CN111119345A - Connecting structure suitable for assembly type steel frame-prefabricated wall board and mounting method - Google Patents

Abstract

The invention discloses a connecting structure and a mounting method suitable for an assembled steel frame-prefabricated wallboard, wherein the connecting structure comprises a steel frame, a prefabricated wallboard and a connecting device; the connecting device comprises a metal groove and a metal piece, wherein a metal sliding block is arranged on the metal groove, a convex block is arranged on the metal sliding block in a downward protruding mode, a first sliding groove is formed in the metal groove, and a second sliding groove is formed in the metal piece; the metal groove is fixedly arranged on the prefabricated wall board, and the metal piece is fixedly arranged on the steel frame column and the steel frame beam respectively, so that the convex block on the metal sliding block slides into the second sliding groove of the metal piece along the first sliding groove of the metal groove and is fixed. The invention has simple construction and certain economical efficiency of construction cost, and ensures that the deformation between the wallboard and the frame has better coordination. The metal sliding blocks are connected in a sliding mode, so that on-site wet operation is avoided, and the gap between the wall body and the steel frame is reduced, so that the integrity of the steel frame and the prefabricated wall board is good.

Description

Connecting structure suitable for assembly type steel frame-prefabricated wall board and mounting method

Technical Field

The invention relates to a connecting structure and a mounting method of a steel frame-wallboard, in particular to a connecting structure and a mounting method suitable for an assembled steel frame-prefabricated wallboard.

Background

The steel frame structure has the advantages of light weight, high strength, high construction speed and sustainable development, so that the steel frame structure is rapidly developed in recent years. At present, steel structures are applied more and more in buildings such as houses, offices and the like, but because connecting nodes between steel frames and wall plates have some problems, the development of the steel structure buildings is hindered to a certain extent. The common connection methods of the steel frame-prefabricated wall panel at present are as follows:

adopting a hook bolt for connection: and welding angle steel on the surface of the flange of the steel beam, and penetrating a hook bolt into the wallboard and welding the hook bolt with the angle steel. The connection method needs to form holes on the surface of the wall body, so that the strength of the wall plate is reduced, and the integrity of the wall body is damaged; and moreover, a special hook bolt is needed, the construction economy is not enough, and the construction is complex.

Connecting by adopting a U-shaped steel clamp: pre-burying a metal piece at the edge of the wallboard, arranging a U-shaped steel clamp at the edge of the wallboard and welding the U-shaped steel clamp with the pre-buried metal piece, and welding the other end of the U-shaped steel clamp on a steel beam or a steel column. The connection method has high requirement on welding strength, the steel frame and the wallboard are rigidly connected, and deformation coordination between the steel frame and the wallboard is insufficient.

Disclosure of Invention

The purpose of the invention is as follows: one of the purposes of the invention is to provide a connecting structure which has good stability and is suitable for an assembled steel frame-prefabricated wall plate; the invention also aims to provide an installation method of the connecting structure suitable for the prefabricated steel frame-prefabricated wall panel.

The technical scheme is as follows: the invention is suitable for a connecting structure of an assembled steel frame and a prefabricated wallboard, and comprises a steel frame consisting of steel frame columns and steel frame beams, the prefabricated wallboard positioned in the steel frame, and a plurality of groups of connecting devices for connecting the steel frame and the prefabricated wallboard; each group of connecting devices comprises a metal groove and a metal piece, wherein a metal sliding block is arranged on the metal groove, a convex block is arranged on the metal sliding block in a downward protruding mode, a first sliding groove for accommodating the convex block and allowing the metal sliding block to slide is formed in the metal groove, and a second sliding groove for accommodating the convex block and allowing the metal sliding block to slide is formed in the metal piece; the metal groove is fixedly arranged on the prefabricated wall board, and the metal piece is fixedly arranged on the steel frame column and the steel frame beam respectively, so that the convex block on the metal sliding block slides into the second sliding groove of the metal piece along the first sliding groove of the metal groove and is fixed. The metal groove is lengthways, so that the sliding block can be ensured to have a certain sliding length in the groove, and the connection is reliable.

