CN215926674U - Wall connecting piece structure for high-assembly-rate building beam plate position - Google Patents

Abstract

The utility model discloses a wall connecting piece structure for a beam plate position of a building with high assembly rate, which comprises: pre-buried square nut sleeve pipe in the beam slab, with the double threaded screw that square nut sleeve pipe links to each other, with the double threaded screw links to each other attaches the wall base, with what double threaded screw connected is used for fixing the base fixation nut who attaches the wall base set up in attach first supporting part and second supporting part on the wall base, with the wall pole that links that first supporting part is connected, with the elasticity pull rod that links the wall pole and connect, and connect the elasticity pull rod with the regulation fastener of second supporting part, wherein, the second supporting part is located the top of first supporting part. The wall connecting piece structure does not need to penetrate through a wall body, the risk of leakage is eliminated, the wall connecting piece structure has a tensioning effect while supporting, the structure is very stable, and a good stabilizing effect is achieved on the scaffold.

Description

Wall connecting piece structure for high-assembly-rate building beam plate position

Technical Field

The utility model belongs to the technical field of wall connecting piece installation, and particularly relates to a wall connecting piece structure for a beam plate position of a high-assembly-rate building.

Background

In building engineering, the scaffold is even the wall body is the important accessory that the scaffold was set up for be connected scaffold frame body and building major structure, can transmit pulling force and pressure, adopt even wall spare to realize attaching the wall connection, to the overall stability of strengthening the scaffold, improve its stable bearing capacity and avoid appearing toppling over or collapse etc. major accident and have very important effect.

The method for embedding the steel pipes at the positions of the beam plates of the building with high assembly rate is the most common method for connecting the wall parts at present and can play a role in rigid connection, the method for embedding the steel pipes comprises the steps of embedding a vertical short steel pipe in the beam for about 20cm before concrete pouring, exposing the back of the beam for about 20cm, and connecting the vertical rods and the vertical short steel pipes by using horizontal long steel pipes after the concrete pouring is finished.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides the wall connecting piece structure which does not need to penetrate through a wall body, is convenient to adjust and is stably installed and used for the beam plate position of the building with high assembly rate.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a wall spare structure even for high assembly rate building beam slab position, includes pre-buried square nut sleeve pipe in the beam slab, with the double threaded screw that square nut sleeve pipe links to each other, with the double threaded screw links to each other attaches the wall base, with what double threaded screw connected is used for fixing attach the base fixation nut of wall base, set up in attach first supporting part and second supporting part on the wall base, with the wall pole that links that first supporting part is connected, with the elasticity pull rod that links the wall pole and connect the elasticity pull rod with the regulation fastener of second supporting part, wherein, the second supporting part with first supporting part be located in same vertical plane and all with attach wall base structure connection as an organic whole, the second supporting part be located the top of first supporting part, it is used for connecting the scaffold pole setting to link the wall pole.

Furthermore, the two ends of the adjusting and fastening device are respectively provided with threads in opposite directions, the upper ends of the second supporting part and the elastic pull rod are provided with threads matched with the threads at the two ends of the adjusting and fastening device, and the adjusting and fastening device realizes connection and fastening of the second supporting part and the elastic pull rod through the threads.

Further, the adjusting and fastening device is made of Q235 steel.

Furthermore, a pull ring thread area is arranged on the outer side of the inner end of the wall connecting rod, a pull ring is arranged at the lower end of the elastic pull rod, threads matched with the pull ring thread area are arranged in the pull ring, and the pull ring moves on the pull ring thread area through rotation.

And furthermore, a pull ring fixing nut is arranged on the pull ring thread area.

Further, the first supporting part is connected with the inner end of the wall connecting rod through threads.

Furthermore, the screw thread of the first supporting part is arranged on the inner surface, and the screw thread of the inner end of the wall connecting rod is arranged on the outer surface.

Furthermore, the screw thread of the first supporting part is arranged on the outer surface, and the screw thread of the inner end of the wall connecting rod is arranged on the inner surface.

Further, it is characterized in that: the elastic pull rod is made of steel bars.

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

(1) according to the wall connecting piece structure, the square nut sleeve is embedded in the beam plate, the wall attaching base is fixed on the beam plate through the double-end screw and the base fixing nut, the wall connecting rod is connected through the first supporting part on the wall attaching base, the wall connecting rod is further stabilized through the elastic pull rod, the adjusting and fastening device is arranged between the elastic pull rod and the second supporting part, and the elastic pull rod is adjusted through the adjusting and fastening device.

(2) The two ends of the adjusting and fastening device are respectively provided with threads in opposite directions, the upper ends of the second supporting part and the elastic pull rod are provided with threads matched with the threads at the two ends of the adjusting and fastening device, the elastic pull rod can be fastened conveniently by rotating the adjusting and fastening device, so that the pulling force is transmitted to the wall connecting rod, and the wall connecting rod is tensioned.

(3) The adjusting and fastening device is made of Q235 steel, so that the structure of the adjusting and fastening device is more stable.

