CN109779032B - Assembled wall, assembled house and construction method thereof - Google Patents

Abstract

The invention provides an assembled wall body, an assembled house and a construction method thereof. The invention is suitable for low-rise light steel assembled structural building, and adopts factory full prefabrication and field assembly; the cooperation of the connection draw-in groove and the connection steel pipe of assembled wall improves the assembly rate of adjacent assembled wall, is favorable to reinforcing junction's intensity and leakproofness, is favorable to mild waterproof.

Description

Assembled wall, assembled house and construction method thereof

Technical Field

The invention relates to the technical field of buildings, in particular to an assembled wall body, an assembled house and a construction method thereof.

Background

The assembly type construction is to prefabricate foundation, wall body and the like required by the building in a factory, then construct in site, and the existing assembly type construction is mostly semi-prefabricated, and still needs wet construction such as in-site pouring and the like. For light steel fabricated building, there are connecting speed between the adjacent prefabricated wall body slow, the leakproofness is relatively poor, and connecting speed is slow between prefabricated wall body and the ground that prefabricated wall body constitutes, and need connect through the welding in many, influence the progress of construction, the quality is uncontrollable, perhaps connects through bolt and nut, and the part of protrusion cylinder influences the arrangement of wall body easily.

Disclosure of Invention

The invention provides an assembled wall, an assembled house and a construction method thereof, which are suitable for low-rise light steel assembled structural buildings, and are fully prefabricated in factories and assembled on site; the cooperation of the connection draw-in groove and the connection steel pipe of assembled wall improves the assembly rate of adjacent assembled wall, is favorable to reinforcing junction's intensity and leakproofness, is favorable to mild waterproof.

The technical scheme of the invention is realized as follows: the utility model provides an assembled wall, includes light steel frame, and one side of light steel frame is provided with the side fascia, and the opposite side is provided with interior wallboard, all is equipped with vertical connection draw-in groove between the interior wallboard at light steel frame both ends and the side fascia, and light steel frame includes the frame and sets up the fossil fragments grid frame in the frame, and fossil fragments grid frame intussuseption is filled with the heat preservation, and light steel frame's both sides all are provided with the gas barrier layer.

Further, the frame comprises four main keels connected end to end, the keel grid frame comprises transverse keels and vertical keels perpendicular to the transverse keels, and the main keels, the transverse keels and the vertical keels are all C-shaped light steel keels.

The assembled house comprises an assembled house body composed of the assembled wall bodies, wherein an assembled roof is arranged at the upper end of the assembled house body, and an assembled foundation is arranged at the lower end of the assembled house body.

Further, vertical connecting steel pipes are arranged between the adjacent assembled walls, two ends of each connecting steel pipe are respectively arranged in the connecting clamping grooves of the adjacent assembled walls, and the lower ends of the connecting steel pipes are connected with the assembled foundation through sleeve type connecting nodes.

Further, the sleeve type connecting joint comprises a connecting sleeve, a connecting inner cylinder is arranged between the connecting sleeve and the connecting steel pipe, the upper end of the connecting inner cylinder is arranged in the connecting sleeve and is fixed through a rivet nut, and the lower end of the connecting inner cylinder is arranged in the connecting steel pipe and is fixed through the rivet nut.

Further, a beam steel pipe connected with the assembled roof is arranged at the upper end of the assembled house along the edge.

The construction method of the assembled house comprises the following steps:

(1) Prefabricating an assembled foundation, an assembled wall, a connecting steel pipe, sleeve type connecting nodes and an assembled roof in a factory;

(2) According to the functional module design of the assembled house, the connecting sleeve is fixed at the upper end of the assembled foundation in a factory, the assembled foundation is installed on site, and the assembled wall is installed at the upper end of the assembled foundation: the lower end of the connecting inner cylinder is arranged in the connecting sleeve and fixed through a rivet nut, the upper end of the connecting inner cylinder is arranged at the lower end of the connecting steel pipe and fixed through the rivet nut, the two ends of the connecting steel pipe are arranged in connecting clamping grooves of adjacent assembled walls and fixed, and the steps are repeated to complete the assembly of the assembled house;

(3) Mounting a beam steel pipe at the upper end of the assembled house body in the step (2) along the edge;

(4) And placing the assembled roof at the upper end of the assembled house body, and fixing the assembled roof and the beam steel pipe.

