CN111379361A

CN111379361A - Assembled high-sound-insulation wall and assembling method thereof

Info

Publication number: CN111379361A
Application number: CN201811614368.1A
Authority: CN
Inventors: 肖升干
Original assignee: Guizhou Fullerson Integrated Customized Furniture Co ltd
Current assignee: Guizhou Fullerson Integrated Customized Furniture Co ltd
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2020-07-07

Abstract

The invention discloses an assembled high-sound-insulation wall and an assembling method thereof, wherein an H-shaped connecting clamping groove is arranged at the center of a vertical keel, the connecting clamping groove and a solid keel are integrally formed, the clamping groove is reversely folded to form a filling groove with double-layer wall thickness and two through ends, and high-sound-insulation plate filling can be completed only by inserting without fixing screws; in addition, through set up H type connecting groove at vertical keel central point, let the sound wave in fossil fragments conduction process, form many times at H type position and turn over, weakened the sound wave conductivity, and H type connecting groove's setting, wholly strengthened vertical keel's intensity, need not to adopt the enhancement fossil fragments in standard wall body is used, can reach the standard requirement of wall body intensity.

Description

Assembled high-sound-insulation wall and assembling method thereof

Technical Field

The invention relates to a wall and an assembling method thereof, in particular to an assembled high-sound-insulation wall and an assembling method thereof.

Background

With the development of modern industrial technology, building houses can be manufactured in batches and sets like machine production. Prefabricated building elements are assembled by transporting the prefabricated building elements to a construction site, so that the prefabricated building is interesting and can be realized.

The prefabricated building refers to a building assembled on a construction site by using prefabricated components. The building has the advantages of high building speed, less restriction by climatic conditions, labor saving and building quality improvement. One of indispensable components in the assembly type building is a wall body which is divided into an outer wall body and an inner wall body, and the outer wall body enables the building to form a semi-sealed state; the interior of the inner wall building is divided into a plurality of spaces, for example, a house is divided into spaces such as a kitchen, a bedroom, a living room, a toilet and a balcony through the inner wall, so that the living of people is met.

The traditional indoor light high-sound-insulation wall body on the market at present is composed of an inner layer of light steel partition wall keel and an outer layer of light steel partition wall keel, traditional plates are additionally arranged between the two layers of light steel partition wall keels, glass wool or rock wool is filled in the middle of the two layers of keels to form the traditional wall body, and covering plates are arranged outside the two layers of keels to form the traditional wall body. The installation mode of this kind of wall body is complicated and fussy not only the process, and because not set up the through-wall of spool hole unfavorable for later stage water and electricity spool and lay, its labour cost and material cost are too high to lead to the cost high, still because its wall body is thicker to occupy the interior space partially big, is difficult to recycle after the dismantlement.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide an assembled high-sound-insulation wall which is simple in structure and convenient to install.

The wall comprises a ceiling keel, a ground keel arranged in parallel with the ceiling keel and a plurality of vertical keels vertically arranged between the ceiling keel and the ground keel, wherein two ends of the vertical keels are respectively arranged on the ceiling keel and the ground keel; the cross sections of the top keel and the ground keel are U-shaped clamping grooves; the vertical keel comprises a bottom plate B and side plates B oppositely arranged on two sides of the bottom plate B, and two symmetrical double-U-shaped bending sections are formed on two sides of the center line of the bottom plate B to form a clamping groove with an H-shaped cross section;

a sound insulation plate is arranged in a sash formed by the top keel, the ground keel and the vertical keel, and the edge parts of the sound insulation plate, which are contacted with the top keel, the ground keel and the vertical keel, are matched in the U-shaped clamping groove of the top keel, the U-shaped clamping groove of the ground keel and the H-shaped clamping groove of the vertical keel;

the surface of the sash formed by the top keel, the ground keel and the vertical keel is provided with a decorative plate covering the sound insulation plate, and the edge part of the decorative plate is fixed on the top keel, the ground keel and the vertical keel which are contacted with the decorative plate.

Further, the ceiling keel and the ground keel respectively comprise a bottom plate A and side plates A arranged on two sides of the bottom plate A in a relative mode, and omega shapes are formed on two sides of the center line of the bottom surface of the bottom plate A.

