CN211899353U - Top beam assembly and wallboard mounting system - Google Patents

Abstract

The application discloses back timber subassembly and wallboard installing the system, including back timber and wallboard, the back timber is the bent plate, and it includes perpendicular riser and the diaphragm of connecting, the riser is used for being connected with original building wall, the diaphragm deviates from the lower plate face of riser and extends first back timber frid and second back timber frid towards the direction of back-off riser, first back timber frid, second back timber frid and diaphragm form the back timber groove, are provided with first boss portion on the interior face of first back timber frid towards second back timber frid, be provided with second boss portion on the interior face of second back timber frid towards first back timber frid, the wallboard inserts the back timber inslot, presss from both sides between first boss portion and the second boss portion. By utilizing the method, the waterproof treatment time can be saved, the cement mortar or tile adhesive setting time can be waited, the decoration time can be greatly saved, and the construction period can be shortened.

Description

Top beam assembly and wallboard mounting system

Technical Field

The application relates to the technical field of decoration and finishing, in particular to a top beam assembly and a wallboard mounting system.

Background

At present, in the decoration of toilet wall surfaces, the original building wall surface needs to be firstly subjected to waterproof treatment. The specific waterproof treatment method comprises the following steps: the tiles are attached to the original building wall surface by means of cement mortar or tile adhesives. Research and development personnel discover at the in-process that realizes this application, and present water repellent treatment method need reserve the certain time and wait for cement mortar or ceramic tile adhesive to solidify, and the time limit for a project is longer, and is higher to constructor's technical requirement moreover, and the human cost is higher, and construction quality mainly relies on constructor, and the quality control degree of difficulty is big, simultaneously, adopts cement mortar or ceramic tile adhesive to bond, and the job site environment is dirty more in disorder, is unfavorable for the environmental protection.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present application provides a roof rail assembly and a wall panel installation system to solve the above technical problems.

The application proposes a top beam assembly, it includes: back timber and wallboard, the back timber is the bending plate, and it includes riser and diaphragm of perpendicular connection, the riser is used for being connected with original building wall, the diaphragm deviates from the lower plate face of riser and extends first back timber frid and second back timber frid towards the direction of anticreep riser, first back timber frid, second back timber frid and diaphragm form the back timber groove, are provided with first boss portion on the interior face of first back timber frid towards second back timber frid, be provided with second boss portion on the interior face of second back timber frid towards first back timber frid, the wallboard inserts the back timber inslot, presss from both sides between first boss portion and the second boss portion.

Optionally, the corner post is further included, a first mounting hole and a second mounting hole are formed in the transverse plate, and the fastener penetrates through the first mounting hole and the first boss portion, and the second mounting hole and the second boss portion to be connected with the corner post.

Optionally, the first boss portion and the second boss portion are cuboids.

Optionally, a wedge is included, and the riser is connected to the original building wall by the wedge.

Optionally, the first top beam trough plate and the second top beam trough plate are both parallel to the vertical plate.

Optionally, the wall plate further comprises an adhesive tape, the adhesive tape is installed in the top beam groove, a glue groove is formed in the adhesive tape, and the wall plate is connected with the glue groove in an inserting mode.

Optionally, still include first gluey groove planking and second gluey groove planking, the gluey groove has relative first gluey groove curb plate and the second gluey groove curb plate that sets up, the first side setting of first gluey groove planking is on the outer face that first gluey groove curb plate deviates from the second gluey groove curb plate, first gluey groove planking forms first opening with first gluey groove curb plate, the second side the same with first side extending direction and first boss portion butt on the first gluey groove planking, the first side setting of second gluey groove planking is on the outer face that the second gluey groove curb plate deviates from first gluey groove curb plate, second gluey groove planking forms the second opening with second gluey groove curb plate, first opening and second opening all face the direction that deviates from the gluey groove tank bottom, the second side the same with first side extending direction and second boss portion butt on the second gluey groove planking.

Optionally, still include third glue groove planking and fourth glue groove planking, the first side setting of third glue groove planking deviates from at first glue groove curb plate on the terminal surface of glue groove tank bottom, the third glue groove planking forms the third opening towards first glue groove planking with the planking face shape of first glue groove curb plate, the border butt of the same second side of first side extending direction and first boss portion on the third glue groove planking, the first side setting of fourth glue groove planking deviates from at the second glue groove curb plate on the terminal surface of glue groove tank bottom, the fourth opening towards the second glue groove planking is formed with the planking face shape of second glue groove curb plate to fourth glue groove planking, the border butt of the same second side of first side extending direction and second boss portion on the fourth glue groove planking.

