CN210507764U - House with full life cycle - Google Patents

Abstract

The utility model relates to a house with a full life cycle, wherein the bottom of a light partition wall is tightly matched with the top of a lower floor slab through a height adjusting piece, and the top of the light partition wall is tightly matched with the top of an upper floor slab or in threaded connection; one light partition wall comprises a module wallboard or is formed by splicing at least two module wallboards; if the top of the light partition wall is in threaded connection with the upper floor slab, a plurality of pre-embedded fixing nuts A are pre-embedded on the lower surface of the upper floor slab, and the top of the light partition wall is connected with the pre-embedded fixing nuts A through connecting bolts A; and the lower surface of the upper floor slab is also pre-embedded with an embedded adjusting nut A matched with the connecting bolt A for newly installing or adjusting the position of the module wallboard. The utility model adopts the light wall body, and the light wall body is connected with the building beam and the plate concrete by screw threads or is tightly matched with the building beam and the plate concrete, so the assembly and the disassembly are simple, the operation is easy, the building is not needed, and no dust pollution is caused; the house owner can dismantle and install according to the demand of own family in different stages after receiving the room, satisfies the individualized demand of different life stages.

Description

House with full life cycle

Technical Field

The utility model relates to a housing construction technical field especially relates to house with full life cycle.

Background

The house is still more than ten years or even a lifetime for most common people in China. The life of a person can be divided into a plurality of stages, and in each stage, the using function of the house can be thought and required differently.

When a person is single, a simple and spacious independent living space is needed; after marriage, a two-person world with warm and sweet taste is needed; when a baby is born, parents (nurses) come to help to take care of the baby, the number of family people is increased, and privacy is also considered while the room is used according to functions; the children grow gradually, and after the children can slowly take care of themselves, the children need an independent living and learning space; when the child becomes home and leaves the parent to live alone, the two-people world … … is recovered

A person's lifetime experiences many changes and each family will have different needs for housing at different times. The house belongs to fixed assets, and brings much inconvenience and ineffectiveness to families with various requirements due to the position fixity of the house. When people consider changing rooms due to different requirements, a series of problems are faced, such as: the position and price of the house, the distance between the house and the office, the periphery of the life, the convenience of traffic, the study and reading of children and the like. Therefore, people can have a set of changeable houses which can meet the requirements of families at different periods at any time, and the house is very important.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a house with full life cycle, the owner can dismantle the installation according to the demand of oneself family after receiving the room, satisfies individualized demand.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the house with the full life cycle comprises an upper floor slab, a lower floor slab and a light partition wall arranged between the upper floor slab and the lower floor slab, wherein the bottom of the light partition wall is tightly matched with the top of the lower floor slab through a height adjusting piece, and the top of the light partition wall is tightly matched with the top of the upper floor slab or in threaded connection; one light partition wall comprises a module wallboard or is formed by splicing at least two module wallboards;

if the top of the light partition wall is in threaded connection with the upper floor slab, a plurality of pre-embedded fixing nuts A are pre-embedded on the lower surface of the upper floor slab, and the top of the light partition wall is connected with the pre-embedded fixing nuts A through connecting bolts A; and the lower surface of the upper floor slab is also pre-embedded with an embedded adjusting nut A matched with the connecting bolt A for newly installing or adjusting the position of the module wallboard.

Further, the light partition wall also comprises a wall body main keel, the wall body main keel is vertically arranged, the top end of the wall body main keel is connected with a U-shaped connecting piece, the U-shaped connecting piece is fixedly connected with an upper floor slab through the connecting bolt A, the lower end of the wall body main keel is tightly matched with the top of a lower floor slab through a height adjusting piece, and the module wall board is in threaded connection or riveting with the wall body main keel;

when the light partition wall is formed by at least two module wallboards in a splicing mode, two adjacent module wallboards are spliced into a whole through the wall main keel.

Further preferably, the wall body main joist is a rectangular pipe, and the U-shaped connecting piece is inserted in the wall body main joist.

Or the top of the module wallboard is tightly matched with the top of the upper floor slab, and the bottom of the module wallboard is tightly matched with the top of the lower floor slab through the height adjusting piece.

