KR20140005547U - Apparatus for Adjusting Pipe Flange - Google Patents

Abstract

The present invention relates to a hull structure comprising a reference mechanism for coupling to a bulkhead of a hull block, a coupling mechanism having one end coupled to the reference mechanism, and an alignment surface coupled to the other end of the coupling mechanism, The present invention relates to a pipe flange aligning apparatus,
According to the present invention, an intermediate reference line is formed between the baseline and the pipe flange, thereby improving the accuracy and reliability of the alignment process for the pipe flange and reducing the number of operations required to form the intermediate baseline for the bolt holes Therefore, it is possible to prevent an industrial disaster such as a musculoskeletal disease or the like from occurring to the worker by reducing the time taken to perform the alignment process on the pipe flange.

Description

[0001] Apparatus for Adjusting Pipe Flange [0002]

The present invention relates to a pipe flange alignment apparatus used to align the position of a pipe flange.

In general, pipes are used for the implementation of the flow path for fluid transfer, the installation of electric wires and the like. For example, in order to dry a large-sized ship, a large number of pipes are installed for transporting fluids and installing electric wires.

In constructing one pipeline in a ship, it is possible to use one pipe having a long length, but it is practically impossible to construct a pipeline by using one pipe in a structure such as a ship having numerous bulkheads. Thus, a pipe flange is used to construct a pipeline extending to a desired location by connecting pipes having a predetermined length through the partition walls and interconnected.

On the other hand, in drying a ship, a block drying method for assembling hull blocks after assembling the parts from a material such as a steel plate or a section steel and assembling the hull blocks from these parts is widely used. These hull blocks are assembled together with the pipes installed on each of them. If the pipes installed in each of the hull blocks are installed out of the correct installation position, the pipeline can not be constructed. To prevent this, an alignment process is carried out to align the position of the pipe flange with the hull blocks when installing pipes in each of the hull blocks.

1 is a conceptual view showing a process of performing a pipe-flange aligning process according to the related art.

1, the pipe flange aligning process according to the prior art is carried out in such a manner that the bolt holes 11, 12, 13, 14 formed in the pipe flange 10 are arranged parallel to the reference lines S1, Lt; RTI ID = 0.0 > 10 < / RTI > Specifically, it is as follows.

First, the worker uses two or more of the bolt holes 11, 12 arranged close to the first reference line S1 among the bolt holes 11, 12, 13, 14 formed in the pipe flange 10 And a distance D1 spaced from the first reference line S1 is measured. The operator adjusts the position of the pipe flange 10 so that the two bolt holes 11 and 12 are spaced the same distance D1 from the first reference line S1 according to the measurement result. Then, the operator confirms whether the two bolt holes 11 and 12 are spaced the same distance D1 from the first reference line S1 by using the tape measure again. The first reference line S1 may be a line drawn toward the first direction by using a partition or a marker installed in the hull block in the first direction.

Next, the worker uses the tape measure to measure the distance D2 between each of the two bolt holes 13, 14 disposed close to the second reference line S2, from the second reference line S2. The second reference line S2 may be a line drawn toward the second direction by using a partition or a marker installed in the hull block in a second direction. The first direction and the second direction are perpendicular to each other. The operator adjusts the position of the pipe flange 10 so that the two bolt holes 13 and 14 are spaced at the same distance D2 from the second reference line S2 according to the measurement result. Then, the operator confirms again whether or not the two bolt holes 13, 14 are spaced the same distance D2 from the second reference line S2 by using the tape measure again.

The prior art pipe flange aligning process aligns the position of the pipe flange 10 through the processes described above. Therefore, the pipe flange aligning process according to the prior art has the following problems.

First, the pipe-flange aligning process according to the related art uses a tape measure to allow the operator to visually recognize the distance (D1, D2) between the bolt holes (11, 12, 13, 14) and the reference lines ), There is a problem that the accuracy of the measuring operation using the tape measure varies depending on the skill level of the operator. Accordingly, in the pipe-flange aligning process according to the related art, an error occurs in the measuring operation using the tape measure, thereby causing an error in the position of the pipe flange 10, thereby reducing the reliability.