Optionally, the thicknesses of the first glue groove side plate and the second glue groove side plate are gradually reduced along the direction from the glue groove bottom to the glue groove opening.

The present application further provides a wall panel mounting system including a header assembly as described above.

The top beam assembly and the wallboard mounting system provided by the application can be assembled by arranging the top beam and the wallboard, wherein the top beam comprises the vertical plate and the transverse plate which are vertically connected, the vertical plate is connected with an original building wall surface, the transverse plate is provided with the top beam groove, the inner plate surface of the first top beam groove plate is provided with the first boss part, the inner plate surface of the second top beam groove plate is provided with the second boss part, the wallboard is inserted into the top beam groove and clamped between the first boss part and the second boss part, the original building wall surface is isolated through the wallboard, the original building wall surface is not required to be subjected to waterproof treatment in advance, the ceramic tile is not required to be attached to the ceramic tile through cement mortar or ceramic tile adhesive, the waterproof treatment time can be saved, the setting time of the cement mortar or ceramic tile adhesive is not required, the decoration time is greatly saved, the construction period is shortened, and all components can be, the decoration quality is easy to control, the technical requirement on constructors is low, the labor cost is low, the labor intensity is high, cement mortar or tile adhesive is not needed for bonding, the construction site environment is favorably improved, the environment-friendly level is improved, and meanwhile, the structure is simple, the assembly is easy, and the assembly efficiency is high.

Drawings

Figure 1 is a schematic structural view of a wall panel mounting system of an embodiment of the present application.

Fig. 2 is a schematic structural view of a header assembly according to an embodiment of the present application.

Fig. 3 is a partial structural schematic view of a bottom beam assembly according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of an internal corner assembly according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of an external corner assembly according to an embodiment of the present application.

FIG. 6 is a schematic structural diagram of a butt-joint assembly according to an embodiment of the present application.

Fig. 7 is a plan view of a toilet finishing according to an embodiment of the present application.

Detailed Description

The technical solutions of the present application are described in detail below with reference to the accompanying drawings and specific embodiments. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Figure 1 shows a schematic structural view of a wall panel mounting system of an embodiment of the present application. As shown in fig. 1, embodiments of the present application provide a wall panel mounting system, comprising: a bottom box 300, a top beam 100, a wall panel 400 and a bottom beam 200.

As shown in fig. 1-3, the bottom beam 200 is mounted on the cassette bottom within the bottom cassette 300. The bottom beam 200 comprises a bottom beam groove 201.

The top beam 100 is a bent plate and includes a vertical plate 101 and a horizontal plate 102, which are vertically connected, and the vertical plate 101 is used for connecting with the original building wall surface.

The cross plate 102 extends away from the lower surface of the vertical plate 101 in a direction away from the vertical plate 101 to form a first top beam channel plate 103 and a second top beam channel plate 104.

The first top beam groove plate 103, the second top beam groove plate 104 and the transverse plate 102 form a top beam groove, and two opposite sides of the wall plate 400 are respectively inserted into the bottom beam groove and the top beam groove. In this embodiment, the wall panel may be a glass fiber reinforced plastic panel.

When the wall panel installation system is assembled, the bottom box 300 is installed on the ground, and the bottom beam 200 is installed on the bottom of the bottom box 300. In the present embodiment, the floor beam 200 may be adhered to the bottom of the bottom case 300 by an adhesive tape. The adhesive tape can adopt 3M VHB double-sided adhesive tape.

The wall board 400 is inserted into the bottom beam groove 201, the top beam groove is inserted into the wall board 400, and the vertical board 101 is installed on the original building wall surface through a fastener.

The wallboard installation system provided by the embodiment of the application is provided with the bottom box, the top beam, the wallboard and the bottom beam, the bottom beam is installed at the bottom of the bottom box, the top beam is installed on the original building wall surface, the wallboard is inserted into the top beam groove and the bottom beam groove, the original building wall surface is isolated through the wallboard, the original building wall surface is not required to be subjected to waterproof treatment in advance, tiles are not required to be attached to the original building wall surface through cement mortar or a tile adhesive, the waterproof treatment time can be saved, the setting time of the cement mortar or the tile adhesive can be waited, the decoration time is greatly saved, the construction period is shortened, all components can be industrially produced in a factory, the assembly can be completed only by simple assembly on site, the decoration quality is easy to control, the technical requirement on constructors is low, the labor cost is low, the labor intensity is high, the cement mortar or, the environment-friendly level is improved, and meanwhile, the structure is simple, the assembly is easy, and the assembly efficiency is high.

