CN116427659B - Spliced ground system suitable for assembled interior decoration and variable space building - Google Patents

Abstract

The application relates to a spliced ground system suitable for assembly type interior decoration and a variable space building, belonging to the technical field of interior decoration; comprising the following steps: the support pieces are regularly arranged on the leveling layer and support the concrete precast slabs; the support piece is provided with a support disc and a fixing pin, the support disc is abutted against the concrete precast slab, and the fixing pin is used for positioning the concrete precast slab; the height of the supporting piece can be adjusted so as to adjust the interval between the precast concrete slab and the leveling layer; the concrete precast slabs comprise a first concrete precast slab and a second concrete precast slab, wherein the first concrete precast slab is provided with an inserting groove for inserting a vertical keel and fixing a wall splicing module; the second concrete precast slab is arranged to be of a rectangular slab body structure. The application has the advantages of convenience for changing the indoor space again, easiness for recovering the ground, convenience for installation and certain bearing capacity.

Description

Spliced ground system suitable for assembled interior decoration and variable space building

Technical Field

The application belongs to the technical field of interior decoration, and particularly relates to a spliced ground system suitable for assembled interior decoration and a variable space building.

Background

In living, people often have the demand of room inner space use change, and common partition mode adopts assembled partition wall, and assembled partition wall not only can satisfy the demand of room inner space change, and assembled partition wall can install fast moreover, effectively reduces the production of building rubbish.

When the room space has the requirement of changing again, the existing assembled partition wall needs to be dismantled, however, after the existing assembled partition wall is dismantled, trace can be left on the ground, and the ground is not easy to recover.

At present, the floor of the household building is generally laid with a leveling layer on a structural floor slab, and then is directly paved with floor tiles or with a wood floor; however, there is often a need for a change in the space inside a living room in a household, and when the space inside the living room is changed, the original structures of the floor tiles and the wood floor are destroyed and cannot be reused, and when the space inside the living room is changed again, marks are left on the ground, so that the ground is not easy to recover.

The assembled partition wall is installed on the ground of the existing home building, the installation is unstable, the bearing is avoided, and the space structure is inconvenient to replace again. Therefore, the spliced ground system which is convenient for the indoor space to change again, is easy to restore the ground, is convenient to install and has a certain bearing capacity and is suitable for the assembly type interior decoration and the variable space building are technical problems which need to be solved by the person skilled in the art.

Disclosure of Invention

The application aims at overcoming the defects of the prior art and provides a spliced ground system suitable for assembly type interior decoration and a variable space building.

The application adopts the following technical scheme to realize the aim:

a splice flooring system adapted for use in an assembled interior fitment, comprising: the support pieces are regularly arranged on the leveling layer and support the concrete precast slabs; the support piece is provided with a support disc and a fixing pin, the support disc is abutted against the concrete precast slab, and the fixing pin is used for positioning the concrete precast slab; the height of the supporting piece can be adjusted so as to adjust the interval between the precast concrete slab and the leveling layer; the concrete precast slabs comprise a first concrete precast slab and a second concrete precast slab, wherein the first concrete precast slab is provided with an inserting groove for inserting a vertical keel and fixing a wall splicing module; the second concrete precast slab is arranged to be of a rectangular slab body structure.

In a preferred embodiment of the present application, the concrete precast slab is inserted into the supporting member, and forms a splicing module, and the splicing modules are abutted against each other to form a ground.

In a preferred embodiment of the present application, a plurality of grooves are formed on the edge of the precast concrete slab, and the profile of the grooves is adapted to the profile of the fixing pin, so that the precast concrete slabs are spliced and connected.

In a preferred embodiment of the present application, the splice module includes a first splice module; the first splicing module comprises a second concrete precast slab and a supporting piece, wherein the second concrete precast slab is densely arranged on the supporting piece to form a ground non-partition area.

In a preferred embodiment of the present application, the splicing module further includes a second splicing module, a third splicing module and a fourth splicing module; the second splicing module comprises a second splicing module unit and a supporting piece, wherein the two ends of the second splicing module unit are provided with first notches, the second splicing module unit is spliced on the supporting piece, and the second splicing module unit is also provided with splicing grooves for fixing the vertical keels; the third splicing module comprises a third splicing module unit and a supporting piece, wherein the third splicing module unit is an end splicing module unit, the third splicing module unit is spliced on the supporting piece, a second notch is formed in one end face of the third splicing module unit, and the first notch and the second notch are mutually overlapped; the fourth splicing module comprises a fourth splicing module unit and a supporting piece, wherein the fourth splicing module unit is used for separating an indoor space into three chambers and is positioned at the middle part, the fourth splicing module unit is inserted into the supporting piece, one side of the fourth splicing module unit is provided with a third notch, and the third notch and the first notch are mutually spliced.

