CN214696267U - Modular partition wall - Google Patents

Abstract

The utility model discloses a modular partition wall, which comprises a modular partition wall component and a partition wall component which is used for realizing rapid assembly and is in modular arrangement; the modularized partition wall component comprises a sandwich type framework; the staggered splicing and inserting components are used for realizing that the modular partition wall components are spliced and combined synchronously in the horizontal and vertical directions to form a universal component of the modular partition wall; the staggered splicing plug-in is provided with a staggered connecting groove matched with the sandwich type framework; wherein, the lateral part of the sandwich type framework is provided with a veneer. Through set up sandwich type skeleton in the modularization partition wall subassembly, the preceding spread groove on the plug-in components is pieced together to the front connection groove of utilizing the dislocation and the connection is pieced together to the sandwich type skeleton of adjacent modularization partition wall subassembly, ensures that the junction of adjacent modularization partition wall subassembly is connected stably, avoids seam crossing formation weak area, effectively promotes the side direction load performance after the shaping of modular partition wall.

Description

Modular partition wall

Technical Field

The utility model belongs to the technical field of architectural decoration technique and specifically relates to a modular partition wall is related to.

Background

The traditional light steel keel partition wall is common, the switching of the light steel keel partition wall needs to be marked, a framework and a sealing plate, the construction process is complex, the site operation pollutes the construction environment, and the construction period is long.

Chinese patent document (publication date: 2016, 3, 2, and publication number: CN 205063102U) discloses a connection structure between light steel keel partition walls, which is formed at a connection node between a first light steel keel partition wall and a second light steel keel partition wall, and comprises: the first light steel keel of the first light steel keel partition wall is vertically arranged close to the connecting node; and the second light steel keel of the second light steel keel partition wall vertically arranged at the connecting node, wherein the part of the second light steel keel extending into the connecting node is fixedly attached to the first light steel keel. Locate the nexus with the light gauge steel of partition wall, increase the wall body intensity of nexus, convenient operation facilitates for follow-up shingle nail installation. The problem of the intensity of light gauge steel partition wall node wall body and rigidity less is solved, and provide the stationary plane for follow-up shingle nail installation.

Above-mentioned technical scheme exists light gauge steel partition wall and still passes through bolted connection by U type fossil fragments and frame fossil fragments, and the construction step is loaded down with trivial details to and side direction load carrying ability technical problem such as unsatisfactory.

Disclosure of Invention

To the current assembled partition wall construction that mentions among the background art loaded down with trivial details, the unsatisfactory problem of junction side direction load performance between the partition wall module, the utility model provides a modular partition wall through set up sandwich type skeleton in the modularization partition wall subassembly to piece the combination of inserting in the level and vertical direction with the sandwich type skeleton of adjacent modularization partition wall subassembly in step through the dislocation, make the assembly of modularization partition wall subassembly form the efficiency improvement of partition wall, utilize the dislocation to piece the plug-in simultaneously and improve the side direction load performance of the modular partition wall after the assembly is accomplished.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a modular partition comprising modular partition components for quick assembly and modular arrangement; the modularized partition wall component comprises a sandwich type framework; the staggered splicing and inserting components are used for realizing that the modular partition wall components are spliced and combined synchronously in the horizontal and vertical directions to form a universal component of the modular partition wall; the staggered splicing plug-in is provided with a staggered connecting groove matched with the sandwich type framework; wherein, the lateral part of the sandwich type framework is provided with a veneer. The utility model discloses a modular partition wall is through a plurality of modularization partition wall subassemblies head and the tail in same direction as connecing the assembly shaping, sandwich type skeleton plays main supporting role for the keel structure in the modularization partition wall subassembly. The dislocation splicing component is used for splicing and inserting the sandwich type framework of the adjacent modular partition wall components, ensures that the joint of the adjacent modular partition wall components is stably connected, avoids the seam from forming a weak area, and effectively improves the lateral load-bearing performance of the modular partition wall after molding.

