CN213741600U - Building wall body floor structure is assembled to modularization - Google Patents

Abstract

The utility model discloses a building wall floor structure assembled in a modularized way and a preparation and assembly method thereof, wherein the wall body consists of a wall body bearing frame (1.1) and a wall surface (1.2), the wall body bearing frame (1.1) is provided with a column (1.1.1), a beam (1.1.2), a beam-column connector (1.1.3), "Contraband" type rubbing boards (1.1.4), ribs (1.1.5) and space filling boards; after the assembled wall brick units (1.2.2) or doors and windows (1.2.1) are stacked in the wall bearing frame (1.1), the wall brick units and the wall surface form a complete wall body finally; floor (2) are assembled by floor spandrel girder frame (2.1), bearing strip (2.2), a plurality of backing plate unit (2.3), waterproof dust layer (2.4) and floor layer (2.5) and are constituteed, the utility model discloses can realize not needing the DIY of professional team and instrument skill to build the room, the equal used repeatedly of relevant accessories, not only environmental protection but also value guarantee.

Description

Building wall body floor structure is assembled to modularization

Technical Field

The utility model relates to a building trade, concretely relates to wall body and floor structure in low-rise building are particularly suitable for the construction from the lodging house of building and tourism industry.

Background

The popular light steel villa at present is that the factory prefabricates raw materials such as light steel, wallboard and floor plate, etc., the professional team personnel design the house structural body according to the customization of the building demand of the customer, form the wall, door and window, floor, etc. structure, and then split these structures into each part, then processing light steel pipes according to the design in a factory, assembling the light steel pipes into specific parts by professional tools, finally transporting the parts to an operation site, assembling the parts into a house by professional equipment, although this method has been standardized for the raw materials of light steel floor panels and the like, it is still customized from the viewpoint of parts, therefore, the universality and the standardization are not realized on the level of parts, so that professional equipment and tools are required to realize the building of the house, if the building needs to be reconstructed or dismantled, corresponding parts can not be recycled and still generate scrapping of materials; the building construction also adopts reinforced concrete pouring process and structure, and also adopts assembled wall bricks and doors and windows, but the assembled wall bricks and doors and windows only play a role of pre-positioning during stacking, and the assembled wall bricks and windows still need to be reinforced and connected through reinforced concrete pouring after stacking, and still depend on professional personnel and equipment, so complete assembly is not achieved, and the building can not be modified once being built because the building construction is still a permanent structure. In summary, the current house construction mode does not completely achieve standardized modularization, still depends on professional design and construction, can not achieve public DIY design and construction, still is disposable fixed facilities, and its structure does not have variability, and its spare part does not have standardized modularization used repeatedly's characteristics yet.

