CN111005480B - To tight assembly type wallboard integrated configuration - Google Patents

Abstract

The invention relates to a butt-tight assembly type wallboard combined structure which comprises a plane wallboard, a corner wallboard, a partition wallboard and a butt-tight connecting piece, wherein the plane wallboard, the corner wallboard and the partition wallboard are mutually assembled and connected through the butt-tight connecting piece; the plane wall plate, the corner wall plate and the partition wall plate are all provided with a tightening groove and a connecting rod hole; the tightening connecting piece comprises a double-end screw, a fastening nut and a notch supporting and abutting block; after butt joint between plane wallboard, corner wallboard or the partition wall board, the double-end screw rod is worn to establish in the corresponding connecting rod hole of butt joint wallboard, and the notch supports to support the piece and contradicts in the side upper angle department that corresponds to the tight groove of butt joint wallboard, and fastening nut fastens and supports the piece outside in the notch support. The tightly assembled wallboard combined structure provides an operation method and an operation space for the contraction of the joint after the wall body is spliced, compensates the wall surface rigidity loss caused by slotting, and reinforces the wall plate in different degrees according to the bearing requirements and the shearing resistance requirements of different positions.

Description

To tight assembly type wallboard integrated configuration

Technical Field

The invention relates to the field of buildings, in particular to a butt-assembled wallboard combined structure.

Background

The assembly building planning is intensively released since 2015, an industrial building evaluation standard is released at the end of 2015, the 2016 is decided to comprehensively popularize the assembly buildings nationwide, and breakthrough progress is achieved; the building department of 11/14 th of 2015 provides a building industry modernization development outline, and the assembled building accounts for more than 20% of the newly-built building in 2020 to more than 50% of the newly-built building in 2025.

The prefabricated wall body is used as an important component of an assembled prefabricated part, primary matching and connection among the prefabricated wall bodies are realized through bolt locking, the existing prefabricated wall body is only matched with bolt bidirectional locking in a mode of arranging holes or pre-embedded nuts or bolt sleeves on the wall body, tight connection among wall body construction is difficult to guarantee in the mode, obvious gaps often exist at seams, the wall body can be tightly assembled in a mode of reducing the gaps, square grooves can be reserved on two sides of the inner surface of the assembled wall body and extend to the square grooves from the side edges of the wall body through connecting holes, and therefore the space in the grooves can be used for bidirectional locking, and although the connecting mode can reduce the gaps of the seams, the bearing capacity of the positions of the notches is lost. In addition, the existing prefabricated wall body is single in structural form of internal reinforcing bars, so that the corner column part and the straight surface part of the existing prefabricated wall body are difficult to meet the requirements of different degrees of strength for bearing and resisting earthquake.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: overcome the prefabricated wallboard of current assembled's initial makeup seam crossing and have the defect such as clearance and bulk strength are not enough, screw nut function singleness, provide one kind can seam crossing elimination clearance, can compensate notch bearing capacity disappearance, and possess vertical bearing strength in corner post position and straight face position and cut to stretch-proofing intensity to tight assembly type wallboard integrated configuration.

In order to solve the technical problem, the tight assembly type wallboard combination structure comprises a plane wallboard, a corner wallboard, a partition wallboard and a tight connection piece, wherein the plane wallboard, the corner wallboard and the partition wallboard are mutually assembled and connected through the tight connection piece; the inner side surfaces of the plane wall plate, the corner wall plate and the partition wall plate are all provided with a butt-joint groove, a connecting rod hole penetrating through the wall body is formed in the butt-joint groove, and the connecting rod hole extends to the butt-joint groove from the side surface of the wall body; the tightening connecting piece comprises a double-end screw, a fastening nut and a notch supporting and abutting block; after the plane wall plate, the corner wall plate or the partition wall plate are butted, the double-end screw rod penetrates through corresponding connecting rod holes of the butted wall plates, the notch supporting and abutting block abuts against the side upper angle of the corresponding abutting groove of the butted wall plates, and the fastening nut is fastened on the outer side of the notch supporting and abutting block.

Preferably, the thickness of the plane wall plate, the corner wall plate and the partition wall plate is 160-200 mm.

In order to compensate the loss of the bearing capacity of the notch and enhance the strength of the vertical face of the notch part, the notch supporting and abutting block comprises an abutting bending plate, a connecting rod penetrating nose in a long groove shape is arranged on the vertical face of the abutting bending plate, and a supporting rib plate is arranged on the connecting rod penetrating nose.

Specifically, the support rib plate comprises a main support rib plate arranged at the center of the upper edge of the connecting rod nose penetrating part, two sides of the main support rib plate are provided with oblique support rib plates, and the main support rib plate and the oblique support rib plates extend from the upper edge of the connecting rod nose penetrating part and are welded to the top surface of the collision bending plate.

Specifically, the inner side of the conflict bending plate and the end part of the connecting rod penetrating nose are both provided with rubber buffer washers, and the inner side surface of the conflict bending plate is provided with a wall nail.