Second, in the pipe-flange aligning process according to the related art, when an error occurs in the operation of measuring the distances D1 and D2 between the bolt holes 11, 12, 13 and 14 and the reference lines S1 and S2 There is a problem that it takes a long time to carry out the process of aligning the position of the pipe flange 10 such as performing the operation again from the beginning. Accordingly, the pipe-flange aligning process according to the related art increases the burden imposed on the worker's musculoskeletal system, thereby causing an industrial accident such as causing a musculoskeletal disease to a worker.

When the bolt holes 11, 12, 13, 14 and the reference lines S1, S2 are spaced apart from each other by a considerable distance, the pipe flange aligning process according to the related art allows the operator to use the tape ruler, (11, 12, 13, 14) are arranged parallel to the marking lines after marking lines (not shown) are displayed at a position spaced apart from the marking lines S1, The position of the flange 10 was aligned. Therefore, the process of aligning the pipe flange 10 according to the prior art is difficult and cumbersome to align the position of the pipe flange 10, and even if an error occurs only once in several measurement operations using the tape measure, the entire measurement operation is affected There is a high probability that an error will occur.

It is an object of the present invention to provide a pipe flange aligning apparatus which can prevent the accuracy of an aligning process for aligning a pipe flange from being degraded according to the skill of a worker.

The present invention is to provide a pipe flange aligning apparatus capable of preventing an industrial disaster such as a worker from causing a musculoskeletal disorder by reducing the time taken to perform the alignment process of aligning the pipe flange.

The present invention is intended to provide a pipe flange alignment apparatus which can improve the ease of the alignment process for aligning the pipe flanges and reduce the probability of errors in the process of aligning the pipe flanges.

In order to solve the above-described problems, the present invention may include the following configuration.

A pipe flange aligning apparatus according to the present invention comprises: a reference mechanism for engaging with a partition of a hull block; A connecting mechanism having one end coupled to the reference mechanism; And a moving mechanism to which the other end of the connecting mechanism is coupled and which is movably connected to the reference mechanism via the connecting mechanism. The movement mechanism includes an alignment surface formed on the other surface opposite to the one surface facing the reference mechanism, and the alignment surface may be formed flat.

The pipe flange aligning apparatus according to the present invention includes: a first magnetic body coupled to the reference mechanism such that the reference mechanism is magnetically attached to a partition wall of a hull block; And a second magnetic body coupled to the moving mechanism such that the moving mechanism is magnetically attached to the bulkhead of the hull block.

In the pipe flange aligning apparatus according to the present invention, the connecting mechanism may include a plurality of connecting members having one end coupled to the reference mechanism and the other end coupled to the moving mechanism. The connecting members may be spaced apart from each other in a direction perpendicular to a direction in which the moving mechanism moves with reference to the reference mechanism.

In the pipe-flange aligning apparatus according to the present invention, the connecting mechanism may include a winch drum rotatably coupled to the reference mechanism, and a connecting member having one end coupled to the winch drum and the other end coupled to the moving mechanism have. The moving mechanism may move toward the reference mechanism as the connecting member is wound on the winch drum and may move in a direction away from the reference mechanism as the connecting member is loosened from the winch drum.

According to the present invention, the following effects can be obtained.

The present invention is implemented such that an intermediate baseline is formed between the baseline and the pipe flange, thereby improving the accuracy and reliability of the alignment process for the pipe flange.

The present invention can reduce the number of operations required to form an intermediate baseline for the bolt holes, thereby reducing the time taken to perform the alignment process for the pipe flange, thereby causing industrial accidents, such as musculoskeletal disorders, Can be prevented.

The present design not only improves the ease of the alignment process of aligning the pipe flange even when the baseline and pipe flange are spaced a significant distance, but also reduces the probability of errors in the process of aligning the pipe flange .

1 is a conceptual view showing a process of performing a pipe-flange aligning process according to the related art
2 is a schematic front view showing a state in which an alignment process for a pipe flange is performed using a pipe flange aligning apparatus according to the present invention
Fig. 3 is a side sectional view of the pipe flange aligning apparatus according to the present invention with reference to the line II in Fig. 2

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations from one or more related items. For example, the meaning of "at least one of the first item, the second item and the third item" means not only the first item, the second item or the third item, but also the second item and the second item among the first item, Means any combination of items that can be presented from more than one.

Hereinafter, preferred embodiments of a pipe flange aligning apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic front view showing a process of aligning a pipe flange using the pipe flange aligning apparatus according to the present invention, FIG. 3 is a schematic front view showing a pipe flange aligning apparatus according to the present invention, Fig.

