CN209975949U - Frame type decoration structure - Google Patents

Abstract

The utility model provides a frame-type fitment structure, its characterized in that: comprises a ground structure and a wall structure; the floor structure comprises a floor support bracket, lifting feet and a floor panel member; the floor support bracket is arranged on the solid ground through the lifting feet; the floor panel component is supported on the floor support bracket; the wall surface structure comprises a plurality of middle frameworks, corner frameworks, an upper framework and wallboards; the angle skeleton is arranged on the bending position of the floor panel piece; each middle framework is arranged between the adjacent corner frameworks; each middle framework is respectively arranged on the floor support bracket or the floor panel component; the top of each middle framework and the top of each corner framework are respectively connected with the upper side framework; the wall board is fixed with the middle framework or the corner framework, or the wall board is fixed with the middle framework and the corner framework at the same time. The decoration structure can be convenient for workers to adjust and construct, and the horizontal arrangement of the ground structure is ensured.

Description

Frame type decoration structure

Technical Field

The utility model relates to a fitment technical field, more specifically say, relate to a frame-type fitment structure.

Background

In the traditional decoration mode, materials such as cement, sand stone, lime and the like are adopted for painting, and then paint is coated or tile, ceramic chip and wallpaper are paved; the construction time is long, the consumed materials are more, and the decoration cost is high. And when the original decoration materials need to be repaired again, the workload for dismantling the original decoration materials is very large, and the decoration cost is further increased.

In order to quickly perform decoration arrangement, a modularized decoration mode for performing modularized construction in an indoor space and constructing an inner space with decoration effect in the indoor space is developed at present; can effectively accelerate the construction progress and save the labor cost, and is also convenient for replacement and decoration.

But the current modularized decoration mode has the following defects:

the ground structure is directly paved by plates, and workers have difficulty in adjusting supporting parts below the plates, so that the horizontal arrangement of the ground structure is difficult to ensure; when the levelness of the plate needs to be adjusted, workers need to repeatedly disassemble and assemble the plate to adjust the supporting component, so that the improvement of the construction efficiency is not facilitated; moreover, each plate is supported by an independent supporting component, so that the levelness of each plate needs to be adjusted independently, the levelness of each plate cannot be ensured to be completely uniform, the splicing position of the plates is likely to have uneven height, and the flatness is not ideal;

because the wall surface of the indoor space and the ground are not smooth, the existing ground structure cannot be positioned and fixed by means of the wall surface of the indoor space and the ground fully, the stability of a decoration structure is influenced, the use experience of a user is reduced, and potential safety hazards are caused;

thirdly, because the wall surface of the indoor space is uneven, the middle framework cannot be attached to the wall body so as to position the wall surface centering framework; in addition, for the area needing water running and wiring, a space water supply pipe and an electric wire need to be reserved between the middle framework and the wall body, and the middle framework and the wall body cannot be attached to realize the positioning of the middle framework; therefore, parts are needed to position the framework, but the existing positioning structure is very inconvenient to install and low in installation efficiency;

when the multifunctional floor is applied to occasions such as bathrooms where sewage is generated, the sewage is easy to flow into the space below the floor panel part to form accumulated water due to the lack of measures for preventing water seepage, and bad sanitation conditions are caused due to the breeding of mosquito and bacteria; the accumulated water may flow into the rooms of the lower-layer residents to cause the problems of water leakage and the like in the rooms of the lower-layer residents.

SUMMERY OF THE UTILITY MODEL

For overcoming the shortcoming and not enough among the prior art, the utility model aims to provide a can be convenient for the workman adjust and construct, ensure the setting of ground structure level, can improve the efficiency of construction and reduce the frame-type fitment structure of the construction degree of difficulty.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a frame-type fitment structure which characterized in that: comprises a ground structure and a wall structure; the floor structure comprises a floor support bracket, lifting feet and a floor panel member; the floor support bracket is arranged on the solid ground through the lifting feet; the floor panel component is supported on the floor support bracket; the wall surface structure comprises a plurality of middle frameworks, corner frameworks, an upper framework and wallboards; the angle skeleton is arranged on the bending position of the floor panel piece; each middle framework is arranged between the adjacent corner frameworks; each middle framework is respectively arranged on the floor support bracket or the floor panel component; the top of each middle framework and the top of each corner framework are respectively connected with the upper side framework; the wall board is fixed with the middle framework or the corner framework, or the wall board is fixed with the middle framework and the corner framework at the same time.

The utility model discloses the mounting method of structure is: firstly, arranging a floor support bracket, and adjusting each lifting foot to enable the floor support bracket to be horizontally arranged and supported on the solid ground; then, the floor board pieces are arranged on the floor support bracket; arranging the middle framework on a floor support bracket or a floor panel component; arranging the angle skeleton on the bending position of the floor panel piece; thereafter, the wall panels are mounted on the middle and corner frames.

The utility model discloses the fitment structure can make the workman install the floor panel spare again after adjusting the good board support bracket, ensures that floor support bracket level sets up, need not relapse dismouting floor panel spare and adjust the horizontality, can improve the efficiency of construction and reduce the construction degree of difficulty. Because the floor panel parts are all arranged on the floor support bracket, all the floor panel parts can have uniform levelness, and a floor with high flatness can be formed. The utility model discloses the fitment structure both can be used to the interior space fitment, also can be used to the outdoor environment fitment.

Preferably, the floor panel member is supported on a floor support bracket by: one of the following two schemes is adopted:

a1, the lower end face of the floor panel piece is attached to the floor support bracket, and the lower end face of the floor panel piece is provided with a positioning groove to realize the positioning with the floor support bracket;

a2, a reinforcing framework is arranged under the floor panel component, and the reinforcing framework is arranged on the floor support bracket.

Both solutions can reinforce the mechanical strength of the floor covering, thus increasing the load-bearing capacity of the floor covering and making the finished structure as a whole more robust.

Preferably, the floor support bracket is arranged by one of the following two schemes:

b1, the floor support bracket is arranged on the solid ground through the lifting foot;

b2, at least one side of the floor support bracket is provided with an adjusting foot; the floor support bracket is supported with a solid wall body positioned at the outer side of the floor support bracket through the adjusting feet so as to realize the positioning of the floor support bracket in the horizontal direction; and the floor support bracket is arranged on the solid ground through the lifting foot. In the scheme B2, when the floor support bracket is arranged, the position and the levelness of the floor support bracket are adjusted, and the adjusting feet are supported between the floor support bracket and the solid wall body by adjusting the adjusting feet to realize the positioning of the floor support bracket, so that the floor support bracket is horizontally arranged; the lifting feet are adjusted to enable the floor supporting bracket to be supported on the solid ground through the lifting feet. The solution B2 can improve the positioning and fixing stability between the ground structure and the solid wall and the solid ground, thereby making the whole decoration structure more stable.