The invention has the beneficial effects that: the invention is suitable for low-rise light steel assembled structural building, adopts factory prefabrication and field assembly, is convenient for controlling construction quality and improves construction speed. The assembled wall body adopts an integrated heat-insulating and waterproof design, and the light steel frame is provided with the side frames, so that a plurality of people can conveniently and simultaneously install the transverse keels and the vertical keels at different positions, and the preparation rate of the light steel frame is improved.

The connecting clamping groove of the assembled wall body and the connecting steel pipe are matched, so that the assembled wall body is used for connecting adjacent assembled wall bodies, the strength and the sealing performance of the connecting position are enhanced, and the assembled wall body is mild and waterproof.

The lower end of the connecting steel pipe is connected with the assembled foundation through the cooperation of the connecting sleeve, the connecting inner cylinder and the rivet pulling nut, the end part of the rivet pulling nut is almost flush with the outer side wall of the connecting sleeve and the connecting steel pipe, the external wall and the inner wall are not influenced by the protruding part, the rivet pulling nut can bear 3t of stress in tension, and can bear 1t of stress in shear, and the bearing required by a building can be supported.

Drawings

In order to more clearly illustrate the embodiments of the invention 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, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of an assembled wall of the present invention;

FIG. 2 is a cross-sectional view of A-A of FIG. 1;

FIG. 3 is a schematic view of a sleeve-type connection node;

FIG. 4 is a schematic view of the structure of the fabricated house of the present invention;

FIG. 5 is a front view of the roof assembly module;

FIG. 6 is a left side view of the roof assembly module;

FIG. 7 is a cross-sectional view of B-B of FIG. 4;

fig. 8 is a top view of a fabricated foundation.

The light steel frame 1, the side fascia 2, the interior wallboard 3, connect draw-in groove 4, heat preservation 5, air barrier 6, main joist 7, horizontal fossil fragments 8, vertical joist 9, assembled room body 10, assembled roof 11, assembled ground 12, connect steel pipe 13, connecting sleeve 14, connect inner tube 15, first connection round hole 16, waist formula slot hole 17, second connection round hole 18, movable round hole 19, third connection round hole 20, fourth connection round hole 21, rivet nut 22, second waterproofing membrane 23, dead lever 24, second waterproof layer 25, pitch tile 26, splice 27, sealed foam strip 28, first waterproofing membrane 29, crossbeam steel pipe 30, girder pipe 31.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without any inventive effort, are intended to be within the scope of the invention.

The terms "upper" and "lower" in the present invention refer to the positional relationship shown in fig. 4.

Example 1

As shown in fig. 1-2, an assembled wall body comprises a light steel frame 1, wherein an external wall plate 2 is fixed on one side of the light steel frame 1, an internal wall plate 3 is fixed on the other side of the light steel frame 1, vertical connecting clamping grooves 4 are formed between the internal wall plates 3 and the external wall plates 2 at two ends of the light steel frame 1, the light steel frame 1 comprises side frames and keel grid frames arranged in the side frames, heat preservation layers 5 are filled in the keel grid frames, air isolation layers 6 are fixed on two sides of the light steel frame 1, and waterproof coiled materials are adopted for the air isolation layers 6.

The frame includes four end to end's main joists 7, main joist 7 is C light gauge steel, main joist 7's notch inwards, the fossil fragments grid frame include many horizontal fossil fragments 8 and with horizontal fossil fragments 8 vertically vertical keel 9, horizontal fossil fragments 8 are parallel with horizontal main joist 7, the both ends and the vertical main joist 7 fixed connection of horizontal fossil fragments 8, vertical keel 9 is parallel with vertical main joist 7, all the interval between adjacent horizontal fossil fragments 8 and the horizontal main joist 7 is fixed with vertical keel 9, horizontal fossil fragments 8 and vertical keel 9 are C light gauge steel.

