CN212897331U - Dry hanging type wall plate structure - Google Patents

Abstract

The utility model relates to a dry-hanging wallboard structure, including keel frame and the polylith wallboard of connection on keel frame, be connected with coupling assembling between wallboard and the keel frame, keel frame includes perpendicular fossil fragments and horizontal fossil fragments, perpendicular fossil fragments are close to wallboard one side and are fixed with the spliced pole that the level set up many, horizontal fossil fragments fixed connection deviates from perpendicular fossil fragments one end at the spliced pole, horizontal fossil fragments level sets up, the central line position along length direction is connected at horizontal fossil fragments to the spliced pole, the width of spliced pole is less than horizontal fossil fragments's width, coupling assembling is including connecting two rows of draw-in grooves that are close to keel frame one side at the wallboard, the distance of two rows of draw-in grooves and the distance looks adaptation between the double-phase adjacent horizontal fossil fragments, draw-in groove inner chamber and horizontal fossil fragments looks adaptation. This application has and is convenient for install the keel frame with the wallboard fast on, improves installer work efficiency's effect.

Description

Dry hanging type wall plate structure

Technical Field

The application relates to the field of wallboard structures, especially to a dry-hanging wallboard structure.

Background

At present, the dry-hanging wallboard is fixed on the keel by a surface plate through screws, angle codes, an adjustable hanging machine and the like, and has the advantages of durability, flatness, difficult deformation, detachability and the like compared with a wet-hanging wallboard.

The utility model discloses a grant notice number is CN 209723487U's utility model discloses an integrated wall panel system of hanging futilely of assembled, including the wallboard, adaptor and fossil fragments, the left and right sides of wallboard is equipped with rectangular channel and plugboard respectively, the rectangular channel is connected with the mutual lock of pegging graft of plugboard, the back fixedly connected with precession formula back bolt of wallboard, the back of wallboard is equipped with the adaptor, mounting hole and fixed orifices have been seted up on the surface of adaptor, the mounting hole is vertically located the central line of adaptor, the fixed orifices distributes in the four corners department of adaptor, precession formula back bolt runs through fixed orifices and wallboard fixed connection, the back of adaptor is equipped with fossil fragments, fossil fragments and adaptor fixed connection, the pipe socket has been seted up to the lateral wall of fossil fragments, fossil fragments back fixedly connected with expansion bolts, expansion bolts is located the pipe socket directly behind. The utility model discloses a through the prefab of mill can the on-the-spot installation degree of difficulty of greatly reduced to improve the installation accuracy, and dismantle very convenient with the installation, allow to pass through predetermined chase and pipeline and carry out the add and the modification of pipeline.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: each wallboard is connected with the keel frame through bolts, a plurality of bolts need to be screwed down during installation, and the operation is complex and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

On the keel frame is installed to the wallboard for the convenience of being quick, improve installer work efficiency, this application provides a dry-hanging wallboard structure.

The application provides a dry-hanging wallboard structure adopts following technical scheme:

the utility model provides a dry-hanging wallboard structure, includes keel frame and the polylith wallboard of connection on keel frame, be connected with coupling assembling between wallboard and the keel frame, keel frame is including erecting fossil fragments and horizontal fossil fragments, it is close to wallboard one side and is fixed with the spliced pole that the level set up many to erect fossil fragments, horizontal fossil fragments fixed connection deviates from erecting fossil fragments one end at the spliced pole, the horizontal fossil fragments level sets up, the spliced pole is connected at horizontal fossil fragments along length direction's central line position, the width of spliced pole is less than horizontal fossil fragments's width, coupling assembling is including connecting two rows of draw-in grooves that are close to keel frame one side at the wallboard, the distance of two rows of draw-in grooves and the distance looks adaptation between the double-phase adjacent horizontal fossil fragments, draw-in groove inner chamber.

