CN214462462U - Adopt outer frame of bracing resistance to deformation to link wall spare - Google Patents

Abstract

The utility model provides an adopt outrigger resistance to deformation's outrigger even wall spare, include: the wall connecting piece, the embedded sleeve and the wall penetrating bolt are connected; the embedded sleeve is arranged in the construction wall body, and the wall penetrating bolt penetrates through the embedded sleeve to be connected with the wall connecting piece; the wall connecting piece comprises a wall connecting piece steel pipe and an inclined strut, the wall penetrating bolt penetrates through the embedded sleeve to be connected with the wall connecting piece steel pipe, one end of the inclined strut is connected with the wall connecting piece steel pipe, and the other end of the inclined strut is fixed on a construction wall. The utility model provides a bracing has shared the gravity of the steel pipe of even wall spare and bear scaffold frame and scaffold frame above heavy object, and the effectual steel pipe of having avoided even wall spare takes place to warp in the use to improve support body overall stability, effectual reduction support body deflection ensures the security in the outer scaffold frame use.

Description

Adopt outer frame of bracing resistance to deformation to link wall spare

Technical Field

The utility model relates to a construction technical field, concretely relates to adopt outrigger resistance to deformation's outrigger even wall spare.

Background

When a scaffold in building engineering is built, a wall connecting piece is generally adopted to connect the scaffold and a wall. The wall connecting piece is a special rod piece between a scaffold and a wall body and is generally divided into a flexible wall connecting piece and a rigid wall connecting piece. The flexible wall connecting piece generally adopts thin steel bars, ropes, double strands or multi-strand iron wires. The rigid wall connecting part is composed of rigid pull rods or members such as steel pipes, fasteners or embedded parts. The conventional wall connecting piece is usually fixed by adopting a bracing combination method, a pre-embedded sleeve method and a post-anchoring method.

Patent 201811539323.2 discloses a sleeve wall-through tie-rod type wall-connecting fixing combination device and an installation and construction method thereof, the structure of the patent comprises a wall-through bolt tie-rod, a plurality of 3-shaped buckle fasteners, a transverse steel pipe, a plurality of nuts and a wall-through bolt; the wall penetrating bolts are arranged on the outer vertical surface concrete shear wall, the beam and the column; the inner end of the through-wall bolt pull rod penetrates through the bolt and is fixed through a first 3-shaped buckle fastener and a first nut; transverse steel pipes are arranged on wall-penetrating bolt pull rods outside the outer vertical surface concrete shear walls, beams and columns; the outer end of the through-wall bolt pull rod is arranged between the main upright post and the auxiliary upright post of the scaffold and is fixed through a second 3-shaped buckle fastener and a third 3-shaped buckle fastener which are arranged at two sides of the main upright post and the auxiliary upright post of the scaffold, and a second nut is arranged on the through-wall bolt pull rod outside the third 3-shaped buckle fastener; or the outer end of the through-wall bolt pull rod is arranged between the main cross rod and the auxiliary cross rod of the scaffold and is fixed through a fourth 3-shaped buckle fastener and a fifth 3-shaped buckle fastener which are arranged on the two sides of the main cross rod and the auxiliary cross rod of the scaffold column, and a third nut is arranged on the through-wall bolt pull rod on the outer side of the fifth 3-shaped buckle fastener.

Patent 201610882540.6 discloses a split wall connecting member, which comprises a split screw with external thread, two ends of the split screw are respectively matched with a fastening device in a threaded manner; the split type screw is characterized in that a hollow embedded pipe is sleeved on the outer wall of the split screw, and a hollow plug is inserted into each of two ends of the embedded pipe; the fastening device at one end of the counter-pulling screw rod is a gasket and a nut; the fastening device at the other end is a wall connecting pipe component.

