CN212405594U - Wall module and assembled wall - Google Patents

Abstract

The utility model discloses a wall body module and assembled wall body relates to building technical field, has avoided the mounting to expose on the surface of wall body, and sound insulation performance and heat preservation effect are better. The utility model discloses a wall template, which comprises a separating body and a fixing part, wherein the separating body comprises a profile frame and wall panels positioned on two opposite sides of the profile frame, the profile frame at least comprises two lap-joint profiles, and the two lap-joint profiles are respectively positioned on two opposite sides of the separating body; the lap joint section comprises a first side plate, a second side plate and a butt plate, the first side plate and the second side plate are correspondingly attached to the two wall panels respectively, and the butt plate is used for connecting the first side plate and the second side plate; the mounting includes first connecting portion of interconnect and second connecting portion, and first connecting portion include the plug joint, and the plug joint is pegged graft with leaning on the board cooperation to prevent overlap joint section bar for the mounting along the horizontal direction motion, the second connecting portion are used for connecting building roof or building bottom plate. The utility model is used for found the wall body.

Description

Wall module and assembled wall

Technical Field

The utility model relates to a building technical field especially relates to a wall body module and assembled wall body.

Background

The wall body mainly comprises a bearing wall and a non-bearing wall, and mainly plays a role in enclosing and separating space. At present, the wall body 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 splicing. 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 wall body 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 country strongly advocates the factory, rapid and detachable assembly type construction technology, i.e. the assembly type wall panels are adopted to form the wall body.

In the prior art, a wall body formed by assembled wall panels needs to be fixedly connected with a building top plate and a building bottom plate respectively through fixing pieces, the fixing pieces are generally U-shaped clamp fixing pieces or L-shaped fixing pieces, for example, the L-shaped fixing pieces are adopted, one side of each L-shaped fixing piece is in threaded connection with the surface of the wall body, and the other side of each L-shaped fixing piece is in threaded connection with the building top plate or the building bottom plate.

However, after the wall construction is completed, the L-shaped fastener or the U-shaped fastener may be exposed on the surface of the wall, which may affect the decoration construction such as coating on the surface of the wall. In addition, the L-shaped fixing piece is adopted, one side of the L-shaped fixing piece needs to penetrate through the wall body through a plurality of screws so as to realize installation and fixation, a large amount of construction time is occupied by screwing, the efficiency is low, and the screws perpendicular to the wall surface form a sound bridge and a heat bridge for sound transmission and heat transmission, so that the sound insulation and heat preservation of a room are not facilitated.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a wall body module and assembled wall body has avoided the mounting to expose on the surface of wall body, and sound insulation performance and heat preservation effect are better.

In order to achieve the above object, the embodiments of the present invention adopt the following technical solutions:

in a first aspect, an embodiment of the present invention provides a wall module, including: the partition body comprises a profile frame and wall panels positioned on two opposite side surfaces of the profile frame, the profile frame at least comprises two lap joint profiles, and the two lap joint profiles are respectively positioned on two opposite sides of the partition body; the lap joint section comprises a butt plate, a first side plate and a second side plate, wherein the first side plate and the second side plate are positioned on the same side of the butt plate; the mounting, mounting include first connecting portion of interconnect and second connecting portion, and first connecting portion include the plug joint, and the plug joint is pegged graft with leaning on the board cooperation to prevent overlap joint section bar for the mounting along the horizontal direction motion, the second connecting portion are used for connecting building roof or building bottom plate.

Optionally, the number of the abutting plates is multiple, two opposite ends of the multiple abutting plates 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, and the other end of the ladder is vertically connected to the end of the second side plate; the lap joint section can be spliced with the lap joint section after rotating 180 degrees along the length direction, and after the two lap joint sections are spliced, a first side plate of one lap joint section and a second side plate of the other lap joint section are on the same plane; wherein, two overlap joint section bars that are located the opposite both sides of division body, and one of them overlap joint section bar is rotatory 180 degrees settings along length direction relative to another overlap joint section bar.

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; width d of the first abutment plate₁Width d of fifth abutment plate₂Approximately equal, width d of the second abutment plate₃Against the fourthPlate d₄Are approximately equal in width; the inserting joint is matched and inserted with the third abutting plate.

