CN110952771B - Auxiliary butt joint mechanism and butt joint method for all-steel climbing frame of building outer frame - Google Patents

Abstract

The invention discloses an auxiliary docking mechanism of an all-steel climbing frame of an outer frame of a building, which comprises two positioning plates, wherein the two positioning plates are connected through a positioning rod, an auxiliary device is arranged on the positioning plates in a sliding manner, a sliding groove is formed in one side of each positioning plate, the auxiliary device comprises a plurality of sliding blocks matched with the sliding groove, each sliding block is provided with a steel pipe fixing clamp, each steel pipe fixing clamp comprises a first clamping piece and a second clamping piece, the bottoms of the first clamping pieces and the second clamping pieces are connected with a connecting plate through connecting rods, one end of each first clamping piece is connected with one end of each second clamping piece through a spring, an installation groove for installing the connecting plate is formed in the side wall of each sliding block, a cover plate is arranged at the top of each installation groove, an opening for the connecting rods to slide is formed in each cover plate, and the middle parts of the first clamping pieces and the second clamping pieces are matched with the steel pipe in shape after the first clamping pieces and the second clamping pieces are installed. The method has the advantage of conveniently determining the distance between the steel pipes of the outer climbing frame.

Description

Auxiliary butt joint mechanism and butt joint method for all-steel climbing frame of building outer frame

Technical Field

The invention relates to the technical field of buildings, in particular to an auxiliary butt joint mechanism and a butt joint method for an all-steel climbing frame of an outer frame of a building.

Background

Because of the high-speed development of the building industry, high-rise buildings are more and more, the use of external climbing frames is more and more common, the spacing between the steel pipes of the external climbing frames has specific requirements, and an auxiliary mechanism is necessary for conveniently realizing the installation of the external climbing frames.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an auxiliary docking mechanism and a docking method for an all-steel climbing frame of a building outer frame, which have the advantage of conveniently determining the distance between steel pipes of the outer climbing frame.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides an outer frame all steel of building climbs supplementary docking mechanism of frame, includes two locating plates, two connect through the locating lever between the locating plate, it is equipped with auxiliary device to slide on the locating plate, one side of locating plate is equipped with the spout, auxiliary device include a plurality of with spout matched with slider, every all be equipped with the steel pipe fixation clamp on the slider, the steel pipe fixation clamp includes first clamping piece and second clamping piece, the bottom of first clamping piece and second clamping piece is all connected with the connecting plate through the connecting rod, the one end of first clamping piece with the one end of second clamping piece passes through spring coupling, be equipped with the installation on the lateral wall of slider the mounting groove of connecting plate, the top of mounting groove is equipped with the apron, be equipped with on the apron and supply the gliding opening of connecting rod, middle part and steel pipe shape assorted joint groove after first clamping piece and the second clamping piece are installed, be equipped with anti-skidding rubber pad in the joint groove.

The positioning plates are arranged to be two, and the two positioning plates are connected through the positioning rod, so that the two positioning plates are parallel, the auxiliary device is arranged on the positioning plates, and meanwhile, the auxiliary device can slide along the sliding groove on the positioning plates, so that the distance between the auxiliary devices can be conveniently adjusted, and when the positioning of the steel pipe is realized, the steel pipe is clamped in the steel pipe fixing clamp.

Preferably, the spring is a tension spring, and the wire diameter of the spring is 0.8mm-1.4mm.

The spring is a tension spring, wherein the wire diameter of the spring is 0.8mm-1.4mm, so that a user can conveniently clamp the steel pipe in the auxiliary device.

Preferably, scale marks are arranged on the two positioning plates. The graduation marks are arranged to facilitate adjustment of the distance between the auxiliary devices.

Preferably, the docking mechanism further comprises a positioning device, the positioning device comprises a first L-shaped fixing plate and a second L-shaped fixing plate, limiting bayonets are arranged on transverse plates of the first fixing plate and the second fixing plate, the transverse plates of the first fixing plate and the transverse plates of the second fixing plate are oppositely arranged, two ends of the limiting bayonets of the first fixing piece and the second fixing piece are connected through compression springs, a pull rod in a Y shape is arranged at the top of the first fixing piece, a hanging buckle is arranged below the pull rod, and hooks matched with the hanging buckle are arranged at the top of the second fixing piece.

The positioning member is provided to prevent displacement of the auxiliary device during use.