Preferably, in case B1 and case B2, the floor support bracket comprises a plurality of frame beams and support beams; the adjacent frame beams are connected through the frame connecting piece to form a lower frame; each supporting beam is connected in the lower edge frame side by side or in parallel through a supporting connecting piece, and a working gap is reserved between every two adjacent supporting beams; each supporting beam is arranged on the solid ground through a lifting foot; the ground plate piece is supported on the bearing beam;

in the scheme B2, at least one side of the floor supporting bracket is provided with an adjusting foot, which means that: and the outer side of at least one frame beam is provided with an adjusting foot which is supported between the frame beam and the solid wall body. The floor support bracket can further improve the convenience of storing, moving and carrying the part parts, and can make the installation simpler and more convenient; a working gap is reserved between the adjacent supporting beams, and an installer can adjust the lifting feet from the working gap, so that the degree of convenience in operation is improved.

Preferably, each middle framework is arranged by one of the following two schemes:

c1, the middle skeleton is arranged on the floor support bracket or the floor panel component;

c2, the middle skeleton is arranged on the floor support bracket or the floor panel component; and the middle framework and the solid wall body are positioned through an inclined wedge positioning component. The wedge positioning assembly can adjust the thickness of the cushion between the middle framework and the solid wall body, and the stability of the middle framework is improved; the operation is simple and convenient, the positioning and mounting efficiency of the middle framework is improved, and the labor intensity of workers is reduced.

Preferably, the wallboard is fixed with the middle skeleton, and means: one of the following two schemes is adopted:

d1, fixing each wall board with the middle skeleton;

d2, connecting the wallboard end to end; one end of each wallboard is provided with a first inserting groove, and the other end of each wallboard is provided with a first inserting strip; the end-to-end connection of the wall boards means that: the first splicing strip of one wallboard is spliced in the first splicing groove of the other wallboard to splice the adjacent wallboards, so that the end-to-end connection of the wallboards is realized; the middle framework comprises a middle framework body and a hooking piece connected with the middle framework body; the middle framework body and the hooking piece form a second inserting groove together; one end of the wallboard, which is provided with the first inserting groove, or one end of the wallboard, which is provided with the first inserting strip, is provided with a second inserting strip; and the second inserting strip is inserted into the second inserting groove to fix the middle framework and the wallboard.

Preferably, also comprises a ceiling and a ceiling framework; the ceiling framework is arranged at the top end of the wallboard or on the upper side framework; the ceiling is connected with the ceiling framework.

Preferably, a floor drain assembly is also included; the floor panel part is provided with a water under floor part; the water outlet part of the floor forms a water outlet hole of the floor; the floor drain assembly comprises a deodorization core and a drainage connecting piece provided with a drainage channel; the lower water connecting piece is connected with the floor supporting bracket; the floor drain part is supported and positioned on the drain connecting piece, and a floor drain hole is communicated with the drain channel; one end of the deodorization core is supported on the wall of the floor drain hole and/or the drain connecting piece, and the other end of the deodorization core extends into the drain channel. The decoration structure with the floor drain assembly can be used in places such as bathrooms, and the installation method of the decoration structure needs to be adjusted: after the plate supporting bracket is arranged, the lower water connecting piece is connected with the lower water pipe; then, the floor panel piece is arranged on a floor support bracket, and the underfloor water part of the floor panel piece is supported on a support platform of the underwater connecting piece; the other installation steps of finishing the structure are not changed. The installation method of the subsequent floor drain assembly comprises the following steps: the drain passage opening of the drain connecting piece is provided with a deodorization core, and the deodorization core is supported on the wall of the drain hole of the floor. Workers only need to install the parts of the floor drain assembly one by one from the lower part to the upper part, and the position of the floor drain assembly does not need to be adjusted subsequently, so that the construction is simple and convenient; the floor drain assembly can be sealed at the joint between the floor drain assembly and the ground plate piece, so that water is prevented from leaking from the floor drain assembly and the ground plate piece, and turbid smell below the panel piece is prevented from leaking upwards from the floor drain assembly and the ground plate piece.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect:

1. the utility model can lead workers to install the floor panel after adjusting the floor support bracket, thus being convenient for the workers to adjust and construct, ensuring the horizontal arrangement of the floor structure, avoiding repeatedly disassembling and assembling the floor panel to adjust the horizontal state, improving the construction efficiency and reducing the construction difficulty;

2. the floor supporting bracket of the utility model can realize disassembly and assembly, and is convenient for transportation and movement;

3. the utility model can improve the fixing degree of positioning and fixing between the ground structure and the solid wall and the solid ground;

4. the utility model is simple and convenient to install; the whole structure is firm, and the capability of bearing impact, impact and vibration can be improved;

5. the utility model can avoid the liquid flowing into the lower part of the floor panel component;

6. the utility model can reduce the thickness of the wall board and reduce the occupied space of the wall board; the wall board can be flexibly attached to the middle framework or not attached to the middle framework, so that the unavailable space at the rear side of the wall board can be reduced; the aim of improving the space utilization rate is achieved by reducing the occupied space of the wallboard and/or reducing the unavailable space at the rear side of the wallboard; the wallboard adopts the grafting mode to splice, can realize piecemeal installation, has removed the restriction that traditional buckle mode must two blocks of adjacent wallboards install simultaneously, can improve the convenient degree of installation, realizes installing fast, reduces constructor quantity, reduces the human cost.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic structural view of the decoration structure of the present invention;

FIG. 3 is a schematic view showing the connection of the floor support bracket, the middle frame, the corner frame and the upper frame in the decoration structure of the present invention;

FIG. 4 is a schematic view of a floor support bracket of the present invention in a finished structure;

FIG. 5 is a schematic view of a floor panel member of the present finishing structure;

FIG. 6 is a schematic view of the installation of a wedge positioning assembly and a center frame in the present invention;

FIG. 7 is an exploded view of a wedge positioning assembly and a center frame in a trim structure according to the present invention;

FIG. 8 is a schematic view of a wedge positioning assembly in a trim configuration of the present invention;

FIG. 9 is a schematic view of the installation of the two-wedge positioning assembly and the middle frame in the decoration structure of the present invention;

FIG. 10 is an exploded view of a mode two wedge positioning assembly and a mid-frame in the trim structure of the present invention;

FIG. 11 is a schematic view of a block connector of a mode two-wedge positioning assembly in a finishing structure according to the present invention;

FIG. 12 is a schematic view of the installation of the square three-wedge positioning assembly and the middle frame in the decoration structure of the present invention;

FIG. 13 is an exploded view of the square triple wedge positioning assembly and the mid-frame of the finishing structure of the present invention;

FIG. 14 is a schematic view of the installation of the four wedge positioning assembly and the center frame in the decoration structure of the present invention;