2 and 3, the pipe-flange aligning apparatus 1 according to the present invention is used for aligning the position of the pipe flange 10. As shown in Fig. The pipe flange aligning apparatus 1 according to the present invention includes a reference mechanism 2 for being engaged with the partition 20, a moving mechanism 3 for moving on the basis of the reference mechanism 2, And a connecting mechanism (4) for connecting the moving mechanism (3). The partition 20 is installed on a structure such as a ship, and may be a plate member installed on a hull block.

The moving mechanism (3) includes an alignment surface (31) formed on the other surface opposite to the one surface facing the reference mechanism (2). The alignment surface 31 is formed to be flat. The moving mechanism (3) is movably connected to the reference mechanism (2) via the connecting mechanism (4). Thus, the moving mechanism 3 can move in the direction toward the reference mechanism 2 and in the direction away from the reference mechanism 2 with respect to the reference mechanism 2.

The pipe flange aligning apparatus 1 according to the present invention is characterized in that the moving mechanism 3 is moved in the state where the reference mechanism 2 is coupled to the partition wall 20 in parallel with the reference line S indicated on the partition wall 20 The aligning surface 31 moves toward the pipe flange 10 when moved in the direction away from the reference mechanism 2. [ The alignment surface 31 is positioned between the reference line S and the pipe flange 10 so that the bolt holes 11 and 12 of the pipe flange 10 are aligned with respect to the reference line S And can function as an intermediate reference line in performing an alignment process of aligning the position of the pipe flange 10 so as to be arranged in parallel. Therefore, the pipe flange aligning apparatus 1 according to the present invention can achieve the following operational effects.

The pipe flange aligning apparatus 1 according to the present invention is characterized in that the reference mechanism 2 is attached to the partition wall 20 in parallel with the reference line S indicated on the partition wall 20, The alignment plane 31 is positioned between the reference line S and the pipe flange 10 so that an intermediate reference line can be realized. The operator can adjust the position of the bolt holes 11 and 12 so that the bolt holes 11 and 12 are arranged parallel to the alignment surface 31 with reference to the alignment surface 31 positioned closer to the pipe flange 10 than the reference line S. [ The alignment process for the pipe flange 10 can be performed by adjusting the position of the pipe flange 10. Accordingly, the pipe-flange aligning apparatus 1 according to the present invention is capable of performing the alignment process for the pipe flange 10 according to the skill of the operator, as compared with conventionally performing the alignment process for the pipe flange 10 using a tape measure The accuracy of the alignment process with respect to the pipe flange 10 can be improved and the reliability thereof can be improved.

Second, the pipe-flange aligning apparatus 1 according to the present invention has the advantage that, compared to the conventional method of measuring the distance from the reference line S to each of the two bolt holes 11 and 12, An intermediate reference line for the two bolt holes 11 and 12 can be realized. Accordingly, the pipe-flange aligning apparatus 1 according to the present invention can reduce the time taken to perform the alignment process with respect to the pipe flange 10 as compared with the prior art, and accordingly, it is possible to provide a worker with an industrial disaster such as a musculo- Can be prevented.

Third, the pipe-flange aligning apparatus 1 according to the present invention can realize an intermediate reference line for two bolt holes 11 and 12 in a single operation, so that the bolt holes 11 and 12 Not only can the ease of the alignment process of aligning the pipe flange 10 be improved even if the reference line S and the reference line S are separated by a considerable distance, The probability of error can be reduced.

Hereinafter, the reference mechanism 2, the moving mechanism 3 and the connecting mechanism 4 will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 2 and 3, the reference mechanism 2 is coupled to the partition 20. The reference mechanism 2 is coupled to the partition 20 so as to be parallel to the reference line S indicated on the partition 20 so as to function as a reference point in realizing the intermediate reference line using the alignment plane 31 have. The reference mechanism 2 may be formed in a rectangular parallelepiped shape as a whole.

