CN111636621A

CN111636621A - Assembled wall and mounting method thereof

Info

Publication number: CN111636621A
Application number: CN202010599824.0A
Authority: CN
Inventors: 赵永生
Original assignee: Beijing New Building Material Group Co Ltd
Current assignee: Beijing New Building Material Group Co Ltd
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-09-08

Abstract

The invention discloses an assembled wall and an installation method thereof, relates to the technical field of buildings, and solves the problem that the position of a wiring bottom box preset in a wall module cannot meet the requirement of an actual construction site. The invention discloses an assembled wall body, which comprises a wall body and a wall body decorative plate, wherein the wall body consists of a plurality of wall body modules, each wall body module comprises a profile frame and a wall panel, the wall body decorative plate is hung on the outer surface of the wall panel, the plurality of wall body modules comprise a first wall body module provided with a wiring bottom box, at least one wall panel included by the first wall body module is provided with a mounting opening, the wiring bottom box is provided with a wiring hole and an inserting hole, and a fixing inserting piece is inserted and fixed with the wiring bottom box; the wiring bottom box is embedded into the mounting port, and the fixing insertion piece is fixedly connected with the outer surface of the wall panel; the wall body decorative plate is provided with a wire inlet hole and a mounting hole, the box opening of the wiring bottom box is positioned in the mounting hole of the wall body decorative plate, and the wire pipe penetrates through the wire inlet hole and is connected with the wiring hole in the hanging gap. The invention is used for constructing the wall.

Description

Assembled wall and mounting method thereof

Technical Field

The invention relates to the technical field of buildings, in particular to an assembly type wall and an installation method thereof.

Background

In the traditional building construction process, a structural load-bearing frame, such as a steel structure or a poured cement frame structure, is generally constructed, and then an inner partition wall is required to be arranged in the middle of the structural load-bearing frame and used for a specific building, so that the whole floor is divided into functional rooms. At present, the inner partition wall can be manufactured by adopting light steel sections and gypsum boards for field construction, and can also be formed by adopting an assembled wallboard through installation and lap joint. The light steel section and the gypsum board are constructed on site, the construction site is messy, construction wastes such as wastes and leftover materials are too much, the constructed inner partition wall cannot be disassembled and assembled and cannot be recycled, the labor amount is large, the labor cost is too high, and the construction period is long. Therefore, the state advocates the industrialized, rapid and detachable assembly type construction technology, i.e. the assembly type wall modules are lapped to form the inner partition wall.

At present, in the process of forming an inner partition wall by overlapping and installing wall modules on site, a wire pipe and a wiring bottom box are often required to be installed on the inner partition wall. In the prior art, a wire tube and a wiring bottom box are generally integrated in the industrial production process of a wall body module, the vertical and horizontal positions of the wiring bottom box are often irregular, the production process of the wall body module is complex, and the production efficiency is low; in addition, the position of the junction box after actual installation cannot meet the requirements of a construction site due to the deviation of the position of a frame of the construction site and the deviation of a construction process in the process of installing and constructing the wall body on the site of the wall body module, and the problem is particularly prominent when the design scheme is changed.

Disclosure of Invention

The embodiment of the invention provides an assembly type wall and an installation method thereof, which simplify the production process of a wall module, improve the production efficiency and avoid the problem that the position of a wiring bottom box preset in the wall module cannot meet the requirement of an actual construction site.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides an assembled wall, where the assembled wall includes a wall main body and a wall decoration board, the wall main body is formed by overlapping and fixing a plurality of wall modules, each wall module includes a profile frame and wall panels located on two opposite sides of the profile frame, the wall decoration board is hung on the outer surface of the wall panel, a hanging gap is formed between the wall decoration board and the wall panel, the plurality of wall modules at least include a first wall module provided with a wiring bottom box, and the first wall module further includes a fixing insertion piece and a wire pipe; the first wall module comprises at least one wall panel which is provided with an installation opening, the wiring bottom box is provided with a wiring hole and an inserting hole, and the fixing inserting piece is fixedly inserted into the wiring bottom box through the inserting hole; the wiring bottom box is embedded into the mounting opening, the box opening of the wiring bottom box faces the wall body decorative plate, the wiring hole is exposed in a hanging gap between the wall panel and the wall body decorative plate, and the fixing insertion piece is fixedly connected with the outer surface of the wall panel; the wire tube penetrates through the wire inlet hole and is connected with the wiring hole in the hanging gap.

Optionally, the terminal bottom box includes a bottom plate, and a first side plate, a second side plate, a third side plate and a fourth side plate which are disposed around the edge of the bottom plate, where the first side plate, the second side plate, the third side plate and the fourth side plate are perpendicular to the bottom plate, and the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected end to end; the plug holes are formed in the first side plate and the third side plate, and the wiring holes are formed in the second side plate and the fourth side plate; the quantity of fixed inserted sheet is two, and two fixed inserted sheets are pegged graft fixedly with the spliced eye of first curb plate and the spliced eye on the third curb plate respectively.

Optionally, two fixed inserting pieces are fixedly connected with the outer side face of the wall panel on two sides in the horizontal direction of the mounting opening, and the line pipe is connected with the wiring hole in the top of the wiring bottom box.

Optionally, the number of the inserting holes on the first side plate is multiple, and the multiple inserting holes on the first side plate are uniformly distributed along the thickness direction of the base plate to form a first inserting hole group; the number of the inserting holes on the third side plate is multiple, and the inserting holes on the third side plate are uniformly distributed along the thickness direction of the bottom plate to form a second inserting hole group; the plurality of inserting holes of the first inserting hole group correspond to the plurality of inserting holes of the second inserting hole group one by one.

Optionally, the first wall module further comprises a spool fixing piece, the spool fixing piece comprises a spool fixing piece main body and wing plates located on two sides of the spool fixing piece main body, the wing plates are fixedly attached to the wall panel, and the spool fixing piece main body is attached to the spool.