Optionally, the second connecting part comprises a fixing plate, and the fixing plate is connected with the building top plate or the building bottom plate through an expansion bolt; the first connecting part comprises a first clamping plate group and a second clamping plate group, the first clamping plate group comprises at least one first clamping plate, the second clamping plate group comprises at least one second clamping plate, the first clamping plate and the second clamping plate are arranged in parallel, and the first clamping plate and the second clamping plate are both connected with the fixing plate; the insertion joint is a gap between planes of two opposite surfaces of the first clamping plate and the second clamping plate; when the plug-in joint leaned on the board with the third and pegged graft, first cardboard leaned on the board laminating near the inside one side of separating the body with the third at the overlap joint section bar, and the second cardboard was kept away from the inside one side of separating the body and is leaned on the board laminating with the third at the overlap joint section bar.

Optionally, edges of two sides of the first clamping plate group formed in the first clamping plate respectively abut against the inner surface, close to the inner part of the partition body, of the lap joint section bar, so that the partition body is limited to move relative to the fixing piece along the extending direction of the insertion joint.

Optionally, first cardboard and second cardboard are formed at the one end of fixed plate, and first cardboard does not coincide with the orthographic projection of second cardboard in the direction of the first cardboard of perpendicular to.

Optionally, the thickness of the fixing plate, the thickness of the first clamping plate and the thickness of the second clamping plate are all 0.5 mm-50 mm.

The embodiment of the utility model provides a wall body module, its mounting include first connecting portion and second connecting portion, and first connecting portion include the spliced seam, and the spliced seam supports to what the overlap joint section bar included to peg graft by the board cooperation for the overlap joint section bar forms fixedly on the horizontal direction for the mounting, and the second connecting portion are used for connecting building roof or building bottom plate. Based on the method, in the construction process of installing a plurality of wall modules side by side to form a wall, the profile frame and the wall panel can be assembled firstly to form the partition bodies, and the partition bodies are moved to the preset installation positions and then are connected and fixed by the fixing pieces; or the fixing piece is firstly formed on the partition body to form a wall body module, and then the wall body module is moved to a preset installation position to fix the second connection of the fixing piece with the building top plate or the building bottom plate. Like this, after a plurality of wall body modules installed side by side and formed the wall body, the mounting was located between a plurality of wall body modules, can not expose on the surface of wall body, and the decoration construction such as the subsequent application in wall body surface of being convenient for has just avoided the mounting to adopt the screw to pierce through the surface realization installation of wall body fixed, and sound insulation performance and heat preservation effect are better.

In addition, the utility model provides a wall body module, the support of mounting through setting up the butt joint seam and overlap joint section bar cooperates the grafting, has avoided the connection between separator and mounting to adopt the spiro union mode, the connection between separator and mounting need not the fixed process of nailing, very big improvement the efficiency of construction; meanwhile, the connecting structure matched with the fixing piece does not need to be designed independently on the lap joint section, the production process is simplified, the structure is simple, and the cost is lower.

In a second aspect, an embodiment of the present invention provides an assembled wall, including a plurality of above-mentioned wall modules, in every two adjacent wall modules, the mutual concatenation of two overlap joint section bars between one of them wall module and another wall module.

Furthermore, a gap is reserved between the steps included by the two lap joint profiles between every two adjacent wall body modules, the width of the gap is equal to the thickness of the second clamping plate, and a heat-preservation sound-insulation layer is filled in the gap.

Compared with the prior art, the utility model provides an assembled wall's beneficial effect is the same with the beneficial effect of the wall body module that above-mentioned technical scheme provided, does not do here and give unnecessary details.

Drawings

Fig. 1 is a schematic structural view of a wall module and a building roof according to an embodiment of the present invention;

fig. 2 is a partial enlarged view of the splicing position of a plurality of wall modules according to the embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

fig. 4 is a schematic structural diagram of a lap joint profile included in a wall module according to an embodiment of the present invention;

FIG. 5 is a view of the lap section of FIG. 4 in the direction A;

FIG. 6 is a view of the lap section of FIG. 4 in the direction B;

fig. 7 is a schematic structural view of a fixing member included in a wall module according to an embodiment of the present invention;

fig. 8 is a schematic structural view of another fixing member included in the wall module according to the embodiment of the present invention;

fig. 9 is a schematic structural diagram of another fixing member included in the wall module according to the embodiment of the present invention.