The reference mechanism 2 may include a first reference surface 21 formed to be flat. The first reference surface 21 may be formed on the other surface of the reference mechanism 2 opposite to the one surface facing the moving mechanism 3. Thus, when the reference mechanism 2 is coupled to the partition 2 such that the first reference plane 21 is parallel to the reference line S, the reference mechanism 2 uses the alignment plane 31 To function as an accurate reference point in implementing the intermediate baseline. Therefore, the pipe-flange aligning apparatus 1 according to the present invention can further improve the ease and accuracy in performing the alignment process for the pipe flange 10. [ The reference mechanism 2 may be coupled to the partition 20 such that the first reference plane 21 overlaps the reference line S. [ The reference mechanism 2 may be coupled to the partition 20 such that the first reference plane 21 is spaced from the reference line S by a predetermined distance.

The reference mechanism 2 may include a second reference surface 22 formed flat. The second reference plane 22 may be formed on one surface of the reference mechanism 2 that faces the moving mechanism 3. Thus, when the reference mechanism 2 is coupled to the partition 2 such that the second reference plane 22 is parallel to the reference line S, the reference mechanism 2 uses the alignment plane 31 To function as an accurate reference point in implementing the intermediate baseline. Therefore, the pipe-flange aligning apparatus 1 according to the present invention can further improve the ease and accuracy in performing the alignment process for the pipe flange 10. [ The reference mechanism 2 may be coupled to the partition 20 such that the second reference plane 22 overlaps the reference line S. [ The reference mechanism 2 may be coupled to the partition 20 such that the second reference plane 22 is spaced from the reference line S by a predetermined distance.

The first reference surface 21 and the second reference surface 22 are formed in the reference mechanism 2 when the reference mechanism 2 includes both the first reference surface 21 and the second reference surface 22. [ As shown in FIG.

The operator can select either the first reference plane 21 or the second reference plane 22 to couple the reference mechanism 2 to the partition 20 in parallel to the reference line S. have. The pipe flange aligning apparatus 1 according to the present invention is designed such that the operator can adjust the first reference plane 21 and the second reference plane 22 in accordance with the environmental condition of the portion indicated by the reference line S in the partition 20, It is possible to improve the versatility applicable to various environmental conditions.

The operator can also compare whether the reference plane 21, the second reference plane 22 and the reference line S are arranged parallel to each other, It can be confirmed whether or not it is coupled to the partition 20 so as to function as an accurate reference point in implementing the intermediate reference line. Accordingly, the pipe-flange aligning apparatus 1 according to the present invention can be used to determine whether or not the reference mechanism 2 is coupled to the partition 20 to function as an accurate reference point in realizing the intermediate reference line using the alignment plane 31 By increasing the number of comparable objects to be checked, the accuracy of performing the alignment process on the pipe flange 10 can be further improved.

2 shows a state in which the reference mechanism 2 is coupled to the barrier rib 20 in parallel to a reference line S indicated in the vertical direction. However, the present invention is not limited to this, and the reference mechanism 2 may include a reference line S, it may function as a reference point in realizing the intermediate reference line by using the alignment surface 31 in the horizontal direction.

The reference mechanism 2 may be detachably coupled to the partition 20. The reference mechanism 2 may be coupled to the partition 20 so as to correspond to the reference line S according to a relative position between the reference line S and the pipe flange 10. [ In addition, the reference mechanism 2 may be coupled to the other partition 20 to perform an alignment process for another pipe flange 10 after being separated from the partition 20. Therefore, the pipe flange aligning apparatus 1 according to the present invention can be used repeatedly to carry out the alignment process for the pipe flange 10, and can be used for various purposes depending on the relative position between the reference line S and the pipe flange 10. [ The versatility applicable to environmental conditions can be improved.

The pipe flange aligning apparatus 1 according to the present invention includes a first magnetic body 5 coupled to the reference mechanism 2 so that the reference mechanism 2 can be detachably coupled to the partition 20 can do. The first magnetic body 5 may be detachably attached to the partition 20 by magnetism. Accordingly, the reference mechanism 2 can be detachably coupled to the partition 20 using the magnetic property of the first magnetic body 5. Therefore, the pipe flange aligning apparatus 1 according to the present invention can be used as the reference mechanism 2 when compared with the case where the reference mechanism 2 is detachably coupled to the partition 20 by using a fastening means such as a bolt or the like. Not only can the ease of attaching and detaching the reference mechanism 2 to the partition 20 be improved but also the time taken to attach the reference mechanism 2 to the partition 20 in correspondence with the reference line S can be reduced .