Through adopting above-mentioned technical scheme, during the installation, installer can slide in two rows of draw-in grooves along two adjacent horizontal keel length direction's one end respectively, and the draw-in groove drives the wallboard along the process that horizontal keel length direction removed and removes, and after the wallboard removed required position, install next wallboard once more can, operate simpler, and the installation is more swift, improves the installation effectiveness greatly.

Preferably, the clamping groove comprises two clamping plates which are mutually embraced, and a screw is connected between one end of each clamping plate far away from the keel frame and one side of each wallboard close to the keel frame.

By adopting the technical scheme, on one hand, an installer can adjust the distance between the two clamping plates which are mutually clasped through the screws so as to adapt to different widths of the cross keels; on the other hand, installer accessible screw adjustment cardboard fixed position on the wallboard to adapt to the distance between two adjacent fossil fragments, improve application scope.

Preferably, the cardboard is the opening towards vertical direction 'U's shape, and two cardboard cohesion each other deviate from wallboard one side open-ended rectangle frame form draw-in groove, horizontal fossil fragments and draw-in groove looks adaptation.

By adopting the technical scheme, the U-shaped clamping plate forms two protruding ribs on the surface, the strength of the clamping plate is improved, and the possibility of stress deformation of the clamping plate is reduced.

Preferably, the cross keel is in a rectangular frame shape with a hollow interior.

Through adopting above-mentioned technical scheme, the inside cavity of cross keel can reduce the weight of cross keel greatly, is even in the transport, can reduce the pulling force of cross keel to erecting the fossil fragments again, reduces the possibility that keel frame warp.

Preferably, four corners of the cross keel are rounded corners, and two corners of the clamping groove are rounded corners.

Through adopting above-mentioned technical scheme, the fillet structure can reduce the cracked possibility of draw-in groove right angle department atress along the crooked dispersion with the stress that the draw-in groove received, and four angles of cross keel are the fillet and can laminate more with the draw-in groove, reduce the possibility that the draw-in groove rocked.

Preferably, the wallboard top wall or diapire have seted up the spout, and the wallboard is kept away from spout one end fixedly connected with draw runner, draw runner and spout looks adaptation, and the draw runner is pegged graft in the spout and can be followed spout length direction and slided.

Through adopting above-mentioned technical scheme, during the installation, when the draw-in groove of the wallboard of upper story inserted horizontal fossil fragments, the draw runner inserted the spout of one deck wallboard down, then along the length direction of horizontal fossil fragments the slip wallboard can, can strengthen the joint strength between the upper and lower two-layer wallboard, for the butt, be favorable to two blocks of wallboards to connect and level, reduce the possibility that the wrong platform or crack appears between the upper and lower two-layer wallboard.

Preferably, the wallboard and the adjacent lateral wall of spout have seted up the slot, slot place plane perpendicular to keel frame place plane, and the wallboard is kept away from slot one side fixedly connected with cutting, cutting and slot looks adaptation.

Through adopting above-mentioned technical scheme, during the installation, the cutting and the slot of two horizontal adjacent wallboards are pegged graft, are favorable to strengthening the joint strength of two adjacent wallboards, reduce the possibility that wrong platform or crack appear between two adjacent wallboards.

Preferably, a liquid adhesive layer is arranged in the sliding groove and the slot.

Through adopting above-mentioned technical scheme, the liquid adhesive linkage is laid in the spout, then slides in inserting the spout with the draw runner, and the liquid adhesive linkage plays the lubrication action, reduces the frictional force between draw runner and the spout, installs more laborsavingly, solidifies the back when the liquid adhesive linkage, can bond upper and lower two-layer wallboard fixed to play sealed effect, reduce the possibility that produces gap and infiltration between the two-layer wallboard.

Preferably, the end of the inserting strip, which is far away from the wall plate, is conical, and the two ends of the sliding strip along the length direction are conical.

Through adopting above-mentioned technical scheme, the taper area reduces gradually, during the installation, is convenient for insert the spout with the draw runner along length direction's one end fast, after sliding the required position with the wallboard, the cutting of taper can insert the slot fast in, reduces the slot and keeps away from the resistance of wallboard one end to the cutting.