SUMMERY OF THE UTILITY MODEL

In order to realize the most genuine DIY and build the used repeatedly of room and building materials spare part, the utility model provides a house wall body floor structure is assembled to the modularization and the method is assembled to preparation, the utility model provides a required spare part of complete standardized modular house equipment and simple easy assembly characteristic and the method of assembling of learning can let the building person at the individualized housing construction of DIY under the condition that does not possess building professional skill. The utility model discloses house wall body floor structure is assembled to modularization's technical scheme does: constitute by wall body and floor, the wall body constitute by wall body bearing frame and wall, wall body bearing frame have a plurality of posts and roof beam, the wall stacked up by wall brick unit or wall brick unit and door and window combination and assemble and form, the floor constitute by floor spandrel girder frame, bearing strip, a plurality of backing plate units, waterproof dust proof layer and floor layer, the floor have a plurality of roof beams, its characterized in that by floor spandrel girder frame: the wall bearing frame and the floor bearing beam frame are also provided with a plurality of beam-column connectors which connect and fix beams and columns with each other, the beam-column connectors are composed of an upper flange, a lower flange and a plurality of supporting and fixing bolts to form a cage-shaped frame body, the upper flange and the lower flange are respectively assembled and fixed with the columns at the top and the bottom, and the beams are inserted into side spaces formed by the upper flange and the lower flange and the supporting and fixing bolts and are lapped or mounted and fixed on the flanges in a penetrating way; the opposite side surfaces of the columns positioned at the front and the rear of the wall body bearing frame are respectively provided with an Contraband-shaped bracket and the inner side surface of the bracket is provided with a rib; ribs are also arranged on the bottom and the top surfaces of the beams which are positioned above and below the wall bearing frame and are opposite to each other; the wall brick units are composed of N block bodies and are stacked in the thickness direction to form a whole, N is more than or equal to three, the projection outline of the front surface of each block body on the wall surface plane is the same, the rear block body is staggered relative to the front block body in the length direction and the width direction, so that front end inosculating structures which are N in total number and alternate according to the sequence of concave parts and convex parts are formed at the front end part in the length direction, rear end inosculating structures which alternate according to the sequence of convex parts and concave parts are formed at the rear end part in the length direction, and the two inosculating structures are just inosculated when the two wall brick units are assembled front and back; similarly, an upper end and a lower end are matched in the width direction and are also matched in the vertical assembly; the two ribs in the brackets positioned in the front and the rear of the wall body bearing frame are combined into a structure which is respectively matched with the rear end and the front end of the wall brick unit and a front bracket matched part and a rear bracket matched part which are the same; the ribs arranged on the opposite side surfaces of the beams positioned above and below the wall body bearing frame are combined into an upper beam inosculating part and a lower beam inosculating part which are respectively identical with the lower end and the upper end of the wall brick unit; the front, rear, upper and lower frames of the door and window are also provided with matched outlines which are respectively matched with the rear, front, lower and upper ends of the brick wall unit, and skirtboards are arranged on the inner side and the outer side; the front, the back, the upper edge and the lower edge of the wall surface are respectively embedded into the matching parts of the bracket plate positioned in front of the wall body bearing frame, the bracket plate positioned in back, the beam side surface above and the beam side surface below in a matching way; the bearing strip is arranged on the side surface of the floor bearing beam frame, the plurality of backing plate units are spliced and laid in the space between the bearing strip and the floor bearing beam frame, and the waterproof dustproof layer is laid on the backing plate and a floor layer is laid on the waterproof dustproof layer.

As a limitation, the upper and lower flanges of the beam-column connector are provided with outer sleeves or inner sleeves or column mounting through holes, and the columns can be inserted into the outer sleeves or the inner sleeves or are mounted on the columns in a bolt fastening mode.

As a limitation, the upper flange and the lower flange of the beam-column connector are square and round, and the correspondingly assembled column is also square and round.

As a limitation, in order to facilitate the floor staggered layout, the upper and lower flanges of the beam-column connector are hollow rings, which are sleeved and fixed on the column by the feature.

As a limitation, in order to adjust the distance between the two brackets to adapt to the assembly of the wall surface, a space filling plate is arranged between the column and the brackets.

As a limitation, the projection outline of the front surface of the wall brick unit block body on the wall surface plane is any one of a rectangle and an L shape.

As a further limitation, the wall tile units can be, in addition to full size wall tile units, full width half maximum wall tile units, half width half maximum wall tile units.

As a further limitation, the wall brick unit is composed of three blocks, the front projection outline of the wall brick unit is rectangular, and the second block is staggered upwards and forwards to form an upwards and forwards convex part compared with the first block and the third block; in order to reduce weight and facilitate the arrangement of invisible pipelines, the invisible pipelines are hollowed in the thickness direction to form hollow structures, and through holes are also formed in the columns and the beams.