The first magnetic body 5 may be coupled to the reference mechanism 2 so as to be positioned between the reference mechanism 2 and the partition 20. The first magnetic body 5 may be a permanent magnet. The pipe-flange aligning apparatus 1 according to the present invention may include a plurality of the first magnetic bodies 5. In this case, the first magnetic bodies 5 may be coupled to the reference mechanism 2 so as to be spaced apart from each other in a direction perpendicular to the direction in which the moving mechanism 3 moves with respect to the reference member 2 .

Referring to FIGS. 2 and 3, the moving mechanism 3 is movably connected to the reference mechanism 2 via the connecting mechanism 4.

The moving mechanism (3) can move in a direction away from the reference mechanism (2) through the connecting mechanism (4). Accordingly, the moving mechanism 3 can be positioned between the reference mechanism 2 and the pipe flange 10, thereby functioning as an intermediate reference line in performing the alignment process with respect to the pipe flange 10.

The moving mechanism (3) can move toward the reference mechanism (2) through the connecting mechanism (4). When the pipe-flange aligning apparatus 1 according to the present invention is not being used and is being stored, the moving mechanism 3 can move to contact the reference mechanism 2 as shown by a dotted line in FIG. Accordingly, the pipe flange aligning apparatus 1 according to the present invention can reduce the overall size, thereby improving the ease of storage and enhancing the convenience of carrying. The moving mechanism 3 may be formed in a rectangular parallelepiped shape as a whole.

The moving mechanism (3) includes an alignment surface (31) formed flat. The alignment surface 31 is formed on the other surface of the moving mechanism 3 opposite to the one surface facing the reference mechanism 2. Accordingly, when the moving mechanism 3 is coupled to the partition wall 2 such that the alignment surface 31 is parallel to the reference line S, the moving mechanism 3 is aligned with the pipe flange 10 It can function as an intermediate baseline in performing the process. Accordingly, the pipe-flange aligning apparatus 1 according to the present invention can improve the ease and accuracy in performing the alignment process for the pipe flange 10. The moving mechanism 3 may be coupled to the partition 20 so that the alignment surface 31 is parallel to at least one of the first reference surface 21 and the second reference surface 22. [ The moving mechanism 3 may be coupled to the partition 20 such that the alignment surface 31 is positioned at a predetermined distance from the pipe flange 10.

The moving mechanism 3 may comprise an auxiliary alignment surface 32 formed flat. The auxiliary alignment surface 32 may be formed on one surface of the moving mechanism 3 facing the reference mechanism 2. The auxiliary alignment surface 32 and the alignment surface 31 may be formed parallel to each other. Accordingly, when the moving mechanism 3 is coupled to the partition wall 2 such that the auxiliary alignment surface 32 is parallel to the reference line S, the moving mechanism 3 moves the alignment surface 31 Can be arranged to be parallel to the reference line S, thereby functioning as an accurate intermediate reference line. The pipe flange aligning apparatus 1 according to the present invention is therefore characterized in that the aligning surface 31 is formed by using the auxiliary aligning surface 32 which is arranged closer to the reference line S than the aligning surface 31, It is possible to further improve the accuracy of the operation of arranging the reference line S parallel. The moving mechanism 3 may be coupled to the partition 20 such that the auxiliary alignment surface 32 is parallel to at least one of the first reference surface 21 and the second reference surface 22. [

When the moving mechanism 3 includes both the alignment surface 31 and the auxiliary alignment surface 32, the alignment surface 31 and the auxiliary alignment surface 32 are aligned with each other in the movement mechanism 3, And may be formed on the opposite surface.

Accordingly, the operator can select any one of the alignment surface 31 and the auxiliary alignment surface 32 to couple the movement mechanism 3 to the partition 20 so as to be parallel to the reference line S . The pipe flange aligning apparatus 1 according to the present invention is designed such that the operator can adjust the position of the partition wall 20 between the alignment plane 31 and the auxiliary alignment plane 32 By providing a choice of which one to choose, it is possible to improve versatility that can be applied to various environmental conditions.

The operator can also determine whether the alignment mechanism 31, the auxiliary alignment surface 32 and the reference line S are arranged parallel to each other so that the movement mechanism 3 functions as an accurate intermediate reference point, 20). ≪ / RTI > The pipe flange aligning apparatus 1 according to the present invention is thus capable of increasing the number of comparison objects which can confirm whether or not the moving mechanism 3 is coupled to the partition 20 so as to function as a correct intermediate reference point, It is possible to further improve the accuracy in performing the alignment process on the substrate.