Further, as shown in fig. 2, the wall panel mounting system further includes a header assembly including: header 100 and wall panel 400.

First back timber trough plate 103 is provided with first boss portion 105 towards the interior face of second back timber trough plate 104 on, second back timber trough plate 104 is provided with second boss portion 106 towards the interior face of first back timber trough plate 103 on, wallboard 400 inserts the back timber inslot, presss from both sides between first boss portion 105 and the second boss portion 106.

By providing the first boss portion 105 and the second boss portion 106, the contact area between the top beam 100 and the internal corner upright 600, the external corner upright, and the straight corner upright can be increased to facilitate connection while reducing the weight of the top beam 100.

In the present embodiment, as shown in fig. 1-2, the cross plate 102 is provided with a first mounting hole and a second mounting hole. The first mounting hole and the second mounting hole may be both square holes.

The fastener is coupled to the female corner pillar 600 through the first and second mounting holes and boss portions 105 and 106.

By providing the first and second mounting holes in the cross plate 102, the strength of the cross plate 102 may be increased.

Further, the first boss portion 105 and the second boss portion 106 are both hollow cuboids for convenient manufacturing, and the two boss portions can be in surface contact with the wall board 400 to better clamp the wall board 400.

Preferably, the top beam assembly further comprises wedges 107, and the vertical plates 101 are connected with the original building wall surface through the wedges 107, so that the connection firmness can be increased, a reference surface can be provided for wall panel installation, and the accuracy of the wall panel installation is guaranteed. In the present embodiment, the wedge 107 is a rectangular parallelepiped.

Further, the first top beam trough plate 103 and the second top beam trough plate 104 are parallel to the vertical plate 101, so as to facilitate processing. Wherein, the first top beam groove plate 103 and the second top beam groove plate 104 are not coplanar with the vertical plate 101.

In one particular embodiment, the wall panel mounting system includes a sill assembly including a sill box 300, a wall panel 400, and a sill 200.

As shown in fig. 3, the girder trough 201 has a first girder trough plate 202 and a second girder trough plate 203 which are oppositely disposed, and the first girder trough plate 202 and the second girder trough plate 203 are hollow to reduce the self-weight.

Optionally, reinforcing plates are arranged inside the first bottom beam groove plate 202 and the second bottom beam groove plate 203, and the reinforcing plates respectively divide the inside of the first bottom beam groove plate 202 and the inside of the second bottom beam groove plate 203 into two hollow areas, so that the strength of the first bottom beam groove plate 202 and the strength of the second bottom beam groove plate 203 can be ensured under the condition of reducing the self weight.

Further, the first bottom beam groove plate 202 is far away from the second bottom beam groove plate 203, and extends to form an extension plate 204 in a direction far away from the bottom of the bottom beam groove 201, the extension plate 204 protrudes out of the second bottom beam groove plate 203, and the extension plate 204 and the end surface of the first bottom beam groove plate 202 form a limiting step 205.

Through setting up spacing step portion 205, can conveniently carry on spacingly to reentrant corner stand 600, external corner stand, the straight angle stand of installing on floorbar 200, guarantee the accuracy nature of installation.

Preferably, two end faces of the bottom beam 200 in the length direction are inclined, and an included angle between the end faces and the horizontal plane is 45 degrees, so that the bottom beam 200 can be conveniently spliced at an internal corner or an external corner of the wall surface. Wherein, the external corner is a convex corner, and the internal corner is a concave corner.

In one particular embodiment, as shown in fig. 4, the wallboard mounting system further includes a reentrant corner assembly comprising reentrant corner posts 600 and wallboard 400.

The internal corner upright 600 is installed between the top beam 100 and the bottom beam 200, and includes an internal corner bottom plate 601, and a first internal corner side plate 602 and a second internal corner side plate 603 extend from two opposite sides of the internal corner bottom plate 601 respectively.

The first internal corner side plate 602 and the second internal corner side plate 603 are hollow, and the first internal corner side plate 602, the second internal corner side plate 603 and the internal corner bottom plate 601 enclose a first internal corner groove.

The two opposite sides of the second internal corner side plate 603 departing from the first internal corner side plate 601 extend a third internal corner side plate 604 and a fourth internal corner side plate 605 towards the direction departing from the first internal corner side plate 601.

The third reentrant side plate 604, the fourth reentrant side plate 605 and the second reentrant side plate 603 enclose a second reentrant groove. The reentrant base panel 601 is coplanar with the third reentrant side panel 604.

