CN115217220A - Prefabricated building system - Google Patents

Abstract

The application provides an assembly type house building system which comprises a plurality of assembly plates and a plurality of constructional columns, wherein the assembly plates and the constructional columns are combined to form the assembly type house system with a masonry structure; the side surface of the assembling plate is provided with a U-shaped clamping piece, the side surface of the assembling plate is coated by the U-shaped clamping piece, and the U-shaped clamping piece is partially embedded into the assembling plate; adjacent assembling plates are welded and connected through U-shaped clamping pieces; the constructional column sets up in the middle part of part wall body corner and part wall body, and the assembly plate passes through U type fastener and is connected with the constructional column. The assembly plates and the constructional columns are used for forming an assembly type masonry structure, parts are prefabricated in a factory, and building construction time is shortened; the U-shaped clamping piece is embedded into the side surface of the assembling plate, the binding force of the U-shaped clamping piece and the assembling plate is high, and the assembling plate is not damaged; and build the house through U type fastener and the constructional column of assembly plate side, strengthen the structural strength of connection position, through the mode that the welding links to each other, avoid connection position to take place the skew.

Description

Prefabricated building system

Technical Field

The application relates to the technical field of constructional engineering, in particular to an assembly type house building system.

Background

With the acceleration of urbanization in China, prefabricated building units are coming to a new development opportunity, and with the development of modern industrial technology, the building can be manufactured in batches like machine production, and prefabricated building components are transported to a construction site for assembly.

In the existing prefabricated building, the used prefabricated panels or assembled panels have the problems of complicated connecting process, poor connecting precision and damage to the structural strength of the prefabricated panels or assembled panels by the connecting structure.

Disclosure of Invention

In order to solve the technical problem, the application provides an assembly type house building system, which comprises a plurality of assembly plates and a plurality of constructional columns, wherein the assembly plates and the constructional columns are combined to form the assembly type house building system with a masonry structure;

the side surface of the assembling plate is provided with a U-shaped clamping piece, the side surface of the assembling plate is covered by the U-shaped clamping piece, and the U-shaped clamping piece is partially embedded into the assembling plate and used for fixing the U-shaped clamping piece on the assembling plate without damaging the strength of the assembling plate;

the adjacent assembling plates are welded and connected through the U-shaped clamping piece, so that the adjacent assembling plates are connected together in parallel;

the constructional column sets up in the middle part of part wall body corner and part wall body, the assembly plate pass through U type fastener with the constructional column is connected, the constructional column is used for improving masonry structure's bearing capacity and stability.

Furthermore, the constructional columns are arranged at the joints of the four corners of the outer wall of the prefabricated masonry structure house system, the cross walls and the outer longitudinal walls at staggered positions, two sides of the large opening and the joints of the inner wall and the outer wall of the large room, and when the length of the wall is larger than 5m, the constructional columns are arranged along the length direction of the wall at intervals of 4 m.

Further, the assembling plate comprises a wallboard main body, a U-shaped clamping piece and a covering layer, wherein the U-shaped clamping piece is arranged on the side face of the wallboard main body, the wallboard main body is embedded into an opening of the U-shaped clamping piece, the wallboard main body is tightly attached to the inner side of the U-shaped clamping piece, and the wallboard main body is matched with the U-shaped clamping piece to form a frame structure;

the covering layer is arranged on the end face of the wallboard main body, the covering layer is tightly attached to the wallboard main body, and the area of the covering layer is smaller than that of the wallboard main body; the covering layer covers the U-shaped clamping piece part, and the covering layers are arranged on two end faces of the wallboard main body and used for fixing the U-shaped clamping piece.

Further, the lengths of the exposed parts of the U-shaped clamping pieces at all the parts are the same, and the ratio of the length of the exposed part of the U-shaped clamping piece to the length of the covered part of the U-shaped clamping piece is (1-4): 1.

further, the assembling plate comprises a wallboard main body and a covering layer, wherein the covering layer is arranged on the end face of the wallboard main body, and the covering layer is tightly attached to the wallboard main body; the assembly plate comprises one of an inner wall plate, an outer wall plate and a floor slab, the inner wall plate comprises an inner wall plate main body, the inner wall plate main body and the covering layer are made of lightweight aggregate concrete or common concrete, and a reinforcing mesh piece parallel to the inner wall plate main body is arranged between the inner wall plate main body and the covering layer;

the external wall panel comprises an external wall panel main body, the external wall panel main body and the covering layer are made of lightweight aggregate concrete, a reinforcing mesh parallel to the external wall panel main body is further arranged between the external wall panel main body and the covering layer, the external wall panel main body further comprises a heat-insulating core material, the heat-insulating core material is arranged in the middle of the external wall panel main body, lightweight aggregate concrete is arranged on two sides of the heat-insulating core material, and the heat-insulating core material is used for reducing the heat conductivity coefficient and the conduction coefficient of the external wall panel;

the outer side of the heat-insulating core material is provided with a reinforcing mesh which is used for improving the strength of the external wall panel, and the main body of the external wall panel is also provided with a fastening screw which is used for oppositely pulling the reinforcing mesh;

the floor slab comprises a floor slab main body, the floor slab is made of common concrete, and a steel bar net piece parallel to the floor slab main body is further arranged between the floor slab main body and the covering layer.