2 shows a state in which the moving mechanism 3 is coupled to the partition 20 so as to be parallel to a reference line S indicated in the vertical direction. However, the present invention is not limited thereto, May be coupled to the partition 20 so as to be parallel to the reference line S indicated in the horizontal direction, thereby implementing an intermediate reference line in the horizontal direction.

The moving mechanism (3) can be detachably coupled to the partition (20). The moving mechanism 3 may be coupled to the partition 20 so as to correspond to the reference line S according to the relative position between the reference line S and the pipe flange 10. [ Further, the moving mechanism 3 may be coupled to the other partition 20 to perform the alignment process for the other pipe flange 10 after being separated from the partition wall 20. [ Therefore, the pipe flange aligning apparatus 1 according to the present invention can be used repeatedly to carry out the alignment process for the pipe flange 10, and can be used for various purposes depending on the relative position between the reference line S and the pipe flange 10. [ The versatility applicable to environmental conditions can be improved.

The pipe flange aligning apparatus 1 according to the present invention includes a second magnetic body 6 coupled to the moving mechanism 3 so that the moving mechanism 3 can be detachably coupled to the partition wall 20 can do. The second magnetic body 6 may be detachably attached to the partition 20 by magnetism. Accordingly, the moving mechanism 3 can be detachably coupled to the partition 20 by using the magnetic property of the second magnetic body 6. [ Therefore, the pipe-flange aligning apparatus 1 according to the present invention is advantageous in that when the moving mechanism 3 is detachably coupled to the partition 20 using a fastening means such as a bolt or the like, Not only the easiness of attaching the moving mechanism 3 to the partition 20 can be improved but also the time taken to attach the moving mechanism 3 to the partition 20 corresponding to the reference line S can be reduced .

The second magnetic body 6 may be coupled to the moving mechanism 3 so as to be positioned between the moving mechanism 3 and the partition 20. The second magnetic body 6 may be a permanent magnet. The pipe-flange aligning apparatus 1 according to the present invention may include a plurality of the second magnetic bodies 6. In this case, the second magnetic bodies 6 may be coupled to the moving mechanism 3 so as to be spaced apart from each other in a direction perpendicular to the direction in which the moving mechanism 3 moves with respect to the reference member 2 .

Referring to FIGS. 2 and 3, the connection mechanism 4 connects the reference mechanism 2 and the moving mechanism 3. One end of the connecting mechanism 4 is coupled to the reference mechanism 2 and the other end is coupled to the moving mechanism 3. The connecting mechanism 4 can be realized such that the moving mechanism 3 moves toward the pipe flange 2 and functions as an intermediate reference line by adjusting the distance of protrusion from the reference mechanism 2. [

The connecting mechanism 4 may include a connecting member 41 connecting the reference mechanism 2 and the moving mechanism 3. [

One end of the connecting member 41 is coupled to the reference mechanism 2 and the other end is coupled to the moving mechanism 3. The connecting member 41 may be formed of a stretchable material. For example, the connecting member 41 may be formed of rubber, spring, or the like. Accordingly, the connecting member 41 can be extended as the moving mechanism 3 moves in a direction away from the reference mechanism 2. [ When the moving mechanism 3 is attached to the partition 20, the connecting member 41 can be kept stretched from the reference mechanism 2. When the moving mechanism 3 is separated from the partition 20, the connecting member 41 can be reduced so that the moving mechanism 3 moves toward the reference mechanism 2. Therefore, the connecting member 41 can move the moving mechanism 3 toward the reference mechanism 2, thereby improving the ease of the operation of reducing the overall size. The connecting member 41 may be formed in a strip shape.

The connecting mechanism 4 may include a plurality of the connecting members 41. In this case, the connecting members 41 and 41 'may be spaced apart from each other in a direction perpendicular to the direction in which the moving mechanism 3 moves with respect to the reference mechanism 2. Accordingly, the moving mechanism 3 can be moved to be spaced apart from the reference mechanism 2 by a uniform distance by the connecting members 41 and 41 '. 2, the connecting mechanism 4 includes two connecting members 41 and 41 ', but the present invention is not limited thereto. The connecting mechanism 4 may include three or more connecting members 41 You may.