In a preferred embodiment of the present application, the second splicing module, the third splicing module and the fourth splicing module are spliced with each other to form a floor partition area.

In a preferred embodiment of the present application, a support seat is disposed at the bottom of the support member, and the support seat is abutted against the leveling layer.

A variable space building comprises the spliced ground system suitable for assembly type interior decoration.

The application relates to a preferable concrete implementation mode, which comprises a wall body splicing module, wherein a first vertical keel is integrally arranged in the wall body splicing module, and the first vertical keel protrudes out of the wall body splicing module; the first vertical keel is matched with the inserting groove, and the first vertical keel is inserted into the inserting groove.

In a preferred embodiment of the present application, two ends of the wall splicing module are provided with grooves so that adjacent wall splicing modules can be spliced with each other.

The application has the following beneficial effects:

1. the support pieces are regularly arranged on the leveling layer, the support pieces support the concrete precast slabs, the concrete precast slabs are spliced on the support pieces to form splicing modules, and the splicing modules are mutually spliced to form the ground so as to facilitate the secondary change of the indoor space;

2. the first concrete precast slab is provided with a splicing groove for splicing the vertical keel and fixing the wall splicing module, so that the installation is convenient;

3. the edge of the concrete precast slab is provided with a plurality of grooves, the outline of each groove is matched with the outline of the fixing pin, and a plurality of supporting pieces are supported below the concrete precast slab so as to improve the bearing capacity of the concrete precast slab;

4. when the room space changes again, only the wall body splicing module is required to be dismantled, the exposed ground bearing module is covered by the ground decorative plate, and the ground is easy to recover.

Drawings

In order to more clearly illustrate the embodiments of the present description or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present description, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic cross-sectional view of a splice flooring system of the present application adapted for use in an assembled interior trim;

FIG. 2 is a front perspective view of a second concrete prefabricated panel of a splice flooring system adapted for use in an assembled interior trim according to the present application;

FIG. 3 is an isometric view of a second concrete prefabricated panel of a splice flooring system adapted for use in an assembled interior trim according to the present application;

FIG. 4 is a front perspective view of a first concrete prefabricated panel of a splice flooring system adapted for use in an assembled interior trim according to the present application;

FIG. 5 is an isometric view of a first concrete prefabricated panel of a splice flooring system adapted for use in an assembled interior trim according to the present application;

FIG. 6 is a front perspective view of a junction node at a closed end of a first concrete prefabricated panel of a spliced floor system adapted for use in an assembled interior trim according to the present application;

FIG. 7 is an isometric view of a junction node at the finish of a first concrete precast slab of a spliced floor system adapted for use in an assembled interior trim of the present application;

FIG. 8 is a front perspective view of an end connection node of a first concrete prefabricated panel of a spliced floor system adapted for use in an assembled interior trim according to the present application;

FIG. 9 is an isometric view of an end connection node of a first concrete prefabricated panel of a spliced floor system adapted for use in an assembled interior trim according to the present application;

FIG. 10 is an isometric view of a support member of a splice flooring system adapted for use in an assembled interior trim according to the present application;

FIG. 11 is a schematic view of a support distribution area of a splice flooring system adapted for use in an assembly type interior trim according to the present application;

FIG. 12 is a schematic view of a spliced surface structure of a spliced floor system suitable for use in an assembled interior trim according to the present application;

FIG. 13 is a schematic view of the installed location of a partition wall of one embodiment of a variable space building of the present application;

FIG. 14 is a schematic illustration of the spatial layout of one embodiment of a variable spatial building of the present application;

FIG. 15 is a schematic view of the installed location of a partition wall of another embodiment of a variable space building of the present application;

FIG. 16 is a schematic illustration of the spatial layout of another embodiment of a variable spatial building of the present application;

FIG. 17 is a schematic view of a wall end module vertical keel and wall trim panel for a variable space building according to the present application;

FIG. 18 is a schematic view of a wall splice module for a variable space building according to the present application;

FIG. 19 is a schematic view of a wall surface closing module for a variable space building according to the present application;

FIG. 20 is a schematic view of a spliced door module for a variable space building according to the present application;

fig. 21 is a schematic structural view of a wall splicing module for a variable space building according to the present application.