However, most of the existing wall connecting pieces only bear the gravity of the scaffold and the heavy object on the scaffold by the steel pipe of the wall connecting piece in the using process, so that the steel pipe of the wall connecting piece is easy to deform in the using process.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art, the utility model designs an adopt outrigger resistance to deformation's outrigger even wall spare, include: the wall connecting piece, the embedded sleeve and the wall penetrating bolt are connected; the embedded sleeve is arranged in the construction wall body, and the wall penetrating bolt penetrates through the embedded sleeve to be connected with the wall connecting piece; the wall connecting piece comprises a wall connecting piece steel pipe and an inclined strut, the wall penetrating bolt penetrates through the embedded sleeve to be connected with the wall connecting piece steel pipe, one end of the inclined strut is connected with the wall connecting piece steel pipe, and the other end of the inclined strut is fixed on a construction wall.

Preferably, the wall connecting piece steel pipe comprises a mounting nut and a steel pipe; the mounting nut is fixedly mounted at one end of the steel pipe, and the wall penetrating bolt penetrates through the embedded sleeve to be connected with the mounting nut.

Preferably, the steel pipe is provided with a first hole and a second hole; the inclined strut is provided with a third hole and a fourth hole; the number of the first holes, the number of the third holes and the number of the fourth holes are 2, the number of the second holes is not less than 4, the positions of the first holes correspond to the positions of the third holes, and the positions of the two second holes farthest away from the first holes correspond to the positions of the fourth holes.

Preferably, the inclined strut comprises a first inclined strut plate, a second inclined strut plate and a third inclined strut plate; first oblique fagging and third are connected with second oblique fagging through swivel connected coupler respectively, and the third hole setting is on first oblique fagging, and the fourth hole setting is on third oblique fagging.

Preferably, the through-wall bolt comprises a mounting nut, a gasket and a through-wall screw; one end of the wall-through screw is fixedly connected with the mounting nut, the other end of the wall-through screw is provided with an external thread corresponding to the mounting nut, and the wall-through screw penetrates through the embedded sleeve and is connected with the mounting nut; the gasket is a disc-shaped structure with a round hole in the center, the round hole is used for penetrating through the wall-penetrating screw, the diameter of the round hole is smaller than that of the mounting nut, the diameter of the disc-shaped structure is larger than that of the embedded sleeve, and the gasket is arranged between the mounting nut and the construction wall.

Preferably, the through-wall screw is an M16 screw.

Preferably, the steel pipe is a steel pipe having a diameter of 48.3X 3.6.

Preferably, the thickness of the mounting nut is not less than 20 mm.

Preferably, the embedded sleeve is a phi 20PVC sleeve.

Compared with the closest prior art, the beneficial effects of the utility model reside in that:

the utility model discloses an adopt outrigger resistance to deformation's outrigger even wall spare adopts buried sleeve and the connected mode of through-wall bolt to through setting up the bracing, share the gravity of the steel pipe of even wall spare and bear the heavy object above scaffold frame and the scaffold frame, the effectual steel pipe of having avoided even wall spare takes place to warp in the use, thereby has improved support body overall stability, and the security in the scaffold frame use is ensured to effectual reduction support body deflection.

Drawings

Fig. 1 is the installation schematic diagram of the outer frame wall connecting piece adopting the inclined strut to resist deformation.

Fig. 2 is the installation schematic diagram of the pre-buried sleeve of the utility model.

Fig. 3 is a schematic view of the wall connecting member of the present invention.

Fig. 4 is the schematic diagram of the structure of the steel pipe of the wall connecting member of the present invention.

Fig. 5 is a schematic view of the inclined strut structure of the present invention.

Fig. 6 is a schematic view of the through-wall bolt structure of the present invention.