The preparation method of the assembled wall body comprises the following steps:

(1) Light steel frame 1: preparing a side frame, and installing a transverse keel 8 and a vertical keel 9 in the side frame;

(2) The keel grid frame of the light steel frame 1 is filled with an insulation layer 5;

(3) And (3) fixedly paving an air isolation layer 6 and an external wall plate 2 on one side of the light steel frame 1 in the step (2) from inside to outside, and sequentially fixing the air isolation layer 6 and the internal wall plate 3 on the other side from inside to outside, wherein a vertical connecting clamping groove 4 is formed between the internal wall plate 3 and the external wall plate 2 at two ends of the light steel frame 1.

Example two

As shown in fig. 1 to 4, a prefabricated house includes a prefabricated house body 10 composed of the prefabricated wall body according to the first embodiment, wherein a prefabricated roof 11 is provided at an upper end of the prefabricated house body 10, and a prefabricated foundation 12 is provided at a lower end thereof. The lower end of the connecting steel pipe 13 is connected with the fabricated foundation 12 through a sleeve type connecting node. Vertical connecting steel pipes 13 are arranged between the adjacent assembled walls, two ends of each connecting steel pipe 13 are respectively arranged in the connecting clamping grooves 4 of the adjacent assembled walls and are fixed through self-tapping screws, and the lower ends of the connecting steel pipes 13 are connected with the assembled foundation 12 through sleeve-type connecting nodes.

As shown in fig. 3, the sleeve-type connecting joint comprises a connecting sleeve 14, a connecting inner cylinder 15 is arranged between the connecting sleeve 14 and a connecting steel pipe 13, the connecting sleeve 14, the connecting steel pipe 13 and the connecting inner cylinder 15 are square steel pipes, a group of symmetrical side walls of the connecting sleeve 14 are provided with first connecting round holes 16, another group of symmetrical side walls are provided with waist-shaped long holes 17, a side wall at the lower end of the connecting inner cylinder 15 is provided with second connecting round holes 18 at positions corresponding to the first connecting round holes 16, and a side wall at the lower end of the connecting inner cylinder 15 is provided with movable round holes 19 at positions corresponding to the end parts of the waist-shaped long holes 17.

A group of symmetrical side walls at the lower end of the connecting steel pipe 13 are provided with third connecting round holes 20, and the side wall at the upper end of the connecting inner cylinder 15 is provided with fourth connecting round holes 21 at positions corresponding to the third connecting round holes 20. The connecting inner barrel 15 is arranged in the connecting sleeve 14 at the lower end, the rivet nut 22 passes through the first connecting round hole 16 and the second connecting round hole 18 to fix the connecting inner barrel 15 and the connecting steel pipe 13 at the upper end, the rivet nut 22 passes through the third connecting round hole 20 and the fourth connecting round hole 21 to fix the connecting inner barrel 15 and the fourth connecting round hole, and the positioning steel bar passes through the waist-shaped long hole 17 to be matched with the movable round hole 19, so that the length of the connecting inner barrel 15 extending into the connecting sleeve 14 is limited, and the first connecting round hole 16 and the second connecting round hole 18 are aligned quickly.

As shown in fig. 5 to 7, the fabricated roof 11 includes at least one roof assembly module, the roof assembly module includes a prefabricated roof support, the prefabricated roof support is a truss structure, a first waterproof layer is fixed on an outer surface of the prefabricated roof support, the first waterproof layer includes a second waterproof roll 23 and fixing rods 24, the second waterproof roll 23 is laid on the outer surface of the prefabricated roof support, a plurality of fixing rods 24 are uniformly distributed on the outer surface of the second waterproof roll 23 along a horizontal direction, and the waterproof roll is fixed on the prefabricated roof support through the fixing rods 24.