FIG. 15 is an exploded view of the mode four wedge positioning assembly and mid-frame of the present invention in a finishing structure;

FIG. 16 is a schematic view of a cushion block coupler for a four-wedge positioning assembly of the present invention in a trim configuration;

FIG. 17 is a schematic view of the installation of the middle frame and the middle frame installation seat in the decoration structure of the present invention;

FIG. 18 is a schematic view of the installation of the floor drain assembly and the floor panel in the decoration structure of the present invention;

figure 19 is an exploded view of the floor drain assembly in the finishing structure of the present invention;

figure 20 is a cross-sectional view of the floor drain assembly in the finishing structure of the present invention;

FIG. 21 is an exploded view of a floor panel member and reinforcing cage in a second finished structure according to an embodiment;

FIG. 22 is an exploded view of a ground structure in the finishing structure of the second embodiment;

FIG. 23 is a schematic structural view of a floor structure in the finishing structure of the second embodiment;

FIG. 24 is a schematic view showing the first installation of wall panels in the sixth finishing structure according to the embodiment;

FIG. 25 is a schematic view showing the first installation of wall panels in the sixth finishing structure according to the embodiment;

FIG. 26 is a schematic view showing a second mode of installation of the wall panel in the sixth finishing structure according to the embodiment;

FIG. 27 is a schematic structural view of a third mode of installation of wall panels in a sixth finishing structure according to an embodiment;

FIG. 28 is a schematic structural view of a fourth mode of installation of wall panels in a sixth finishing structure according to an embodiment;

FIG. 29 is a schematic structural view showing a sixth mode of installation of the wall panel in the sixth finishing structure according to the embodiment;

FIG. 30 is a schematic view showing the structure of wall panels in the sixth finishing structure according to the sixth embodiment;

FIG. 31 is a schematic view showing a seventh mode of installation of the wall panel in the sixth finishing structure according to the embodiment;

FIG. 32 is one of the schematic structural views of a ceiling skeleton connecting member in the seven-piece finishing structure of the embodiment;

FIG. 33 is a second schematic structural view of a ceiling skeleton connecting member in the seventh finishing structure of the embodiment;

FIG. 34 is a schematic view showing the construction of another ceiling skeleton joint member in the seven-piece finishing structure of the embodiment;

FIG. 35 is a schematic illustration of a ceiling framework attachment in a seven-piece finishing structure according to an example;

wherein, 1 is a floor supporting bracket, 11 is a frame beam, 12 is a supporting beam, 13 is an adjusting foot, 14 is a lifting foot, 15 is a frame connecting piece, 16 is a supporting connecting piece, 2 is a floor panel piece, 21 is a cut-off platform, 22 is a wall surface mounting concave position, 23 is an angular position clamping cavity, 25 is a positioning groove, 26 is an underfloor water part, 27 is an underfloor water hole, 271 is a supporting convex position, 28 is a floor cover plate, 29 is a reinforcing framework, 291 is a framework connecting part, 3 is a middle framework, 31 is a clamping hole, 32 is a middle framework mounting seat, 34 is a middle framework body, 35 is a hooking connecting part, 36 is a hooking part, 4 is an angular framework, 5 is a wallboard, 51 is a splicing groove I, 52 is a splicing strip I, 53 is a splicing strip II, 54 is a hooking gap I, 55 is a wallboard groove, 6 is an upper framework, 7 is a ceiling framework, 71 is a ceiling framework, 711 is a ceiling framework body, 711 is a ceiling framework, 712 is smallpox skeleton strake, 713 is the draw-in groove, 72 is smallpox skeleton connecting piece, 721 is the locating piece, 722 is the joint piece, 723 is the buckling part, 724 is the operation portion, 725 is the elastic clearance, 8 is the slide wedge locating component, 81 is the slide wedge cushion block, 811 is the inclined plane one, 812 is the mounting hole two, 814 is the antiskid bulge, 815 is spacing portion, 82 is the cushion block connecting piece, 821 is connecting part one, 822 is connecting part two, 823 is the card setting piece, 824 is the mounting hole one, 9 is the floor drain component, 91 is the lower water connecting piece, 911 is the bearing platform, 912 is the lower water connecting piece body, 913 is the offal passageway, 92 is deodorant core, 921 is deodorant outer core, 922 is deodorant inner core, 93 is the filter screen, 94 is the floor drain apron, 95 is the downcomer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example one

A frame type finishing structure of the present embodiment, which is provided in an indoor space, is constructed as shown in fig. 1 to 20; comprising a floor structure, a wall structure, a ceiling 7 and an upper frame 6.

The floor structure comprises floor support brackets 1, adjustment feet 13, lifting feet 14 and floor panels 2. The floor support bracket 1 is arranged on the solid ground through a lifting foot 14; one side of the floor supporting bracket 1 is provided with an adjusting foot 13; the horizontal positioning of the floor support bracket 1 is realized by supporting the adjusting feet 13 and the solid wall. In practical application, the adjusting feet 13 may be provided on more than two sides of the floor supporting bracket 1. The floor covering 2 is supported on the floor support bracket 1.

The wall surface structure comprises a plurality of middle frameworks 3, corner frameworks 4, an upper framework 6 and wallboards 5; the angle skeleton 4 is arranged on the bending position of the floor panel component 2; each middle framework 3 is arranged between the adjacent corner frameworks 4; each middle framework 3 is respectively arranged on the floor support bracket 1 or the floor board piece 2; the top parts of the middle frameworks 3 and the corner frameworks 4 are respectively connected with an upper side framework 6; wall plate 5 is fixed with middle skeleton 3 or angle skeleton 4, or wall plate 5 is fixed with middle skeleton 3 and angle skeleton 4 simultaneously.

The installation method of the frame type decoration structure comprises the following steps:

s1, arranging a floor support bracket in the indoor space; adjusting the position and the levelness of the floor support bracket, and enabling the adjusting foot to be supported between the floor support bracket and the solid wall body through adjusting the adjusting foot to realize the positioning of the floor support bracket, thereby enabling the floor support bracket to be arranged in the horizontal direction; adjusting the lifting feet to enable the floor supporting bracket to be supported on the solid ground through the lifting feet;

s2, arranging the floor board on the floor support bracket; arranging the middle framework on a floor support bracket or a floor board piece, and fixing the middle framework and the solid wall; arranging the angle skeleton on the bending position of the floor panel piece; connecting the top ends of the middle framework and the corner framework with the upper framework respectively;

and S3, paving wallboards on the middle framework and the corner frameworks.