Optionally, the line pipe comprises an inner pipe section, a bent pipe section and an outer pipe section, the inner pipe section is arranged in a hanging gap between the first wall module and the wall decorative plate, and the outer pipe section is arranged outside the wall decorative plate; the inner pipe section is linear, one end of the inner pipe section is connected with the wiring hole in the upper side of the wiring bottom box, the other end of the inner pipe section is connected with one end of the bent pipe section, and the bent pipe section penetrates through the wire inlet hole and is connected with the outer pipe section.

Optionally, the profile frame at least comprises two overlapped profiles, each overlapped profile comprises a plurality of abutting plates, a first side plate and a second side plate, the first side plate and the second side plate are positioned on the same side of the abutting plates, the first side plate and the second side plate are correspondingly attached to two wall panels respectively, and two sides of each wall panel are flush with one side of each abutting plate connected with the first side plate and the second side plate; two opposite ends of the plurality of abutting plates are sequentially and vertically connected to form a ladder, one end of the ladder is vertically connected to the end part of the first side plate, and the other end of the ladder is vertically connected to the end part of the second side plate; the two lap joint section bars are respectively and vertically arranged at two opposite sides of the wall body module, and the openings of the two lap joint section bars face the inner side of the wall body module; wherein, two overlap joint section bar's the board that leans on can laminate each other and lean on, and two overlap joint section bar's the board that leans on each other to lean on the back, and the first sideboard of an overlap joint section bar and the second sideboard of another overlap joint section bar are in the coplanar.

Optionally, the multiple abutting plates include a first abutting plate, a second abutting plate, a third abutting plate, a fourth abutting plate and a fifth abutting plate which are vertically connected in sequence, the first abutting plate is vertically connected with the first edge plate, and the fifth abutting plate is vertically connected with the second edge plate; a width d of the first backup plate in a thickness direction of the first side plate₁Width d of the fifth abutting plate along the thickness direction of the second side plate₂Approximately equal, width d of the second abutment plate in the thickness direction of the third abutment plate₃And the fourth abutting plate edgeWidth d of the third abutting plate in the thickness direction₄Approximately equal.

In a second aspect, an embodiment of the present invention provides an installation method of an assembled wall, where the installation method is used for the assembled wall, and includes: sequentially overlapping and fixing a plurality of wall modules through overlapping sectional materials by using screws along the overlapping direction of the wall modules to obtain a prefabricated wall; a mounting opening is formed in a wall panel on which a wiring bottom box is to be mounted; embedding the wiring bottom box into the mounting opening, enabling the box opening of the wiring bottom box to face the wall body decorative plate and enabling the inserting hole of the wiring bottom box to be located in the horizontal direction; inserting the fixing insertion sheet into the insertion hole, and fixedly connecting the fixing insertion sheet to the outer surface of the wall panel by using a screw; connecting one end of the inner pipe section with a wiring hole on the upper side of the wiring bottom box, and fixing the inner pipe section on the outer surface of the wall panel by using a wire pipe fixing piece; sequentially hanging a plurality of wall decorative plates and a plurality of wall panels along the lapping direction of the wall modules; the other end of the wall body decorative plate corresponding to the inner pipe section is provided with a wire inlet hole and a box opening corresponding to the wiring bottom box is provided with a mounting hole; inserting the box opening of the junction box into the mounting hole, and enabling the box opening of the junction box to be flush with the surface of the wall decorative plate; one end of the bent pipe section penetrates through the wire inlet hole to be connected with the end part of the inner pipe section; and connecting the other end of the bent pipe section with one end of the outer pipe section to obtain the assembled wall body.

Further, the wall body module still includes heat preservation sound insulation material and connection section bar, and at the overlap joint direction along the wall body module, utilizes the screw to pass through overlap joint section bar with a plurality of wall body modules and overlap joint fixedly in proper order, before the prefabricated wall body of acquisition, the mounting method still includes: two lap joint section bars are placed in parallel, the openings of the two lap joint section bars are arranged oppositely, and two first edge plates of the two lap joint section bars are arranged on different sides; sequentially embedding two ends of the connecting profiles into the openings of the two lap-joint profiles respectively, and fixing the connecting profiles and the lap-joint profiles to form a profile frame; filling the heat-insulating and sound-insulating material in the section bar frame; and (4) installing two wall panels on two sides of the section bar frame to obtain the wall module.

According to the assembled wall and the installation method thereof provided by the embodiment of the invention, the wall module can be transported to a building site after being processed in a factory; then, the wall body modules can be directly lapped and fixed on a building site to obtain a prefabricated wall body; finally, the mounting opening is arranged on the corresponding wall panel on the surface of the prefabricated wall body as required, the wiring bottom box, the fixing insertion pieces and the wire pipes are sequentially mounted on the outer surface of the wall panel, and the quantity and the positions of the fixing insertion pieces, the wiring bottom box and the wire pipes can be mounted as required, so that the size positioning and the size position adjustment are facilitated. According to the construction method, in the construction process of obtaining the prefabricated wall body, processing is not needed on the building site, positions of the line pipes and the wiring bottom boxes are not needed to be considered, the construction site is neat, the operation steps are simple, the installation is convenient and fast, and the construction efficiency is high. In addition, the wall body module does not need to be provided with a wire pipe and a wiring bottom box in advance, the structure of the wall body module is uniform, large-scale assembly line rapid production can be carried out, the industrialized production process of the wall body module is simplified, the production efficiency is improved, and the production cost is low. In summary, the assembly wall and the installation method thereof provided by the embodiments of the present invention realize the separation construction of the conduit and the wall in the construction process of the assembly wall, which facilitates the maintenance and repair of the conduit and the mass flow line production of the wall modules.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an assembled wall according to an embodiment of the present invention, including a wall decorative plate, a wiring bottom box and a conduit;

FIG. 2 is a schematic view of the assembled wall of FIG. 1 with the wall trim removed;

FIG. 3 is a schematic structural diagram of a main wall of an assembled wall according to an embodiment of the present invention, which is provided with only mounting openings;

