阅读说明：本技术 一种复合板集成墙体模块及其安装方法 (Composite board integrated wall module and installation method thereof ) 是由 闫俊杰 梅能敏 王龙涛 赵静 邵俊义 贾路 于 2021-10-14 设计创作，主要内容包括：本发明涉及建筑装饰技术领域,尤其涉及一种复合板集成墙体模块及其安装方法,包括有：天龙骨、地龙骨、墙体A与墙体B,天龙骨与地龙骨分别连接在墙体A与墙体B的上下两端,墙体A包括有横条板、竖条板A与竖条板B,竖条板A与竖条板B分别固定连接在横条板A的两侧,墙体B设置在竖条板A的一侧,墙体B与竖条板A之间相互固定连接,墙体B包括有竖条板C与竖条板D,竖条板C与竖条板D之间相互连接,在竖条板C与竖条板D之间的连接处设置有隔音垫,隔音垫与竖条板C、竖条板D之间的缝隙处通过粘接胶相互粘接。本发明采用L形天地龙骨方便墙体模块轻松顺畅的推进龙骨的卡槽内,安装效率提升2倍,且不会造成墙体的磕碰。(The invention relates to the technical field of architectural decoration, in particular to a composite board integrated wall module and an installation method thereof, wherein the composite board integrated wall module comprises the following steps: the wall body B sets up in vertical slat A's one side, mutual fixed connection between wall body B and the vertical slat A, wall body B is including vertical slat C and vertical slat D, interconnect between vertical slat C and the vertical slat D, junction between vertical slat C and the vertical slat D is provided with the acoustic celotex pad, acoustic celotex pad and vertical slat C, gap department between the vertical slat D bonds through the bonding glue each other. The L-shaped ceiling keel is adopted to facilitate the wall body module to be easily and smoothly pushed into the clamping groove of the keel, the installation efficiency is improved by 2 times, and the wall body cannot be collided.)

1. A composite board integrated wall module is characterized by comprising: the wall comprises a ceiling keel, a ground keel, a wall body A (1) and a wall body B (11), wherein the ceiling keel and the ground keel are respectively connected to the upper end and the lower end of the wall body A (1) and the wall body B (11);

the wall body A (1) comprises a transverse strip plate (12), a vertical strip plate A (2) and a vertical strip plate B (3), wherein the vertical strip plate A (2) and the vertical strip plate B (3) are respectively and fixedly connected to two sides of the transverse strip plate (12), the wall body B (11) is arranged on one side of the vertical strip plate A (2), and the wall body B (11) and the vertical strip plate A (2) are mutually and fixedly connected;

the wall body B (11) comprises a vertical bar plate C (24) and a vertical bar plate D (25), the vertical bar plate C (24) and the vertical bar plate D (25) are connected with each other, a sound insulation pad (27) is arranged at the joint between the vertical bar plate C (24) and the vertical bar plate D (25), the sound insulation pad (27), the vertical bar plate C (24) and the vertical bar plate D (25) are spliced with each other, and the sound insulation pad (27) is mutually bonded with the gaps of the vertical bar plate C (24) and the vertical bar plate D (25) through bonding glue;

seted up wire casing (26) on vertical slat B (3), installed detachable apron (35) on wire casing (26), at wire casing (26) internally mounted have an electric unit, the electric unit including electricity box (7) and spool (8), electricity box (7) inlay in wire casing (26) of vertical slat B (3), interconnect between electricity box (7) and spool (8), install connection piece (32) in the inside wall department of electricity box (7), locate an organic whole at the lateral wall of electricity box (7) and be connected with two reinforcement pieces (28), electricity box (7) are through the surface reciprocal anchorage of reinforcement piece (28) and vertical slat B (3).

2. The composite board integrated wall module according to claim 1, wherein a slot (18) is formed in each of the top keel and the bottom keel along the length direction of the wall A (1), and a plurality of fixing pieces B (10) are arranged on one side of each of the top keel and the bottom keel at intervals.

3. A composite panel integrated wall module according to claim 2, wherein: the ceiling keel comprises a top keel A (4) and a top keel B (20), the top keel A (4) is fixed at the upper end of the wall A (1), and the top keel B (20) is fixed at the upper end of the wall B (11).

