CN216305026U - Light steel partition wall system capable of being repeatedly disassembled, assembled and recycled - Google Patents

Abstract

The utility model discloses a light steel partition wall system capable of being repeatedly disassembled, assembled and recycled, which comprises an inner wall assembly for separating indoor space, an outer wall assembly for separating indoor space from outdoor space and a door and window sleeve edge closing assembly for sealing each wall assembly, wherein the end edge of each wall assembly is provided with the door and window sleeve edge closing assembly; the utility model provides a light steel partition wall system capable of being repeatedly disassembled and assembled for recycling.

Description

Light steel partition wall system capable of being repeatedly disassembled, assembled and recycled

Technical Field

The utility model relates to a light steel partition wall system capable of being repeatedly disassembled, assembled and recycled, and belongs to the technical field of light steel partition walls.

Background

With the appearance of light wall bodies, the application of light wall bodies is more and more extensive due to the advantages of light wall body materials in various performances such as price, sound insulation performance, wall surface bearing, hanging force, fire prevention, water prevention and the like. The light steel partition wall is one of light wall bodies, supports the wall body mainly through the mutual cooperation of the transverse keels and the vertical keels, has the characteristics of light weight, higher strength, good fire resistance, strong universality and simple and easy installation, has the effects of adapting to shock prevention, dust prevention, sound insulation, sound absorption, constant temperature and the like, and also has the characteristics of short construction period, simple and convenient construction, difficult deformation and the like.

However, the light steel partition wall system which can be repeatedly disassembled, assembled and recycled according to the use requirements of the inner wall and the outer wall is not provided in the market at present according to different functions and requirements of the outer wall and the inner wall.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a light steel partition wall system capable of being repeatedly disassembled, assembled and recycled.

In order to solve the technical problems, the utility model is realized by adopting the following technical scheme:

the utility model provides a light steel partition wall system of repeatedly dismouting cycle use which characterized in that:

the door and window frame assembly comprises an inner wall assembly for separating an indoor space, an outer wall assembly for separating an indoor space and an outdoor space and a door and window frame edge closing assembly for closing each wall assembly;

the end edge of each wall surface assembly is provided with a door and window cover edge closing assembly;

each wall surface assembly comprises a framework assembly, a first composite inner wallboard is paved and covered on the framework assembly on one surface of the outer wall surface assembly facing indoors and on two surfaces of the inner wall surface assembly, a second composite outer wallboard is paved and covered on the framework assembly on one surface of the outer wall surface assembly facing outdoors, and a sound insulation shear plate assembly is arranged between the framework assembly and each wallboard;

one end of each wall assembly, which is used for connecting the ground, is detachably connected with a luminous lamp skirting line.

Further, the skeleton assembly includes a plurality of bow type main vertical keel and a plurality of C type horizontal fossil fragments that are used for connecting bow type main vertical keel, the both sides limit bending type of bow type main vertical keel forms two die cavities that are used for crossing the line, two the die cavity symmetry sets up.

Furthermore, each bow type main vertical keel and each C type horizontal keel's each connected node all sets up C type horizontal keel connecting piece, C type horizontal keel connecting piece sets up in bow type main vertical keel, set up the modulus connecting hole that supplies C type horizontal keel connecting piece to insert on the C type horizontal keel.

The C-shaped transverse keel connecting piece is in a step shape.

And furthermore, a plurality of corner connectors for fixing the second composite external wall panel are arranged on the framework assembly of the external wall panel assembly. Furthermore, high-elasticity inserting and buckling components are arranged at the joints of the framework assembly and the first composite inner wallboard;

each the high elasticity eye-splice subassembly is including setting up in the high elasticity triangle eye-splice fossil fragments of skeleton assembly and the wallboard skeleton that cooperation high elasticity triangle eye-splice fossil fragments realized the eye-splice and connect, wallboard skeleton eye-splice is in wallboard in first compound.

Furthermore, the wallboard framework comprises a framework and a connecting clamping plate;

the frame of the framework frame body is provided with a wire passing groove along the length direction, and each frame of the framework frame body is provided with a wire passing hole perpendicular to the length direction;

one side of the connecting clamping plate is clamped with the wire passing groove, and the other side of the connecting clamping plate is inserted with the high-elasticity triangular inserting buckle keel.

