CN111173146A - Inner and outer wall boards and connecting box for assembly type building and mounting method - Google Patents

Abstract

The invention discloses an inner and outer wall board for an assembly type building, a connecting box and an installation method, wherein the side surfaces of four ends of the connecting box are respectively provided with a connecting hole, and the front end surface of the connecting box is provided with an opening; the inner wall plate and the outer wall plate comprise wall plate bodies, connecting boxes and bolts, notches for placing the connecting boxes are formed in the top corners of the wall plate bodies, threaded sleeves matched with the connecting boxes are installed in the wall plate bodies, and the bolts are connected with the threaded sleeves to fix the connecting boxes at the notches; the method comprises the following steps: the wall board body provided with the connecting box is close to a floor slab and/or a roof slab to be installed; inserting the bolts into the other two connecting holes of the connecting box respectively; and screwing the bolts to tightly connect the wallboard body with the floor slab and/or the roof slab respectively.

Description

Inner and outer wall boards and connecting box for assembly type building and mounting method

Technical Field

The invention relates to the field of a connecting device and a connecting method of an inner and outer wallboard and a floor slab or a roof slab for a building, in particular to an inner and outer wallboard and a connecting box for an assembly type building and an installation method.

Background

In the assembly type building industry, how to ensure that the wall boards can be connected quickly and reliably is one of the key steps of building construction, and the reliable connection between the wall boards is also the key and difficult point in the assembly type building construction;

the connected mode between wallboard mainly has three kinds in the prefabricated building at present, contains: wet joint connection, welding connection and bolt connection;

the wet joint connection is a more conventional method, generally, a reinforcing steel bar joint is reserved on the inner side surface of a wallboard between the wallboards, the wallboards are connected with each other by adding reinforcing steel bars, and a concrete connection mode is poured after the reinforcing steel bar joint is bound, so that the mode has the advantages of large reinforcing steel bar consumption, higher cost and limited capability of transferring external force in the horizontal direction, and is wet connection for wet operation;

the welded connection is formed by welding steel frames or steel bars reserved on the wall board, and belongs to rigid connection;

the bolt connection is formed by connecting embedded iron pieces during manufacturing, and the connection joint requires accurate position of a connecting piece, is not suitable for deformation and is difficult to realize quick connection.

In the prior art, a patent CN 203022131U discloses an L-shaped wall internal corner integral horizontal connection node, which comprises a longitudinal prefabricated wall panel, a transverse prefabricated wall panel and an L-shaped steel frame, wherein screw sleeves are pre-embedded at intervals at the edges of the longitudinal prefabricated wall panel and the transverse prefabricated wall panel, the longitudinal prefabricated wall panel and the transverse prefabricated wall panel are vertically butted to form an L-shaped floor slab, and the longitudinal prefabricated wall panel and the transverse prefabricated wall panel are horizontally connected into a whole and are connected with the L-shaped steel frame through spot welding by screws; although this connected mode can prevent that prefabricated outer wall from taking place the side to move, the connection of wallboard does not possess the wholeness, is unfavorable for the conduction of power between the wallboard, only connects through L shaped steel frame between the wallboard simultaneously, and this connected node is fragile under the effect of shearing stress.

Disclosure of Invention

The invention provides an inner and outer wallboard connecting box for an assembly type building, which is preferably suitable for a low-rise building, wherein connecting holes are formed in four side end faces of the connecting box and are respectively and fixedly connected with a wallboard body, a floor slab and a roof slab through bolts to form a stable box-type structure connecting node, so that the wallboard body and the floor slab are stably fixed;

the connecting box is respectively connected with the wallboard body and the floor slab through four connecting points, so that the whole structure is reasonable and reliable in force transmission, high in strength, high in construction precision, standard in installation, flexible, convenient and simple in structure and convenient to use;

the adopted connecting holes are strip-shaped holes, and the connecting positions of the strip-shaped holes and the bolts can be adjusted, so that the adjusting and the mounting are convenient;

the self-supporting combined type self-supporting building can adapt to larger deformation of the structure, is particularly suitable for an assembled self-supporting low-rise building, and is used for solving the defects caused by the prior art.