Two wall panels 400 located at the internal corners, one wall panel 400 being fixed by the top beam 100 and the bottom beam 200 of the first group and being inserted into the first internal corner groove; the other wall panel 400 is fixed by the top beam 100 and the bottom beam 200 of the second group and is inserted into the second internal corner groove.

The upper end surface of the first internal corner side plate 602 is fixedly connected with the end surface of the first top beam groove plate 103 of the top beam 100 in the first group, and the lower end surface is abutted against or fixedly connected with the limiting step 205 of the bottom beam 200. The upper end surface and the lower end surface are oppositely arranged.

The upper end surface of the third internal corner side plate 604 is fixedly connected with the end surface of the first top beam groove plate 103 of the top beam 100 in the second group, and the lower end surface is abutted against or fixedly connected with the limiting step part 205 of the bottom beam 200.

The upper end surface of the second internal corner side plate 603 is fixedly connected with the end surface of the second top beam groove plate of the top beam 100 in the first group, and the lower end surface is abutted against or fixedly connected with the end surface of the second bottom beam groove plate 203 of the bottom beam 200.

The upper end surface of the fourth internal corner side plate 604 is fixedly connected with the end surface of the second top beam groove plate of the top beam 100 in the second group, and the lower end surface is abutted against or fixedly connected with the end surface of the second bottom beam groove plate 203 of the bottom beam 200.

Through setting up reentrant corner stand 600, can make things convenient for the connection of wallboard 400 in reentrant corner department, improve assembly efficiency.

Further, a first abutting table 606 is disposed on an inner plate surface of the third inside corner side plate 604 facing the fourth inside corner side plate 605.

The first abutment 606 is connected to the first boss portion 105, and the first abutment 606 abuts against or is fixedly connected to the stopper step portion 205.

The inner panel surface of the fourth inside corner side panel 605 facing the third inside corner side panel 604 is provided with a second abutment platform 607.

The second abutment 607 is fixedly connected to the second boss portion 106, and the second abutment 607 is abutted to or fixedly connected to the second bottom beam groove plate 203. The wall panel 400 is sandwiched between a first abutment 606 and a second abutment 607.

By arranging the first abutting-joint table 606 and the second abutting-joint table 607, the connecting structure can be conveniently connected with the bottom beam 200 and the top beam 100, and the assembling efficiency is improved.

Further, the end faces of the first internal corner side plate 602 and the second internal corner side plate 603 deviating from the internal corner bottom plate 601 and the outer plate face of the fourth internal corner side plate 605 deviating from the third internal corner side plate 604 are coplanar, so that the end face smoothness of the internal corner upright column 600 is ensured, and transportation is facilitated.

In this embodiment, first butt joint platform 606 and second butt joint platform 607 are hollow cuboid, the side of cuboid orientation wallboard is flat face to make things convenient for the centre gripping wallboard 400.

Preferably, the first internal corner side plate 602, the second internal corner side plate 603 and the internal corner bottom plate 601 are perpendicular, and the second internal corner side plate 603 and the fourth external corner side plate 605 are perpendicular, so as to facilitate the design process.

In one embodiment, the reentrant post 600 may be mounted at the reentrant corner by a wedge to ensure that the reentrant post 600 is square at the reentrant corner, thereby ensuring the accuracy and precision of the wallboard installation.

As shown in FIG. 5, the wallboard mounting system also includes an external corner post 700, and the external corner post 700 and the wallboard 400 may constitute an external corner assembly.

Wherein the external corner post 700 is installed between the top beam 100 and the bottom beam 200, and comprises an external corner bottom plate 701.

A first external corner side plate 702, a second external corner side plate 703, a third external corner side plate 704 and a fourth external corner side plate 705 are respectively extended from two sides of the external corner bottom plate 701 in the same extending direction.

The first and third external corner side panels 702, 704 are connected vertically and the second and fourth external corner side panels 703, 705 are connected vertically.

The first external corner side plate 702, the second external corner side plate 703 and the external corner bottom plate 701 enclose a first external corner groove.

The external corner bottom plate 701, the third external corner side plate 704 and the fourth external corner side plate 705 enclose a second external corner groove.

The first and second male corner grooves are symmetrical with respect to the male bottom plate 701.

The upper end surface of the first external corner side plate 702 or the third external corner side plate 703 is fixedly connected with the end surface of the first top beam groove plate 103, and the lower end surface is abutted against or fixedly connected with the limiting step part 205.

The upper end surface of the second external corner side plate 704 or the fourth external corner side plate 705 is fixedly connected with the end surface of the second top beam trough plate 104, and the lower end surface is abutted against or fixedly connected with the end surface of the second bottom beam trough plate 203.