Reference numerals:

1-wall connecting piece, 11-wall connecting piece steel pipe, 111-mounting nut, 112-first hole, 113-steel pipe, 114-second hole, 12-diagonal brace, 121-first diagonal brace, 122-third hole, 123-second diagonal brace, 124-fourth hole, 125-third diagonal brace, 2-embedded sleeve, 3-wall bolt, 31-mounting nut, 32-gasket, 33-wall screw and 34-external thread.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

The utility model provides an adopt outrigger resistance to deformation's outrigger wall connecting piece, as shown in fig. 1-6, include: the wall connecting component comprises a wall connecting component 1, an embedded sleeve 2 and a wall bolt 3. The embedded sleeve 2 is arranged in a construction wall body, and the wall penetrating bolt 3 penetrates through the embedded sleeve 2 to be connected with the wall connecting piece 1. The wall connecting piece 1 comprises a wall connecting piece steel pipe 11 and an inclined strut 12, the wall penetrating bolt 3 penetrates through the embedded sleeve 2 to be connected with the wall connecting piece steel pipe 11, one end of the inclined strut 12 is connected with the wall connecting piece steel pipe 11, and the other end of the inclined strut is fixed on a construction wall. The embedded position of the embedded sleeve 2 is positioned according to the main node of the outer frame, so that the position is accurate.

In a preferred embodiment, the wall connecting steel pipe 11 includes a mounting nut 111 and a steel pipe 113. The mounting nut 111 is fixedly mounted at one end of the steel pipe 113, and the wall bolt 3 penetrates through the embedded sleeve 2 and is connected with the mounting nut 111.

In a preferred embodiment, the steel pipe 113 is provided with a first hole 112 and a second hole 114. The sprag 12 is provided with a third hole 122 and a fourth hole 124. Wherein the number of the first holes 112, the third holes 122 and the fourth holes 124 is 2, the number of the second holes 114 is not less than 4 (as shown in fig. 4, preferably, the number of the second holes 114 is 10), the position of the first hole 112 corresponds to the position of the third hole 122, and the positions of the two second holes 114 farthest from the first hole 112 correspond to the position of the fourth holes 124. When the inclined strut 12 is not used, the first hole 112 and the third hole 122 are connected through bolts, and the second hole 114 and the fourth hole 124 are connected, so that only two main components are needed when the inclined strut is not used, the inclined strut is not easy to lose, and the inclined strut can be turned over for many times. The number of the second holes 114 is set to be not less than 4, and the second holes 114 are connected to different fourth holes 124 to adjust the angle of the sprag 12 in use.

In a preferred embodiment, the diagonal brace 12 includes a first diagonal brace plate 121, a second diagonal brace plate 123, and a third diagonal brace plate 125. The first inclined supporting plate 121 and the third inclined supporting plate 125 are respectively connected with the second inclined supporting plate 123 through a rotary connecting piece, the third hole 122 is arranged on the first inclined supporting plate 121, and the fourth hole 124 is arranged on the third inclined supporting plate 125.

In a preferred embodiment, the wall bolt 3 includes a mounting nut 31, a washer 32, and a wall screw 33. One end of the wall-through screw 33 is fixedly connected with the mounting nut 31, the other end of the wall-through screw 33 is provided with an external thread 34 corresponding to the mounting nut 111, and the wall-through screw 33 passes through the embedded sleeve 2 and is connected with the mounting nut 111. The gasket 32 is a disc-shaped structure with a circular hole in the center, the circular hole is used for penetrating through the wall-penetrating screw rod 33, the diameter of the circular hole is smaller than that of the mounting screw cap 31, the diameter of the disc-shaped structure is larger than that of the embedded sleeve 2, and the gasket 32 is arranged between the mounting screw cap 31 and a construction wall body.

In a preferred embodiment, the through-wall screws 33 are M16 screws. The steel pipe 113 was a steel pipe having a diameter of 48.3X 3.6. The thickness of the mounting nut 111 is not less than 20 mm. The embedded sleeve 2 is a phi 20PVC sleeve.

Example 2

The use of the outer frame wall connecting component using the inclined strut to resist deformation will be described in detail below. The utility model discloses an adopt outrigger resistance to deformation during even wall spare uses, at first with buried sleeve 2 according to the outrigger host node location pre-buried in the construction wall body. And then the through-wall bolt 3 is connected with the mounting nut 111 of the wall connecting element 1 by sequentially passing through the gasket 32 and the embedded sleeve 2, and the direction of the first hole 112 and the second hole 114 needs to be adjusted downwards during mounting. The fourth hole 124 of the third inclined strut plate 125 is connected to the second hole 114 by a bolt, and the third hole 122 of the first inclined strut plate 121 is fixed to the construction wall by an expansion screw.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the scope of the claims of the present invention pending from the application.

