CN110306652B

CN110306652B - Method for building rural house assembled by light composite wall boards

Info

Publication number: CN110306652B
Application number: CN201910433946.XA
Authority: CN
Inventors: 闫明李
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-23
Filing date: 2019-05-23
Publication date: 2021-03-09
Anticipated expiration: 2039-05-23
Also published as: CN110306652A

Abstract

The invention relates to a method for constructing a rural residence assembled by light composite wallboards, which comprises the following steps: the method mainly comprises the following steps: the method comprises the steps of using a light composite wallboard, driving a concrete foundation pile on the site, placing the light composite wallboard on the concrete foundation pile, welding an angle iron ring beam on the upper end face of the combined outer wall light composite wallboard, fixedly connecting a ceiling purlin on the angle iron ring beam, fixedly connecting a foam board insulation board on the ceiling purlin, distributing and welding a plurality of herringbone beam frames on the angle iron ring beam, laying tiles on pipe-hanging tile strips on the herringbone beam frames, fixedly connecting and mounting a eave board between the herringbone beam frames and the upper end face of the outer wall light composite wallboard, carrying out cement or glass glue jointing on the butt joint of the outer wall light composite wallboard, and laying a cement ground on the indoor ground formed by the outer wall light composite wallboard. The building method is simple and convenient, the building cost is low, the temperature is good, the strength is high, the house weight is light, and the vibration resistance is good.

Description

Method for building rural house assembled by light composite wall boards

Technical Field

The invention relates to a method for constructing a rural one-storey house, in particular to a method for constructing a rural one-storey house assembled by light composite heat-insulation wallboards.

Background

Prefabricated houses and construction methods are diverse and each has its own characteristics. And the fabricated single-storey house is usually a simple single-storey house. The rural economic development of China is unbalanced, and some rural areas with lower economic income exist, so that the high cost bearing capacity of farmers for building cement bricks to construct residential houses is limited.

Disclosure of Invention

The invention aims to provide a method for building a light composite wallboard assembled residential house, which has good heat retention, convenient construction and low cost and is particularly suitable for villages.

The invention relates to a method for constructing a rural residence assembled by light composite wallboards, which comprises the following steps:

1. the light composite wall board a is used, and comprises a concrete inner panel a1, a concrete outer panel a2, a sandwich foam insulation board a3 between the concrete inner panel and the concrete outer panel, corner angle iron a4, an inner panel reinforcing steel bar mesh a5a and an outer panel reinforcing steel bar mesh a5 b;

reinforcing ribs a11 are distributed on the inner surface of the concrete inner panel a1 or the inner surface of the concrete outer panel a2 in rectangular grids, connecting lugs a12 are distributed on each reinforcing rib a11 at intervals, the connecting lugs a12 are integrally connected with the concrete outer panel a2 or the concrete inner panel a1, and a connecting column a14 which is integrally connected is arranged between the concrete inner panel a1 and the concrete outer panel a2 in each rectangular grid formed by the reinforcing ribs a 11;

a foam heat-insulating plate a3 and a foam heat-insulating block a31 are arranged in each cavity formed between the concrete inner panel a1 and the concrete outer panel a 2;

corner angle iron a4 is arranged at four corners of the formed composite wallboard;

an inner panel reinforcing mesh reinforcement a5a is provided in the concrete inner panel a1, and an outer panel reinforcing mesh reinforcement a5b is provided in the concrete outer panel a 2; the inner panel reinforcing mesh reinforcement a5a and the outer panel reinforcing mesh reinforcement a5b are formed of a plurality of reinforcing rods a51 distributed vertically and horizontally; the two ends of the reinforcing steel bar a511 outside the inner panel reinforcing steel bar mesh a5a and the outer panel reinforcing steel bar mesh a5b are welded and connected with the corner angle iron a4, so that each corner angle iron a4 is firmly fixed on the four corners of the composite wall panel;

the door and window opening a6 on the composite wall panel is formed by the rectangular grid hollows formed by the reinforcing ribs a 11.

2. Leveling a building site, distributing and driving concrete foundation piles 1 on the leveling site, pre-embedding a bottom plate steel plate 11 on the upper end plane of each concrete foundation pile 1, aligning that the bottom plate steel plates 11 on each concrete foundation pile 1 are positioned on the same horizontal plane, and marking out a light composite wallboard placement positioning line on the bottom plate steel plates 11.

3. The left end and the right end of the light composite wall board a are respectively placed on a bottom plate steel plate 11 of the concrete foundation pile 1, the left end and the right end of two outer wall light composite wall boards a on the same surface are in butt joint, an inner wall light composite wall board a' vertical to the two outer wall light composite wall boards a is in T-shaped butt joint with the two outer wall light composite wall boards a, and each light composite wall board is temporarily supported and erected by a support piece.