Further, the edge of the reinforcing mesh is welded with the U-shaped clamping piece and used for fixing the U-shaped clamping piece.

Furthermore, at the parallel connection position between the assembly plate and the assembly plate, the U-shaped clamping pieces are mutually abutted and welded at the joint where the U-shaped clamping pieces are abutted and connected; and filling mortar is used at the joint for filling the gap of the joint.

Furthermore, at the joint of the inner wall panel and the constructional column and the joint of the outer wall panel and the L-shaped corner of the constructional column, the U-shaped clamping piece is abutted against two adjacent surfaces of the constructional column and welded at the joint where the U-shaped clamping piece is abutted against the constructional column for fixing the inner wall panel or the outer wall panel; filling a connecting gap formed by the inner wall plate and the constructional column by using filling mortar; and filling the inner side of a connecting gap formed by the external wall panel and the constructional column by using filling mortar, and filling the outer side of the connecting gap by using heat-insulating mortar.

Furthermore, the wall clamping piece is of a C type and arranged on the end face of the assembling plate, and the opening direction of the wall clamping piece is far away from the assembling plate.

Further, the U-shaped clamping pieces are through-length type U-shaped clamping pieces or interval type U-shaped clamping pieces, the length of the through-length type U-shaped clamping pieces is the same as that of the side faces of the assembling plate, and the interval type U-shaped clamping pieces are arranged on the side faces of the assembling plate at intervals; the wall clamping piece is a through-length type wall clamping piece or an interval type wall clamping piece, and the length of the through-length type wall clamping piece is the same as that of the side face of the assembling plate;

the through-length type wall clamping piece is matched with the through-length type U-shaped clamping piece, and the through-length type U-shaped clamping piece is integrally embedded into the through-length type wall clamping piece; the through-length type wall clamping piece is matched with the interval type U-shaped clamping piece, and the interval type U-shaped clamping piece is embedded into the through-length type wall clamping piece; the interval type wall clamping piece is matched with the through-length type U-shaped clamping piece, and the through-length type U-shaped clamping piece is embedded into the interval type wall clamping piece; the interval type wall clamping pieces are matched with the interval type U-shaped clamping pieces, and the interval type U-shaped clamping pieces are embedded into the interval type wall clamping pieces at corresponding positions;

the interval type wall clamping pieces are parallel to each other, so that the interval type wall clamping pieces can be clamped into the through-length type U-shaped clamping pieces or the interval type U-shaped clamping pieces; the spaced U-shaped clamping pieces are parallel to each other, so that the spaced U-shaped clamping pieces can be clamped into the through-length wall clamping pieces or the spaced wall clamping pieces.

Further, the wall clamping piece is connected with the assembling plate through a nail or a chemical bolt and is used for fixing the wall clamping piece on the assembling plate;

the wall body clamping piece is matched with the U-shaped clamping piece, the U-shaped clamping piece is clamped in the wall body clamping piece, and the clamping edge of the wall body clamping piece and the clamping edge of the U-shaped clamping piece are welded, so that the inner wallboard is vertically connected with the middle part of the outer wallboard or the middle part of the inner wallboard.

And filling mortar is arranged at the joint where the inner wall plate is vertically connected with the middle part of the outer wall plate or the middle part of the inner wall plate, and is used for filling a connecting gap caused by the U-shaped clamping piece.

Further, the inner wallboard is connected to the middle of the end face of the outer wallboard or one side of the middle of the end face of the inner wallboard to form a T-shaped connecting structure; and the middle part of the end face of the external wall plate or the two sides of the middle part of the end face of the internal wall plate are connected with the internal wall plate to form a cross-shaped connecting structure.

Furthermore, the U-shaped clamping pieces are arranged on two opposite sides of the floor slab, end section steels are arranged on two opposite sides of the floor slab, and the end section steels are coated on the side face of the floor slab and extend along the end face direction of the floor slab.

Furthermore, at the joint of the inner wallboard and the floor slab, the floor slab is mutually abutted through the end section steels on the side surfaces and welded at the abutted seam of the end section steels, the wall clamping piece is arranged at the joint of the adjacent floor slabs, the wall clamping piece is connected with the end section steels which are mutually abutted, and the inner wallboard is clamped in the wall clamping piece through the U-shaped clamping piece, so that the inner wallboard is connected with the floor slab;

the central axis of the wall fastener corresponds to the joint of the adjacent end section steels, the edge of the wall fastener is welded with the end section steels and is used for fixing the wall fastener at the joint of the adjacent floors, the clamping edge of the wall fastener and the U-shaped fastener is welded, and the length of the side edge of the wall fastener is smaller than that of the U-shaped fastener; the joint of the inner wallboard and the floor slab is provided with filling mortar for filling a gap in the connecting structure;