Reference numerals:

100-wall panels; 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 fixture; 310-a first connection; 311-a first card; 312-a second card; 320-a second connection; 321-a fixing plate; 3211-a first connecting via; 3212-a second connecting via; 400-building roof.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to 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, and are used merely for convenience of description and simplification of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, 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 is to be noted that, unless otherwise explicitly specified or limited, 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 meaning 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 a wall module, referring to fig. 1, 2 and 3, including: the partition body comprises a profile frame and wall panels 100 positioned on two opposite sides of the profile frame, the profile frame at least comprises two lap joint profiles 200, and the two lap joint profiles 200 are respectively positioned on two opposite sides of the partition body; the lap-joint profile 200 comprises a support plate 230 and a first side plate 210 and a second side plate 220 which are positioned on the same side of the support plate 230, the first side plate 210 and the second side plate 220 are correspondingly attached to two wall panels 100 respectively, the support plate 230 is used for connecting the first side plate 210 and the second side plate 220, and two sides of each wall panel 100 are flush with one side of the support plate 230 connected with the first side plate 210 and the second side plate 220; the fixing member 300, the fixing member 300 includes a first connection portion 310 and a second connection portion 320 which are connected to each other, the first connection portion 310 includes a splicing seam which is spliced with the abutment plate 230 in cooperation to prevent the lap-joint section bar 200 from moving in a horizontal direction with respect to the fixing member 300, and the second connection portion 320 is used to connect the building roof 400 or the building floor.

The utility model discloses wall body module, referring to fig. 1, 2 and 3, its mounting 300 includes first connecting portion 310 and second connecting portion 320, and first connecting portion 310 includes the spliced seam, and the spliced seam supports with what lapped section bar 200 included to peg graft against board 230 cooperation for lapped section bar 200 forms the location on the horizontal direction for mounting 300, and the separator forms fixedly on the horizontal direction for mounting 300 promptly, and second connecting portion 320 is used for connecting building roof 400 or building floor. Based on this, in the construction process of installing a plurality of wall modules side by side to form a wall, the profile frame and the wall panel 100 can be assembled to form the partition bodies, and after the partition bodies are moved to the preset installation positions, the fixing members 300 are connected and fixed; or the fixing member 300 may be inserted into the partition to form a wall module, and then moved to a predetermined installation position to fix the second connection portion 320 of the fixing member 300 to the building roof 400 or the building floor. Like this, after a plurality of wall body modules installed side by side and formed the wall body, mounting 300 is located between a plurality of wall body modules, can not expose on the surface of wall body, and the subsequent decoration construction such as application in wall body surface of being convenient for has just avoided mounting 300 to adopt the screw to pierce through the surface realization installation of wall body and has fixed, and sound insulation performance and heat preservation effect are better.

In addition, the utility model provides a wall body module, the support plate 230 cooperation grafting of fixing piece 300 through setting up the spliced seam and overlap joint section bar 200 has avoided the connection between separator and fixing piece 300 to adopt the spiro union mode, and the connection between separator and fixing piece 300 need not the fixed process of nailing, very big improvement the efficiency of construction; meanwhile, the connecting structure matched with the fixing piece 300 does not need to be designed independently on the lap joint section bar 200, the production process is simplified, the structure is simple, and the cost is lower.

It should be noted that the fixing member 300 is generally provided in two on the bridging material 200 at one side of the wall module, and is used for connecting the building roof 400 and the building floor, respectively. In order to improve the strength of the wall module and ensure that the overall structural strength of the wall is high, the profile frame further comprises a connecting profile, the connecting profile is perpendicular to the lap-joint profile 200, the end part of the connecting profile is embedded into the opening of the lap-joint profile 200 and fixed with the lap-joint profile 200, and the wall module is high in structural strength, and strong in shearing resistance and stamping capacity. Wherein, the connecting section bar can be an I-shaped, square or U-shaped opening section bar.