Furthermore, a plurality of transverse long round-head inclined holes are formed in the bottom plate A.

Further, the two double-U-shaped bending sections comprise a first bending part, a first bending section, a second bending part, a second bending section, a first reverse bending part, a first reverse bending section, a third bending part, a third bending section, a fourth bending part, a fourth bending section, a second reverse bending part, a second reverse bending section, a fifth bending part, a fifth bending section and a sixth bending part which are formed by bending; the first bending section and the fifth bending section form a convex shape. The bending section forms a double-layer barrier U-shaped clamping groove and a U-shaped clamping groove with two convex sides, the sound insulation plate can be conveniently installed, and the double-layer barrier and the double-layer convex are formed, so that the sound wave conduction coefficient is weakened.

Furthermore, a plurality of vertical round-head inclined holes parallel to the central line of the bending section are formed in the first bending section and the fifth bending section.

Furthermore, the bottom plate B is provided with a keel hole and a threading hole.

Further, still include that the cross section is the reinforcement fossil fragments of U type, the reinforcement fossil fragments pass through the fossil fragments hole runs through the vertical keel.

Furthermore, the keel joint is used for transversely splicing and fixing the flat joint of the decorative plate and/or lengthening the keel.

In addition, another object of the present invention is to provide an assembling method for wall assembly of the present invention, which completes the assembly by the following steps:

step 1: arranging and fixing a ground keel along the ground, arranging and fixing a ceiling keel along the top surface, and positioning the ceiling keel above the ground keel and parallel to the ceiling keel;

step 2: inserting the vertical keels into the U-shaped clamping grooves of the top keel and the ground keel, and fastening the vertical keels with screws, wherein the vertical keels are matched with the edge parts of the top keel and the ground keel which are contacted with each other;

and step 3: the sound insulation plate is inserted, and the edge parts of the sound insulation plate, which are contacted with the ground keel and the vertical keel, are fit in the U-shaped clamping grooves of the ground keel and the H-shaped clamping grooves of the vertical keel;

and 4, step 4: the edge parts of the vertical keels and the sound insulation plates, which are contacted with the skynman, are matched in the U-shaped clamping grooves of the skynman.

Furthermore, when the vertical direction is formed by two or more than two vertical keels, the vertical keels are connected through keel joints.

According to the invention, the H-shaped connecting clamping groove is arranged at the center of the vertical keel and is integrally formed with the solid keel, the clamping groove is reversely folded to form a filling groove with double-layer wall thickness and two through ends, and the high-sound-insulation board can be filled only by inserting without fixing screws; in addition, through set up H type connecting groove at vertical keel central point, let the sound wave in fossil fragments conduction process, form many times at H type position and turn over, weakened the sound wave conductivity, and H type connecting groove's setting, wholly strengthened vertical keel's intensity, need not to adopt the enhancement fossil fragments in standard wall body is used, can reach the standard requirement of wall body intensity.

The wall body provided by the invention is provided with the staggered long round head inclined holes on the vertical keel, the skyrockey and the ground keel for the bridge-cut treatment of sound wave conduction; the sound insulation board is used as the filling in the middle of the partition wall, so that the sound channeling caused by pipe penetrating and hole opening on the two sides of the wall body is weakened.

Drawings

FIG. 1 is one of schematic structural diagrams of a fabricated high-sound-insulation wall provided by the invention;

fig. 2 is a second schematic structural view of the fabricated high-sound-insulation wall according to the present invention;

fig. 3 is a third schematic structural view of the fabricated high-sound-insulation wall provided by the present invention;

FIG. 4 is a schematic cross-sectional view of a ceiling keel of a fabricated high-sound-insulation wall provided by the invention;

FIG. 5 is a schematic view of a bottom plate of a skullar bone of the fabricated high-sound-insulation wall provided by the invention;

FIG. 6 is a schematic cross-sectional view of a ground keel of a fabricated high-sound-insulation wall provided by the invention;

FIG. 7 is a schematic view of the bottom plate of the assembled high-sound-insulation wall keel;

FIG. 8 is a schematic cross-sectional view of a vertical keel of a fabricated high-sound insulation wall provided by the invention;

FIG. 9 is one of the schematic diagrams of the bottom plate of the vertical keel of the fabricated high-sound-insulation wall provided by the invention;

FIG. 10 is a second schematic view of the bottom plate of the vertical keel of the fabricated high-sound-insulation wall provided by the invention;

fig. 11 is a schematic structural view of the sound insulating panel according to the present invention.