As preferred, sandwich type skeleton includes the horizontal fossil fragments of U type, be provided with first vertical keel and second vertical keel respectively at the horizontal fossil fragments both ends of U type, the cross section of first vertical keel and second vertical keel is L type structure, U type horizontal keel both sides are located respectively to first vertical keel and second vertical keel, first vertical keel lateral surface aligns with the horizontal keel terminal surface of U type, and the second vertical keel is symmetrical with the nodical central symmetry of first vertical keel about the transverse axis of U type horizontal keel and longitudinal axis. U type horizontal keel both ends weld respectively and have first vertical keel and second vertical keel, and first vertical keel and second vertical keel divide and locate the front and back both sides of U type horizontal keel. It is worth noting in addition, the terminal surface of first vertical keel lateral surface and the horizontal fossil fragments one end of U type aligns, it is corresponding, first vertical keel is the terminal surface alignment of the second vertical keel lateral surface of central symmetry and the horizontal fossil fragments other end of U type, this kind of setting makes after the amalgamation of adjacent modularization partition wall subassembly, the second vertical keel on the horizontal fossil fragments of preceding U type and the first vertical keel dislocation set on the horizontal fossil fragments of back U type, and not in same straight line, and both have all avoided the piece joint of adjacent modularization partition wall subassembly, this junction that has just avoided adjacent modularization partition wall subassembly forms "logical seam structure", effectively promotes structural stability and anti side pressure performance after the concatenation.

As preferred, the piece is pieced together in the dislocation sets up between adjacent modularization partition wall subassembly, the piece is pieced together in the dislocation includes the cylinder connector and sets up in the block portion of cylinder connector tip, block portion and the horizontal fossil fragments joint of U type, the dislocation spread groove is including setting up preceding spread groove and the back spread groove in both sides around cylinder connector outside portion, preceding spread groove is parallel dislocation set with back spread groove, preceding spread groove can be connected with the sandwich type skeleton plug-in card of back spread groove difference adjacent modularization partition wall subassembly. The cylinder connector of the dislocation splicing piece is used for splicing and connecting the longitudinal keels of the adjacent modularized partition wall assemblies, the clamping part at the end part of the cylinder connector is used for splicing and connecting the transverse keels of the adjacent modularized partition wall assemblies, and the transverse and longitudinal synchronous connection of the adjacent modularized partition wall assemblies is completed through one part of the dislocation splicing piece, so that a plurality of connecting joints arranged along the joint seams are formed at the joint of the adjacent modularized partition wall assemblies, and the connecting strength and the stability of the adjacent modularized partition wall assemblies are effectively improved.

Furthermore, the barrel-type connector is provided with a clamping part, the clamping part is provided with at least two groups of clamping grooves arranged along the length direction of the U-shaped cross keel, and the clamping grooves can be synchronously connected with the U-shaped cross keels of the adjacent modularized partition wall assemblies. The clamping part comprises a plurality of groups of clamping grooves, the clamping grooves at two ends are respectively inserted and connected with the U-shaped cross keels of the adjacent modularized partition wall assemblies, the rest clamping grooves can be inserted and connected with any one of the U-shaped cross keels of the adjacent modularized partition wall assemblies, and the connection strength is further improved under the fixation of the clamping grooves at two ends.

Further, U type cross keel butt joint among the sandwich type skeleton of adjacent modularization partition wall subassembly, the plug-in components are pieced together in the dislocation set up in the butt joint department of adjacent U type cross keel, and the second on the preceding U type cross keel is erected fossil fragments and is pegged graft with preceding spread groove, and the first on the later U type cross keel is erected fossil fragments and is pegged graft with back spread groove. The positions of the front connecting groove and the rear connecting groove respectively correspond to a second vertical keel in a front module and a first vertical keel in a rear module in adjacent modular partition wall assemblies, so that the longitudinal keels of the front module and the rear module are inserted into the staggered splicing pieces, and efficient connection of the adjacent modular partition wall assemblies in the length direction of the partition wall is achieved.

Preferably, the front connecting groove and the rear connecting groove are both of an inward concave type clamping groove structure. Preceding spread groove and the back spread groove of indent formula draw-in groove structure can guarantee that the vertical fossil fragments of adjacent modularization partition wall subassembly can not produce in the cylinder connecting body after inserting and rock, accomplishes the restraint to vertical fossil fragments through the indent structure.

