KR102386170B1 - Pipe rack structure with earthquake-proof and vibration-proof function - Google Patents

Abstract

The present invention provides a pipe rack structure with an earthquake-proof and vibration-proof function. The pipe rack structure with an earthquake-proof and vibration-proof function includes: a plurality of vertical frames (110) formed to be spaced at fixed intervals in front and rear directions; a plurality of horizontal frames (120) formed in a longitudinal direction and a width direction of the plurality of vertical frames (110); a rail (130) formed on one side of the lower part of the horizontal frame (120) in the longitudinal direction of the pipe rack structure; a first transfer unit (140) for transferring a pipe (A) to a predetermined position while moving along the rail (13) forwards and backwards; a moving unit (150) formed to move along the horizontal frame (120) formed in the width direction of the pipe rack structure; a second transfer unit (160) mounted on the lower part of the moving unit (150) to transfer the pipe (A) to the predetermined position; and a vibration-proof pad (170) formed at a connection part of the vertical frame (110) and the horizontal frame (120). According to the present invention, the pipe rack structure can prevent an accident by obtaining the earthquake-proof and vibration-proof function against an external force generated due to an earthquake or a typhoon. Moreover, the pipe rack structure with an earthquake-proof and vibration-proof function can improve installation efficiency by enabling a user to smoothly transfer the pipe between the narrow pipe rack structures without additional large heavy equipment. Specifically, the pipe rack structure with an earthquake-proof and vibration-proof function can reduce construction periods and improve work efficiency by guiding a plurality of pipes to an accurate position and an accurate direction for welding or connecting the pipes.

Description

Pipe rack structure with earthquake-proof and vibration-proof function

The present invention relates to a pipe rack structure having an earthquake-resistant and vibration-proof function, and more particularly, to maximize installation efficiency by safely transporting a pipe to a designated location as well as an earthquake-proof and vibration-proof function corresponding to an external force such as earthquake or vibration. It relates to a pipe rack structure having an earthquake-proof and vibration-proof function.

In general, a pipe rack structure supports and fixes a pipe for supplying various fluids such as gas and steam in a steel mill or a chemical plant, etc. as shown in FIG. 1 .

The pipe rack structure 10 includes a plurality of vertical frames 11 formed to be spaced apart from each other at predetermined intervals in the front-rear direction as shown in FIG. 2 ; After seating and fixing the plurality of pipes (A) on the upper side of the horizontal frame (12) including; including; connected to each other in the longitudinal direction.

However, in the prior art, when a strong external force occurs due to a natural disaster such as an earthquake or typhoon, the pipe rack structure that transports crude oil, chemical materials, gas, etc. is easily damaged (cracked) or collapsed, resulting in large-scale accidents such as environmental pollution and fire. got a problem

In addition, in the case of a factory area, frequent vibrations occur, which has a problem of shortening the pipe's damage and durability.

In particular, in order to connect a plurality of pipes to each other in the longitudinal direction, the position is controlled using large heavy equipment, but it is difficult to enter and move between the narrow pipe rack structures, so the installation efficiency is extremely limited.

In addition, in the process of welding or joining a plurality of pipes to each other, the exact position and direction cannot be easily adjusted, so there is a problem of delaying the construction period.

Korean Patent Publication No. 10-2014-0107159 (2014.09.04.) Korean Patent Publication No. 10-1440559 (2014.09.17.) Korean Patent Publication No. 10-2016-0108750 (2016.09.20.) Korean Patent Publication No. 10-2209129 (2021.01.27.)

Therefore, the present invention has been devised to solve the conventional problems as described above,

An object of the present invention is to provide a pipe rack structure having an earthquake-resistant and vibration-proof function capable of withstanding external forces such as earthquakes or strong winds and vibrations.

In particular, it is another object of the present invention to provide a pipe rack structure having an earthquake-resistant and vibration-proof function capable of smoothly transferring a plurality of pipes to a coupling position.

In addition, another object of the present invention is to provide a pipe rack structure having an earthquake-resistant and vibration-proof function capable of smoothly transporting pipes in the horizontal and vertical directions.