The outer surface of the first waterproof layer is fixedly provided with a second waterproof layer 25, the second waterproof layer 25 comprises asphalt tiles 26 paved on the outer surface of the first waterproof layer, splicing areas are arranged on the first waterproof layers on two sides of the second waterproof layer 25, the splicing areas are areas where the second waterproof layer 25 is not paved, a plurality of splicing blocks 27 are fixed on the side edges of one side of the prefabricated roof support along the splicing areas, sealing foam strips 28 are filled between the splicing areas of adjacent roof assembly modules, the sealing foam strips 28 are arranged on the splicing blocks 27, and third waterproof layers are paved on the outer surfaces of the splicing areas of the adjacent roof assembly modules together. The third waterproof layer comprises a first waterproof coiled material 29 paved in the splicing area and an asphalt tile 26 fixed on the outer surface of the first waterproof coiled material 29, and the first waterproof coiled material 29 is fixedly connected with the fixing rod 24. The waterproof coiled material is commonly called felt or felt, and has good waterproof property and good flexibility. The assembled roof 11 realizes the sealing and the waterproofing of the splicing area of the adjacent roof assembly modules through the sealing foam strips 28 and the third waterproof layer, adopts dry green construction, has high laying speed, forms a whole with the second waterproof layer after the third waterproof layer is laid, has no paving crack, and does not need later repair.

The upper end of the prefabricated house 10 is fixed along the edge with a beam steel pipe 30 connected with the prefabricated roof 11.

As shown in fig. 8, the fabricated foundation 12 includes a plurality of girder pipes 31, the plurality of girder pipes 31 form a grid support, the junctions of the girder pipes 31 are connected by sleeve-type connection nodes, the sleeve-type connection nodes are welded together by a plurality of connection sleeves 14, and the number of the connection sleeves 14 is identical to that of the girder pipes 31.

Example III

The construction method of the assembled house comprises the following steps:

(1) Prefabricating an assembled foundation 12, an assembled wall, a connecting steel pipe 13, sleeve type connecting joints, a beam steel pipe 30 and an assembled roof 11 in a factory;

(2) According to the functional module design of the prefabricated house 10, the connection sleeve 14 is fixed to the upper end of the prefabricated foundation 12 in a factory, the prefabricated foundation 12 is installed on site, and the prefabricated wall is installed on the upper end of the prefabricated foundation 12: the lower end of the connecting inner cylinder 15 is arranged in the connecting sleeve 14 and is fixed through a rivet nut 22, the upper end of the connecting inner cylinder 15 is arranged at the lower end of the connecting steel pipe 13 and is fixed through the rivet nut 22, two ends of the connecting steel pipe 13 are arranged in the connecting clamping groove 4 of the adjacent assembled wall body and are fixed through adhesive colloid and automatic screws, and the steps are repeated to complete the assembly of the assembled house 10;

(3) Installing a beam steel pipe 30 at the upper end of the assembled house 10 in the step (2) along the edge;

(4) The roof assembly module is arranged at the upper end of the assembled house body 10 through a crane, the assembled roof 11 and the beam steel pipe 30 are fixed in a threaded connection, a connecting joint and the like, then sealing foam strips 28 are filled on splicing blocks 27 between adjacent roof assembly modules, then a first waterproof coiled material 29 is paved, asphalt tiles 26 are paved on the outer surface of the first waterproof coiled material 29, and the assembly of the roof is completed.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (3)

1. An assembled house, characterized in that: the building comprises an assembled house body (10) formed by assembled walls, wherein an assembled roof (11) is arranged at the upper end of the assembled house body (10), and an assembled foundation (12) is arranged at the lower end of the assembled house body;

the assembled wall body comprises a light steel frame (1), wherein an outer wallboard (2) is arranged on one side of the light steel frame (1), an inner wallboard (3) is arranged on the other side of the light steel frame, vertical connecting clamping grooves (4) are formed between the inner wallboards (3) and the outer wallboards (2) at two ends of the light steel frame (1), the light steel frame (1) comprises side frames and keel grid frames arranged in the side frames, heat preservation layers (5) are filled in the keel grid frames, and air isolation layers (6) are arranged on two sides of the light steel frame (1);