Or the top of the module wallboard is fixedly connected with the upper floor through a U-shaped connecting piece, and the bottom of the module wallboard is tightly matched with the top of the lower floor through a height adjusting piece; the U-shaped connecting piece is fixedly connected with the upper floor through the connecting bolt A, and the top of the module wallboard is in threaded connection and/or insertion connection with the U-shaped connecting piece.

Furthermore, the height adjusting piece comprises a supporting piece and an adjusting bolt, a through hole matched with the adjusting bolt is formed in the supporting piece, a nut matched with the adjusting bolt in a threaded mode is welded in the through hole or the through hole, the adjusting bolt is vertically installed in the through hole, the lower end of the adjusting bolt is supported on the lower floor, and the bottom of the light partition wall is supported on the supporting piece.

Further preferably, the supporting member is a pi-shaped supporting member, the lower end of the light partition wall is tightly pressed against the flange of the pi-shaped supporting member, and the through hole is formed in the ridge plate of the pi-shaped supporting member.

Furthermore, the house with the full life cycle further comprises a shear wall and a building column, wherein an embedded fixing nut B is horizontally embedded in the position, connected with the light partition wall, on the shear wall and/or the building column, and a connecting bolt B in threaded connection with the embedded fixing nut B is operatively connected to the side surface, adjacent to the shear wall or the building column, of the light partition wall; and embedded adjusting nuts B matched with the connecting bolts A are horizontally embedded in the shear wall and/or the building column for newly installing or adjusting the position of the light partition wall.

Furthermore, light partition wall still includes the wall fossil fragments that are located light partition wall side, has the through-hole with connecting bolt B adaptation on the wall fossil fragments, and connecting bolt B dress is in this through-hole.

Compared with the prior art, the utility model discloses following beneficial effect has:

1, the utility model adopts the light wall body, and the light wall body is connected with the building beam and the plate concrete by screw threads or is tightly matched with the building beam and the plate concrete, the assembly and the disassembly are simple, the operation is easy, the building is not needed, and no dust pollution is caused; the house owner can disassemble and assemble after receiving the house according to the requirements of different stages of the house, redundant modules can be disassembled and then put into a storeroom or a bed bottom, or can be recycled and renewed by the original factory for other families, when the house owner needs to use, the modules can be taken out and assembled, or the house owner can find a manufacturer to install the modules at home, so that the house owner is convenient and does not influence the appearance;

2, for the connection mode of the embedded parts, the design of planning the whole life cycle of the house type can be intervened during building design, then the design such as installing the embedded parts of the modularized partition wall is carried out aiming at the design drawing of the house type, and when the concrete beam slab is constructed on site, the related components are embedded in the beam slab according to the embedded process drawing;

3, the module wall board can be produced in batch in a factory according to the actual size on site, the production efficiency of the product is improved, the stability of the quality is ensured, the manufacturing cost is reduced due to the batch mechanical production, the industrial production precision is convenient to control, the grade of the quality of the building can be improved, and the building period is shortened;

4, as the main materials of the modularized light partition wall are steel structures and wood, the volume weight is light, the overall weight is reduced, the modularized light partition wall is very favorable for structural earthquake-resistant calculation, and the structural cost is reduced to a certain extent; compared with a reinforced concrete structure, the light partition wall has the advantages that the influence of rigidity is basically negligible, so that the actual stress condition of a building is close to the computer simulation condition; only need take effectual measure when the installation, make it link with major structure is firm, avoid when the earthquake collapse can, even if local destruction drops, compare in the masonry building block that drops, reduced a lot to the injury of human body.

Drawings

FIG. 1 is a schematic view of a house type A according to an embodiment;

FIG. 2 is a schematic view of a house type B according to the embodiment;

FIG. 3 is a schematic view of a house type C according to the embodiment;

FIG. 4 is a schematic structural diagram of a light partition wall according to one embodiment;

FIG. 5 is a schematic view of the installation of the main wall runner of FIG. 4;

FIG. 6 is a cross-sectional view taken at A in FIG. 5;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is a schematic structural view of a U-shaped connector according to one embodiment;

fig. 9 is a partial enlarged view at B in fig. 6;

FIG. 10 is a schematic view of a support member according to one embodiment;

FIG. 11 is a cross-sectional view taken at A in FIG. 5;

FIG. 12 is an enlarged view of a portion of FIG. 11 at A;

FIG. 13 is a three-dimensional view of a modular wall panel according to one embodiment;