Further, wallboard in the first complex includes insulating layer, the layer and the decorative layer that generate heat from inside to outside.

Furthermore, the door and window sleeve edge folding assembly comprises edge folding clamping strips and edge folding plates for sealing the wall body assembly, wherein the edge folding clamping strips are arranged at two ends of each edge folding plate;

one side of each edge-closing clamping strip is connected with the edge-closing plate in a clamping mode, the other side of each edge-closing clamping strip is connected with the wall assembly in a clamping mode, and the detachable connection of the edge-closing assembly of the door and window sleeve and the wall assembly is achieved.

Further, sound insulation shear plate assembly includes rock wool layer, the sound insulation shear plate that excels in and EPS board layer, the sound insulation shear plate that excels in reaches the sound insulation by the structure of the cotton veneer of sound absorption of two-layer magnesium base stereoplasm high density board and centre, increases the wall body shear strength function in each wall assembly: the high-strength sound insulation shear plate is clamped in the rock wool layer;

in the inner wall surface assembly, the EPS board layers are two layers and are respectively arranged outside the two rock wool layers;

in the outer wall surface assembly, the EPS board layer is arranged on the surface facing the indoor;

each EPS sheet layer has been seted up the line hole of crossing along the face direction.

The composite outer wall panel of second includes EPS outer wall plate layer and ceramic tile, the composite outer wall panel of second is the crisscross setting of pile form, each adopt tenon grafting structural connection between the EPS outer wall plate layer.

Furthermore, a plastic downpipe is arranged at a corner formed by the connection of the outer wall surface assemblies, rock wool is filled on the outer wall of the plastic downpipe, and two ends of the corner connecting section bar are respectively clamped with the two crossed outer wall surface assemblies so as to fix the plastic downpipe.

Compared with the prior art, the utility model has the following beneficial effects:

under the condition of meeting the performance of the light steel partition wall, aiming at the difference of functions and requirements of an inner wall and an outer wall, the utility model provides the light steel partition wall system which can be repeatedly disassembled, assembled and recycled.

Drawings

Fig. 1 is a perspective view of a first structure of an inner wall surface assembly and a door and window cover edge closing assembly in a light steel partition wall system capable of being repeatedly disassembled, assembled and recycled according to an embodiment of the utility model.

Fig. 2 is a perspective view of a second structure of an inner wall surface assembly and a door and window cover edge closing assembly in a light steel partition wall system capable of being repeatedly disassembled, assembled and recycled according to an embodiment of the utility model (a sound insulation shear plate assembly is not shown).

Fig. 3 is a schematic connection diagram of a light-emitting lamp skirting line, a high-elasticity triangular buckle keel and a C-shaped transverse keel in the light steel partition wall system which can be repeatedly disassembled, assembled and recycled according to the embodiment of the utility model.

Fig. 4 is a perspective view of a sound insulation shear plate assembly filled in a light steel partition wall system which can be repeatedly disassembled, assembled and recycled according to an embodiment of the present invention (shown in the figure, the sound insulation shear plate assembly of an inner wall surface assembly is shown, and an EPS plate layer is disposed on only one side facing indoors in the sound insulation shear plate assembly of an outer wall surface assembly).

Fig. 5 is a side view of an inner wall assembly of a light steel partition system for repeated, detachable and recyclable use according to an embodiment of the present invention.

Fig. 6 is a partially enlarged view of a portion a in fig. 5.

Fig. 7 is a partial enlarged view of fig. 5 at B.

Fig. 8 is a top view of an inner wall assembly of a light steel partition system that can be repeatedly disassembled and assembled for recycling according to an embodiment of the present invention.

Fig. 9 is a partial enlarged view at C in fig. 8.

Fig. 10 is a partial enlarged view of fig. 8 at D.

Fig. 11 is a perspective view of an inner wall assembly in a light steel partition system that can be repeatedly disassembled and assembled for recycling according to an embodiment of the present invention.

Fig. 12 is a perspective view of the structure of the outer wall surface assembly of the inner wall surface assembly in the light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to the embodiment of the present invention.

Fig. 13 is an installation perspective view of a second composite external wall panel in the light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to the embodiment of the utility model.

Fig. 14 is a perspective view of an outer wall assembly in a light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to an embodiment of the present invention.

