KR20220041348A - Hold down guide for pipe - Google Patents

Abstract

Disclosed is a hold-down guide for piping that can flexibly respond to site conditions or design changes. According to the present invention, the hold-down guide for piping comprises: a fixed body formed in a prismatic shape and fixed to the support using one or more side surfaces; and a limited body formed in the same prismatic shape as the fixed body, having a smaller cross-sectional area compared to the fixed body, and arranged in a stacked shape on a lower surface of the fixed body.

Description

Hold down guide for pipe

The present invention relates to a hold down guide for piping.

A number of various pipes are installed in ships or offshore structures, and many of the installed pipes are supported by a shoe.

When a system provided in a ship or an offshore structure is operated, a fluid flows along the inside of the installed pipe, and the pipe is subjected to various types of shocks by the characteristics of the fluid according to the system characteristics and the external environment.

That is, the pipe may receive not only an impact from an external force, but also an impact due to the amount, flow rate, or thermal expansion of the fluid flowing inside the pipe, and such an impact may change the path of the pipe or cause breakage. there is.

Guides, stoppers, and hold down guides are provided around the shoe to limit the movement of the shoe supporting the pipe and prevent path change or breakage due to the impact applied to the pipe. etc are installed. Here, the hold-down guide is installed to limit the movement range of the shoe in the longitudinal direction of the body.

Here, the hold-down guide installed to limit the movement range of the shoe in the longitudinal direction of the body is installed to be spaced apart from the shoe by a selected clearance gap in consideration of the driving characteristics of the system in which the corresponding pipe is operated. And. The clearance gap according to the driving characteristics of each system varies, for example, 0 (no gap), 5 mm, 20 mm, 30 mm, etc.

However, if the hold-down guide is individually manufactured with a body size having each applicable clearance gap, the types of the hold-down guide are inevitably increased, which inconveniently requires a lot of effort in material production and preparation.

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An object of the present invention is to provide a hold-down guide for piping that can be flexibly dealt with in field conditions or design changes by allowing clearance gaps of different sizes to be formed in each of the plane directions of the body.

An object of the present invention is to provide a hold-down guide for piping in which the number of clearance gaps that can be formed in one body can be diversified by diversifying the shape of the three-dimensional figure constituting the body.

Objects other than the present invention will be easily understood through the following description.

According to one aspect of the present invention, the fixed body is formed in the shape of each column, fixed to the support using one or more side surfaces; and a limiting body formed in the same pillar shape as the fixed body and having a smaller cross-sectional area compared to the fixed body, and arranged in a stacked shape on the bottom surface of the fixed body to limit the movement of the shoe A guide is provided.

The lower surface of the confinement body may be fixed to the lower surface of the fixed body in an eccentric position so that the virtual central axis of the fixed body and the virtual central axis of the confinement body do not coincide with each other.

The confinement body and the fixed body may be disposed in an eccentric position where the depth, which is the distance between the adjacent sides of the corresponding side surfaces of the fixed body and the confinement body, is different from each other in the direction of each face of the hold-down guide. there is.

A first limiting body and a second limiting body are respectively provided on both lower surfaces of the fixed body, and the fixed body and the first and second limiting bodies are provided so that the depths in all directions of the hold-down guide are different from each other. can be placed.

Other aspects, features and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

According to an embodiment of the present invention, there is an effect of flexibly coping with field conditions or a design change situation by allowing a clearance gap of a different size to be formed in each of the plane directions of the body.

In addition, by diversifying the shape of the three-dimensional figure constituting the body, there is an effect that the number of clearance gaps that can be formed in one body can be diversified.

1 is a view showing an installation shape of a hold-down guide according to the prior art.
Figure 2 is a view showing the shape of the hold down guide according to an embodiment of the present invention.
Figure 3 is a view illustrating an installation form of the hold down guide according to an embodiment of the present invention.
4 is a view illustrating various shapes of a hold-down guide according to other embodiments of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a view showing an installation shape of a hold-down guide according to the prior art.