FIG. 14 is a top view of a modular wall panel according to one embodiment;

FIG. 15 is a schematic view of a rotary method of assembling modular wall panels and wall main runners according to one embodiment;

FIG. 16 is a schematic view of a modular wall panel of one embodiment shown assembled with a wall main runner;

figure 17 is a schematic structural view of a Z-shaped wallboard keel;

FIG. 18 is a schematic view of a plate embedded fastening nut;

FIG. 19 is a schematic view of a post pre-cast fastening nut;

FIG. 20 is a schematic view showing the connection of the top of the light partition wall according to the second embodiment;

FIG. 21 is a cross-sectional view taken at a in FIG. 20;

FIG. 22 is a schematic structural view of a U-shaped connecting member according to a second embodiment;

FIG. 23 is a schematic view showing the connection of the lower part of the lightweight partition according to the second embodiment;

FIG. 24 is a schematic structural view of a supporting member in the second embodiment;

FIG. 25 is a three-dimensional view of a modular wall panel of the second embodiment;

FIG. 26 is a schematic view showing the connection of the top of the light partition wall in the third embodiment;

FIG. 27 is a cross-sectional view taken at b in FIG. 26;

FIG. 28 is a schematic view showing the junction between the lightweight partition and the upper floor in the fourth embodiment;

FIG. 29 is a cross-sectional view taken at a in FIG. 28;

in the figure: 1-upper floor slab, 2-joint filling adhesive tape, 3-embedded fixing nut A, 4-connecting bolt A, 5-module wallboard, 6-wall main keel, 7-U-shaped connecting piece, 8-adjusting bolt, 9-supporting piece, 10-post pouring concrete layer, 11-building column, 12-embedded fixing nut B, 13-connecting bolt B, 14-wall edge keel, 15-plate shaping template, 16-column shaping template, 17-sandwich plate, 18-connecting reinforcing plate, 19-split bolt, 20-sealing adhesive tape, 21-pipeline empty layer, 22-bonding layer, 23-decorative surface layer, 24-decorative skirting line, 25-positioning fixing bolt, 26-fireproof rubber strip, 27-decorative edge folding, 31-embedded adjusting nuts A, 51-C type wall plate keels, 52-panels, 53-sound absorbing materials, 54-L type joint parts, 55-Z type wall plate keels, 56-wall body U type secondary keels, 61-interlayer plate split bolt holes, 71-through holes, 72-positioning holes, 91-flanges, 92-ridge plates, 93-through holes, 94-connecting holes, 121-embedded adjusting nuts B and 551-folded plates.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

Example one

As shown in fig. 1, 2,3, 4 and 5, the house with a full life cycle disclosed in this embodiment includes an upper floor slab including a structural slab 1, a lower floor slab including a structural slab 1 and a decorative layer above the structural slab 1, a shear wall and a building column 11, and a light partition wall installed between the upper floor slab and the lower floor slab, where the structural slab 1 of the upper floor slab typically includes a building beam and a slab concrete. One light partition wall comprises a module wallboard 5 or is formed by splicing at least two module wallboards 5.

In the embodiment, the bottom of the light partition wall is tightly matched with the top of the lower floor slab through the height adjusting piece, and the top of the light partition wall is in threaded connection with the upper floor slab. The lower surface of the upper floor slab is embedded with a plurality of embedded fixing nuts A3, the top of the light partition wall is operatively connected with a connecting bolt A4 in threaded connection with the embedded fixing nuts A3, and the top of the light partition wall is fixed through the connecting bolt A4 and the embedded fixing nuts A3. In addition, the lower surface of the upper floor slab is also pre-embedded with pre-embedded adjusting nuts A31 matched with the connecting bolts A4 for newly installing or adjusting the positions of the module wall boards 5, and when the redundant pre-embedded nuts are not used, the redundant pre-embedded nuts can be covered by decorative paste or cover plates, so that the visual attractiveness is not influenced. When the house type needs to be adjusted, all the hidden embedded parts can be found according to the design drawings of the embedded parts.