Preferably, a fixing part penetrates through each of the front connecting groove and the rear connecting groove. The mounting further promotes the structural stability behind longitudinal joist installation in preceding spread groove and back spread groove, improves the bulk rigidity after the installation of dislocation piece insertion piece is accomplished.

Furthermore, a fixing piece penetrates through the clamping groove. After the U-shaped cross keels of the adjacent modularized partition wall assemblies are clamped and connected in the clamping grooves, the connecting strength of the adjacent U-shaped cross keels after being butted is further improved through the fixing piece penetrating through the clamping grooves, and the lateral force bearing performance of the assembled modular partition wall is obviously improved.

The utility model discloses module formula partition wall's assembly step is as follows: the constructor selects a plurality of U-shaped cross keels with proper length according to the complete length of the prefabricated modular partition wall, and the U-shaped cross keels are sequentially connected and then conform to the complete length of the prefabricated modular partition wall. And then, performing combined welding by utilizing two L-shaped longitudinal keels and one U-shaped transverse keel, and simultaneously performing supplementary welding on a plurality of U-shaped transverse keels at equal intervals in the length direction of the longitudinal keels to obtain a plurality of groups of sandwich type frameworks. And then the sandwich type frameworks are sequentially placed by taking the U-shaped cross keels as standard lines, and staggered splicing insertion pieces are installed between the U-shaped cross keels butted in the adjacent sandwich type frameworks, a plurality of splicing insertion grooves of the staggered splicing insertion pieces are arranged along the length direction of the U-shaped cross keels, so that when the front and back groups of splicing insertion grooves are connected with the adjacent U-shaped cross keels in an inserting mode, the second vertical keel close to the joint of the front U-shaped cross keel and the front connecting groove of the staggered splicing insertion pieces are ensured to be inserted, and the first vertical keel close to the joint of the back U-shaped cross keel and the back connecting groove of the staggered splicing insertion pieces are ensured to be inserted. The installation mounting runs through on all piece together slots, preceding spread groove and back spread groove after that, and the mounting adopts self-plugging rivet in this embodiment, and the installation is convenient, and joint strength is high, and the vertical fossil fragments dislocation set of horizontal fossil fragments both sides has avoided the junction of adjacent modularization partition wall subassembly, effectively promotes the bulk rigidity of partition wall. And after the fixing piece is installed, the connection of the sandwich type frameworks of the adjacent modularized partition wall components is completed. And then installing and fixing a rock wool board in the groove of each U-shaped cross keel, and installing a ceiling keel and a floor keel on the upper part and the lower part of the combined and formed sandwich type framework group respectively. And finally, installing a veneer between the skullar keel and the ground keel, wherein the inner side of the veneer is attached to the outer side of the longitudinal keel of each group of sandwich type frameworks. If need install water pipe or circuit pencil in modular partition wall, the direct mount in the L type longitudinal joist and the horizontal fossil fragments of U type between the neutral position can, only need during the line dismouting decorative board can, need not to carry out the dismouting to the modularization partition wall subassembly that connects in order, greatly improved the construction convenience among the interior decoration process.

