KR101074569B1 - Pipe Support Load Evaluation Device and Method - Google Patents

Abstract

Numerous pipelines are installed in power plants and heavy chemical plants. When evaluating the integrity of pipelines, the stresses and strains acting on piping element elements are indicators of structural integrity. These stresses and strains are determined by the loads acting on the piping element elements, which are represented by the loads acting on the pipe support.
These pipelines consist of a number of pipe support devices. Piping support is largely divided into Spring Hanger, Constant Hanger, Rigid Hanger, and Piping Support, and is a method for evaluating the load applied to the piping support. As a result, load measuring methods have been developed for spring-based support devices such as spring hangers and constant hangers, but pipe measuring methods have not been developed. It was an obstacle to assessing the health of the line.
Accordingly, in the present invention, in order to measure the load acting on the pipe support supporting the pipeline, a load-displacement diagram is drawn while measuring the displacement and the load at that time while slightly lifting the pipe supported by the pipe support. The inventors have invented the necessary equipment to apply the method of estimating the load by evaluating the discontinuity line of the load-displacement curve, and develop the method of evaluating the load of the pipe support using the invented equipment.
For this purpose, when measuring the baby's weight, wrap the baby on a cloth and wrap the pipe on the scale so as to measure the weight of the pipe. It is intended that the method of measurement be applied to the present invention.
Accordingly, in the present invention, a pressurization device capable of knowing a load applied by a lifting rope by means such as a crepe which gently lifts a pipe seated on a pipe support and a means by which the crepe is suspended on a scale. ), We developed a method to measure the amount of pipe lifting and the load at the time of lifting the crepe.

Description

Pipe Support Load Evaluation Device and Method

This technique is a technique in the field of measuring the load of a rigid hanger and a pipe support of a pipe support apparatus.

Conventionally, the load measurement was possible for pipe support devices or springs using similar springs, such as spring hangers and constant hangers, but the load can be measured for rigid hangers in the form of pipe supports and pipe supports. The method has not been developed.

In the meantime, since there was a floor saddle on the foundation frame and a method for lifting the pipe on the floor saddle was not developed, it was impossible to measure the pipe weight at the pipe support, that is, the pipe support load. The present invention seeks to develop an apparatus and a method for measuring the load and the change in the length of the pipe lifting while lifting the pipe including the floor saddle.

Accordingly, in the present invention, in order to measure the load acting on the pipe support supporting the pipeline, a load-displacement diagram is drawn while measuring the displacement and the load at that time while slightly lifting the pipe supported by the pipe support. The inventors have invented the necessary equipment to apply the method of estimating the load by evaluating the discontinuity line of the load-displacement curve, and develop the method of evaluating the load of the pipe support using the invented equipment.

   For this purpose, when measuring the baby's weight, wrap the baby on a cloth and wrap the pipe on the scale so as to measure the weight of the pipe. It is intended that the method of measurement be applied to the present invention.

  Accordingly, in the present invention, a pressurization device capable of knowing a load applied by a lifting rope by means such as a crepe which gently lifts a pipe seated on a pipe support and a means by which the crepe is suspended on a scale. ), We developed a method to measure the amount of pipe lifting and the load at the time of lifting the crepe.

According to the present invention, a pressurization device capable of knowing the load applied by a lifting rope by means such as a crepe which gently lifts a pipe seated on a pipe support, and a means of hanging the crepe on a scale. To develop a method to measure the amount of pipe lifting and load at the time of lifting the crepe, and to measure the load acting on the pipe support including the rigid hanger to evaluate the health of the conventional pipeline. The use of precisely metered data, instead of estimating the load on the pipe support, contributed significantly to the development of pipeline health assessment techniques and the prevention of pipeline accidents.

1 is an example of a pipe support to which the present invention is applied
2 is an embodiment of a pipe support load measuring apparatus according to the present invention
3 is an exploded view of a pipe support load measuring apparatus according to the present invention
Figure 4 is an embodiment of the lifting rope according to the present invention
5 is an embodiment of the load measurement of the rigid hanger according to the present invention
6 is an explanatory diagram of a method for evaluating a load-length diagram according to the present invention.