In the figure:

1: and (3) ceiling keel 2: and (3) ground keel: vertical keel

4: sound insulation board 5: and (6) decorative plate: flat joint

7: keel joint 8: reinforcing keel 11, 21: baseboard A

12,22: side plates a 13, 23: omega 14, 24: transverse long round head inclined hole

131,231: first bend 132, 232: second bend 133, 233: ground surface

134,234: third bend 135, 235: fourth bend 31: bottom plate B

32: side plate B33: bending section 34: vertical long round head inclined hole

35: keel hole 36: threading hole 37: double-side closing in

331: first bent portion 332: first bending section 333: second bending part

334: second bent section 335: first reverse bend 336: first reverse bending section

337: third bend 338: third bend section 339: the fourth bending part

3310: fourth bending section 3311: second reverse bending portion 3312: second reverse bending section

3313: fifth bent portion 3314: fifth bending section 3315: sixth bent portion

351: straight side 352: bevel edge 353: card member

41: outer layer 42: intermediate layer

Detailed Description

The claimed invention is described in further detail herein with reference to the accompanying drawings and the examples.

The technical scheme claimed herein is an assembly type high sound insulation wall, the structure of which is shown in fig. 1-10, and which comprises an overhead keel 1, a ground keel 2 arranged in parallel with the overhead keel 1, and a plurality of vertical keels 3 vertically arranged between the overhead keel 1 and the ground keel 2, and having two ends respectively mounted on the overhead keel 1 and the ground keel 2; the cross sections of the top keel 1 and the bottom keel 2 are U-shaped clamping grooves, the clamping grooves respectively comprise bottom plates A11 and 21 and side plates A12 and 22 which are oppositely arranged on two sides of the bottom plates A11 and 21 and are formed by bending in the same direction, two sides of the center line of the bottom surfaces of the bottom plates A11 and 21 are bent towards the side plate A close to one side to form a first bend 131, after the first bend 231 is bent towards the side plate A far away from the

second bend

132 and 232, the

bottom surfaces

133 and 233 parallel to the bottom plate A are formed; then bending the side plate A close to one side to form a

third bend

134 and 234; and finally, bending the side plates A far away from each other to form

fourth bends

135 and 235 in the direction of the side plates A, finally forming omega-

shaped bodies

13 and 23, and arranging sound insulation pads 15 at the positions, matched with the omega-

shaped bodies

13 and 23, of the outer surfaces of the bottom plates A11 and 21.

The vertical keel 3 comprises a bottom plate B31 and side plates B32 arranged on two sides of the bottom plate B31 oppositely, and two symmetrical double-U-shaped bending sections 33 are formed on two sides of the center line of the bottom plate B31 to form a clamping groove with an H-shaped cross section; the bending section 33 comprises a first bending part 331, a first bending section 332, a second bending part 333, a second bending section 334, a first reverse bending part 335, a first reverse bending section 336, a third bending part 337, a third bending section 338, a fourth bending part 339, a fourth bending section 3310, a second reverse bending part 3311, a second reverse bending section 3312, a fifth bending part 3313, a fifth bending section 3314 and a sixth bending part 3315 which are formed by folding; wherein the length of the second bending section 334 is greater than or equal to the length of the first reverse bending section 336, and the two sections are arranged in a close contact manner; the length of the fourth bending section 3310 is greater than or equal to the length of the second reverse bending section 3312, and the two sections are arranged in a manner of being attached to each other, so as to form two double-U-shaped bending sections; in addition, the first and

fifth bent sections

332 and 3314 are formed in a convex shape, and finally the bent section 33 including a double barrier U-shaped card slot and a double-sided convex U-shaped card slot is formed. In order to better fix the sound insulation board 4, the mullion 3 of the present invention further includes a double-sided closing-in 37, and the closing-in 37 is formed by bending inward the side board B32 in the same direction.