The utility model discloses house wall body floor structure's preparation is assembled to modularization and the technical scheme of assembly method is:

a) the method for preparing and assembling the wall and floor bearing frame comprises the following steps:

i. preparing columns, beams, brackets, space filling plates and ribs: prefabricating raw materials with uniform length in a factory, and then cutting and forming the raw materials according to the length specified by a user for later use; the finished product with the specified length can be directly manufactured for the user to select and use; the brackets, the space filling plates and the ribs can be pre-installed and solidified on corresponding beams and columns to be made into finished products for users to select;

ii, assembling a floor bearing frame: taking a plurality of beam-column connectors, firstly installing columns of a lower floor on a lower flange of the beam-column connectors, then installing beams on the top surfaces of the lower flanges of the beam-column connectors, and then connecting and fixing the upper flange and the lower flange with the beams by a plurality of supporting and fixing bolts, wherein a horizontal floor bearing frame is formed after the beams are installed on the beam-column connectors;

iii, assembling a wall bearing frame and a wall: installing the column of the floor on the upper flange of each beam-column connector, installing the brackets with the ribs on the column of the floor, and installing the ribs on the top surface and the bottom surface of the beam, wherein if the distance between the two brackets needs to be adjusted to adapt to wall assembly, a space filling plate can be additionally arranged between the brackets and the column; the assembled wall brick units or doors and windows are stacked from bottom to top until the space between the two opposite including plates is filled to form a wall surface, then the beam-column connectors and the beams are also installed at the top ends of the columns of the floor to form a wall body bearing frame, and the wall body bearing frame and the wall surface finally form a complete wall body.

b) The preparation and assembly method of the floor comprises the following steps:

i, preparing a bearing strip and a waterproof dustproof layer: prefabricating raw materials with uniform length, and then cutting and forming the raw materials for later use according to the size specified by a user; and the finished product with specified size can be directly manufactured for the user to select. Assembling the floor: the bearing strip is arranged in a floor bearing frame consisting of beams, then a backing plate unit is laid in a gap between the bearing strip and the frame, then a waterproof dustproof layer is laid on the splicing combination of the backing plate unit, and finally cement tiles or other spliced floors are laid.

As a limitation, a single-layer wall surface or a double-layer wall surface can be stacked in the wall bearing frame.

As a limitation, the annular flange beam-column connector is selected and sleeved and fixed at the middle part of the column, and the beam lap is arranged on the annular flange to form a staggered floor wall body bearing structure.

As a further limitation, a circular beam column connector and a circular column are selected, and the beam and the bracket are mounted to the beam column connector and the circular column, respectively, at an arbitrary angle centered on an axis of the circular beam column connector.

As a further limitation, rectangular or square wall brick units are selected to assemble the wall surface, when the wall surface is a single-layer wall surface, the full-size wall brick units in odd rows and the full-size wall brick units in adjacent even rows are staggered by the distance of half a wall brick in the length direction so as to form staggered joints in the row direction, and the front end parts and the rear end parts are filled by full-width wall brick units in half length; when the wall is a double-layer wall, the stacking mode of the first layer of wall is the same as that of the single-layer wall, the stacking mode of the second layer of wall is the same as that of the first layer of wall, but the second layer of wall and the first layer of wall stagger the distance of half wall bricks in the width direction to form a staggered joint in the row direction, and the upper end part and the lower end part are filled with the full-length half-width wall brick unit and the half-length half-width wall brick unit.

The utility model adopts the above technical scheme's beneficial effect is: the structural characteristics of the adopted beams, columns, connectors, brackets, ribs, wall brick units, doors and windows, filling plates, backing plates, bearing strips and waterproof and dustproof layers are all standardized and modularized designs, can be prefabricated into standard raw materials or accessories in a large scale, users can select and match flexibly in a personalized way to generate a standard accessory list, then purchasing and assembling by oneself, the wall brick units and the brackets, the beams and the doors and windows are all assembled in a standard and unified matching and embedding way, the self-fixing and self-fixing device has the characteristic of self-fixing, can be easily assembled without professional teams and tool skills, realizes the DIY house building purpose in the true sense, is simple and efficient, can greatly reduce the labor and equipment cost for building the house, meanwhile, when the house is dismantled or rebuilt for the second time, relevant spare and accessory parts can be reused, so that the environment is protected, the value is guaranteed, and the value loss caused by damage and scrapping during the dismantling and rebuilding is avoided. To sum up, the utility model has the characteristics of standardized modularization, be particularly suitable for the batch production scale prefabricated, have simple easy installation, repeated advantage of recycling, high-efficient low cost again simultaneously, be particularly suitable for from application occasions such as building, vacation house, hotel villa, commercial low-rise building.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the wall bearing frame and the floor city frame of the present invention;