The invention also provides an inner and outer wallboard for the fabricated building;

the invention also provides an installation method of the inner and outer wall boards and the floor and/or the roof board for the fabricated building.

In order to solve the technical problems, the invention provides the following technical scheme:

in a first aspect, the connection box for the internal and external wall boards for the assembly type building is characterized in that the connection box is provided with four end side faces which are provided with connection holes, and the front end face of the connection box is an opening.

When in use, the connecting box can adopt a steel casting, and can also adopt a galvanized part and a stainless steel part to improve the corrosion resistance and prolong the service life.

The inside and outside wallboard connecting box for the fabricated building is characterized in that the connecting holes are strip-shaped holes.

In the above inner and outer wall board connecting box for prefabricated building, the axes of the strip-shaped holes at opposite positions are perpendicular to each other; the relative position means that the two mutually parallel end sides of the connection box are located in each case.

The inner and outer wallboard connecting box for the fabricated building is characterized in that a through hole is formed in the rear end face of the connecting box; the through holes are preferably square shaped openings and may be other shaped openings such as circular holes. The through hole is beneficial to observing the relative position of the connecting box and other assembling parts during installation, the weight of the connecting box can be reduced, the product cost is reduced, and the through hole can be more convenient during production in a preferred casting forming mode. In addition, the through hole can also be convenient for preferably drive into the foaming adhesive after the installation, makes the wall body seal the heat preservation.

In the above inner and outer wall board connecting box for prefabricated building, the rear end face is arched; preferably, the connection box is U-shaped in cross-section in one of the directions.

Above-mentioned one or more connecting box can conveniently install and be connected the interior outer wallboard of building usefulness through the mode of assembled, realizes the firm fixed of wallboard body and floor for whole structure biography power is reasonable reliable, intensity is high, has higher construction precision, and installation standard and nimble convenient, simple structure, convenient to use.

In a second aspect, the invention relates to an inner and outer wallboard for a fabricated building, which comprises the inner and outer wallboard connecting box for the fabricated building.

Wherein, foretell interior outer wallboard for assembly type structure contain wallboard body, in the first aspect interior outer wallboard connecting box, bolt for assembly type structure, the apex angle department of wallboard body is equipped with places and holds the breach of connecting box, wallboard body internally mounted have with connecting box assorted thread bush, the bolt with thread bush connects will the connecting box is fixed breach department.

In the above inner and outer wall panels for prefabricated buildings, each of the connection boxes is fixed at the gap by two sets of the bolts and the threaded sleeves.

Foretell interior outer wallboard for assembly type structure, wherein, wallboard body internally mounted has fixedly threaded sleeve's fossil fragments.

Foretell interior outer wallboard for assembly type structure that contains the connecting box makes wallboard body and connecting box form a whole, and the wallboard body can conveniently be installed with floor and/or roof boarding, realizes the firm fixed of wallboard body and floor.

In a third aspect, a method for installing an interior and exterior wall panel and a floor and/or roof panel for a prefabricated building comprises the following steps:

the wall plate body provided with the inner and outer wall plate connecting box for the fabricated building in the first aspect is close to a floor plate and/or a roof plate to be installed;

inserting bolts into the other two connecting holes of the connecting box respectively;

and screwing the bolts to fixedly connect the wallboard body with the floor slab and/or the roof slab respectively.

The method for installing the inner and outer wall boards, the floor boards and/or the roof boards for the fabricated building is characterized in that embedded sleeves matched with the bolts are arranged inside the floor boards and the roof boards.

The method for installing the inner and outer wall boards, the floor boards and/or the roof boards for the fabricated building is characterized in that the embedded sleeves are threaded sleeves.

The method for installing the inner and outer wall boards, the floor boards and/or the roof boards for the fabricated building is characterized in that rubber pads are arranged between the wall board body and the floor boards and/or the roof boards.

The method for installing the inner and outer wall boards, the floor boards and/or the roof boards for the fabricated building is characterized in that the rubber mat is a fireproof rubber strip.