Preferably, the metal sliding block is provided with a plurality of hemispherical grooves located on two sides of the protruding block, the metal piece is provided with a plurality of hemispherical protrusions located on two sides of the second sliding groove, and the protrusions are matched with the grooves and are arranged along the sliding direction of the metal sliding block.

Further, the cross section of the bump is rectangular or circular. Accordingly, the cross-section of the first and second runners is also rectangular or circular.

Further, the prefabricated wallboard is a hollow gypsum wallboard, a bamboo wallboard, a wood wallboard or a fly ash foam cement wallboard.

Further, the material of the connecting device is steel, aluminum alloy or copper. Namely, the metal groove, the metal slide block and the metal piece are made of steel, aluminum alloy or copper.

Further, the steel used for the steel frame columns and the steel frame beams is Q235, Q345, Q390, Q420 or Q460.

Furthermore, the connection mode between the metal groove and the prefabricated wall board is self-tapping screw connection or round nail connection; the metal piece is connected with the steel frame column and the steel frame beam in a welding mode, a rivet connection mode or a bolt connection mode.

Further, the shape of the metal piece is in a straight line shape or an L shape, and the cross section of the steel frame column in the mounted state is in an H shape or an I shape. The prefabricated wall plate can be arranged at the center line or the outer edge of the steel frame column, and when the prefabricated wall plate is positioned at the center line of the steel frame column, the metal piece is in an L shape; when the prefabricated wall board is positioned at the outer edge of the steel frame column, the metal piece is in a straight line shape.

The invention also provides an installation method of the connection structure suitable for the assembled steel frame-prefabricated wall panel, which comprises the following steps:

(1) prefabricating steel frame columns, steel frame beams and prefabricated wallboards;

(2) the installation and fixation of the connecting device are as follows: fixedly connecting metal pieces to the surfaces of the steel frame columns and the steel frame beams, and respectively fixedly connecting metal grooves to the surfaces of the two sides of the prefabricated wall plate, wherein the metal pieces correspond to the metal grooves in position;

(3) assembling and connecting an assembled steel frame and a prefabricated wallboard: firstly, assembling steel frame columns positioned on the left side and the right side and a steel frame beam positioned at the bottom, then clamping the prefabricated wall board into a space defined by the steel frame columns and the steel frame beam from top to bottom, and then assembling the steel frame beam positioned at the top;

the metal piece and the metal groove of each group of connecting devices are positioned at corresponding matched positions; and finally, pushing the metal sliding block of the connecting device to enable the convex block of the metal sliding block to slide in the first sliding groove of the metal groove and slide into the second sliding groove of the metal piece, so that the sliding block is clamped at the outer sides of the metal groove and the metal piece at the same time, and the sliding block is fixed, namely the connection and fixation of the steel frame and the prefabricated wallboard can be realized, and the steel frame and the prefabricated wallboard can be clamped and fixed.

Has the advantages that: compared with the prior art, the method has the advantages that,

(1) the invention has simple construction, certain economical efficiency of construction cost and better coordination of deformation between the wallboard and the frame;

(2) the metal slider is connected in a mode of sliding to the metal piece along the metal groove, the grooves on two sides of the metal slider protruding block can be clamped into the protrusions on the surface of the metal piece, connection reliability is guaranteed, on-site wet operation is avoided, and gaps between the wall body and the steel frame are reduced, so that the steel frame and the prefabricated wall board are good in integrity.

Drawings

FIG. 1 is a front view of the connecting device of embodiment 1 before installation;

FIG. 2 is a schematic view of the connection process of the prefabricated wall panel and the frame column in example 1 (A-A cut direction);

FIG. 3 is a schematic view showing the connection process of the prefabricated wall panel and the frame column in example 2;

FIG. 4 is a schematic view showing the connection process of the prefabricated wall panel and the frame column in example 3;

FIG. 5 is a schematic view of a combination of a metal slider and a metal member in examples 1 and 3;

FIG. 6 is a schematic view showing a combination of a metal slider and a metal member in example 2;

FIG. 7 is a schematic view of a metal bath in examples 1 and 3;

FIG. 8 is a schematic view of a metal bath in example 2.

Detailed Description

The present invention will be described in further detail with reference to examples.