The butt joint method of the auxiliary butt joint mechanism for the all-steel climbing frame of the building outer frame is characterized by comprising the following steps of:

s01, installing a corresponding number of auxiliary devices on the positioning plate;

s02, adjusting the interval between the auxiliary devices and fixing the auxiliary devices;

s03, respectively clamping two ends of each steel pipe in two corresponding auxiliary devices;

s04, connecting the steel plates through connecting steel pipes.

By using the installation mode, the intervals among the steel pipes are consistent, and deviation in installation of the scaffold board is avoided.

The beneficial effects of the invention are as follows:

(1) The positioning plates are arranged to be two, and the two positioning plates are connected through the positioning rod, so that the two positioning plates are parallel, the auxiliary device is arranged on the positioning plates, and meanwhile, the auxiliary device can slide along the sliding groove on the positioning plates, so that the distance between the auxiliary devices can be conveniently adjusted, and when the positioning of the steel pipe is realized, the steel pipe is clamped in the steel pipe fixing clamp.

(2) The spring is a tension spring, wherein the wire diameter of the spring is 0.8mm-1.4mm, so that a user can conveniently clamp the steel pipe in the auxiliary device.

(3) The graduation marks are arranged to facilitate adjustment of the distance between the auxiliary devices.

(4) The positioning member is provided to prevent displacement of the auxiliary device during use.

(5) By using the installation mode, the intervals among the steel pipes are consistent, and deviation in installation of the scaffold board is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of an embodiment of an auxiliary docking mechanism for an all-steel climbing frame of an outer frame of a building according to the present invention;

FIG. 2 is a schematic structural view of an auxiliary device of an embodiment of an all-steel climbing frame auxiliary docking mechanism for an outer frame of a building according to the present invention;

FIG. 3 is a schematic view of the positioning device of an embodiment of the auxiliary docking mechanism for an all-steel climbing frame of an outer frame of a building;

reference numerals illustrate:

1. a positioning plate; 2. a positioning rod; 3. an auxiliary device; 1-1, a chute; 3-1, a sliding block; 3-2, fixing clips of the steel pipes; 3-21, a first clamping piece; 3-22, a second clamping piece; 3-23, connecting rods; 3-24, connecting plates; 3-3, a spring; 3-11, mounting grooves; 3-12, cover plate; 3-13, opening; 3-25, a clamping groove; 3-26, an anti-skid rubber pad; 4. a positioning device; 4-1, a first fixing plate; 4-2, a second fixing plate; 4-3, limiting bayonet; 4-4, compressing a spring; 4-5, pull rod; 4-6, limit boss.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-3, an auxiliary docking mechanism for an all-steel climbing frame of an outer frame of a building comprises two positioning plates 1, wherein the two positioning plates 1 are connected through a positioning rod 2, an auxiliary device 3 is arranged on the positioning plates 1 in a sliding mode, a sliding groove 1-1 is formed in one side of each positioning plate 1, each auxiliary device 3 comprises a plurality of sliding blocks 3-1 matched with the sliding groove 1-1, each sliding block 3-1 is provided with a steel pipe fixing clamp 3-2, each steel pipe fixing clamp 3-2 comprises a first clamping piece 3-21 and a second clamping piece 3-22, the bottoms of the first clamping pieces 3-21 and the second clamping pieces 3-22 are connected with a connecting plate 3-24 through connecting rods 3-23, one end of each first clamping piece 3-21 is connected with one end of each second clamping piece 3-22 through a spring 3-3, a cover plate 3-12 is arranged on the top of each sliding block 3-1, a clamping groove 3-11 is provided with a clamping groove 3-12 for installing the sliding grooves 3-24, and a connecting plate 3-25 is arranged on the cover plate 3-12, and the clamping groove 3-23 is connected with the connecting plates in the middle of the connecting plates in a sliding groove 3-23.

The two positioning plates 1 are arranged, the two positioning plates 1 are connected through the positioning rod 2, so that the two positioning plates 1 are parallel, the auxiliary device 3 is arranged on the positioning plate 1, and the auxiliary device 3 can slide along the sliding chute 1-1 on the positioning plate 1, so that the distance between the auxiliary devices 3 can be conveniently adjusted, and when the steel pipe is positioned, the steel pipe is clamped in the steel pipe fixing clamp 3-2.

Example 2:

as shown in fig. 1-3, in this embodiment, based on embodiment 1, the spring 3-3 is a tension spring 3-3, and the wire diameter of the spring 3-3 is 0.8mm-1.4mm.

The spring 3-3 is a tension spring 3-3, wherein the wire diameter of the spring 3-3 is 0.8mm-1.4mm, so that a user can conveniently clamp the steel pipe in the auxiliary device 3.