The installation method can facilitate workers to adjust the position and the levelness of the floor support bracket, ensure the horizontal arrangement of the ground structure, improve the construction efficiency, reduce the construction difficulty and improve the positioning and fixing stability between the ground structure and the solid wall body as well as between the ground structure and the ground; the middle framework is fixed on the floor support bracket or the floor panel component and is positioned with the solid wall body, so that the stability of the middle framework can be improved, and the stability of the whole decoration structure can be improved. The step S3 can also include ceiling installation and other parts installation; the ceiling installation can be carried out by known methods.

The decoration structure of the utility model can facilitate the workers to adjust the position and levelness of the floor supporting bracket 1, ensure the horizontal arrangement of the ground structure, improve the construction efficiency and reduce the construction difficulty, and can improve the positioning and fixing stability between the ground structure and the solid wall body as well as between the ground structure and the ground; the middle framework is fixed on the floor support bracket or the floor panel component and is positioned with the solid wall body, so that the stability of the middle framework 3 can be improved, and the stability of the whole decoration structure can be improved.

Specifically, the floor support bracket 1 includes a plurality of frame beams 11 and support beams 12; the adjacent frame beams 11 are connected through frame connecting pieces to form a lower frame; an adjusting foot 13 is arranged on the outer side of at least one frame beam 11, and the adjusting foot 13 is supported between the frame beam 11 and the solid wall; each supporting beam 12 is connected in the lower side frame in parallel or in parallel through a supporting connecting piece, and a working gap is reserved between every two adjacent supporting beams 12; each supporting beam 12 is arranged on the solid ground through a lifting foot 14; the floor panel member 2 is supported on the joist 12; each of the middle frames 3 extends downward from the frame mounting position and is provided on the frame beam 11. A working gap is reserved between the adjacent supporting beams 12, and an installer can adjust the lifting feet from the working gap, so that the degree of convenience in operation is improved.

The floor support bracket 1 can further improve the convenience degree of storing, moving and carrying of the parts, and can make the installation simpler and more convenient. The preferred scheme is as follows: the adjacent frame beams 11 are connected by a clamping frame connecting piece 15, and the supporting beams 12 are connected by a supporting connecting piece 16 with a clamping position used for clamping the frame beams 11.

The floor panel component 2 adopts an integrated floor panel component 2 or is formed by assembling a plurality of panel components; the edge of the floor panel component 2 is provided with a cut-off platform 21; the top of the cut-off platform 21 is provided with a wall surface mounting concave position 22; the wall surface mounting concave position 22 is superposed with the wall plate 5; an angular position clamping cavity 23 is arranged at the bending position of the intercepting platform 21; the angle skeleton 4 is clamped on the angle position clamping cavity 23. The wall surface mounting concave position 22 and the wall plate 5 are overlapped to seal the joint between the wall plate 5 and the cut-off platform 21, so that liquid is prevented from flowing into the lower part of the floor panel part 2 from the space between the floor panel part 2 and the wall plate 5.

The lower end surface of the floor panel 2 is attached to the support beam 12, and the lower end surface of the floor panel 2 is provided with a positioning groove 25 to realize positioning with the support beam 12. This arrangement enhances the mechanical strength of the floor covering 2, thereby increasing the load bearing capacity of the floor covering 2 and making the overall finished structure more robust.

In this embodiment, the ceiling 7 and the ceiling framework 71 are also included; the ceiling framework 71 is arranged above the wall board 5 or on the upper frame; the ceiling 7 is provided on the ceiling skeleton 71.

The middle framework 3 and the solid wall body are positioned through the wedge positioning component 8. The wedge positioning assembly 8 comprises a connecting piece and a wedge cushion block; the connecting piece is provided with a column body fixing structure to realize fixation with the column body; the connecting piece is provided with a guide groove vertical to the length direction of the column body; the wedge cushion block is connected with the guide groove in a sliding manner; the connecting piece and the wedge cushion block are fastened through a fastening structure; the thickness of the wedge cushion block gradually becomes thicker when extending from one end close to the column body to one end far away from the column body. There are several embodiments of the cam positioning assembly 8, four being illustrated in this embodiment.

Wedge positioning assembly 8 mode one: as shown in fig. 6 to 8, includes a pad connector 82 and a wedge pad 81. The cushion block connecting pieces 82 are connected to two sides of the middle framework 3; the cushion block connecting piece 82 is provided with a middle framework fixing structure; in this mode, the middle skeleton fixing structure is a connecting block. Preferably, the connection block is a snap connection block 824; the buckle connecting block 824 is connected to one side of the cushion block connecting piece 82 close to the middle framework 3; correspondingly, the middle framework 3 is provided with a clamping hole 31; the buckling connecting block 824 is buckled in the buckling hole 31 to realize the fixation between the buckling connecting block 824 and the middle framework 3; the clamping manner is convenient for the connection of the middle framework 3 and the cushion block connecting piece 82, and the installation efficiency is improved. In practical application, other connection modes can be adopted to realize connection of the middle framework and the cushion block connecting piece.

The cushion block connecting piece 82 is provided with a guide groove 821 vertical to the length direction of the middle framework 3; the bottom of the guide groove is preferably provided with a second inclined surface 8211, so that the depth of the guide groove 821 gradually becomes deeper as it extends from the end close to the middle skeleton 3 to the end far from the middle skeleton 3. The wedge block 81 is slidably connected with the guide groove 821; wedge block 81 has a first inclined plane 811 to allow wedge block 81 to gradually thicken as it extends from the end closer to middle frame 3 to the end farther from middle frame 3.

The cushion block connecting piece 82 and the wedge cushion block 81 are fastened through a fastening structure. Specifically, the first mounting hole 822 is formed in the cushion block connecting piece 82, the second mounting hole 812 is formed in the wedge cushion block 81, and a cushion block fastener 83 penetrates through the first mounting hole 822 and the second mounting hole 812 to achieve fastening between the cushion block connecting piece 82 and the wedge cushion block 81; the degree of convenience in operation can be further improved. The pad fastener may be an existing pad fastener such as a screw bolt or the like.

The use principle is as follows: firstly, arranging a middle framework 3 in front of a solid wall body, and reserving a space between the middle framework 3 and the solid wall body; then the middle framework fixing structure of the cushion block connecting piece 82 is connected with the middle framework 3; mounting the wedge pad 81 from the outside such that the wedge pad 81 is inserted into the guide groove 821 of the pad coupler 82; the wedge cushion block 81 is pushed to slide so as to gradually increase the thickness of the wedge cushion block 81 between the middle framework 3 and the solid wall until the wedge cushion block is tightly pressed between the middle framework and the solid wall; and then, fixing the cushion block connecting piece 82 and the wedge cushion block 81 with the solid wall by adopting a fastening structure to complete the positioning of the middle framework 3. The assembly can position and fix the middle framework 3 and the solid wall body, so that the stability of the middle framework 3 is improved, and the shaking of the middle framework 3 is reduced; the operation is simple and convenient, the positioning and mounting efficiency of the middle framework 3 is improved, and the labor intensity of workers is reduced. But slide connection back is connected with cushion connecting piece 82 to guide slot 813 of slide wedge cushion block 81, and slide wedge cushion block 81 is tentatively fixed a position and can not fall, and follow-up slide wedge cushion block 81 position control and the fastening structure setting of being convenient for further improve the simple operation degree.