4. The composite board integrated wall module according to claim 2, wherein the floor keel comprises a bottom keel A (5), a bottom keel B (6), a bottom keel C (21) and a bottom keel D (33), two sides of the bottom keel D (33) are respectively fixed with the vertical bar board A (2) and the vertical bar board B (3) through two side connecting pieces (14), and a plurality of fixing pieces A (9) are arranged on one side of the bottom keel D (33) at intervals.

5. The composite board integrated wall module according to claim 2, wherein the fixing piece B (10) can be bent relative to the connection between the fixing piece B and the groove bottom of the clamping groove (18), and is attached to the wall a (1) and detachably connected to the wall a (1).

6. A composite panel integrated wall module as claimed in claim 1, wherein a plurality of external corner reinforcing panels (15) are installed at the junction between the vertical panel a (2) and the wall B (11) and spaced apart from each other.

7. A composite panel integrated wall module according to claim 1, characterised in that the front end of the wall B (11) is fitted with a decorative panel (14).

8. The method of installing a composite panel integrated wall module according to claim 1, comprising the steps of:

s1, firstly, fixing the top keel and the bottom keel by using metal expansion screws, wherein the length of the top keel and the length of the bottom keel are required to be consistent with the length of the wall body;

s2, inserting the transverse batten (12) subjected to accurate cutting into a clamping space between the vertical batten A (2) and the vertical batten B to enable the transverse batten (12) to be placed in a clamping groove of the top keel A (4), inserting the transverse batten (12) into I-shaped slots of the vertical batten A (2) and the vertical batten B (3) in a mutual insertion mode, and fixing the fixing piece B (10) of the top keel, the vertical batten A (2) and the vertical batten B (3) through a fiber screw with a Chinese character 'mi' shaped head;

s3, folding the fixing sheet B (10) on the skulls, fastening the fixing sheet B by using a fiber screw with a Chinese character 'mi' shape, placing a bottom keel D (33) with the same length as the cross slab (12) at the lower end of the cross slab (12), and placing the cross slab (12) in a clamping groove of the bottom keel D (33);

s4, folding the fixing piece A (9) on the bottom keel D (33) to fix the cross strip plate (12), fastening the fixing piece A (9) by using a fiber screw with a Chinese character mi shape, and connecting the bottom keel D (33) with the vertical strip plate A (2) and the vertical strip plate B (3) through the side connecting piece (34) of the bottom keel D (33);

s5, mutually connecting a vertical batten C (24) and a vertical batten D (25) to form a wall body B (11), installing a sound insulation pad (27) at the joint between the vertical batten C (24) and the vertical batten D (25), installing the wall body B (11) at one side of the wall body A (1), and filling and bonding all gaps among the vertical batten A (2), the transverse batten (12), the vertical batten B (3), the vertical batten C (24) and the vertical batten D (25) by using bonding glue;

s6, embedding the U-shaped clamping piece (17) into the wall B (11) at the male and female corners to fix the wall B (11) at the male and female corners;

and S7, mounting a cover plate (35) at the position of the wire groove (26) of the vertical bar plate B (3) with the prefabricated electric unit, cutting off the cover plate (35) during field mounting to connect the electric unit, adhering the cover plate (35) back to the position of the wire groove (26), and restoring the decorative plate.

Technical Field

The invention relates to the technical field of architectural decoration, in particular to a composite board integrated wall module and an installation method thereof.

Background

At present, traditional world fossil fragments are the U-shaped, and the ALC board is very big to the degree of difficulty when 2 relative U-shaped inslots impel, very easily causes the damage of ALC board, and it is embedded that especially circuit pipeline needs the on-the-spot fluting, causes a large amount of dusts and has noise pollution's problem easily, can't cross operation with other processes moreover, for example: the top surface is puttied and painted, and dust of the ALC plate slot can pollute the top surface; ALC board is when fixed with the structure wall, need make a pin, the reinforcing bar slant inserts in the structure wall, the operation carelessly can cause the destruction of structure wall, and the ALC board has self breakable shock resistance relatively poor, the great problem of being difficult to the transport of dead weight, present traditional ALC wall body and structure top surface, ground, the structure wall, and all adopt cement to glue the packing between 2 adjacent wall body gaps, there is the material curing cycle length, the poor technical problem of sound insulation effect, and traditional wall body way is different, all kinds of materials need field processing (fossil fragments, rock wool, gypsum board), there is construction environment poor, noise pollution, the material waste, the problem that the work efficiency is low.