FIG. 4 is an enlarged view of a portion of FIG. 2 at A;

FIG. 5 is a schematic structural view of a lap joint profile of a wall module of an assembled wall according to an embodiment of the present invention;

FIG. 6 is a view taken along line A of FIG. 5;

FIG. 7 is a view from the direction B of FIG. 5;

FIG. 8 is an enlarged partial view of a wall module of an assembled wall according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of a terminal box of an assembled wall according to an embodiment of the present invention;

FIG. 10 is a schematic view of a mounting tab for an assembled wall according to an embodiment of the present invention;

FIG. 11 is a schematic view of an alternative mounting tab for an assembled wall according to an embodiment of the present invention;

FIG. 12 is a schematic view of the combination of the fixing tab and the terminal box of FIG. 10;

FIG. 13 is a schematic view of the combination of the locking tab and the terminal box of FIG. 11;

fig. 14 is a schematic structural view of a conduit fixing member of an assembled wall according to an embodiment of the present invention.

Reference numerals:

10-a wall module; 11-a first wall module; 100-wall panels; 110-a mounting port; 200-lap joint profile; 210-a first sideboard; 220-a second sideboard; 230-a backup plate; 231-a first abutment plate; 232-a second abutment plate; 233-a third abutment plate; 234-a fourth abutment plate; 235-a fifth abutment plate; 300-a junction box; 310-wiring holes; 320-a plug hole; 330-a backplane; 340-a first side panel; 350-a second side plate; 360-a third side plate; 370-a fourth side panel; 400-fixing the insert; 500-a spool; 510-an inner tube section; 520-a pipe bending section; 530-an outer tube section; 600-connecting profile; 700-a conduit fixing member; 710-a conduit mount body; 720-wing plate; 800-wall decorative board.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 is to be understood that the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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.

In a first aspect, an embodiment of the present invention provides an assembled wall, referring to fig. 1, fig. 2, fig. 3 and fig. 9, the assembled wall includes a wall main body and a wall decoration board 800, the wall main body is formed by overlapping and fixing a plurality of wall modules 10, each wall module 10 includes a profile frame and a wall panel 100 located on two opposite sides of the profile frame, the wall decoration board 800 is hung on an outer surface of the wall panel 100, a hanging gap is formed between the wall decoration board 800 and the wall panel 100, the plurality of wall modules 10 at least include a first wall module 11 provided with a wiring bottom box 300, and the first wall module 11 further includes a fixing insertion piece 400 and a conduit 500; at least one wall panel 100 included in the first wall module 11 is provided with a mounting opening 110, the connection bottom box 300 is provided with a connection hole 310 and an insertion hole 320, and the fixing insertion piece 400 is fixedly inserted into the connection bottom box 300 through the insertion hole 320; the wiring bottom box 300 is embedded into the mounting opening 110, the box opening of the wiring bottom box 300 faces the wall body decorative plate 800, the wiring hole 310 is exposed in the hanging gap between the wall panel 100 and the wall body decorative plate 800, and the fixing insertion piece 400 is fixedly connected with the outer surface of the wall panel 100; the wall body decorative plate 800 is provided with a wire inlet hole and a mounting hole (not marked in figure 1), the box opening of the wiring bottom box 300 is positioned in the mounting hole, the box opening of the wiring bottom box 300 is flush with the surface of the wall body decorative plate 800, and the wire pipe 500 passes through the wire inlet hole (not marked in figure 1) and is connected with the wiring hole 310 in the hanging gap.

Referring to fig. 1, 2, 3 and 9, an assembled wall provided by an embodiment of the present invention may be transported to a building site after being processed in a factory; then, the wall modules 10 can be directly fixed in a lap joint manner on the building site to obtain a prefabricated wall; finally, the corresponding wall panel 100 is provided with the mounting opening 110 on the surface of the prefabricated wall body as required, the wiring bottom box 300, the fixing insertion piece 400 and the conduit 500 are sequentially mounted on the outer surface of the wall panel 100, and the number and the position pairs of the fixing insertion piece 400, the wiring bottom box 300 and the conduit 500 can be set as required, so that the size positioning and the size position adjustment are facilitated. According to the construction method, in the construction process of obtaining the prefabricated wall body, the construction site does not need to be processed, the positions of the line pipe 500 and the wiring bottom box 300 do not need to be considered, the construction site is neat, the operation steps are simple, the installation is convenient and fast, and the construction efficiency is high. In addition, the wall body module 10 does not need to be provided with the wire pipes 500 and the wiring bottom boxes 300 in advance, the structure of the wall body module 10 is uniform, large-scale assembly line rapid production can be carried out, the factory production process of the wall body module 10 is simplified, the production efficiency is improved, and the production cost is low. In summary, the assembly wall and the installation method thereof provided by the embodiments of the present invention realize the separation construction of the conduit 500 and the wall in the construction process of the assembly wall, which is convenient for the maintenance and repair of the conduit 500 and the mass flow line production of the wall modules 100.

The wall body decorating plate 800 is a wall panel with a decorating layer on the surface, and the wall body decorating plate 800 can be produced on a large-scale production line quickly. Meanwhile, the wall decoration plate 800 is hung between the surface close to the wall panel 100 and the outer surface of the wall panel 100 through a hanging structure, so that the finally obtained assembled wall is smooth in surface, free of leakage of a screw structure, free of modification procedures such as coating on the outer surface of the wall panel 100 on site and the like, the construction site is neat, the operation steps are simple, installation is convenient and fast, and construction efficiency is high.

In addition, the wiring bottom box 300 is fixedly connected with the outer surface of the wall panel 100 through the fixing insertion piece 400, the structure is simple, and the wiring bottom box 300 and the conduit 500 at the wall are positioned between the wall decorative plate 800 and the wall panel 100, so that the appearance is attractive.