The first inclined plane 811 and the second inclined plane 8211 are respectively provided with a first anti-skid bump 814; the friction coefficient between the first inclined plane 811 and the second inclined plane 8211 can be increased, so that the wedge cushion block 81 and the cushion block connecting piece 82 can be conveniently positioned and fixed, and the structural stability is improved. The cushion block connecting piece 82 is provided with a positioning block 823 for positioning with the middle framework 3; facilitating positioning between the spacer coupler 82 and the middle frame 3.

Wedge block 81 is preferably a plastic or metal wedge block. The plastic wedge cushion block and the metal wedge cushion block have good strength and toughness, and are favorable for being firmly clamped between the middle framework and the solid wall body, so that the positioning and fixing stability is improved, and the service life is prolonged.

And a second anti-skid protrusion is arranged on one side of the wedge cushion block 81 far away from the cushion block connecting piece 82. The second anti-slip protrusion can increase the friction coefficient between the wedge block 81 and the solid wall, and prevent the wedge block 81 from slipping and sliding outwards. In practical application, the wedge cushion block does not need to be provided with the second anti-skid protrusions, and the wedge cushion block is prevented from skidding by means of the roughness of the solid wall body.

Wedge positioning assembly 8 mode two: the difference from the first mode is that: as shown in fig. 9-11, in this embodiment, the middle frame securing structure is a fence 825; two ends of the blocking member 825 are respectively detachably connected with the two side cushion block connecting pieces 82, or two ends of the blocking member 825 are respectively fixedly connected with the two side cushion block connecting pieces 82. In this way, the blocking member 825 is blocked at the front side of the middle frame 3 to fix the blocking member 825 to the middle frame 3, so that the cushion block connecting member 82 is fixed to the middle frame 3. The rest of the structure of this embodiment is the same as that of the first embodiment.

And the wedge positioning assembly has a third mode: the difference from the first mode is that: as shown in fig. 12 and 13, in the present embodiment, an insertion portion 826 is provided on the side of the pad link 82 adjacent to the middle frame 3; the embedded portion 826 is embedded in the middle frame 3 to fix the embedded portion 826 and the middle frame 3, so as to fix the cushion block connecting member 82 and the middle frame 3. The rest of the structure of this embodiment is the same as that of the first embodiment.

The wedge positioning assembly 8 mode is four: the difference from the first mode is that: as shown in fig. 14-16, in this embodiment, the pad connector 82 includes a first connection portion 827 and a second connection portion 828; the first connecting part 827 is opposite to the second connecting part 828, and a gap is reserved between the first connecting part 827 and the second connecting part 828; the opposite side surfaces of the first connecting part 827 and the second connecting part 828 are respectively provided with an embedded part 826; connection portion one 827 and connection portion two 828 are connected by connection portion three 829. In this way, the cushion block connector can be inserted into the middle frame from above or below the middle frame 3, and the embedding portion 826 is embedded in the middle frame 3 to fix the embedding portion 826 and the middle frame 3, so that the cushion block connector 82 and the middle frame 3 are fixed. The rest of the structure of this embodiment is the same as that of the first embodiment.

The middle framework 3 is preferably clamped and connected through the middle framework mounting seat 32, and the mounting efficiency can be further improved.

The finishing structure may also include a floor drain assembly 9 that may be used in places such as bathrooms. The floor panel member 2 includes an underfloor water portion 26 provided with an underfloor water hole 27;

the floor drain assembly 9 comprises a deodorization core 92 and a lower water connecting piece 91; the lower water connection piece 91 comprises a lower water connection piece body 912 and a bearing platform 911 arranged at the outer side of the lower water connection piece body 912; the lower water connecting piece body 912 is provided with a lower water channel 913 communicated with the lower water pipe 95; the underfloor water section 26 is supported on the supporting platform 911; the lower end of the lower water connecting piece body 912 is connected with the lower water pipe 95, and the upper end extends into the lower water hole 27 of the floor to realize the positioning of the lower water part 26 of the floor; the floor drain hole 27 communicates with the sewer pipe 95 through the sewer passage 913. In this embodiment, the underfloor water 26 is also preferably connected to the support deck 911 by a water launch fastener, such as a screw; the firmness of the connection between the lower connector 91 and the floor panel 2 can be improved, thereby improving the overall stability of the structure. In practical application, the floor lower water part can be directly fastened with the lower water connecting piece, for example, the floor lower water part and the lower water connecting piece adopt the existing modes such as direct screw connection or buckling.

The deodorization core 92 comprises a deodorization outer core 921 and a deodorization inner core 922; the wall of the floor drainage hole is provided with a bearing convex position 271; one end of the outer core 921 is supported on the supporting convex position 271, and the other end extends into the drainage channel. The convex bearing position 271 can bear and position the outer deodorant core 921, so that the outer deodorant core can be conveniently installed, the structural stability is improved, and the sealing between the outer deodorant core and the floor drainage hole wall is favorably realized. Deodorant inner core 922 and deodorant outer core 921 detachable connections.

In order to improve the structural stability, in the embodiment, the deodorization outer core is preferably supported on the wall of the sewer channel; specifically, the sewer passage wall is provided with an inward sloping surface, and the deodorant outer core is supported on the sloping surface.

When the floor drain assembly 9 is additionally arranged, the installation method of the decoration structure needs to be adjusted: after the position and the levelness of the floor supporting bracket 1 are adjusted and the adjusting feet 13 and the lifting feet 14 are adjusted, the lower water connecting piece 91 is connected with the lower water pipe 95; then, the floor panel member 2 is set on the floor support bracket 1, and at this time, the floor underwater part 26 of the floor panel member 2 needs to be supported on the support platform 911 of the underwater connection member 91; the other installation steps of finishing the structure are not changed. The subsequent installation method of the floor drain assembly 9 comprises the following steps: the drain passage opening of the drain connector 91 is provided with a deodorization core 92, and the deodorization core 92 is supported on the wall of the floor drain hole. Workers only need to install the parts of the floor drain assembly 9 one by one from the lower part to the upper part, and the position of the floor drain assembly 9 does not need to be adjusted subsequently, so that the construction is simple and convenient; the sealing of the joint between the floor drain assembly 9 and the floor panel 2 can be realized, the leakage of water from the floor drain assembly 9 and the floor panel 2 is avoided, and the upward leakage of turbid smell below the panel 2 from the floor drain assembly 9 and the floor panel 2 is avoided.