FIG. 3 is an exploded view of the overall structure of the present invention;

FIG. 4 is a schematic view of the assembly of the beam, column, beam-column connector, bracket and space filling plate of the present invention;

fig. 5 is an assembly schematic view of the beam, column, circular inner sleeve type beam-column connector of the present invention;

fig. 6 is an assembly view of the beam, column, circular mounting hole type beam-column connector of the present invention;

FIG. 7 is a schematic view of the assembly of the beam, column, hollow ring beam-column connector of the present invention;

FIG. 8 is a schematic view of the structure of the wall brick unit of the present invention;

fig. 9, 10 and 11 are schematic assembly diagrams of the beam, the bracket, the rib and the wall brick unit of the invention;

FIG. 10 is a top down perspective view of the beam and beam ribs of FIG. 9 removed;

FIG. 11 is a front-to-back projection of FIG. 9 with the brackets and the ribs of the brackets removed;

FIG. 12 is a schematic view of the overall structure of the door/window of the present invention;

fig. 13 is a schematic view of the structure and the assembling method of the double-layer wall surface of the present invention;

in the figure, the position of the upper end of the main shaft,

1 wall body

1.1 wall body bearing frame

1.1.1 column

1.1.1.1 (post) through hole

1.1.2 Beam

1.1.2.1 (upper) beam anastomosis, 1.1.2.2 (lower) beam anastomosis, 1.1.2.3 (beam) through hole.

1.1.3 Beam-column connector, 1.1.3a Ring Beam-column connector

1.1.3.1 upper flange, 1.1.3.1a (upper flange) hollow ring, 1.1.3.2 lower flange,

1.1.3.2a (lower flange) hollow ring, 1.1.3.3 supporting fixing bolt, 1.1.3.4a outer sleeve, 1.1.3.4b inner sleeve, 1.1.3.4c column mounting through hole

1.1.4 rubbing board

1.1.4.1 (bracket) front end anastomotic structure and 1.1.4.2 (bracket) rear end anastomotic structure

1.1.5 Ribs

1.1.6 space filling panels;

1.2 of wall surface,

1.2.1 doors and windows,

1.2.1.1 (door and window) contour, 1.2.1.2 skirtboard,

1.2.2/1.2.2a/1.2.2b/1.2.2c/1.2.2d wall brick units;

1.2.2.1 front end anastomosis structure, 1.2.2.2 rear end anastomosis structure, 1.2.2.3 upper end anastomosis structure, 1.2.2.4 lower end anastomosis structure,

1.2.2.5 (wall brick unit) Block

1.2.2.5.1 (of the wall brick unit block),

1.2.2.6 hollow structure (of wall brick unit)

2 floor

2.1 floor bearing beam frame, 2.2 bearing strips, 2.3 backing plate units, 2.4 waterproof and dustproof layers and 2.5 floor layers

