WO2020155457A1

WO2020155457A1 - Three-dimensional adjustment pipeline bracket used for pipeline alignment

Info

Publication number: WO2020155457A1
Application number: PCT/CN2019/085911
Authority: WO
Inventors: 汪卫东
Original assignee: 汪卫东
Priority date: 2019-01-30
Filing date: 2019-05-08
Publication date: 2020-08-06
Also published as: CN209754427U

Abstract

Provided is a three-dimensional adjustment pipeline bracket used for pipeline alignment; said pipeline bracket is supported at the two ends of two opposing pipelines, and comprises a base (1), a three-dimensional adjustment apparatus (2) mounted on the base, and the pipeline support base (3) installed on the three-dimensional adjustment apparatus; the three-dimensional adjustment apparatus is used for adjusting the height of the pipe support base and the front, rear, left, and right positions. The pipeline bracket has a simple structure and is convenient to operate and reliable in operation; it can easily achieve height adjustment of the pipeline and of the front, back, left, and right positions so as to improve pipeline alignment efficiency, reduce the labor intensity of workers, and effectively ensure the accuracy of the alignment.

Description

A three-dimensional adjustable pipeline support for pipeline counterparts

Technical field

The invention belongs to the technical field of pipeline connection, and specifically relates to a three-dimensional adjustable pipeline support used for pipeline matching.

Background technique

In the prior art, when aligning between pipelines, the aligning ends use external or internal pipe aligners, and the other end uses a pipelayer for leveling and alignment, but the pipelayer has poor mobility , Insufficient sensitivity, easy to cause safety accidents, and longer time-consuming pipe alignment, poor accuracy adjustment ability, making the alignment error larger.

Summary of the invention

The purpose of the present invention is to provide a three-dimensional adjustable pipe support for pipe counterparts, which can effectively solve the problems in the background art.

The technical solution for achieving the above-mentioned objective is: a three-dimensional adjusting pipe bracket for pipe aligning, the pipe stent is respectively supported on both ends of two aligning pipes, and is characterized in that it includes a base and a three-dimensional adjusting device installed on the base And the pipe support installed on the three-dimensional adjusting device, the three-dimensional adjusting device is used to adjust the height and the front, back, left, and right positions of the pipe support.

The beneficial effects of the present invention:

The invention can conveniently realize the adjustment of the height, front and rear, and left and right positions of the pipeline, so as to improve the efficiency of the pipeline matching and reduce the labor intensity of workers. It has the advantages of simple structure, convenient operation, reliable work, saving pipeline matching time, and can effectively ensure the matching accuracy.

Further, the three-dimensional adjustment device includes a height adjustment mechanism, a left and right adjustment mechanism, and a front and rear adjustment mechanism.

Further, the left and right adjustment mechanism is mounted on the front and rear adjustment mechanism so that it can move back and forth, and the height adjustment mechanism is mounted on the left and right adjustment mechanism so that it can move left and right.

Further, the front and rear adjustment mechanism is installed on the left and right adjustment mechanism so as to move left and right, and the height adjustment mechanism is installed on the front and rear adjustment mechanism so as to move back and forth.

Further, the front-rear adjustment mechanism includes a longitudinally arranged first longitudinal bracket, the longitudinally arranged longitudinal screw rod is installed on the first longitudinal bracket, one end of the longitudinal screw rod is connected with a first handle, and the longitudinal screw rod is threadedly connected with a first installation seat.

By rotating the first handle to drive the longitudinal screw rod to rotate, the longitudinal position of the first mounting seat can be adjusted, thereby realizing the adjustment of the front and rear positions of the pipe support.

Further, the front and rear adjustment mechanism includes a second longitudinal bracket arranged longitudinally, a first sliding rail arranged longitudinally is installed on the second longitudinal bracket, a first sliding seat is slidably installed on the first sliding rail, and one end of the second longitudinal bracket is installed There is a first driver that drives the first sliding seat to slide along the first sliding rail.

Through the first driver, the first sliding seat can be driven to slide, and the longitudinal position of the first sliding seat can be adjusted, thereby realizing the adjustment of the front and rear positions of the pipe support.

Further, the left and right adjustment mechanism includes a first horizontal bracket arranged horizontally, a horizontally arranged horizontal screw rod is installed on the first horizontal bracket, one end of the horizontal screw rod is connected with a second handle, and the horizontal screw rod is threadedly connected with a second handle. 2. Mounting seat.

By turning the second handle to drive the horizontal screw to rotate, the horizontal position of the second mounting seat can be adjusted, thereby realizing the left and right position adjustment of the pipe support.