connecting the inner wallboard at the edge of one side of the end face of the adjacent floor slab, wherein the floor slab and the inner wallboard form a T-shaped connecting structure; connecting the inner wall plates at corresponding positions on two sides of the end surfaces of the adjacent floor plates, wherein the floor plates and the inner wall plates form a cross-shaped connecting structure;

at the joint of the external wall panel and the floor slab, the edge of the wall fastener is aligned with the edge of the end face of the floor slab, the wall fastener is welded at the joint of the wall fastener and the end section steel, the external wall panel is fastened in the wall fastener through the U-shaped fastener, so that the external wall panel is connected with the floor slab, the wall fastener is welded at the joint of the end section steel and used for fixing the wall fastener on the edge of the end face of the floor slab, the wall fastener is welded at the fastening edge of the U-shaped fastener, and the length of the side edge of the wall fastener is smaller than that of the side edge of the U-shaped fastener; filling the outer side of the joint of the external wall panel and the floor slab by using heat-insulating slurry, wherein glass fiber gridding cloth is arranged on the outer side of the heat-insulating slurry and is used for avoiding the whole surface tension contraction of the heat-insulating slurry and the cracking caused by external force;

the floor slab and the external wall panel form an L-shaped connecting structure; and connecting the external wall panels at corresponding positions on two sides of the end surface of the floor slab, wherein the floor slab and the external wall panels form a transverse T-shaped connecting structure.

The foundation is of a boss type base structure, a boss above the foundation is used for connecting an assembly plate, and the U-shaped clamping piece of the assembly plate is bolted with the foundation through a bolt;

the bolts simultaneously penetrate through the assembly plate and the foundation, so that the assembly plate is fastened on the foundation;

or the assembling plate is connected with the foundation in an inserted manner, the assembling plate is tightly wedged by using anti-corrosion wood, and the gap is filled by using filling mortar.

Further, the assembly plate with the foundation is pegged graft and is linked to each other, foundation top is provided with sunkenly, the side of assembly plate is inserted in foundation's sunkenly to use anticorrosive wooden wedge will the assembly plate is upright to be fixed in the foundation.

The beneficial effects of this application are as follows:

1. the assembly plates and the constructional columns are used for forming an assembly type masonry structure, parts are prefabricated in a factory, and building construction time is shortened; the U-shaped clamping piece is embedded into the side surface of the assembling plate, the bonding force between the U-shaped clamping piece and the assembling plate is high, the assembling plate is not damaged, and the performance of the assembling plate is kept; and build the house through U type fastener and the constructional column of assembly plate side, strengthen the structural strength of connection position, through the mode that the welding links to each other, avoid connection position to take place the skew.

2. In this application, the assembly plate is fixed part of U type fastener in the assembly plate through the overburden, prevents the skew of U type fastener, guarantees the connection steadiness of U type fastener on the assembly plate.

3. The assembly plate is parallelly connected through the U-shaped clamping piece in this application for the butt position of assembly plate can weld, can the quick fixation assembly plate when the construction, and use the filling mortar to fill the gap at the connection position, further reinforcing connection position's structural strength.

4. Even through constructional column and U type fastener welding in this application, link together constructional column and assembly plate, prevent the emergence skew of assembly plate in masonry structure, strengthen the stability of building structure.

5. Still be provided with the wall body fastener in this application, fix the wall body fastener on the terminal surface of assembly plate, utilize mutually supporting wall body fastener and U type fastener, insert another assembly plate perpendicularly in assembly plate terminal surface middle part, easy operation, the construction is swift to guarantee joint strength.

6. Still be provided with tip shaped steel in this application, through the combined action of tip shaped steel, wall body fastener, U type fastener, be connected floor and interior wallboard or side fascia to prevent through the welding that each position from taking place the skew, use the packing mortar to fill the space, the structural strength at position is connected in further reinforcing, and the side fascia with the outside of floor junction uses the heat preservation thick liquids to fill, strengthens the thermal insulation performance in house.

7. Through setting up the ground basis in this application, link to each other with the assembly plate through the mode of bolt or grafting, reduce engineering time, the cost of using manpower sparingly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic view of a mounting plate according to the present application;

FIG. 2 is a schematic structural view of an interior wall panel of the present application;

FIG. 3 is a schematic structural view of an exterior wall panel of the present application;

FIG. 4 is a schematic view of a floor structure according to the present application;

FIG. 5 is a schematic view of a parallel connected interior wall panel of the present application;

FIG. 6 is a schematic view of the structure of an L-shaped corner joint of an interior wall panel of the present application;

FIG. 7 is a schematic view of the L-shaped corner joint of an external wall panel of the present application;

FIG. 8 is a schematic view of the construction of the mounting plate containing the through U-shaped clip of the present application;

FIG. 9 is a schematic view of a mounting plate of the present application containing spaced U-shaped clips;

FIG. 10 is a schematic view of a T-joint structure of an interior wall panel according to the present application;

FIG. 11 is a cross-shaped connection structure of an interior wall panel according to the present application;