It should be noted that the terminal box 300 and the fixing tab 400 are usually made of metal materials and have high structural strength. In addition, the assembly wall may be provided with the terminal box 300 only on one wall module 10, or a plurality of wall modules 10 may be provided with the terminal box 300; the number and the position of the terminal blocks 300 disposed on each wall module 10 are not limited, and may be multiple, and multiple terminal blocks 300 may be respectively distributed on the wall panels 100 on both sides of the wall module 10. In fig. 1, 2 and 3, a connection bottom box 300 is provided on the wall panel 100 on one side of one of the wall modules 10.

It can be understood that the assembled wall needs to be fixedly connected with the building roof and the building floor, and in a possible embodiment, each wall module 10 included in the assembled wall can be fixedly connected with the building roof and the building floor through a fixing member, and the fixing member is disposed between the wall modules 10 and does not protrude out of the surface of the wall, thereby facilitating the subsequent decoration construction such as painting on the surface of the wall.

The wall module 10, referring to fig. 2, 4 and 8, the profile frame at least includes two overlapping profiles 200, each overlapping profile 200 includes a plurality of abutting plates 230 and a first side plate 210 and a second side plate 220 located on the same side of the abutting plates 230, the first side plate 210 and the second side plate 220 are correspondingly attached to the two wall panels 100, and two sides of the wall panels 100 are flush with one side of the abutting plates 230 connected to the first side plate 210 and the second side plate 220; opposite ends of the plurality of abutting plates 230 are sequentially and vertically connected to form a ladder, one end of the ladder is vertically connected to the end of the first side plate 210, and the other end of the ladder is vertically connected to the end of the second side plate 220; the two lap-joint section bars 200 are respectively vertically arranged at two opposite sides of the wall body module 10, and the openings of the two lap-joint section bars 200 face the inner side of the wall body module 10; wherein, the abutting plates 230 of the two lap profiles 200 can abut against each other, and after the abutting plates 230 of the two lap profiles 200 abut against each other, the first side plate 210 of one lap profile 200 and the second side plate 220 of the other lap profile 200 are in the same plane. Based on this, the lap joint section bar 200 can be integrally formed by a metal plate through a bending process, and the process is simple, the overall strength is high, the material is saved, and the cost is low.

In this way, the lap-joint section bars 200 between a plurality of wall modules 10 can be in lap-joint fit to form a wall with a large area. In addition, the plurality of wall modules 10 are matched with each other by overlapping the overlapping profiles 200, and the overlapping profiles 200 at the two sides of the middle wall module 10 are respectively matched and overlapped with the overlapping profiles 200 of the two adjacent wall modules 10, so that the wall modules 10 can be limited from moving in the direction perpendicular to the wall panel 100, and the wall body formed by overlapping the wall modules 10 is firmer. Meanwhile, the lap joint profiles 200 positioned at the two sides of the wall module 10 are the same, so that the two different lap joint profiles 200 are prevented from being adopted to realize lap joint, the specifications of the lap joint profiles 200 are uniform, the factory production is facilitated, and the cost is lower. In addition, during the overlapping of the wall formworks 10, the wall module 10 may be directly moved from one side of the wall body to a predetermined installation position in a direction perpendicular to the wall panel 100. At this moment, when the wall body modules 10 positioned at two sides of the edge of the wall body are installed, the wall body modules can be moved to a preset installation position from one side of the wall body along the direction perpendicular to the wall panel 100, so that the wall body modules 10 can be completely and accurately filled from the initial point of the wall body to the end point of the wall body, the problem that the tail end of the wall body is provided with an avoided installation gap due to the adoption of convex-concave insertion matching is avoided, and time and labor are saved.

It should be noted that the fixing and connecting manner between the wall modules 10 is not unique, and the two overlapping profiles 200 between two adjacent wall modules 10 may be connected and fixed in an adhesive manner, or may be connected and fixed by passing a screw through the board surfaces of the two overlapping profiles 200 between two adjacent wall modules 10, which are attached to each other, without limitation. Wherein, in order to improve the intensity of wall body module 10, guarantee that the fixed overall structure intensity of the wall body that forms of overlap joint is higher, above-mentioned section bar frame still includes joining profile 600, joining profile 600 is perpendicular with overlap joint section bar 200, and the tip embedding of joining profile 600 between first sideboard 210 and the second sideboard 220 of overlap joint section bar 200 to fixed with overlap joint section bar 200, wall body module 10's structural strength is high, and anti-shearing, stamping capability are strong.

In some embodiments, as shown in fig. 4, 5, 6 and 7, the plurality of abutment plates 230 includes a first abutment plate 231, a second abutment plate 232, a third abutment plate 233, a fourth abutment plate 234 and a fifth abutment plate 235 which are vertically connected in sequence, the first abutment plate 231 is vertically connected with the first edge plate 210, and the fifth abutment plate 235 is vertically connected with the second edge plate 220; the width d of the first abutting plate 231 in the thickness direction of the first side plate 210₁And a width d of the fifth abutting plate 235 in the thickness direction of the second side plate 220₂Approximately equal (refer to fig. 6), the width d of the second abutting plate 232 in the thickness direction of the third abutting plate 233₃And a width d of the fourth abutting plate 234 in the thickness direction of the third abutting plate 233₄Approximately equal (refer to fig. 7). In this case, the number of bending operations required to manufacture the lap joint section 200 is small, and the structure is simple. In addition, when the above-mentioned fixing member is used to connect the wall module 10 with the building roof or the building floor, the fixing member may be connected and fixed with the third abutting plate 233, the third abutting plate 233 is located at the middle position of the lap joint profile 200, and the connection stability of the fixing member with the wall module 10 is high; meanwhile, the size of the third abutting plate 233 can be designed to be large, the contact area of the third abutting plate 233 and the fixing member can be large, and the connection stability is high.