Detailed Description

As shown in fig. 1, 2 and 3, the utility model comprises a wall body 1 and a floor 2, the wall body is composed of a wall body bearing frame 1.1 and a wall surface 1.2, the wall body bearing frame 1.1 is provided with four columns 1.1.1 and four beams 1.1.2, the wall surface 1.2 is formed by combining, stacking and assembling wall brick units and doors and windows 1.2.1, the floor 2 is composed of a floor bearing beam frame 2.1, bearing strips 2.2, a plurality of backing plate units 2.3, a waterproof dustproof layer 2.4 and a floor layer 2.5, the floor bearing beam frame 2.1 is provided with four beams 1.1.2, as shown in fig. 2 and 5, the wall body bearing frame 1.1 and the floor bearing beam frame 2.1 are also provided with six beam column connectors 1.1.3, which connect and fix the beams 1.1.2 and the columns 1.1.1.1.1.1 to each other, and are composed of an upper flange 1.1.3.1, a lower flange 3556, a plurality of supporting bolts 1.1.3, a cage and a lower column connector 3, a lower column connector and a lower column connector are respectively formed on the top of the upper flange 356326 and a lower flange 3, the beam 1.1.2 is inserted into a side space formed by the upper flange 1.1.3.1, the lower flange 1.1.3.2 and the supporting and fixing bolt 1.1.3.3 and is arranged and fixed on the flanges in a lap joint or a passing way; as shown in fig. 3 and 4, an Contraband-shaped bracket 1.1.4 is respectively arranged on the opposite sides of the column 1.1.1 positioned at the front and the rear of the wall body load-bearing frame 1.1, and a rib 1.1.5 is arranged on the inner side; ribs 1.1.5 are also arranged on the bottom and the top surfaces of the beams 1.1.2 which are positioned above and below the wall body bearing frame 1.1 and are opposite to each other; as shown in fig. 8, the wall brick units 1.2.2 are composed of three rectangular blocks 1.2.2.1, which are stacked in the thickness direction to form a whole, the front 1.2.2.5.1 of each block has the same projection outline on the wall surface plane, the latter block is staggered with respect to the former block in the length direction and the width direction, so that three front end inosculating structures 1.2.2.1 are formed at the front end part in the length direction and alternate in the sequence of concave parts and convex parts, and rear end inosculating structures 1.2.2.2 are formed at the rear end part in the length direction and alternate in the sequence of convex parts and concave parts, and the two inosculating structures are just inosculated when the two wall brick units 1.2.2 are assembled front and back; similarly, upper and lower end inosculating structures 1.2.2.3 and 1.2.2.4 are also formed in the width direction and are also inosculated when being assembled up and down; as shown in fig. 9 and 10, the two ribs 1.1.5 in the brackets at the front and rear of the wall bearing frame 1.1 are combined into front and rear bracket matching parts 1.1.4.1, 1.1.4.2 which are respectively identical with the rear and front matching structures 1.2.2.2, 1.2.2.1 of the wall brick unit 1.2.2; as shown in fig. 9 and 11, the ribs 1.1.5 arranged on the opposite side surfaces of the beams 1.1.2 positioned above and below the wall body bearing frame 1.1 are combined into upper and lower beam inosculating parts 1.1.2.2, 1.1.2.1 which are respectively identical with the lower and upper end inosculating structures 1.2.2.4, 1.2.2.3 of the wall brick units; as shown in fig. 1 and 12, the front, rear, upper and lower frames of the door and window are also provided with matching outlines 1.2.1.1 respectively matched with the rear, front, lower and upper ends of the brick wall unit, and skirts 1.2.1.2 are arranged on the inner and outer sides; as shown in fig. 9, the front, the back, the upper edge and the lower edge of the wall surface are respectively embedded into the matching parts of the bracket plate positioned in front of the wall body load-bearing frame 1.1, the bracket plate positioned in the back, the beam side surface above and the beam side surface below; as shown in fig. 1, 2 and 3, the bearing strip 2.2 is installed on the side surface of the floor bearing beam frame 2.1, the plurality of backing plate units 2.3 are spliced and laid in the space between the bearing strip 2.2 and the floor bearing beam frame 2.1, and the waterproof and dustproof layer 2.4 is laid on the backing plate and the floor layer 2.5 is laid on the backing plate.

As shown in fig. 3, 5 and 6, the upper and lower flanges 1.1.3.1, 1.1.3.2 of the beam-column connector 1.1.3 can be mounted by an outer sleeve 1.1.3.4a or an inner sleeve 1.1.3.4b or a column mounting through hole 1.1.3.4 c; the column 1.1.1 can be inserted into the outer sleeve or inserted into the inner sleeve or fastened and mounted on the inner sleeve by bolts.

The upper and lower flanges of the beam-column connector 1.1.3 as shown in fig. 3 and 4 may be square or circular, and the column 1.1.1 to be assembled correspondingly is also square or circular.

