CN110043053B - Multi-bracket positioning method - Google Patents

Abstract

The invention relates to a multi-bracket positioning method, which comprises the following steps: firstly, the method comprises the following steps: assembling the broken line column; II, secondly: horizontal bracket positioning; marking the distribution positions of the horizontal brackets on the horizontal steel plate, sleeving the horizontal steel plate into the top of the folding column, aligning the base points on the inner side of the folding column, enabling the horizontal steel plate to be located on the top surface of each horizontal bracket, arranging a turn buckle between the horizontal steel plate and the top surface of the folding column to adjust the horizontal steel plate, and starting installation of the horizontal brackets; thirdly, the method comprises the following steps: positioning an oblique bracket; the horizontal steel plate is dismantled after the welding of horizontal bracket, the installation of oblique bracket begins, and oblique bracket location uses horizontal bracket as the benchmark, through adjustable angle's angle gauge control bracket angle, the angle of angle gauge is unanimous with the angle between oblique bracket and the horizontal bracket. The device is mainly applied to the processing of complex nodes of the multi-bracket broken line column, and the bracket with different angles can be quickly and accurately positioned by using the device, so that the installation precision of on-site components is ensured.

Description

Multi-bracket positioning method

Technical Field

The invention relates to positioning during steel structure broken line column processing, in particular to a multi-bracket positioning method.

Background

At present, the used broken line column has a very small angle, the bracket is not arranged at a break point, the number of the bracket is small, only horizontal brackets exist, and the space angle of the bracket at the break point is difficult to accurately position.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a multi-bracket positioning method, aiming at solving the problem of accurate positioning of the spatial angle of the bracket at the folding point position of the folding column.

In order to solve the technical problem, the invention is realized as follows:

a multi-bracket positioning method is characterized by comprising the following steps:

the method comprises the following steps: assembling the broken line column; the broken line column is formed by welding two columns, wherein the two columns are straight columns, the midline of the two columns is marked on the surface of the column before welding, the midline of the two columns is aligned during assembling, the two columns are welded into the broken line column, and the welding position of the two columns is a broken point;

step two: horizontal bracket positioning; marking the distribution position of a horizontal bracket and a positioning point for determining the relative relation between the bracket and a folding column on a horizontal steel plate with a hole in the center, sleeving the horizontal steel plate on the top of the folding column, aligning the positioning points on the steel plate and the folding column, enabling the horizontal steel plate to be positioned on the top surface of each horizontal bracket, arranging a basket bolt between the horizontal steel plate and the top surface of the folding column to adjust the horizontal steel plate, starting horizontal bracket installation after the position of the horizontal steel plate is adjusted, and similarly adjusting the lower side of the horizontal bracket through the basket bolt;

step three: positioning an oblique bracket; the horizontal steel plate is dismantled after the welding of horizontal bracket, the installation of oblique bracket begins, and oblique bracket location uses horizontal bracket as the benchmark, through adjustable angle's angle gauge control bracket angle, the angle of angle gauge is unanimous with the angle between oblique bracket and the horizontal bracket.

The multi-bracket positioning method is characterized by comprising the following steps: an angle gauge capable of adjusting the angle is arranged between the inclined bracket and the horizontal bracket.

The invention has the beneficial effects that: the device is mainly applied to the processing of complex nodes of the multi-bracket broken line column, and the bracket with different angles can be quickly and accurately positioned by using the device, so that the installation precision of on-site components is ensured.

Drawings

The invention is described in further detail below with reference to the following figures and embodiments:

fig. 1 is a schematic structural view of a broken line column.

Fig. 2 is a schematic structural view of a horizontal steel plate.

Fig. 3 is a schematic structural diagram of positioning a horizontal bracket.

Fig. 4 is a schematic structural diagram of the positioning oblique bracket.

Detailed Description

As shown in fig. 1: a multi-bracket positioning method comprises the following steps:

the method comprises the following steps: assembling the broken line column; the broken line column is formed by welding two columns 1, the two columns are straight columns, the midline 2 of the two columns is marked on the surface of the column before welding, the midline of the two columns is aligned during welding, the two columns are welded into a broken line column, and the welding position of the two columns is a broken point;

as shown in fig. 2-3: step two: horizontal bracket positioning; marking the distribution position of a horizontal bracket and a positioning point for determining the relative relation between the bracket and a folding column on a horizontal steel plate 3 with a hole in the center, sleeving the horizontal steel plate on the top of the folding column, aligning the positioning points on the steel plate and the folding column, enabling the horizontal steel plate to be positioned on the top surface of each horizontal bracket, arranging a turn buckle 4 between the horizontal steel plate and the top surface of the folding column to adjust the horizontal steel plate, starting installation of a horizontal bracket 5 after the position of the horizontal steel plate is adjusted, and similarly adjusting the lower side of the horizontal bracket through the turn buckle;

as shown in fig. 4: step three: positioning an oblique bracket; the horizontal steel plate is dismantled after horizontal bracket welding is accomplished, and the installation of oblique bracket 6 begins, and oblique bracket location uses horizontal bracket as the benchmark, through angle gauge 7 control bracket angle of adjustable angle, the angle of angle gauge is unanimous with the angle between oblique bracket and the horizontal bracket, connects and supports through the angle steel between oblique bracket and the horizontal bracket.

Claims (1)

1. A multi-bracket positioning method is characterized by comprising the following steps:

the method comprises the following steps: assembling the broken line column; the broken line column is formed by welding two columns, wherein the two columns are straight columns, the midline of the two columns is marked on the surface of the column before welding, the midline of the two columns is aligned during assembling, the two columns are welded into the broken line column, and the welding position of the two columns is a broken point;

step two: horizontal bracket positioning; marking the distribution position of a horizontal bracket and a positioning point for determining the relative relation between the bracket and a folding column on a horizontal steel plate with a hole in the center, sleeving the horizontal steel plate on the top of the folding column, aligning the positioning points on the steel plate and the folding column, enabling the horizontal steel plate to be positioned on the top surface of each horizontal bracket, arranging a basket bolt between the horizontal steel plate and the top surface of the folding column to adjust the horizontal steel plate, starting horizontal bracket installation after the position of the horizontal steel plate is adjusted, and similarly adjusting the lower side of the horizontal bracket through the basket bolt;

step three: positioning an oblique bracket; the horizontal steel plate is dismantled after the welding of horizontal bracket, the installation of oblique bracket begins, and oblique bracket location uses horizontal bracket as the benchmark, through adjustable angle's angle gauge control bracket angle, the angle of angle gauge is unanimous with the angle between oblique bracket and the horizontal bracket.

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