CN114961034A - Integrated equipment belt module and assembled wall - Google Patents

Abstract

An integrated equipment belt module and an assembled wall body are provided. The integrated equipment belt module comprises: the keel is provided with an installation space for installing the pipeline; the equipment belt panel is fixed to at least one of two opposite sides of the keel and is provided with more than one mounting opening; the keel is telescopic and deformable in the thickness direction of the integrated equipment belt module, so that the integrated equipment belt module is inserted into the wall unit. The integrated equipment belt module has high structural strength and integration level, and simple, rapid and reliable assembly of the integrated equipment belt module and a wall unit is realized by utilizing the capability of telescopic deformation of the keel along the thickness direction.

Description

Integrated equipment belt module and assembled wall

Technical Field

This document relates to but not limited to the building technology field, especially relates to an integrated equipment area module and assembled wall.

Background

Traditional wall body need destroy wall structure usually when erection equipment pipeline and flush mounting plate of switch, also can only destroy wall structure once more if there is the transformation maintenance in the later stage, and the construction is troublesome, and the expense is high, easily causes to destroy to wall structure, has the potential safety hazard, and the aesthetic property is relatively poor, and is very inconvenient.

The above description is included in the technical recognition scope of the inventors, and does not necessarily constitute the prior art.

Disclosure of Invention

The utility model aims at providing an integrated equipment area module and assembled wall. The integrated equipment belt module has high structural strength and integration level, and simple, quick and reliable assembly of the integrated equipment belt module and a wall unit is realized by utilizing the telescopic deformation capability of the keel along the thickness direction.

The technical scheme of the embodiment of the application is as follows:

an integrated equipment belt module comprising:

the keel is provided with an installation space for installing the pipeline; and

the equipment belt panel is fixed to at least one of two opposite sides of the keel and is provided with more than one mounting opening;

the keel can be telescopically deformed along the thickness direction of the integrated equipment belt module, so that the integrated equipment belt module is plugged into the wall unit.

In some exemplary embodiments, the keel comprises:

a fixed part; and

an elastic part connected with the fixing part;

wherein the equipment belt panel is fixed to the fixing portion, and the elastic portion is telescopically deformed in a thickness direction of the integrated equipment belt module.

In some exemplary embodiments, the fixing part includes:

a first keel; and

the second keel and the first keel are arranged at intervals along the thickness direction of the integrated equipment belt module;

one end of the elastic part is connected with the first keel, and the other end of the elastic part is connected with the second keel.

In some exemplary embodiments, the first keel comprises a first connecting plate and a first side plate connected with two ends of the first connecting plate;

the second keel comprises a second connecting plate and second side plates connected with two ends of the second connecting plate;

one end of the elastic part is connected with the first connecting plate, and the other end of the elastic part is connected with the second connecting plate; the tip of first curb plate with the tip of second curb plate all is equipped with the installation department, the installation department be used for with integrated equipment takes the module to peg graft extremely wall body unit.

In some exemplary embodiments, the first keel comprises a first plate and the second keel comprises a second plate; one end of the elastic part is connected with the first plate body, and the other end of the elastic part is connected with the second plate body;

the elastic part is a plate body provided with a bending structure along the thickness direction of the integrated equipment belt module, and two ends of the bending structure along the thickness direction of the integrated equipment belt module are inserted into the wall unit.

In some exemplary embodiments, the folding structure comprises a flap having a transverse V-shape, the V-shape opening of the flap facing the wall unit.

In some exemplary embodiments, the first plate, the elastic portion, and the second plate are integrally formed.

In some exemplary embodiments, the first plate body includes a step structure for installation limitation of the integrated equipment belt module.

In some exemplary embodiments, the first keel comprises two of the first panels and the second keel comprises two of the second panels;

wherein both end portions of one of the equipment-band panels are respectively fixed to the two first plate bodies or the two second plate bodies.

An assembled wall comprising the wall element and the integrated equipment belt module of any of the above embodiments;

wherein the integrated equipment belt module is inserted and installed to the wall unit.

In some exemplary embodiments, the wall unit includes a first support frame and first wall panels disposed on opposite sides of the first support frame;

first braced frame includes along the first recess that wall element thickness direction extends, the installation department plug-in connect to first recess.