As illustrated in FIG. 1 , the pipe 10 is installed to be supported by a support such as a shoe 12 .

At this time, in order to prevent the installation path of the pipe 10 from being changed or broken by the impact applied to the pipe 10, the periphery of the shoe 12 is located in the upper direction of the shoe 12 in the longitudinal direction (that is, in Fig. A hold down guide 14 and the like for limiting the range of motion in the upward direction in the illustrated state of 1 are installed. In addition, a guide, a stopper, etc. may be further installed.

The hold-down guide 14 is formed in a 'L'-shaped bent shape, and the lower end area is welded to the support 16 in a state where the upper area is positioned to restrict the upward movement of the shoe 12 . is fixed

In this case, a clearance gap of an appropriate size between the upper surface of the shoe 12 and the opposite lower surface of the hold-down guide 14 in consideration of the driving characteristics of the system in which the pipe 10 is operated (Fig. 1) G) of (b) is formed.

The clearance gap may be the length of the space in which the shoe 12 is allowed to move upward, and may be variously designated as 0 (no gap), 5 mm, 20 mm, 30 mm, etc. according to the driving characteristics of the corresponding system.

However, when the body size of the hold-down guide to be manufactured is determined by applying each spare length selected in consideration of the driving characteristics of each system, there is a problem in that the types of the hold-down guides to be manufactured become excessively large.

2 is a view showing the shape of a hold down guide according to an embodiment of the present invention, Figure 3 is a view illustrating an installation form of the hold down guide according to an embodiment of the present invention, Figure 4 is a view showing the shape of the hold down guide according to an embodiment of the present invention It is a diagram illustrating a shape of a hold-down guide according to other embodiments.

Referring to FIG. 2 , the hold-down guide 100 has a shape in which a fixed body 110 having each column shape and a limiting body 120 having the same column shape as the fixed body 110 but having a relatively small cross-sectional area are stacked. can be formed with

The fixed body 110 may be formed in the shape of a three-dimensional figure made of a polygon in which upper and lower surfaces are parallel to each other and congruent, such as, for example, a triangular pole or a quadrangular pole. Hereinafter, for convenience of explanation. Parallel and congruent two surfaces of the fixed body 110 formed in a columnar shape are referred to as a bottom surface, and a surface perpendicular to the bottom surface is referred to as a side surface.

A limiting body 120 is fixed to the lower surface of any one of the fixed body 110 , and any one of the side surfaces of the fixed body 110 is used as a fixing surface for fixing the hold-down guide 100 to the support 16 . do. In this case, the fixing body 110 may be fixed to the support 16 by, for example, a welding method or a bolting method.

The thickness (D1) and width (W) of the fixed body 110 may be determined as a length for the fixed body 110 to be stably fixed to the support 16, and this length may be specified in advance by practical regulations, etc., or It can be determined by the experience of the workers.

The confining body 120 has a relatively small cross-sectional area, but is formed in the same shape of each pillar as the fixed body 110 . At this time, even if the fixed body 110 and the limiting body 120 have the same shape of each pole, such as a triangular pole, the length of the corresponding side in the figure corresponding to the cross section such as a triangle is the fixed body 110 and the limiting body 120 . ) may not have a proportional relationship between them.

The limiting body 120 is disposed in a stacked shape on one side of the lower surface of the fixed body 110 so that the cut surface of the hold-down guide 100 forms a 'T' shape. Here, the fixed body 110 and the confinement body 120 may be integrally formed, but the separated confinement body 120 may be fixed to one side of the lower surface of the fixed body 110 .

At this time, the confinement body 120 is disposed at an eccentric position with respect to the fixed body 110 . That is, the fixed body 110 and the virtual central axis connecting the two lower surface center points of the fixed body 110 to each other and the virtual central axis connecting the two lower surface center points of the limited body 120 to each other do not coincide with each other. A confinement body 120 is positioned.