Example 1:

as shown in fig. 1, 2, 5, and 7, the assembled steel frame-prefabricated wall panel connection structure of this embodiment includes a steel frame formed by steel frame columns and steel frame beams, a prefabricated wall panel located in the steel frame, and 16 sets of connection devices connecting the steel frame and the prefabricated wall panel, where the steel frame includes two left and right steel frame columns 1, and steel frame beams 2 located at upper and lower ends and located between the steel frame columns 1, and a prefabricated wall panel 3 is located in a space surrounded by the steel frame columns 1 and the steel frame beams 2. Each set of connection means comprises a metal bath 5 and a metal piece 9.

The metal slot 5 of lengthwise is fixed on prefabricated wallboard 3 along the direction of connection installation of wallboard 3 and steel frame, and both sides surface all respectively is equipped with 8 metal slots 5 around prefabricated wallboard 3, all is equipped with metal slot 5 on four directions on a surface as shown in figure 1, is located with four directions of connection about the steel frame about, and every direction sets up two sets ofly. The metal groove 5 is provided with a metal sliding block 7, and as shown in fig. 5, the metal sliding block 7 is provided with a convex block 6 in a downward protruding manner; as shown in fig. 7, the metal groove 5 is provided with a first sliding groove 4 for accommodating the convex block 6 and allowing the metal slider 7 to slide; and a plurality of hemispherical grooves 10 positioned at two sides of the convex block 6 are arranged on the metal sliding block 7.

The metal piece 9 is provided with a second sliding groove 8 for accommodating the convex block 6 and allowing the metal sliding block 7 to slide, the metal piece 9 is provided with a plurality of hemispherical protrusions 11 positioned on two sides of the second sliding groove 8, and the protrusions 11 are matched with the grooves 10 and are arranged along the sliding direction of the metal sliding block 7. The metal pieces 9 are respectively fixedly installed on the steel frame column 1 and the steel frame beam 2, the installation number of the metal pieces 9 is the same as that of the metal grooves 5, and the installation positions of the metal pieces 9 correspond to those of the metal grooves 5, so that the convex blocks 6 on the metal sliding blocks 7 can slide into the second sliding grooves 8 of the metal pieces 9 along the first sliding grooves 4 of the metal grooves 5 and are fixed on the outer side surfaces of the metal pieces 9 and the metal grooves 5, and the steel frame and the prefabricated wall board are fixedly connected.

The cross section of the bump 6 is rectangular, and the cross sections of the first sliding chute and the second sliding chute 8 are both rectangular. The prefabricated wall plate 3 is a wood wall plate, the metal grooves 5, the metal sliding blocks 7 and the metal pieces 9 are made of steel, and the type of steel used for the steel frame columns 1 and the steel frame beams 2 is Q235. The connection mode between the metal groove 5 and the prefabricated wall plate 3 is self-tapping screw connection; the connection mode between the metal piece 9 and the steel frame column 1 and the steel frame beam 2 is bolt connection. The cross section of the steel frame column 1 is H-shaped; the prefabricated wall plate 3 is positioned at the center line of the steel frame column 1, and the metal pieces 9 on two sides are L-shaped.

The installation method of the connection structure of the assembly type steel frame and the prefabricated wall panel comprises the following steps:

(1) prefabricating a steel frame column 1 and a steel frame beam 2;

(2) the installation and fixation of the connecting device are as follows: connecting a metal part 9 provided with a second sliding groove 8 to the flanges of the steel frame column 1 and the steel frame beam 2 by bolts, connecting metal grooves 5 provided with first sliding grooves 4 on the two side surfaces of the prefabricated wall plate 3 by self-tapping screws, and arranging metal sliding blocks 7 with convex blocks 6 in the metal grooves 5;

(3) assembling an assembled steel frame and a prefabricated wallboard: firstly, assembling the steel frame columns 1 and the bottom steel frame beams 2 on two sides, then clamping the prefabricated wall board 3 into a space enclosed by the steel frame columns 1 and the steel frame beams 2 from top to bottom, then assembling the top steel frame beams 2, and finally sliding the convex block 6 of the metal sliding block 7 in the metal groove 5 and into the second sliding groove 8 of the metal piece 9, so that the sliding block 7 is simultaneously clamped on the outer sides of the metal groove 5 and the metal piece 9, and fixing the sliding block, and then the connection and fixation of the steel frame and the prefabricated wall board can be realized.