In the wall module according to the embodiment of the present invention, referring to fig. 1, fig. 2 and fig. 3, the lap-joint profile 200 includes a first side plate 210, a second side plate 220 and a plurality of backup plates 230, and the first side plate 210 and the second side plate 220 are respectively and correspondingly attached to the two wall panels 100; 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 lap-joint section bar 200 can be spliced with itself after being rotated 180 degrees along the length direction (refer to fig. 2), that is, the abutting plate of the lap-joint section bar 200 after being rotated 180 degrees and the abutting plate of the original lap-joint section bar 200 can be mutually attached and abutted, and after the two lap-joint section bars 200 are spliced, the first side plate 210 of one lap-joint section bar 200 and the second side plate 220 of the other lap-joint section bar 200 are on the same plane; wherein, two lap profiles 200 are positioned at two opposite sides of the partition body, wherein one lap profile 200 is arranged by being rotated by 180 degrees in the length direction relative to the other lap profile 200.

In this way, the overlapping profiles 200 between the wall modules can be spliced to form a wall with a large area. And, through the concatenation cooperation of overlap joint section bar 200 between a plurality of wall body modules, the overlap joint section bar 200 that is located the wall body module both sides in the middle cooperates the concatenation with the overlap joint section bar 200 of two adjacent wall body modules respectively, can restrict this wall body module and produce the motion along the direction of perpendicular to shingle nail 100 for the structure of the wall body that wall body module concatenation formed is more firm. Meanwhile, the lap joint profiles 200 positioned on the two sides of the wall module have the same structure, so that the lap joint profiles 200 with two different structures are prevented from being spliced, the specifications of the lap joint profiles 200 are uniform, the factory production is facilitated, and the cost is lower. In addition, during the process of splicing the wall forms, the wall modules can be directly moved from one side of the wall body to a predetermined installation position along a direction perpendicular to the wall panel 100. At this moment, when the wall body modules 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 all the wall body modules can be 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 a plug-in mode of a convex-concave structure is solved, and time and labor are saved.

It should be noted that, in order to enhance the fixing effect of the wall modules, the two overlapping profiles 200 between two adjacent wall modules may enhance the fixing effect in an adhesion manner, or the fixing effect may be enhanced in a manner that a screw penetrates through the plate surfaces of the two overlapping profiles 200 between two adjacent wall modules, which are attached to each other, which is not limited herein.

In some embodiments, as shown in fig. 2, 4, 5 and 6, 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; width d of the first abutment plate 231₁And the width d of the fifth abutting plate 235₂Approximately equal (refer to fig. 5), the width d of the second abutment plate 232₃And the width d of the fourth abutment plate 234₄Approximately equal (refer to fig. 6), the insertion slit is fittingly inserted into the third abutting plate 233. At this time, since the third abutting plate 233 is located at the center of the overlapping profile 200, after the insertion joint included in the first connecting portion 310 is inserted into the third abutting plate 233, the connection stability of the fixing member 300 and the partition body is high; in addition, the size of the third abutting plate 233 can be designed to be larger, so that the insertion joint included in the first connecting portion 310 is conveniently inserted into the third abutting plate 233, the contact area of the third abutting plate 233 inserted into the first connecting portion 310 can be larger, and the connection stability between the fixing member 300 and the lap joint section bar 200 is higher.

It can be understood that, in order to ensure the reliability of the connection between the fixing member 300 and the building top plate 400 and the building bottom plate, and because it is difficult to design a snap structure on the building top plate and the building bottom plate to match with the fixing member 300, the fixing member 300 is usually connected to the building top plate 400 and the building bottom plate through expansion bolts, that is, the second connecting portion 320 includes a fixing plate 321, and the fixing plate 321 is connected to the building top plate 400 or the building bottom plate through expansion bolts, so that the connection is firm and the structural reliability is high. It should be understood that, in the process of fixing the fixing plate 321 to the building top plate 400 or the building bottom plate by using the expansion bolts, first, mounting holes are formed in the building top plate 400 or the building bottom plate, and the mounting holes should correspond to the connecting through holes in the fixing plate 321. Based on this, as shown in fig. 3 and 7, a plurality of connection via holes are arranged on the fixing plate 321, the connection via holes at least include a first connection via hole 3211 and a second connection via hole 3212, the first connection via hole 3211 is circular and matched with the expansion bolt, the second connection via hole 3212 is a strip-shaped hole, two ends of the strip-shaped hole in the length direction are arc-shaped, and the width of the strip-shaped hole is adapted to the expansion bolt. In this case, the area in which the mounting hole corresponding to the second connection via hole 3212 can be formed in the building top panel 400 or the building bottom panel is large, so that the risk of deviation of the position where the mounting hole is formed can be reduced, and the difficulty of construction can be reduced.