Due to this, as illustrated in (b) of FIG. 2 , the distance between the adjacent sides of the corresponding side surfaces of the fixed body 110 and the limiting body 120 in the direction of each side of the hold-down guide 100 is Depths L1, L2, and L3 are formed to be different, respectively.

As an example, (b) of FIG. 2 shows that with respect to the virtual central axis of the fixed body 110 , the virtual central axis of the limited body 120 is relatively relative to the first side surface and the second side surface of the fixed body 110 . It is positioned so as to be biased, and illustrates a case where the depths in each plane direction are different from each other. For this reason, the size gradually increases in the order of the depth L1 in the first plane direction, the depth L2 in the second plane direction, and the depth L3 in the third plane direction.

In addition, the thickness D2 of the confinement body 120 is, as illustrated in FIG. 3, when the hold-down guide 100 is fixed to the support 16 so that the confinement body 120 faces the shoe 12, The length may be determined to limit the range of movement of the shoe 12 in the longitudinal direction of the body. This length may be pre-specified by a practical regulation or the like, or may be determined by the experience of field workers.

As described above, by non-matching the virtual central axes of the confinement body 120 and the fixed body 110, the hold-down guide 100 composed of the confinement body 120 and the fixed body 110 in each plane direction They are formed to have different depths.

Therefore, as illustrated in (a) and (b) of Figure 3, respectively, the hold-down guide 100 is rotated in the plane direction to form a clearance corresponding to the driving characteristics of the system in which the pipe is used. It may be fixed to the support 16 .

2 and 3, when the fixed body 110 and the limiting body 120 are each formed in the shape of a triangular pole, the hold-down guide 100 has different depths in three plane directions. can be formed. In this case, the depth of each side of the hold-down guide 100 may be determined so as to form the three clearance gaps most often used at the construction site.

Similarly, as illustrated in FIGS. 4 (a) and (b), respectively, the shape of the fixed body 110 and the limiting body 120 constituting the hold-down guide 100 is formed in a square pole, a hexagonal pole, etc. In this case, a larger number of different depths may be formed in the body of the hold-down guide 100 .

In addition, as illustrated in (c) of Figure 4, the first limiting body (120a) and the second limiting body (120b) to form a different depth from each other in each side direction on both sides of the bottom surface of the fixed body 110, respectively By disposing, a different depth corresponding to twice the number of sides of the fixed body 110 may be formed.

Although the above has been described with reference to the embodiments of the present invention, those of ordinary skill in the art can variously modify the present invention within the scope without departing from the spirit and scope of the present invention described in the claims below. and may be changed.

10: pipe 12: shoe (shoe)
14, 100: hold down guide 16: support
110: fixed body 120: limited body

Claims (4)

a fixed body formed in each column shape and fixed to the support using one or more side surfaces; and
A hold-down guide for piping including a limiting body formed in the same pillar shape as the fixed body and having a smaller cross-sectional area compared to the fixed body and disposed in a stacked shape on the bottom of the fixed body. According to claim 1,
A hold-down guide for piping, wherein the lower surface of the confinement body is fixed to the lower surface of the fixed body in an eccentric position so that the virtual central axis of the fixed body and the virtual central axis of the confinement body do not coincide with each other. 3. The method of claim 2,
The confinement body and the fixed body are disposed in eccentric positions where the depth, which is the distance between the adjacent sides of the corresponding side surfaces of the fixed body and the confinement body, is different from each other in the direction of each face of the hold-down guide, Hold down guide for piping. 4. The method of claim 3,
A first limiting body and a second limiting body are provided on both lower surfaces of the fixed body, respectively,
A hold-down guide for piping, wherein the fixed body and the first and second limiting bodies are disposed so that depths in all surface directions of the hold-down guide are different from each other.

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