Referring to fig. 2, 9 and 10, the terminal box 300 includes a bottom plate 330, a first side plate 340, a second side plate 350, a third side plate 360 and a fourth side plate 370, which are disposed around the edge of the bottom plate 330, wherein the first side plate 340, the second side plate 350, the third side plate 360 and the fourth side plate 370 are perpendicular to the bottom plate 330, and the first side plate 340, the second side plate 350, the third side plate 360 and the fourth side plate 370 are sequentially connected end to end; the insertion holes 320 are formed on the first side plate 340 and the third side plate 360, and the wiring holes 310 are formed on the second side plate 350 and the fourth side plate 370; the number of the fixing insertion pieces 400 is two, and the two fixing insertion pieces 400 are respectively inserted and fixed with the insertion hole 320 of the first side plate 340 and the insertion hole 320 of the third side plate 360. At this time, the fixing insert 400 is fixed to the wall panel 100 at two opposite sides of the terminal box 300, so that the fixing effect is high and the structure is more stable.

It should be noted that the plugging hole 320 is vertically arranged in a direction perpendicular to the second side plate 350, the length of the plugging hole 320 in the thickness direction of the second side plate 350 is about 5mm to 20mm, and the width of the plugging hole 320 in the thickness direction of the bottom plate 330 is approximately equal to the thickness of the fixing insert 400.

It will be appreciated that to meet the aesthetic requirements of the user, to avoid personnel touching the conduit 500, and to reduce the risk of accidental electrocution, the conduit 500 is typically routed from the upper end of the wall. In some examples, the two fixing tabs 400 are fixedly connected to the outer side surface of the wall panel 100 at two sides of the mounting opening 110 in the horizontal direction, so that the wiring holes 310 of the wiring bottom box 300 are located in the vertical direction, the conduit 500 can be directly connected to the wiring holes 310 at the top of the wiring bottom box 300 through linear pipes from the upper side of the wiring holes 310, and the conduit 500 needs fewer bent pipes as a whole, and has a simple structure and high reliability.

In order to further reduce the construction difficulty, as shown in fig. 2, 11 and 13, the number of the inserting holes 320 on the first side plate 340 is plural, and the plural inserting holes 320 on the first side plate 340 are uniformly distributed along the thickness direction of the bottom plate 330 to form a first inserting hole group. Similarly, the number of the plugging holes 320 on the third side plate 360 is plural, and the plural plugging holes 320 on the third side plate 360 are uniformly distributed along the thickness direction of the bottom plate 330 to form a second plugging hole group. The plurality of inserting holes 320 in the first inserting hole group correspond to the plurality of inserting holes 320 in the second inserting hole group one to one. In this case, the fixing tabs 400 can be selectively inserted into the insertion holes 320 at different positions to adjust the depth of the bottom connector housing 300 inserted into the mounting opening 110. In this way, the distance between the wiring hole 310 and the wall panel 100 can be flexibly adjusted according to actual conditions, that is, the distance between the conduit 500 and the wall panel 100 can be flexibly adjusted according to actual conditions, and the application range is wider.

It should be noted that the number of the first plugging hole groups and the number of the second plugging hole groups may also be multiple, the plugging holes 320 included in the multiple first plugging hole groups are distributed in an array, the plugging holes 320 included in the multiple second plugging hole groups are distributed in an array, and the plugging holes 320 in the multiple first plugging hole groups and the plugging holes 320 in the multiple second plugging hole groups are arranged in a one-to-one manner.

Illustratively, the number of the first plugging hole groups and the number of the second plugging hole groups are two, and the two first plugging hole groups are distributed in parallel on the first side plate 340 along the thickness direction of the second side plate 350, that is, the plurality of plugging holes 320 included in the two first plugging hole groups are arrayed in two rows and multiple columns; the two second plugging hole groups are distributed in parallel on the third side plate 360 along the thickness direction of the second side plate 350, that is, the plurality of plugging holes 320 included in the two second plugging hole groups are arranged in an array form of two rows and multiple columns. At this time, the corresponding fixing tab 400 of the bottom case 300 is shown in fig. 11, and the inserting engagement between the bottom case 300 and the fixing tab 400 is shown in fig. 13.

In some embodiments, the conduit 500 has a long length, and in order to reduce the risk of the conduit 500 shaking and breaking, referring to fig. 2 and 14, the first wall module 11 further includes a conduit fixing member 700, the conduit fixing member 700 includes a conduit fixing member main body 710 and wing plates 720 located at two sides of the conduit fixing member main body 710, the wing plates 720 are attached and fixed to the wall panel 100, and the conduit fixing member main body 710 is attached to the conduit 500, that is, the horizontal cross section of the conduit fixing member 700 is a semicircular shape with two side wings, so as to fix the conduit 500 to the wall panel 100. The number of the conduit fixing members 700 can be adjusted accordingly according to the length of the conduit 500, for example, increased or decreased, so as to stably fix the conduit 500 on the wall panel 100, that is, the conduit 500 has a smaller shaking amplitude or does not shake. Additionally, the conduit mounts 700 are generally evenly distributed along the length of the conduit 500, which effectively limits rattling of the conduit 500 with less conduit mounts 700. Here, the conduit pipe fixing member 700 is generally made of a metal material, and has high structural strength and is not easily broken.

As shown in fig. 1, 2 and 12, the conduit 500 is routed from the upper end of the wall. Specifically, the wire tube 500 includes an inner tube section 510, a bent tube section 520 and an outer tube section 530 which are connected in sequence, the inner tube section 510 is disposed in a hanging gap between the first wall module 11 and the wall decoration plate 800, the outer tube section 530 is disposed outside the wall decoration plate 800, the inner tube section 510 is linear, one end of the inner tube section 510 is connected to the wiring hole 310 on the upper side of the wiring bottom box 300, the other end of the inner tube section is connected to one end of the bent tube section 520, and the bent tube section 520 penetrates through a wire inlet hole (not marked in fig. 1) to be connected to the outer tube section 530. At this time, the line pipe 500 is routed from the upper end of the wall body, and the corresponding line inlet hole (not marked in fig. 1) formed in the line pipe 500 and the line pipe 500 structure are both located at the edge above the wall body, so that the damage degree to the integrity of the wall body is low, and the aesthetic requirement of a user is met; meanwhile, the height of the wire pipe 500 exposed outside the wall body is high, so that the personnel can be prevented from contacting the wire pipe 500, the risk of accidental electric shock of the personnel is reduced, and the safety is high. In addition, the inner pipe section 510 in the hanging gap between the first wall module 11 and the wall decoration plate 800 is a straight pipe section, the inner pipe section 510 is directly connected to the wiring hole 310 on the upper side of the wiring bottom box 300 from the upper side of the wiring bottom box 300, and the whole bent pipe section 520 of the wire pipe 500 is less, simple in structure and high in stability.

