CN217679715U - Assembled ultra-low energy consumption wallboard and shed board ground beam groove seamless connection structure - Google Patents

Abstract

An assembled ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure belongs to the technical field of building engineering. The utility model provides a current wallboard lift bed and wallboard and decking connection structure's heat insulating ability, bearing capacity, shock resistance, airtight, the relatively poor problem of waterproof nature. The utility model discloses a first wallboard subassembly, second wallboard subassembly, wallboard connecting piece and prefabricated superimposed sheet, first wallboard subassembly passes through the wallboard connecting piece with the second wallboard subassembly and establishes being connected, and two adjacent first wallboard subassemblies or second wallboard subassemblies pass through the wallboard connecting piece and establish being connected, and first wallboard subassembly is arranged in second wallboard subassembly below, and first wallboard subassembly fixed mounting is in the geosyncline, and prefabricated superimposed sheet is pegged graft in the junction of first wallboard subassembly and second wallboard subassembly. Through the utility model discloses a connection structure improves the structural stability between wallboard and the decking, realizes the envelope of the all-round parcel latticed seamless linking of wallboard.

Description

Assembled ultralow energy consumption wallboard and shed board grade beam groove seamless connection structure

Technical Field

The utility model relates to a building engineering technology field specifically is an assembled ultralow energy consumption wallboard and shed board grade beam groove seamless connection structure.

Background

The wallboard structure is used for house, apartment, also can be used to public buildings such as office building, school, and the bearing wall of wallboard structure can be made with brick, building block, prefabricated or cast in situ concrete, and current wallboard structure has following several not enough:

1. the existing connecting structure between adjacent wallboards has poor heat insulation and air tightness, the stability of the connecting structure between the wallboard and the shed board is poor, and gaps are easily generated between the wallboard and the shed board and between the wallboard and the ground, so that the quality of a building is reduced, and the living comfort is influenced;

2. the workload of the existing wallboard and shed plate construction site is large, a large amount of support frames are needed for construction, certain pollution can be caused to the environment in the construction process, the installation energy consumption of the wallboard and the shed plate is too large, and the building cost is too high.

In summary, there is a need for a connection structure of a wall plate lifting layer and a slab ground slot column, which has high stability between adjacent wall plates, stable connection structure between the wall plate and the slab, and low energy consumption, to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a current wallboard lift bed and wallboard and the relatively poor problem of decking connection structure's heat insulating ability, bearing capacity, shock resistance, gas tightness and waterproof nature, and then disclose "an assembled ultralow energy consumption wallboard and decking ground beam groove seamless connection structure". A brief summary of the present invention is provided below in order to provide a basic understanding of some aspects of the present invention. It should be understood that this summary is not an exhaustive overview of the invention. It is not intended to identify key or critical elements of the invention or to delineate the scope of the invention.

The technical scheme of the utility model is that:

the utility model provides an assembled ultralow energy consumption wallboard and shed board ground beam groove seamless connection structure, including first wallboard subassembly, the second wallboard subassembly, wallboard connecting piece and prefabricated superimposed sheet, first wallboard subassembly passes through wallboard connecting piece with the second wallboard subassembly and establishes to be connected, two adjacent first wallboard subassemblies or second wallboard subassemblies pass through wallboard connecting piece and establish to be connected, first wallboard subassembly is arranged in second wallboard subassembly below, first wallboard subassembly fixed mounting is in the ground inslot, the prefabricated superimposed sheet is pegged graft in the junction of first wallboard subassembly and second wallboard subassembly.

Further, first wallboard subassembly includes first wallboard, second wallboard and heat preservation heat insulation module, and first wallboard, heat preservation heat insulation module and second wallboard are fixed connection in proper order, and the bottom surface of first wallboard and second wallboard is in same horizontal plane, and the height of first wallboard is greater than the second wallboard.

Further, the second wallboard component comprises a third wallboard, a fourth wallboard and a heat-insulating module, the third wallboard, the heat-insulating module and the fourth wallboard are sequentially and fixedly connected, the upper end face and the lower end face of the third wallboard and the upper end face of the fourth wallboard are located on the same horizontal plane, the bottom face of the third wallboard is in contact with the end face of the first wallboard, and the fourth wallboard is arranged right above the second wallboard.

Further, the first wall panel, the second wall panel, the third wall panel and the fourth wall panel are identical in structure.

Furthermore, first wallboard includes planking, heat preservation, no hot bridge drawknot spare and pre-buried no hot bridge drawknot spare, and the inside cavity that has of planking, heat preservation set up in the cavity of planking, and the planking is connected through no hot bridge drawknot spare with the heat preservation, and planking, heat preservation and heat preservation heat insulation module are connected through no hot bridge drawknot spare.