a vertical connecting steel pipe (13) is arranged between the adjacent assembled walls, two ends of the connecting steel pipe (13) are respectively arranged in the connecting clamping grooves (4) of the adjacent assembled walls, and the lower ends of the connecting steel pipes (13) are connected with the assembled foundation (12) through sleeve type connecting nodes;

the sleeve type connecting joint comprises a connecting sleeve (14), a connecting inner cylinder (15) is arranged between the connecting sleeve (14) and a connecting steel pipe (13), the lower end of the connecting inner cylinder (15) is arranged in the connecting sleeve (14) and is fixed through a rivet nut (22), and the upper end of the connecting inner cylinder is arranged in the connecting steel pipe (13) and is fixed through the rivet nut (22); a group of symmetrical side walls of the connecting sleeve (14) are provided with first connecting round holes (16), the other group of symmetrical side walls are provided with waist-shaped long holes (17), the side walls at the lower end of the connecting inner barrel (15) are provided with movable round holes (19) at positions corresponding to the end parts of the waist-shaped long holes (17), and positioning steel bars penetrate through the waist-shaped long holes (17) to be matched with the movable round holes (19) so as to limit the length of the connecting inner barrel (15) extending into the connecting sleeve (14);

the assembled roof (11) comprises at least one roof assembly module, the roof assembly module comprises prefabricated roof supports, the prefabricated roof supports are of truss structures, first waterproof layers are fixed on the outer surfaces of the prefabricated roof supports, second waterproof layers (25) are fixed on the outer surfaces of the first waterproof layers, each second waterproof layer (25) comprises asphalt shingles (26) paved on the outer surfaces of the corresponding first waterproof layers, splicing areas are formed in the first waterproof layers on two sides of each second waterproof layer (25), each splicing area is an area where each second waterproof layer (25) is not paved, a plurality of splicing blocks (27) are fixed on one side edge of each prefabricated roof support along each splicing area, sealing foam strips (28) are filled between the splicing areas of adjacent roof assembly modules, sealing foam strips (28) are arranged on the splicing blocks (27), a third waterproof layer is paved on the outer surfaces of the splicing areas of the adjacent roof assembly modules together, and each third waterproof layer comprises a first waterproof coiled material (29) paved on the splicing areas and asphalt shingles (26) fixed on the outer surfaces of the first waterproof coiled materials (29);

the assembled foundation (12) comprises a plurality of main girder pipes (31), wherein the plurality of main girder pipes (31) form a grid bracket, and the joints of the main girder pipes (31) are connected through sleeve type connecting joints;

the upper end of the assembled house body (10) is provided with a beam steel pipe (30) connected with the assembled roof (11) along the edge.

2. A fabricated building according to claim 1, wherein: the side frame comprises four main keels (7) which are connected end to end, the keel grid frame comprises transverse keels (8) and vertical keels (9) which are perpendicular to the transverse keels (8), and the main keels (7), the transverse keels (8) and the vertical keels (9) are all C-shaped light steel keels.

3. A method of constructing the fabricated house of claim 1 or 2, comprising the steps of:

(1) Prefabricating an assembled foundation (12), an assembled wall, a connecting steel pipe (13), sleeve type connecting nodes and an assembled roof (11) in a factory;

(2) According to the functional module design of the assembled house (10), a connecting sleeve (14) is fixed at the upper end of an assembled foundation (12) in a factory, the assembled foundation (12) is installed on site, and an assembled wall is installed at the upper end of the assembled foundation (12): the lower end of the connecting inner cylinder (15) is arranged in the connecting sleeve (14) and is fixed through a rivet nut (22), the upper end of the connecting inner cylinder (15) is arranged at the lower end of the connecting steel pipe (13) and is fixed through the rivet nut (22), the two ends of the connecting steel pipe (13) are arranged in the connecting clamping grooves (4) of adjacent assembled walls and are fixed, and the steps are repeated to complete the assembly of the assembled house (10);

(3) A beam steel pipe (30) is arranged at the upper end of the assembled house body (10) in the step (2) along the edge;

(4) The assembled roof (11) is arranged at the upper end of the assembled house body (10), and the assembled roof (11) and the beam steel pipe (30) are fixed.