In addition, referring to fig. 3, 4 and 7, the first connecting portion 310 includes a first card board group and a second card board group, the first card board group includes at least one first card board 311, the second card board group includes at least one second card board 312, the first card board 311 and the second card board 312 are arranged in parallel, and both the first card board 311 and the second card board 312 are connected to the fixing plate 321; the insertion slot is a gap between planes of two opposite surfaces of the first card board 311 and the second card board 312. At this time, when the inserting joint is inserted into the third abutting plate 233, the first locking plate 311 is attached to the third abutting plate 233 on the side of the lap joint profile 200 close to the inside of the partition, and the second locking plate 312 is attached to the third abutting plate 233 on the side of the lap joint profile 200 far from the inside of the partition. The lap joint section bar 200 is extruded and attached between the first clamping plate 311 and the second clamping plate 312, and the fixing piece 300 is simple in structure and low in manufacturing cost.

Optionally, the edges of the two sides of the first clamping plate set formed in the first clamping plate 311 respectively abut against the inner surface of the lap joint section bar 200 close to the inner part of the partition body, so as to limit the movement of the partition body relative to the fixing member 300 along the extending direction of the inserting joint (the direction perpendicular to the wall panel). For example, in the case that the fourth abutting plate 234 is located inside the third abutting plate 233 close to the partition, the edges of the two sides of the first clamping plate group formed in the first clamping plate 311 abut against the first side plate 311 and the fourth abutting plate 234, respectively, so that the limitation of the movement of the partition relative to the fixing member 300 in the extending direction of the plug-in seam (the direction perpendicular to the wall panel) is further strengthened, and the reliability of the connection of the fixing member 300 and the partition is improved.

Further, the first clamping plate 311 and the second clamping plate 312 are formed at one end of the fixing plate 321, and orthographic projections of the first clamping plate 311 and the second clamping plate 312 in a direction perpendicular to the first clamping plate 311 are not overlapped. At this time, the fixing member 300 may be integrally formed through a blanking and bending process, and has a simple process and a high structural strength. For example, referring to fig. 7, the number of the first cards 311 is two, the number of the second cards 312 is one, the second card 312 is located in the middle of the two first cards 311, and two sides of the two first cards 311 that face away from each other abut against the first side plate 311 and the fourth abutting plate 234, respectively. For another example, referring to fig. 8, the number of the first cards 311 is one, the number of the second cards 312 is two, and the first card 311 is located between the two second cards 312; for another example, referring to fig. 9, the number of the first card 311 is one, the number of the second card 312 is one, the size of the first card 311 is larger than the size of the second card 312, the second card 312 is located in the middle of two sides of the first card 311, an avoiding opening is formed in the first card 311 corresponding to the second card 312, and an orthographic projection of the second card 312 toward the first card 311 is located in the avoiding opening, that is, the first card 311 is disposed around the second card 312. The above-described fixing members 300 can be integrally formed through a blanking and bending process, and have a simple process and high structural strength.

It can be understood that, the thicker the thickness of the fixing plate 321, the thickness of the first clamping plate 311 and the thickness of the second clamping plate 312 are, the higher the strength of the fixing member 300 is, and the higher the reliability is; the thinner the thickness of the fixing plate 321, the thickness of the first chucking plate 311, and the thickness of the second chucking plate 312, the lighter the fixing member 300, the lower the cost, and the more convenient the installation. Preferably, the thickness of the fixing plate 321, the thickness of the first clamping plate 311, and the thickness of the second clamping plate 312 are all 0.5mm to 50 mm. Experiments prove that under the condition that the thickness of the fixing plate 321, the thickness of the first clamping plate 311 and the thickness of the second clamping plate 312 are all 0.5-50 mm, higher reliability can be ensured, and the cost is lower.

In a second aspect, the present invention provides an assembled wall, referring to fig. 1, 2 and 3, including a plurality of wall modules, each adjacent two wall modules are spliced with each other by two overlapping profiles 200 between one wall module and another wall module.

Compared with the prior art, the embodiment of the utility model provides an assembled wall's beneficial effect is the same with the beneficial effect of the wall body module that above-mentioned technical scheme provided, does not do here and describe repeatedly.