In some exemplary embodiments, the wall unit includes a second support frame and second wall panels disposed on opposite sides of the second support frame;

wherein, the second braced frame is sunken in between two the second wallboard, the inboard of two the second wallboard is pegged graft to the elasticity portion.

Other aspects will be apparent upon reading and understanding the attached drawings and detailed description.

Drawings

The accompanying drawings are included to provide a further understanding of the embodiments herein and are incorporated in and constitute a part of this specification, illustrate embodiments herein and are not to be construed as limiting the embodiments herein.

FIG. 1 is a first schematic view of an arrangement of an integrated equipment belt module in some illustrative embodiments of the present application installed in a fabricated wall;

FIG. 2 is a second schematic illustration of an installation of an integrated equipment belt module into a fabricated wall according to some exemplary embodiments of the present application;

FIG. 3 is a first schematic structural view of an assembled wall according to some exemplary embodiments of the present application;

FIG. 4 is a second schematic structural view of an assembled wall according to some exemplary embodiments of the present application;

FIG. 5 is a third schematic structural view of an assembled wall according to some exemplary embodiments of the present application;

fig. 6 is a fourth schematic structural view of an assembled wall according to some exemplary embodiments of the present application.

Reference numerals are as follows:

100-integrated device tape module;

1-keel, 1 a-first side, 1 b-second side, 11-fixing part, 111-first keel, 111 a-first connecting plate, 111 b-first side plate, 111 c-first plate body, 112-second keel, 112 a-second connecting plate, 112 b-second side plate, 112 c-second plate body and 113-mounting part;

12-elastic part, 121-bending structure; 2-equipment with panel, 21-mounting port; 200-installation space;

300-wall element, 3-first support frame, 31-first recess, 32-first portion, 33-second portion, 4-first wall panel, 5-second support frame, 51-first member, 52-second member, 6-second wall panel.

Detailed Description

The technical scheme is further explained by the specific implementation mode in combination with the attached drawings. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations.

In one embodiment of the present application, as shown in fig. 1-6, an integrated equipment belt module 100 is provided. The integrated equipment belt module 100 includes a keel 1 and an equipment belt panel 2. The keel 1 is usually made of steel and is of a thin-walled design, and an installation space 200 is enclosed by the thin wall, and the installation space 200 is used for installing pipelines (not shown in the figure) and the like. The installation space 200 may have a rectangular cross section as shown in fig. 3 and 4, or may have a polygonal cross section as shown in fig. 5 and 6. The keel 1 can be provided with a round hole or a semicircular hole for a pipeline to pass through. Can realize the assembly that integrates of pipeline and fossil fragments 1, improve easy dismounting nature, optimize the structure of integrated equipment belt module 100.

As shown in fig. 3, the keel 1 includes oppositely disposed first and second sides 1a and 1 b. The first side 1a and the second side 1b have a distance in the thickness direction of the integrated device tape module 100. As shown, the thickness direction of the integrated device tape module 100 is the Y direction shown in the figure. The equipment belt panel 2 is usually made of plastic and is formed by injection molding, and the shape of the equipment belt panel can be rectangular. The equipment band panel 2 can be fixed to the first side 1a or the second side 1b in a snap fit manner, or the equipment band panel 2 can be fixed to the first side 1a or the second side 1b in a screw manner. The side to which the belt panel 2 is not mounted may be provided with a separate trim cover (not shown). Or based on the layout of the inner chamber, for example, the side without the installation equipment belt panel 2 is shielded by other objects, namely, is located in the invisible area, the part of the keel 1 can be directly exposed, and the overall cost of the product can be reduced under the condition of meeting the overall aesthetic property. In the embodiment of the present application, the description of the technical solution is made by taking the case where the equipment belt panel 2 is installed on both the first side 1a and the second side 1 b.

As shown in fig. 1, more than one mounting opening 21 is provided on the equipment belt panel 2 along the length direction of the integrated equipment belt module 100, i.e. the X direction as shown in the figure, and a plurality of mounting openings 21 can also be arranged in two or more rows along the X direction, the mounting openings 21 can be used for mounting sockets or switches, etc., and correspondingly, the pipelines located in the mounting space 200 are provided with matched wiring harness connectors (not shown in the figure) to realize the electrical connection of the components to be mounted.