Therefore, the utility model discloses following beneficial effect has: (1) the sandwich type frameworks are arranged in the modular partition wall assemblies, and the sandwich type frameworks of the adjacent modular partition wall assemblies are synchronously spliced and combined in the horizontal and vertical directions through the staggered splicing and inserting pieces, so that the efficiency of assembling the modular partition wall assemblies to form the partition wall is improved; (2) the front connecting groove and the rear connecting groove on the staggered splicing plug-in component are utilized to splice, insert and connect the sandwich type frameworks of the adjacent modular partition wall components, so that the connection stability of the joints of the adjacent modular partition wall components is ensured, a weak area is prevented from being formed at the joints, and the lateral bearing performance of the molded modular partition wall is effectively improved; (3) when the adjacent modular partition wall components are installed, the modules are provided with staggered joints, and the sizes of the facing plates do not need to be processed deliberately, so that the sizes of the facing plates can be consistent as much as possible, the number requirement of non-standard modules is reduced, and the frequency of modifying the panels on site is reduced; (4) the front connecting grooves and the rear connecting grooves of the staggered splicing plug-in units are arranged in a staggered mode, accumulated errors formed in the process of continuously assembling the modular partition wall assemblies are dispersed to joints of every two adjacent modular partition wall assemblies, the overall precision of the modular partition wall is effectively improved, the accumulated errors do not need to be eliminated, and the construction efficiency is improved; (5) need install water pipe or circuit pencil in modular partition wall, the direct mount can in the neutral position between the vertical fossil fragments of L type and the horizontal fossil fragments of U type, only need during the line dismouting decorative board can, need not to carry out the dismouting to the modularization partition wall subassembly that connects in order, greatly improved the construction convenience among the interior decoration process.

Drawings

Fig. 1 is an axial view of the module partition wall of the utility model after being assembled and molded.

Fig. 2 is the assembly structure diagram of the modular partition wall assembly of the present invention.

Figure 3 is a cross-sectional view of the modular wall assembly of figure 2 after assembly.

Fig. 4 is a schematic structural view of the sandwich type frame in fig. 2.

FIG. 5 is a schematic view of the dislocated split block of FIG. 2.

Fig. 6 is a partially enlarged view of a portion a in fig. 2.

In the figure: 1. modularization partition wall subassembly, 2, sandwich type skeleton, 21, U type horizontal keel, 22, first perpendicular keel, 23, second perpendicular keel, 3, the plug-in components are pieced together in the dislocation, 31, the cylinder connector, 32, block portion, 321, the block groove, 4, the spread groove that misplaces, 41, preceding spread groove, 42, back spread groove, 5, decorative board, 6, mounting, 7, rock wool board, 8, long bone, 9, the keel.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description. Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being 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.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example 1

As shown in figures 1, 2 and 5, a modular partition comprises a modular partition assembly 1 for quick assembly and modular arrangement of the partition assemblies; the modular partition wall assembly 1 comprises a sandwich type framework 2; the staggered splicing plug-in components 3 are used for realizing that the modular partition wall components are spliced and combined synchronously in the horizontal and vertical directions to form a universal component of the modular partition wall; the staggered splicing plug-in is provided with a staggered connecting groove 4 matched with the sandwich type framework; wherein, the lateral part of the sandwich type framework is provided with a veneer 5. The utility model discloses a modular partition wall is through a plurality of modularization partition wall subassemblies head and the tail in same direction as connecing the assembly moulding, and sandwich type skeleton plays main supporting role for the keel structure in the modularization partition wall subassembly. The dislocation splicing component is used for splicing and inserting the sandwich type framework of the adjacent modular partition wall components, ensures that the joint of the adjacent modular partition wall components is connected stably, avoids the weak area formed at the joint, and effectively improves the lateral bearing performance of the modular partition wall after molding.