Numerous pipe lines are installed in power plants and heavy chemical plants, which consist of a number of pipe support devices. Pipe support devices are largely divided into Spring Hanger, Constant Hanger, Rigid Hanger, and Pipe Support.

As shown in FIG. 1, the pipe support is supported by a conventional floor saddle (30, Saddle, meaning that the pipe bottom is supported like a horse saddle) as shown in FIG. The base frame (20, 礎, which means the skeletal structure of the foundation) using structural materials such as (H-Beam) is made into a structure that is fixed to the ground or building. Another type of support is shown in (1) of FIG. 5 and (2) of [5], in which case a pipe clamp corresponding to a floor saddle expressing a conventional pipe in the present invention. ) And the hanger rod (RD, Hanger Rod) is connected between the pipe clamp and the base frame (20).

When evaluating the integrity of a pipeline, stresses and strains acting on the piping element are indicators of structural integrity. These stresses and strains are determined by the loads acting on the piping element elements, which are represented by the loads acting on the pipe support.

As a method for evaluating the load acting on the pipe support device, a load measuring method has been developed for a spring-based support device such as a spring hanger and a constant hanger. As for the pipe support of the type mounted on the floor saddle and similar rigid hangers, the load measuring method has not been developed, which has been an obstacle in evaluating the health of the pipeline.

  Accordingly, in the present invention, in order to measure the load acting on the pipe support supporting the pipeline, a load-displacement diagram is drawn while measuring the displacement and the load at that time while slightly lifting the pipe supported by the pipe support. The inventors have invented the necessary equipment to apply the method of estimating the load by evaluating the discontinuity line of the load-displacement curve, and develop the method of evaluating the load of the pipe support using the invented equipment.

For this purpose, when measuring the baby's weight, wrap the baby on a cloth and wrap the pipe on the scale so as to measure the weight of the pipe. It is intended that the method of measurement be applied to the present invention.

Accordingly, in the present invention, a pressurization device capable of knowing a load applied by a lifting rope by means such as a crepe which gently lifts a pipe seated on a pipe support and a means by which the crepe is suspended on a scale. ), We developed a method to measure the amount of pipe lifting and the load at the time of lifting the crepe.

The present invention

  The pipe (10) is intended for a pipe support consisting of a basic pipe (10) and a foundation frame (20), which is a common structural material such as a floor saddle (30, saddle) and a H-Beam. To lift the bottom saddle 30 which supports the

  Two chain-shaped hooks 53 having connectors SP at both ends are disposed on the front side and the rear side of the bottom saddle 30, except for sections corresponding to the bottom saddle 30. Lifting both ends of the triangular member (CR), which is a conventional rod-shaped structural member, over the entire length in a triangle shape on the two chain hooks (53) to wrap the bottom saddle (30) like a baby crepe. Rope,

  As a conventional rod, the lifting bar 54 to which both ends of the connector SP and the ends of the two chain-shaped hooks 53 are fastened,

  As a means for applying a load as a normal hydraulic cylinder, the bottom of the pressurizing device 52, in which the load applied at the same time is indicated, is placed on the left and right bottom surfaces of the base frame 20, and the left and right lifting Contact the pressing plate of the pressing device 52 to the center of the rod 54,

  With a length measurer 51 that can measure the height change of the bottom saddle,

  The lifting rope hangs on the lifting rod 54 while serving as a crepe to wrap the bottom saddle 30 and the pipe 10, and the lifting rod 54 is placed on the foundation frame 20. On the pressing plate 52, the length change of the pressing device causes a change in the height of the pipe 10,

The load measurement of the support which can measure the load applied to the pipe support from the non-linear characteristics of the load-length diagram by evaluating the length change of the length measurer 51 while adjusting the load applied to the pressurizing device 52. It relates to an apparatus and a measuring method.