In the figure: 100. a frame assembly; 110. a bow-shaped main vertical keel; 120. a C-shaped transverse keel; 200. a first composite interior wallboard; 300. a sound insulation shear plate assembly; 310. a high-strength sound insulation shear plate; 320. a rock wool layer; 330. an EPS sheet layer; 400. a high elasticity eye-splice component; 410. a high-elasticity triangular eye-splice keel; 420. a wallboard framework; 500. a door and window cover edge closing assembly; 510. edge folding plates; 520. edge folding and clamping strips; 600. a skirting line of the luminescent lamp; 700. and a second composite external wall panel.

Detailed Description

The utility model is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "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 used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. 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," "second," etc. 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 meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The light steel partition wall system capable of being repeatedly disassembled, assembled and recycled comprises an inner wall surface assembly and an outer wall surface assembly, wherein the inner wall surface assembly is arranged indoors and used for dividing indoor space, and the outer wall surface assembly is used for dividing indoor space and outdoor space;

interior wall assembly and outer wall assembly all include the skeleton assembly 100 that is used for the braced wall structure, skeleton assembly 100 includes a plurality of bow type main vertical keel 110 and a plurality of C type horizontal keel 120 that are used for connecting bow type main vertical keel 110, bow type main vertical keel 110 and the perpendicular setting of C type horizontal keel 120, connect a plurality of C type horizontal keel 120 of parallelly connected between each two adjacent bow type main vertical keel 110, form netted skeleton texture, the quantity of bow type main vertical keel 110 and the quantity of C type horizontal keel 120 require the decision according to the area and the intensity of the wall that involves.

The two side edges of the bow-shaped main vertical keel 110 are bent to form a rectangular cavity, the two cavity mirrors are arranged, and the cavity of the bow-shaped main vertical keel 110 and the cavity of the C-shaped transverse keel 120 form a through wire passing network of the wall, so that threading is conveniently carried out in the wall.

Each junction of each main vertical keel 110 of bow type and each horizontal fossil fragments of C type 120 sets up the horizontal fossil fragments connecting piece of C type, the horizontal fossil fragments connecting piece of C type is the connection piece that is the echelonment of rank, the one end of the horizontal fossil fragments connecting piece of C type is passed through the fix with screw in main vertical keel 110 of bow type, offer the modulus connecting hole that is used for pegging graft the horizontal fossil fragments connecting piece of C type on the horizontal fossil fragments of C type 120, the horizontal fossil fragments connecting piece of C type inserts in the modulus connecting hole, accomplish the connection of main vertical keel 110 of bow type and the horizontal fossil fragments of C type 120, adopt the mode of above-mentioned grafting, conveniently carry out the dismouting combination according to the design scene.

The inner wall surface assembly further comprises a first composite inner wall board 200 paved on two sides of the framework assembly 100, a high-elasticity eye-splice component 400 is arranged at the joint of the framework assembly 100 and the first composite inner wall board 200, the high-elasticity eye-splice component 400 comprises a high-elasticity triangular eye-splice keel 410 arranged on the framework assembly 100 and a wall board framework 420 matched with the high-elasticity triangular eye-splice keel 410 to realize eye-splice connection, and the wall board framework 420 is in eye-splice connection with the first composite inner wall board 200.

The section of the high-elasticity triangular insert-buckle keel 410 is in an isosceles triangle shape, a plurality of insert-buckle connecting sheets are convexly arranged on one surface where the bottom edge of the high-elasticity triangular insert-buckle keel 410 is located, a plurality of insert-buckle connecting holes matched with the insert-buckle connecting sheets are formed in the connecting position of the framework assembly 100 and the high-elasticity triangular insert-buckle keel 410, and the insert-buckle connecting sheets are inserted into the insert-buckle connecting holes to complete the connection of the high-elasticity triangular insert-buckle keel 410 and the framework assembly 100.

The insert-buckle connecting piece is an arc-shaped pressing piece, and after being inserted into the framework assembly 100, the insert-buckle connecting piece abuts against the framework assembly 100 by utilizing the characteristic of an arc shape, so that the fixation of the high-elasticity triangular insert-buckle keel 410 is realized.

The triangular keel is open at the corner opposite the bottom edge and is clamped with the wallboard framework 420.

Wallboard skeleton 420 includes the skeleton framework and connects the cardboard, and the line groove has all been set up along length direction to the frame of skeleton framework, and the line hole has been seted up perpendicular to length direction to each frame of skeleton framework, crosses the line groove and crosses the line hole cooperation.

