CN210067136U - ALC wallboard composite wall for modular building - Google Patents

Abstract

The utility model relates to a ALC wallboard composite wall for module building, a serial communication port, include: wall body subassembly, structure main joist and wall body secondary joist, the junction of two wall body subassemblies is connected through structure main joist, and the wall body subassembly includes from outside to inside in proper order: the wall body secondary keel comprises an outer wall decorating plate, a first fiber cement plate, an ALC wallboard, a waterproof steel plate, a second fiber cement plate and an indoor decorating layer, wherein a plurality of wall body secondary keels are arranged and supported between the waterproof steel plate and the second fiber cement plate. The utility model discloses a wall body intensity is high, crashworthiness is strong, the security performance is strong.

Description

ALC wallboard composite wall for modular building

Technical Field

The utility model relates to a ALC wallboard composite wall for module building belongs to the building field.

Background

With the development and maturity of social economy, the national attention on environmental protection, production transformation of building industry and development and application of novel building materials are met with very good market opportunities and vigorous development opportunities. The modular building is a result form of building industrialization industry, and a development direction for advocating green environmental protection and energy conservation becomes a hot topic and a sunward industry of the building market at the present stage.

Since the market for modular buildings began later, development was rapid but the related art was still immature. The existing modular building mainly comprises a container type modular house, a wood structure type modular house and a steel framework type modular house. The container type module house is a common module house in the existing market, the wall body plate of the container type module house is a special steel plate of a shipping box with the thickness of 1.6mm, and the container type module house is fully welded on a box body steel framework. The wood structure type modular house is a relatively traditional building form, the main structure and the wall enclosure structure of the wood structure type modular house are all made of wood, and the wood structure type modular house has the advantages of being light in material, simple and convenient to build, high in suitability, comfortable in living experience, and capable of being used for space requirements of a mountain hotel and the like. The disadvantage is that wood itself has poor corrosion resistance and even poor fire resistance. The steel frame module house is the trend and direction of module house development, and its wall structure mainly uses steel keel and heat-insulating and fire-proof rock wool as wall filler, and adds a structural form of internal and external decorative wall board, and its advantages are that fire-proof, heat-insulating and sound-insulating properties are raised, but its corrosion-resisting property is poor, and the impact-resisting property of wall body is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ALC wallboard composite wall for module building to solve above-mentioned problem.

The utility model adopts the following technical scheme:

an ALC wallboard composite wall for use in modular construction, comprising: wall body subassembly, structure main joist and wall body secondary joist, the junction of two wall body subassemblies is connected through structure main joist, and the wall body subassembly includes from outside to inside in proper order: the wall body secondary keel comprises an outer wall decorating plate, a first fiber cement plate, an ALC wallboard, a waterproof steel plate, a second fiber cement plate and an indoor decorating layer, wherein a plurality of wall body secondary keels are arranged and supported between the waterproof steel plate and the second fiber cement plate.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic: the heat-preservation fireproof rock wool layer is filled in a gap between the waterproof steel plate and the second fiber cement plate.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic: wherein the first and second fiber cement boards have a thickness in the range of 5mm to 15 mm.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic, still has: a top mount assembly comprising: and the U-shaped clamp is reversely buckled at the top end of the joint of the two wall body assemblies.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic, still has: a top mount assembly comprising: and the right-angle steel piece is fixed at the corner of the upper end of the wall body assembly.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic: further comprising: a top mount assembly comprising: and the pair of angle steels are fixedly arranged at the inner side and the outer side of the upper end of the wall body assembly.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic: further comprising: a top mount assembly comprising: bar connecting piece and C-shaped groove, the side at wall body subassembly top is fixed to bar connecting piece lower extreme, and the dop card of bar connecting piece upper end is gone into in the C-shaped groove.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic, still has: a top mount assembly comprising: the pipe strap, the pipe strap has fixed pipe and top surface stationary blade, and fixed pipe welds on the top surface stationary blade perpendicularly, and fixed pipe inserts in the wall body subassembly top, and the stationary blade is fixed on the roof floor.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic, still has: a top mount assembly comprising: joint reinforcing bar and metal expansion head, joint reinforcing bar are located wall body assembly's inside, and the upper end welds with metal expansion head.

Further, the utility model discloses a ALC wallboard composite wall for module building still has such characteristic, still has: and the bottom mounting assembly is consistent in structure and mutually corresponding in position with the top mounting assembly.

Beneficial effects of the utility model

The utility model discloses a ALC wallboard composite wall for module building has following advantage:

(1) the performances of heat preservation, fire prevention, corrosion prevention and sound insulation are far higher than those of the traditional buildings, and the building method is suitable for the building requirements of extremely cold regions.

(2) High antifreezing and impervious performance.

(3) The environmental protection is strong, the factory is prefabricated, and the field is free of wet operation.

(4) The wall body has high strength, strong impact resistance and strong safety performance.

(5) The wall body plate has high strength and light weight, and the existing inner and outer wall decorative plates can be arranged on the wall body plate and can be directly used for coating and painting construction.