A sound insulation plate 4 is arranged in a sash formed by the skynman 1, the ground keel 2 and the vertical keel 3, and the edge parts of the sound insulation plate 4, which are contacted with the skynman 1, the ground keel 2 and the vertical keel 3, are matched in the U-shaped clamping groove of the skynman 1, the U-shaped clamping groove of the ground keel 2 and the H-shaped clamping groove of the vertical keel 3; a decorative plate 5 covering the sound insulation plate 4 is arranged on the surface of a sash formed by the skulls 1, the floor keels 2 and the vertical keels 3, and the edge parts of the decorative plate 5 are fixed on the skulls 1, the floor keels 2 and the vertical keels 3 which are contacted with the decorative plate.

The sound insulation board 4 described in the invention can be made of any existing material, and a high sound insulation damping board formed by compounding existing partition board materials (gypsum boards, cement fiber boards, ott boards, glass magnesium boards, calcium silicate boards, ceramic aluminum boards, fiber rock boards, flame-retardant wood structural boards and the like) and damping sound insulation felts is used as filling in the middle of the partition, so that the channeling caused by pipe penetrating and opening holes on two sides of a wall body is weakened, and the application of glass wool or rock wool is reduced. The sound insulation plate 4 comprises an intermediate layer 42 and outer layers 41 arranged on two sides of the intermediate layer 42, as shown in fig. 11, the surfaces of the outer layers 41 and the intermediate layer 42 are subjected to surface treatment, filling, curing, leveling and thickness fixing treatment, and finally the outer layers 41 and the intermediate layer 42 are fixed by overlapping with glue and pressure to form the sound insulation plate 4.

The bottom plates a11,21 described in the present invention are provided with a plurality of laterally long round-head inclined holes 14,24 which are distributed at the center of the bottom plate a so as to be bisected on both sides and are arranged side by side at a plurality of equidistant oblique angles. In addition, a plurality of vertical round-head inclined holes 34 parallel to the center line of the bending section 33 are formed in the first bending section 332 and the fifth bending section 3314, and the vertical round-head inclined holes 34 are respectively formed on both sides of the center line of the first bending section 332 and the fifth bending section 3314 and are equidistantly distributed in a staggered manner.

The bottom plate B31 of the vertical keel 3 in the assembled high-sound-insulation wall provided by the invention is provided with a keel hole 35 for penetrating the reinforcing keel 8 and a threading hole 36 for penetrating a water wire and a power wire. The keel hole 35 includes a straight edge 351 and a bevel edge 352, which are connected to each other, and a self-holding member 353 is formed by punching through a die. The threading holes 36 are punched by a circular die to form circular threading holes, and the keel holes 35 and the threading holes 36 are distributed in a double-row mode and are equidistantly distributed on two sides of the center line of the bottom plate B31.

In order to improve the strength of the wall, the assembled high-sound-insulation wall further comprises a reinforcing keel 8 with a U-shaped cross section, and the reinforcing keel 8 penetrates through the vertical keel 3 through a keel hole 35.

For better sound insulation, two sound insulation pads 38 are disposed on the outer side of the side panel B32, and the sound insulation pads 38 are disposed on both sides of the center line of the side panel B32.

The assembly type high-sound-insulation wall provided by the invention is assembled by the following steps:

step 1: arranging and fixing a ground keel 2 along the ground, arranging and fixing an overhead keel 1 along the top surface, and positioning the overhead keel 1 above the ground keel 2 and parallel to the ground keel;

step 2: inserting a vertical keel 3 into the U-shaped clamping grooves of the top keel 1 and the bottom keel 2, and fastening the vertical keel 3 with the contacted edge parts of the top keel 1 and the bottom keel 2 by screws;

and step 3: the sound insulation plate 4 is inserted, and the edge parts of the sound insulation plate 4, which are contacted with the ground keel 2 and the vertical keel 3, are fit in the U-shaped clamping grooves of the ground keel 2 and the H-shaped clamping grooves of the vertical keel 2;

and 4, step 4: the edge parts of the vertical keels 3 and the sound insulation plates 4, which are contacted with the ceiling keel 1, are matched in the U-shaped clamping grooves of the ceiling keel 1.