Reference numerals illustrate:

1. a wall splicing module; 2. a first concrete precast slab; 3. a support; 3-1, a supporting disc; 3-2, fixing pins; 3-3, a supporting seat; 4. a second concrete precast slab; 5. floor decorative board; 6. a plug-in groove; 7. a first splice module; 8. a second splicing module; 9. a third splicing module; 10. a fourth splicing module; 11. a structural wall; 12. structural floor slab; 13. a splice door module; 14. a wall end module; 15. and a wall surface closing-in module.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. It should be noted that embodiments and features of embodiments in the present disclosure may be combined, separated, interchanged, and/or rearranged with one another without conflict. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the drawings, the size and relative sizes of elements may be exaggerated for clarity and/or descriptive purposes. While the exemplary embodiments may be variously implemented, the specific process sequences may be performed in a different order than that described. For example, two consecutively described processes may be performed substantially simultaneously or in reverse order from that described. Moreover, like reference numerals designate like parts.

When an element is referred to as being "on" or "over", "connected to" or "coupled to" another element, it can be directly on, connected or coupled to the other element or intervening elements may be present. However, when an element is referred to as being "directly on," "directly connected to," or "directly coupled to" another element, there are no intervening elements present. For this reason, the term "connected" may refer to physical connections, electrical connections, and the like, with or without intermediate components.

For descriptive purposes, the present disclosure may use spatially relative terms such as "top," "bottom," "below … …," "below … …," "under … …," "above … …," "upper," "above … …," "higher," and the like, relative to components to describe one component's relationship to another (other) component as illustrated in the figures.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. Furthermore, when the terms "comprises" and/or "comprising," and variations thereof, are used in the present specification, the presence of stated features, integers, steps, operations, elements, components, and/or groups thereof is described, but the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof is not precluded. It is also noted that, as used herein, the terms "substantially," "about," and other similar terms are used as approximation terms and not as degree terms, and as such, are used to explain the inherent deviations of measured, calculated, and/or provided values that would be recognized by one of ordinary skill in the art.

The application provides a spliced ground system suitable for assembly type interior decoration and a variable space building, and referring to fig. 1 to 21, the spliced ground system can meet the requirement of multiple changes of indoor space, is easy to recover the ground, is convenient to install and has the advantage of a certain bearing capacity.

Examples

The embodiment provides a concatenation ground system suitable for assembled interior decoration, includes: the supporting pieces 3 are regularly arranged on the leveling layer, and referring to fig. 10 and 11, the supporting pieces 3 support the concrete precast slabs, and a plurality of supporting pieces 3 are supported on the concrete precast slabs so as to meet the bearing requirement of the concrete precast slabs.

The support piece 3 is used for supporting the concrete precast slab, so that the arrangement of the concrete precast slab is convenient to change, the water heating pipeline and the electric wires are also convenient to arrange on the support piece 3, and the structure floor slab 12 is not required to be grooved, so that the water heating pipeline and the electric wires are convenient and quick.

The support 3 is provided with a support disc 3-1 and a fixing pin 3-2, the support disc 3-1 is arranged into a round or rectangular plate body structure, the support disc 3-1 is abutted against the concrete precast slab, and the support disc 3-1 supports the concrete precast slab.

The fixing pin 3-2 is used for positioning the concrete precast slab; specifically, a plurality of grooves are formed in the edges of the concrete precast slabs, the fixing pins 3-2 are abutted to the grooves, the outer outline of each fixing pin 3-2 is matched with the inner outline of each groove, two adjacent concrete precast slabs are spliced with each other, and the supporting pieces 3 are clamped, so that the concrete precast slabs and the supporting pieces 3 are relatively stable.

The concrete precast slabs are mutually abutted to form a ground pavement area, and the concrete precast slabs comprise a first concrete precast slab 2 and a second concrete precast slab 4; the first concrete precast slab 2 is provided with an inserting groove 6, and the inserting groove 6 is matched with the vertical keel and is used for inserting the vertical keel; the wall splicing module 1 is abutted on the first concrete precast slab 2 and is fixedly spliced through a vertical keel.