The shear wall and/or the building column 11 is horizontally embedded with embedded fixing nuts B12 at the positions connected with the light partition walls, the side surfaces of the light partition walls adjacent to the shear wall or the building column 11 are operatively connected with connecting bolts B13 in threaded connection with the embedded fixing nuts B12, and the side surfaces of the light partition walls adjacent to the shear wall or the building column 11 are connected with the shear wall and/or the building column 11 through 2,3, 4 or more connecting bolts B13. And embedded adjusting nuts B121 matched with the connecting bolts A4 are horizontally embedded on the shear wall and/or the building column 11 and used for newly installing or adjusting the position of the light partition wall.

The top of the light partition wall is connected with a beam slab, a shear wall or a column through a connecting bolt A4, the lower end of the light partition wall is fixed with the ground in a jacking mode, the assembling mode is simple, the assembling efficiency is high, and the light partition wall is convenient to disassemble.

As shown in fig. 1, the house type constructed by the developer during the house delivery is a standard house type with three rooms, one hall and one toilet, and at this time, 14 beam plate fixing nuts and 15 columns or shear wall nuts are embedded in the upper floor slab. 10 of the 14 beam plate fixing nuts are pre-embedded fixing nuts A3, and 4 pre-embedded adjusting nuts A31; the 15 column or shear wall nuts are provided with 12 pre-embedded fixing nuts B12 and 3 pre-embedded adjusting nuts B121. The number and the position of the embedded nuts are not limited to the design required by house type change.

In the figure 1, the first room and the second room are separated by light partition walls, the shear walls are removed from the three rooms, and the rest wall surfaces are the light partition walls.

When a single person needs a simple and spacious independent living space or a two-person world which needs a sweet and warm after marriage, the owner can change the house type into the house type shown in fig. 2 according to the needs. The first room is communicated with the second room by removing the light partition wall between the first room and the second room, the first room serves as a main bed, the second room serves as a study, the third room serves as a clothes and hat room, and the clothes and hat room is communicated with the washing room. Meanwhile, the doors of the first room, the second room and the third room are removed, and a door is additionally arranged between the light partition wall of the living room and the structural wall of the toilet, so that the room becomes spacious and wide. The redundant module wall plates 5 can be detached and put into a storeroom or a bed bottom, or recovered and renewed by the original factory for other families. When the novel multifunctional combined furniture is needed to be used, the novel multifunctional combined furniture can be taken out and assembled, or a manufacturer can be found to mount the novel multifunctional combined furniture, so that the novel multifunctional combined furniture is convenient and does not influence the appearance.

When a baby is born, parents and nurses help to take care of the baby, the number of family members is increased, the room is used according to the functions, meanwhile, privacy is also considered, and the house type can be changed to the house type in the picture 1.

After children grow up gradually, the children can slowly self-care, and the children need an independent living and learning space, and the house type can be changed into the house type shown in fig. 3 by the owner according to the needs. The second room is used as a child room, the third room is used as a study room, and the light partition wall between the first room and the second room can be moved to the second room for a certain distance by embedding the adjusting nut A31 because the room required by the child is small.

When the child becomes home and leaves the parents to live alone, the two-person world is restored, and the house type can be changed according to the needs. In the embodiment, the light partition wall is connected by threads and tightly matched with the top, so that the light partition wall is convenient to disassemble and assemble, a skilled worker can finish the change in half a day or a day, and an owner does not need to remove the light partition wall, and the light partition wall is very convenient.

In this embodiment, the light partition wall further comprises a wall main keel 6, the wall main keel 6 is vertically arranged, the top end of the wall main keel 6 is connected with a U-shaped connector 7, the U-shaped connector 7 is fixedly connected with an upper floor slab through a connecting bolt a4, the lower end of the wall main keel 6 is tightly matched with the top of a lower floor slab through a height adjusting part, and the module wall board 5 is in threaded connection or riveting with the wall main keel 6; when the light partition wall is formed by splicing at least two module wallboards 5, the two adjacent module wallboards 5 are spliced into a whole through the wall main keel 6.

As shown in fig. 4, one of the light partition walls includes two module wall boards 5 and a wall main keel 6, and two adjacent module wall boards 5 are spliced into a whole through the wall main keel 6. The light partition wall also comprises a wall keel 14 positioned at the side edge of the light partition wall, the wall keel 14 is provided with a through hole matched with the connecting bolt B13, and the connecting bolt B13 is arranged in the through hole, so that the light partition wall is fixedly connected with the shear wall and/or the building column 11.