(4) According to the utility model, the wall connecting rod is provided with the pull ring threaded area, the lower end of the elastic pull rod is provided with the pull ring with threads, and the pull ring can move on the pull ring threaded area by rotating the pull ring, so that the installation and adjustment are convenient.

(5) According to the utility model, the pull ring fixing nut is arranged on the pull ring threaded area, so that the fixation of the pull ring on the pull ring threaded area is enhanced.

(6) The first supporting part is connected with the inner end of the wall connecting rod through threads, so that the wall connecting rod is convenient to mount and adjust, and the threads are arranged in two modes, namely the threads of the first supporting part are arranged on the inner surface, and the threads of the inner end of the wall connecting rod are arranged on the outer surface; the other is that the screw thread of the first supporting part is arranged on the outer surface, and the screw thread of the inner end of the wall connecting rod is arranged on the inner surface, thus having more choices in installation construction.

(7) The elastic pull rod is made of the steel bars, so that the stress stability of the elastic pull rod is ensured.

Drawings

Fig. 1 is a schematic structural view of the wall connecting member of the present invention.

Fig. 2 is a schematic view of the tab structure of the present invention.

FIG. 3 is a schematic view of the connection between the first support and the wall connecting bar according to the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1-beam slab, 2-square nut sleeve, 3-double-head screw, 4-wall-attached base, 5-base fixing nut, 6-first supporting part, 7-second supporting part, 8-wall-connecting rod, 9-elastic pull rod, 10-adjusting and fastening device, 11-pull ring, 12-pull ring threaded area, 13-pull ring fixing nut and 14-scaffold upright rod.

Detailed Description

The present invention is further illustrated by the following figures and examples, which include, but are not limited to, the following examples.

Example 1

As shown in fig. 1 and fig. 2, the embodiment provides a wall connecting member structure for a high assembly rate building beam slab position, which includes square nut sleeves 2, double-headed screws 3, a wall attaching base 4, a base fixing nut 5, a first supporting part 6, a second supporting part 7, a wall connecting rod 8, an elastic pull rod 9, and an adjusting and fastening device 10, wherein the square nut sleeves 2 are pre-embedded in the beam slab 1, the pre-embedded positions are symmetrically arranged, that is, two square nut sleeves 2 are symmetrically pre-embedded, and are generally arranged in a vertically symmetrical manner according to the stress condition analysis, or a pair of square nut sleeves 2 are symmetrically arranged on the left and right sides on the basis of the vertically symmetrical arrangement, so as to further enhance the stability of the installation structure, after pre-embedding, the strength of concrete in the beam slab 1 is determined by a resilience method, when the strength of the concrete reaches 5MPa, the double-headed screws 3 are installed on the square nut sleeves 2, the strength of the concrete is judged by a rebound method, when the strength of the concrete reaches 10MPa, the wall-attached base 4 is installed, a screw hole matched with the double-head screw 3 is arranged on the wall-attached base 4, the wall attaching base 4 is arranged on the wall surface of the beam slab 1 through screw holes and is fastened through a base fixing nut 5, a first supporting part 6 and a second supporting part 7 are arranged on the wall attaching base 4, the first supporting part 6 and the second supporting part 7 are positioned in the same vertical plane and are connected with the wall attaching base 4 into an integral structure, the second supporting part 7 is positioned above the first supporting part 6, the first supporting part 6 is connected with a wall connecting rod 8, an elastic pull rod 9 is arranged on the wall connecting rod 8, an adjusting and fastening device 10 is arranged between the elastic pull rod 9 and the second supporting part 7 for connection and fastening, the wall connecting rod 8 is used for connecting a scaffold upright rod 14, to ensure stability, the wall-connecting rods 8 are connected to both the inside and outside uprights of the scaffold.

In this embodiment, the two ends of the adjusting and fastening device 10 are respectively provided with threads in opposite directions, the upper ends of the second supporting portion 7 and the elastic pull rod 9 are provided with threads matched with the threads at the two ends of the adjusting and fastening device 10, the elastic pull rod 9 can be conveniently fastened by rotating the adjusting and fastening device, so that the pulling force is transmitted to the wall connecting rod 8, the wall connecting rod 8 is tensioned, and the threads of the adjusting and fastening device 10, the second supporting portion 7 and the elastic pull rod 9 are arranged to be long enough to ensure more reliable connection.

In this embodiment, the adjusting and fastening device 10 is made of Q235 steel, so that the structure of the adjusting and fastening device 10 is more stable.

In this embodiment, by providing the pull ring thread area 12 on the wall connecting rod 8 and providing the pull ring 11 with threads at the lower end of the elastic pull rod 9, the pull ring 11 can be moved on the pull ring thread area 12 by rotating, so that the installation and adjustment are convenient, and the pull ring thread area 12 is provided with enough length to ensure that the pull ring 11 has enough movement adjusting range.

In this embodiment, the fixing of the tab 11 on the tab thread area 12 is enhanced by providing the tab fixing nut 13 on the tab thread area 12, and the tab fixing nuts 13 are provided on both sides of the tab 11, and are fixed from both sides.