Two wallboards connected at the external corner are respectively spliced with the first external corner groove and the second external corner groove. The two wall panels are fixed by two sets of bottom beams 200 and top beams 100, respectively.

Through setting up external corner stand 700, can make things convenient for the connection of external corner department wallboard, improve assembly efficiency.

Further, a first clamping portion 706 is provided on an inner plate surface of the first outer corner side plate 702 facing the second outer corner side plate 703.

The first boss portion 706 is fixedly connected to the first boss portion 105, and the first boss portion 706 is abutted against or fixedly connected to the restricting step portion 205.

The inner panel surface of the third external corner side panel 704 facing the fourth external corner side panel 705 is provided with a second clamping portion 707.

The second boss portion 707 is fixedly connected to the first boss portion 105, and the second boss portion 707 is abutted or fixedly connected to the restricting step portion 205.

The two wall panels connected at the external corner are respectively inserted into the first external corner groove and the second external corner groove, and are respectively clamped between the first clamping part 706 and the second external corner side plate 703, and between the second clamping part 707 and the fourth external corner side plate 705.

By providing the first clamping portion 706 and the second clamping portion 707, not only the connection of the external corner upright 700 with the top beam 200 and the bottom beam 100 can be facilitated, but also the connection firmness can be increased.

In one embodiment, the first and second clamping portions 706 and 707 are hollow cuboids, the side of the cuboid facing the wall panel 400 is flat to facilitate fixing of the wall panel 400.

Preferably, the first clamping portion 706 and the second clamping portion 707 are provided with square holes for connecting with the top beam 100.

The fastener passes through the first mounting hole or the second mounting hole, the square hole, and fixedly connects the top beam 100 with the external corner upright 700.

The provision of the square holes in the first clamping section 706 and the second clamping section 707 not only increases the structural strength but also facilitates the fixing.

Preferably, as shown in fig. 6, the wallboard installation system further comprises a butt joint assembly comprising a butt column 800 and a wallboard 400 installed between the top beam 100 and the bottom beam 200.

The butt joint pillar 800 includes a butt joint bottom plate, and the butt joint bottom plate 801 has a left plate surface and a right plate surface which are opposite to each other.

The two sides of the left plate surface with the same extending direction respectively extend out of a first flat joint side plate 802 and a second flat joint side plate 803 towards the direction departing from the right plate surface.

The first butt side plate 802, the second butt side plate 803 and the butt bottom plate 801 enclose a first butt groove.

The two sides of the right plate surface with the same extension direction respectively extend out of a third flat connecting side plate 804 and a fourth flat connecting side plate 805 in the direction departing from the left plate surface.

A butt bottom plate 801, a third butt side plate 804 and a fourth butt side plate 805 enclose a second butt groove. The first and second butting slots are symmetrical about the butting base plate 801.

The adjacent wall panels 400 are respectively inserted into the first and second butt grooves to realize connection, and the adjacent wall panels 400 connected by the butt columns 800 are coplanar.

The upper end surfaces of the first flat connecting side plate 802 and the third flat connecting side plate 804 are fixedly connected with the end surface of the first top beam trough plate 103, and the lower end surfaces are fixedly connected with or abutted against the limiting step part 205.

The upper end surfaces of the second butt-joint side plate 803 and the fourth butt-joint side plate 805 are fixedly connected with the end surface of the second top beam trough plate 104, and the lower end surfaces are fixedly connected with or abutted against the end surface of the second bottom beam trough plate 203.

By arranging the butt-joint upright post 800, the decoration of the wallboard 400 with different length requirements can be met, and the installation firmness of the wallboard 400 can be ensured.

Further, the inner plate surface of the first flat side plate 802 facing the second flat side plate 803 and the inner plate surface of the third flat side plate 804 facing the fourth flat side plate 805 are both provided with a first landing 806.

The inner plate surface of the second flat joint side plate 803 facing the first flat joint side plate 802 and the inner plate surface of the fourth flat joint side plate 805 facing the third flat joint side plate 804 are both provided with a second flat joint platform 807.

The first abutment 806 is fixedly connected to the first boss portion 105, and the first abutment 806 abuts against or is fixedly connected to the stopper step portion 205.

The second platform 807 is fixedly connected to the second boss portion 106, and the second platform 807 is abutted to or fixedly connected to the second sill gutter 203.

Adjacent wall panels are inserted into the first and second docking slots respectively to achieve connection, and the wall panel 400 is clamped between the first docking platform 806 and the second docking platform 807.

Through setting up first platform 806 and second platform 807, can increase the area of contact of butt joint stand 800 with top beam 100 and floorbar 200, conveniently connect, improve the fastness of connection.