FIG. 12 is a schematic view of a T-shaped connection structure of an inner wall panel and an outer wall panel according to the present application;

FIG. 13 is a schematic view of a T-connection structure of a floor slab and an inner wall panel according to the present application;

FIG. 14 is a cross-shaped connection structure of a floor slab and an inner wall plate according to the present application;

FIG. 15 is a schematic view of an L-shaped connection structure between a floor slab and an external wall panel according to the present application;

FIG. 16 is a cross T-shaped connection structure of a floor and an external wall panel according to the present application;

FIG. 17 is a schematic view of a construction of a tie down plate to a foundation base according to the present application;

FIG. 18 is a schematic view of the structure of the assembly plate of the present application inserted into the foundation;

in the figure: 1 assembly plate, 2 constructional columns, 3U type fastener, 4 wallboard main parts, wallboard main parts in 41, 42 side fascia main parts, 43 floor main parts, 5 overburden, 6 reinforcing bar net pieces, 7 heat preservation core materials, 8 fastening screw, 9 interior wallboard, 10 side fascia, 11 floor, 12 cement mortar, 13 heat preservation thick liquids, 14 wall fastener, 15 shooting nail, 16 tip shaped steel, 17 fine net cloth of glass, 18 plastering mortar, 19 ground foundation, 20 anticorrosive wooden wedge, 21 bolts.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be taken as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a number" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or several embodiments or examples.

In an embodiment, as shown in fig. 1-18, a prefabricated building system comprises a plurality of assembling plates 1 and a plurality of constructional columns 2, wherein the assembling plates 1 and the constructional columns 2 are combined to form the prefabricated masonry structure building system;

the side surface of the assembly plate 1 is provided with a U-shaped clamping piece 3, the side surface of the assembly plate 1 is coated by the U-shaped clamping piece 3, and the U-shaped clamping piece 3 is partially embedded into the assembly plate 1 and is used for fixing the U-shaped clamping piece 3 on the assembly plate 1 without damaging the strength of the assembly plate 1;

the adjacent assembling plates 1 are welded and connected through U-shaped clamping pieces 3, so that the adjacent assembling plates 1 are connected together in parallel;

constructional column 2 sets up in the middle part of part wall body corner and part wall body, and mounting plate 1 is connected with constructional column 2 through U type fastener 3, and constructional column 2 is used for improving masonry structure's bearing capacity and stability.

It can be understood that the constructional columns 2 are arranged at the four corners of the outer wall of the prefabricated masonry structure house system, the joints of the cross walls and the outer longitudinal walls at staggered positions, two sides of the large opening and the joints of the inner and outer walls of the large room, and the constructional columns 2 are arranged at intervals of 4m along the length direction of the wall when the length of the wall is more than 5 m.

It can be understood, when the construction, through the masonry structure in constructional column 2 and the building plate 1 structure house, use U type fastener 3 with interconnect between 1 and the mounting plate 1 of mounting plate, and set up constructional column 2 at relevant position, and link to each other constructional column 2 and U type fastener 3 of 1 side of mounting plate, constructional column 2 is the square tube steel, square steel thickness 3.0mm, concrete is pour in the square tube steel, further strengthens the structural strength in masonry structure house.

In another embodiment, as shown in fig. 1-4, the assembly plate 1 comprises a wall plate main body 4, a U-shaped fastener 3 and a covering layer 5, wherein the U-shaped fastener 3 is arranged on the side surface of the wall plate main body 4, the wall plate main body 4 is embedded into an opening of the U-shaped fastener 3, the wall plate main body 4 is tightly attached to the inner side of the U-shaped fastener 3, and the wall plate main body 4 is matched with the U-shaped fastener 3 to form a frame structure;

the covering layer 5 is arranged on the end face of the wall plate main body 4, the covering layer 5 is tightly attached to the wall plate main body 4, and the area of the covering layer 5 is smaller than that of the wall plate main body 4; the covering layer 5 covers the U-shaped clamping pieces 3 partially, and the covering layers 5 are arranged on two end faces of the wallboard main body 4 and used for fixing the U-shaped clamping pieces 3.

It can be understood that the length of the exposed part of the U-shaped clamping piece 3 at each part is the same, and the ratio of the length of the exposed part of the U-shaped clamping piece 3 to the length of the covered part of the U-shaped clamping piece 3 is 2.29:1.

