KR20100054926A - Apparatus for aligning flange bolt hole of pipe which penetrate internal partition of ship block - Google Patents

Abstract

PURPOSE: A flange bolt hole aligner of a pipe passing through an inner baffle of a ship block is provided to detect the position of laser beam irradiated on a marking line drawn on the baffle and align the position of flange. CONSTITUTION: A flange bolt hole aligner of a pipe passing through an inner baffle of a ship block comprises a body(110) with a flat bottom surface, a pair of fixing parts(120), and a pair of laser irradiating parts(130). The fixing parts includes a structure projected from the bottom of the body to be inserted into a bolt hole of a flange, and are coupled to the body to move left and right along the bottom surface of the body. The laser irradiating parts are installed in the body and irradiate laser beam from the top of the body to a marking line drawn on the baffle of the ship block. The center of the laser irradiating parts is located directly above on a central line passing through the center of the two fixing parts.

Description

Apparatus for aligning flange bolt hole of pipe which penetrate internal partition of ship block}

The present invention relates to a device for aligning the position of the bolt hole formed in the flange, in particular, the ship block to facilitate the bolt hole position alignment of the flange for the connection between the pipes installed to penetrate the bulkhead of the ship block It relates to a flange bolt hole alignment device of a pipe passing through the inner partition of the.

Generally, in the manufacture of ship blocks, various pipes are installed for the transport of fluids or the installation of electric wires, and most of these pipes extend through the partition walls constituting the ship block to the intended place.

On the other hand, in constructing one pipeline, one long pipe may be used, but since it is virtually impossible to construct a pipeline using a single pipe inside a ship block in which numerous bulkheads or various structures are installed, a predetermined pipe may be used. Multiple pipes of length are interconnected to form a pipeline.

When constructing a pipeline in the ship block using a plurality of pipes as described above, some pipes are installed in a structure that penetrates the partition wall, in this way in installing the pipe to penetrate the partition wall flange provided at the end of the pipe Although the bolt hole of must be positioned exactly at the fixed position, it is possible to smoothly connect with other pipes, so that the bolt hole positions of the flanges are aligned before welding the pipe to the bulkhead.

1 is a photograph of a work situation for aligning the bolt hole position of the flange provided in the pipe installed through the conventional partition wall, Figure 2 is a flange based on the marking line drawn on the partition wall for alignment of the bolt hole position of the flange The state diagram showing the state where the bolt holes are aligned is shown.

Conventionally, the worker is working in a way to visually check the bolt hole of the flange. More specifically, a marking line L, which is a reference for aligning the bolt holes 11 of the flange 10, is drawn on the partition wall to which the pipe is to be welded, and the marking line is based on another partition wall or welding line around the pipe line. The worker will draw in advance.

On the other hand, the operator can visually check the alignment of the bolt holes of the flange and the marking line with the naked eye in a state where the pipe is fixed to the bulkhead using a separate tool, and the alignment of the flange is judged correctly. Will be adjusted.

However, the above operation is performed in an unstable posture in a very narrow place, as can be seen in the photographs attached to FIG. 1, and there is a high risk of musculoskeletal disorders, and the pipe is prevented from falling and adjusting the height of the pipe. There is a high risk of falling of the mini save all setters placed on the flange. Especially, since the flanges are visually checked for alignment, errors are generated according to the skill of the operator, so the reliability is very low and productivity is low due to deterioration of work efficiency. there was.

The present invention has been made in consideration of the above problems, and an object of the present invention is to identify the alignment state of the flange bolt hole by adjusting the laser beam to the marking line drawn on the partition wall from the flange of the ship block to adjust the position of the bolt hole It is to provide a flange bolt hole alignment device of the pipe passing through the inner partition.

Another object of the present invention is to prevent musculoskeletal disorders due to work in an unstable posture, to increase the reliability of the alignment of the flange regardless of the skill of the operator, and to penetrate the inner partition of the ship block that can shorten the working time To provide a flange bolt hole alignment device of the pipe.