Preferably, the first and third butt side panels 802, 804 are both perpendicular and coplanar to the butt bottom panel 801 for ease of handling and shipping.

Likewise, second butted side plate 803 and fourth butted side plate 805 are both perpendicular to and coplanar with butted bottom plate 801.

Further, the first platform 806 and the second platform 807 are both hollow cuboids, and the side of the cuboid facing the wall board is a flat surface.

In one embodiment, as shown in fig. 2, the first boss portion 105 is coplanar with an end surface of the first header trough plate 103 facing away from the cross plate 102, and the second boss portion 106 is coplanar with an end surface of the second header trough plate 104 facing away from the cross plate 102. The end surface of the first top beam channel plate 103 facing away from the cross plate 102 is coplanar with the end surface of the second top beam channel plate 104 facing away from the cross plate 102.

The first boss portion 105 and the second boss portion 106 have the same width, which is equal to the width of the stopping step portion 205 and the second sill groove plate 203, and is about 5 mm. Wherein the width direction is a direction in which the first boss portion 105 points toward the second boss portion 106.

The first boss portion 105 and the second boss portion 106 are spaced from the bottom of the header groove by about 10 mm. The extension plate 204 has a height of about 15mm and a height direction parallel to the groove depth direction.

As shown in fig. 3, the first sill plate 202 is flush with the second sill plate 203. The groove depths of the top beam groove and the bottom beam groove are both about 20 mm.

As shown in fig. 4, the first abutment 606 and the second abutment 607 have the same width and are equal to the first boss portion 105. The first and second inside corner side plates 602 and 603 have the same thickness and are each equal to the first boss portion 105.

The first abutting table 606 and the third inside corner side plate 604 are coplanar far from the end face of the second inside corner side plate 603, and the second low joint 607 and the fourth inside corner side plate 605 are coplanar far from the end face of the second inside corner side plate 603. The end surface of the third inside corner side plate 604 far from the second inside corner side plate 603 is coplanar with the end surface of the fourth inside corner side plate 605 far from the second inside corner side plate 603.

The groove depth of the first female angle groove is about 25mm, and the groove depth of the second female angle groove is about 15 mm. The first abutment table 606, the second abutment table 607 and the second inside corner side plate 603 are all spaced apart by about 5 mm.

As shown in fig. 5, the first clamping platform portion 706 is coplanar with an end surface of the first external corner side panel 702 facing the header 100. The second clamping platform section 707 is coplanar with the end face of the third corner side panel 704 facing the roof rail 100. The first and second boss portions 706 and 707 have the same width as the first boss portion 105.

As shown in fig. 6, the first splicing table 806 is coplanar with the end surfaces of the first and third flat joint side plates 802 and 804, which are away from the flat joint bottom plate 801, respectively, and the second splicing table 807 is coplanar with the end surfaces of the second and fourth flat joint side plates 803 and 805, which are away from the flat joint bottom plate 801, respectively.

The first landing 806 and the second landing 807 have the same width as the first boss portion. The groove depth of the first butt groove and the second butt groove is about 15 mm.

Preferably, the wall panel installation system further comprises an adhesive tape 500, and the wall panel 400 is installed in the top beam groove, the bottom beam groove, the first female angle groove, the second female angle groove, the first male angle groove, the second male angle groove, the first butt groove and the second butt groove by the adhesive tape 500 to increase the sealing performance of the installation of the wall panel 400. In this embodiment, the adhesive tape 500 may be a waterproof adhesive tape.

Further, the adhesive tape 500 has an adhesive groove thereon, and the adhesive groove has a first adhesive groove side plate 501 and a second adhesive groove side plate 502 which are oppositely disposed.

The adhesive tape 500 further comprises a first adhesive groove outer plate 503 and a second adhesive groove outer plate 504, wherein the first side of the first adhesive groove outer plate 503 is arranged on the outer plate surface of the first adhesive groove side plate 501 departing from the second adhesive groove side plate 502. The first glue groove outer plate 503 and the first glue groove side plate 501 form a first opening.

The first side of the second glue groove outer plate 504 is arranged on the outer plate surface of the second glue groove side plate 502 departing from the first glue groove side plate 501, the second glue groove outer plate 504 and the second glue groove side plate 502 form a second opening, and the first opening and the second opening face the direction departing from the bottom of the glue groove.

Specifically, as shown in fig. 2 to 6, a second side of the first glue groove outer plate 503, which is disposed opposite to the first side, abuts against the first boss portion 105, the first sill groove plate 202, the first inside corner side plate 602, the first abutment table 606, the first clamp portion 706, the second clamp portion 707, and the first platform 806, respectively.