Furthermore, the heat preservation and insulation module comprises a first connecting piece, an outer frame, an inner frame and a heat preservation plate, wherein the outer frame and the inner frame are fixedly connected through the first connecting piece, the inner frame is arranged on the inner side of the outer frame, the heat preservation plate is fixedly arranged in the inner frame, and a plurality of openings are formed in the periphery of the outer frame.

Furthermore, the wallboard connecting piece is connected with the outer frame through a second connecting piece, the second connecting piece is a bolt, and the second connecting piece penetrates through the wallboard connecting piece and the outer frame in sequence and fixes the outer frame and the wallboard connecting piece through a nut.

The prior art of the utility model compares the advantage lie in:

1. the utility model discloses an assembled ultralow energy consumption wallboard and decking ground beam groove seamless connection structure pegs graft the prefabricated superimposed sheet between first wallboard subassembly and second wallboard subassembly, pour into the concrete into the second wallboard subassembly, make concrete fill first wallboard subassembly and second wallboard subassembly, fix the prefabricated superimposed sheet between first wallboard subassembly and second wallboard subassembly, compare with the connection structure of traditional wallboard and decking, the connection structure between prefabricated superimposed sheet and the wallboard is more stable, be difficult for producing the crack, connect through wallboard connecting piece and second connecting piece between first wallboard subassembly and the second wallboard subassembly, the connection structure stability between adjacent two-layer wallboard and prefabricated superimposed sheet is higher;

2. the utility model discloses a first wallboard subassembly, second wallboard subassembly, wallboard connecting piece and prefabricated superimposed sheet of assembled ultralow energy consumption wallboard and canopy board ground beam groove seamless connection structure adopt the assembled to connect respectively, each subassembly can all transport the job site to assemble after the mill's preparation finishes, pour into the concrete at last and fix, compared with the existing site operation work and reduced the work load of job site and the use of manpower and material resources, reduce the pollution to the environment, reduce the consumption of energy consumption, reduce the construction cost;

3. the utility model discloses an assembled ultralow energy consumption wallboard is provided with heat preservation heat insulation module respectively with shed board grade beam groove seamless connection structure between first wallboard subassembly and second wallboard subassembly, and the wallboard subassembly of installing heat preservation heat insulation module is compared in its heat preservation of traditional wallboard, the effect is better for giving sound insulation etc., has obvious improvement to building quality.

Drawings

FIG. 1 is a schematic view of a seamless connection structure of an assembled ultra-low energy consumption wall panel and a slab ground beam groove;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

figure 4 is a cross-sectional view of the first wall panel assembly installed in a floor;

figure 5 is a cross-sectional view of a second wall panel assembly;

FIG. 6 is a schematic view of an insulating module;