As shown in fig. 7, the beam-column connector is a ring flange beam-column connector 1.1.3a, and the upper and lower flanges are hollow rings 1.1.3.1a, 1.1.3.2a, which are sleeved and fixed on the column 1.1.1 by the feature.

As shown in fig. 3 and 4, in order to adjust the distance between the two brackets 1.1.4 to adapt to the wall assembly, a space filling plate 1.1.6 is arranged between the column 1.1.1 and the brackets 1.1.4.

As shown in fig. 8, the projected outline of the front face 1.2.2.5.1 of the block of the wall brick unit on the wall surface plane is rectangular, and the wall brick unit comprises a full-width half-length wall brick unit 1.2.2b, a full-width half-length wall brick unit 1.2.2c and a half-width half-length wall brick unit 1.2.2d besides the full-size wall brick unit 1.2.2 a; the second block body of the wall brick unit 1.2.2 is staggered upwards and forwards to form an upwards and forwards convex part compared with the first and the third block bodies; hollowed out in the thickness direction to form a hollow structure 1.2.2.6; through holes 1.1.1.1, 1.1.2.3 are provided on the column 1.1.1 and the beam 1.1.2.

The utility model discloses an assembly method does:

a) the preparation and assembly method of the wall and floor bearing frame comprises the following steps:

i. preparing columns, beams, brackets, space filling plates and ribs: prefabricating raw materials with uniform length in a factory, and then cutting and forming the raw materials according to the length specified by a user for later use; the finished product with the specified length can be directly manufactured for the user to select and use; the bracket plate 1.1.4, the space filling plate 1.1.6 and the ribs 1.1.5 can be pre-installed and solidified on the corresponding beam 1.1.2 and the corresponding column 1.1.1 to be made into a finished product for the user to select;

floor load-bearing frame assembly: as shown in fig. 2, 3 and 5, six beam-column connectors 1.1.3 are taken, firstly, the column 1.1.1 of the lower floor is installed on the lower flange 1.1.3.2, then the beam 1.1.2 is installed on the top surface of the lower flange 1.1.3.2 of the beam-column connector 1.1.3, then the upper flange 1.1.3.1 and the lower flange 1.1.3.2 are connected and fixed with the beam 1.1.2 by the supporting and fixing bolt 1.1.3.3, and a horizontal floor bearing frame 2.1 is formed after the beams 1.1.2 are installed on the beam-column connector 1.1.3;

iii, assembling the wall bearing frame and the wall: as shown in fig. 1, 2 and 3, a column 1.1.1 of the floor is installed on an upper flange 1.1.3.2 of each beam column connector 1.1.3, then a bracket 1.1.4 with a rib 1.1.5 installed thereon is installed on the column 1.1.1 of the floor, and the rib 1.1.5 is installed on the top surface and the bottom surface of the beam 1.1.2, if the distance between the two brackets 1.1.4 needs to be adjusted to adapt to wall assembly, a space filling plate 1.1.6 can be additionally installed between the bracket 1.1.4 and the column 1.1.1; piling up the assembled wall brick units 1.2.2 or doors and windows 1.2.1 from bottom to top until the space between two opposite brackets 1.1.4 is filled to form a wall surface, then installing beam-column connectors 1.1.3 and beams 1.1.2 on the top of the columns 1.1.1 of the floor to form a wall body bearing frame 1.1, and finally forming a complete wall body with the wall surface; as shown in fig. 3 and 9, the odd-numbered rows of full-size wall brick units 1.2.2a of the first wall surface are staggered from the adjacent even-numbered rows of full-size wall brick units 1.2.2a by half the distance of the wall bricks in the length direction so as to form staggered joints in the column direction, and the front end parts and the rear end parts are filled with full-width half-maximum wall brick units 1.2.2 b; the stacking mode of the second layer of wall surface is the same as that of the first layer of wall surface, but the distance between the second layer of wall surface and the first layer of wall surface is staggered in the width direction, so that a staggered joint is formed in the row direction, and the upper end part and the lower end part are filled with the full-length half-width wall brick unit 1.2.2c and the half-length half-width wall brick unit 1.2.2 d.

b) The preparation and assembly method of the floor comprises the following steps:

i. preparing a bearing strip and a waterproof dustproof layer: prefabricating raw materials with uniform length, and then cutting and forming the raw materials for later use according to the size specified by a user; and the finished product with specified size can be directly manufactured for the user to select.