In order to strengthen the shearing direction of the wall body and further compensate the loss of the bearing capacity caused by slotting, framework rib cages are arranged inside the plane wall plate, the corner wall plate and the partition wall plate.

Specifically, the framework rebar cage comprises longitudinal studs and transverse studs.

In order to strengthen the longitudinal bearing strength of the corner part, the corner wall boards and the partition wall boards are provided with reinforcing rib cages inside the corner parts.

Specifically, the reinforcing rib cage comprises longitudinal ribs, transverse ribs and crossed ribs.

According to the wall panel combination structure, the wall body is provided with the grooves and the double-head fastening connecting pieces in a matched mode, an operation method and an operation space are provided for the contraction of the joint after the wall body is spliced, the vertex angle supporting devices are designed on the double-head fastening connecting pieces, the wall surface rigidity loss caused by the grooves is compensated, and in addition, the wall panels are strengthened to different degrees according to the bearing requirements and the shearing resistance requirements of different positions on the premise of considering the cost by embedding the reinforcement cages with different structures in the wall surface and the corner parts.

Drawings

The invention is further described by combining the attached drawings, wherein the assembled wall panel combination structure comprises:

FIG. 1 is a top plan view of the present pair of tightly assembled wall panel assemblies;

FIG. 2 is a schematic view of the front plan assembly structure of the pair of tightly assembled wall panel assemblies;

FIG. 3 is a partial enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic longitudinal section of a straight beam in the assembled wall panel assembly of the present pair of assembled wall panels;

FIG. 5 is a schematic longitudinal sectional view of the corner portions of the corner beam and the center turn beam in the assembled wall panel assembly structure;

FIG. 6 is a perspective view of a straight beam of the assembled wall panel assembly;

FIG. 7 is a perspective view of a corner beam of the present assembled wall panel assembly;

FIG. 8 is a perspective view of a center sill of the assembled wall panel assembly;

fig. 9 is a perspective view of the tight connection in the assembled wall panel assembly structure.

In the figure:

1-plane wall plate, 2-corner wall plate, 3-partition wall plate, 4-tightening connecting piece, 5-tightening groove, 6-connecting rod hole, 7-framework reinforcement cage and 8-reinforced reinforcement cage;

41-double-threaded screw, 42-fastening nut, 43-notch supporting block, 44-rubber buffer washer, 45-wall nail, 71-longitudinal stud, 72-transverse stud, 81-longitudinal stud, 82-transverse stud and 83-cross stud;

431-a butt bending plate, 432-a connecting rod nose, 433-a main supporting rib plate and 434-a diagonal supporting rib plate.

Detailed Description

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "left", "right", "front", "back", "top", "bottom", "inner", "outer", etc., indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

As shown in fig. 1 to 9, the tight fitting type wall panel combination structure comprises a planar wall panel 1, a corner wall panel 2, a partition wall panel 3 and a tight fitting connecting piece 4, wherein the planar wall panel 1, the corner wall panel 2 and the partition wall panel 3 are assembled and connected with each other through the tight fitting connecting piece 4; the inner side surfaces of the plane wall plate 1, the corner wall plate 2 and the partition wall plate 3 are all provided with tightening grooves 5, connecting rod holes 6 penetrating through the wall body are formed in the tightening grooves 5, and the connecting rod holes 6 extend to the tightening grooves 5 from the side surfaces of the wall body; the tightening connecting piece 4 comprises a double-end screw 41, a fastening nut 42 and a notch supporting and abutting block 43; after the plane wall plate 1, the corner wall plate 2 or the partition wall plate 3 are butted, the double-threaded screw 41 penetrates through the corresponding connecting rod hole 6 of the butted wall plate, the notch supporting abutting block 43 abuts against the side upper corner of the corresponding abutting groove 5 of the butted wall plate, and the fastening nut 42 is fastened on the outer side of the notch supporting abutting block 43. The thickness of the plane wall board 1, the corner wall board 2 and the partition wall board 3 is 160-200 mm.

The notch supporting block 43 comprises an abutting bending plate 431, a connecting rod penetrating nose 432 in a long groove shape is arranged on the vertical surface of the abutting bending plate 431, and a supporting rib plate is arranged on the connecting rod penetrating nose 432. The supporting rib plates comprise main supporting rib plates 433 which are arranged on the upper edge of the connecting rod penetrating nose 432 along the center, oblique supporting rib plates 434 are arranged on two sides of each main supporting rib plate 433, and the main supporting rib plates 433 and the oblique supporting rib plates 434 extend from the upper edge of the connecting rod penetrating nose 432 and are welded to the top surface of the abutting bending plate 431. Rubber buffer washers 44 are arranged on the inner side of the abutting bending plate 431 and the end portion of the connecting rod penetrating nose 432, and wall nails 45 are arranged on the inner side face of the abutting bending plate 431. The device is used for compensating the loss of the bearing capacity of the notch and enhancing the strength of the vertical surface of the notch.

The plane wallboard 1, the corner wallboard 2 and the partition wallboard 3 are internally provided with a framework rib cage 7. The cage 7 comprises longitudinal studs 71 and transverse studs 72. The shear strength of the wall is strengthened, and the bearing capacity loss caused by slotting is further compensated.