As shown in fig. 3 to 6, the keel 1 is telescopically deformed in the Y direction, and the integrated equipment belt module 100 can be inserted into the wall unit 300 by using the telescopic capability of the keel 1, so as to realize the quick assembly of the keel and the wall unit and improve the practicability of the whole assembly wall. Taking fig. 3 and 4 as an example, the integrated equipment belt module 100 shown in fig. 3 is installed at the end of the wall unit 300, the free end of the integrated equipment belt module 100 can be directly abutted to the ground or other objects, and the integrated equipment belt module 100 shown in fig. 4 is installed at the middle of the wall unit 300, i.e., in the area other than the two end portions. When the installation, can exert along Y to the power of equipment area panel 2 for on the tip grafting of fossil fragments 1 is to the relevant position of wall body unit 300, after removing external force, equipment area panel 2 moves along Y under the effect of the elastic recovery power of fossil fragments 1, finally accomplishes the quick grafting assembly of fossil fragments 1 with wall body unit 300, accomplishes the equipment of integrated equipment area module 100 and wall body unit 300 promptly.

In some exemplary embodiments, as shown in fig. 3 to 6, the keel 1 includes a fixing portion 11 and an elastic portion 12. The elastic part 12 is connected to the fixing part 11, the elastic part 12 can be disposed in the middle of the fixing part 11 along the Z direction, and the fixing parts 11 on both sides of the elastic part 12 can be used to fix the equipment belt panel 2. The material of the elastic portion 12 and the fixing portion 11 may be the same or different, for example, a combination of common carbon structural steel (Q235) and spring steel (65Mn) may be selected, and as shown in fig. 3 and 4, the elastic portion 12 may be directly configured as a spring, so that the elastic portion 12 has the ability of stretching and deforming along the Y direction, and both ends of the spring along the Y direction are connected to the fixing portion 11. When the elastic portion 12 and the fixing portion 11 are made of the same material, as shown in fig. 5 and 6, the elastic portion 12 can be deformed in the Y direction by stretching or contracting due to the structural features. The keel 1 is provided with the fixing portion 11 and the elastic portion 12, so that the keel 1 is finely designed, the design quality is improved, and the overall cost of the integrated equipment belt module 100 is reduced.

In some exemplary embodiments, as shown in fig. 3 and 4, the fixation portion 11 includes a first keel 111 and a second keel 112. The first keel 111 and the second keel 112 are oppositely disposed along the Y direction and have a certain distance. The first keel 111 and the second keel 112 enclose an installation space 200. One end of the elastic part 12 is connected to the first keel 111, and the other end is connected to the second keel 112. The elastic portion 12 may be provided at the midpoint of the integrated device tape module 100 in the Z direction, may be provided at both ends of the integrated device tape module 100, or may be provided at a plurality of elastic portions 12 at intervals in the Z direction of the integrated device tape module 100.

In some exemplary embodiments, as shown in fig. 3 and 4, the first keel 111 includes a first side plate 111a and a first side plate 111b, the first side plate 111b extends inward along the Y direction, the first side plate 111a is perpendicular to the first side plate 111b, and the first side plate 111a extends along the Z direction. The first side plates 111b are located at two ends of the first connecting plate 111a, and can be integrally formed with the first connecting plate 111 a. The first connecting plate 111a and the first side plate 111b are formed in a U-shape or an H-shape in cross section. An equipment belt panel 2 is fixed on the first connecting plate 111a, and can be selected from screw connection, clamping connection and the like.

The second keel 112 comprises a second connecting plate 112a and a second side plate 112b, the second side plate 112b extends inward along the Y direction, that is, the first side plate 111b and the second side plate 112b extend oppositely, and the second connecting plate 112a and the second side plate 112b are designed perpendicularly. The second side plates 112b are located at both ends of the second connection plate 112a, and may be integrally formed with the second connection plate 112 a. The cross section of the second connecting plate 112a and the second side plate 112b is formed into a U shape, an H shape, or the like. The other equipment belt panel 2 is fixed on the second connecting plate 112a, and can be selected to be screwed or clamped and the like. The two equipment belt panels 2 are oppositely arranged along the Y direction.