  Two chain-shaped hooks 53 having connectors SP at both ends are disposed on the front side and the rear side of the bottom saddle 30, except for sections corresponding to the bottom saddle 30. Lifting both ends of the triangular member (CR), which is a conventional rod-shaped structural member, over the entire length in a triangle shape on the two chain hooks (53) to wrap the bottom saddle (30) like a baby crepe. One rope is illustrated in FIG. 4.

  Chain hook 53 is a string using a conventional chain, as illustrated in (1) of [Fig. 3] by cutting pieces of structural rods that can withstand strong loads like a chain and connecting them to the axial center line of the string ( It is a structure that allows the 中 中心線 to bend. This does not necessarily mean a chain, but a conventional rope can be used. At both ends of the chain-shaped hanger, short pipes cut shortly as shown in (1) of FIG. 6 so that ordinary rods can be inserted at right angles to the axial direction of the chain. As shown in (1) of FIG. 6, the connector SP integrated with the welding, pressure welding, screw fastening, etc. is provided. This connector should be easy to assemble with the lifting bar 54, but after assembly, there should be no large gap between the lifting bar and the inserted lifting bar to securely hold both ends of the lifting bar.

The triangular member CR is made to be fastened by drilling or threading both ends of a general rod-shaped structural material, and screws or holes such that both ends of the triangular member can be fastened to the middle of the chain hanger. Triangular truss (Truss) even when a large force is applied to the chain hanger by fastening as shown in FIG. 4 so as to form a horizontal member and a hypotenuse of a triangle on the chain hanger arranged in parallel with a conventional fastening mechanism. It is a member for maintaining the structure so that the rigidity of the structure is largely maintained.

  As a conventional rod, the lifting rod 54 to which both ends of the connector SP and the two ends of the two chain-shaped hooks 53 are fastened, as shown in (1) of FIG. A pressure plate seat, a stopper ST, and a stator NT are provided to form a horizontal portion corresponding to the end of a piston such as a hydraulic cylinder at the end of the lifting rope.

  As shown in FIG. 6, the lifting rod 54 has a support shaft made of a general round bar or a hollow structural pipe, screws both ends thereof, and a nut corresponding to the screw 4 is used. With two dogs, the two nuts are normally filled as shown in (1) of FIG. 6 and moved to the center direction. Then, simply do tag welding or not at all on the support shaft to prevent the support shaft and the nut from moving. It is provided with a stopper (ST, meaning that it can no longer be moved in the axial direction) by lathe machining as the round bar having a large diameter is integrated. Insert the connector (SP) of the chain-shaped hook (53) into the threaded portions on both ends of the support shaft, and if the stator (NT), which is a fastening mechanism such as another nut, to press the connector (SP), the connector is [Fig. As shown in (2) of 6], it is possible to rotate on the lifting bar but not to move in the axial direction.

At the central portion of the lifting rod 54 in the axial direction, one end of the pressurizing device 52 is formed so that a flat surface can be seated and is not slipped. It has protrusions protruding from the surface. Therefore, the pressure plate seat means the flat portion of the support shaft and the present protrusion.

As a means for applying a load as a normal hydraulic cylinder, the bottom of the pressurizing device 52, in which the load applied at the same time is indicated, is placed on the left and right bottom surfaces of the base frame 20, and the left and right lifting The method of contacting the pressing plate of the pressing device 52 to the center of the rod 54 can be carried out as follows.

  The pressurizing device 52 according to the present invention is a system that can be evaluated as a load acting by multiplying the hydraulic pressure applied to the cross-sectional area of the hydraulic piston by having a hydraulic device including a conventional hydraulic cylinder, a hydraulic pipe, a hydraulic pump, and a pressure gauge. Is an easy to use means, but it can also be used by using a mechanical pressure device having a principle of lever and a load indicating device such as a load cell.