An apparatus for aligning a flange bolt hole of a pipe that penetrates an inner partition of a ship block of the present invention, which accomplishes the above object and performs a problem for eliminating a conventional defect, has a flat bottom surface; A pair of fixing parts having a structure protruding from the bottom of the body and inserted into a bolt hole of the flange and moving left and right along the bottom of the body while being coupled to the body; And a body installed so as to irradiate a laser beam with a marking line drawn on the bulkhead of the ship block from an upper portion of the body, the center being positioned at a vertical upper portion of a center line passing through the centers of the two fixing parts so as to have a laser beam vertically above the center line. It is characterized by consisting of a pair of laser irradiation unit for irradiating the beam.

On the other hand, the body is preferably composed of a bar-shaped rectangular parallelepiped extending in the lateral direction.

In addition, the body may be further provided with a level using a bubble, the level is composed of a first level and a second level, the first level is installed to be parallel to the bottom of the body, the second level is the left side of the body It is preferable to be installed parallel to the surface or the right side.

On the other hand, the laser irradiation unit is preferably configured to irradiate a laser beam simultaneously to the upper and lower parts of the body.

According to the present invention having the characteristics as described above, since the position of the flange can be aligned by checking the position of the laser beam irradiated with the marking line drawn on the partition wall, the musculoskeletal system disease caused by working in an unstable posture in a narrow space It is possible to prevent the occurrence, to increase the reliability of the alignment of the flange regardless of the skill of the operator, and to increase productivity by enabling faster work.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a front view of the flange bolt hole alignment device according to a preferred embodiment of the present invention, FIG. 4 is a plan view of the alignment device shown in FIG. 3, FIG. 5 is a bottom view of the alignment device shown in FIG. have.

The alignment device according to the present invention is placed on the flange to be aligned, and is configured to irradiate the laser beam to the partition wall located in the vertical upper portion of the flange to align the bolt hole position of the flange while the operator checks the position where the laser beam is irradiated In order to be able to do this, it consists of a body 110, a pair of fixing | fixed part 120, and a pair of laser irradiation part 130. FIG.

The body 110 is configured to have a flat bottom so that it can be stably placed on the flange. The body 110 is preferably composed of a rectangular parallelepiped extending in the left and right directions so as to maintain a more stable posture in a narrow space on the flange, in this case, if the body 110 further installs a level using a bubble, It is also possible to use the alignment device of the present invention to inspect the level of the flange or the level of other members.

On the other hand, the horizontal level is a first level system 141 is installed to be parallel to the bottom surface of the body 110 in order to increase the ease of use, and the second level system 142 is installed to be parallel to the left or right side of the body 110. It consists of.

The fixing part 120 is installed to protrude from the bottom of the body 110 is inserted into the bolt hole of the flange to fix and align the body 110 to the flange. The fixing part 120 is provided with a pair to be inserted into two adjacent bolt holes of the bolt holes provided in the flange, the bottom surface of the body 110 to enable position adjustment according to the distance between the two bolt holes It is installed to move along.

In this way, the rail 110 extending in the left and right directions is provided in the body 110 to move the fixing part 120 installed in the body 110, and the fixing part 120 is coupled to the rail 111. And is configured to move along the rail 111.

Meanwhile, the fixing part 120 is inserted into the bolt hole of the flange to fix the alignment device to the flange. Therefore, in order to accurately align the alignment device, the fixing part 120 must be firmly coupled so as not to flow in the inserted state in the bolt hole. When the fixing part 120 is configured in the form of a cylinder having the same diameter as the bolt hole of the, it cannot be used for the alignment of the flange having a bolt hole of different size, so that it can be applied to various sizes of bolt holes It is preferable to configure the fixing portion in a conical structure.

The laser irradiator 130 irradiates a laser beam to a vertical upper portion of the body 110, and a pair is provided to irradiate a laser beam on both sides of an upper end portion of the body 110. The laser irradiation unit 130 supplies power to the laser diode 131 for generating the laser, the lens 132 for collecting the laser generated from the laser diode 131, and the laser diode 131. It may be composed of a power supply unit 133.