A second side of the first glue groove outer plate 504, which is opposite to the first side, is in contact with the second boss portion 106, the second sill groove plate 203, the second inside corner side plate 602, the second contact table 607, the second outside corner side plate 703, the fourth outside corner side plate 705, and the second flat contact table 807, respectively.

Preferably, the number of the first glue groove outer plate 504 and the second glue groove outer plate 505 is at least three, and the at least three first glue groove outer plates 504 and the at least three second glue groove outer plates 505 are arranged in parallel along the direction from the glue groove bottom to the glue groove opening, so as to better improve the sealing property.

Further, the glue strip 500 further comprises a third glue groove outer plate 505 and a fourth glue groove outer plate 506. The first side of the third glue groove outer plate 505 is disposed on the end surface of the first glue groove side plate 501 departing from the bottom of the glue groove, and a third opening facing the first glue groove outer plate 503 is formed between the third glue groove outer plate 505 and the outer plate surface of the first glue groove side plate 501.

The first side of the fourth glue groove outer plate 506 is arranged on the end face of the second glue groove side plate 502 departing from the glue groove bottom, and a fourth opening facing the second glue groove outer plate 504 is formed by the fourth glue groove outer plate 506 and the outer plate face of the second glue groove side plate 502.

By arranging the third glue groove outer plate 505 and the fourth glue groove outer plate 506, water can be prevented from entering between the glue strip 500 and the top beam groove, the bottom beam groove, the first internal corner groove, the second internal corner groove, the first external corner groove, the second external corner groove, the first parallel groove and the second parallel groove, and the sealing performance is further improved.

As shown in fig. 2 to 6, a second side of the third glue groove outer plate 505, which is disposed opposite to the first side, abuts on end faces of the first boss portion 105, the first sill groove plate 202, the first inside corner side plate 602, the first abutment table 606, the first clamp portion 706, the second clamp portion 707, and the first flat abutment 806, respectively.

The second side of the fourth glue groove outer plate 506, which is opposite to the first side, abuts against the end surfaces of the second boss portion 106, the second sill groove plate 203, the second inside corner side plate 602, the second abutment table 607, the second outside corner side plate 703, the fourth outside corner side plate 705 and the second platform 807.

Further, the thickness of the first glue groove side plate 501 and the second glue groove side plate 502 is gradually reduced along the direction from the glue groove bottom to the glue groove opening, so that the glue groove is convenient to assemble and disassemble.

In one embodiment, as shown in fig. 5, the adhesive tape 500 abuts against the butt bottom plate 701, which provides a certain limiting function and ensures the accuracy of the installation of the adhesive tape 500.

Based on the above wallboard installation system, the present application also provides a wallboard installation method, which includes: mounting a bottom box; a bottom beam is arranged in the bottom box; inserting the wall board into the bottom beam groove; the wall plate is inserted into the top beam groove, and the vertical plate of the top beam is installed on the original building wall surface.

Now, taking a glass wall panel as an example to decorate a toilet, a mounting manner of the wall surface of the present application is described, as shown in fig. 7, specifically as follows:

1) the bottom case 300 is installed on the bottom surface of the toilet. Wherein the bottom case 300 is a waterproof bottom case.

2) The bottom beams 200 are fixed on the box bottom of the bottom box, and the bottom beams 200 at the internal corners and the external corners are connected in a 45-degree splicing mode.

3) The reentrant corner post 600 is installed at the first reentrant corner, and can be leveled by a wedge block and connected with the bottom beam 200 and the original building wall.

4) Installing a starting glass wallboard, inserting the adhesive tape 500 on the glass wallboard, then inserting the adhesive tape together in the bottom beam 200, and inserting the adhesive tape and the internal corner upright column 600;

5) inserting the external corner upright 700 into the glass wall plate with the adhesive tape 500;

6) installing the top beam 100, inserting the glass wall panel with the adhesive tape 500 into the top beam 100, fixing the top beam 100 on the original building wall surface after leveling the top beam 100, and then connecting the top beam 100 with the internal corner upright column 600 and the external corner upright column 700 to complete the installation of the initial glass wall panel;

7) installing the second piece of glass wallboard, pegging graft glass wallboard and external corner stand 700, pegging graft reentrant corner stand 600 and second glass wallboard, install the back timber again, accomplish the installation of two pieces of glass wallboards, analogize in proper order, accomplish the installation of other glass wallboards.