4. Welding an angle iron ring beam 2 on the upper end face of the light composite wallboard of the outer wall obtained by combining in the step 3, and welding and connecting the angle iron ring beam 2 with corner angle iron a4 at the upper corner of the light composite wallboard a; the upper corner iron a4 of the inner wall light composite wallboard a' is welded and connected with the upper corner iron a4 of the outer wall light composite wallboard a.

5. A plurality of ceiling purlins 3 are uniformly and fixedly distributed on the angle iron ring beam 2 on the upper end surface of the light composite wallboard of the outer wall body, and foam board heat-insulation boards 4 are fixedly connected on the ceiling purlins 3 or rock wool temperature layers are laid.

6. A plurality of herringbone beam frames 5 are distributed, welded and installed on the angle iron ring beam 2 on the upper end surfaces of the front and rear outer wall body light composite wall boards; the herringbone beam frame 5 is made of galvanized square steel pipes, and a plurality of galvanized square steel pipe tile hanging strips 6 are horizontally arranged, distributed and welded on the herringbone rods of the herringbone beam frame 5; and paving tiles 7 on the battens 6.

7. And an eave plate 8 is fixedly connected between the lower end edge of the herringbone beam frame 5 and the upper end surface of the light composite wallboard of the outer wall body.

8. And (3) carrying out cement or glass cement pointing on the butt joint 9 of the light composite wallboard a of the outer wall body.

9. And paving a cement floor 10 on the indoor floor formed by the light composite wallboards a of the outer wall body.

The method for assembling and building the rural house by using the light composite wallboard has the advantages of simple and convenient building method, low building cost, high building speed, good building quality, good heat insulation performance of the light composite wallboard, high strength, light weight of the house and good vibration resistance.

Drawings

Fig. 1, 2, 3 and 4 are schematic structural views of a light composite wall panel a of a house of the invention, wherein fig. 1 is a front view, fig. 2 is a top view of fig. 1, fig. 3 is a sectional view taken along a line a-a of fig. 1, and fig. 4 is a sectional view taken along a line B-B of fig. 1.

Fig. 5 is a cross-sectional view through D-D, E-E of fig. 4, showing the placement of an inner panel reinforcing rebar grid a5a in the concrete inner panel a1 and an outer panel reinforcing rebar grid a5b in the concrete outer panel a 2.

Fig. 6 is a schematic view of the building construction structure of the present invention.

Figure 7 is a schematic cross-sectional view of the building construction of the present invention.

Fig. 8 is a schematic view of the assembly and installation of the light composite wall panel of the house.

Fig. 9 is a schematic structural view of the house herringbone beam frame 5.

Detailed Description

1. the light composite wall board a is used and comprises a concrete inner panel a1, a concrete outer panel a2, a concrete inner and outer panel interlayer foam insulation board a3, corner angle iron a4, an inner panel reinforcing steel bar mesh a5a and an outer panel reinforcing steel bar mesh a5 b;

the window a6 on the composite wall board is formed by the rectangular grid space formed by the reinforcing ribs a 11.

Uniformly and fixedly connecting a plurality of ceiling purlins 3 on the angle iron ring beam 2 on the upper end surface of the light composite wallboard of the outer wall body, wherein the ceiling purlins 3 are galvanized square pipes or battens; and a foam board heat-insulation board 4 is fixedly connected to the ceiling purline 3, or a rock wool temperature layer is laid.

6. A plurality of herringbone beam frames 5 are distributed, welded and installed on the angle iron ring beams 2 on the upper end surfaces of the front and rear outer wall body light composite wall plates a, the herringbone beam frames 5 are made of galvanized square steel pipes, and a plurality of galvanized square steel pipe hanging tile strips 6 are horizontally distributed, welded and arranged on herringbone rods of the herringbone beam frames 5; and paving tiles 7 on the battens 6.

7. A roof eaves board 8 is fixedly connected between the lower end edge of the herringbone beam frame 5 and the upper end surface of the light composite wallboard a of the outer wall body;

the eave plate 8 is made of reinforced concrete or iron plates and the like, and two ends of the eave plate 8 made of reinforced concrete are respectively welded and connected with the lower ends of the angle iron ring beam 2 and the herringbone beam frame 5 through reinforcing steel bar heads.

The door and window of the country house assembled and constructed by the light composite wallboard of the invention is an aluminum alloy or plastic steel door and window, and can be firstly installed on the door and window opening of the light composite wallboard, or the door and window can be installed on the door and window opening of the light composite wallboard after the construction of the house is finished.

The upper end face of the light composite wallboard of the outer wall body is welded with an angle iron ring beam 2, and the angle iron ring beam 2 is welded and connected with corner angle iron a4 at the upper corner of the light composite wallboard a; the upper corner iron a4 of the inner wall light composite wallboard a' is welded and connected with the upper corner iron a4 of the outer wall light composite wallboard a; the upper part of the wall body is forcibly connected, and the lower part of the wall body is not forcibly connected with the concrete foundation piles 1, so that the concrete foundation piles 1 do not over-restrict the wall body, and the pulling damage to the light composite wall board caused by uneven settlement of the concrete foundation piles 1 can be effectively prevented. Therefore, the corner iron a4 at the lower end of the light composite wall board and the bottom steel plate 11 on the concrete foundation pile 1 can be fixedly connected by spot welding only to prevent the light composite wall board from shifting during assembly.