(6) Industrial production in factories can be carried out, transportation and installation are convenient, and the device is suitable for module construction.

Drawings

FIG. 1 is a schematic overall structure diagram of the ALC wallboard composite wall for modular building of the present invention;

FIG. 2 is a schematic view of the top end of the wall assembly connected using a U-shaped card;

FIG. 3 is a schematic view of the upper ends of the wall assemblies being connected using right angle steel members;

FIG. 4 is a schematic view of the upper ends of the wall assemblies connected by angle steel;

FIG. 5 is a schematic view of the upper end of the wall assembly using a strip connector;

FIG. 6 is a schematic view of the upper end of the wall assembly being connected using a pipe clamp;

FIG. 7 is a schematic view of the upper ends of the wall assemblies being connected using joint rebar;

FIG. 8 is a schematic view of the lower end of the wall assembly connected using a U-shaped card;

FIG. 9 is a schematic view of the lower ends of the wall assemblies being connected using right angle steel members;

FIG. 10 is a schematic view of the lower ends of the wall assemblies connected using angle steel;

FIG. 11 is a schematic view of the lower end of the wall assembly using a strip connection;

FIG. 12 is a schematic view of the lower end of the wall assembly being connected using a pipe clamp;

figure 13 is a schematic view of the lower ends of the wall assemblies being joined using joint rebar.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1, an ALC wallboard composite wall for use in modular construction, comprising:

wall components, structural main keels 20 and wall secondary keels 19,

The junction of the two wall assemblies is connected by structural main runners 20,

wall body subassembly includes from outside to inside in proper order: the decorative panel comprises an outer wall decorative panel 11, a first fiber cement panel 12, an ALC wallboard 13, a waterproof steel plate 14, a heat-preservation fireproof rock wool layer 16, a second fiber cement panel 18 and an indoor decorative layer 17.

The ALC wallboard 13, ALC is the abbreviation of Autoclaved Lightweight Concrete, and is one of high-performance Autoclaved aerated Concrete. The ALC board is a porous concrete forming board which is formed by curing fly ash or silica sand, cement, lime and the like serving as main raw materials through high-pressure steam, and the ALC board contains processed reinforcing steel bars for reinforcement.

The wall secondary joist 19 is provided with a plurality of beams supported between the waterproof steel plate 14 and the second fiber cement plate 18.

The space between the waterproof steel plate 14 and the second fiber cement plate 18 is filled with the heat-preservation fireproof rock wool layer 16. The thickness of the waterproof steel plate 14 is 1 mm.

The first fiber cement sheet 12 and the second fiber cement sheet 18 have a thickness in the range of 5mm to 15 mm. In this embodiment, a thickness of 10mm is selected. The fiber cement board is a board prepared by taking cement as a basic material and an adhesive and taking mineral fiber cement and other fibers as reinforcing materials through the processes of pulping, forming, maintaining and the like.

The wall assembly 22 is mounted between the upper and lower floors or between the beam and the floor by top and bottom mounting assemblies.

In one embodiment, as shown in FIG. 2, a top mount assembly, comprises: a first U-shaped clip 24, the first U-shaped clip 24 being inverted over the top of the joint between the two wall assemblies 22. The U-shaped corner of the first U-shaped clamp 24 is fixed on the first floor 21 through a first fixing bolt.

In one embodiment, as shown in FIG. 3, a top mount assembly includes: and the first right-angle steel part 25 is L-shaped, and the transverse section of the L-shaped is fixed at the corner of the upper end of the wall body assembly through a second fixing bolt 27. And is secured to the side of the wall assembly 22 by a third anchor bolt 26.

In one embodiment, as shown in FIG. 4, a top mount assembly includes: a pair of first angle bars 28 are fixedly installed at both inner and outer sides of the upper end of the wall assembly 22. And are fixed to the first floor 21 by fourth fixing bolts 29, respectively.

In one embodiment, as shown in FIG. 5, a top mount assembly includes: the first bar-shaped connecting piece 31 and the first C-shaped groove 30, the lower end of the first bar-shaped connecting piece 31 is fixed on the side edge of the top of the wall body component 22, and the clamping head at the upper end of the first bar-shaped connecting piece 31 is clamped in the first C-shaped groove 30.

In one embodiment, as shown in FIG. 6, a top mount assembly, comprises: the first pipe strap, the first pipe strap has first fixed pipe 34 and first top surface stationary blade 33, and first fixed pipe 34 welds perpendicularly on first top surface stationary blade 33, and first fixed pipe 34 inserts in the top of wall body subassembly 22, and first stationary blade 33 passes through fifth fixing bolt 32 and fixes on first floor 21 of roof.

In one embodiment, as shown in FIG. 7, a top mount assembly, comprises: first joint reinforcing bar 36 and first metal expansion head 35, first joint reinforcing bar 36 sets up in advance in the inside of wall body group spare 22, and the upper end of first joint reinforcing bar 36 and first metal expansion head 35 welding.

