KR102027164B1 - The vertical direction of the GRP pipe restraint devices - Google Patents

Abstract

The present invention relates to a vertical restraint device of a vertically installed GRE pipe, and more particularly, to have a restraint force in the vertical direction generated by the vertically installed GRE pipe according to seawater transport.
In the restraint device for restraining the fluidity generated in the vertical direction due to the momentary force generated by the opening of the valve to the GRE pipe installed in the vertical direction to transfer the sea water, the restraining device is attached to a fixed frame installed around the GRE pipe A fixed mounting frame; A flow member having one side coupled to the GRE pipe and having fluidity in a vertical direction without left and right flowability; A constraining member coupled to one surface of the flow member and fixed on the mounting frame to constrain fluidity in the vertical direction of the flow member; It relates to a vertical restraint device of the GRE pipe comprising a.

Description

The vertical direction of the GRP pipe restraint devices}

The present invention relates to a vertical restraint device of a vertically installed GRE pipe, and more particularly, to a restraint force in a vertical direction generated by a vertically installed GRE pipe according to seawater transfer. It relates to a vertical restraint device.

In general, various marine facilities, such as ships or offshore plants, are used for transporting seawater for the purpose required. In order to transport such seawater, the seawater is transported through a common pipeline, and is usually connected to the pipeline. Phosphorus pipes were connected to metal pipes to transfer seawater.

However, due to the nature of the seawater to be transported, the metal pipe has a problem in that corrosion occurs in a short time, a huge cost due to frequent replacement work, as well as additional costs due to maintenance.

In order to solve this problem, glass fiber reinforced epoxy (GRE) pipes are used as pipes used to transfer seawater to marine facilities, such as ships or offshore plants. Due to this very high situation, all the pipes that transport seawater are being applied.

In addition, in the case of the GRE pipe, due to the characteristics of the material, a slight shrinkage and expansion occurs according to the temperature of the seawater or the climatic conditions, and in particular, a support for catching the momentary force generated when the valve is opened to transfer the seawater is installed. do.

In other words, the flange 112 of the GER pipe 110 installed in the horizontal direction as shown in FIG. 4 is in close contact with the GRE pipe 110 on both sides starting from the combined portion of the flange 112. The support unit 102 which is fastened by the flange 112 and the support device 100 which is a supporter which consists of the base 104 of a bridge form under the support unit 102 is provided.

At this time, the support device as the supporter is a G / Z (GUIDE & Z-axis limiter) type having a vertical load and a vertical flow with respect to the force generated instantaneously according to the valve opening, that is, G is sliding in the direction in which the pipe flows. Z is to support up and down load direction, ie vertical load.

As a result, the vertical load generated in the GRE pipe 110 installed in the horizontal direction and the fluidity in the left and right directions, that is, the instantaneous force generated by opening the valve to transfer seawater, that is, the fluidity in the left and right and the downward With respect to the vertical load generated, it could be easily supported by the conventional support device composed of the support unit and the pedestal described above.

Meanwhile, in the case of the GRE pipe installed in the vertical direction, the fluidity and the vertical load are applied due to the up and down sliding in the vertical direction, as in the GRE pipe installed in the horizontal direction. It did not have a means to have a binding force in the vertical direction.

The present invention has been made to solve the above-mentioned conventional problems, the main object of the GRE pipe to be able to have a constraint on the fluidity in the vertical direction generated by the GRE pipe installed in the vertical direction in accordance with seawater transport It is to provide a vertical restraint device.

Another object of the present invention is to enable smooth sliding as well as restraint force at a predetermined position with respect to the fluidity in the vertical direction.

The present invention for solving the above technical problem, in the restraint device for restraining the fluidity generated in the vertical direction due to the momentary force generated by the valve opening to the GRE pipe installed in the vertical direction to transfer the sea water, The restraint device includes: a mounting frame fixed to a fixed frame installed around the GRE pipe; A flow member having one side coupled to the GRE pipe and having fluidity in a vertical direction without left and right flowability; A constraining member coupled to one surface of the flow member and fixed on the mounting frame to constrain fluidity in the vertical direction of the flow member; It is characterized by including.

The mounting frame is characterized in that it is composed of a fixed member fixed to the fixed frame and a vertical plate on which the restraining member is fixed to one side of the fixed member.