Preferably, a supporting seat 3-3 is arranged at the bottom of the supporting piece 3, and the supporting seat 3-3 is abutted with the leveling layer; the supporting seat 3-3 increases the strength of the supporting piece 3 and improves the bearing performance of the splicing module.

Preferably, the height of the supporting member 3 can be adjusted, on the one hand, the distance between the supporting disc 3-1 and the ground can be finely adjusted, so that the flatness of the mutual splicing of the splicing modules is facilitated; on the other hand, the distance between the splicing module unit and the leveling layer and the distance between the first concrete precast slab 2 can be adjusted, so that the gap between the splicing module and the leveling layer can be conveniently controlled.

The second precast concrete boards 4 are arranged to be rectangular board body structures, and the second precast concrete boards 4 are mutually abutted and closely arranged in the non-partition area.

The concrete precast slabs are inserted on the supporting pieces 3 and form splicing modules, the splicing modules are mutually abutted to form the ground, gaps are reserved between the concrete precast slabs and the structural floor slab 12, and water heating pipelines and wires are arranged in the gaps.

The edge of the concrete precast slab is provided with a plurality of grooves, and the outline of each groove is matched with the outline of the fixing pin 3-2 so as to splice and connect a plurality of concrete precast slabs.

Grooves between two adjacent precast concrete boards are oppositely arranged, and the diameter formed after the grooves of the two adjacent precast concrete boards are spliced is matched with the outer diameter of the fixing pin 3-2, so that a plurality of precast concrete boards are spliced and then fixed in a ground pavement area.

The splicing modules comprise a first splicing module 7, a second splicing module 8, a third splicing module 9 and a fourth splicing module 10; the first splicing module 7 comprises a second precast concrete slab 4 and a supporting piece 3, and the second precast concrete slab 4 is closely arranged on the supporting piece 3 to form a ground non-partition area.

The second splicing module 8, the third splicing module 9 and the fourth splicing module 10 are mutually spliced to form a ground partition wall area.

The edge equipartition of second concrete prefabricated plate 4 has a plurality of recesses, referring to fig. 2 and 3, support piece 3 grafting is fixed in the recess, second concrete prefabricated plate 4 grafting has a plurality of support piece 3 improves the bearing capacity of second concrete prefabricated plate 4, a plurality of second concrete prefabricated plate 4 butt each other to with structure wall 11 butt, make adjacent between the second concrete prefabricated plate 4 and keep relatively fixed between second concrete prefabricated plate 4 and the support piece 3, improve the connection stability of second concrete prefabricated plate 4.

The second splicing module 8 comprises a second splicing module unit and a supporting piece 3, wherein both ends of the second splicing module unit are provided with first notches, and referring to fig. 4 and 5, the first notches are staggered on both end surfaces of the second splicing module unit; the second splicing module unit is spliced on the supporting piece 3, and a splicing groove 6 is further formed in the second splicing module unit to fix the vertical keel.

The spliced groove 6 of second concatenation module unit set up in first notch department, the shape of second concatenation module unit with the shape looks adaptation of wall body concatenation module 1, the integrated first vertical joist that is provided with in the wall body concatenation module 1, first vertical joist set up in the both sides of wall body concatenation module 1, first vertical joist with set up in the spliced groove looks adaptation of second concatenation module unit.

The third splice module 9 comprises a third splice module unit and a support 3, see fig. 6, 7, 12 and 13; the third splicing module unit is an end splicing module unit, the third splicing module unit is inserted into the supporting piece 3, a second notch is formed in one end face of the third splicing module unit, and the first notch and the second notch are spliced with each other.

The shape of third concatenation module unit and the shape looks adaptation of wall body tip module 1, be provided with spliced groove 6 on the third concatenation module unit, set up in spliced groove on the third concatenation module unit set up respectively in second notch and terminal surface department, wall body tip module 14 is provided with the third vertical joist, the third vertical joist set up in the both sides of third concatenation module unit, with set up the spliced groove on the third concatenation module unit corresponding to with spliced groove looks adaptation on the third concatenation module unit, with fixed wall body tip module 14 improves the suitability of structure wall 11 and concatenation wall body.

The fourth splicing module 10 includes a fourth splicing module unit and a supporting member 3, referring to fig. 8, 9 and 12, the fourth splicing module unit is a splicing module unit that separates an indoor space into three chambers and is located at a middle position, the fourth splicing module unit is inserted into the supporting member 3, a third notch is provided at one side of the fourth splicing module unit, and the third notch and the first notch are spliced with each other.