In some embodiments, the top and bottom regions of the two overlapping profiles 200 between every two adjacent wall modules 10 are used for connecting the fixing members, a gap is left between the steps included in the two overlapping profiles 200, at this time, in order to improve the heat preservation and sound insulation performance of the wall body, the gap is filled with a heat preservation and sound insulation layer, that is, a gap is left between the steps included in the two overlapping profiles 200 between every two adjacent wall modules 10, the thickness of the gap is equal to that of the fixing members, the gap is filled with a heat preservation and sound insulation layer, and the heat preservation and sound insulation layer is used for preserving heat of the house. Illustratively, when the air conditioner is used indoors for refrigeration or heating, the heat preservation and sound insulation layer can effectively prevent indoor energy loss and improve the energy-saving effect of the building. The heat preservation and sound insulation layer is also used for weakening sound transmission, the building sound insulation effect is good, and rest of a user is facilitated. In addition, the heat preservation and sound insulation layer is positioned among the wall modules 10, so that the surface coating of the wall and the surface attractiveness of the wall are not influenced.

When the positions where the wire connecting bottom case 300 and the wire conduit 500 are attached need to be evacuated by the heat and sound insulating material, a part of the heat and sound insulating material at the corresponding positions may be removed.

Further, according to the actual situation, a heat insulation and sound insulation layer may be disposed between the two wall panels 100 included in the wall module 10, that is, the wall module 10 further includes a heat insulation and sound insulation material, and the heat insulation and sound insulation material is filled in the space enclosed by the two wall panels 100 and the profile frame. The heat preservation and sound insulation layer can effectively prevent indoor energy loss and improve the energy-saving effect of the building. Meanwhile, the heat-preservation sound-insulation layer is also used for weakening sound transmission, the building sound-insulation effect is good, and rest of a user is facilitated.

It will be appreciated that additional stresses will be induced within the wall due to temperature changes and earthquakes, and such stresses will often cause cracking or even failure of the wall. According to the overlapping fit among the wall body modules provided by the embodiment of the invention, especially when a gap is reserved between two overlapping sectional materials, the gap between the two overlapping sectional materials of the adjacent wall body modules reduces the influence of stress on the wall body to a certain extent, and reduces the risk of cracks or damages of the wall body.

According to different use scenes and use requirements, the section frame can be made of one or more of metal materials, wood materials or wood-plastic materials. Various materials have respective advantages and disadvantages, and are selected according to the used environment and requirements, for example, when the wall of a house is designed, the wall has long service life and high reliability requirement, and a section frame is usually made of metal materials; the wood material does not cause environmental pollution and can be applied to a use scene with high environmental protection requirement; when the profile frame needs to be frequently disassembled or moved and the wear resistance is required to be higher, the profile frame can be made of wood-plastic materials. Besides the above-mentioned materials, the profile frame can be made of other materials, which are not listed here.

According to different use scenes and use requirements, the fixing piece can be made of metal materials or high polymer materials, and various materials have respective advantages and disadvantages and are selected according to the use environment and the use requirements. For example, when the section frame is made of metal, the fixing piece is often made of metal, so that the strength and the reliability are high; when the section bar frame is made of wood-plastic materials, the fixing piece is made of high polymer materials, is light, convenient to detach and move and is corrosion-resistant. Besides the above materials, the fixing member may be made of other materials, which are not listed here.

Similarly, according to different use scenes and use requirements, the wall panel and the wall decorative panel are one or more combinations of gypsum boards, calcium silicate boards, glass magnesium boards, glass wool boards, ceramic boards, fireproof boards, acoustic boards, carbon felt boards, cement boards, medium density boards, europa boards, metal boards, inorganic fiber boards, wood-plastic boards or wood boards, each material has respective advantages and disadvantages, and is specifically selected according to the used environment and requirements.

In addition, according to different use scenes and use requirements, the material of the heat preservation and sound insulation layer can be one or a combination of more of rock wool, granular cotton, glass wool, phenolic foam boards, polystyrene boards, phenolic foam boards, polyurethane boards, foam ceramic boards, foam glass boards, perlite boards, aluminum silicate fiber cotton or ceramic fiber cotton.

In a second aspect, an embodiment of the present invention further provides an installation method of an assembled wall, where the installation method is used for the assembled wall, and includes: sequentially overlapping and fixing a plurality of wall modules through overlapping sectional materials by using screws along the overlapping direction of the wall modules to obtain a prefabricated wall; a mounting opening is formed in a wall panel on which a wiring bottom box is to be mounted; embedding the wiring bottom box into the mounting opening, enabling the box opening of the wiring bottom box to face the wall body decorative plate and enabling the inserting hole of the wiring bottom box to be located in the horizontal direction; inserting the fixing insertion sheet into the insertion hole, and fixedly connecting the fixing insertion sheet to the outer surface of the wall panel by using a screw; connecting one end of the inner pipe section with a wiring hole on the upper side of the wiring bottom box, and fixing the inner pipe section on the outer surface of the wall panel by using a wire pipe fixing piece; sequentially hanging a plurality of wall decorative plates and a plurality of wall panels along the lapping direction of the wall modules; the other end of the wall body decorative plate corresponding to the inner pipe section is provided with a wire inlet hole and a box opening corresponding to the wiring bottom box is provided with a mounting hole; inserting the box opening of the junction box into the mounting hole, and enabling the box opening of the junction box to be flush with the surface of the wall decorative plate; one end of the bent pipe section penetrates through the wire inlet hole to be connected with the end part of the inner pipe section; and connecting the other end of the bent pipe section with one end of the outer pipe section to obtain the assembled wall body.