Example 2:

as shown in fig. 3, 6, and 8, the assembled steel frame-prefabricated wall panel connection structure of the present embodiment includes a steel frame formed by steel frame columns and steel frame beams, a prefabricated wall panel located in the steel frame, and a plurality of sets of connection devices connecting the steel frame and the prefabricated wall panel, where the steel frame includes two left and right steel frame columns 1, and steel frame beams 2 located at upper and lower ends and located between the steel frame columns 1, and the prefabricated wall panel 3 is located in a space surrounded by the steel frame columns 1 and the steel frame beams 2. Each set of connection means comprises a metal bath 5 and a metal piece 9.

The metal slot 5 of lengthwise is fixed on prefabricated wallboard 3 along the direction of connection of wallboard 3 and steel frame installation, and the front and back surface of prefabricated wallboard 3 all respectively is equipped with a plurality of metal slot 5. The metal groove 5 is provided with a metal sliding block 7, as shown in fig. 6, the metal sliding block 7 is provided with a convex block 6 in a downward protruding manner; as shown in fig. 8, the metal groove 5 is provided with a first sliding groove 4 for accommodating the bump 6 and sliding the metal slider 7; and a plurality of hemispherical grooves 10 positioned at two sides of the convex block 6 are arranged on the metal sliding block 7.

The metal piece 9 is provided with a second sliding groove 8 for accommodating the convex block 6 and allowing the metal sliding block 7 to slide, the metal piece 9 is provided with a plurality of hemispherical protrusions 11 positioned on two sides of the second sliding groove 8, and the protrusions 11 are matched with the grooves 10 and are arranged along the sliding direction of the metal sliding block 7. The metal pieces 9 are respectively fixedly installed on the steel frame column 1 and the steel frame beam 2, the installation number of the metal pieces 9 is the same as that of the metal grooves 5, and the installation positions of the metal pieces 9 correspond to those of the metal grooves 5, so that the convex blocks 6 on the metal sliding blocks 7 can slide into the second sliding grooves 8 of the metal pieces 9 along the first sliding grooves 4 of the metal grooves 5 and are fixed on the outer side surfaces of the metal pieces 9 and the metal grooves 5, and the steel frame and the prefabricated wall board are fixedly connected.

The cross section of the bump 6 is circular, and the cross sections of the first sliding chute and the second sliding chute 8 are both circular. The prefabricated wall plate 3 is a hollow gypsum wall plate, the metal grooves 5, the metal sliding blocks 7 and the metal pieces 9 are made of aluminum alloy, and the type of steel used for the steel frame columns 1 and the steel frame beams 2 is Q345. The connection mode between the metal groove 5 and the prefabricated wall plate 3 is round nail connection; the connection mode between the metal piece 9 and the steel frame column 1 and the steel frame beam 2 is rivet connection. The cross section of the steel frame column 1 is I-shaped; the prefabricated wall plate 3 is positioned at the center line of the steel frame column 1, and the metal pieces 9 on two sides are L-shaped.

The installation method of the connection structure of the assembly type steel frame and the prefabricated wall panel comprises the following steps:

(1) prefabricating a steel frame column 1 and a steel frame beam 2;

(2) the installation and fixation of the connecting device are as follows: connecting a metal piece 9 provided with a second sliding groove 8 to webs of the steel frame column 1 and the steel frame beam 2 by rivets, connecting metal grooves 5 provided with first sliding grooves 4 on the surfaces of two sides of the prefabricated wall plate 3 by round nails, and arranging metal sliding blocks 7 with convex blocks 6 in the metal grooves 5;

(3) assembling an assembled steel frame and a prefabricated wallboard: firstly, assembling the steel frame columns 1 and the bottom steel frame beams 2 on two sides, then clamping the prefabricated wall board 3 into a space enclosed by the steel frame columns 1 and the steel frame beams 2 from top to bottom, then assembling the top steel frame beams 2, and finally sliding the convex block 6 of the metal sliding block 7 in the metal groove 5 and into the second sliding groove 8 of the metal piece 9, so that the sliding block 7 is simultaneously clamped on the outer sides of the metal groove 5 and the metal piece 9, and fixing the sliding block, and then the connection and fixation of the steel frame and the prefabricated wall board can be realized.