   The method of placing the bottom of the pressurizing device 52 on the left and right bottom surfaces of the foundation frame 20 is as shown in FIG. 2 such as an H-Beam or an Angle. What is necessary is just to put the bottom of the pressurization apparatus by this invention in the bottom plane of the structure which comprises the bottom of a piping support.

  The method of contacting the pressing plate of the pressing device 52 to the center of the lifting bar 54 is carried out as follows. The pressurizing plate of the pressurizing device is exemplified by bonding a plate having a diameter larger than that of the piston to the top of the piston of a normal hydraulic cylinder. The pressurization apparatus according to the present invention is a device for raising and lowering the height of the lifting rod while stepping on the pipe support to the floor and supporting the lifting rod. Therefore, the pressurization device requires a function of increasing and decreasing the length between the lifting rod and the bottom surface of the base frame 20, and the uppermost portion of the pressurizing device is in contact with the pressing plate of the pressurizing device in place of the pressing plate of the lifting rod. .

The length measurer 51 which can measure the height change of the bottom saddle is easy to implement the present invention by using a conventional dial gauge. However, in the present invention, any type of tape measure such as a vernier caliper can be used without being limited to the die gauge, and the shape thereof is not limited. When installing the length measuring instrument, the body of the length measuring instrument should be placed in the foundation frame or the building integrated with the foundation frame, and only the length measuring sensor such as dial gauge should be installed on the pipe 10 or the floor saddle 30. .

Assembling the device according to the present invention as described above, the lifting rope is hanging on the lifting rod 54 while serving as a crepe to wrap the bottom saddle 30 and the pipe 10, the lifting rod 54 is On the pressing plate of the pressing device 52 placed on the foundation frame 20, the length change of the pressing device is a device that causes a change in the height of the pipe 10.

While measuring the change in the length of the length measuring device 51 while adjusting the load applied to the pressurizing device 52 to measure the load applied to the pipe support from the non-linear characteristics of the load-length diagram is shown in FIG. As a method of evaluating the point where the upper straight line of the nonlinear point NL meets the load axis in the load-length diagram obtained as shown in FIG. It is well described in (Hanger Load Measurement and Integrity Evaluation Apparatus and Method in a Pipeline). It is possible to obtain the load-length diagram by continuously measuring the changed length appearing on the length meter while gradually increasing the pressure on the pressurization device according to the present invention. If the length value is inputted to a computer using the LVDT, which is commercially available as an automatic length indicating means, as the length measurer, the load-length diagram can be evaluated to construct an automated load measuring system. .

The above description relates to an apparatus and method for measuring the load acting on the pipe support of the structure as shown in [FIG. 2]. However, a rigid hanger is installed as a support device that does not use a spring among the pipe support devices that support the pipeline, and the load measurement method can be applied to the present invention, so the implementation shown in FIG. It will be described with reference to the figure.

Rigid hangers are hangers that use ordinary round rods to wrap the pipes with clamps and to hang the upper part of the clamps on the framework of the building at the top of the pipes, unlike the jiddle that supports the pipes at the lower end of the pipe. A rod RD is provided, and the hanger rod is provided with a conventional turnbuckle for adjusting the length. Connection of the hanger rod and the clamp has a fastening structure using a hinge (Hinge). Usually, the hanger rod of a rigid hanger has two U-bolt types and only one hanger rod as shown in (1) of FIG. 5.

  In the case of a rigid hanger having a U-bolt type hanger rod, as shown in (1) of FIG. 5, the chain hanger according to the present invention is installed before and after the u-bolt, and the length of the chain hanger Raise onto the upper frame (frame where the hanger hangs), and connect the connectors on the left and right sides of the rigid hanger to both ends of the lifting bar in the front-rear direction. As the length is changed, the height of the pipe changes. At this time, if the length measuring device is set on the upper part of the pipe, the load and the change of the length can be measured simultaneously.