in the figure, 1 represents a first wallboard component, 2 represents a second wallboard component, 3 represents a wallboard connecting piece, 4 represents a prefabricated laminated slab, 5 represents a first connecting piece, 6 represents a second connecting piece, 7 represents an opening, 8 represents a first wallboard, 9 represents a second wallboard, 10 represents a heat insulation module, 11 represents concrete, 12 represents a ground groove, 13 represents a third wallboard, 14 represents a fourth wallboard, 15 represents an outer frame, 16 represents an inner frame, 17 represents a heat insulation board, 18 represents a nut, 19 represents an outer plate, 20 represents a heat insulation layer, 21 represents a heat-free bridge pulling joint piece, 22 represents a pre-buried heat-free bridge pulling joint piece, and 23 represents a sealing rubber strip.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described below with reference to specific embodiments shown in the accompanying drawings. It should be understood that the description is intended to be exemplary, and not to limit the scope of the invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Embodiment 1, the embodiment is described with reference to fig. 1 to 6, and the assembled seamless connection structure of a wall panel and a floor slab groove of a canopy plate of this embodiment includes a first wall panel assembly 1, a second wall panel assembly 2, a wall panel connector 3 and a prefabricated composite slab 4, the first wall panel assembly 1 is fixedly installed on a floor slab groove 13 on the ground, the first wall panel assembly 1 is fixedly connected with the second wall panel assembly 2 through the wall panel connector 3, the prefabricated composite slab 4 is inserted into a joint of the first wall panel assembly 1 and the second wall panel assembly 2, a heat insulation and heat insulation module 10 is respectively fixedly installed in the first wall panel assembly 1 and the second wall panel assembly 2, the first wall panel assembly 1 includes a first wall panel 8 and a second wall panel 9, the heat insulation and heat insulation module 10 is fixedly installed between the first wall panel 8 and the second wall panel 9, the second wall panel assembly 2 includes a third wall panel 13 and a fourth wall panel 14, a heat insulation module 10 is arranged between a third wall plate 13 and a fourth wall plate 14, the upper end and the lower end of a wall plate connecting piece 3 are respectively fixedly connected with a second wall plate component 2 and the heat insulation module 10 of the first wall plate component 1 through a second connecting piece 6, when the wall plate and the shed plate are installed, the first wall plate component 1 is fixedly placed in a ground groove 12, the bottom surfaces of a first wall plate 8 and a second wall plate 9 are positioned on the same horizontal plane, the upper end surface of the first wall plate 8 is higher than the second wall plate 9, the height difference between the first wall plate 8 and the second wall plate 9 is larger than the thickness of a prefabricated composite slab 4, after the first wall plate component 1 is installed, the wall plate connecting piece 3 is fixed on the heat insulation module 10 of the first wall plate component 1 through the second connecting piece 6, then the second wall plate component 2 is installed on the first wall plate component 1, firstly, the third wall plate 13 of the second wall plate component 2 is aligned with the first wall plate 8, fixing the heat insulation module 10 of the second wallboard assembly 2 on the wallboard connecting piece 3 through the second connecting piece 6, after the second wallboard assembly 2 is fixed, a gap is formed between the fourth wallboard 14 and the second wallboard 9 of the second wallboard assembly 2, the gap is the height difference between the first wallboard 8 and the second wallboard 9, inserting the prefabricated composite slab 4 into the gap to fix the prefabricated composite slab, finally pouring concrete 11 into the end part of the second wallboard assembly 2, enabling the second wallboard assembly 2, the wallboard connecting piece 3 and the first wallboard assembly 1 to be sequentially filled by the concrete 11, fixing the first wallboard assembly 1 in the ground groove 12 through the concrete 11, enabling part of the concrete 11 to flow out of the gap between the second wallboard 9 and the fourth wallboard 14 through the prefabricated composite slab 4 in an inserting mode to form a concrete layer, fixing the prefabricated composite slab 4 at the connecting gap between the fourth wallboard 14 and the second wallboard 9, completing the rising layer of the wallboard and the connection and fixation of the wallboard and the prefabricated composite slab 4, inserting the prefabricated composite slab 4 into the gap between two adjacent prefabricated composite slabs and fixing the gap through the cast-in-place, carrying out the gap, enabling the prefabricated composite slab to be more efficient and further reducing the construction efficiency of the prefabricated composite slab, and reducing the construction efficiency of the prefabricated composite slab 4, and reducing the construction cost of the prefabricated composite slab on-site construction, and reducing the construction efficiency of the prefabricated composite slab 4, and reducing the construction cost;

specifically, first wallboard 8, second wallboard 9, third wallboard 13 and fourth wallboard 14's structure is the same, use first wallboard 8's structure as an example, first wallboard 8 includes planking 19, heat preservation 20, no hot bridge drawknot piece 21 and pre-buried no hot bridge drawknot piece 22, the cavity has in the planking 19, heat preservation 20 is current heat preservation, heat preservation 20 is placed in planking 19's cavity, establish through no hot bridge drawknot piece 21 between planking 19 and the heat preservation 20 and be connected, planking 19, heat preservation 20, frame 15 and inside casing 16 establish the connection through pre-buried no hot bridge drawknot piece 22.

Specifically, the heat preservation and insulation module 10 comprises an outer frame 15, an inner frame 16 and a heat preservation plate 17, the outer frame 15 and the inner frame 16 are fixedly connected through a first connecting piece 5, the first connecting piece 5 is a steel bar, a plurality of steel bars sequentially penetrate through the outer frame 15 and the inner frame 16 to enable the inner frame 16 to be fixed on the inner side of the outer frame 15, the heat preservation plate 17 is fixedly installed in the inner frame 16 in a bonding or steel bar connection mode, a plurality of openings 7 are formed in the periphery of the outer frame 15, the openings 7 are communicated with a cavity formed between the outer frame 15 and the inner frame 16, the openings 7 are used for circulation of concrete 11, the second connecting piece 6 is a bolt, the bolt respectively penetrates through the wall plate connecting piece 3 and the outer frame 15 of the first wall plate assembly 1 and the outer frame 15 of the second wall plate assembly 2 and then is fixed through a nut 18, the concrete 11 is poured into the space from the upper side of the second wall plate assembly 2, part of concrete flows into cavities of an outer frame 15 and an inner frame 16 through an opening 7, flows out from the side wall of the outer frame 15 and the opening 7 at the bottom, flows into a first wall plate assembly 1 and a heat-insulating module 10 of the first wall plate assembly 1, the heat-insulating modules 10 of the first wall plate assembly 1 and a second wall plate assembly 2 are identical in structure, gaps between the outer frame 15 and the inner frame 16 of each heat-insulating module 10 are filled up through concrete 11 respectively, the heat-insulating modules 10 are fixed on the ground through the concrete 11 flowing out from the opening 7 at the bottom of the outer frame 15 of the heat-insulating module 10 of the first wall plate assembly 1, and the first wall plate assembly 1 and the second wall plate assembly 2 with the heat-insulating modules 10 have more stable heat-insulating and sound-insulating effects and more stable structures;

specifically, when the wallboards are transversely assembled, two adjacent first wallboard assemblies 1 are connected through the wallboard connecting piece 3, two adjacent second wallboard assemblies 2 are connected through the wallboard connecting piece 3, the connection method of the transverse connection wallboard assemblies is the same as the fixing method of the first grabbing plate assembly 1 and the second grabbing plate assembly 2, if a gap exists after the two adjacent wallboard assemblies are assembled, a sealing rubber strip 23 is filled in the gap, and the gap between the two transversely adjacent wallboards is supplemented through the sealing rubber strip 23.