As shown in fig. 4, 5, 6 and 7, the embedded fixing nuts A3 are vertically arranged, the wall main keel 6 is vertically arranged, the top end of the wall main keel 6 is connected with the U-shaped connecting piece 7, and the U-shaped connecting piece 7 is fixedly connected with the upper floor slab through the connecting bolts a 4. As shown in fig. 7 and 8, the U-shaped connecting member 7 has a through hole 71 adapted to the connecting bolt a4, and preferably, the through hole 71 is a strip-shaped through hole to facilitate fine adjustment of the position. The wall body main keel 6 is a rectangular tube, and the U-shaped connecting piece 7 is inserted in the rectangular tube.

As shown in fig. 6 and 9, in order to facilitate assembly and adjustment, the length of the wall main keel 6 is smaller than the distance between the upper floor and the lower floor, the lower end of the wall main keel 6 is tightly matched with the top of the lower floor through a height adjusting part, and the module wall plate 5 is in threaded connection or riveted with the wall main keel 6.

As shown in fig. 6 and 9, the height adjusting member in this embodiment includes a supporting member 9 and an adjusting bolt 8, the supporting member 9 has a through hole 93 adapted to the adjusting bolt 8, the through hole 93 is a threaded hole or a nut 94 in threaded engagement with the adjusting bolt 8 is welded at the through hole 93, the adjusting bolt 8 is vertically installed in the through hole 93, the lower end of the adjusting bolt 8 is supported on the lower floor, the lower end of the wall main keel 6 is fixedly connected to the supporting member 9 or the wall main keel 6 is supported on the supporting member 9.

Preferably, as shown in fig. 9 and 10, the supporting member 9 is a pi-shaped supporting member, the lower end of the wall body main keel 6 abuts against the flange 91 of the pi-shaped supporting member, and the through hole 93 is formed in the ridge plate 92 of the pi-shaped supporting member.

As shown in fig. 4, 11 and 12, the lower end of the adjusting bolt 8 is in contact with the decorative surface layer 23. The decorative cover 23 is glued to the structural panel 1 by means of the adhesive layer 22.

As shown in fig. 13 and 14, the modular wall panel 5 includes two light gauge steel panels 52, the light gauge steel panels are located between the two panels 52, the panels 52 are bolted, bonded or anchored to the light gauge steel panels, and the light gauge steel panels include C-shaped wall panel runners 51 and U-shaped wall cross runners 56. The sound absorbing material (53) is filled between the two panels (52), and the panels (52) are high-density fiberboards. The module wallboard 5 of this embodiment adopts steel construction and high density fiberboard, and in production and processing and preparation installation, it is very little to compare cement to the secondary pollution of environment, but when light partition wall abandonment back reuse, even if abandon and destroy, also can be degraded by the nature very fast, become organic substance, do benefit to the feature of environmental protection and the sustainable development of production.

For the convenience of splicing, the module wall boards 5 are rectangular, the wall body main keel 6 is a rectangular pipe, and preferably, the cross section of the wall body main keel 6 is square. The two panels are staggered in parallel to form L-shaped joints 54 on both sides of the modular wall panel 5, which are overlapped with the main wall keels 6. As shown in fig. 14, 15 and 16, the structure can be installed by adopting a side-feeding rotation installation mode when the module wall board 5 is installed, and the L-shaped joint part 54 is in threaded connection or riveted with the wall main keel 6.

As shown in fig. 13-17, the light gauge steel further includes Z-shaped wall panel keels 55 disposed at the L-shaped joints 54, the C-shaped wall panel keels 51 and the Z-shaped wall panel keels 55 are both vertically disposed, the U-shaped cross keels 56 of the wall are horizontally disposed, and the C-shaped wall panel keels 51 are disposed between the two Z-shaped wall panel keels 55. The flaps 551 at the two ends of the Z-shaped wall panel keel 55 are attached to the two panels 52, respectively. The utility model discloses still disclose the building method in above-mentioned house that has full life cycle, for the deformability of reinforcing house type, adjust the house periphery to the shear force wall as far as possible, all consider wherein the house type change demand that probably meets owner all the life carries out the planning design of built-in fitting.