In the case of a rigid hanger having a single hanger rod, as shown in (2) of FIG. 5, a lifting rope including a chain hanger is constructed in the form of wrapping a pipe with a crepe, and the rigid hanger having the hanger rod of the U-bolt type described above. It can also be carried out by measuring the load of the rod, as shown in (3) of [5] in the hinge at the top of the clamp as shown in (3) of [5]. Connect the chain hanger to both ends of the lower rod (SC) with fastening mechanism such as bolt nut, raise this chain hanger to the top of the foundation frame on the pipe, and then insert the lifting rod into the connector and This can be performed in the same manner as in the rigid hanger having the u-bolt hanger rod described above.

The method of measuring the load of the pipe support using the devices invented as described above will be described as a sample of the support as shown in FIG.

1. Install chain hooks at the front and rear of the foundation frame of the pipe support.

2. Connect the chain hooks on the front and back of the foundation frame with triangular members.

3. Insert the lifting bar into the connector of the chain hanger on the front and back of the foundation frame and tighten the stator.

4. Place the pressure device in a position where the pressure plate of the pressure device can coincide with the pressure plate seat of the lifting rod, and assemble the pressure plate seat on the pressure plate.

5. Place the length measurer's body on the base frame and place the sensor on a pipe or floor saddle.

6. While pressurizing the pressurizing device, draw the load-length diagram by measuring the height change of the pipe and the load applied to the pressurizing device.

7. Evaluate the nonlinear characteristics of the load-length diagram to determine the load on the pipe support.

10: pipe
20: foundation framework
30: floor saddle
51: length measurer
52: pressurization device
53: chain hook
54: lifting bar

Claims (4)

The pipe (10) is intended for a pipe support consisting of a basic pipe (10) and a foundation frame (20), which is a common structural material such as a floor saddle (30, saddle) and a H-Beam. To lift the bottom saddle 30 which supports the
Two chain-shaped hooks 53 having connectors SP at both ends are disposed on the front side and the rear side of the bottom saddle 30, except for sections corresponding to the bottom saddle 30. Lifting both ends of the triangular member (CR), which is a conventional rod-shaped structural member, over the entire length in a triangle shape on the two chain hooks (53) to wrap the bottom saddle (30) like a baby crepe. Rope,
As a conventional rod, the lifting bar 54 to which both ends of the connector SP and the ends of the two chain-shaped hooks 53 are fastened,
As a means for applying a load as a normal hydraulic cylinder, the bottom of the pressurizing device 52, in which the load applied at the same time is indicated, is placed on the left and right bottom surfaces of the base frame 20, and the left and right lifting Contact the pressing plate of the pressing device 52 to the center of the rod 54,
With a length measurer 51 that can measure the height change of the bottom saddle,
The lifting rope hangs on the lifting rod 54 while serving as a crepe to wrap the bottom saddle 30 and the pipe 10, and the lifting rod 54 is placed on the foundation frame 20. On the pressing plate 52, the length change of the pressing device causes a change in the height of the pipe 10,
Piping support characterized in that it measures the load applied to the pipe support from the non-linear characteristics of the load-length diagram by evaluating the length change of the length measuring device 51 while adjusting the load applied to the pressurizing device (52) Load measuring device The lifting rope of claim 1

Two chain-shaped hooks 53 having connectors SP at both ends are disposed on the front side and the rear side of the bottom saddle 30, except for sections corresponding to the bottom saddle 30. Wrapping both ends of the triangular member (CR), which is a conventional rod-shaped structural member over the entire length, in a triangular shape on the two chain hooks (53) to wrap the bottom saddle (30) like a baby crepe Load measuring device of pipe support The lifting rod of claim 1

A load measuring device for a pipe support, comprising a support shaft made of a common round bar or hollow structural pipe, and having a stopper ST, a stator NT, and a pressure plate seat. The load measuring method of the pipe support which lifts a pipe using the apparatus of Claim 1, and evaluates the load acting from the nonlinear characteristic of the load-length diagram at that time.

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