The present invention for achieving the above object is a pipe rack structure 100 having an earthquake-resistant and vibration-proof function,

A plurality of vertical frames formed to be spaced apart in the front and rear direction (110); a plurality of horizontal frames 120 formed in the width and length directions of the plurality of vertical frames 110; Rail 130 formed along the longitudinal direction of the pipe rack structure on one side of the lower side of the horizontal frame 120; a transfer means 140 for transferring the pipe (A) to a designated position while moving in the front-rear direction along the rail 130; a moving unit 150 formed to be movable along the horizontal frame 120 formed in the width direction of the pipe rack structure; a transfer unit 160 mounted on the lower portion of the moving unit 150 to transfer the pipe A to a designated position; and a vibration-proof pad 170 formed at a coupling portion of the vertical frame 110 and the horizontal frame 120 .

Here, a protective cover 111 formed at the lower end of the vertical frame 110; a pedestal 112 installed to contact the ground; and a dust-proof pad 170 formed between the protective cover 111 and the pedestal 112.

In addition, the mobile unit 150 is provided with an insertion groove 151 so as to insert the lower outer side of the horizontal frame 120 on the inside, and abuts against the lower upper surface of the horizontal frame 120 at the upper portion. A pair of coupling bodies 153 to form a support 152 to be able to; a fastening member 154 forming a pair of the coupling bodies 153 to be coupled or separated from each other; a mounting hole 155 for mounting the transfer means 160 on a lower portion of the pair of coupling bodies 153; and a rotation shaft 156 that connects between the pair of the coupling body 153 and the mounting hole 155 so that the mounting hole 155 can rotate in the front-rear direction.

In this case, the lower portion of the support portion 152 includes a supporter (152a) formed to minimize friction that may occur when moving in a state in contact with the lower upper surface of the horizontal frame 120 .

In particular, it is located in the lower inner portion of the insertion groove 151 and comes into contact with the surface of the horizontal frame 120 to adjust the speed at which the moving unit 150 moves along the horizontal frame 120 to control the speed. Goo (157); The surface of the horizontal frame 120 by screwing to one side of the lower side of the coupling body 153 and coupling the speed control member 157 to the upper portion to move the speed control member 157 in the vertical direction according to the rotational direction. It is characterized in that it includes a; and a control member 158 that is formed to be in contact with the pressure can be adjusted.

The present invention has the effect of preventing safety accidents by securing earthquake-resistant and anti-vibration functions against external forces generated by earthquakes or typhoons.

In addition, the present invention has the effect of improving the installation efficiency by smoothly transferring the pipe between the narrow pipe rack structures without using a separate large heavy equipment.

In particular, the present invention has the effect of not only improving work efficiency but also shortening the construction period by guiding a plurality of pipes to the correct position and direction for welding or bonding to each other.

1 is a reference photograph showing the configuration of a general pipe rack structure.
2 is a front view showing the configuration of a general pipe rack structure.
3 is a front view showing the configuration of a pipe rack structure having an earthquake-proof and vibration-proof function of the present invention.
Figure 4 is a side view for showing an embodiment of the mobile unit in the present invention.
Figure 5 is a side view for showing another embodiment of the mobile unit in the present invention.
6 is a reference view for showing the operating state of the pipe rack structure having an earthquake-proof and vibration-proof function of the present invention.

The structure for achieving the object of the present invention as described above will be described in more detail with reference to the accompanying drawings.

Figure 3 is a front view for showing the configuration of the pipe rack structure having an earthquake-proof and vibration-proof function of the present invention, Figure 4 is a side view for showing an embodiment of the mobile unit in the present invention, Figure 5 is the mobile unit in the present invention It is a side view for showing another embodiment, and FIG. 6 is a reference view for showing the operating state of the pipe rack structure having an earthquake-proof and vibration-proof function of the present invention.

The present invention is a plurality of vertical frames formed to be spaced apart in the front and rear direction (110); a plurality of horizontal frames 120 formed in the width and length directions of the plurality of vertical frames 110; Rail 130 formed along the longitudinal direction of the pipe rack structure on one lower side of the horizontal frame 120; a transfer means 140 for transferring the pipe (A) to a designated position while moving in the front-rear direction along the rail 130; a moving unit 150 formed to be movable along the horizontal frame 120 formed in the width direction of the pipe rack structure; a transfer unit 160 mounted on the lower portion of the moving unit 150 to transfer the pipe A to a designated position; It includes;

In particular, the vertical frame 110 and the horizontal frame 120 are connected to each other to form an overall box shape.