Assembling the floor: as shown in fig. 1, 2 and 3, a bearing strip 2.2 is arranged in a floor bearing frame 2.1 consisting of beams 1.1.2, a backing plate unit 2.3 is laid in a gap between the bearing strip 2.2 and the frame, a waterproof and dustproof layer 2.4 is laid on the backing plate unit 2.3 for assembly, and finally cement tiles or other assembled floors 2.5 are laid; as shown in fig. 9 and 13, a double-layer wall surface is stacked in the wall bearing frame 1.1.

As shown in fig. 7, when a staggered floor wall bearing structure needs to be formed, the annular flange beam-column connector 1.1.3a is selected and fixed at the middle part of a column in a sleeved mode, and the beam 1.1.2 is arranged on the annular flange in a lap joint mode; as shown in fig. 4, or a sleeve type or mounting hole type beam-column connector 1.1.3 and a splicing structure of two columns 1.1.1 are selected.

The foregoing detailed description is given by way of example only, and is provided to better enable one skilled in the art to understand the patent, and is not intended to limit the scope of the patent; any modification or modification that is substantially the same or equivalent to the technical content of the technical means disclosed in the present patent is included in the scope of the present patent.

Claims (8)

1. A building wall body floor structure assembled in a modularized mode is composed of a wall body (1) and a floor (2), the wall body is composed of a wall body bearing frame (1.1) and a wall surface (1.2), the wall body bearing frame (1.1) is provided with a plurality of columns (1.1.1) and beams (1.1.2), the wall surface (1.2) is formed by combining, stacking and assembling wall brick units (1.2.2) or wall brick units and doors and windows (1.2.1), the floor (2) is composed of a floor surface bearing beam frame (2.1), bearing strips (2.2), a plurality of backing plate units (2.3), a waterproof dust-proof layer (2.4) and a floor layer (2.5), and the floor surface bearing beam frame (2.1) is provided with a plurality of beams (1.1.2); the method is characterized in that: the wall bearing frame (1.1) and the floor bearing beam frame (2.1) are also provided with a plurality of beam-column connectors (1.1.3), the beams (1.1.2) and the columns (1.1.1) are connected and fixed with each other, the beam-column connectors are composed of an upper flange (1.1.3.1), a lower flange (1.1.3.2) and a plurality of supporting fixing bolts (1.1.3.3) to form a cage-shaped frame body, the upper flange (1.1.3.1) and the lower flange (1.1.3.2) are respectively assembled and fixed with the columns (1.1.1) at the top and the bottom, and the beams (1.1.2) are inserted into a side space formed by the upper flange (1.1.3.1), the lower flange (1.1.3.2) and the supporting fixing bolts (1.1.3.3) and are arranged and fixed on the flanges in an overlapping or penetrating way; the opposite side surfaces of the columns (1.1.1) positioned at the front and the rear of the wall body bearing frame (1.1) are respectively provided with an Contraband-shaped bracket plate (1.1.4) and a rib (1.1.5) at the inner side surface; ribs (1.1.5) are also arranged on the bottom and the top surfaces of the beams (1.1.2) which are positioned on the upper part and the lower part of the wall body bearing frame (1.1) and are opposite to each other; the wall brick units (1.2.2) are composed of N blocks (1.2.2.5) and are stacked in the thickness direction to form a whole, N is more than or equal to three, the projection outline of the front surface (1.2.2.5.1) of each block on the wall surface plane is the same, the rear block is staggered relative to the front block in the length direction and the width direction, so that front end inosculating structures (1.2.2.1) which are N in total number and alternate according to the sequence of concave parts and convex parts are formed at the front end part in the length direction, rear end inosculating structures (1.2.2.2) which alternate according to the sequence of convex parts and concave parts are formed at the rear end part in the length direction, and the two inosculating structures are just inosculated when the two wall brick units (1.2.2) are assembled front and back; similarly, upper and lower end inosculating structures (1.2.2.3, 1.2.2.4) are also formed in the width direction and are just inosculated when being assembled up and down; the two ribs (1.1.5) in the brackets (1.1.4) positioned at the front and the rear of the wall body bearing frame (1.1) are combined into front and rear bracket inosculating parts (1.1.4.1, 1.1.4.2) which are respectively identical with the rear and front end inosculating structures (1.2.2.2, 1.2.2) of the wall brick unit (1.2.2); the ribs (1.1.5) arranged on the opposite side surfaces of the beams (1.1.2) positioned at the upper part and the lower part of the wall body bearing frame (1.1) are combined into upper beam inosculating parts (1.1.2.1, 1.1.2.2) which are respectively identical with the lower end inosculating structures (1.2.2.4, 1.2.2.3) and the upper end inosculating structures (1.1.2.1, 1.1.2.2) of the wall brick units; the front, rear, upper and lower frames of the door and window are also provided with inosculating profiles (1.2.1.1) respectively inosculated with the rear, front, lower and upper ends of the brick wall unit, and skirtboards (1.2.1.2) are arranged at the inner side and the outer side; the front, the back, the upper edge and the lower edge of the wall surface (1.2) are respectively embedded into the matching parts of the bracket plate positioned in front of the wall body bearing frame (1.1), the bracket plate positioned in the back, the beam side surface above and the beam side surface below; the bearing strip (2.2) install in the side of floor spandrel girder frame (2.10), a plurality of backing plate units (2.3) splice and lay in the space of bearing strip (2.2) and floor spandrel girder frame (2.1), waterproof dust layer (2.4) lay on the backing plate and lay floor layer (2.5) on it.