Referring to FIG. 3, the connection mechanism 4 may include a winch drum 42 coupled to the reference mechanism 2.

The winch drum (42) can be rotatably coupled to the reference mechanism (2). The connecting member 41 can be coupled to the reference mechanism 2 via the winch drum 41 by being coupled to the winch drum 42 at one end. The moving mechanism 3 can move toward the reference mechanism 2 as the connecting member 41 is wound on the winch drum 41. [ In addition, the moving mechanism 3 can move in a direction away from the reference mechanism 2 as the connecting member 41 is released from the winch drum 41.

The winch drum (42) can be coupled to the inside of the reference mechanism (2). Accordingly, when the connecting member 41 is positioned inside the reference mechanism 2 as it is wound on the winch drum 42, the moving mechanism 3 contacts the reference mechanism 2 without a gap . Therefore, the pipe flange aligning apparatus 1 according to the present invention can minimize the overall size when not in use, so that the ease of storage can be further improved and the convenience of carrying can be further improved.

Although not shown, the connecting mechanism 4 may include an operating member connected to the winch drum 42. [ The operation member may be coupled to the reference mechanism 2 such that one side of the operation member is coupled to the rotation axis of the winch drum 42 and the other side is positioned outside the reference mechanism 2. The operator can easily move the moving mechanism 3 toward the reference mechanism 2 by rotating the operating member such that the connecting member 41 is wound on the winch drum 42. [

Although not shown, the connecting mechanism 4 may include an elastic member connected to the winch drum 42 and the connecting member 41. The elastic member may be coupled to the winch drum 42 at one side and coupled to the connecting member 41 at the other side. When the moving mechanism 3 moves in a direction away from the reference mechanism 2, the elastic member can be elastically stretched as the connecting member 41 is released from the winch drum 42. And, when the moving mechanism 3 is separated from the partition 20, the elastic member can be elastically compressed so that the connecting member 41 is wound on the winch drum 42. Accordingly, the moving mechanism (3) can move toward the reference mechanism (2) due to the restoring force of the elastic member. Accordingly, the pipe flange aligning apparatus 10 according to the present invention can improve the ease of operation of moving the moving mechanism 3 toward the reference mechanism 2 to reduce the overall size.

Here, the pipe flange aligning apparatus 1 according to the present invention can be made of a lightweight material having a predetermined strength. For example, the pipe-flange aligning apparatus 1 according to the present invention can be made of a lightweight material obtained by mixing an epoxy resin and a carbon fiber composite, or a glass fiber. Accordingly, the pipe-flange aligning apparatus 1 according to the present invention reduces the burden on the worker's musculoskeletal system in the course of performing the alignment process with respect to the pipe flange 10, Can be prevented. At least one of the reference mechanism 2 and the moving mechanism 3 may be made of a lightweight material.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

1: Pipe flange alignment device 2: Reference device
3: moving mechanism 4: connecting mechanism
5: first magnetic body 6: second magnetic body
10: Pipe flange 11, 12: Bolt hole

Claims (4)

A reference mechanism for coupling to the bulkhead of the hull block;
A connecting mechanism having one end coupled to the reference mechanism; And
And a moving mechanism to which the other end of the connecting mechanism is coupled and which is movably connected to the reference mechanism via the connecting mechanism,
Wherein the moving mechanism includes an alignment surface formed on the other surface opposite to the one surface facing the reference mechanism, wherein the alignment surface is formed to be flat. The method according to claim 1,
A first magnetic body coupled to the reference mechanism such that the reference mechanism is magnetically attached to the partition of the hull block; And
And a second magnetic body coupled to the moving mechanism such that the moving mechanism is magnetically attached to the partition wall of the hull block. The method according to claim 1,
Wherein the connection mechanism includes a plurality of connection members having one end coupled to the reference mechanism and the other end coupled to the movement mechanism,
Wherein the connecting members are spaced apart from each other in a direction perpendicular to a direction in which the moving mechanism moves with reference to the reference mechanism. The method according to claim 1,
The connecting mechanism includes a winch drum rotatably coupled to the reference mechanism, and a connecting member having one end coupled to the winch drum and the other end coupled to the moving mechanism;
Wherein the moving mechanism moves toward the reference mechanism as the connecting member is wound on the winch drum and moves in a direction in which the connecting member is spaced from the reference mechanism as the connecting member is unwound from the winch drum. Device.

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