In addition, a protective cover 111 formed at the lower end of the vertical frame (110); a pedestal 112 installed to contact the ground; It is possible to minimize frequent vibrations transmitted to the ground, such as in a factory area, by including; a vibration-proof pad 170 formed between the protective cover 111 and the pedestal 112 .

In particular, the protective cover 111 is in close contact with the upper surface of the anti-vibration pad 170 to block external collisions and foreign substances, and the pedestal 112 is a lower portion of the anti-vibration pad 170 while maintaining a flat state on the ground. It can adhere to the surface.

At this time, the protective cover 111 and the pedestal 112 are fixed to the ground through one side using an anchor bolt or the like.

On the other hand, the rail 130 is formed in the longitudinal direction of the pipe rack structure, so that the transport means 140 can smoothly transport the pipe (A) in the front-rear direction.

At this time, the rail 130 may be formed to have various shapes and configurations, as well as a shape steel such as an I-beam or an H-beam, so that the conveying means 140 can move.

In the present invention, the transport means 140 and 160 may use a chain block or a hoist to transport the pipe A, which is a heavy object.

In addition, the moving unit 150 is formed in the width direction of the pipe rack structure so that the transfer means 160 can smoothly transfer the pipe (A) in the left and right directions.

Here, as shown in FIG. 4 , the moving unit 150 has an insertion groove 151 inside to insert the lower outer side of the horizontal frame 120 , and the lower upper part of the horizontal frame 120 at the upper part. A pair of coupling bodies 153 forming a support portion 152 to be supported in contact with the surface; a fastening member 154 forming a pair of the coupling bodies 153 to be coupled or separated from each other; a mounting hole 155 for mounting the transfer means 160 on a lower portion of the pair of coupling bodies 153; and a rotation shaft 156 that connects between the pair of the coupling body 153 and the mounting hole 155 so that the mounting hole 155 can rotate in the front-rear direction.

At this time, the coupling body 153 may be formed as a pair to be coupled to and separated from both sides of the lower side of the horizontal frame 120 , and may move along the lower surface of the horizontal frame 120 .

In particular, the insertion groove 151 is formed to have a predetermined width and length for inserting the lower outer side of the horizontal frame 120 .

In addition, the support part 152 may support the load of the transport unit 160 and the pipe A while moving in a state in contact with the lower upper surface of the horizontal frame 120 .

At this time, in the lower part of the support part 152, in order to minimize friction that may occur when moving while in contact with the lower upper surface of the horizontal frame 120, a support ball formed of a synthetic resin material containing a lubricating component such as MC or PE ( 152a); may include.

5, the speed at which the moving unit 150 moves along the horizontal frame 120 in contact with the surface of the horizontal frame 120 located at the lower inner side of the insertion groove 151 as shown in FIG. A speed control member 157 to be formed to control the; The surface of the horizontal frame 120 by screwing to one side of the lower side of the coupling body 153 and coupling the speed control member 157 to the upper portion to move the speed control member 157 in the vertical direction according to the rotational direction. It may include; a control member 158 formed to be in contact with the pressure to adjust the pressure.

That is, the operator rotates the adjusting member 158 to adjust the pressure in contact with the lower surface of the horizontal frame 120 while the speed adjusting member 157 moves in the vertical direction to adjust the pressure of the moving unit 150 and the transfer means. (160) It is possible to adjust the moving speed.

Here, the speed control member 157 is formed of a synthetic resin material, and the control member 158 can move the speed control member 157 in the vertical direction according to the rotation direction by using a bolt or the like.

In the present invention, the fastening member 154 serves to couple or separate a pair of the coupling bodies 153 on both lower sides of the horizontal frame 120 .

In this case, the fastening member 154 may use a bolt, a nut, or a pin.

On the other hand, the mounting hole 155 may be formed in various shapes, such as a ring, so that the transfer means 160 can be mounted on the lower portion.