The corner wallboard 2 and the partition wallboard 3 are provided with reinforcing rib cages 8 inside at corners. The reinforcing rib cage 8 includes longitudinal ribs 81, transverse ribs 82, and cross ribs 83. And the longitudinal bearing strength of the corner part is strengthened.

During construction, the connection rod holes are basically aligned during wall splicing, the double-end connection rods penetrate through the connection rod holes, the notches on the two sides are sleeved with the supporting blocks, the vertical distance is adjusted in the long through arm grooves, the supporting blocks abut against the top corners of the abutting grooves, which are adjacent to one sides of the connection rod holes, the top corners are pre-fixed on the groove faces of the side portions of the abutting grooves by wall nails, nuts are screwed into the outer sides of the supporting blocks after the rubber pads are sleeved, the nuts are screwed into the abutting grooves from the two sides inwards, and the wall boards are completely spliced. After finishing, a mould can be erected to be poured into concrete to protect the inner wall, or the inner wall plate is directly attached and covered, and the abutting groove is filled and then the plane layer is ground.

According to the wall panel combination structure, the wall body is provided with the grooves and the double-head fastening connecting pieces in a matched mode, an operation method and an operation space are provided for the contraction of the joint after the wall body is spliced, the vertex angle supporting devices are designed on the double-head fastening connecting pieces, the wall surface rigidity loss caused by the grooves is compensated, and in addition, the wall panels are strengthened to different degrees according to the bearing requirements and the shearing resistance requirements of different positions on the premise of considering the cost by embedding the reinforcement cages with different structures in the wall surface and the corner parts.

The foregoing description illustrates the principal features, rationale, and advantages of the invention. It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments or examples, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The foregoing embodiments or examples are therefore to be considered in all respects illustrative and not restrictive. The scope of the invention is indicated by the appended claims rather than by the foregoing description, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a to tight assembly type wallboard integrated configuration, characterized by: the wall comprises a plane wall plate (1), a corner wall plate (2), a partition wall plate (3) and a butt connecting piece (4), wherein the plane wall plate (1), the corner wall plate (2) and the partition wall plate (3) are assembled and connected with each other through the butt connecting piece (4); wherein the content of the first and second substances,

the inner sides of the plane wall plate (1), the corner wall plate (2) and the partition wall plate (3) are all provided with tightening grooves (5), connecting rod holes (6) penetrating through the wall body are formed in the tightening grooves (5), and the connecting rod holes (6) extend to the tightening grooves (5) from the side faces of the wall body; the tightening connecting piece (4) comprises a double-end screw (41), a fastening nut (42) and a notch supporting and abutting block (43);

after the plane wall plate (1), the corner wall plate (2) or the partition wall plate (3) are butted, the double-threaded screw (41) penetrates through a corresponding connecting rod hole (6) of the butted wall plate, the notch supporting and abutting block (43) abuts against the upper side corner of a corresponding abutting groove (5) of the butted wall plate, and the fastening nut (42) is fastened on the outer side of the notch supporting and abutting block (43);

the notch supporting block (43) comprises an abutting bending plate (431), a long-groove-shaped connecting rod penetrating nose (432) is arranged on the vertical surface of the abutting bending plate (431), and a supporting rib plate is arranged on the connecting rod penetrating nose (432); the supporting rib plates comprise main supporting rib plates (433) arranged at the center of the upper edge of the connecting rod penetrating nose (432), inclined supporting rib plates (434) are arranged on two sides of each main supporting rib plate (433), and the main supporting rib plates (433) and the inclined supporting rib plates (434) extend from the upper edge of the connecting rod penetrating nose (432) and are welded to the top surfaces of the abutting bending plates (431); rubber buffer washers (44) are arranged on the inner side of the abutting bending plate (431) and the end part of the connecting rod penetrating nose (432); wall nails (45) are arranged on the inner side surfaces of the abutting bending plates (431).

2. The assembly structure of opposite-fastening assembling type wall plate as claimed in claim 1, wherein: the thickness of the plane wall board (1), the corner wall board (2) and the partition wall board (3) is 160-200 mm.

3. The assembly structure of opposite-fastening assembling type wall plate as claimed in claim 2, wherein: and framework rib cages (7) are arranged inside the plane wall plate (1), the corner wall plate (2) and the partition wall plate (3).

4. The assembly structure of opposite-fastening assembling type wall plate as claimed in claim 3, wherein: the framework rib cage (7) comprises longitudinal vertical ribs (71) and transverse vertical ribs (72).

5. The assembly structure of opposite-fastening assembling type wall plate as claimed in claim 2, wherein: the corner wallboard (2) and the partition wallboard (3) are provided with reinforcing rib cages (8) inside at corners.

6. The assembly structure of opposite-fastening assembling type wall plate as claimed in claim 5, wherein: the reinforcing rib cage (8) comprises longitudinal ribs (81), transverse ribs (82) and crossed ribs (83).

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