as can be understood, the mounting plate 1 includes a main body 4 of the wall plate, and a covering layer 5, wherein the covering layer 5 is arranged on the end face of the main body 4 of the wall plate, and the covering layer 5 is tightly attached to the main body 4 of the wall plate; the assembly plate 1 comprises one of an inner wall plate 9, an outer wall plate 10 and a floor slab 11, the inner wall plate 9 comprises an inner wall plate main body 41, the inner wall plate main body 41 and the covering layer 5 are made of lightweight aggregate concrete or common concrete, and a reinforcing mesh 6 parallel to the inner wall plate main body 41 is further arranged between the inner wall plate main body 41 and the covering layer 5;

the external wall panel 10 comprises an external wall panel main body 42, the external wall panel main body 42 and the covering layer 5 are made of lightweight aggregate concrete, a reinforcing mesh 6 parallel to the external wall panel main body 42 is further arranged between the external wall panel main body 42 and the covering layer 5, the external wall panel main body 42 further comprises a heat insulation core material 7, the heat insulation core material 7 is arranged in the middle of the external wall panel main body 42, lightweight aggregate concrete is arranged on two sides of the heat insulation core material 7, and the heat insulation core material 7 is used for reducing the heat conductivity coefficient and the conduction coefficient of the external wall panel 10;

the outer side of the heat insulation core material 7 is provided with a reinforcing mesh 6, the reinforcing mesh 6 is used for improving the strength of the external wall panel 10, the external wall panel main body 42 is also provided with a fastening screw 8, and the fastening screw 8 is used for oppositely pulling the reinforcing mesh 6;

the floor 11 comprises a floor main body 43, the floor 11 is made of common concrete, and a steel bar net piece 6 parallel to the floor main body 43 is arranged between the floor main body 43 and the covering layer 5.

It can be understood that the edge of the reinforcing mesh 6 is welded with the U-shaped clamping piece 3 and used for fixing the U-shaped clamping piece 3.

It can be understood that the U-shaped clamping piece 3 is arranged on the side face of the wall plate main body 4, the extending face of the U-shaped clamping piece 3 is arranged on the end face of the wall plate main body 4, the reinforcing mesh piece 6 is arranged on the end face of the wall plate main body 4, the arrangement sequence of the reinforcing mesh piece 6 and the U-shaped clamping piece 3 can be replaced, then the edge of the reinforcing mesh piece 6 is welded and fixed with the U-shaped clamping piece 3, on one hand, the U-shaped clamping piece 3 is further fixed, on the other hand, the reinforcing mesh piece 6 is fixed, finally, the outer side of the reinforcing mesh piece 6 is covered with the covering layer 5, and the exposed parts of the U-shaped clamping piece 3 are the same in length.

In another embodiment, as shown in fig. 5, at the parallel connection between the mounting plate 1 and the mounting plate 1, the U-shaped snaps 3 abut against each other and are welded at the joint where the U-shaped snaps 3 abut against each other; and filling mortar is used at the joint for filling the gap of the joint.

It can be understood, when carrying out the house assembly, at first with the mutual butt of U type fastener 3 of assembly plate 1 side, weld in butt gap department for two assembly plates 1 are fixed together, use cement mortar 12 at last, fill the connection space, accomplish the connection between two assembly plates 1.

In another embodiment, as shown in fig. 6-7, at the connection between the inner wall panel 9 and the construction post 2 and the connection between the outer wall panel 10 and the L-shaped corner of the construction post 2, the U-shaped clips 3 abut against two adjacent sides of the construction post 2 and are welded at the joint where the U-shaped clips 3 abut against the construction post 2 for fixing the inner wall panel 9 or the outer wall panel 10; filling a connecting gap formed by the inner wall plate 9 and the constructional column 2 by using filling mortar; at the connecting gap formed by the external wall board 10 and the constructional column 2, the inner side is filled by filling mortar, and the outer side is filled by thermal insulation slurry 13.

It can be understood, in the construction, at first, the constructional column 2 stands, U type fastener 3 and the constructional column 2 butt of 1 side of assembly panel, and weld in butt gap department, according to the difference of constructional column 2 setting position, the corresponding interior wallboard 9 or side fascia 10 of butt, use cement mortar 12 at last, pack the connection space, in the junction outside of constructional column 2 and side fascia 10, use heat preservation thick liquids 13 to replace cement mortar 12 to carry out heat preservation to space and side fascia 10, accomplish the L type corner connection structure of constructional column 2 and interior wallboard 9 or side fascia 10.

In another embodiment, as shown in fig. 8-9, the wall fastener 14 is further included, the wall fastener 14 is C-shaped, the wall fastener 14 is disposed on an end surface of the mounting plate 1, and the opening of the wall fastener 14 is far away from the mounting plate 1.

The U-shaped clamping pieces 3 are through-length U-shaped clamping pieces 3 or spaced U-shaped clamping pieces 3, the length of the through-length U-shaped clamping pieces 3 is the same as that of the side surfaces of the assembling plate 1, and the spaced U-shaped clamping pieces 3 are arranged on the side surfaces of the assembling plate 1 at intervals; the wall fastener 14 is a through-length wall fastener 14 or a partition wall fastener 14, and the length of the through-length wall fastener 14 is the same as that of the side surface of the assembling plate 1;