Meanwhile, since the laser diode 131, the lens 132, and the power supply unit 133 are well known techniques used in devices such as a laser pointer, a detailed description of the structure is omitted. In the case of the power supply unit 133, two laser diodes ( 131 may be configured to share.

The laser irradiation unit 130 as described above is installed so that the center is located in the vertical upper portion of the center line (CL) passing through the center of the two fixing parts 120 is preferably installed to irradiate the laser beam to the vertical upper portion of the center line (CL). Do. According to this configuration, when the laser beam irradiated to the partition wall is located on the marking line it can be confirmed that the center of the bolt hole is exactly aligned with the marking line.

The laser irradiation unit 130 may be configured to irradiate a laser beam simultaneously to the top and bottom of the body 110, in this case it can be used to align the bolt holes of the flange on the basis of the bottom partition wall.

On the other hand, the switch 112 for manipulating the on / off of the laser irradiation unit 130 is provided in the body (110).

The process of aligning the bolt holes of the flange using the alignment device of the present invention configured as described above will be described.

6 is a plan view showing a state in which the alignment device of the present invention is placed on the flange.

First, the operator draws a marking line as a reference for arranging the bolt holes in the partition where the pipe is to be installed.

Thereafter, the pipe is fixed to the partition wall using a separate tool, and the alignment device 100 of the present invention is placed on the flange 10. At this time, the two fixing parts 120 provided at the lower portion of the body 110 are inserted into two neighboring bolt holes of the bolt holes 11 provided in the flange 10 to fix the alignment device to the flange.

When the laser irradiation unit 130 is operated by operating a switch provided in the body 110 in the above state, the laser beam is irradiated to the partition wall on which the marking line is drawn, and the operator marks the two laser beams irradiated on the partition wall. By adjusting the position of the flange to be on the line, the bolt hole position of the flange is aligned.

This is done for each of the two marking lines drawn in the horizontal and vertical directions.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a photograph of a working situation of aligning the bolt hole position of the flange provided in a pipe installed through a conventional partition wall,

2 is a state diagram showing a state in which the bolt holes of the flange aligned with respect to the marking line drawn on the partition wall for alignment of the bolt holes of the flange;

3 is a front view of the flange bolt hole alignment device according to the preferred embodiment of the present invention;

4 is a plan view of the alignment device shown in FIG.

5 is a bottom view of the alignment device shown in FIG.

Figure 6 is a plan view showing a state in which the alignment device of the present invention is placed on the flange.

<Explanation of symbols for the main parts of the drawings>

110: body 120: fixed part

130: laser irradiator 141: first level meter

142: second level

Claims (5)

A body 110 having a flat bottom surface; A pair of fixing parts 120 having a structure protruding from the bottom of the body 110 is inserted into the bolt hole of the flange, and moves left and right along the bottom of the body 110 while being coupled to the body 110. field; And Is installed in the body 110 to irradiate a laser beam from the upper portion of the body 110 to the marking line drawn on the partition wall of the ship block, the center in the vertical upper portion of the center line (CL) passing through the center of the two fixing parts 120 The flange bolt hole aligning device of the pipe passing through the inner partition of the ship block, characterized in that consisting of a pair of laser irradiation unit 130 is installed so as to position the laser beam to the vertical upper portion of the center line (CL). The method of claim 1, The body 110 is composed of a rectangular parallelepiped extending in the left and right direction, the flange bolt hole aligning device of the pipe passing through the inner partition wall of the ship block, characterized in that the horizontal system is installed using the bubble. The method of claim 2, The level is composed of a first level 141 and a second level 142, The first horizontal system 141 is installed to be parallel to the bottom of the body 110, The second horizontal system 142 is a flange bolt hole aligning device of the pipe passing through the inner partition wall of the ship block, characterized in that installed parallel to the left or right side of the body (110). The method of claim 1, The laser irradiation unit 130 is a flange bolt hole alignment device of the pipe passing through the inner partition wall of the ship block, characterized in that configured to irradiate the laser beam simultaneously to the upper and lower portions of the body (110). The method of claim 1, The fixing part 120 is a flange bolt hole aligning device of the pipe passing through the inner partition of the ship block, characterized in that the conical shape.

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