8) When the length of the glass wall board is insufficient, the abutting upright columns 800 are used for connecting the adjacent glass wall boards with the adhesive tapes 500, then the top beam 100 is installed, and the top beam 100 is connected with the abutting upright columns 800.

The wallboard installation method provided by the embodiment of the application has the advantages that the bottom box, the top beam, the wallboard and the bottom beam are arranged, the bottom beam is arranged at the bottom of the bottom box, the top beam is arranged on the original building wall surface, the wallboard is inserted into the top beam groove and the bottom beam groove, the original building wall surface is isolated through the wallboard, the original building wall surface is not required to be subjected to waterproof treatment in advance, tiles are not required to be attached to the original building wall surface through cement mortar or a tile adhesive, the waterproof treatment time can be saved, the setting time of the cement mortar or the tile adhesive can be waited, the decoration time is greatly saved, the construction period is shortened, all components can be industrially produced in a factory, the assembly can be completed only through simple assembly on site, the decoration quality is easy to control, the technical requirement on constructors is low, the labor cost is low, the labor intensity is high, the, the environment-friendly level is improved, and meanwhile, the structure is simple, the assembly is easy, and the assembly efficiency is high.

The technical solutions of the present application are described in detail with reference to specific embodiments, which are used to help understand the ideas of the present application. The derivation and modification made by the person skilled in the art on the basis of the specific embodiment of the present application also belong to the protection scope of the present application.

Claims (10)

1. A header assembly, comprising: back timber and wallboard, the back timber is the bending plate, and it includes riser and diaphragm of perpendicular connection, the riser is used for being connected with original building wall, the diaphragm deviates from the lower plate face of riser and extends first back timber frid and second back timber frid towards the direction of anticreep riser, first back timber frid, second back timber frid and diaphragm form the back timber groove, are provided with first boss portion on the interior face of first back timber frid towards second back timber frid, be provided with second boss portion on the interior face of second back timber frid towards first back timber frid, the wallboard inserts the back timber inslot, presss from both sides between first boss portion and the second boss portion.

2. The top beam assembly of claim 1, further comprising an inside corner post, wherein the cross plate is provided with a first mounting hole and a second mounting hole, and a fastener is connected to the inside corner post through the first mounting hole and the first boss portion, the second mounting hole and the second boss portion.

3. The header assembly of claim 2, wherein the first and second boss portions are rectangular parallelepiped.

4. The header assembly of claim 3, further comprising wedges by which the risers are connected to the original building wall surface.

5. The header assembly of claim 4, wherein the first header trough plate and the second header trough plate are each parallel to a riser.

6. The header assembly of any one of claims 1-5, further comprising a strip of glue mounted in the header channel, the strip of glue having a glue channel therein, the wall panel being plugged into the glue channel.

7. The header assembly of claim 6, further comprising a first glue slot outer plate and a second glue slot outer plate, the glue groove is provided with a first glue groove side plate and a second glue groove side plate which are oppositely arranged, the first side of the first glue groove outer plate is arranged on the outer plate surface of the first glue groove side plate, which is far away from the second glue groove side plate, the first glue groove outer plate and the first glue groove side plate form a first opening, a second side of the first glue groove outer plate, which is the same as the extension direction of the first side, is abutted against the first boss part, the first side of the second glue groove outer plate is arranged on the outer plate surface of the second glue groove side plate deviating from the first glue groove side plate, the second glue groove outer plate and the second glue groove side plate form a second opening, the first opening and the second opening face to the direction departing from the bottom of the glue groove, and a second side of the second glue groove outer plate, which is the same as the extension direction of the first side, is abutted against the second boss part.

8. The header assembly of claim 7, further comprising a third glue groove outer plate and a fourth glue groove outer plate, wherein a first side of the third glue groove outer plate is disposed on an end surface of the first glue groove side plate facing away from the glue groove bottom, the third glue groove outer plate and an outer plate surface of the first glue groove side plate form a third opening facing the first glue groove outer plate, a second side of the third glue groove outer plate extending in the same direction as the first side abuts against an edge of the first boss portion, a first side of the fourth glue groove outer plate is disposed on an end surface of the second glue groove side plate facing away from the glue groove bottom, a surface of the fourth glue groove outer plate and an outer plate surface of the second glue groove side plate form a fourth opening facing the second glue groove outer plate, and a second side of the fourth glue groove outer plate extending in the same direction as the first side abuts against an edge of the second boss portion.

9. The header assembly of claim 8 wherein the thickness of each of the first and second glue channel side plates tapers in a direction from the glue channel floor to the glue channel opening.

10. A wall panel installation system comprising a header assembly as claimed in any one of claims 1 to 9.

Images