The method for installing the inner and outer wall panels and the floor and/or roof panels for the prefabricated building can further comprise the step of pre-connecting the connecting box to the wall panel body, and comprises the following steps:

placing the connecting box at the notch of the wallboard body, and enabling the front end face of the connecting box to face the assembling direction;

aligning the connecting holes on two adjacent end side surfaces of the connecting box with two corresponding threaded sleeves on the wallboard body respectively;

and the two bolts are respectively inserted into the two connecting holes and then connected with the corresponding threaded sleeves, and are initially screwed and fixed.

The method for installing the inner and outer wall boards, the floor boards and/or the roof boards for the prefabricated building is characterized in that the bolts are screwed, wherein the four bolts are screwed.

According to the technical scheme provided by the inner and outer wall boards and the connecting box for the assembly type building and the installation method, the invention has the following technical effects:

connecting holes are formed in four side end faces of the connecting box and are respectively and fixedly connected with the wallboard body, the floor slab and the roof panel through bolts, so that a stable box-type structure connecting node is formed, and the wallboard body and the floor slab are stably fixed;

the connecting box is respectively connected with the wallboard body and the floor slab through four connecting points, so that the whole structure is reasonable and reliable in force transmission, high in strength, high in construction precision, standard in installation, flexible, convenient and simple in structure and convenient to use;

the adopted connecting holes are strip-shaped holes, and the connecting positions of the strip-shaped holes and the bolts can be adjusted, so that the adjusting and the mounting are convenient;

can adapt to larger deformation of the structure, and is particularly suitable for the assembled self-bearing low-rise building.

Drawings

FIG. 1 is a schematic structural diagram of a connection box for interior and exterior wall panels for a prefabricated building according to the present invention;

FIG. 2 is a schematic view of a connection structure of the inner and outer wall panels and the connection box for the prefabricated building according to the present invention;

FIG. 3 is a schematic flow chart of a method for installing the inner and outer wall panels and the floor and/or roof panels for the prefabricated building according to the present invention;

FIG. 4 is a schematic top view of a cross-sectional structure of an assembled building with interior and exterior wall panels connected to floor and roof panels according to the present invention;

fig. 5 is a schematic structural view of the assembled building internal and external wall panels, the floor slab and the roof slab after being connected.

Wherein the reference numbers are as follows:

the wall panel comprises a connecting box 101, a connecting hole 102, an opening 103, a bolt 201, a wall panel body 202, a notch 203, a fireproof adhesive tape 301, a keel 302 and a threaded sleeve 303.

Detailed Description

In order to make the technical means, the characteristics, the purposes and the functions of the invention easy to understand, the invention is further described with reference to the specific drawings.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The invention provides an inner and outer wallboard connecting box for an assembly type building, aiming at providing a connecting box for connecting four side end faces of the connecting box, wherein the connecting box is respectively provided with a connecting hole and is respectively fastened and connected with a wallboard body, a floor slab and a roof slab through bolts to form a stable box type structure connecting node so as to realize the stable fixation of the wallboard body and the floor slab;

the connecting box is respectively connected with the wallboard body and the floor slab through four connecting points, so that the whole structure is reasonable and reliable in force transmission, high in strength, high in construction precision, standard in installation, flexible, convenient and simple in structure and convenient to use;

the adopted connecting holes are strip-shaped holes, and the connecting positions of the strip-shaped holes and the bolts can be adjusted, so that the adjusting and the mounting are convenient;

can adapt to larger deformation of the structure, and is particularly suitable for the assembled self-bearing low-rise building.

In a first aspect, as shown in fig. 1, a first embodiment:

the utility model provides an inside and outside wallboard connecting box 101 for assembly type structure, wherein, connecting hole 102 has all been seted up to four end side faces of connecting box 101, and the preceding terminal surface of connecting box 101 is opening 103, and when using, connecting box 101 can adopt the cast steel spare, also can adopt galvanized coating and stainless steel spare to improve corrosion protection ability and improve life.

Wherein, the connection hole 102 is a strip-shaped hole.

Wherein the axes of the strip-shaped holes at the opposite positions are mutually vertical.