At present, the construction quality of the traditional wall body method completely depends on the technical level of constructors, the technical level of operators is uneven, the construction quality can not be unified, and the following defects exist:

1. traditional ALC wall body spare part is more, and on-the-spot cutting, installation process are complicated, and the labour is intensive.

2. Traditional world fossil fragments are the U-shaped, and the ALC board is very big when impelling to 2 relative U-shaped inslots, very easily causes the damage of ALC board.

3. Especially, the water and electricity pipeline needs the on-the-spot fluting to be embedded, causes a large amount of dust, noise pollution, can't with other process cross operation, for example: the dust of ALC plate slotting can pollute the top surface of the ALC plate when the top surface is puttied and painted.

4. When the ALC board is fixed with the structure wall, the ALC board needs to be pinned and the reinforcing steel bars are obliquely inserted into the structure wall, the structure wall is damaged due to careless operation, and the ALC board is fragile, poor in impact resistance and large in dead weight and is difficult to carry.

5. The gaps between the traditional ALC wall body and the top surface of the structure, the ground, the wall surface of the structure and the gaps between the adjacent 2 wall body blocks are filled with cement glue, the curing period is long, and the sound insulation effect is poor.

6. And the ALC board needs to be processed in a special shape and overlapped when meeting the position of the door opening. The processing and the installation are complex.

7. In addition, the flatness of the panel surface of the ALC wall body is poor after the ALC wall body is installed, putty is still needed to be used for leveling, or plasterboard is paved and pasted for leveling, and the waste of materials and time is caused by the increase of working procedures.

There is therefore a need for a composite panel integrated wall module and method of installation that addresses the above-mentioned problems.

Disclosure of Invention

The invention provides a composite board integrated wall module and an installation method thereof, the structure integration degree is higher, the ceiling keel and the ground keel in the invention are both L-shaped keels in a model, and are clamped and nailed and fixed with a wall body in a mode of manually breaking a fixing piece B, the wall module is conveniently and smoothly pushed into a clamping groove of the keel by adopting the L-shaped ceiling keel, the installation efficiency is improved by 2 times, the wall body is not collided, sound insulation pads and micro-foaming glue processes are adopted between the wall body A and the structure top surface, the ground, the structure wall body and the gaps between the vertical strip plates C and the vertical strip plates in the wall body B for filling, and the compactness sound insulation effect is good.

The technical scheme adopted by the invention for solving the technical problems is as follows: a composite panel integrated wall module comprising: the top keel, the ground keel, the wall A and the wall B are respectively connected to the upper end and the lower end of the wall A and the wall B;

the wall body A comprises a transverse strip plate, a vertical strip plate A and a vertical strip plate B, wherein the vertical strip plate A and the vertical strip plate B are respectively and fixedly connected to two sides of the transverse strip plate, the wall body B is arranged on one side of the vertical strip plate A, and the wall body B and the vertical strip plate A are mutually and fixedly connected;

the wall body B comprises a vertical strip plate C and a vertical strip plate D which are mutually connected, a sound insulation pad is arranged at the joint between the vertical strip plate C and the vertical strip plate D, the sound insulation pad is mutually spliced with the vertical strip plate C and the vertical strip plate D, and the sound insulation pad is mutually bonded with the gaps of the vertical strip plate C and the vertical strip plate D through bonding glue;

the utility model discloses a vertical slat B, including erects slat B, erect slat B, install detachable apron on the wire casing, install electric unit on the wire casing, electric unit is including electric box and spool, electric box inlay in erect slat B's in-line groove, interconnect between electric box and the spool installs the connection piece in the inside wall department of electric box, locates an organic whole at the lateral wall of electric box to be connected with two reinforcement pieces, and electric box is through reinforcement piece and vertical slat B's surface reciprocal anchorage.

Further, all be formed with one in day fossil fragments and the ground keel and follow the draw-in groove that wall body A length direction set up, equal interval is provided with many stationary blades B in one side of day fossil fragments and ground keel.