Claims

1. The construction method of the rural house assembled by the light composite wall boards comprises the following steps: the method is characterized in that:

(1) using a light composite wall panel (a) which comprises a concrete inner panel (a1), a concrete outer panel (a2), a sandwich foam insulation board (a3) between the concrete inner panel and the concrete outer panel, corner angle iron (a4), an inner panel reinforcing steel bar net (a5a) and an outer panel reinforcing steel bar net (a5 b);

reinforcing ribs (a11) are distributed on the inner surface of the concrete inner panel (a1) or the inner surface of the concrete outer panel (a2) in a rectangular grid manner, connecting lugs (a12) are distributed on each reinforcing rib (a11) at intervals, the connecting lugs (a12) are integrally connected with the concrete outer panel (a2) or the concrete inner panel (a1), and connecting columns (a14) which are integrally connected are arranged between the concrete inner panel (a1) and the concrete outer panel (a2) in each rectangular grid formed by the reinforcing ribs (a 11);

a foam insulation plate (a3) and a foam insulation block (a31) are arranged in each cavity formed between the concrete inner panel (a1) and the concrete outer panel (a 2);

corner angle irons (a4) are arranged at four corners of the formed composite wallboard;

an inner panel reinforcing mesh (a5a) is provided in the concrete inner panel (a1), and an outer panel reinforcing mesh (a5b) is provided in the concrete outer panel (a 2); the inner panel reinforcing mesh (a5a) and the outer panel reinforcing mesh (a5b) are formed by a plurality of reinforcing bars (a51) distributed in a longitudinal and transverse direction; the two ends of the reinforcing steel bar (a511) outside the reinforcing steel bar net (a5a) of the inner panel and the reinforcing steel bar net (a5b) of the outer panel are welded and connected with the corner angle iron (a4), so that the corner angle irons (a4) are firmly fixed on the four corners of the composite wall panel;

the door and window opening (a6) on the composite wallboard is formed by rectangular grid hollows formed by the reinforcing ribs (a 11);

(2) leveling a building site, distributing and driving concrete foundation piles (1) on the leveling site, pre-burying a bottom plate steel plate (11) on the upper end plane of each concrete foundation pile (1), aligning that the bottom plate steel plates (11) on each concrete foundation pile (1) are positioned on the same horizontal plane, and marking a light composite wallboard placement positioning line on the bottom plate steel plates (11);

(3) respectively placing the left end and the right end of the light composite wall board (a) on a bottom plate steel plate (11) of a concrete foundation pile (1), butting the left end and the right end of two outer wall light composite wall boards (a) on the same surface, butting an inner wall light composite wall board (a') vertical to the two outer wall light composite wall boards (a) with the two outer wall light composite wall boards (a) in a T shape, and temporarily supporting and erecting each light composite wall board by a supporting piece;

(4) welding an angle iron ring beam (2) on the upper end face of the light composite wallboard of the outer wall obtained by combining in the step (3), and welding and connecting the angle iron ring beam (2) with corner angle iron (a4) at the upper corner of the light composite wallboard (a); the upper corner iron (a4) of the inner wall light composite wallboard (a') is welded and connected with the upper corner iron (a4) of the outer wall light composite wallboard (a);

(5) uniformly and fixedly connecting a plurality of ceiling purlins (3) on the angle iron ring beam (2) on the upper end surface of the light composite wallboard of the outer wall body, and fixedly connecting foam board insulation boards (4) on the ceiling purlins (3) or laying rock wool temperature layers;

(6) a plurality of herringbone beam frames (5) are distributed, welded and installed on the angle iron ring beams (2) on the upper end surfaces of the front and rear outer wall body light composite wall boards; the herringbone beam frame (5) is made of galvanized square steel pipes, and a plurality of galvanized square steel pipe tile hanging strips (6) are horizontally arranged, distributed and welded on the herringbone rods of the herringbone beam frame (5); paving tiles (7) on the tile hanging strips (6);

(7) fixedly connecting and installing eave boards (8) between the lower end edge of the herringbone beam frame (5) and the upper end surface of the light composite wallboard of the outer wall body;

the eave plate (8) is made of reinforced concrete or iron plate material, and two ends of the eave plate (8) made of reinforced concrete are respectively welded with the lower ends of the angle iron ring beam (2) and the herringbone beam frame (5) through reinforcing steel bar heads;

(8) pointing the joint (9) of the outer wall light composite wallboard (a) by cement or glass cement;

(9) paving a cement floor (10) on the indoor floor formed by the light composite wallboard (a) of the outer wall body.