The preferred scheme is as follows: waterproof sealing layers are arranged between the floor sewer part and the sewer connecting piece, between the deodorization core and the wall of the floor sewer hole and between the deodorization core and the sewer connecting piece. The waterproof sealing layer can further improve the sealing degree between the floor drain assembly and the floor panel piece, prevent water from flowing into the lower part of the floor panel piece from a gap between the floor drain assembly and the floor panel piece, and also avoid turbid smell below the panel piece from seeping upwards from the gap between the floor drain assembly and the floor panel piece.

In this embodiment, the floor drain assembly 9 further includes a filter screen 93 and a floor drain cover plate 94. Filter screen 93 is disposed in odor-resistant outer core 921. The floor drain cover plate 94 covers the odor-resistant core 92. The filter screen 93 can filter the sundries flowing into the sewer passage, so as to prevent the sundries from blocking the sewer pipe 95. The filter screen and the floor drain cover plate are the preferred scheme; it may not be set in practical application. The underfloor water hole 27 is preferably covered with a floor covering 28.

In this embodiment, the finishing structure may further include a drain pipe, etc.

Example two

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in the present embodiment, as shown in fig. 21 to 23, a reinforcing frame 29 is fixedly provided below the floor panel member 2; the reinforced framework is arranged on the floor support bracket 1, the reinforced framework 29 is provided with a framework connecting part 291, and the framework connecting part 291 is connected with the floor support bracket 1 by adopting connecting pieces such as screws and bolts. The rest of the structure of the present embodiment is the same as that of the first embodiment.

EXAMPLE III

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in this embodiment, the fitment structure is not equipped with the floor drain subassembly, and floor panel spare is also not equipped with the underfloor water portion. The rest of the structure of the present embodiment is the same as that of the first embodiment.

Example four

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in the embodiment, the decoration structure is applied to open occasions such as outdoors, and solid walls are not arranged around the decoration structure; the side surface of the floor supporting bracket is not provided with an adjusting foot, and the floor supporting bracket is arranged on the solid ground through a lifting foot and horizontally supported on the solid ground. In order to adjust the level of the floor support bracket, each lifting foot can be adjusted, so that the floor support bracket is horizontally arranged and supported on the solid ground through the lifting foot.

Well skeleton setting is on floor support bracket or floor panel spare, and the wallboard is hung to the inboard of well skeleton and angle skeleton to well skeleton and the outside of angle skeleton are hung and are established the side fascia, and the side fascia preferred downwardly extending covers floor support bracket to entity ground. The rest of the structure of the present embodiment is the same as that of the first embodiment.

EXAMPLE five

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in this embodiment, at least one outer side of the finishing structure is provided with a solid wall, and the other outer sides are not provided with solid walls. The floor support bracket is provided with adjusting feet at one side or more than two sides opposite to the solid wall body. The floor support bracket is supported with the solid wall body through the adjusting feet so as to realize the positioning of the floor support bracket in the horizontal direction; and the floor support bracket is arranged on the solid ground through the lifting foot. The middle framework is arranged on the floor support bracket or the floor panel component; the middle framework close to the solid wall body and the solid wall body are positioned through the wedge positioning component. The rest of the structure of the present embodiment is the same as that of the first embodiment.

EXAMPLE six

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in this embodiment, the installation manner of the wall panel is different from that of the first embodiment. A plurality of wall boards are connected end to end; one end of each wallboard is provided with a first inserting groove, and the other end of each wallboard is provided with a first inserting strip; the end-to-end connection of the wall boards means that: the first splicing strip of one wallboard is spliced in the first splicing groove of the other wallboard to splice the adjacent wallboards, so that the end-to-end connection of the wallboards is realized; the middle framework comprises a middle framework body and a hooking piece connected with the middle framework body; the middle framework body and the hooking piece form a second inserting groove together; one end of the wallboard, which is provided with the first inserting groove, or one end of the wallboard, which is provided with the first inserting strip, is provided with a second inserting strip; and the second inserting strip is inserted into the second inserting groove to fix the middle framework and the wallboard.

The wallboard is provided with a plurality of embodiments, and the embodiment lists seven modes:

the first method is as follows: as shown in fig. 24 and 25, a plurality of wall panels 5 are connected end to end; one end of each wall plate 5 is provided with a first inserting groove 51, and the other end is provided with a first inserting strip 52; wallboard 5 end to end means: the splicing strips I52 of the two adjacent wall plates 5 and the back wall plate 5 are spliced in the splicing grooves I51 of the front wall plate 5 to splice the adjacent wall plates 5, so that the end-to-end connection of the wall plates 5 is realized; the middle framework 3 comprises a middle framework body 34 and a hooking piece connected with the middle framework body 34; the hooking member includes a hooking connecting portion 35 connected to the middle frame body 34 and a hooking portion 36 connected to the hooking connecting portion 35. The middle framework body 34 and the hooking piece form a second inserting groove together; one end of the wall plate 5 provided with the first inserting strip 52 is provided with a second inserting strip 53; the second inserting strip 53 is inserted into the second inserting groove to fix the middle framework 3 and the wall plate 5.

The installation principle is as follows: firstly, fixing the middle framework 3, and in the mode, the rear side of the middle framework is padded with a wedge cushion block 81, so that the wedge cushion block 81 is adjusted while the middle framework 3 is fixed; then install the wall panel 5 at the head end: inserting a second inserting strip 53 of the wall plate 5 into the second inserting groove 51, wherein the second inserting groove faces the direction of the wall plate to be installed; then the rear side wall plates 5 are installed one by one in sequence: inserting the second inserting strip 53 of the wall plate 5 into the second inserting groove, and inserting the first inserting strip 52 of the wall plate 5 into the first inserting groove 51 of the previous wall plate 5. A clamping groove for accommodating the clamping piece is not required to be formed in the rear side of the wall plate 5, so that the thickness of the wall plate 5 is reduced, and the occupied space of the wall plate 5 is reduced; the wall plate 5 can be flexibly attached to the middle framework 3 or not attached to the middle framework 3, and the practical area of the space is increased. Wallboard 5 adopts the grafting mode to splice, can realize piecemeal installation, has removed the restriction that traditional buckle mode must two blocks of adjacent wallboard 5 install simultaneously, can improve the convenient degree of installation, reduces constructor quantity, reduces the human cost. Besides being fixed with the middle framework 3, the wall boards 5 are also mutually positioned and fixed between the adjacent wall boards, so that the stability of wall board fixation can be improved.

In this way, the cross section of the middle framework body 34 is I-shaped; in practice, the cross-section of the middle skeleton body 34 may have other shapes. The width of the second inserting groove is matched with the thickness of the second inserting strip 53, so that the wall plate 5 is attached to the middle framework body 34; the middle framework body 34 is attached to the wall board 5, so that the unavailable space at the rear side of the wall board 5 can be reduced, and the purpose of improving the space utilization rate can be achieved. The groove width of the first plug groove 51 is matched with the thickness of the first plug strip 52.