Specifically, when the indoor space is partitioned into three chambers, the ground partition wall area is in T-shaped distribution, two chambers are uniformly distributed, the fourth splicing module unit is a splicing module unit arranged at the middle part in the transverse direction, and the fourth splicing module unit is fixedly spliced with the fourth splicing module units arranged at the two ends and the splicing module units arranged at the vertical end parts respectively.

Or when the indoor space is divided into three chambers, the longitudinal wall body splicing module 1 is arranged at the middle position of the ground area, the two chambers separated by the longitudinal wall body splicing module 1 are not uniformly distributed, and the position of the longitudinal wall body splicing module 1 can be customized according to the actual space requirement.

The fourth splicing module unit is inserted into the supporting piece 3, a third notch is formed in one side of the fourth splicing module unit, the positions of the third notch and the first notch are opposite, and the third notch and the first notch are mutually spliced, so that the fourth splicing module unit is spliced in a ground partition wall area.

The ground partition wall area is fixedly provided with a wall body splicing module 1, and referring to fig. 13-16, a first vertical keel is integrally arranged in the wall body splicing module 1 and protrudes out of the wall body splicing module 1; the cross section of the first vertical keel is matched with the inner contour of the inserting groove 6, and the first vertical keel is inserted into the inserting groove 6.

The ground partition wall area is also fixedly provided with a splicing door module 13, a second vertical keel is integrated in the splicing door module 13, the second vertical keel is matched with the inserting groove 6, and the second vertical keel is inserted in the inserting groove 6.

The wall surface closing-in module 15 is also fixedly arranged, and the wall surface closing-in module 15 is spliced on the fourth splicing module 10 or the second splicing module 8; the wall surface closing-in module 15 supplements the gap between the wall body splicing modules 1 or the splicing door modules 13, and improves the suitability of the wall body splicing modules 1.

When the indoor space is divided into three chambers, the wall splicing module 1 and the splicing door module 13 are spliced on the splicing module, and then the ground decorative plate 5 is paved in a non-partition area of the ground; the indoor space has the demand of changing once more, when needs separate two rooms with indoor space, only need demolish the wall body concatenation module 1 that forms the partition wall, splice ground decorative board 5 in former partition wall region again, the indoor space multiple variation of being convenient for resumes ground easily.

Examples

The present embodiment provides a variable space building, referring to fig. 13 to 21; comprising a splice flooring system as described in embodiment 1 adapted for use in an assembled interior trim; the wall splicing module 1 is integrally arranged in the wall splicing module 1, and a first vertical keel is arranged in the wall splicing module 1 in a protruding mode; the first vertical keel is matched with the inserting groove, and is inserted into the inserting groove, so that the installation and the fixation are facilitated.

The two ends of the wall body splicing modules 1 are provided with rabbets so that the adjacent wall body splicing modules 1 are mutually spliced, and the tightness and the installation convenience of the variable space building are improved.

The wall end module 14 is disposed at the end position of the partition wall, referring to fig. 17 and 18; one end of the wall end module 14 is provided with a tongue-and-groove, so that the wall end module 14 and the adjacent wall splicing module 1 are spliced with each other, and the tightness and the installation convenience of the variable space building are improved.

The top of the wall end module 14 is configured in a stepped configuration for facilitating sealing connection with a wall top sealing module.

The wall body end module 14 is internally integrated to be provided with many second vertical keels, the protrusion of second vertical keels wall body end module 14 sets up, the cross-sectional shape of second vertical keels with the interior profile looks adaptation of jack-in groove, the second vertical keels peg graft in the jack-in groove, be convenient for swiftly install.

The wall end modules 14 are filled with soundproof cotton to improve the soundproof performance of the partition wall.

The wall surface closing-in module 15 is arranged at the non-end part of the partition wall, and refer to fig. 19; the cross section shape of the wall surface closing-in module 15 is matched with the shape of the rabbet, so that the wall surface closing-in module 15 is spliced at the notch position of the partition wall.

The wall surface closing-in module 15 is provided with the third vertical keel, the intussuseption of third vertical keel is filled with soundproof cotton, third vertical keel fixedly connected with transverse keel, fixedly provided with wall surface decorative board on the transverse keel.