the through-length type wall clamping piece 14 is matched with the through-length type U-shaped clamping piece 3, and the whole through-length type U-shaped clamping piece 3 is embedded into the through-length type wall clamping piece 14; the through-length type wall clamping piece 14 is matched with the interval type U-shaped clamping piece 3, and the interval type U-shaped clamping piece 3 is embedded into the through-length type wall clamping piece 14; the interval wall clamping piece 14 is matched with the through-length U-shaped clamping piece 3, and the through-length U-shaped clamping piece 3 is embedded into the interval wall clamping piece 14; the spaced wall clamping pieces 14 are matched with the spaced U-shaped clamping pieces 3, and the spaced U-shaped clamping pieces 3 are embedded into the spaced wall clamping pieces 14 at corresponding positions;

the interval wall clamping pieces 14 are parallel to each other, so that the interval wall clamping pieces 14 can be clamped in the through-length U-shaped clamping pieces 3 or the interval U-shaped clamping pieces 3; the spaced U-shaped clamping pieces 3 are parallel to each other, so that the spaced U-shaped clamping pieces 3 can be clamped into the through-length wall clamping pieces 14 or the spaced wall clamping pieces 14.

In another embodiment, as shown in fig. 10-12, the wall clip 14 is connected to the mounting plate 1 by a nail 15 or a chemical bolt 21 for fixing the wall clip 14 to the mounting plate 1;

wall fastener 14 cooperates with U type fastener 3, and U type fastener 3 blocks in wall fastener 14 to at wall fastener 14 and the welding of 3 block edges of U type fastener, make interior wallboard 9 and wallboard 10 middle part or interior wallboard 9 middle part link to each other perpendicularly.

And filling mortar is arranged at the joint where the inner wall plate 9 and the outer wall plate 10 are vertically connected or the middle of the inner wall plate 9 is vertically connected, and is used for filling a connecting gap caused by the U-shaped clamping piece 3.

As can be understood, the middle part of the end surface of the outer wall plate 10 or one side of the middle part of the end surface of the inner wall plate 9 is connected with the inner wall plate 9 to form a T-shaped connecting structure; the middle part of the end face of the outer wallboard 10 or the two sides of the middle part of the end face of the inner wallboard 9 are connected with the inner wallboard 9 to form a cross-shaped connecting structure.

It can be understood, in the work progress, at first use and penetrate nail 15 and fix wall fastener 14 on the terminal surface of mounting plate 1, later with the U type fastener 3 block to wall fastener 14 on another mounting plate 1 side, the edge length of wall fastener 14 is greater than the edge length of U type fastener 3, and weld the joint edge, consolidate being connected of wall fastener 14 and U type fastener 3, use cement mortar 12 at last, fill the connection space, accomplish the connection.

In another embodiment, as shown in fig. 13-16, U-shaped clamping members 3 are provided on two opposite sides of the floor slab 11, and end section steels 16 are provided on two opposite sides of the floor slab 11, wherein the end section steels 16 are wrapped around the side surfaces of the floor slab 11 and extend along the end surfaces of the floor slab 11.

It can be understood that, at the joint of the inner wall board 9 and the floor slab 11, the floor slab 11 is mutually abutted through the end section steel 16 on the side surface and welded at the abutted joint of the end section steel 16, the wall fastener 14 is arranged at the joint of the adjacent floor slabs 11, the wall fastener 14 is connected with the mutually abutted end section steel 16, and the inner wall board 9 is clamped in the wall fastener 14 through the U-shaped fastener 3, so that the inner wall board 9 is connected with the floor slab 11;

the central axis of the wall clamping piece 14 corresponds to the joint of the adjacent end section steel 16, the edge of the wall clamping piece 14 is welded with the end section steel 16 and is used for fixing the wall clamping piece 14 at the joint of the adjacent floor slabs 11, the clamping edge of the wall clamping piece 14 and the U-shaped clamping piece 3 is welded, and the length of the side edge of the wall clamping piece 14 is smaller than that of the U-shaped clamping piece; the joint of the inner wall plate 9 and the floor slab 11 is provided with filling mortar for filling a gap in the connecting structure;

the edge of one side of the end face of the adjacent floor slab 11 is connected with an inner wall slab 9, and the floor slab 11 and the inner wall slab 9 form a T-shaped connecting structure; connecting inner wall plates 9 at corresponding positions on two sides of the end surfaces of the adjacent floor plates 11, wherein the floor plates 11 and the inner wall plates 9 form a cross-shaped connecting structure;

at the joint of the external wall board 10 and the floor slab 11, the edge of the wall fastener 14 is aligned with the end face edge of the floor slab 11, and is welded at the joint of the wall fastener 14 and the end section steel 16, the external wall board 10 is fastened in the wall fastener 14 through the U-shaped fastener 3, so that the external wall board 10 is connected with the floor slab 11, the joint of the wall fastener 14 and the end section steel 16 is welded for fixing the wall fastener 14 at the end face edge of the floor slab 11, the fastening edge of the wall fastener 14 and the U-shaped fastener 3 is welded, and the side length of the wall fastener 14 is smaller than that of the U-shaped fastener; the outer side of the joint of the outer wallboard 10 and the floor slab 11 is filled with heat-insulating slurry 13, the outer side of the heat-insulating slurry 13 is provided with glass fiber gridding cloth 17 for avoiding the whole surface tension contraction of the heat-insulating slurry 13 and the cracking caused by external force, the glass fiber gridding cloth 17 is provided with finishing adhesive cement 18 for burying the glass fiber gridding cloth 17 in an outer wall outer heat-insulating system and forming a protective surface layer, and the inner side of the joint of the outer wallboard 10 and the floor slab 11 is provided with filling mortar for filling gaps in a connecting structure;

the floor 11 and the external wall panel 10 form an L-shaped connecting structure; the external wall panels 10 are connected at the corresponding positions on the two sides of the end surface of the floor slab 11, and the floor slab 11 and the external wall panels 10 form a transverse T-shaped connecting structure.