A first hooking gap 54 for accommodating the hooking part 36 is reserved between the first inserting strip 52 and the second inserting strip 53; the first plug strip 52 is located on one side of the second plug strip 53 away from the middle framework body 34.

Preferably, the side wall of the hooking gap I54 far away from the middle framework body 34 is flush with the edge of the inserting strip I52 near the middle framework body 34; the first plug strip 52 protrudes out of the second plug strip 53; the structure can be simplified, the production and the processing of the wall board 5 are convenient, and the thickness of the wall board 5 can be further reduced. In practical application, the side wall of the hooking gap I far away from the middle framework body and the edge of the inserting strip I close to the middle framework body can be not parallel and level; the first inserting strip can not protrude out of the second inserting strip.

The wedge cushion block 81 arranged on the rear side of the middle framework is preferably a wedge-shaped wedge cushion block 81, the distance between the middle framework and the solid wall or other fixed bodies can be adjusted, and the fixation of the middle framework is enhanced.

The second method comprises the following steps: the present embodiment differs from the first embodiment in that: in this embodiment, as shown in fig. 26, the cross section of the middle frame body 34 is "T" shaped. The rest of the structure of this embodiment is the same as that of the first embodiment.

The third method comprises the following steps: the present embodiment differs from the first embodiment in that: in this embodiment, as shown in fig. 27, the wedge block 81 is not installed on the rear side of the middle frame body 34, and is directly fixed to a solid wall or other fixing body by a fastener. The cross section of the middle framework body is in a shape of Chinese character 'yi'. The width of the second inserting groove is larger than the thickness of the second inserting strip 53. The rest of the structure of this embodiment is the same as that of the first embodiment.

The method is as follows: the present embodiment differs from the first embodiment in that: in this embodiment, as shown in fig. 28, the cross section of the middle skeleton body is in a shape of a straight line; the rear side of the middle framework body 34 is not provided with a wedge cushion block 81, and is directly fixed with a solid wall or other fixing bodies through fasteners. The rest of the structure of this embodiment is the same as that of the first embodiment.

The fifth mode is as follows: the present embodiment differs from the first embodiment in that: in this mode, the second inserting strip is arranged at one end of the wallboard, where the first inserting groove is formed, instead of the end of the wallboard, where the first inserting strip is arranged. Specifically, one end of the wallboard is provided with an inserting groove and is provided with a second inserting strip, and the other end of the wallboard is provided with a first inserting strip; a hooking gap II for accommodating the hooking part is reserved between the first inserting groove and the second inserting strip; the first inserting groove is located on one side, far away from the middle framework body, of the second inserting strip. The rest of the structure of this embodiment is the same as that of the first embodiment.

The method six: the present embodiment is different from the fifth embodiment in that: in this embodiment, as shown in fig. 29 and 30; the second inserting strip 53 is arranged at one end of the wall plate 5 provided with the first inserting groove 51, and means that: one end of the wall plate 5 is provided with a wall plate groove 55, and a second inserting strip 53 is formed in the area, located between the wall plate groove 55 and the middle framework body 34, of the wall plate 5; the hooking part 36 is attached to the wall plate groove 55 and is arranged close to the side wall of the middle framework body 34; the first inserting groove 51 is a first inserting groove 51 formed in the residual area of the wallboard groove 55 after the hooking part 36 is accommodated; the other end of the wall plate 5 is provided with a first inserting strip 52. This mode also can realize that the wallboard is fixed, compares with mode five, is favorable to simplifying the structure, and the production and processing of wallboard 5 of being convenient for further reduces wallboard 5 thickness. The remaining structure of this embodiment is the same as that of embodiment five.

The method is as follows: the present embodiment differs from the first embodiment in that: in this way, as shown in fig. 31, the end-to-end connection of the wall panels means: the first inserting strip of the previous wallboard is inserted into the first inserting groove of the next wallboard to splice adjacent wallboards, so that the end-to-end connection of the wallboards is realized. The installation principle of this mode is: firstly, fixing the middle skeleton; then install the wallboard at the head end: inserting a second inserting strip of the wallboard into the second inserting groove, wherein the first inserting strip faces to the direction of the first wallboard to be installed; then installing the rear side wall plate one by one in sequence: and inserting the second inserting strip of the wall plate into the second inserting groove, and clamping the first inserting groove of the wall plate on the first inserting strip of the previous wall plate. This approach also enables end-to-end wall panels.

EXAMPLE seven

The difference between the frame-type decoration structure of the present embodiment and the first embodiment is: in this embodiment, the ceiling frameworks are connected by a ceiling framework connecting piece 72, and the ceiling framework connecting piece 72 comprises two positioning blocks which are connected with each other; two locating pieces are respectively provided with a clamping structure for clamping adjacent frameworks. As shown in fig. 32-35; adjacent ceiling frameworks 71 are attached to each other. The ceiling framework 71 comprises a ceiling framework body 711 and a ceiling framework installation part; the ceiling skeleton mounting portion is a ceiling skeleton edge strip 712 connected to one side of the ceiling skeleton body 711. Ceiling framework attachment 72 includes female and male corner attachments. The internal corner connecting piece or the external corner connecting piece can be adopted according to the angle formed by the strake of the adjacent ceiling frameworks.

As shown in fig. 32 and 33, the ceiling skeleton connecting member includes two positioning blocks 721 connected to each other; the two positioning blocks 721 are respectively provided with a clamping structure; the two positioning blocks 721 are respectively used for corresponding to the positions of adjacent ceiling frameworks which mutually form internal corners; the two positioning blocks 721 are respectively provided with a clamping structure on the side surface close to the ceiling framework. The two clamping structures respectively clamp the adjacent ceiling frameworks to realize fixation between the ceiling framework connecting piece and the ceiling frameworks, so that the fixation of the adjacent ceiling frameworks is realized; the adjacent ceiling frameworks can be firmly connected, the installation and the operation are simple and convenient, and the labor intensity of constructors is reduced; the clamping structure is only required to be removed to clamp the ceiling framework, the dismounting operation is very simple and convenient, and the ceiling framework can be quickly mounted and dismounted.

The ceiling framework connecting piece 72 is a plastic ceiling framework connecting piece or a metal ceiling framework connecting piece. The plastic ceiling framework connecting piece and the metal ceiling framework connecting piece have good strength and toughness, are favorable for firmly clamping the ceiling framework, improve the positioning and fixing stability and prolong the service life.