One end of the elastic portion 12 is connected to the first connection plate 111a, and the other end is connected to the second connection plate 112 a. Mounting portions 113 are provided at both the end of the first side plate 111b and the end of the second side plate 112 b. As shown in fig. 4, the mounting portion 113 may be a straight plate, that is, the mounting portion 113 may be a portion of the first side plate 111b, and the mounting portion 113 may be a portion of the second side plate 112 b. The mounting portion 113 may also be separately manufactured and then connected to the end of the first side plate 111b and the end of the second side plate 112b, for example, welded, and the mounting portion 113 may also be an arc-shaped plate. Clamping ribs and the like. Wherein, the two opposite mounting portions 113 are used for inserting and fixing the integrated equipment belt module 100 to the wall unit 300.

In some exemplary embodiments, as shown in fig. 5 and 6, the first keel 111 includes a first plate 111c, and the second keel 112 includes a second plate 112 c. The first plate 111c and the second plate 112c may be configured to be the same, so as to reduce the number of parts and the manufacturing cost of the product. The first plate 111c and the second plate 112c are disposed opposite to each other, one of the device-equipped panels 2 is fixed to the first plate 111c, and the other device-equipped panel 2 is fixed to the second plate 112 c. One end of the elastic portion 12 is connected to the first plate 111c, and the other end is connected to the second plate 112 c.

Two first plate bodies 111c, two elastic parts 12 and two second plate bodies 112c may be disposed along the Z direction, that is, two end parts of one equipment belt panel 2 are respectively fixed on the two first plate bodies 111c or the two second plate bodies 112c along the Z direction, as shown in fig. 5, so that the two first plate bodies 111c, the two elastic parts 12 and the two second plate bodies 112c jointly enclose the installation space 200.

As shown in fig. 5 and 6, the elastic portion 12 may be a plate body provided with a bending structure 121 along the Y direction, for example, the bending structure 121 may be made of an elastic material such as spring steel (65Mn) so that the keel 1 can be telescopically deformed along the Y direction. The bending structure 121 may be a horizontal M-shape, or may be two or more M-shapes connected along the Y-direction. Both ends of the bending structure 121 are inserted and fixed into the wall unit 300. As shown in the drawings, a U-shaped space is provided at an end of the wall unit 300 to accommodate the bending structure 121, so as to realize a hidden design of the installation structure, thereby improving the overall appearance quality of the assembled wall.

As shown in the figure, the bending structure 121 includes a transverse V-shaped flap, and the V-shaped opening of the flap faces the wall unit 300, so that the keel 1 has a telescopic deformation along the Y-direction, and the utilization rate of the whole installation space 200 is also improved. The two sides of the M-shape, i.e., the portions where the V-shaped flaps are removed, may be extended to form the first panel 111c and the second panel 112c, respectively. The two first plate bodies 111c, the two second plate bodies 112c and the two elastic parts 12 may be integrally formed, as shown in fig. 6.

In some exemplary embodiments, as shown in fig. 5, the first plate 111c, the elastic portion 12 and the second plate 112c may be integrally formed to reduce assembling operations, improve assembling efficiency and improve overall structural strength.

In some exemplary embodiments, as shown in fig. 5 and 6, the first plate 111c includes a step structure, which may be used for installation limitation of the integrated equipment belt module 100. As shown in the figure, in the process of assembling the integrated equipment belt module 100, when the step structure abuts against the end surface of the wall unit 300 during plugging, the plugging cannot be continued, that is, the installation limit of the integrated equipment belt module 100 along the installation direction (Z direction) is realized.

In yet another embodiment of the present application, a fabricated wall body is provided, as shown in fig. 1-6. The assembled wall includes a wall unit 300 and an integrated equipment belt module 100 as described in any of the above embodiments. Wherein the integrated equipment belt module 100 is plug-mounted to the wall unit 300. Since the assembly wall includes the integrated device band module 100 according to any of the above embodiments, all the above advantages are achieved, and are not described herein again.