It can be understood that, in the construction process of the connection structure of the inner wall panel 9 and the floor slab 11, the end section steels 16 of the adjacent floor slabs 11 are firstly aligned, the end section steels 16 are mutually abutted, then the gap formed by the abutted end section steels 16 is welded, so that the two end section steels 16 which are mutually abutted are tightly connected together, then the wall clamping piece 14 is placed on the side surface of the end section steel 16, the wall clamping piece 14 is of a C shape, the extending direction of the wall clamping piece 14 is the same as the extending direction of the welding line, so that the inner wall panel 9 connected to the wall clamping piece 14 is parallel to the welding line, the central axis of the wall clamping piece 14 is in the same plane with the welding line of the end section steel 16, so that the lengths of the wall clamping piece 14 on the side surfaces of the two connected end section steels 16 are the same, in this case, the wall clamping piece 14 is welded with the end section steels 16, the stress of the wall clamping piece 14 is balanced, and the end section steels 16 can be prevented from deviating.

After fixing wall fastener 14, with U type fastener 3 on interior wallboard 9 insert wall fastener 14 in, wall fastener 14's edge length is greater than U type fastener 3's edge length, welds the joint edge, consolidates wall fastener 14 and U type fastener 3's being connected, strengthens the structural strength at connection position, uses cement mortar 12 at last, fills the joint gap, accomplishes being connected of interior wallboard 9 and floor 11.

It can be understood, in the course of construction of wallboard 10 and 11 connection structure of floor, at first align the edge of wall fastener 14 with the edge of tip shaped steel 16, wall fastener 14 is the C type, the terminal surface direction of floor 11 is kept away from to the opening direction of wall fastener 14, and make the back and the tip shaped steel 16 of wall fastener 14 closely laminate, later weld the seam crossing of wall fastener 14 and tip shaped steel 16, make wall fastener 14 and tip shaped steel 16 fixed together, then insert into wall fastener 14 with U type fastener 3 on wallboard 10, the edge length of wall fastener 14 is greater than the edge length of U type fastener 3, weld to the joint edge, consolidate being connected of wall fastener 14 and U type fastener 3, strengthen the structural strength of connection position, and handle the connection space, accomplish wallboard 10 and floor 11 and be connected.

In another embodiment, as shown in fig. 17-18, further comprising a foundation base 19, wherein the foundation base 19 is a boss-type base structure, the boss above the foundation base 19 is used for connecting the assembly plate 1, and the U-shaped clamps 3 of the assembly plate 1 are bolted with the foundation base 19 through bolts 21;

the bolts 21 simultaneously penetrate through the assembly plate 1 and the foundation 19, so that the assembly plate 1 is fastened on the foundation 19;

or the assembly plate 1 is connected with the foundation 19 in an inserting mode, the assembly plate 1 and the foundation 19 are tightly plugged by using the anti-corrosion wood wedge 20, and gaps are filled by using filling mortar.

It can be understood that, when the assembling plate 1 is connected to the foundation 19 by plugging, a recess is provided above the foundation 19, the side of the assembling plate 1 is inserted into the recess of the foundation 19, and the assembling plate 1 is vertically fixed in the foundation 19 by using the anti-corrosion wooden wedge 20.

It can be understood that, in the construction process, firstly, the bottom surface is leveled, then the foundation 19 is placed on the leveled ground, the U-shaped clamping pieces 3 on the side surfaces of the assembly plates 1 are inserted into the recesses on the upper part of the foundation 19, and the assembly plates 1 are vertically fixed in the recesses on the upper part of the foundation 19, so that the connection of the foundation structure is completed.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present application shall be included in the scope of the claims of the present application.

Claims (10)

1. An assembly type house building system is characterized by comprising a plurality of assembly plates and a plurality of constructional columns, wherein the assembly plates and the constructional columns are combined to form the assembly type masonry structure house system;

the side surface of the assembling plate is provided with a U-shaped clamping piece, the side surface of the assembling plate is covered by the U-shaped clamping piece, and the U-shaped clamping piece is partially embedded into the assembling plate and used for fixing the U-shaped clamping piece on the assembling plate without damaging the strength of the assembling plate;

the adjacent assembling plates are welded and connected through the U-shaped clamping piece, so that the adjacent assembling plates are connected together in parallel;

the constructional column sets up in the middle part of partial wall body corner and partial wall body, the mounting panel pass through U type fastener with the constructional column is connected, the constructional column is used for improving masonry structure's bearing capacity and stability.