2. The modular construction house wall floor structure of claim 1, wherein: the upper flange (1.1.3.1) and the lower flange (1.1.3.2) of the beam-column connector (1.1.3) are provided with an outer sleeve (1.1.3.4a) or an inner sleeve (1.1.3.4b) or a column mounting through hole (1.1.3.4c), and the column (1.1.1) can be inserted into an outer sleeve or inserted into an inner sleeve or fastened and mounted on the column by a bolt.

3. The modular construction house wall floor structure of claim 1, wherein: the upper flange (1.1.3.1) and the lower flange (1.1.3.2) of the beam-column connector (1.1.3) are square or round, and the column (1.1.1) which is correspondingly assembled is also square or round.

4. The modular construction house wall floor structure of claim 1, wherein: the beam-column connector is a ring-shaped beam-column connector (1.1.3a), the upper flange and the lower flange of the beam-column connector are hollow rings (1.1.3.1a, 1.1.3.2a), and the beam-column connector is sleeved and fixed on the column (1.1.1) through the characteristics.

5. The modular construction house wall floor structure of claim 1, wherein: a space filling plate (1.1.6) is arranged between the column (1.1.1) and the bracket plate (1.1.4).

6. The modular construction house wall floor structure of claim 1, wherein: the projection outline of the front face (1.2.2.5.1) of the wall brick unit block body on the wall surface plane is any one of rectangle and L shape.

7. The modular construction house wall floor structure of claim 1 or 6, wherein: the wall brick unit comprises a full-size wall brick unit (1.2.2a), a full-width half-length wall brick unit (1.2.2b), a full-length half-width wall brick unit (1.2.2c) and a half-length half-width wall brick unit (1.2.2 d).

8. The modular construction house wall floor structure of claim 1 or 6, wherein: the wall brick unit (1.2.2) consists of three blocks (1.2.2.5), the front projection outline of the wall brick unit is rectangular, and the second block is upwards and forwards staggered to form upwards and forwards convex parts compared with the first block and the third block; the hollow structure (1.2.2.6) is hollowed in the thickness direction, and through holes (1.1.1.1, 1.1.2.3) are arranged on the column (1.1.1) and the beam (1.1.2).

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