In actual equipment process, because the size of wall body is higher, need utilize two or more than two vertical keel to assemble in vertical direction and form, when adopting two or more than two vertical keel splices, connect 7 through L type fossil fragments and connect two adjacent vertical keel in vertical direction.

In addition, when two decorative boards 5 need to be spliced, in order to ensure that the decorative boards 5 can be stably installed, a flat plate is used as a flat joint 6 to be connected in the transverse direction, two vertical keels adjacent to each other in the vertical direction can be fixed by the flat joint 6, and the edge part of the flat joint 6 is fixed on the vertical keel 3 in contact with the flat joint.

The skyndrome 1, the ground keel 2, the vertical keel 3 and the keel joint 7 recorded in the invention are high sound insulation frameworks.

The assembled high-sound-insulation wall provided by the invention has the following beneficial effects:

1. the invention improves the whole installation efficiency: the H-shaped invention design in the middle of the vertical keel replaces the traditional two-layer light steel keel, and the keel installation efficiency is improved; the sound insulation plate is inserted and filled through the H-shaped clamping groove in the middle of the vertical keel, so that the traditional plate fixed by a screw in the middle is replaced, and the installation efficiency of the middle plate is improved;

2. the invention obviously reduces the occupation of indoor space on the basis of the same sound insulation effect: the H-shaped design in the middle of the vertical keel replaces the traditional two layers of light steel keels, so that the indoor space occupied by the wall is reduced;

3. the invention reduces the use of materials on the basis of the same sound insulation effect, and leads the building to be more energy-saving: the unique design of the keel changes the keel structure and is additionally provided with the sound insulation filler strip and the sound insulation hole, the bridge breakage and the weakening treatment of sound waves of the sound bridge are realized, the traditional double-layer keel is changed into a layer of keel on the basis of the same sound insulation effect, and the using amount of the light steel keel is reduced; the development of the damping sound insulation board replaces the traditional treatment mode of filling glass wool or rock wool with a partition board arranged in the middle, so that the application of the glass wool and the rock wool is reduced, and the purposes of saving energy and reducing consumption are achieved;

4. can add enhancement fossil fragments through hole and circular through wires hole through the unique design to the bone type: a. in the application of the ultrahigh wall body, the penetrating holes are additionally arranged on the bottom surface of the vertical keel and are provided with the clamping pieces, so that the penetrating reinforcing keel is increased, and the structural strength of the whole wall body is improved; b. the circular threading holes are additionally formed in the bottom surfaces of the vertical keels, so that the defect that the keel structure is damaged due to hole opening in the field in the traditional construction is overcome, the laying and installation of later-stage hydroelectric lines are facilitated, and the overall construction efficiency and quality are improved;

5. the indoor light wall body is more convenient to disassemble and can be recycled: because of the design of the H-shaped clamping groove of the vertical keel, the middle filling sound insulation plate is only required by inserting, the defect that the traditional keel cannot be reused after being detached after fixing plates with screws and performing joint filling treatment in the middle is overcome, and cyclic utilization and circular economy are really realized.

The foregoing is a further description of the invention in connection with specific preferred embodiments thereof and it is not intended to limit the invention to the specific embodiments described above. It will be apparent to those skilled in the art that various modifications, additions, substitutions, and the like can be made without departing from the spirit of the invention and these are therefore considered to be within the scope of the invention.

Claims

1. The utility model provides a high sound insulation wall of assembled which characterized in that: the wall comprises a top keel (1), a ground keel (2) arranged in parallel with the top keel (1), and a plurality of vertical keels (3) vertically arranged between the top keel (1) and the ground keel (2) and respectively arranged on the top keel (1) and the ground keel (2) at two ends; the cross sections of the ceiling keel (1) and the ground keel (2) are U-shaped clamping grooves; the vertical keel (3) comprises a bottom plate B (31) and side plates B (32) which are oppositely arranged on two sides of the bottom plate B (31), two symmetrical double-U-shaped bending sections (33) are formed on two sides of the center line of the bottom plate B (31), and a clamping groove with an H-shaped cross section is formed;