As shown in fig. 3 and 4, the sandwich type framework comprises a U-shaped cross keel 21, a first vertical keel 22 and a second vertical keel 23 are respectively arranged at two ends of the U-shaped cross keel, the cross sections of the first vertical keel and the second vertical keel are L-shaped structures, the first vertical keel and the second vertical keel are respectively arranged at two sides of the U-shaped cross keel, the outer side surface of the first vertical keel is aligned with the end surface of the U-shaped cross keel, and the second vertical keel and the first vertical keel are symmetrical about the intersection point center of the transverse axis and the longitudinal axis of the U-shaped cross keel. In this embodiment, a set of sandwich type skeleton includes that first vertical keel and second vertical keel are each, five U type cross keel, U type cross keel sets up along first vertical keel length direction equidistance. First vertical keel and second vertical keel are welded at two ends of the U-shaped transverse keel respectively, and the first vertical keel and the second vertical keel are respectively arranged at the front side and the rear side of the U-shaped transverse keel. It is worth noting in addition, the terminal surface of first vertical keel lateral surface and U type cross keel one end aligns, it is corresponding, first vertical keel is the terminal surface alignment of the second vertical keel lateral surface of central symmetry and the U type cross keel other end, this kind of setting makes after the amalgamation of adjacent modularization partition wall subassembly, second vertical keel on the horizontal keel of preceding U type and the first vertical keel dislocation set on the horizontal keel of back U type, and not in same straight line, and both have all avoided the piece joint of adjacent modularization partition wall subassembly, this junction formation "logical seam structure" of having just avoided adjacent modularization partition wall subassembly, effectively promote structural stability and the anti side pressure performance after the concatenation. In this embodiment, the first and second studs are longitudinal studs; the U-shaped transverse keel belongs to a transverse keel, and the length of the U-shaped transverse keel is 300 mm; the length of the traditional transverse keel is 500-600mm, the installation accuracy of the modular partition wall assembly made of the short transverse keel can be improved, the installation of a nonstandard module for processing is required to be carried out when the modular partition wall assembly is started, ended, provided with a door and window hole and switched, but when the modular partition wall assembly made of the short transverse keel is provided with the nonstandard module during planning, the single module is changed and the site construction is simple; in addition, the modular partition wall assembly made of the short transverse keels is convenient to transport and not easy to damage.

As shown in fig. 5, the staggered splicing piece is disposed between adjacent modular partition wall assemblies, and includes a cylindrical connector 31 and a clamping portion 32 disposed at the end of the cylindrical connector, the clamping portion is clamped with the U-shaped cross keel, the staggered connecting slots include a front connecting slot 41 and a rear connecting slot 42 disposed at the front and rear sides of the outer side of the cylindrical connector, the front connecting slot and the rear connecting slot are arranged in parallel in a staggered manner, and the front connecting slot and the rear connecting slot can be respectively connected with a sandwich type framework of the adjacent modular partition wall assemblies in a plug-in manner. As shown in fig. 6, the barrel-type connector of the staggered splicing component is used for splicing and connecting the longitudinal keels of the adjacent modular partition wall assemblies, the clamping part at the end part of the barrel-type connector is used for splicing and connecting the transverse keels of the adjacent modular partition wall assemblies, and the transverse and longitudinal synchronous connection of the adjacent modular partition wall assemblies is completed through one part of the staggered splicing component, so that a plurality of connection joints arranged along the joint seams are formed at the joint parts of the adjacent modular partition wall assemblies, and the connection strength and stability of the adjacent modular partition wall assemblies are effectively improved.

The barrel-type connector is provided with a clamping part, the clamping part is provided with at least two groups of clamping grooves 321 arranged along the length direction of the U-shaped cross keel, and the clamping grooves can be synchronously connected with the U-shaped cross keels of the adjacent modularized partition wall components. U type cross keel butt joint among the sandwich type skeleton of adjacent modularization partition wall subassembly, the plug-in components are pieced together in the dislocation set up in the butt joint department of adjacent U type cross keel, and the second on the preceding U type cross keel erects fossil fragments and pegs graft with preceding spread groove, and the first on the back U type cross keel erects fossil fragments and pegs graft with back spread groove. The clamping part comprises a plurality of groups of clamping grooves, the clamping grooves at two ends are respectively inserted into and connected with the U-shaped cross keels of the adjacent modularized partition wall assemblies, the rest clamping grooves can be inserted into any one of the U-shaped cross keels of the adjacent modularized partition wall assemblies, and the connection strength is further improved under the fixation of the clamping grooves at two ends. The front connecting groove and the rear connecting groove are both of an inward concave type clamping groove structure. The positions of the front connecting groove and the rear connecting groove respectively correspond to a second vertical keel in a front module and a first vertical keel in a rear module in adjacent modular partition wall assemblies, so that the longitudinal keels of the front module and the rear module are inserted into the staggered splicing pieces, and efficient connection of the adjacent modular partition wall assemblies in the length direction of the partition wall is achieved. The preceding spread groove of indent formula draw-in groove structure and back spread groove can guarantee that the vertical fossil fragments of adjacent modularization partition wall subassembly can not produce in the cylinder connecting body after inserting and rock, accomplish the restraint to vertical fossil fragments through the indent structure.