Next, a method for embedding embedded parts is described, and first, the building column 11 or the structural wall embedded part is taken as an example: as shown in fig. 19, a through hole adapted to the connecting bolt B13 is positioned and processed on the column forming template 16 of the building column 11 according to the embedded process drawing, and then the connecting bolt B13 and the embedded fixing nut B12 are installed on the column forming template 16 in advance, specifically, one end of the connecting bolt B13 penetrates through the column forming template 16 and is connected with the embedded fixing nut B12; and supporting the column forming template 16, pouring plate concrete to form the building column 11, then taking down the connecting bolt B13, and dismantling the column forming template 16. The embedding method of the embedded adjusting nut B121 is the same.

Taking a beam plate embedded part as an example, the embedding method specifically comprises the following steps,

step 1, as shown in fig. 18, positioning and processing a through hole matched with a connecting bolt a4 on a plate forming template 15 of an upper floor slab according to a pre-embedded process drawing, and pre-installing the connecting bolt a4 and a pre-embedded fixing nut A3 on the plate forming template 15, wherein specifically, one end of the connecting bolt a4 penetrates through the plate forming template 15 and is connected with the pre-embedded fixing nut A3;

step 2, the supporting plate shaping template 15 is poured with plate concrete to form an upper floor slab;

and 3, finishing the pouring of the upper floor slab, taking down the connecting bolt A4, and removing the plate shaping template 15. The embedding mode of the embedded adjusting nut A31 is the same.

Finally, the method for installing the light partition wall specifically comprises the following steps:

step 1, as shown in fig. 12, performing lower floor slab decoration layer construction;

step 2, installing a U-shaped connecting piece 7: as shown in fig. 7, the U-shaped connecting member 7 is fixed on the upper floor by a connecting bolt a4 and an embedded fixing nut A3;

step 3, inserting the top end of the wall body main keel 6 into the U-shaped connecting piece 7, and screwing the adjusting bolt 8 to adjust the height adjusting piece to enable the lower end of the adjusting bolt 8 to be tightly matched with the decorative surface layer 23 in a propping manner;

according to the mode, all the wall main keels 6 are installed, and meanwhile, the wall side keels are connected with the building columns 11 or the structural wall;

step 4, installing a module wallboard 5; as shown in fig. 14-16, modular wall panels 5 are installed using a side-feed swivel installation;

step 5, adjusting the flatness and the verticality of the whole wall surface, fixing the light partition wall again by adjusting a height adjusting piece, and fixedly connecting the side part of the light partition wall with a wall edge keel 14 through a bolt; checking and accepting the whole wall;

and 6, installing the decorative skirting line 24, and filling sound-absorbing materials 53 in the space formed by the module wallboard 5, the decorative skirting line 24 and the decorative surface layer 23. The sound absorbing material 53 may be selected from sound absorbing cotton.

When the light partition wall needs to be detached, the skirting line 24 and the filled sound-absorbing material are detached, the height adjusting piece is exposed, the adjusting bolt 8 is screwed to keep a gap between the adjusting bolt and the lower floor, and then the connecting bolt A4 is screwed down, so that the light partition wall can be detached, and the operation is convenient.

In another embodiment, the fixing nut B12 is not embedded in the shear wall and/or the building column 11, the top end of the wall keel 14 may be fixed to the embedded fixing nut A3 by the connecting bolt a4 and the U-shaped connecting member 7, and the lower end of the wall keel is also tightly fitted to the top of the lower floor by the height adjusting member. The wall edge keel 14 can also be a rectangular tube, and the module wall panel 5 is still installed in a side-feeding rotating installation mode during assembly.

Example two

The difference between this embodiment and the first embodiment is: as shown in fig. 7, 11, 20 and 21, the light partition wall in this embodiment is formed by splicing a plurality of module wall boards 5, and the tops of the module wall boards 5 are directly connected with the U-shaped connecting pieces 7 without the wall main keels 6.

As shown in fig. 20 and 21, in this embodiment, the panel 52 of the modular wall panel 5 is notched at the connection with the U-shaped connector 7, so that the light steel keel is partially inserted into the U-shaped connector 7, and is fixedly connected with the U-shaped connector 7 by the positioning fixing bolt 25, and the positioning fixing bolt 25 is horizontally disposed. As shown in fig. 22, the U-shaped connecting member 7 has positioning holes 72 at both sides thereof to be fitted with the positioning fixing bolts 25.