Further, the ceiling keel comprises a top keel A and a top keel B, the top keel A is fixed at the upper end of the wall A, and the top keel B is fixed at the upper end of the wall B.

Further, the ground keel comprises a bottom keel A, a bottom keel B, a bottom keel C and a bottom keel D, the two sides of the bottom keel D are fixed with the vertical strip plate A and the vertical strip plate B through two side connecting pieces respectively, and a plurality of fixing pieces A are arranged on one side of the bottom keel D at intervals.

Furthermore, the fixing piece B can be bent relative to the connection position of the fixing piece B and the groove bottom of the clamping groove, is attached to the wall body A and is detachably connected with the wall body A.

Furthermore, a plurality of external corner reinforcing sheets arranged at intervals are arranged at the joint between the vertical strip plate A and the wall body B.

Furthermore, a decoration panel is installed at the front end of the wall body B.

A method for installing a composite board integrated wall module comprises the following steps:

s1, firstly, fixing the top keel and the bottom keel by using metal expansion screws, wherein the length of the top keel and the length of the bottom keel are required to be consistent with the length of the wall body;

s2, inserting the transverse batten after accurate cutting into the space between the vertical batten A and the vertical batten, placing the transverse batten in the clamping groove of the top keel A, inserting the transverse batten with the I-shaped slots of the vertical batten A and the vertical batten B into each other, and fixing the fixing piece B of the top keel with the vertical batten A and the vertical batten B by using a fiber screw with a Chinese character 'mi' -shaped head;

s3, folding the fixing sheet B on the skullar keel, fastening the fixing sheet B by using a fiber screw with a Chinese character 'mi' shaped head, placing a bottom keel D with the same length as the horizontal batten at the lower end of the horizontal batten, and placing the horizontal batten in a clamping groove of the bottom keel D;

s4, folding the fixing piece A on the bottom keel D to fix the transverse batten, fastening the fixing piece A by using a fiber screw with a Chinese character 'mi' head, and connecting the bottom keel D with the vertical batten A and the vertical batten B through the side connecting piece of the bottom keel D;

s5, connecting the vertical strip plates C and the vertical strip plates D with each other to form a wall body B, installing a sound insulation pad at the joint between the vertical strip plates C and the vertical strip plates D, installing the wall body B at one side of the wall body A, and filling and bonding all gaps among the vertical strip plates A, the transverse strip plates, the vertical strip plates B, the vertical strip plates C and the vertical strip plates D by using bonding glue;

s6, embedding the U-shaped clamping piece into the wall B at the yin-yang angular position to fix the wall B at the yin-yang angular position;

and S7, mounting a cover plate at the slot of the vertical bar plate B prefabricated with the electric unit, cutting off the cover plate during field mounting to connect the electric unit, adhering the cover plate back to the slot, and restoring the decorative plate.

The invention has the advantages that: the invention provides a composite board integrated wall module and an installation method thereof, and the composite board integrated wall module has the following advantages:

1. the invention has higher structure integration degree, and the ceiling keel and the ground keel in the invention both adopt L-shaped keels in the model, and are clamped and nailed and fixed with the wall body in the form of bending fixing pieces B.

2. The L-shaped ceiling keel is adopted to facilitate the wall body module to be easily and smoothly pushed into the clamping groove of the keel, the installation efficiency is improved by 2 times, and the wall body cannot be collided.

3. In the invention, the electric box and the electric pipe are prefabricated in the wall A before leaving a factory by the position module locally needing the electric box and the keel, and on-site secondary operation is not needed.

4. The U-shaped clamping pieces connected with the top and bottom keels and the structural wall are all arranged in a straight line at fixed intervals by adopting the fixed expansion plugs, and the structural frame cannot be greatly loaded due to the fact that the wall body is light in weight.

5. In the invention, the gaps between the wall A and the top surface of the structure, between the wall surface of the structure and between the vertical batten C and the vertical batten plate in the wall B are filled by adopting sound insulation pads and micro-foaming glue processes, so that the compactness and the sound insulation effect are good.