In summary, the present application includes at least one of the following beneficial technical effects:

1. during installation, an installer can slide in the two rows of clamping grooves along one end of each of the two adjacent cross keels in the length direction respectively, the wall boards are driven to move in the process that the clamping grooves move in the length direction of the cross keels, and after the wall boards are moved to required positions, the next wall board can be installed again, so that the operation is simpler, the installation is quicker, and the installation efficiency is greatly improved;

2. when the wall panel is installed, the clamping groove of the wall panel on the upper layer is inserted into the transverse keel, the sliding strip is inserted into the sliding groove of the wall panel on the lower layer, and then the wall panel is slid along the length direction of the transverse keel, so that the connection strength between the wall panels on the upper layer and the lower layer can be enhanced, and compared with butt joint, the smooth connection of the two wall panels is facilitated, and the possibility of slab staggering or seam leakage between the wall panels on the upper layer and the lower layer is reduced;

3. the liquid adhesive linkage is laid in the spout, then slides in inserting the spout with the draw runner, and the liquid adhesive linkage plays lubricated effect, reduces the frictional force between draw runner and the spout, installs more laborsavingly, after the liquid adhesive linkage solidifies, can bond upper and lower two-layer wallboard fixed to play sealed effect, reduce the possibility that produces gap and infiltration between the two-layer wallboard.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view for showing the structure of the connecting column;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is an enlarged view of a portion B of fig. 1.

Description of reference numerals: 1. a keel frame; 11. a vertical keel; 12. a transverse keel; 13. connecting columns; 2. a wallboard; 21. a chute; 22. a slide bar; 23. a slot; 24. cutting; 3. a card slot; 31. clamping a plate; 4. and (7) bonding the layers.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses dry-hanging wallboard structure. Referring to fig. 1 and 2, dry-hanging wallboard structure includes keel frame 1 and the polylith wallboard 2 of connection on keel frame 1, is connected with coupling assembling between wallboard 2 and the keel frame 1, and coupling assembling is including connecting two rows of draw-in grooves 3 that are close to keel frame 1 one side at wallboard 2, and draw-in groove 3 slip joint can follow keel frame 1 and slide towards the horizontal direction on keel frame 1 to install required position with wallboard 2, hang dress on keel frame 1 with wallboard 2 fast.

Referring to fig. 2, keel frame 1 includes vertical keel 11 of vertical setting and horizontal keel 12 that the level set up, and vertical keel 11 has many spliced poles 13 that the level set up towards 2 one sides vertical welding of wallboard, and horizontal keel 12 welds and deviates from vertical keel 11 one end at spliced pole 13, and spliced pole 13 is connected at horizontal keel 12 along length direction's central line position, and spliced pole 13's width is less than horizontal keel 12's width.

The cross keel 12 is the inside hollow rectangle frame form to lighten the weight of cross keel 12, be convenient for carry keel frame 1, can reduce cross keel 12 again to the pulling force of erecting keel 11, reduce the possibility that keel frame 1 warp. Four corners of the cross keel 12 are fillets, so that sharp corners are reduced, and the possibility of hurting people is reduced.

Referring to fig. 2, wallboard 2 is the cuboid board, and four right angle position in one side that wallboard 2 is close to keel frame 1 are fixed with a draw-in groove 3 respectively to when fixing wallboard 2 on keel frame 1, 2 atress of wallboard are balanced, are difficult to take place crooked.

The draw-in groove 3 includes two cardboard 31 of cohesion of each other, and cardboard 31 is opening ascending or decurrent "U" shape, forms two spine muscle on cardboard 31 surface, improves cardboard 31's intensity, reduces cardboard 31 atress deformation's possibility. Two cardboard 31 cohesion and deviating from 2 one side openings of wallboard each other, and open area is greater than spliced pole 13's area, the inner chamber and the 12 looks adaptations of cross keel of two cardboard 31 cohesion to draw-in groove 3 can the joint on cross keel 12 and can slide along 12 length direction of cross keel.