One end of the connecting clamping plate is clamped with the wire passing groove, and the other end of the connecting clamping plate is clamped with the opening edge of the high-elasticity triangular eye-splice keel 410 to complete the insertion connection of the high-elasticity triangular eye-splice keel 410 and the wallboard framework 420, so that the first composite inner wallboard 200 is fixed on the framework assembly 100.

The first composite inner wall board 200 is arranged on the side, facing the indoor, of the framework assembly 100 in the outer wall surface assembly, the connection structure of the first composite inner wall board is the same as that of the inner wall assembly, the second composite outer wall board 700 is arranged on the side, facing the outdoor, of the framework assembly 100 in the outer wall surface assembly, a plurality of corner connectors used for connection are arranged between the framework assembly 100 and the second composite outer wall board 700, one end of each corner connector is fixedly connected with the framework assembly 100, the other end of each corner connector is connected with the second composite outer wall board 700, and the connection mode of each corner connector and the second composite outer wall board 700 is preferably screw connection.

The sound insulation shear plate assemblies 300 are arranged in grids of the framework assemblies 100 of all wall assemblies, each sound insulation shear plate assembly 300 comprises a high-strength sound insulation shear plate 310 and a rock wool layer 320, the high-strength sound insulation shear plates 310 are in a structure that two layers of magnesium-based hard high-density plates are glued with sound absorption cotton in the middle to achieve sound insulation, the shear strength of the wall is increased, and the rock wool layers 320 are two layers and are respectively paved on two sides of the high-strength sound insulation shear plates 310.

In the interior wall assembly, the outside of each rock wool layer 320 all is laid the EPS heat preservation, in the interior wall assembly, the rock wool layer 320 towards indoor is laid the EPS heat preservation.

The first composite laminate comprises a heat insulation layer, a heating layer and a decorative layer, wherein the heat insulation layer is positioned at the innermost part, the decorative layer is positioned at the outermost part, and the heating layer is positioned between the heat insulation layer and the decorative layer.

The composite plywood of second includes EPS exterior wall sheet layer and ceramic tile, and the ceramic tile is attached at EPS exterior wall sheet layer through sticky mode, and the crisscross mode of EPS exterior wall sheet layer is spread and is covered to increase the visual aesthetic feeling, adopt tenon formula grafting structural connection between each EPS exterior wall sheet layer.

The end edge of each wall assembly is provided with a door and window sleeve edge-closing assembly 500, each door and window sleeve edge-closing assembly 500 comprises an edge-closing clamping strip 520 and an edge-closing plate 510 for sealing the wall assembly, the edge-closing clamping strips 520 are arranged on both sides of the edge-closing plate 510, one side of each edge-closing clamping strip 520 is clamped with the edge-closing plate 510, the other side of each edge-closing clamping strip 520 is clamped with the wall assembly to realize the sealing edge-closing of each wall assembly, and the door and window sleeve edge-closing assembly 500 can be arranged at a door frame, a curtain frame and other series of wall surface end edges.

Each wall assembly is used for connecting the one end on ground and pegs graft and have the luminescent lamp skirting line, and the both sides of interior wall all set up the luminescent lamp skirting line, and the one side that the wall assembly moves towards indoor sets up the luminescent lamp skirting line.

The luminous lamp pedal line comprises an aluminum section bar and a lamp strip inlaid in the section bar, a notch used for inlaying the lamp strip is formed in the section bar, and the opening of the notch faces downwards so as to avoid that the lamp strip is guaranteed to effectively emit light under the condition that the lamp strip is manually touched.

The plastic downpipe is arranged at the corner of the outer wall assembly, rock wool is filled on the outer wall of the plastic downpipe, and two ends of the corner connecting section are respectively clamped with the two intersected outer wall assemblies so as to fix the plastic downpipe.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a light steel partition wall system of repeatedly dismouting cycle use which characterized in that:

comprises an inner wall assembly for separating indoor space, an outer wall assembly for separating indoor space and outdoor space and a door and window cover edge closing assembly (500) for closing each wall assembly;

the end edge of each wall surface assembly is provided with a door and window cover edge closing assembly (500);

each wall assembly comprises a framework assembly (100), one surface of each outer wall assembly facing indoors and two surfaces of each inner wall assembly are respectively paved and covered with a first composite inner wallboard (200) on the framework assembly (100), one surface of each outer wall assembly facing outdoors is paved and covered with a second composite outer wallboard (700) on the framework assembly (100), and a sound insulation shear plate assembly (300) is arranged between each framework assembly (100) and each wallboard;

one end of each wall assembly, which is used for connecting the ground, is detachably connected with a luminous lamp skirting line (600).

2. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

skeleton assembly (100) include a plurality of bow type main vertical keel (110) and a plurality of C type horizontal fossil fragments (120) that are used for connecting bow type main vertical keel (110), the both sides limit of bow type main vertical keel (110) is buckled and is formed two die cavities that are used for crossing the line, two the die cavity symmetry sets up.

3. A light steel partition wall system capable of being repeatedly disassembled and assembled for recycling use according to claim 2, wherein:

c-shaped transverse keel connecting pieces are arranged at the connecting nodes of the arched main vertical keels (110) and the C-shaped transverse keels (120), the C-shaped transverse keel connecting pieces are arranged on the arched main vertical keels (110), and module connecting holes for the C-shaped transverse keel connecting pieces to be inserted are formed in the C-shaped transverse keels (120);

the C-shaped transverse keel connecting piece is in a step shape.

4. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

and a plurality of corner connectors used for fixing the second composite external wall panel (700) are arranged on the framework assembly (100) of the external wall panel assembly.

5. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

a high-elasticity inserting and buckling component (400) is arranged at each joint of the framework assembly (100) and the first composite inner wallboard (200);

each high elasticity eye-splice subassembly (400) is including setting up in high elasticity triangle eye-splice fossil fragments (410) and the cooperation of skeleton assembly (100) wallboard skeleton (420) that eye-splice is connected are realized in high elasticity triangle eye-splice fossil fragments (410), wallboard skeleton (420) eye-splice is in first compound interior wallboard (200).

6. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 5, wherein:

the wallboard framework (420) comprises a framework body and a connecting clamping plate;

the frame of the framework frame body is provided with a wire passing groove along the length direction, and each frame of the framework frame body is provided with a wire passing hole perpendicular to the length direction;

one side of the connecting clamping plate is clamped with the wire passing groove, and the other side of the connecting clamping plate is inserted and connected with the high-elasticity triangular inserting and buckling keel (410) in a buckling mode.

7. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

the first composite inner wallboard (200) comprises a heat insulation layer, a heating layer and a decoration layer from inside to outside.

8. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

the door and window sleeve edge folding assembly (500) comprises edge folding clamping strips (520) and edge folding plates (510) used for sealing the wall body assembly, wherein the edge folding clamping strips (520) are arranged at two ends of each edge folding plate (510);

one side of each edge folding clamping strip (520) is clamped with the edge folding plate (510), and the other side of each edge folding clamping strip (520) is clamped with the wall assembly, so that the detachable connection between the edge folding assembly (500) of the door and window cover and the wall assembly is realized.

9. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

sound insulation shear plate assembly (300) include rock wool layer (320), sound insulation shear plate (310) and EPS sheet layer (330) excel in each wall assembly: the high-strength sound insulation shear plate (310) is clamped in the rock wool layer (320);

in the inner wall surface assembly, the EPS board layers (330) are two layers and are respectively arranged outside the two rock wool layers (320);

in the outer wall surface assembly, embedded fasteners are arranged in the EPS board layer (330) and are arranged on one surface facing indoors;

each EPS board layer (330) is provided with a wire passing hole along the board surface direction;

the second composite external wall panel (700) comprises EPS external wall panel layers and ceramic tiles, the second composite external wall panel (700) is in a stacking shape and is arranged in a staggered mode, and the EPS external wall panel layers are connected through tenon insertion structures.

10. The light steel partition wall system capable of being repeatedly disassembled and assembled for recycling according to claim 1, wherein:

the corner department that the outer wall face assembly handing-over formed sets up the plastics pipe in the water, the outer wall packing of plastics pipe in the water has the rock wool, the corner department that the outer wall face assembly handing-over formed still is provided with corner connection section bar, the both ends of corner connection section bar joint respectively in two crossing bow type main vertical keel (110) notches to fixed plastics pipe in the water.

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