Example 3:

as shown in fig. 1 to 3, in this embodiment, on the basis of embodiment 1, scale marks are provided on both positioning plates 1. The graduation marks are provided for the convenience of adjusting the distance between the respective auxiliary devices 3.

Example 4:

as shown in fig. 1-3, the docking mechanism further comprises a positioning device 4 on the basis of embodiment 1, the positioning device 4 comprises a first fixing plate 4-1 in an L shape and a second fixing plate 4-2 in an L shape, limiting bayonets 4-3 are arranged on transverse plates of the first fixing plate 4-1 and the second fixing plate 4-2, the transverse plates of the first fixing plate 4-1 and the transverse plates of the second fixing plate 4-2 are oppositely arranged, two ends of the limiting bayonets 4-3 of the first fixing piece and the second fixing piece are connected through compression springs 4-43-3, a pull rod 4-5 in a Y shape is arranged at the top of the first fixing piece, and a limiting boss 4-6 matched with an opening 3-13 end of the pull rod 4-5 is arranged at the top of the second fixing piece.

The positioning piece is arranged to prevent the auxiliary device 3 from displacement in the use process, the auxiliary device 3 is clamped between the limiting bayonets 4-3 of the first fixing piece and the second fixing piece in use, and then the pull rod 4-5 on the first fixing piece is pulled downwards towards the limiting boss 4-6 of the second fixing piece, so that the compression spring 4-43-3 is tightened to fixedly connect the first fixing piece and the second fixing piece.

Example 5:

the docking method of the building outer frame all-steel climbing frame auxiliary docking mechanism according to the embodiment 1-4 comprises the following steps:

s01, installing a corresponding number of auxiliary devices 3 on the positioning plate 1;

s02, adjusting the interval between the auxiliary devices 3 and fixing the auxiliary devices;

s03, respectively clamping two ends of each steel pipe in two corresponding auxiliary devices 3;

s04, connecting the steel plates through connecting steel pipes.

By using the installation mode, the intervals among the steel pipes are consistent, and deviation in installation of the scaffold board is avoided.

The foregoing examples merely illustrate specific embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention.

Claims (4)

1. The utility model provides an outer frame all steel of building climbs supplementary docking mechanism of frame, its characterized in that includes two locating plates, two connect through the locating lever between the locating plate, slide on the locating plate and be equipped with auxiliary device, one side of locating plate is equipped with the spout, auxiliary device include a plurality of with spout matched with slider, every all be equipped with steel pipe fixation clamp on the slider, steel pipe fixation clamp includes first clamping piece and second clamping piece, the bottom of first clamping piece and second clamping piece is connected with the connecting plate through the connecting rod, the one end of first clamping piece with the one end of second clamping piece passes through spring coupling, be equipped with on the lateral wall of slider and install the mounting groove of connecting plate, the top of mounting groove is equipped with the apron, be equipped with on the apron and supply the gliding opening of connecting rod, middle part and steel pipe shape assorted joint groove after first clamping piece and the second clamping piece are installed, be equipped with anti-skidding rubber pad in the joint groove; the butt joint mechanism further comprises a positioning device, the positioning device comprises a first L-shaped fixing plate and a second L-shaped fixing plate, limiting bayonets are arranged on transverse plates of the first fixing plate and the second fixing plate, the transverse plates of the first fixing plate and the transverse plates of the second fixing plate are oppositely arranged, two ends of the limiting bayonets of the first fixing plate and the second fixing plate are connected through compression springs, a pull rod in a Y shape is arranged at the top of the first fixing plate, a hanging buckle is arranged below the pull rod, and hooks matched with the hanging buckle are arranged at the top of the second fixing plate.

2. The auxiliary docking mechanism for the building outer frame all-steel climbing frame according to claim 1, wherein the spring is a tension spring, and the wire diameter of the spring is 0.8mm-1.4mm.

3. The auxiliary docking mechanism for the building outer frame all-steel climbing frame according to claim 1, wherein scale marks are arranged on the two positioning plates.

4. A method for docking an auxiliary docking mechanism for an all-steel climbing frame of an outer frame of a building according to any one of claims 1 to 3, comprising the following steps:

s01, installing a corresponding number of auxiliary devices on the positioning plate;

s02, adjusting the interval between the auxiliary devices and fixing the auxiliary devices;

s03, respectively clamping two ends of each steel pipe in two corresponding auxiliary devices;

s04, connecting the steel plates through connecting steel pipes.