During the installation, the installer can slide in draw-in groove 3 respectively along two adjacent cross girders 12 length direction's one end, promotes draw-in groove 3 and removes along cross girders 12 length direction to drive wallboard 2 and remove, after wallboard 2 removed required position, install next wallboard 2 once more can, the operation is simpler, and the installation is more swift, improves the installation effectiveness greatly.

Referring to fig. 2, the break angle of the clamping plate 31 is a round angle, which can disperse the stress on the clamping groove 3 along the curve, and reduce the possibility of stress fracture at the break angle of the clamping groove 3. A screw is connected between one end of the clamping plate 31 far away from the keel frame 1 and one side of the wallboard 2 close to the keel frame 1, and the clamping plate 31 is fixed on the wallboard 2 by the screw, so that on one hand, an installer can adjust the distance between the two clamping plates 31 which are mutually embraced by the screw to adapt to the widths of different cross keels 12; on the other hand, installer accessible screw adjustment cardboard 31 is in the fixed position on wallboard 2 to adapt to the distance between two adjacent horizontal keel 12, improve application scope.

Referring to fig. 3 and 4, a sliding groove 21 is formed in the top wall or the bottom wall of the wall plate 2, one end, far away from the sliding groove 21, of the wall plate 2 is integrally connected with a sliding strip 22, the sliding strip 22 is matched with the sliding groove 21, and the sliding strip 22 is inserted into the sliding groove 21 and can slide along the length direction of the sliding groove 21. During the installation, when draw-in groove 3 of upper story wallboard 2 inserted horizontal fossil fragments 12, the draw runner 22 inserted the spout 21 of lower story wallboard 2, then along the length direction slip wallboard 2 of horizontal fossil fragments 12 can, can strengthen the joint strength between the upper and lower two-layer wallboard 2, for the butt, be favorable to two blocks of wallboard 2 to connect and level, reduce the possibility that the wrong platform appears or the crack between the upper and lower two-layer wallboard 2.

The slot 23 has been seted up to wallboard 2 and the adjacent lateral wall of spout 21, slot 23 place plane perpendicular to keel frame 1 place plane, 23 one side integrated into one piece of slot are kept away from to wallboard 2 is connected with the cutting 24, cutting 24 and slot 23 looks adaptation, so that when the installation, the cutting 24 and the slot 23 of two horizontal adjacent wallboards 2 are pegged graft, be favorable to strengthening two adjacent wallboard 2's joint strength, reduce the possibility that slab staggering or crack appears between two adjacent wallboard 2.

Referring to fig. 3 and 4, in order to insert the insertion strip 24 into the insertion slot 23, the end of the insertion strip 24 facing away from the wall plate 2 is tapered, so that the insertion strip 24 can be quickly inserted into the insertion slot 23, and the use is more convenient. The two ends of the sliding strip 22 along the length direction are tapered, so that when the sliding strip is installed, one end of the sliding strip 22 along the length direction can be conveniently and quickly inserted into the sliding groove 21.

The liquid adhesive layer 4 is arranged in the sliding groove 21 and the slot 23, the adhesive layer 4 can be a white emulsion layer, the adhesive layer 4 in a liquid state is laid in the sliding groove 21, then the sliding strip 22 is inserted into the sliding groove 21 to slide, the liquid adhesive layer plays a role in lubricating, the friction force between the sliding strip 22 and the sliding groove 21 is reduced, and the installation is more labor-saving. After the liquid adhesive linkage 4 solidifies, can bond upper and lower two-layer wallboard 2 fixedly to play sealed effect, reduce the possibility that produces gap and infiltration between two-layer wallboard 2.