In some exemplary embodiments, as shown in fig. 3 and 4, the wall unit 300 includes a first support frame 3 and first wall panels 4 disposed at two opposite sides of the first support frame 3. The first wall panel 4 may be a gypsum board or rock wool board, or a combination of a gypsum board and a flexible material, such as a combination of a gypsum board and a heat insulating mat, the gypsum board being located on the outer side of the wall unit 300, i.e., on the side of the design surface. The heat insulating mat can be bonded to gypsum board, etc. The first wall panel 4 may be screwed to the first support frame 3, etc. The first support frame 3 includes a first groove 31 extending in the Y direction, and the mounting portion 113 of the integrated equipment belt module 100 is insertedly fixed into the first groove 31. As shown in fig. 4, when the equipment band panel 2 is installed at the middle of the wall unit 300, the first support frame 3 includes a first part 32 and a second part 33. The first part 32 and the second part 33 are arranged oppositely along the Z direction, first grooves 31 are arranged at the end part of the first part 32 and the end part of the second part 33, two first grooves 31 at one side of the wall unit 300 are used for inserting and fixing one equipment belt panel 2, and two first grooves 31 at the other side of the wall unit 300 are used for inserting and fixing the other equipment belt panel 2 or a decorative cover plate. During the assembly operation, the equipment belt panel 2 may be pulled outward along the Y direction to realize the insertion of the mounting portion 113 and the first groove 31, and after the external force is removed, the assembly of the integrated equipment belt module 100 and the wall unit 300 is realized under the elastic restoring force of the elastic portion 12.

In some exemplary embodiments, as shown in fig. 5 and 6, the wall unit 300 includes a second support frame 5 and second wall panels 6 disposed at two opposite sides of the second support frame 5. The second wall panel 6 may be a gypsum board or rock wool board, or a combination of a gypsum board and a flexible material, such as a combination of a gypsum board and a heat insulating mat, the gypsum board being located on the outer side of the wall unit 300, i.e. on the side of the design surface. The heat insulating mat can be bonded to gypsum board, etc. The second wall panel 6 may be bolted to the second support frame 5, etc.

As shown in fig. 5, the second support frame 5 includes two members, a first member 51 and a second member 52, the first member 51 and the second member 52 may be both configured as C-shaped keels, the two C-shaped keels may be disposed oppositely, and the first member 51 and the second member 52 may be configured as identical structures, so as to reduce the number of parts and the overall cost of the product. A second wall panel 6 may be secured to both side panels of the C-shaped keel. When the second support frame 5 is divided into two members, the second wall panel 6 can be divided into a first sub-wall panel and a second sub-wall panel, respectively, i.e. a combined structure of the wall unit 300 is achieved. As shown in fig. 5, wall element 300 located to the left of integrated equipment belt module 100 may be referred to as a first sub-wall element, and wall element 300 located to the right of integrated equipment belt module 100 may be referred to as a second sub-wall element. In the structure of the entire assembly wall, two or more integrated device tape modules 100 may be provided according to actual application scenarios. In the arrangement of the whole assembly wall, the integrated equipment belt module 100 can be arranged horizontally, i.e. parallel to the ground, or vertically, i.e. perpendicular to the ground, and can be flexibly arranged according to the actual use scene of the assembly wall.

As shown in fig. 5 and 6, the second supporting frame 5 is recessed between the two second wall panels 6, that is, a certain accommodating space is formed between the second wall panels 6 and the second supporting frame 5, and the bending structure 121 of the elastic portion 12 is inserted into the inner sides of the two second wall panels 6. During the assembly, can follow Y to pressing integrated equipment area module 100 to in making the both sides of bending structure 121 peg graft two second wallboard 6, loosen the back, under the effect of elastic recovery power of elastic component 12, make the both sides chucking of bending structure 121 on the inner wall of two second wallboard 6, realize the equipment of assembled wall body promptly.

In some exemplary embodiments, as shown in fig. 6, the two ends of the equipment belt panel 2 in the integrated equipment belt module 100 along the Z direction exceed the two ends of the keel 1, that is, the recessed arrangement of the keel 1 is realized. After assembling integrated equipment belt module 100 and wall body unit 300 in place, two second wallboards 6 are pegged graft in two equipment belt panels 2, and from the outward appearance, equipment belt panel 2 appears suspending in the visual effect on second wallboard 6, also makes the splicing seam along Z direction after integrated equipment belt module 100 and wall body unit 300 assemble, converts to along Y to splicing seam, reduces the visuality of splicing seam to promote the pleasing to the eye degree of outward appearance.

