part forms a free end. 3. The method of claim 2, The third member has a length measured in the width direction of 600mm to 1,200mm, the wall panel system of the structure is formed in a rectangular shape of 40 ~ 60mm in length measured along the longitudinal direction of the first member. 3. The method of claim 2, The fastening part wall panel system of the structure is formed in the length of 15 ~ 20mm measured along the longitudinal direction of the first member. The method of claim 1, The first member is a wall panel system of a structure consisting of a steel stud in the longitudinal cross-section '' 'shape. 3. The method of claim 2, And the third member forms aluminum by roll forming. 3. The method of claim 2, And the third member is a wall panel system of a structure consisting of a plurality of resilient channels. The method of claim 1, And a sound insulation member interposed between one surface of the second member and the third member.

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