6. The wall body of the invention has higher installation flatness, and can be directly provided with a veneer or paved with wallpaper wall cloth.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 and fig. 2 are schematic perspective views of a composite board integrated wall module according to the present invention;

fig. 3 and 4 are schematic structural views of the decorative panel of the invention;

FIG. 5 is an enlarged schematic view of the top keel A of the present invention;

FIG. 6 is an enlarged view of the vertical bar plate of the present invention;

FIG. 7 is a schematic view of a portion of the enlarged structure of FIG. 6A;

FIG. 8 is a schematic sectional view of a connecting gap between a vertical bar plate C and a vertical bar plate D according to the present invention;

wherein:

1. a wall body A; 2. A vertical strip plate A; 3. A vertical strip plate B;

4. a top keel A; 5. A bottom keel A; 6. A bottom keel B;

7. an electrical box; 8. A conduit; 9. A fixing sheet A;

10. a fixing sheet B; 11. A wall body B; 12. A horizontal plate;

13. a silencing cotton sliver; 14. A decorative panel; 15. External corner reinforcing sheets;

16. fixing the expansion plug; 17. A U-shaped clamping piece; 18. A card slot;

19. foaming glue; 20. A top keel B; 21. A bottom keel C;

22. a connecting hole A; 23. A connecting hole B; 24. A vertical strip plate C;

25. a vertical strip plate D; 26. A wire slot; 27. A sound insulating pad;

28. a reinforcing sheet; 29. A base plate; 30. A top plate;

31. a side plate; 32. Connecting sheets; 33. A bottom keel D;

34. a side connection; 35. And (7) a cover plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly specified or limited, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

fig. 1 and 2 are schematic perspective views of a composite plate integrated wall module according to the present invention, fig. 3 and 4 are schematic structural views of a decorative panel according to the present invention, fig. 5 is an enlarged structural view of a ceiling keel a according to the present invention, fig. 6 is an enlarged structural view of a riser strip according to the present invention, fig. 7 is an enlarged structural view of a part of fig. 6A, fig. 8 is a sectional structural view of a connecting gap between a riser strip C and a riser strip D according to the present invention, and the modular wall includes, as shown in fig. 1 to 8, a composite plate integrated wall module and an installation method thereof, the modular wall includes: the wall comprises a ceiling keel, a ground keel, a wall body A1 and a wall body B11, wherein the ceiling keel and the ground keel are respectively connected to the upper end and the lower end of the wall body A1 and the wall body B11; the wall A1 comprises a horizontal strip 12, a vertical strip A2 and a vertical strip B3, wherein the vertical strip A2 and the vertical strip B3 are respectively and fixedly connected with two sides of the horizontal strip 12A, the wall B11 is arranged on one side of the vertical strip A2, and the wall B11 and the vertical strip A2 are mutually and fixedly connected; wall body B11 is including vertical slat C24 and vertical slat D25, interconnect between vertical slat C24 and the vertical slat D25, junction between vertical slat C24 and vertical slat D25 is provided with sound insulation pad 27, sound insulation pad 27 and vertical slat C24, gap department between vertical slat D25 bonds through the adhesive, adopt sound insulation pad 27 and little foaming glue technology to fill in gap department, can effectively play syllable-dividing effect and solidification cycle weak point, closely knit degree sound insulation effect is good.

Example 2:

fig. 1 and 2 are schematic perspective views of a composite board integrated wall module according to the present invention, fig. 3 and 4 are schematic structural views of a decorative panel according to the present invention, fig. 5 is an enlarged structural view of a ceiling keel a according to the present invention, fig. 6 is an enlarged structural view of a riser according to the present invention, fig. 7 is an enlarged structural view of a part of fig. 6A, fig. 8 is a sectional structural view of a connection gap between a riser C and a riser D according to the present invention, fig. 1 to 8 show a composite board integrated wall module and a method for installing the same, a trunking 26 is formed in a riser B3 in the modular wall, an electrical unit is installed inside the trunking 26, the electrical unit includes an electrical box and a conduit 8, the electrical box is embedded in the trunking 26 of the riser B3, the electrical box is connected to the conduit 8, the height of the wall a1 and the wall B11 according to the present invention is 10-15mm less than the elevation of a room, the electric box is more than or equal to 150mm away from any side edge of the vertical strip plate B3, more than or equal to 100mm away from any side edge of the water consumption point module, the electric box consists of a top plate 30, a bottom plate 29 and side plates 31, the top plate 30 and the bottom plate 29 are fixedly connected with each other, through holes are formed in the side plates 31, the top plate 30 and the bottom plate 29, connecting plates 32 are arranged on the inner sides of the side plates 31, the connecting plates 32 can be connected with an external socket plate to achieve the effect of electricity connection, reinforcing plates 28 are respectively connected to two sides of the electric box, and the electric box can be mutually fixed with the surfaces of the vertical strip plates B3 through the reinforcing plates 28 and fixing screws, so that the electric box is simple and convenient to install and has strong flexibility.