In some embodiments, referring to fig. 1, 2 and 3, only the top and bottom regions of two overlapping profiles 200 between every two adjacent wall modules are used for inserting the fixing members 300, and 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, a heat preservation and sound insulation layer is filled in the gap, that is, a gap is left between the steps included in the two overlapping profiles 200 between every two adjacent wall modules, and the thickness of the gap is equal to the thickness of the second clamping plate 312 (refer to fig. 7), and a heat preservation and sound insulation layer is filled in the gap, and the heat preservation and sound insulation layer is used for heat preservation 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 body modules, so that the surface coating of the wall body and the surface attractiveness of the wall body are not influenced.

It should be noted that, according to actual conditions, a thermal insulation and sound insulation layer may be disposed between the two wall panels 100 included in the wall module, which is not limited herein.

It will be appreciated that additional stresses will be induced within the wall structure due to temperature changes and earthquakes, and such stresses will often cause cracking or even failure of the wall. The embodiment of the utility model provides a when leaving the clearance between concatenation cooperation between a plurality of wall body modules and the grafting cooperation between mounting 300 and the baffle body, especially two overlap joint section bars 200, the clearance between two overlap joint section bars 200 of adjacent wall body module has reduced the influence of stress to the wall body to a certain extent, has reduced the wall body and has produced crack or damaged risk.

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 member 300 may be made of a metal material or a polymer material, and each material has respective advantages and disadvantages, and is specifically selected according to the use environment and the use requirements. For example, when the frame is made of metal, the fixing member 300 is usually made of metal, so that the structural strength and reliability are high; when the above-mentioned section frame is made of wood-plastic material, the fixing member 300 is made of polymer material, so that it is light, easy to detach and move, and corrosion-resistant. Besides the above materials, the fixing member 300 may be made of other materials, which are not listed here.

Similarly, the wall panel 100 may be one or a combination of more than one of gypsum board, calcium silicate board, glass magnesium board, glass wool board, ceramic board, fire-proof board, sound-absorbing board, carbon felt board, cement board, medium density board, europae board, metal board, inorganic fiber board, wood-plastic board or wood board according to different use scenes and use requirements, each material has its own advantages and disadvantages, and is specifically selected according to the use environment and requirements, and the wall panel 100 may be made of other materials besides the above materials, which are not listed herein.

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.

The embodiment of the utility model provides a still provide a work progress of assembled wall for above-mentioned assembled wall, assembled wall work progress includes: erecting the partition body and moving it to a predetermined installation position; inserting the inserting joint and the abutting plate; connecting the fixing plate with a building top plate or a building bottom plate by using expansion bolts; and repeating the steps to sequentially install a plurality of wall body modules, wherein the lap joint profiles between every two adjacent wall body modules are spliced and fixed with each other.

Specifically, the construction process of the assembled wall body comprises the following steps:

step S1, the partition body is erected and moved to a predetermined mounting position.

In step S2, the insertion slit is inserted into the abutting plate 230.

In step S3, the fixing plate 321 is connected to the building ceiling 400 or the building floor by the expansion bolts.

And S4, repeating the above steps and sequentially installing a plurality of wall modules, wherein the lap joint profiles 200 between every two adjacent wall modules are spliced and fixed with each other.

It should be noted that, although steps S2 and S3 can be exchanged, after the fixing element 300 is connected to the top board 400 or the bottom board of the building, it is inconvenient for the insertion joint of the fixing element 300 to be inserted into the abutting board 230, and the position of the wall module cannot be adjusted.

The lap joint profiles 200 between every two adjacent wall modules are spliced and fixed with each other, and the fixing effect can be realized in a bonding mode, for example, a binder layer is arranged between the lap joint profiles 200 between the two adjacent wall modules; the lap joint profiles 200 between every two adjacent wall body modules are spliced and fixed with each other, and the fixing effect can also be enhanced by passing screws through the jointed plate surfaces between the two lap joint profiles 200. Of course, the opposite steps of the lap-joint profile 200 between two adjacent wall modules may be provided with an elastic clamping structure to limit the movement between the wall modules in the direction perpendicular to the wall panel 100, which is not limited herein.