Specifically, the mounting method of the assembly wall includes the following steps:

and S200, sequentially overlapping and fixing a plurality of wall modules through overlapping sectional materials by using screws along the overlapping direction of the wall modules to obtain the prefabricated wall.

And step S210, forming an installation opening on a wall panel on which the wiring bottom box is scheduled to be installed. Wherein, the size of the mounting opening is adapted to the size of the bottom connection box.

Step S220, embedding the terminal box into the mounting opening, enabling the box opening of the terminal box to face the wall body decorative plate and enabling the plug-in hole of the terminal box to be located in the horizontal direction.

And step S230, inserting the fixing insertion sheet into the insertion hole, and fixedly connecting the fixing insertion sheet to the outer surface of the wall panel by using a screw.

And step S240, connecting one end of the inner pipe section with a wiring hole at the upper side of the wiring bottom box, and fixing the inner pipe section on the outer surface of the wall panel by using a wire pipe fixing piece.

And S250, hanging a plurality of wall body decorative plates and a plurality of wall panels in sequence along the lapping direction of the wall body modules.

And step S260, arranging a wire inlet hole at the other end of the wall body decorative plate corresponding to the inner pipe section and arranging a mounting hole at the box opening corresponding to the wiring bottom box. The size of the wire inlet hole is set according to the size of the wire pipe, the wire pipe can just penetrate through the wire inlet hole, and the size of the mounting hole is matched with the box opening of the wiring bottom box.

And step S270, inserting the box opening of the junction box into the mounting hole, and enabling the box opening of the junction box to be flush with the surface of the wall decorative plate.

And step S280, connecting one end of the bent pipe section with the end of the inner pipe section through the wire inlet hole.

And step S290, connecting the other end of the bent pipe section with one end of the outer pipe section to obtain the assembled wall body.

It should be noted that, the lap-joint profiles between every two adjacent wall modules are mutually lapped and fixed, and the fixing effect can also be realized by a bonding mode, for example, a binder layer is arranged between the lap-joint profiles between the two adjacent wall modules; of course, the fixing effect can be realized by arranging a clamping structure on the ladder opposite to the lap joint profile between the two adjacent wall modules, which is not limited herein.

According to the installation method of the fabricated wall provided by the embodiment of the invention, in the construction process of obtaining the prefabricated wall, processing on a building site is not required, positions of a line pipe and a wiring bottom box are not required to be considered, the construction site is neat, the operation steps are simple, the installation is convenient and fast, and the construction efficiency is high. In addition, the wall body module does not need to be provided with a wire pipe and a wiring bottom box in advance, the structure of the wall body module is uniform, large-scale assembly line rapid production can be carried out, the industrialized production process of the wall body module is simplified, the production efficiency is improved, and the production cost is low.

In addition, the wall body decorative plate is a panel with a decorative layer on the surface, and the wall body decorative plate can also be produced rapidly in a large-scale production line. Meanwhile, the wall decoration plate can be hung between the surface close to the wall panel and the outer surface of the wall panel through the hanging structure, so that the finally obtained assembled wall is smooth in surface, free of leakage of a screw structure, free of modification procedures such as coating on the outer surface of the wall panel on site and the like, the construction site is clean and tidy, the operation steps are simple, the installation is convenient and fast, and the construction efficiency is high.

Further, the wall module further includes a thermal insulation and sound insulation material and a connection profile, and before step S200, the installation method further includes:

step S100, two lap joint profiles are placed in parallel, two openings of the two lap joint profiles are oppositely arranged, and two first side plates of the two lap joint profiles are arranged on different sides.

And step S110, sequentially embedding the two ends of the connecting profiles into the openings of the two lap-joint profiles respectively, and fixing the connecting profiles and the lap-joint profiles to form a profile frame.

And step S120, filling the heat-insulating and sound-insulating material in the profile frame.

And S130, mounting the two wall panels on two sides of the section bar frame by using screws to obtain a wall body module.

And repeating the steps S100 to S130 to obtain a plurality of wall modules.

When the positions for mounting the terminal box and the line pipe need to be evacuated by the thermal insulation and sound insulation material, a part of the thermal insulation and sound insulation material at the corresponding positions may be removed.

In the description herein, particular features, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. An assembled wall body comprises a wall body and wall body decorative plates, wherein the wall body is formed by overlapping and fixing a plurality of wall body modules, each wall body module comprises a profile frame and wall panels positioned on two opposite side surfaces of the profile frame, the wall body decorative plates are hung on the outer surfaces of the wall panels, and hanging gaps are formed between the wall body decorative plates and the wall panels;

the first wall body module comprises at least one wall panel, wherein an installation opening is formed in the wall panel, a wiring hole and an inserting hole are formed in the wiring bottom box, and the fixing inserting piece is fixedly inserted into the wiring bottom box through the inserting hole;

the wiring bottom box is embedded into the mounting hole, the box opening of the wiring bottom box faces the wall body decorative plate, the wiring hole is exposed in the hanging gap between the wall panel and the wall body decorative plate, and the fixing insertion piece is fixedly connected with the outer surface of the wall panel;

be equipped with entrance hole and mounting hole on the wall body decorative board, the box mouth of terminal box of working a telephone switchboard is located in the mounting hole, just the box mouth of terminal box of working a telephone switchboard with the surperficial parallel and level of wall body decorative board, the spool passes the entrance hole is in articulate the clearance in with the wiring jogged joint.