Two adjacent modular wall panels 5 share a U-shaped connector 7 at the splice. And a joint filling adhesive tape 2 and a fireproof rubber strip 26 are arranged between the top surface of the module wallboard 5 and the upper floor slab.

As shown in fig. 23, 24 and 25, the bottom of modular wall panel 5 is tightly fitted to the top of the lower floor by height adjustment members. In the embodiment, the support 9 is inverted, the bottom of the module wall panel 5 is directly supported on the flange 91 of the support 9, and the horizontally arranged wall U-shaped cross runners 56 are in threaded connection with the flange 91, as shown in fig. 24, the flange 91 of the support 9 is provided with a connecting hole 94 for connecting with the module wall panel 5. During installation, the lower part of the adjusting bolt 8 is tightly matched with the top of the lower floor slab by screwing the adjusting bolt 8, so that the module wall slab 5 is fixed.

The method for installing the light partition wall specifically comprises the following steps:

step 1, as shown in fig. 23, performing lower floor slab decoration layer construction;

step 2, installing a U-shaped connecting piece 7: as shown in fig. 21, the U-shaped connecting member 7 is fixed on the upper floor by the connecting bolt a4 and the pre-embedded fixing nut A3;

step 3, inserting and connecting the top vertex angle of the module wallboard 5 with the U-shaped connecting piece 7 in a threaded manner for fixing, and tightly matching the lower end of the adjusting bolt 8 with the decorative surface layer 23 by screwing the adjusting bolt 8 and adjusting the height adjusting piece;

installing all the module wallboards 5 in the above manner;

step 4, adjusting the flatness and the verticality of the whole wall surface, and fixing the light partition wall again by adjusting the height adjusting piece;

and 5, installing the decorative skirting line 24, and filling sound-absorbing materials 53 in the space formed by the module wallboard 5, the decorative skirting line 24 and the decorative surface layer 23. The sound absorbing material 53 may be selected from sound absorbing cotton.

When the module wallboard 5 needs to be detached, the skirting line 24 and the filled sound-absorbing material are detached, the height adjusting piece is exposed, the adjusting bolt 8 is screwed to keep a gap with the lower floor, and then the connecting bolt A4 is screwed down, so that the module wallboard 5 can be detached, and the operation is convenient.

EXAMPLE III

The difference between this embodiment and the second embodiment is: as shown in fig. 26 and 27, in this embodiment, the top of the panel 52 of the module wall panel 5 is longer than the length of the light steel keel, the U-shaped connector 7 is inserted between the two panels 52, the light steel keel is fixedly connected with the U-shaped connector 7 by the positioning fixing bolt 25, and the positioning fixing bolt 25 is horizontally arranged. Sound absorbing cotton 53 is filled in the space formed by the two panels 52, the light steel keel and the upper floor.

Example four

The difference between this embodiment and the second embodiment is: as shown in fig. 28 and 29, in this embodiment, the top of the light partition wall is fixed to the upper floor by a top-tight fit, and the bottom of the light partition wall is still tightly fitted to the top of the lower floor by the height adjusting member. And a joint filling adhesive tape 2 is arranged between the top of the module wallboard 5 and the upper floor slab, and the joint filling adhesive tape 2 is a fireproof rubber strip. The beam plate of the embodiment does not need embedded parts, and construction, assembly and disassembly are more convenient and simpler.

The method for installing the light partition wall specifically comprises the following steps:

step 1, as shown in fig. 23, performing lower floor slab decoration layer construction;

step 2, adhering a joint filling adhesive tape 2 to a part of the lower surface of the upper floor slab, which is to be provided with the light wall; step 3, installing a module wallboard 5: as shown in fig. 28 and 29, the top end of the modular wall panel 5 is contacted and attached with the joint strip 2, and the lower end of the adjusting bolt 8 is tightly matched with the decorative surface layer 23 by screwing the adjusting bolt 8 and further adjusting the height adjusting piece, so that the modular wall panel 5 is fixed;

installing all the module wallboards 5 in the above manner;

step 4, adjusting the flatness and the verticality of the whole wall surface, and fixing the light partition wall again by adjusting the height adjusting piece;

and 5, installing the decorative skirting line 24, and filling sound-absorbing materials 53 in the space formed by the module wallboard 5, the decorative skirting line 24 and the decorative surface layer 23. The sound absorbing material 53 may be selected from sound absorbing cotton.