In this embodiment, first supporting part 6 is connected through the screw thread with the inner of wall connecting rod 8, is equipped with the column hole in the first supporting part 6, and the internal surface in column hole is located to the screw thread, and wall connecting rod 8 adopts the steel pipe, and the steel pipe surface is located to the screw thread of its inner, fixes wall connecting rod 8 on first supporting part 6 through the rotation, and in order to guarantee more reliable connection, the connecting thread of first supporting part 6 and wall connecting rod 8's the inner sets up sufficient length.

In this embodiment, the elastic pull rod 9 is made of steel bars, so that the stress stability of the elastic pull rod 9 is ensured.

Example 2

As shown in fig. 3, the present embodiment provides a wall connecting member structure for high assembly rate building beam slab position, on the basis of embodiment 1, in the aspect of the threaded connection of the inner end of the first supporting portion 6 and the wall connecting rod 8, the inner end of the first supporting portion 6 is changed into a cylindrical hole, the first supporting portion 6 is changed into a cylinder, the thread is arranged on the outer surface of the cylinder, the wall connecting rod 8 still adopts a steel pipe, the thread on the inner end of the wall connecting rod is changed into the inner surface of the steel pipe from the outer surface of the steel pipe, the wall connecting rod 8 is fixed on the first supporting portion 6 by rotation, in order to ensure more reliable connection, the connecting thread on the inner end of the first supporting portion 6 and the wall connecting rod 8 is provided with enough length.

When the wall connecting piece is used, the square nut sleeve 2 is embedded in the beam plate 1, the wall attaching base 4 is fixed on the beam plate 1 through the double-end screw 3 and the base fixing nut 5, the wall connecting rod 8 is connected through the first supporting part 6 on the wall attaching base 4, the wall connecting rod 8 is further stabilized through the elastic pull rod 9, the adjusting and fastening device 10 is arranged between the elastic pull rod 9 and the second supporting part 7, and the elastic pull rod 9 is adjusted through the adjusting and fastening device 10.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, but all changes that can be made by applying the principles of the present invention and performing non-inventive work on the basis of the principles shall fall within the scope of the present invention.

Claims (9)

1. A even wall spare structure that is used for high assembly rate building beam slab position which characterized in that: comprises a square nut sleeve (2) embedded in a beam plate (1), a double-end screw (3) connected with the square nut sleeve (2), a wall attaching base (4) connected with the double-end screw (3), a base fixing nut (5) connected with the double-end screw (3) and used for fixing the wall attaching base (4), a first supporting part (6) and a second supporting part (7) arranged on the wall attaching base (4), a wall connecting rod (8) connected with the first supporting part (6), an elastic pull rod (9) connected with the wall connecting rod (8), and an adjusting and fastening device (10) for connecting the elastic pull rod (9) and the second supporting part (7), wherein the second supporting part (7) and the first supporting part (6) are positioned in the same vertical plane and are connected with the wall attaching base (4) into an integral structure, the second supporting part (7) is located above the first supporting part (6), and the wall connecting rod (8) is used for connecting a scaffold upright rod (14).

2. A wall connecting structure for a high assembly rate building beam and slab location according to claim 1, wherein: the two ends of the adjusting and fastening device (10) are respectively provided with threads in opposite directions, the upper ends of the second supporting part (7) and the elastic pull rod (9) are provided with threads matched with the threads at the two ends of the adjusting and fastening device (10), and the adjusting and fastening device (10) is fastened by the threads of the second supporting part (7) and the elastic pull rod (9).

3. A wall connecting structure for a high assembly rate building beam and slab location according to claim 1, wherein: the adjusting and fastening device (10) is made of Q235 steel.

4. A wall connecting structure for a high assembly rate building beam and slab location according to claim 1, wherein: the wall connecting rod is characterized in that a pull ring thread area (12) is arranged on the outer side of the inner end of the wall connecting rod (8), a pull ring (11) is arranged at the lower end of the elastic pull rod (9), threads matched with the pull ring thread area (12) are arranged in the pull ring (11), and the pull ring (11) moves on the pull ring thread area (12) through rotation.

5. A wall connecting structure for a high assembly rate building beam and slab location according to claim 4, wherein: and a pull ring fixing nut (13) is arranged on the pull ring threaded area (12).

6. A wall connecting structure for a high assembly rate building beam and slab location according to claim 1, wherein: the first supporting part (6) is connected with the inner end of the wall connecting rod (8) through threads.

7. A wall connecting structure for a high assembly rate building beam and slab location according to claim 6, wherein: the inner surface is arranged to the screw thread of first supporting part (6), the surface is arranged to the screw thread of the inner of even wall pole (8).

8. A wall connecting structure for a high assembly rate building beam and slab location according to claim 6, wherein: the outer surface is located to the screw thread of first supporting part (6), the internal surface is located to the screw thread of the inner of wall connecting rod (8).

9. A wall connecting structure for high assembly rate building beam and slab location according to any one of claims 1-8, wherein: the elastic pull rod (9) is made of steel bars.

Images