2. The assembly type wall body as claimed in claim 1, wherein the wiring bottom box comprises a bottom plate, and a first side plate, a second side plate, a third side plate and a fourth side plate which are arranged around the edge of the bottom plate, wherein the first side plate, the second side plate, the third side plate and the fourth side plate are perpendicular to the bottom plate, and the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected end to end;

the plug holes are formed in the first side plate and the third side plate, and the wiring holes are formed in the second side plate and the fourth side plate;

the number of the fixed inserting pieces is two, and the two fixed inserting pieces are respectively fixedly inserted into the inserting holes of the first side plate and the inserting holes of the third side plate.

3. The assembly type wall body as claimed in claim 2, wherein two fixing insertion sheets are fixedly connected with the outer side surface of the wall panel at two sides of the mounting opening in the horizontal direction, and the wire pipe is connected with the wiring hole at the top of the wiring bottom box.

4. The assembly type wall body as claimed in claim 3, wherein the number of the insertion holes on the first side plate is multiple, and the multiple insertion holes on the first side plate are uniformly distributed along the thickness direction of the bottom plate to form a first insertion hole group;

the number of the inserting holes on the third side plate is multiple, and the inserting holes on the third side plate are uniformly distributed along the thickness direction of the bottom plate to form a second inserting hole group;

the plurality of inserting holes of the first inserting hole group correspond to the plurality of inserting holes of the second inserting hole group one by one.

5. The assembly wall of claim 4, wherein the first wall module further comprises a conduit fastener, the conduit fastener comprises a conduit fastener body and wing plates located on two sides of the conduit fastener body, the wing plates are attached to the wall panel, and the conduit fastener body is attached to the conduit.

6. The fabricated wall of claim 5, wherein the conduit comprises an inner conduit section, a bent conduit section and an outer conduit section connected in sequence, the inner conduit section is disposed in the hanging gap between the first wall module and the wall trim panel, and the outer conduit section is disposed outside the wall trim panel;

the inner pipe section is linear, one end of the inner pipe section is connected with the wiring hole on the upper side of the wiring bottom box, the other end of the inner pipe section is connected with one end of the bent pipe section, and the bent pipe section penetrates through the wire inlet hole and is connected with the outer pipe section.

7. The assembled wall of claim 6, wherein the frame comprises at least two overlapping profiles, each overlapping profile comprises a plurality of abutting plates and a first side plate and a second side plate which are positioned at the same side of the abutting plates, the first side plate and the second side plate are correspondingly attached to the two wall panels respectively, and two sides of each wall panel are flush with one side of each abutting plate connected with the first side plate and the second side plate;

two opposite ends of the plurality of abutting plates are sequentially and vertically connected to form a ladder, one end of the ladder is vertically connected to the end part of the first side plate, and the other end of the ladder is vertically connected to the end part of the second side plate;

the two lap joint profiles are respectively vertically arranged at two opposite sides of the wall body module, and the openings of the two lap joint profiles face the inner side of the wall body module;

the abutting plates of the two lap-joint profiles can be mutually attached and abutted, and after the abutting plates of the two lap-joint profiles are abutted against each other, the first side plate of one lap-joint profile and the second side plate of the other lap-joint profile are on the same plane.

8. The assembled wall of claim 7, wherein the plurality of abutment plates comprises a first abutment plate, a second abutment plate, a third abutment plate, a fourth abutment plate and a fifth abutment plate which are vertically connected in sequence, the first abutment plate is vertically connected with the first side plate, and the fifth abutment plate is vertically connected with the second side plate;

a width d of the first backup plate in the thickness direction of the first side plate₁Width d of the fifth abutting plate along the thickness direction of the second side plate₂Approximately equal, a width d of the second abutment plate in a thickness direction of the third abutment plate₃A width d of the fourth abutting plate in the thickness direction of the third abutting plate₄Approximately equal.

9. A method of installing an assembled wall, for use with the assembled wall of claim 8, the method comprising:

sequentially overlapping and fixing a plurality of wall modules through overlapping sectional materials by using screws along the overlapping direction of the wall modules to obtain a prefabricated wall;

a mounting opening is formed in a wall panel on which a wiring bottom box is to be mounted;

embedding the wiring bottom box into the mounting opening, enabling the box opening of the wiring bottom box to face the wall body decorative plate and enabling the inserting hole of the wiring bottom box to be located in the horizontal direction;

inserting a fixing insertion sheet into the insertion hole, and fixedly connecting the fixing insertion sheet to the outer surface of the wall panel by using a screw;

connecting one end of the inner pipe section with a wiring hole on the upper side of the wiring bottom box, and fixing the inner pipe section on the outer surface of the wall panel by using the wire pipe fixing piece;

sequentially hanging a plurality of wall body decorative plates and a plurality of wall panels along the lapping direction of the wall body modules;

the other end of the wall body decorative plate corresponding to the inner pipe section is provided with a wire inlet hole and a box opening corresponding to the wiring bottom box is provided with a mounting hole;

inserting the box opening of the junction box into the mounting hole, and enabling the box opening of the junction box to be flush with the surface of the wall body decorative plate;

one end of the bent pipe section penetrates through the wire inlet hole to be connected with the end of the inner pipe section;

and connecting the other end of the bent pipe section with one end of the outer pipe section to obtain the assembled wall body.

10. The method for installing an assembled wall according to claim 9, wherein the wall modules further comprise a thermal insulation and sound insulation material and a connecting profile, and the method further comprises the following steps before the plurality of wall modules are sequentially fixed by overlapping the overlapping profiles along the overlapping direction of the wall modules by using screws to obtain a prefabricated wall:

the method comprises the following steps of placing two lap joint profiles in parallel, wherein openings of the two lap joint profiles are oppositely arranged, and two first side plates of the two lap joint profiles are arranged on different sides;

sequentially embedding two ends of the connecting section bars into the openings of the two lap joint section bars respectively, and fixing the connecting section bars and the lap joint section bars to form a section bar frame;

filling the thermal insulation and sound insulation material in the profile frame;

and installing two wall panels on two sides of the section bar frame by using screws to obtain the wall module.