The flow member is formed with a curved surface corresponding to the outer periphery of the GRE pipe and the support plate formed with a plurality of fastening holes fastened to the flange while supporting the bottom surface of the flange of the GRE pipe and the curved plate formed with It is formed on the opposite surface is coupled to the vertical plate coupled to the restraining member, characterized in that consisting of a connecting plate for connecting and fixing the vertical plate and the fastening plate.

The restraining member may include a fixing plate fixed to a vertical plate member, an insertion groove into which both ends of the vertical plate are inserted at both front sides of the fixing plate to guide the vertical plate to slide up and down, and the fixing plate of the fixing plate. It characterized in that the upper and lower portion consists of an intermittent plate to control the fluidity in the vertical direction of the vertical plate.

The guide plate is characterized in that at least one formed up, down.

Between the guide plate and the intermittent plate is characterized in that the flow member is formed to be spaced apart to have the fluidity in the vertical direction.

The present invention can be restrained against the flow in the vertical direction generated by the GRE pipe installed in the vertical direction in accordance with the seawater transfer, thereby ensuring safety against instantaneous force generated by the GRE pipe installed in the vertical direction in accordance with the seawater transfer. In addition to increasing the reliability and reliability, it has the effect of ensuring a long service life.

In addition, the smooth sliding with respect to the fluidity in the vertical direction as well as the restraining force at a predetermined position can be easily made, thereby canceling a part of the moment generated by the sliding to have a restraining force to vertically due to the high restraining force It has an effect that can have even greater bearing capacity even under load.

1 is a bottom perspective view of the main portion schematically showing the present invention.
2a and 2b show schematic front and side views of the main part according to FIG. 1;
3 is a main view schematically showing a state of use of the present invention.
Figure 4 is a main view showing a conventional support of the GRE pipe installed in the horizontal direction.

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

1 is a bottom perspective view schematically showing a main part of the present invention, FIGS. 2A and 2B are schematic front and side views of a main part according to FIG. 1, and FIG. 3 is a main view schematically showing a use state of the present invention.

In the restraint device (1) for restraining the fluidity generated in the vertical direction due to the instantaneous force generated by the valve opening to the GRE pipe 110 installed in the vertical direction to transfer the sea water as shown,

The present invention, in order to be able to have a binding force against the fluidity in the vertical direction generated by the GRE pipe installed in the vertical direction according to the sea water transfer,

The restraint device 1 includes: a mounting frame 10 fixed to a conventional fixing frame 200 installed around the GRE pipe 110 by a conventional welding or bolting method;

A flow member (20) having one side coupled to the GRE pipe (110) and having fluidity in a vertical direction without left and right fluidity due to momentary force generated by the valve opening;

One surface of the flow member 20 is coupled and fixed on the mounting frame 10 to restrain the fluidity in the vertical direction of the flow member 20, that is to move up and down while sliding up and down Constraining member 30 having a high bearing force against the vertical load according to; It is shown to include.

Accordingly, the GRE pipe (by the restraining member 30 fixed to the mounting frame 10 with respect to the fluidity in the vertical direction by the momentary force generated when opening the valve according to the sea water transfer to the vertically installed GRE pipe 110 ( 110 has a high bearing capacity for the vertical load generated up and down with fluidity, that is, natural sliding of up and down in the vertical direction of the flow member 20 is fastened and fixed.

In other words, while restraining a part of the force generated instantaneously while naturally sliding up and down with respect to the momentarily generated fluidity, the restraining member 30 at the time when the flow member 20 is in contact with the restraining member 30. By constraining the fluidity of the up and down by, it will have a high bearing capacity for the vertical load at the time of restraint.

Therefore, it has a certain flow width in the vertical direction and at the same time has a condition to prevent the safety and deformation or breakage of the vertically installed GRE pipe due to the bearing capacity for vertical load.

The mounting frame 10, the fixing member 12 is fixed to the fixing frame 200 by welding or bolting, which is a conventional manner, and the restraining member 30 on one side of the fixing member 12 is conventional It is preferable that it consists of the vertical board | plate material 14 fixed by phosphorus welding, bolting, etc.

The flow member 20 has a curved surface 21 corresponding to the outer circumference of the GRE pipe 110 is formed and is fastened to the flange 112 while supporting the bottom surface of the flange 112 of the GRE pipe 110. A fastening plate 24 having a plurality of fastening holes 22 formed therein, and a vertical plate 25 formed at an opposite surface of the fastening plate 24 having the curved surface 21 coupled to the restraining member 30; , It is preferable that the vertical plate 25 and the coupling plate 24 is composed of a connection plate 26 for fixing.