The clamping structure comprises a clamping block 722 and a buckling part 723 which are respectively connected with the positioning block 721; the locking block 722 and the positioning block 721 form a positioning slot with an opening facing the fastening portion 723. One of the upper end and the lower end of the ceiling framework is clamped in the positioning groove, and the other end of the ceiling framework is abutted to the buckling part, so that the clamping structure clamps the upper end and the lower end of the ceiling framework. The advantage that sets up clamping structure like this is that clamping structure can effectively fix a position and fix the smallpox skeleton, avoids clamping structure and smallpox skeleton's junction to appear warping or even damage smallpox skeleton, and is fixed firm, reliable.

Preferably, the positioning block 721 is provided with a spring gap 725, a spring portion is formed in a region of the positioning block 721 located outside the spring gap 725, and the fastening portion 723 is provided on the spring portion. The elastic deformation capability of the positioning block 721 can be improved through the elastic deformation part; when the buckling part 723 is buckled into the ceiling framework or the buckling part 723 is separated from the ceiling framework, the required force can be saved, and the convenience degree of operation is further improved.

The side of the fastening portion 723 away from the positioning block 721 is connected with an operating portion 724. Constructor's accessible makes buckling part 723 and ceiling skeleton separation by outwards pulling operation portion 724, further improves the convenient degree of dismouting.

The ceiling framework connecting piece is used as an external corner connecting piece, and the two positioning blocks 721 are respectively used for corresponding to the positions of the adjacent ceiling frameworks which mutually form the external corner; the two positioning blocks 721 are respectively provided with a clamping structure on the side near the ceiling framework, as shown in fig. 34.

In this embodiment, ceiling framework connector 72 includes both internal corner connectors and external corner connectors. In practical application, the ceiling framework connecting piece can only comprise an internal corner connecting piece or an external corner connecting piece.

The upper end of the ceiling framework strake 712 is clamped in the positioning groove, and the lower end of the ceiling framework strake 712 abuts against the buckling part 723, so that the clamping structure clamps the upper end and the lower end of the ceiling framework strake 712.

The ceiling framework connecting piece 72 is respectively fixed with the adjacent ceiling frameworks 71 by adopting a clamping structure so as to realize the fixation of the adjacent ceiling frameworks 71; the adjacent ceiling frameworks 71 can be firmly connected, the installation and the operation are simple and convenient, and the labor intensity of constructors is reduced; the ceiling framework 71 can be detached only by releasing the clamping structure to clamp the ceiling framework 71, the detaching operation is very simple and convenient, and the ceiling framework 71 can be rapidly installed and detached.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (8)

1. A frame-type fitment structure which characterized in that: comprises a ground structure and a wall structure; the floor structure comprises a floor support bracket, lifting feet and a floor panel member; the floor support bracket is arranged on the solid ground through the lifting feet; the floor panel component is supported on the floor support bracket; the wall surface structure comprises a plurality of middle frameworks, corner frameworks, an upper framework and wallboards; the angle skeleton is arranged on the bending position of the floor panel piece; each middle framework is arranged between the adjacent corner frameworks; each middle framework is respectively arranged on the floor support bracket or the floor panel component; the top of each middle framework and the top of each corner framework are respectively connected with the upper side framework; the wall board is fixed with the middle framework or the corner framework, or the wall board is fixed with the middle framework and the corner framework at the same time.

2. A frame-type finishing structure according to claim 1, wherein: the floor panel component is supported on the floor support bracket, and the supporting method comprises the following steps: one of the following two schemes is adopted:

a1, the lower end face of the floor panel piece is attached to the floor support bracket, and the lower end face of the floor panel piece is provided with a positioning groove to realize the positioning with the floor support bracket;

a2, a reinforcing framework is arranged under the floor panel component, and the reinforcing framework is arranged on the floor support bracket.

3. A frame-type finishing structure according to claim 1, wherein: the floor support bracket is arranged by adopting one of the following two schemes:

b1, the floor support bracket is arranged on the solid ground through the lifting foot;

b2, at least one side of the floor support bracket is provided with an adjusting foot; the floor support bracket is supported with a solid wall body positioned at the outer side of the floor support bracket through the adjusting feet so as to realize the positioning of the floor support bracket in the horizontal direction; and the floor support bracket is arranged on the solid ground through the lifting foot.

4. A frame-type finishing structure according to claim 3, wherein: the floor support bracket comprises a plurality of frame beams and support beams; the adjacent frame beams are connected through the frame connecting piece to form a lower frame; each supporting beam is connected in the lower edge frame side by side or in parallel through a supporting connecting piece, and a working gap is reserved between every two adjacent supporting beams; each supporting beam is arranged on the solid ground through a lifting foot; the ground plate piece is supported on the bearing beam;

in the scheme B2, at least one side of the floor supporting bracket is provided with an adjusting foot, which means that: and the outer side of at least one frame beam is provided with an adjusting foot which is supported between the frame beam and the solid wall body.

5. A frame-type finishing structure according to claim 3, wherein: each middle framework is respectively arranged by adopting one of the following two schemes:

c1, the middle skeleton is arranged on the floor support bracket or the floor panel component;

c2, the middle skeleton is arranged on the floor support bracket or the floor panel component; and the middle framework and the solid wall body are positioned through an inclined wedge positioning component.

6. A frame-type finishing structure according to any one of claims 1 to 5, wherein: wallboard and middle skeleton are fixed, refer to: one of the following two schemes is adopted:

d1, fixing each wall board with the middle skeleton;

d2, connecting the wallboard end to end; one end of each wallboard is provided with a first inserting groove, and the other end of each wallboard is provided with a first inserting strip; the end-to-end connection of the wall boards means that: the first splicing strip of one wallboard is spliced in the first splicing groove of the other wallboard to splice the adjacent wallboards, so that the end-to-end connection of the wallboards is realized; the middle framework comprises a middle framework body and a hooking piece connected with the middle framework body; the middle framework body and the hooking piece form a second inserting groove together; one end of the wallboard, which is provided with the first inserting groove, or one end of the wallboard, which is provided with the first inserting strip, is provided with a second inserting strip; and the second inserting strip is inserted into the second inserting groove to fix the middle framework and the wallboard.

7. A frame-type finishing structure according to any one of claims 1 to 5, wherein: also comprises a ceiling and a ceiling framework; the ceiling framework is arranged at the top end of the wallboard or on the upper side framework; the ceiling is connected with the ceiling framework.

8. A frame-type finishing structure according to any one of claims 1 to 5, wherein: the floor drain assembly is also included; the floor panel part is provided with a water under floor part; the water outlet part of the floor forms a water outlet hole of the floor; the floor drain assembly comprises a deodorization core and a drainage connecting piece provided with a drainage channel; the lower water connecting piece is connected with the floor supporting bracket; the floor drain part is supported and positioned on the drain connecting piece, and a floor drain hole is communicated with the drain channel; one end of the deodorization core is supported on the wall of the floor drain hole and/or the drain connecting piece, and the other end of the deodorization core extends into the drain channel.

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