Example 3:

as shown in fig. 4, 5, and 7, the assembled steel frame-prefabricated wall panel connection structure of this embodiment includes a steel frame formed by steel frame columns and steel frame beams, a prefabricated wall panel located in the steel frame, and a plurality of sets of connection devices connecting the steel frame and the prefabricated wall panel, where the steel frame includes two left and right steel frame columns 1, and steel frame beams 2 located at upper and lower ends and located between the steel frame columns 1, and a prefabricated wall panel 3 is located in a space surrounded by the steel frame columns 1 and the steel frame beams 2. Each set of connection means comprises a metal bath 5 and a metal piece 9.

The metal slot 5 of lengthwise is fixed on prefabricated wallboard 3 along the direction of connection of wallboard 3 and steel frame installation, and the front and back surface of prefabricated wallboard 3 all respectively is equipped with a plurality of metal slot 5. The metal groove 5 is provided with a metal sliding block 7, and as shown in fig. 5, the metal sliding block 7 is provided with a convex block 6 in a downward protruding manner; as shown in fig. 7, the metal groove 5 is provided with a first sliding groove 4 for accommodating the convex block 6 and allowing the metal slider 7 to slide; and a plurality of hemispherical grooves 10 positioned at two sides of the convex block 6 are arranged on the metal sliding block 7.

The metal piece 9 is provided with a second sliding groove 8 for accommodating the convex block 6 and allowing the metal sliding block 7 to slide, the metal piece 9 is provided with a plurality of hemispherical protrusions 11 positioned on two sides of the second sliding groove 8, and the protrusions 11 are matched with the grooves 10 and are arranged along the sliding direction of the metal sliding block 7. The metal pieces 9 are respectively fixedly installed on the steel frame column 1 and the steel frame beam 2, the installation number of the metal pieces 9 is the same as that of the metal grooves 5, and the installation positions of the metal pieces 9 correspond to those of the metal grooves 5, so that the convex blocks 6 on the metal sliding blocks 7 can slide into the second sliding grooves 8 of the metal pieces 9 along the first sliding grooves 4 of the metal grooves 5 and are fixed on the outer side surfaces of the metal pieces 9 and the metal grooves 5, and the steel frame and the prefabricated wall board are fixedly connected.

The cross section of the bump 6 is rectangular, and the cross sections of the first sliding chute and the second sliding chute 8 are both rectangular. The prefabricated wall plate 3 is a fly ash foam cement wall plate, the metal grooves 5, the metal sliding blocks 7 and the metal pieces 9 are made of copper, and the type of steel used for the steel frame columns 1 and the steel frame beams 2 is Q390. The connection mode between the metal groove 5 and the prefabricated wall plate 3 is self-tapping screw connection; the connection mode between the metal piece 9 and the steel frame column 1 and the steel frame beam 2 is welding. The cross section of the steel frame column 1 is I-shaped; the prefabricated wall plate 3 is positioned at the outer edge of the steel frame column 1, the metal piece 9 on one side is L-shaped, and the other side is in a straight shape.

The installation method of the connection structure of the assembly type steel frame and the prefabricated wall panel comprises the following steps:

(1) prefabricating a steel frame column 1 and a steel frame beam 2;

(2) the installation and fixation of the connecting device are as follows: connecting the metal part 9 provided with the second sliding chute 8 to the flanges of the steel frame column 1 and the steel frame beam 2 by rivets, and welding the metal part 9 provided with the second sliding chute 8 to the webs of the steel frame column 1 and the steel frame beam 2 at the other side; the surfaces of two sides of the prefabricated wall plate 3 are connected with a metal groove 5 provided with a first sliding groove 4 by self-tapping screws, and a metal sliding block 7 with a convex block 6 is arranged in the metal groove 5;