an acoustic board (4) is arranged in a sash formed by the ceiling keel (1), the floor keel (2) and the vertical keel (3), and the edge parts of the acoustic board (4) contacted with the ceiling keel (1), the floor keel (2) and the vertical keel (3) are matched in the U-shaped clamping groove of the ceiling keel (1), the U-shaped clamping groove of the floor keel (2) and the H-shaped clamping groove of the vertical keel (3);

the surface of a sash formed by the ceiling keel (1), the floor keel (2) and the vertical keel (3) is provided with a decorative plate (5) covering the sound insulation plate (4), and the edge part of the decorative plate (5) is fixed on the ceiling keel (1), the floor keel (2) and the vertical keel (3) which are in contact with the decorative plate.

2. The fabricated high-sound-insulation wall body as claimed in claim 1, wherein: it fossil fragments (1) with ground fossil fragments (2) include bottom plate A (11,21) respectively and set up relatively in curb plate A (12,22) of bottom plate A (11,21) both sides, the bottom surface central line both sides of bottom plate A (11,21) are formed with omega shape (13, 23).

3. The fabricated high-sound-insulation wall body as claimed in claim 2, wherein: the bottom plates A (11,21) are provided with a plurality of transverse long round head inclined holes (14, 24).

4. The fabricated high-sound-insulation wall body according to claim 1,2 or 3, characterized in that: the two double-U-shaped bending sections (33) comprise a first bending part (331), a first bending section (332), a second bending part (333), a second bending section (334), a first reverse bending part (335), a first reverse bending section (336), a third bending part (337), a third bending section (338), a fourth bending part (339), a fourth bending section (3310), a second reverse bending part (3311), a second reverse bending section (3312), a fifth bending part (3313), a fifth bending section (3314) and a sixth bending part (3315) which are formed by bending; the first and fifth bent sections (332, 3314) form a convex shape.

5. The fabricated high-sound-insulation wall body as claimed in claim 4, wherein: and the first bending section (332) and the fifth bending section (3314) are provided with vertical round head inclined holes (34) parallel to the central line of the bending section (33).

6. The fabricated high-sound-insulation wall body according to claim 1,2 or 3, characterized in that: the bottom plate B (31) is provided with a keel hole (35) and a threading hole (36).

7. The fabricated high-sound-insulation wall body as claimed in claim 6, wherein: still include cross section for the reinforcement fossil fragments (8) of U type, reinforcement fossil fragments (8) pass through fossil fragments hole (35) run through perpendicular fossil fragments (3).

8. The fabricated high-sound-insulation wall body according to claim 1,2 or 3, characterized in that: the keel joint is characterized by further comprising a horizontal splicing and fixing flat joint (6) for the decorative plate (5) and/or a keel joint (7) for lengthening and connecting the keel.

9. The method for assembling the fabricated high-sound-insulation wall body as claimed in any one of claims 1 to 8, wherein: the assembly is completed by the following steps:

step 1: arranging and fixing a ground keel (2) along the ground, arranging and fixing a ceiling keel (1) along the top surface, and positioning the ceiling keel (1) above the ground keel (2) and parallel to the ceiling keel;

step 2: inserting the vertical keels (3) into U-shaped clamping grooves of the top keel (1) and the ground keel (2), and fastening the vertical keels (3) with screws, wherein the vertical keels are matched with the edge parts of the top keel (1) and the ground keel (2) which are in contact with each other;

and step 3: the sound insulation plate (4) is inserted, and the edge parts of the sound insulation plate (4) contacted with the ground keel (2) and the vertical keel (3) are matched in the U-shaped clamping grooves of the ground keel (2) and the H-shaped clamping grooves of the vertical keel (2);

and 4, step 4: the edge parts of the vertical keels (3) and the sound insulation plates (4) which are contacted with the overhead keels (1) are matched in the U-shaped clamping grooves of the overhead keels (1).

10. The assembly method according to claim 9, wherein: when the vertical direction is formed by two or more than two vertical keels (2), the adjacent vertical keels (2) are connected through keel joints (7).