Wherein, the rear end face of the connecting box 101 is provided with a through hole; the through holes are preferably square shaped openings and may be other shaped openings such as circular holes. The through hole is beneficial to observing the relative position of the connecting box and other assembling parts during installation, the weight of the connecting box can be reduced, the product cost is reduced, and the through hole can also facilitate the production in a preferable casting forming mode. In addition, the through hole can also be convenient for preferably drive into the foaming adhesive after the installation, makes the wall body seal the heat preservation.

Wherein, the rear end surface is arched; preferably, the connection box is U-shaped in cross-section in one of the directions.

Second aspect, as shown in fig. 2, second embodiment:

the utility model provides an assembly type for building interior outer wallboard, wherein, contains wallboard body 202, connecting box 101, bolt 201, and the apex angle department of wallboard body 202 is equipped with the breach 203 of placing connecting box 101, and wallboard body 202 internally mounted has and connects box 101 assorted thread bush 303, and bolt 201 is connected with thread bush 303 and fixes connecting box 101 in breach 203 department.

Wherein each connection box 101 is fixed at the gap 203 by two sets of bolts 201 and threaded sleeves 303.

Wherein, the keel 302 of the fixed screw sleeve 303 is installed inside the wallboard body 202.

Third aspect, as shown in fig. 3, a third embodiment:

a method for installing an inner and outer wallboard and a floor slab and/or a roof slab for an assembly type building comprises the following steps:

the wall plate body 202 provided with the connecting box 101 is close to a floor slab and/or a roof slab to be installed;

inserting bolts 201 into the other two connection holes 102 of the connection box 101, respectively;

tightening bolts 201 fasten the wall panel body 202 to the floor and/or roof panels, respectively.

Wherein, the floor and the roof board are internally provided with embedded sleeves matched with the bolts 201.

Wherein, the pre-buried sleeve is a threaded sleeve 303.

Wherein, the rubber mats are arranged between the wall plate body 202 and the floor plate and/or the roof plate.

Wherein, the cushion is a fireproof adhesive tape 301.

Wherein, can still further contain the connection box 101 and pre-connect on wallboard body 202, include the following step:

placing the connection box 101 at the notch 203 of the wall plate body 202, and facing the front end face of the connection box 101 to the assembling direction;

aligning the connecting holes 102 on two adjacent end sides of the connecting box 101 with two corresponding threaded sleeves 303 on the wallboard body 202 respectively;

after being inserted into the two connecting holes 102, the two bolts 201 are connected with the corresponding threaded sleeves 303 and are initially screwed and fixed.

Wherein tightening bolts 201 includes tightening four bolts 201.

As shown in fig. 4-5, the wall plate body 202, the floor plate and the roof plate are connected into a stable structure through the connection box 101, the connection holes 102 formed in the four side end faces of the connection box 101 are all strip-shaped holes, and the axes of the two opposite strip-shaped holes are perpendicular to each other, so that the position of the bolt 201 can be conveniently adjusted when the bolt 201 is fixed, the connection box 101 is installed at the groove of the wall plate body 202 through the two adjacent side end faces, the opening 103 faces outward, so that the bolt 201 can be conveniently screwed in, the connection box 101 is effectively connected with the wall plate body 202, and the connection with the floor plate and the roof plate can be conveniently performed subsequently;

the wallboard body 202 and the floor that will install connecting box 101, the roof boarding installation, the wallboard body 202 that needs will install connecting box 101 removes to the floor one side that needs the installation, rethread bolt 201 is with connecting box 101 and floor, the inside pre-buried sleeve of roof boarding is connected fixedly, rely on 201 fastener effect transmission axial force of high strength bolt and shear stress to realize firmly connecting between the wallboard body 202 between connecting box 101 and the wallboard body 202, connecting box 101 node has sufficient intensity, under external force and seismic action, through box-type (connecting box 101) connected node and fastening connection's high strength bolt 201, the connecting floor, the inside pre-buried threaded sleeve 303 of roof boarding, can effectively undertake and spread out-plane bending moment effect.