Example 3:

fig. 1 and 2 are schematic perspective views of a composite board integrated wall module disclosed by the present invention, fig. 3 and 4 are schematic structural views of a decorative panel of the present invention, fig. 5 is an enlarged structural view of a top keel a of the present invention, fig. 6 is an enlarged structural view of a vertical strip plate of the present invention, fig. 7 is a partially enlarged structural view of a place of fig. 6A, fig. 8 is a sectional structural view of a connecting gap between a vertical strip plate C and a vertical strip plate D of the present invention, as shown in fig. 1 to 8, a composite board integrated wall module and an installation method thereof, a fastening groove 18 provided along a length direction of a wall a1 is formed in each of a top keel and a bottom keel, the wall a1 is inserted into the fastening groove 18 of the top keel and the bottom keel, a plurality of fastening pieces B10 are connected to one side of lower ends of the top keel and the bottom keel, a fastening piece B10 is connected between the top keel and the fastening pieces, The keel is characterized in that the length direction of the ground keel is arranged at intervals, the ceiling keel and the ground keel are connected with the wall A1 through a plurality of fixing pieces B10, the ceiling keel comprises a top keel A4 and a top keel B20, the top keel A4 is connected with a top keel B20, the top keel A4 is fixed at the upper end of the wall A1, the top keel B20 is fixed at the upper end of the wall B11, the ground keel comprises a bottom keel A5, a bottom keel B6 and a bottom keel C21, a gap of 1 mm-3 mm is tightly attached or reserved between the bottom keel B6 and the bottom keel C21, the fixing pieces B10 can be bent relative to the connection part of the bottom of the slot 18 and attached to the wall A1 and detachably connected with the wall A1, when the fixing pieces B10 can be folded at 90 degrees to fix the wall, the wall is fastened by using cross-head fiber screws, the installation is convenient, and the distance between the center points of a plurality of the ceiling keel B10 of the fixing pieces of the bottom keel is consistent with that of the fixing pieces B10, the shape of the fixing piece B10 can adopt any one of a straight line shape, an L shape or a U shape, wherein the distance between the central points of the fixing pieces B10 is less than or equal to 500-550 mm, and the cutting injury prevention processing treatment is performed, the standard length is 3M, 2C-shaped keels are required to be arranged when the width of the wall body is less than or equal to 400, 3C-shaped keels are required to be arranged when the width of the wall body is more than or equal to 400, and one of the three C-shaped keels is 300 long and is arranged at the bottom of the wall body.

Example 4:

fig. 1 and 2 are schematic perspective views of a composite board integrated wall module disclosed by the present invention, fig. 3 and 4 are schematic structural views of a decorative panel of the present invention, fig. 5 is an enlarged structural view of a ceiling keel a of the present invention, fig. 6 is an enlarged structural view of a vertical strip plate of the present invention, fig. 7 is a partially enlarged structural view at fig. 6A, fig. 8 is a cross-sectional structural view of a connecting gap between a vertical strip plate C and a vertical strip plate D of the present invention, and the mounting method of the composite board integrated wall module shown in fig. 1 to 8 includes the following steps:

s1, firstly, tightly attaching or leaving a gap of 1-3 mm between a top keel A4 and a top keel B20 in the ceiling keel, wherein the length of the ceiling keel is required to be consistent with the length of a wall body, and then installing and fixing the ceiling keel by using metal expansion screws; closely attaching or leaving a gap of 1-3 mm between a bottom keel B6 and a bottom keel C21 in the ground keel, wherein the length of the ground keel is required to be consistent with the length of a wall body, and then installing and fixing the ground keel by using metal expansion screws;