In one embodiment, as shown in fig. 8, a bottom mount assembly, comprises: and a second U-shaped clip 37 and a second U-shaped clip 27 are reversely fastened to the bottom end of the joint of the two wall assemblies 22. The U-shaped turn of the second U-shaped clamp 27 is fixed on the second floor 40 by a sixth fixing bolt 38.

In one embodiment, as shown in fig. 9, a top mount assembly, comprises: and the second right-angle steel piece 50 is L-shaped, and the transverse section of the L-shape is fixed at the corner of the lower end of the wall body component 22 through a second fixing bolt 40. And is fixed to the side of the wall assembly 22 by a seventh fixing bolt 39.

In one embodiment, as shown in fig. 10, a bottom mount assembly, comprises: and a pair of second angle irons 41 fixedly installed at both inner and outer sides of the lower end of the wall assembly 22. And are fixed to the second floor 38 by eighth fixing bolts 42, respectively.

In one embodiment, as shown in fig. 11, a bottom mount assembly, comprises: the seam 43 is filled with 1:3 cement mortar.

In one embodiment, as shown in fig. 12, a bottom mount assembly includes: and the second pipe clamp is provided with a second fixing pipe 44 and a second top surface fixing sheet 45, the second fixing pipe 44 is vertically welded on the second top surface fixing sheet 45, the second fixing pipe 44 is inserted into the bottom end of the wall assembly 22, and the second fixing sheet 45 is fixed on the second floor slab 38 through the ninth fixing bolt 32.

In one embodiment, as shown in fig. 13, a bottom mount assembly, comprises: second joint reinforcing bars 47 and second metal expansion heads 49, the second joint reinforcing bars 47 being previously provided in the interior of the wall assembly 22, and the lower ends of the second joint reinforcing bars 47 being welded to the second metal expansion heads 49. A second metal expansion head 49 is fixedly secured in second floor 38.

The bottom mounting assembly may be structurally identical to the top mounting assembly and may be positioned relative to each other. Other connection methods described above may also be used in random combinations.

The ALC wallboard composite wall for the module building of the embodiment has the following processing technological processes:

manufacturing a main keel frame and a secondary keel frame, cutting an ALC plate, laying and installing a pipeline, installing and fixing the ALC plate, filling and installing heat-preservation rock wool, installing an inner base plate and an outer base plate, installing an inner wall plate and an outer wall plate or a decorative plate, installing equipment and finishing.

Wherein the heat preservation rock wool can be selectively arranged.

(1) The heat preservation, fire prevention, corrosion prevention and sound insulation performance is high, if the heat preservation and fire prevention rock wool is filled and installed, the heat preservation and fire prevention performance is far higher than that of the traditional building, and the building requirement of extremely severe cold areas is met.

(2) Has strong frost resistance and impermeability.

(3) The environment protection is strong, the factory is prefabricated, and the field is free of wet operation.

(4) The wall body has high strength, strong impact resistance and strong safety performance.

(5) The wall body plate has high strength and light weight, and the existing inner and outer wall decorative plates can be arranged on the wall body plate and can be directly used for coating and painting construction.

(6) Industrial production can be carried out, transportation and installation are convenient, and the method is suitable for module construction.

Claims (10)

1. An ALC wallboard composite wall for use in modular construction, comprising:

wall components, a structural main keel and wall secondary keels,

the joints of the two wall assemblies are connected through the structural main keel,

wall body subassembly includes from outside to inside in proper order: the wall body secondary keel comprises an outer wall decorating plate, a first fiber cement plate, an ALC wallboard, a waterproof steel plate, a second fiber cement plate and an indoor decorating layer, wherein a plurality of wall body secondary keels are arranged and supported between the waterproof steel plate and the second fiber cement plate.

2. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

the heat-preservation fireproof rock wool layer is filled in a gap between the waterproof steel plate and the second fiber cement plate.

3. An ALC wallboard composite wall for use in modular construction as claimed in claim 1 wherein:

wherein the first and second fiber cement boards have a thickness in the range of 5mm to 15 mm.

4. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: and the U-shaped clamp is reversely buckled at the top end of the joint of the two wall body assemblies.

5. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: and the right-angle steel piece is fixed at the corner of the upper end of the wall body assembly.

6. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: and the pair of angle steels are fixedly arranged at the inner side and the outer side of the upper end of the wall body assembly.

7. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: bar connecting piece and C-shaped groove, the side at wall body subassembly top is fixed to bar connecting piece lower extreme, and the dop card of bar connecting piece upper end is gone into in the C-shaped groove.

8. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: the pipe strap, the pipe strap has fixed pipe and top surface stationary blade, and fixed pipe welds on the top surface stationary blade perpendicularly, and fixed pipe inserts in the wall body subassembly top, and the stationary blade is fixed on the roof floor.

9. An ALC wallboard composite wall for use in a modular building as claimed in claim 1 further comprising:

a top mount assembly comprising: joint reinforcing bar and metal expansion head, joint reinforcing bar are located wall body assembly's inside, and the upper end welds with metal expansion head.

10. An ALC panel composite wall for a modular building as recited in any one of claims 4-9, further comprising:

and the bottom mounting assembly is consistent in structure and mutually corresponding in position with the top mounting assembly.

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