Claims (9)

1. The utility model provides an adopt outrigger resistance to deformation's outrigger wall connecting piece which characterized in that includes: the wall connecting piece (1), the embedded sleeve (2) and the wall penetrating bolt (3);

the embedded sleeve (2) is arranged in a construction wall body, and the wall penetrating bolt (3) penetrates through the embedded sleeve (2) to be connected with the wall connecting piece (1);

the wall connecting piece (1) comprises a wall connecting piece steel pipe (11) and an inclined strut (12), the wall penetrating bolt (3) penetrates through the embedded sleeve (2) and the wall connecting piece steel pipe (11) to be connected, one end of the inclined strut (12) is connected with the wall connecting piece steel pipe (11), and the other end of the inclined strut is fixed on a construction wall body.

2. The outer frame wall connecting member with deformation resistance using the diagonal brace as claimed in claim 1, wherein the wall connecting member steel pipe (11) comprises a mounting nut (111) and a steel pipe (113); the mounting nut (111) is fixedly mounted at one end of the steel pipe (113), and the wall penetrating bolt (3) penetrates through the embedded sleeve (2) to be connected with the mounting nut (111).

3. The external frame wall connecting member against deformation using the inclined strut as claimed in claim 2, wherein the steel pipe (113) is provided with a first hole (112) and a second hole (114); a third hole (122) and a fourth hole (124) are formed in the inclined strut (12); wherein the number of the first holes (112), the third holes (122) and the fourth holes (124) is 2, the number of the second holes (114) is not less than 4, the position of the first hole (112) corresponds to the position of the third hole (122), and the positions of the two second holes (114) farthest from the first hole (112) correspond to the position of the fourth hole (124).

4. The external frame wall connecting member with deformation resistance using the inclined strut as claimed in claim 3, wherein the inclined strut (12) comprises a first inclined strut plate (121), a second inclined strut plate (123) and a third inclined strut plate (125); the first inclined supporting plate (121) and the third inclined supporting plate (125) are respectively connected with the second inclined supporting plate (123) through rotating connectors, the third hole (122) is formed in the first inclined supporting plate (121), and the fourth hole (124) is formed in the third inclined supporting plate (125).

5. The braced anti-deformation external frame wall connecting element according to claim 2, wherein the wall bolt (3) comprises a mounting nut (31), a gasket (32) and a wall bolt (33); one end of the wall-through screw (33) is fixedly connected with the mounting nut (31), the other end of the wall-through screw (33) is provided with an external thread (34) corresponding to the mounting nut (111), and the wall-through screw (33) penetrates through the embedded sleeve (2) and is connected with the mounting nut (111); the gasket (32) is a disc-shaped structure with a round hole in the center, the round hole is used for penetrating through the wall-penetrating screw rod (33), the diameter of the round hole is smaller than that of the mounting nut (31), the diameter of the disc-shaped structure is larger than that of the embedded sleeve (2), and the gasket (32) is arranged between the mounting nut (31) and the construction wall.

6. The outer frame wall connecting member against deformation using the diagonal brace as claimed in claim 5, wherein the wall penetrating screw rod (33) is an M16 screw rod.

7. The external frame wall connecting member against deformation using the diagonal brace as claimed in claim 2, wherein the steel pipe (113) is a steel pipe of phi 48.3 x 3.6.

8. The external frame wall attachment resistant to deformation by means of a sprag as set forth in claim 2, wherein the thickness of said mounting nut (111) is not less than 20 mm.

9. The external frame wall connecting piece with the deformation resistance by the inclined strut as claimed in claim 1, wherein the embedded sleeve (2) is a phi 20PVC sleeve.

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