The restraining member 30 has a fixing plate 32 fixed to the vertical plate member 14 and insertion grooves 34a into which both ends of the vertical plate 25 are inserted at both front sides of the fixing plate 32. A guide plate 34 for guiding the vertical plate 25 to slide up and down, and an intermittent plate 36 for intermittent fluidity in the vertical direction of the vertical plate 25 on the upper and lower portions of the fixing plate 32. It is preferable that it consists of). At this time, the guide plate 34 is formed in the form of at least one stacked up and down.

Accordingly, the restraining member is a vertical plate of the flow member is to have a flow up and down on the insertion groove of the guide plate, even if the flow up and down, the intermittent plate is formed so that no longer flow by the intermittent plate formed on the upper and lower In the intermittent time, the bearing capacity will be held against the vertical load generated by the valve opening.

Between the guide plate 34 and the intermittent plate 36, the flow member 20 is spaced apart from each other so that the flow member 20 can be slid up and down by a moment generated by the moment of opening the valve. It is preferred to be formed.

That is, as the flow member is slid up and down to some extent between the restraining members with respect to the large force generated instantaneously, it serves as a role of offsetting a certain force.

Then, as the intermittent fluidity in the vertical direction is interrupted by the intermittent plate of the restraining member, it has a condition that can have even higher bearing capacity.

Thus, the present invention is to ensure the safety of the GRE pipe installed in the vertical direction by restraining the fluidity with the sliding up and down in the vertical direction by the moment generated by the moment generated by the valve opening to the vertically installed GRE pipe. It has a condition that can ensure the reliability.

1: restraining device
10: mounting frame 12: fixing member
14: vertical panel 20: flow member
21: curved surface 22: fastening hole
24: fastening plate 25: vertical plate
30: restraining member 32: fixed plate
34: guide plate 34a: insertion groove
36: intermittent plate 110: GRE pipe
112: flange 200: fixed frame

Claims (6)

In the restraint device (1) for restraining the fluidity generated in the vertical direction due to the momentary force generated by the valve opening to the GRE pipe 110 installed in the vertical direction to transfer the sea water,
The restraint device 1 includes: a mounting frame 10 fixed to a fixed frame 200 installed around the GRE pipe 110;
A flow member 20 having one side coupled to the GRE pipe 110 and having fluidity in a vertical direction without left and right fluidity;
One side of the flow member 20 is coupled to the restraining member 30 is fixed on the mounting frame 10 to restrain the fluidity in the vertical direction of the flow member (20); Including,
The mounting frame 10 is composed of a fixing member 12 fixed to the fixing frame 200 and a vertical plate 14 on which the restraining member 30 is fixed to one side of the fixing member 12. Vertical restraint device of the GRE pipe, characterized in that. delete The method of claim 1,
The flow member 20 has a curved surface 21 corresponding to the outer circumference of the GRE pipe 110 is formed and is fastened to the flange 112 while supporting the bottom surface of the flange 112 of the GRE pipe 110. A fastening plate 24 having a plurality of fastening holes 22 formed therein, and a vertical plate 25 formed at an opposite surface of the fastening plate 24 having the curved surface 21 coupled to the restraining member 30; And a vertical plate 25 and a connecting plate 26 configured to connect and fix the fastening plate 24 to each other. The method of claim 3,
The restraining member 30 has a fixing plate 32 fixed to the vertical plate member 14 and insertion grooves 34a into which both ends of the vertical plate 25 are inserted at both front sides of the fixing plate 32. A guide plate 34 for guiding the vertical plate 25 to slide up and down, and an intermittent plate 36 for intermittent fluidity in the vertical direction of the vertical plate 25 on the upper and lower portions of the fixing plate 32. Vertical constraining device of the GRE pipe, characterized in that consisting of. The method of claim 4, wherein
The guide plate 34 is a vertical restraint device of the GRE pipe, characterized in that formed at least one up, down. The method of claim 4, wherein
Vertical guide restraint device of the GRE pipe, characterized in that the space between the guide plate 34 and the intermittent plate 36 is formed so as to have a flow in the vertical direction.

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