It should be specially noted that, in this embodiment, only the connection mode and the structure between two adjacent wall boards are used, and the number of the first wall board assembly 1, the second wall board assembly 2, the wall board connecting member 3 and the prefabricated composite slab 4 is not limited to the number of the first wall board assembly 1, the second wall board assembly 2 and the number of the prefabricated composite slab 4, and those skilled in the art can also select the number of the first wall board assembly 1, the second wall board assembly 2 and the prefabricated composite slab 4 according to the story-up height required by the engineering and whether the prefabricated composite slab 4 is installed between the adjacent wall boards, if the prefabricated composite slab 4 is not installed between the two adjacent wall boards, the two second wall board assemblies 2 can be used for connection, and if the prefabricated composite slab 4 is installed between the two adjacent wall boards, the first wall board assembly 1 and the second wall board assembly 2 can be used for connection.

The present embodiment is only illustrative and not intended to limit the scope of the patent, and those skilled in the art can make modifications to the part of the patent without departing from the spirit of the patent.

Claims (7)

1. The utility model provides an assembled ultralow energy consumption wallboard and shed board grade beam groove seamless connection structure which characterized in that: including first wallboard subassembly (1), second wallboard subassembly (2), wallboard connecting piece (3) and prefabricated superimposed sheet (4), first wallboard subassembly (1) is connected through wallboard connecting piece (3) with second wallboard subassembly (2), two adjacent first wallboard subassemblies (1) or second wallboard subassembly (2) are connected through wallboard connecting piece (3), first wallboard subassembly (1) is arranged in second wallboard subassembly (2) below, first wallboard subassembly (1) fixed mounting is in geosyncline (12), prefabricated superimposed sheet (4) are pegged graft in the junction of first wallboard subassembly (1) and second wallboard subassembly (2).

2. The assembly type ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 1, characterized in that: first wallboard subassembly (1) includes first wallboard (8), second wallboard (9) and heat preservation heat insulating module (10), and first wallboard (8), heat preservation heat insulating module (10) and second wallboard (9) are fixed connection in proper order, and first wallboard (8) are in same horizontal plane with the bottom surface of second wallboard (9), and the height of first wallboard (8) is greater than second wallboard (9).

3. The assembly type ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 2, characterized in that: second wallboard subassembly (2) include third wallboard (13), fourth wallboard (14) and heat preservation heat insulating module (10), third wallboard (13), heat preservation heat insulating module (10) and fourth wallboard (14) fixed connection in proper order, third wallboard (13) are in same horizontal plane with the upper and lower terminal surface of fourth wallboard (14), the bottom surface of third wallboard (13) and the end face contact of first wallboard (8), fourth wallboard (14) are arranged directly over second wallboard (9).

4. The assembled ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 3, characterized in that: the first wall board (8), the second wall board (9), the third wall board (13) and the fourth wall board (14) are identical in structure.

5. The assembly type ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 4, characterized in that: first wallboard (8) include planking (19), heat preservation (20), no hot bridge drawknot spare (21) and pre-buried no hot bridge drawknot spare (22), and planking (19) inside has the cavity, and heat preservation (20) set up in the cavity of planking (19), and planking (19) are connected through no hot bridge drawknot spare (21) with heat preservation (20), and planking (19), heat preservation (20) and heat preservation heat insulation module (10) are connected through no hot bridge drawknot spare (21).

6. The assembled ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 2 or 5, characterized in that: heat preservation heat insulation module (10) are including first connecting piece (5), frame (15), inside casing (16) and heated board (17), frame (15) and inside casing (16) through first connecting piece (5) fixed connection, and inside casing (16) are arranged at frame (15) inboard, and inside casing (16) internal fixation installs heated board (17), and the processing all around of frame (15) has a plurality of openings (7).

7. The assembled ultra-low energy consumption wallboard and shed plate ground beam groove seamless connection structure of claim 6, characterized in that: wallboard connecting piece (3) are connected through second connecting piece (6) and frame (15) establishment, and second connecting piece (6) are the bolt, and second connecting piece (6) pass wallboard connecting piece (3) and frame (15) in proper order and pass through nut (18) with frame (15) fixed with wallboard connecting piece (3).

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