The concrete using method of a dry hanging wallboard structure of the embodiment of the application is as follows: when installation bottom wallboard 2, the installer can slide into two rows of draw-in grooves 3 respectively along two adjacent horizontal keel 12 length direction's one end, promotes draw-in groove 3 and drives wallboard 2 along the process that horizontal keel 12 length direction removed and removes, after wallboard 2 removed required position, to coating adhesive linkage 4 in the slot 23, install next wallboard 2 once more can, the operation is simpler, and the installation is more swift, improves the installation effectiveness greatly.

When installing upper wallboard 2, the installer can earlier scribble adhesive linkage 4 in spout 21 again, then with two rows of draw-in grooves 3 respectively along the one end of two adjacent horizontal keel 12 length direction when sliding in, make in the draw runner 22 of upper wallboard 2 inserts the spout 21 of lower floor's wallboard 2, then promote draw-in groove 3 and drive wallboard 2 along the process that horizontal keel 12 length direction removed and remove, after wallboard 2 removed required position, to coating adhesive linkage 4 in slot 23, install next wallboard 2 once more.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a dry-hanging wallboard structure, includes keel frame (1) and polylith wallboard (2) of connection on keel frame (1), is connected with coupling assembling, its characterized in that between wallboard (2) and keel frame (1): keel frame (1) is including erecting fossil fragments (11) and horizontal fossil fragments (12), it sets up many spliced pole (13) to erect fossil fragments (11) and be close to wallboard (2) one side and be fixed with the level, horizontal fossil fragments (12) fixed connection deviates from perpendicular fossil fragments (11) one end in spliced pole (13), horizontal fossil fragments (12) level sets up, spliced pole (13) are connected at horizontal fossil fragments (12) along length direction's central line position, the width of spliced pole (13) is less than the width of horizontal fossil fragments (12), coupling assembling is including connecting two rows of draw-in grooves (3) that are close to keel frame (1) one side in wallboard (2), the distance of two rows of draw-in grooves (3) and the distance looks adaptation between two adjacent horizontal fossil fragments (12), draw-in groove (3) inner chamber and horizontal fossil fragments (12) looks adaptation, draw-in groove (3) joint is on horizontal fossil fragments (12) and can be followed horizontal.

2. A dry wall panel construction according to claim 1, wherein: the clamping groove (3) comprises two clamping plates (31) which are mutually embraced, and a screw is connected between one end, far away from the keel frame (1), of the clamping plate (31) and one side, close to the keel frame (1), of the wallboard (2).

3. A dry wall panel construction according to claim 2, wherein: cardboard (31) are the opening towards vertical direction 'U's shape, and two cardboard (31) embrace mutually and become to deviate from open-ended draw-in groove (3) of wallboard (2) one side, horizontal keel (12) and draw-in groove (3) inner chamber looks adaptation.

4. A dry wall panel construction according to claim 3, wherein: the transverse keel (12) is in a hollow rectangular frame shape.

5. A dry wall panel construction according to claim 4, wherein: four corners of the transverse keel (12) are fillets, and two corners of the clamping groove (3) are fillets.

6. A dry wall panel construction according to claim 1, wherein: wallboard (2) roof or diapire have seted up spout (21), and wallboard (2) are kept away from spout (21) one end fixedly connected with draw runner (22), and draw runner (22) and spout (21) looks adaptation, draw runner (22) are pegged graft in spout (21) and can be followed spout (21) length direction and slided.

7. A dry wall panel construction according to claim 6, wherein: wallboard (2) and the adjacent lateral wall of spout (21) have seted up slot (23), and slot (23) place plane perpendicular to keel frame (1) place plane, and slot (23) one side fixedly connected with cutting (24) are kept away from in wallboard (2), cutting (24) and slot (23) looks adaptation.

8. A dry wall panel construction according to claim 7, wherein: and a liquid bonding layer (4) is arranged in the sliding groove (21) and the slot (23).

9. A dry wall panel construction according to claim 8, wherein: one end of the inserting strip (24) departing from the wallboard (2) is conical, and two ends of the sliding strip (22) along the length direction are conical.

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