When the module wallboard 5 needs to be dismounted, the skirting line 24 and the filled sound-absorbing material are dismounted, the height adjusting piece is exposed, and the module wallboard 5 can be dismounted by screwing the adjusting bolt 8, so that the operation is convenient.

Of course, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and that such changes and modifications are intended to be included within the scope of the appended claims.

Claims (5)

1. The house with the whole life cycle comprises an upper floor slab, a lower floor slab and a light partition wall arranged between the upper floor slab and the lower floor slab, and is characterized in that the bottom of the light partition wall is tightly matched with the top of the lower floor slab through a height adjusting piece, and the top of the light partition wall is tightly matched with the top of the upper floor slab or in threaded connection; one light partition wall comprises a module wallboard (5) or is formed by splicing at least two module wallboards (5);

if the top of the light partition wall is in threaded connection with the upper floor slab, a plurality of pre-embedded fixing nuts A (3) are pre-embedded on the lower surface of the upper floor slab, and the top of the light partition wall is connected with the pre-embedded fixing nuts A (3) through connecting bolts A (4); the lower surface of the upper floor slab is also pre-embedded with an embedded adjusting nut A (31) matched with the connecting bolt A (4) for newly installing or adjusting the position of the module wallboard (5);

the light partition wall further comprises a wall body main keel (6), the wall body main keel (6) is vertically arranged, the top end of the wall body main keel (6) is connected with a U-shaped connecting piece (7), the U-shaped connecting piece (7) is fixedly connected with an upper floor slab through a connecting bolt A (4), the lower end of the wall body main keel (6) is tightly matched with the top of a lower floor slab through a height adjusting piece, and a module wall plate (5) is in threaded connection or riveted with the wall body main keel (6);

when the light partition wall is formed by splicing at least two module wallboards (5), the two adjacent module wallboards (5) are spliced into a whole through the wall main keel (6);

the wall body main keel (6) is a rectangular pipe, and the U-shaped connecting piece (7) is inserted in the wall body main keel (6);

the height adjusting piece comprises a supporting piece (9) and an adjusting bolt (8), a through hole (93) matched with the adjusting bolt (8) is formed in the supporting piece (9), the through hole (93) is a threaded hole or a nut (94) in threaded fit with the adjusting bolt (8) is welded at the through hole (93), the adjusting bolt (8) is vertically arranged in the through hole (93), the lower end of the adjusting bolt (8) is supported on a lower floor, and the bottom of the light partition wall is supported on the supporting piece (9);

the support piece (9) is a pi-shaped support piece, the lower end of the light partition wall is tightly pressed against a flange (91) of the pi-shaped support piece, and the through hole (93) is formed in a ridge plate (92) of the pi-shaped support piece.

2. The full life cycle house of claim 1, wherein: the top of the module wallboard (5) is tightly matched with the top of the upper floor slab; the bottom of the module wallboard (5) is tightly matched with the top of the lower floor through a height adjusting piece.

3. The full life cycle house of claim 1, wherein: the top of the module wallboard (5) is fixedly connected with the upper floor through a U-shaped connecting piece (7), and the bottom of the module wallboard (5) is tightly matched with the top of the lower floor through a height adjusting piece; the U-shaped connecting piece (7) is fixedly connected with the upper floor through the connecting bolt A (4), and the top of the module wallboard (5) is in threaded connection and/or insertion connection with the U-shaped connecting piece (7).

4. The full life cycle house of claims 1, 2 or 3, wherein: the shear wall and/or the building column (11) are/is horizontally embedded with embedded fixing nuts B (12) at the positions connected with the light partition walls, and the side surfaces of the light partition walls adjacent to the shear wall or the building column (11) are operatively connected with connecting bolts B (13) in threaded connection with the embedded fixing nuts B (12); an embedded adjusting nut B (121) matched with the connecting bolt A (4) is horizontally embedded in the shear wall and/or the building column (11) and used for newly installing or adjusting the position of the light partition wall.

5. The full life cycle house of claim 4, wherein: the light partition wall also comprises a wall keel (14) positioned on the side edge of the light partition wall, a through hole matched with the connecting bolt B (13) is formed in the wall keel (14), and the connecting bolt B (13) is arranged in the through hole.

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