The embodiment of the utility model provides an assembled wall body work progress need not carry out the field machining to the assembled wall body, can be direct with the roof and the bottom plate fixed connection of building, and operating procedure is simple, and simple to operate is swift, ensures the installation efficiency of construction. Meanwhile, in the process of splicing the wall formworks, the wall module can be directly moved to a predetermined installation position from one side of the wall body in a direction perpendicular to the wall panel 100. At this moment, when the wall body module located at the outermost side of the wall body is installed, the wall body module 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 module 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 an avoided installation gap is reserved at the tail end of the wall body due to the insertion mode of a convex-concave structure is avoided, and time and labor are saved.

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

The above embodiments are only 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 should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A wall module, comprising:

the partition body comprises a profile frame and wall panels positioned on two opposite sides of the profile frame, the profile frame at least comprises two lap joint profiles, and the two lap joint profiles are respectively positioned on two opposite sides of the partition body; the lap joint section comprises a supporting plate, a first side plate and a second side plate, wherein the first side plate and the second side plate are positioned on the same side of the supporting plate, the first side plate and the second side plate are correspondingly attached to the two wall panels respectively, the supporting plate is used for connecting the first side plate and the second side plate, and two sides of the wall panels are flush with one side of the first side plate and one side of the second side plate, which are connected with the supporting plate;

the fixing piece comprises a first connecting portion and a second connecting portion which are connected with each other, the first connecting portion comprises a splicing seam, the splicing seam is spliced with the abutting plate in a matched mode so as to prevent the lapped section from moving along the horizontal direction relative to the fixing piece, and the second connecting portion is used for connecting the building top plate or the building bottom plate.

2. The wall module of claim 1, wherein the number of the abutting plates is plural, two opposite ends of the abutting plates 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, and the other end of the ladder is vertically connected to the end of the second side plate; the lap joint profiles can be spliced with the lap joint profiles after rotating 180 degrees along the length direction, and after the two lap joint profiles are spliced, a first side plate of one lap joint profile and a second side plate of the other lap joint profile are on the same plane;

wherein, two said overlap joint section bars that are located the opposite both sides of said baffle body, wherein one said overlap joint section bar is set up along length direction rotation 180 degrees with respect to another said overlap joint section bar.

3. The wall module of claim 2, wherein the plurality of abutment plates includes a first abutment plate, a second abutment plate, a third abutment plate, a fourth abutment plate and a fifth abutment plate vertically connected in sequence, the first abutment plate being vertically connected to the first side plate, the fifth abutment plate being vertically connected to the second side plate;

width d of the first abutment plate₁Width d of the fifth abutting plate₂Approximately equal, width d of said second abutment plate₃And the fourth abutting plate d₄Are approximately equal in width; the insertion joint is matched and inserted with the third abutting plate.

4. A wall module according to claim 3, wherein the second connection portion comprises a fixing plate connected with the building roof or the building floor by expansion bolts;

the first connecting part comprises a first clamping plate group and a second clamping plate group, the first clamping plate group comprises at least one first clamping plate, the second clamping plate group comprises at least one second clamping plate, the first clamping plate and the second clamping plate are arranged in parallel, and the first clamping plate and the second clamping plate are both connected with the fixing plate; the insertion joint is a gap between planes of two opposite surfaces of the first clamping plate and the second clamping plate;

when the inserting joint is inserted into the third abutting plate, one side, close to the inner part of the separating body, of the first clamping plate is attached to the third abutting plate through the overlapping section bar, and one side, far away from the inner part of the separating body, of the second clamping plate is attached to the third abutting plate through the overlapping section bar.

5. A wall module according to claim 4, characterised in that the edges of the first set of tabs formed in the first tab each abut against the inner surface of the bridging section near the interior of the spacer to restrict movement of the spacer relative to the fixing element in the direction of extension of the plug-in joint.

6. A wall module according to claim 4, wherein the first and second clips are formed at one end of the fixing plate, and the orthographic projections of the first and second clips in a direction perpendicular to the first clip do not coincide.

7. The wall module of claim 4, wherein the thickness of the fixing plate, the first clamping plate and the second clamping plate is 0.5mm to 50 mm.

8. An assembled wall comprising a plurality of wall modules as defined in claim 4, wherein two of said overlapping profiles of each adjacent two of said wall modules are joined to each other between one of said wall modules and the other of said wall modules.

9. The assembled wall body as claimed in claim 8, wherein a gap is reserved between steps included in two overlapping profiles between every two adjacent wall body modules, the width of the gap is equal to the thickness of the second clamping plate, and the gap is filled with a heat-insulating and sound-insulating layer.

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