s2, inserting the transverse strip plate 12 after accurate cutting into the clamping space between the vertical strip plate A2 and the vertical strip plate B3, placing the transverse strip plate 12 in the clamping groove of the top keel A4, inserting the transverse strip plate 12, the vertical strip plate A2 and the I-shaped slot of the vertical strip plate B3 into each other, and fixing the fixing piece B10 of the top keel, the vertical strip plate A2 and the vertical strip plate B3 by using a fiber screw with a Chinese character 'mi' head;

s3, folding the fixing plate B10 on the skyrockey, fastening the fixing plate B10 by using a fiber screw with a Chinese character 'mi' head, placing the bottom keel D33 with the same length as the cross slab 12 at the lower end of the cross slab 12, and placing the cross slab 12 in a clamping groove of the bottom keel D33;

s4, folding the fixing piece A9 on the bottom keel D33 to fix the cross board 12, fastening the fixing piece A9 by a fiber screw with a Chinese character 'mi' head, and connecting the bottom keel D33 with the vertical board A2 and the vertical board B3 through the side connecting piece 34 of the bottom keel D33;

s5, connecting a vertical strip plate C24 and a vertical strip plate D25 with each other to form a wall body B11, installing a sound insulation pad 27 at the joint between the vertical strip plate C24 and the vertical strip plate D25, installing a wall body B11 at one side of the wall body A1, and filling and bonding all gaps among the vertical strip plate A2, the transverse strip plate 12, the vertical strip plate B3, the vertical strip plate C24 and the vertical strip plate D25 by using bonding glue;

s6, embedding the U-shaped clamping piece 17 into the wall B11 at the yin-yang angular position, and fixing the wall B11 at the yin-yang angular position;

s7, installing a cover plate 35 at the position of the wire groove 26 of the vertical bar plate B3 prefabricated with the electric unit, cutting off the cover plate 35 during field installation to connect the electric unit, adhering the cover plate 35 back to the position of the wire groove 26, and restoring the decorative plate;

s8, installing any one of the decoration panels 14 of the foaming and shock absorbing panel or the sound deadening and shock absorbing panel at the front end of the wall B11, as shown in the attached figures 3 and 4 of the specification, wherein the foaming and shock absorbing panel can adopt a five-cake lattice filling and shock stopping structure or a spaced bonding and shock stopping structure of a plurality of sound deadening cotton slivers 13.

The working mode is as follows: the invention provides a composite board integrated wall module and an installation method thereof, when a modular wall is installed, each wall is preferably installed clockwise from one side of a structural wall, firstly, a metal expansion screw is used for installing and fixing a top keel and a ground keel, the length of the top keel and the ground keel is required to be consistent with that of the wall, a transverse slab after accurate cutting is inserted into a gap between a vertical slab A and the vertical slab, the transverse slab is arranged in a clamping groove of a top keel A, the transverse slab is mutually inserted and connected with I-shaped slots of the vertical slab A and the vertical slab B, a fixing piece B of the top keel is fixed with the vertical slab A and the vertical slab B by a Chinese character 'mi' shaped head fiber screw, a fixing piece B on the top keel is folded, the fixing piece B is fastened by the Chinese character 'mi' shaped head fiber screw, a bottom keel D with the same length as the transverse slab is arranged at the lower end of the transverse slab, and the transverse slab is arranged in a clamping groove of the bottom keel D, folding a fixing piece A on a bottom keel D to fix a transverse strip plate, fastening the fixing piece A by using a fiber screw with a Chinese character 'mi' head, mutually connecting the bottom keel D with a vertical strip plate A and a vertical strip plate B through a side connecting piece of the bottom keel D to form a wall body B by mutually connecting the vertical strip plate C with the vertical strip plate D, mounting a sound insulating pad at the connecting part between the vertical strip plate C and the vertical strip plate D, mounting the wall body B at one side of the wall body A, filling and bonding all gaps among the vertical strip plate A, the transverse strip plate, the vertical strip plate B, the vertical strip plate C and the vertical strip plate D by using bonding glue, embedding a U-shaped clamping piece into the wall body B at a positive and negative angular position to fix the wall body B at the positive and negative angular position, mounting a cover plate at a slot of the vertical strip plate B prefabricated with an electric unit, cutting off the cover plate to connect the electric unit in the field, and then bonding the cover plate back to the slot, and (5) restoring the decorative plate.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.