In addition, the rotation shaft 156 induces the mounting tool 155 to rotate in the front-rear direction to adjust the position of the transfer means 160 so that the pipe A can be smoothly coupled.

Here, the rotation shaft 156 may use a shaft, a pin, etc., as well as a bolt and a nut.

In addition, the anti-vibration pad 170 is formed in the coupling portion of the vertical frame 110 and the horizontal frame 120 and the lower portion of the vertical frame 110 and the ground in contact with the external force generated by an earthquake or typhoon. Seismic resistance can be secured.

In addition, the anti-vibration pad 170 is formed of high-density urethane or rubber material, etc., and has excellent durability and elasticity, so that it is possible to secure earthquake-resistance and vibration-proof function.

Therefore, the present invention can stably couple the pipe (A) to a designated position by moving and operating the transfer means (140, 160) in the longitudinal and width directions of the pipe rack structure as shown in FIG. It is possible to secure the earthquake-proof and vibration-proof function against the external force generated by the

As described above, the embodiment of the present invention has been described in detail, but the scope of the present invention is not limited thereto, and it is natural that the present invention is included in the scope of the present invention to a configuration substantially equivalent to the embodiment of the present invention. Do.

10: pipe rack structure
11: vertical frame 12: horizontal frame
100: pipe rack structure having an earthquake-proof and vibration-proof function of the present invention
110: vertical frame 120: horizontal frame
130: rail 140: transport means
150: mobile unit 151: insertion groove
152: support 152a: support
153: coupling body 154: fastening member
155: mounting hole 156: rotation shaft
157: speed control member 158: control member
160: transport means
170: anti-vibration pad
A: pipe

Claims (5)

A plurality of vertical frames formed to be spaced apart in the front and rear direction (110); a plurality of horizontal frames 120 formed in the width and length directions of the plurality of vertical frames 110; Rail 130 formed along the longitudinal direction of the pipe rack structure on one side of the lower side of the horizontal frame 120; a transfer means 140 for transferring the pipe (A) to a designated position while moving in the front-rear direction along the rail 130; a moving unit 150 formed to be movable along the horizontal frame 120 formed in the width direction of the pipe rack structure; a transfer unit 160 mounted on the lower portion of the moving unit 150 to transfer the pipe A to a designated position; A pipe rack structure having an earthquake-resistant and vibration-proof function, characterized in that it includes; a vibration-proof pad (170) formed in the coupling portion of the vertical frame (110) and the horizontal frame (120). The method according to claim 1, A protective cover (111) formed at the lower end of the vertical frame (110); a pedestal 112 installed to contact the ground; A pipe rack structure having an earthquake-resistant and dust-proof function, characterized in that it includes; a vibration-proof pad 170 formed between the protective cover 111 and the pedestal 112. The method according to claim 1, wherein the mobile unit 150 is provided with an insertion groove (151) to insert the lower outer side of the horizontal frame (120) on the inside, the upper portion to fit the lower upper surface of the horizontal frame (120) A pair of coupling bodies 153 forming a support portion 152 to be touched and supported; a fastening member 154 forming a pair of the coupling bodies 153 to be coupled or separated from each other; a mounting hole 155 for mounting the transfer means 160 on a lower portion of the pair of coupling bodies 153; Seismic and A pipe rack structure with a vibration-proof function. The method according to claim 3, The lower portion of the support 152, the horizontal frame (120) in a state of contact with the upper surface of the lower support (152a) formed so as to minimize friction that may occur when moving; A pipe rack structure having an earthquake-proof and vibration-proof function. The method according to claim 3, so that it is located in the lower inner side of the insertion groove (151) to be in contact with the surface of the horizontal frame (120) to adjust the speed at which the moving unit (150) moves along the horizontal frame (120) Forming a speed control sphere (157); The surface of the horizontal frame 120 by screwing to one side of the lower side of the coupling body 153 and coupling the speed control member 157 to the upper portion to move the speed control member 157 in the vertical direction according to the rotational direction. A pipe rack structure having an earthquake-resistant and vibration-proof function comprising a; a control member 158 that is in contact with and is formed to control the pressure.

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