The integrated fourth vertical keel that is provided with in the concatenation door module 13, refer to fig. 20, the fourth vertical keel set up respectively in the both sides of concatenation door module 13, the fourth vertical keel protrusion concatenation door module 13 sets up, the fourth vertical keel peg graft be fixed in on the fourth concatenation module, convenient installation is fixed easily.

The arrangement of the splice door module 13 facilitates quick installation of the indoor door.

When the room space is changed into three rooms and the space structure is needed to be changed again, for example, when the room space is changed into two rooms, only the longitudinal wall splicing module 1 and the splicing door module 13 are required to be removed, and the floor decorating plate 5 is restored to the position where the wall splicing module 1 is installed; is beneficial to the multiple changes of the space structure in the building.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the application, and is not meant to limit the scope of the application, but to limit the application to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the application are intended to be included within the scope of the application.

Claims (7)

1. Spliced ground system suitable for assembled interior decoration, its characterized in that: the concrete precast slab comprises supporting pieces (3), wherein the supporting pieces (3) are regularly arranged on a leveling layer, and the supporting pieces (3) support the concrete precast slab;

the support piece (3) is provided with a support disc (3-1) and a fixing pin (3-2), the support disc (3-1) is abutted with the concrete precast slab, and the fixing pin (3-2) is used for positioning the concrete precast slab;

the height of the supporting piece (3) can be adjusted so as to adjust the distance between the precast concrete slab and the leveling layer;

the concrete precast slab comprises a first concrete precast slab (2) and a second concrete precast slab (4), wherein an inserting groove (6) is formed in the first concrete precast slab (2) and used for inserting a vertical keel and fixing a wall splicing module (1);

the second concrete precast slab (4) is arranged to be of a rectangular slab body structure;

the concrete precast slabs are spliced on the supporting piece (3) and form splicing modules, and the splicing modules are mutually abutted to form the ground;

the splice module comprises a first splice module (7); the first splicing module (7) comprises a second concrete precast slab (4) and a supporting piece (3), and the second concrete precast slab (4) is densely arranged on the supporting piece (3) to form a ground non-partition area;

the splicing module further comprises a second splicing module (8), a third splicing module (9) and a fourth splicing module (10);

the second splicing module (8) comprises a second splicing module unit and a supporting piece (3), wherein the two ends of the second splicing module unit are respectively provided with a first notch, the second splicing module unit is spliced on the supporting piece (3), and the second splicing module unit is also provided with a splicing groove (6) for fixing a vertical keel;

the third splicing module (9) comprises a third splicing module unit and a supporting piece (3), wherein the third splicing module unit is an end splicing module unit, the third splicing module unit is spliced on the supporting piece (3), a second notch is formed in one end face of the third splicing module unit, and the first notch and the second notch are mutually overlapped;

the fourth splicing module (10) comprises a fourth splicing module unit and a supporting piece (3), wherein the fourth splicing module unit is used for separating an indoor space into three chambers and is positioned at the middle part, the fourth splicing module unit is inserted into the supporting piece (3), one side of the fourth splicing module unit is provided with a third notch, and the third notch and the first notch are mutually spliced.

2. A spliced floor system suitable for use in fabricated interior trim according to claim 1, wherein: the edge of the concrete precast slab is provided with a plurality of grooves, and the outline of each groove is matched with the outline of the fixing pin (3-2) so as to splice and connect a plurality of concrete precast slabs.

3. A spliced floor system suitable for use in fabricated interior trim according to claim 1, wherein: the second splicing module (8) and the third splicing module (9) are mutually spliced with the fourth splicing module (10) to form a ground partition wall area.

4. A spliced floor system suitable for use in fabricated interior trim according to claim 1, wherein: the bottom of the supporting piece (3) is provided with a supporting seat (3-3), and the supporting seat (3-3) is abutted with the leveling layer.

5. A variable space building, characterized by: a spliced floor system comprising a system according to any one of claims 1 to 4 suitable for use in fabricated interior trim.

6. A variable space building according to claim 5, wherein: the wall splicing module (1) is integrated with a first vertical keel, and the first vertical keel protrudes out of the wall splicing module (1);

the first vertical keel is matched with the inserting groove (6), and the first vertical keel is inserted into the inserting groove (6).

7. A variable space building according to claim 6, wherein: and rabbets are arranged at two ends of the wall body splicing modules (1) so that adjacent wall body splicing modules (1) are spliced with each other.