In the description herein, the terms "upper", "lower", "one side", "the other side", "one end", "the other end", "side", "opposite", "four corners", "periphery", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing embodiments of the present application and simplifying the description, but do not indicate or imply that the structures referred to have a particular orientation, are configured and operated in a particular orientation, and thus, should not be construed as limiting the present disclosure.

In the description of the embodiments of the present application, unless otherwise explicitly stated or limited, the terms "connected," "directly connected," "indirectly connected," "fixedly connected," "mounted," and "assembled" are to be construed broadly and, for example, may be fixedly connected, detachably connected, or integrally connected; the terms "mounted," "connected," and "fixedly connected" may be directly connected or indirectly connected through intervening media, or may be connected through two elements. The specific meaning of the above terms herein can be understood in a specific context to one of ordinary skill in the art.

Although the embodiments disclosed herein are described above, the descriptions are only for the convenience of understanding the embodiments and are not intended to limit the disclosure. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure, and that the scope of the disclosure herein is to be limited only by the appended claims.

Claims (12)

1. An integrated equipment belt module, comprising:

the keel is provided with an installation space for installing the pipeline; and

the equipment belt panel is fixed to at least one of two opposite sides of the keel and is provided with more than one mounting opening;

the keel is telescopic and deformable in the thickness direction of the integrated equipment belt module, so that the integrated equipment belt module is inserted into the wall unit.

2. The integrated equipment belt module of claim 1, wherein the keel comprises:

a fixed part; and

an elastic part connected with the fixing part;

wherein the equipment belt panel is fixed to the fixing portion, and the elastic portion is telescopically deformed in a thickness direction of the integrated equipment belt module.

3. The integrated device tape module of claim 2, wherein the fixing portion comprises:

a first keel; and

the second keel and the first keel are arranged at intervals along the thickness direction of the integrated equipment belt module;

one end of the elastic part is connected with the first keel, and the other end of the elastic part is connected with the second keel.

4. The integrated equipment belt module of claim 3, wherein the first spine comprises a first connecting plate and a first side plate connected to both ends of the first connecting plate;

the second keel comprises a second connecting plate and second side plates connected with two ends of the second connecting plate;

one end of the elastic part is connected with the first connecting plate, and the other end of the elastic part is connected with the second connecting plate; the tip of first curb plate with the tip of second curb plate all is equipped with the installation department, the installation department be used for with integrated equipment takes the module to peg graft extremely wall body unit.

5. The integrated equipment belt module of claim 3, wherein the first runner comprises a first plate and the second runner comprises a second plate; one end of the elastic part is connected with the first plate body, and the other end of the elastic part is connected with the second plate body;

the elastic part is a plate body provided with a bending structure along the thickness direction of the integrated equipment belt module, and two ends of the bending structure along the thickness direction of the integrated equipment belt module are inserted into the wall unit.

6. The integrated equipment belt module of claim 5, wherein the fold structure comprises a flap having a transverse V-shape with a V-shaped opening facing the wall unit.

7. The integrated equipment belt module of claim 5, wherein the first plate, the resilient portion, and the second plate are of integrally formed construction.

8. The integrated equipment belt module of any one of claims 5 to 7, wherein the first plate body comprises a step structure for mounting limit of the integrated equipment belt module.

9. The integrated equipment belt module of any of claims 5 to 7, wherein the first runner comprises two of the first panels and the second runner comprises two of the second panels;

wherein both end portions of one of the equipment-band panels are respectively fixed to the two first plate bodies or the two second plate bodies.

10. An assembled wall comprising the wall unit and the integrated equipment belt module of any one of claims 1 to 9;

wherein the integrated equipment belt module is inserted and installed to the wall unit.

11. The fabricated wall of claim 10, wherein the integrated equipment belt module is the integrated equipment belt module of claim 4;

the wall unit comprises a first support frame and first wallboards arranged on two opposite sides of the first support frame;

first braced frame includes along the first recess that wall element thickness direction extends, the installation department plug-in connect to first recess.

12. The fabricated wall of claim 10, wherein the integrated equipment belt module is an integrated equipment belt module of any one of claims 5 to 9;

the wall unit comprises a second support frame and second wallboards arranged on two opposite sides of the second support frame;

wherein, the second braced frame is sunken in between two the second wallboard, the inboard of two the second wallboard is pegged graft to the elasticity portion.

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