2. The prefabricated building construction system of claim 1, wherein the assembling plate comprises a wall plate main body, a U-shaped fastener and a covering layer, the U-shaped fastener is arranged on a side surface of the wall plate main body, the wall plate main body is embedded into an opening of the U-shaped fastener, the wall plate main body is tightly attached to the inner side of the U-shaped fastener, and the wall plate main body and the U-shaped fastener are matched to form a frame structure;

the covering layer is arranged on the end face of the wallboard main body, the covering layer is tightly attached to the wallboard main body, and the area of the covering layer is smaller than that of the wallboard main body; the covering layer covers the U-shaped clamping piece part, and the covering layers are arranged on two end faces of the wallboard main body and used for fixing the U-shaped clamping piece.

3. A modular building construction system according to claim 1, wherein the panel comprises a wall panel body, a cover layer disposed on an end face of the wall panel body, the cover layer being in close proximity to the wall panel body; the assembly plate comprises one of an inner wallboard, an outer wallboard and a floor slab, the inner wallboard comprises an inner wallboard main body, the inner wallboard main body and the covering layer are made of lightweight aggregate concrete or common concrete, and a reinforcing mesh parallel to the inner wallboard main body is arranged between the inner wallboard main body and the covering layer;

the external wall panel comprises an external wall panel main body, the external wall panel main body and the covering layer are made of lightweight aggregate concrete, a reinforcing mesh parallel to the external wall panel main body is further arranged between the external wall panel main body and the covering layer, the external wall panel main body further comprises a heat-insulating core material, the heat-insulating core material is arranged in the middle of the external wall panel main body, lightweight aggregate concrete is arranged on two sides of the external wall panel main body, and the heat-insulating core material is used for reducing the heat conductivity coefficient and the conduction coefficient of the external wall panel;

the floor slab comprises a floor slab main body, the floor slab is made of common concrete, and a steel bar net piece parallel to the floor slab main body is further arranged between the floor slab main body and the covering layer.

4. A modular building construction system according to claim 3, wherein at the parallel connection between said assembly panels, said U-shaped clips abut each other and are welded at the joint where said U-shaped clips abut each other; and filling mortar is used at the joint for filling the gap of the joint.

5. A modular building construction system according to claim 3, wherein at the junction of the inner panel and the constructional column and the L-shaped corner of the outer panel and the constructional column, the U-shaped clips abut adjacent two faces of the constructional column and are welded at the joint where the U-shaped clips abut the constructional column for fixing the inner or outer panel; filling a connecting gap formed by the inner wall plate and the constructional column by using filling mortar; and filling the inner side of a connecting gap formed by the external wall panel and the constructional column by using filling mortar, and filling the outer side of the connecting gap by using heat-insulating mortar.

6. The prefabricated building construction system according to claim 3, further comprising a wall fastener, wherein the wall fastener is C-shaped and is arranged on the end face of the assembling plate, and the opening direction of the wall fastener is far away from the assembling plate.

7. A modular building construction system according to claim 6, wherein the wall clip is attached to the mounting plate by a nail or chemical bolt for securing the wall clip to the mounting plate;

the wall body clamping piece is matched with the U-shaped clamping piece, the U-shaped clamping piece is clamped in the wall body clamping piece, and the clamping edge of the wall body clamping piece and the clamping edge of the U-shaped clamping piece are welded, so that the inner wallboard is vertically connected with the middle part of the outer wallboard or the middle part of the inner wallboard.

8. An assembled building construction system according to claim 6, wherein the U-shaped fasteners are provided on opposite sides of the floor slab, and the end section steels are wrapped around the side faces of the floor slab and extend in the direction of the end face of the floor slab.

9. An assembled building construction system according to claim 8, wherein at the joint of the inner wall board and the floor slab, the floor slabs are mutually abutted through the end section steels on the side surfaces and welded at the abutting joint of the end section steels, the wall fastener is arranged at the joint of the adjacent floor slabs, the wall fastener is connected with the end section steels which are mutually abutted, and the inner wall board is clamped in the wall fastener through the U-shaped fastener, so that the inner wall board is connected with the floor slab;

the outer wall panel with the floor junction, wall body fastener edge with floor terminal surface edge aligns, and the wall body fastener with the seam crossing welding of tip shaped steel, the outer wall panel passes through U type fastener block in the wall body fastener, make the outer wall panel in the floor is connected the outer wall panel with the outside of floor junction is filled up with heat preservation thick liquids.

10. The prefabricated building construction system of claim 1, further comprising a foundation, wherein the foundation is a boss-type base structure, a boss above the foundation is used for connecting a mounting plate, and the U-shaped clamping piece of the mounting plate is bolted with the foundation through a bolt;

or the assembly plate is connected with the foundation in an inserting mode, the assembly plate is plugged with the foundation in a wedging mode through anti-corrosion wood, and gaps are filled through filling mortar.

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