(3) assembling an assembled steel frame and a prefabricated wallboard: firstly, assembling the steel frame columns 1 and the bottom steel frame beams 2 on two sides, then clamping the prefabricated wall board 3 into a space enclosed by the steel frame columns 1 and the steel frame beams 2 from top to bottom, then assembling the top steel frame beams 2, and finally sliding the convex block 6 of the metal sliding block 7 in the metal groove 5 and into the second sliding groove 8 of the metal piece 9, so that the sliding block 7 is simultaneously clamped on the outer sides of the metal groove 5 and the metal piece 9, and fixing the sliding block, and then the connection and fixation of the steel frame and the prefabricated wall board can be realized.

Claims (9)

1. A connection structure suitable for assembled steel frame-prefabricated wallboard, its characterized in that: the prefabricated wall plate comprises a steel frame consisting of steel frame columns (1) and steel frame beams (2), a prefabricated wall plate (3) positioned in the steel frame, and a plurality of groups of connecting devices for connecting the steel frame and the prefabricated wall plate (3); each group of connecting devices comprises a metal groove (5) and a metal piece (9), a metal sliding block (7) is arranged on the metal groove (5), a convex block (6) is arranged on the metal sliding block (7) in a downward protruding mode, a first sliding groove (4) for accommodating the convex block (6) and allowing the metal sliding block (7) to slide is arranged on the metal groove (5), and a second sliding groove (8) for accommodating the convex block (6) and allowing the metal sliding block (7) to slide is arranged on the metal piece (9); the metal groove (5) is fixedly arranged on the prefabricated wall plate (3), and the metal piece (9) is fixedly arranged on the steel frame column (1) and the steel frame beam (2) respectively, so that the convex block (6) on the metal sliding block (7) slides into the second sliding groove (8) of the metal piece (9) along the first sliding groove (4) of the metal groove (5) and is fixed on the outer side surfaces of the metal piece (9) and the metal groove (5).

2. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: be equipped with a plurality of hemisphere recesses (10) that are located lug (6) both sides on metal sliding block (7), be equipped with a plurality of hemisphere archs (11) that are located second spout (8) both sides on metalwork (9), protruding (11) and recess (10) looks adaptation all set up along the slip direction of metal sliding block (7).

3. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the cross section of the bump (6) is rectangular or circular.

4. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the prefabricated wallboard (3) is a hollow gypsum wallboard, a bamboo wallboard, a wood wallboard or a fly ash foam cement wallboard.

5. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the connecting device is made of steel, aluminum alloy or copper.

6. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the steel frame column (1) and the steel frame beam (2) are made of Q235, Q345, Q390, Q420 or Q460.

7. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the metal groove (5) and the prefabricated wall plate (3) are fixedly connected by adopting self-tapping screws or round nails; the metal piece (9) is fixedly connected with the steel frame column (1) and the steel frame beam (2) by welding, riveting or bolt connection.

8. The connecting structure for an assembled steel frame-prefabricated wall panel according to claim 1, wherein: the shape of the metal piece (9) is in a straight line shape or an L shape, and the cross section of the steel frame column (1) is in an H shape or an I shape.

9. An installation method of a connection structure suitable for an assembled steel frame-prefabricated wall panel according to any one of claims 1 to 8, wherein: fixedly connecting metal pieces (9) to the surfaces of the steel frame columns (1) and the steel frame beams (2), and fixedly connecting metal grooves (5) to the surfaces of the two sides of the prefabricated wall panel (3), wherein the positions of the metal pieces (9) correspond to the positions of the metal grooves (5); firstly, assembling steel frame columns (1) and bottom steel frame beams (2) on the left side and the right side, then clamping prefabricated wall plates (3) into a space enclosed by the steel frame columns (1) and the steel frame beams (2) from top to bottom, and then assembling the steel frame beams (2) on the top; the metal sliding block (7) is pushed to enable the bump (6) to slide in the first sliding groove (4) of the metal groove (5) and slide into the second sliding groove (8) of the metal piece (9), so that the metal sliding block (7) is clamped at the outer sides of the metal groove (5) and the metal piece (9) at the same time and is clamped and fixed.

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