In conclusion, according to the internal and external wall panels and the connecting box for the fabricated building and the mounting method, the connecting holes are formed in the four side end faces of the connecting box and are respectively and fixedly connected with the wall panel body, the floor panel and the roof panel through bolts, so that a stable box-type structure connecting node is formed, and the wall panel body and the floor panel are stably fixed;

the connecting box is respectively connected with the wallboard body and the floor slab through four connecting points, so that the whole structure is reasonable and reliable in force transmission, high in strength, high in construction precision, standard in installation, flexible, convenient and simple in structure and convenient to use;

the adopted connecting holes are strip-shaped holes, and the connecting positions of the strip-shaped holes and the bolts can be adjusted, so that the adjusting and the mounting are convenient;

can adapt to larger deformation of the structure, and is particularly suitable for the assembled self-bearing low-rise building.

Specific embodiments of the invention have been described above. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; various changes or modifications may be made by one skilled in the art within the scope of the claims without departing from the spirit of the invention, and without affecting the spirit of the invention.

Claims (15)

1. The utility model provides an inside and outside wallboard connecting box for assembly type structure which characterized in that, the connecting hole has all been seted up to four end side faces of connecting box, the preceding terminal surface of connecting box is the opening.

2. The interior and exterior wall panel junction box for prefabricated buildings according to claim 1, wherein the junction hole is a strip-shaped hole.

3. A built-up building interior and exterior wall panel junction box according to claim 2, wherein the axes of said strip-shaped apertures in opposing positions are perpendicular to each other.

4. The interior and exterior wall panel junction box for prefabricated buildings according to any one of claims 1 to 3, wherein the rear end face of the junction box is provided with a through hole.

5. An assembly building interior and exterior wall panel junction box according to claim 4, wherein said rear end face is arcuate.

6. An assembly type internal and external wallboard for a building is characterized by comprising a wallboard body, a connecting box according to any one of claims 1-5 and a bolt, wherein a notch for placing the connecting box is formed in the top corner of the wallboard body, a threaded sleeve matched with the connecting box is installed inside the wallboard body, and the bolt is connected with the threaded sleeve to fix the connecting box at the notch.

7. An assembled building interior and exterior wall panel as defined in claim 6 wherein each of said junction boxes is secured at said gap by two sets of said bolts and said threaded sleeves.

8. An assembled building interior and exterior wall panel as claimed in claim 6 or 7, wherein said panel body has a keel mounted therein for securing said threaded sleeve.

9. A method for installing an inner wall board, an outer wall board, a floor board and/or a roof board for an assembly type building is characterized by comprising the following steps:

placing a wall panel body provided with a connection box according to any one of claims 1 to 5 adjacent a floor and/or roof panel to be installed;

inserting bolts into the other two connecting holes of the connecting box respectively;

and screwing the bolts to fixedly connect the wallboard body with the floor slab and/or the roof slab respectively.

10. A method of installing internal and external wall and floor and/or roof panels for prefabricated buildings according to claim 9 wherein the floor and roof panels are internally provided with pre-embedded sleeves matching the bolts.

11. A method of installing internal and external wall and floor and/or roof panels for prefabricated buildings according to claim 10 wherein said pre-embedded sleeves are threaded sleeves.

12. A method of installing internal and external wall panels and floor and/or roof panels for prefabricated buildings according to claim 9, 10 or 11 wherein glue pads are provided between the wall panel bodies and the floor and/or roof panels.

13. A method of installing prefabricated structural interior and exterior wall panels and floor and/or roof panels according to claim 12, wherein said adhesive pads are fire-resistant adhesive strips.

14. A method of installing interior and exterior wall panels and floor and/or roof panels for prefabricated buildings according to claim 9, further comprising pre-attaching said connector boxes to said wall panel bodies, comprising the steps of:

placing the connecting box at the notch of the wallboard body, and enabling the front end face of the connecting box to face the assembling direction;

aligning the connecting holes on two adjacent end side surfaces of the connecting box with two corresponding threaded sleeves on the wallboard body respectively;

and the two bolts are respectively inserted into the two connecting holes and then connected with the corresponding threaded sleeves, and are initially screwed and fixed.

15. A method of installing internal and external wall and floor and/or roof panels for prefabricated buildings according to claim 9 or 14 wherein tightening said bolts comprises tightening four of said bolts.

Images