As shown in fig. 3, a fixing member 6 is penetratingly provided in each of the front and rear coupling grooves. Furthermore, a fixing piece penetrates through the clamping groove. The mounting further promotes the structural stability behind longitudinal joist installation in preceding spread groove and back spread groove, improves the holistic rigidity after the installation of dislocation piece insertion piece is accomplished. After the U-shaped cross keels of the adjacent modularized partition wall assemblies are clamped and connected in the clamping grooves, the connecting strength of the adjacent U-shaped cross keels after being butted is further improved through the fixing piece penetrating through the clamping grooves, and the lateral force bearing performance of the assembled modular partition wall is obviously improved.

The utility model discloses module formula partition wall's assembly step is as follows:

s1: welding a first vertical keel of an L-shaped structure on the front side of one end part of the U-shaped cross keel, welding a second vertical keel of the L-shaped structure on the rear side of the other end part of the U-shaped cross keel, and finishing the assembly of the sandwich type framework;

s2: taking a corresponding number of sandwich type frameworks assembled in the step S1 according to the length of the prefabricated modular partition wall, butting U-shaped cross keels of the adjacent sandwich type frameworks, wherein a second vertical keel in a front sandwich type framework and a first vertical keel in a rear sandwich type framework are arranged at the butting position of the adjacent U-shaped cross keels in a front-rear staggered mode, and the adjacent U-shaped cross keels are fixed through a staggered connecting groove through a fixing piece;

s3: inserting the clamping grooves of the staggered splicing pieces into the U-shaped transverse keels of the adjacent sandwich type frameworks respectively, fixing the clamping grooves in a penetrating manner through the fixing pieces, and synchronously performing the step S4;

s4: inserting a second vertical keel in a front sandwich type framework into a front connecting groove, inserting a first vertical keel in a rear sandwich type framework into a rear connecting groove, respectively fixing the front connecting groove and the rear connecting groove in a penetrating manner through a fixing part, and preliminarily assembling a modular partition wall assembly in the prefabricated modular partition wall;

s5: in step S3, installing a rock wool board 7 in the modular partition wall assembly, wherein the rock wool board is fixedly installed in the groove structure of the U-shaped cross keel;

s6: installing a U-shaped ceiling keel at the top end of the modular partition wall assembly in the step S4, installing a U-shaped ground keel at the bottom end of the modular partition wall assembly, and clamping the U-shaped ceiling keel and the U-shaped ground keel at the outer sides of a first vertical keel and a second vertical keel in the modular partition wall assembly;

s7: and (4) additionally welding the end parts of the modular partition wall assemblies at the front end and the rear end in the prefabricated modular partition wall in the step (S5) for installation, and fixedly connecting the installation vertical keels with the building wall through expansion bolts.

The constructor selects a plurality of U-shaped cross keels with proper length according to the complete length of the prefabricated modular partition wall, and the U-shaped cross keels are sequentially connected and then conform to the complete length of the prefabricated modular partition wall. And then, performing combined welding by utilizing two L-shaped longitudinal keels and one U-shaped transverse keel, and simultaneously performing supplementary welding on a plurality of U-shaped transverse keels at equal intervals in the length direction of the longitudinal keels to obtain a plurality of groups of sandwich type frameworks. And then the sandwich type frameworks are sequentially placed by taking the U-shaped cross keels as standard lines, and staggered splicing inserts are installed between the U-shaped cross keels butted in the adjacent sandwich type frameworks, and a plurality of splicing slots of the staggered splicing inserts are arranged along the length direction of the U-shaped cross keels, so that when the front and back groups of the splicing slots are respectively spliced with the adjacent U-shaped cross keels, the second vertical keel close to the joint of the front U-shaped cross keel and the front connecting slot of the staggered splicing insert are ensured to be spliced, and the first vertical keel close to the joint of the rear U-shaped cross keel and the rear connecting slot of the staggered splicing insert are ensured to be spliced. The installation mounting runs through on all piece together slots, preceding spread groove and back spread groove after that, and the mounting adopts self-plugging rivet in this embodiment, and the installation is convenient, and joint strength is high, and the vertical fossil fragments dislocation set of horizontal fossil fragments both sides has avoided the junction of adjacent modularization partition wall subassembly, effectively promotes the bulk rigidity of partition wall. And after the fixing piece is installed, the connection of the sandwich type frameworks of the adjacent modularized partition wall components is completed. And then installing and fixing a rock wool board in the groove of each U-shaped cross keel, and installing a ceiling keel and a floor keel on the upper part and the lower part of the combined and formed sandwich type framework group respectively. And finally, installing a veneer between the skullar keel and the ground keel, wherein the inner side of the veneer is attached to the outer side of the longitudinal keel of each group of sandwich type frameworks. If need install water pipe or circuit pencil in modular partition wall, the direct mount in the L type longitudinal joist and the horizontal fossil fragments of U type between the neutral position can, only need during the line dismouting decorative board can, need not to carry out the dismouting to the modularization partition wall subassembly that connects in order, greatly improved the construction convenience among the interior decoration process.