Further, the left-right adjustment mechanism includes a second horizontal bracket arranged horizontally, a second sliding rail arranged horizontally is installed on the second horizontal bracket, a second sliding seat is slidably installed on the second sliding rail, and the second horizontal bracket A second driver for driving the second sliding seat to slide along the second sliding rail is installed at one end.

Through the second driver, the second sliding seat can be driven to slide, so that the lateral position of the second sliding seat can be adjusted, so that the left and right positions of the pipe support can be adjusted.

Further, the first driver and the second driver may adopt one of a hydraulic driver, an electric driver, and a pneumatic driver.

Further, the height adjustment mechanism adopts one of a hydraulic lifter, an electric lifter, and a pneumatic lifter.

Description of the drawings

Figure 1 is a schematic diagram of the structure of the first embodiment;

Figure 2 is a side view of Figure 1;

Figure 3 is a schematic diagram of the working state of the present invention;

Figure 4 is a schematic structural diagram of a second embodiment;

FIG. 5 is a schematic structural diagram of the front and rear adjustment mechanism of the third embodiment;

Figure 6 is a side view of Figure 5;

Fig. 7 is a schematic diagram of the structure of the front and rear adjustment mechanism of the fourth embodiment.

detailed description

The first embodiment, as shown in Figures 1 and 2, the present invention includes a base 1, a three-dimensional adjusting device 2 installed on the base 1, and a pipe support 3 installed on the three-dimensional adjusting device 2. The pipe support 3 is provided with 3.1 for the arc groove supporting the pipeline.

The three-dimensional adjustment device 2 includes a height adjustment mechanism 4, a left and right adjustment mechanism 5, and a front and rear adjustment mechanism 6 arranged up and down. As for the vertical position relationship of the height adjustment mechanism 4, the left and right adjustment mechanism 5, and the front and rear adjustment mechanism 6, those skilled in the art can arbitrarily Set up.

In this embodiment, the front and rear adjustment mechanism 6 is movably installed on the left and right adjustment mechanism 5, and the height adjustment mechanism 4 is movably installed on the front and rear adjustment mechanism 6 as an example. The specific structure of the three-dimensional adjustment device 2 is described in detail.

The left and right adjustment mechanism 5 includes a first horizontal bracket 5.1 which is arranged horizontally. The horizontally arranged horizontal screw rod 5.2 is installed on the first horizontal bracket 5.1. One end of the horizontal screw rod 5.2 extends outwards from the first horizontal bracket 5.1 and is connected to the first horizontal bracket 5.1. The second handle 5.3 and the second mounting seat 5.4 are screwed on the horizontal screw rod 5.2.

The front and rear adjustment mechanism 6 is installed on the second mounting seat 5.4, and includes a first longitudinal support 6.1 arranged longitudinally. The first longitudinal support 6.1 is equipped with a longitudinal screw rod 6.2 arranged longitudinally, and one end of the longitudinal screw rod 6.2 extends outwards. A longitudinal bracket 6.1 is connected with a first handle 6.3, and a first mounting seat 6.4 is screwed on the longitudinal screw rod 6.2.

The height adjustment mechanism 4 is installed on the first mounting seat 6.4, and can adopt the height adjustment mechanisms known in the prior art such as hydraulic cylinders, air cylinders, electric push rods, jacks, etc. The telescopic end of the height adjustment mechanism 4 faces upwards and is connected to the pipe support. Block 3.

The three-dimensional adjustment principle of the three-dimensional adjustment device 2:

When adjusting left and right, by turning the second handle 5.3 to drive the horizontal screw 5.2 to rotate, the horizontal position of the second mounting base 5.4 can be adjusted, thereby realizing the left and right position adjustment of the height adjustment mechanism 4 connected to the second mounting base 5.4 , And finally realize the left and right position adjustment of the pipe support 3 connected to the height adjustment mechanism 4.

When adjusting back and forth, by turning the first handle 6.3 to drive the longitudinal screw 6.2 to rotate, the longitudinal position of the first mounting seat 6.4 can be adjusted, thereby realizing the left and right adjustment mechanism 5 and height adjustment mechanism installed on the first mounting seat 6.4 4. Adjust the front and rear position of the pipe support 3.

When adjusting the height, the working end of the height adjusting mechanism 4 is directly driven up and down to adjust the height of the pipe support 3.

As shown in Figure 3, when the present invention is used, two pipe supports 7 are respectively supported at both ends of the pipeline, specifically: 1) leveling the site for placing the pipeline supports 7; 2) pressing the two pipes 8 Place two pipe supports 7 respectively at the positions of, 3) Place the two pipes 8 on the corresponding two pipe supports 7 respectively, and then level the two pipes 8; 4) Use the three-dimensional adjusting device 2 to pair the pipes 8 Adjust the front and back, left and right, and height of the two pipes 8 so that the nozzles of the two pipes 8 are aligned, and finally the two pipes 8 are fixed by electric welding.