In addition to the above embodiments, the technical features of the present invention can be re-selected and combined within the scope of the present invention as disclosed in the claims and the specification to constitute new embodiments, which can be realized by those skilled in the art without any creative work, therefore, the embodiments of the present invention not described in detail should be regarded as specific embodiments of the present invention and within the protection scope of the present invention.

Claims (8)

1. A modular partition, comprising:

the modular partition wall assembly is used for realizing rapid assembly and is arranged in a modular manner; the modularized partition wall component comprises a sandwich type framework;

the staggered splicing and inserting components are used for realizing that the modular partition wall components are spliced and combined synchronously in the horizontal and vertical directions to form a universal component of the modular partition wall; the staggered splicing plug-in is provided with a staggered connecting groove matched with the sandwich type framework;

wherein, the lateral part of the sandwich type framework is provided with a veneer.

2. The modular partition wall of claim 1, wherein the sandwich type framework comprises a U-shaped cross keel, a first vertical keel and a second vertical keel are respectively arranged at two ends of the U-shaped cross keel, the cross sections of the first vertical keel and the second vertical keel are both of an L-shaped structure, the first vertical keel and the second vertical keel are respectively arranged at two sides of the U-shaped cross keel, the outer side surface of the first vertical keel is aligned with the end surface of the U-shaped cross keel, and the second vertical keel and the first vertical keel are centrosymmetric about the intersection point of the transverse axis and the longitudinal axis of the U-shaped cross keel.

3. The modular partition wall of claim 2, wherein the staggered split insert is disposed between adjacent modular partition wall assemblies, the staggered split insert comprises a cylindrical connector and a clamping portion disposed at an end of the cylindrical connector, the clamping portion is clamped with the U-shaped cross keel, the staggered connecting slots comprise a front connecting slot and a rear connecting slot disposed at front and rear sides of an outer side portion of the cylindrical connector, the front connecting slot and the rear connecting slot are arranged in parallel in a staggered manner, and the front connecting slot and the rear connecting slot can be respectively connected with a sandwich type framework of the adjacent modular partition wall assemblies in a plug-in manner.

4. The modular partition of claim 3 wherein the engaging portions are formed with at least two sets of engaging grooves along the length of the U-shaped cross members, the engaging grooves being adapted to simultaneously engage the U-shaped cross members of adjacent modular partition assemblies.

5. The modular partition of claim 3 wherein the U-shaped cross members of the sandwiched frame of adjacent modular partition modules are butted, the offset insert assembly is disposed at the butt joint of adjacent U-shaped cross members, the second vertical member of the previous U-shaped cross member is inserted into the front connecting groove, and the first vertical member of the subsequent U-shaped cross member is inserted into the rear connecting groove.

6. The modular partition of claim 3 wherein the front and rear attachment slots are each of a female slot configuration.

7. The modular partitioning wall as claimed in claim 3, wherein the front and rear attachment slots each have a fixing member extending therethrough.

8. The modular partition of claim 4 wherein the engaging slots are provided with fasteners extending therethrough.

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