The second embodiment, as shown in FIG. 4, the structure of the second embodiment is basically the same as that of the first embodiment. The difference is that the left and right adjustment mechanism 10 can be mounted on the front and rear adjustment mechanism 11 to move back and forth, and the height adjustment mechanism 12 can It is installed on the left and right adjustment mechanism 10 to move left and right, and the telescopic end of the height adjustment mechanism 12 faces upward and is connected to the pipe support 13.

The third embodiment: the front and rear adjustment mechanism can adopt the structure shown in Figures 5 and 6, the specific structure includes a second longitudinal bracket 14 arranged longitudinally, and a first slide rail 15 arranged longitudinally is installed on the second longitudinal bracket 14. A first sliding seat 16 is slidably installed on the sliding rail 15, and one end of the second longitudinal bracket 14 is installed with a first driver 17 that drives the first sliding seat 16 to slide along the first sliding rail 15.

Fourth embodiment: the left and right adjustment mechanism can adopt the structure shown in Fig. 7, the specific structure includes a second transverse bracket 18 arranged horizontally, and the second transverse bracket 18 is equipped with a second sliding rail 19 arranged horizontally. A second sliding seat 20 is slidably mounted on 19, and a second driver 21 for driving the second sliding seat 20 to slide along the second sliding rail 19 is mounted on the second transverse bracket 18.

The first driver 17 and the second driver 21 in the third embodiment and the fourth embodiment may adopt various forms such as hydraulic cylinders, air cylinders, electric push rods, etc., which are well-known in the prior art.

Claims

A three-dimensional adjusting pipe support for pipelines, said pipe supports are respectively supported on both ends of two opposite pipes, characterized in that it comprises a base, a three-dimensional adjusting device installed on the base, and a three-dimensional adjusting device installed on the The pipe support, the three-dimensional adjusting device is used to adjust the height and the front, back, left, and right positions of the pipe support.
The three-dimensional adjustable pipe bracket for pipe aligning according to claim 1, wherein the three-dimensional adjusting device includes a height adjustment mechanism, a left and right adjustment mechanism, and a front and rear adjustment mechanism.
The three-dimensional adjustable pipe bracket for pipe aligning according to claim 2, characterized in that the left and right adjustment mechanism is mounted on the front and rear adjustment mechanism so that it can move back and forth, and the height adjustment mechanism can be mounted on the left and right adjustment so that it can move left and right. Institutionally.
The three-dimensional adjustable pipe bracket for pipe aligning according to claim 2, characterized in that: the front and rear adjustment mechanism is movably installed on the left and right adjustment mechanism, and the height adjustment mechanism is movably installed on the front and rear adjustment mechanism. Institutionally.
According to claim 3 or 4, a three-dimensional adjustable pipe bracket for pipe matching, characterized in that: the front and rear adjustment mechanism comprises a longitudinally arranged first longitudinal bracket, and the longitudinally arranged longitudinal screw rod is installed on the first longitudinal bracket , One end of the longitudinal screw rod is connected with a first handle, and a first mounting seat is screwed on the longitudinal screw rod.
According to claim 3 or 4, a three-dimensional adjustable pipe bracket for pipe aligning, characterized in that: the front and rear adjustment mechanism comprises a longitudinally arranged second longitudinal bracket, and a longitudinally arranged first slide is installed on the second longitudinal bracket. A first sliding seat is slidably installed on the first sliding rail, and one end of the second longitudinal bracket is installed with a first driver that drives the first sliding seat to slide along the first sliding rail.
According to claim 3 or 4, a three-dimensional adjustable pipe bracket for pipe aligning, characterized in that: the left and right adjustment mechanism comprises a first horizontal bracket arranged horizontally, and the horizontally arranged horizontal bracket is installed on the first horizontal bracket. A screw rod, one end of the horizontal screw rod is connected with a second handle, and a second mounting seat is screwed on the horizontal screw rod.
According to claim 3 or 4, a three-dimensional adjustable pipe bracket for pipe matching, characterized in that: the left and right adjustment mechanism comprises a second lateral bracket arranged laterally, and the second lateral bracket is installed on the second lateral bracket. Two sliding rails, a second sliding seat is slidably installed on the second sliding rail, and a second driver for driving the second sliding seat to slide along the second sliding rail is installed at one end of the second transverse bracket.
The three-dimensional adjustable pipe support for pipe matching according to claim 6 or 8, characterized in that: the first driver and the second driver can be a hydraulic driver, an electric driver, and a pneumatic driver.
The three-dimensional adjustable pipeline support for pipeline matching according to claim 2, wherein the height adjustment mechanism adopts one of a hydraulic lifter, an electric lifter, and a pneumatic lifter.