KR20000053668A - The hanger tester and maintenance device to check the load-displacement relation ship - Google Patents

Abstract

PURPOSE: A method is provided to measure an actual load in a state of not decomposing a hanger, to work in a state of not giving any external force to the hanger by moving the reactive load to an auxiliary device upon repairing the damaged hanger and to evaluate the load-displacement characteristic of the hanger. CONSTITUTION: In replacing or repairing a hanger, an auxiliary hanger rod and a hydraulic cylinder are installed in the same method as measuring a load reacting to the hanger. Herein, a lower support does not contact a turn buckle. Further, after a hanger rod clamp(43) is firmly tightened to a hanger rod(17), a lower support(41) is installed. When the turn buckle is rotated with a hand by giving pressure to a lower part of the hydraulic cylinder, the turn buckle is decomposed and the load given to the hanger is perfectly removed so that the hanger is free from a pipe. After performing a necessary work for the hanger, the load is fed to the hanger by reversely rotating the turn buckle. Herein, when the load applied to the load cell is zero, the auxiliary hanger is separated.

Description

HANGER TESTER AND MAINTENANCE DEVICE TO CHECK THE LOAD-DISPLACEMENT RELATION SHIP}

In general, industrial large diameter pipes are supported by a hanger or support to absorb the load, external force, thermal expansion, etc. of the pipe itself. In the case of such a pipe, when the deformation of the load occurs due to heat deformation during operation or maintenance of the facility, and the deformation occurs, the design load is not applied to the hanger and the load change occurs. At this time, if an excessive load is applied to a specific hanger to exceed the allowable stress range, the piping system collapses. In order to prevent such unforeseen accidents in advance, it is necessary to measure the load of the hanger and distribute the load that is out of an appropriate amount so that the uniform load acts on the entire boiler support device to secure the pipe soundness.

In order to ensure the integrity of the pipe in use, it is necessary to first evaluate the weight of the load applied to the hanger with the hanger installed on the pipe.After the load evaluation, the load applied to the hanger before replacing or repairing the damaged hanger. In order to maintain the integrity of the pipes, it is necessary to disassemble the hanger after the load is transferred to the auxiliary device so that the work can be done without moving it to the surrounding hanger.

Although it is not abnormal in appearance, to evaluate the integrity of the hanger, the hanger is maintained in the design state by measuring the load-displacement relationship at the current position and the elasticity of the spring is lost due to deterioration due to long-term use or the linkage mechanism. If there is a problem, it should be repaired.

Therefore, in order to restore the integrity of the hanger installed on the pipe in use, measure the actual load that is working without disassembling the hanger, and when it is necessary to repair the damaged hanger, move the working load to the auxiliary device and The present invention was developed to develop a method to work without external force and to evaluate the load-displacement characteristics of the hanger where the hanger is located.

In order to measure and adjust the load acting on individual hangers, it is necessary to develop a hanger evaluation system to measure the load state or evaluate the displacement according to the load without disassembling the hanger. In addition, if the hanger needs to be replaced or repaired as a result of the integrity evaluation, the hanger must be dismantled, and an auxiliary device is required to bear the load that the hanger must bear. When disassembling a hanger, in order to transfer the load of the hanger to another hanger and prevent damage caused by excessive load of the other hanger, the hanger load must be transferred to an auxiliary device before disassembling the hanger and then disassembled. . In this way, the auxiliary apparatus needed to repair the hanger and the load applied to the hanger were measured, and a method for evaluating the health of the hanger with a simple operation was developed.

In order to evaluate the health of the hanger system that has been used for more than 10 years or modified by the action of external force, it is necessary to evaluate the weight of the hanger applied to the hanger. In order to replace a damaged hanger due to long-term use of the hanger, if the hanger is dismantled, the load carried by the disassembled hanger may be transferred to the other hanger and the other hanger associated with the damaged hanger may be broken. We tried to develop a method of dismantling the hanger after making the auxiliary device to transfer the load of the hanger. In addition, in order to evaluate the load-displacement relationship of the hanger in use, the hanger should be dismantled and brought to the factory and measured by a special measuring equipment. However, it was intended to develop a method to evaluate the load-displacement relationship in the field.

1 is an embodiment of a hanger load measurement method according to the present invention

Figure 2 is an embodiment of the auxiliary device for measuring and disassembling hanger load according to the present invention

Figure 3 is an embodiment of an auxiliary device for measuring hanger load-displacement according to the present invention

4 is an embodiment of a system installation for hanger load-displacement measurement according to the present invention.

* Description of the main parts of the drawings

11 hanger 22 pipe clamp 31 hydraulic cylinder

41: lower support 51: displacement measuring device 61: signal converter

71: data processing device 91: load cell

In order to assess the integrity of the hangers installed in the pipe, the load applied to the hanger is to be measured, and the load-displacement relationship of the hanger is within the design range and the hanger is to be replaced if there is a problem in the function of the hanger. However, when such a series of operations are carried out, the load on the hanger shall not be transferred to the periphery by temporarily removing the hanger under inspection or maintenance. This chapter describes load measuring method of workable hanger, pretreatment method for repairing hanger, and load-displacement measuring method while keeping condition of hanger load unchanged.

As a facility for measuring the load applied to the hanger supporting the pipe, an auxiliary device composed of a hydraulic cylinder 31, a load cell 91, and upper and lower support members 41 and 49 is used as shown in FIG. When the pressure gradually increases in the lower part of the hydraulic cylinder 31, the load by the pipes hanging on the hanger rods 15, 16 and 17 is gradually transferred to the measuring rods 35, 34, 37 and 38 on both sides of the main hanger rod. The load cell 91 appears as a working load. Watching for changes in load or hydraulic pressure during the application of hydraulic pressure tends to cause a sudden increase in the rate of increase at any given point, where the point where the new slope meets the displacement axis indicates the original load.

In order to measure the working load of the hanger, a fixed point 23 directly connected to the hydraulic cylinder is formed in the lower part of the hanger, and the hydraulic cylinder 31 and the load cell 91 are connected between the upper steel frame 81 and there.

The working point of the load for moving to the auxiliary hanger rods 34, 35, 37 applied to the hanger 11 is the connection bolt of the pipe clamp 22 when the tightening nut 23 of the pipe clamp protrudes out of the pipe. It is convenient to use 23. However, when the pipe clamp is difficult to use because it is buried in a heat insulating material, the auxiliary hanger rod connecting rod 38 cannot be used, so the support buckle 41 is brought into contact with the turnbuckle 18 or the hanger rod clamp 38 is attached to the hanger rod 38 43) are firmly tightened and the lower support 41 is installed therein so that the load acting on the hanger 11 can be accurately transmitted without slipping. At this time, when the turnbuckle 18 or the rod clamp 43 is pressed against the lower portion of the hydraulic cylinder 31 to push the piston upward, the lower support is pushed in the axial direction of the hanger rod 17 so as not to transmit the load. It is possible to withstand the axial load without being pushed out at the point of contact with the rod clamp 43 or the turn buckle 18 without. The lower support 41 is pressed against the turnbuckle 18 or the rod clamp 43 by pressing the hanger rod 17 by tightly tightening the support bars symmetrically disposed on both sides of the hanger rod with bolts 42A-D. By doing so, it is no longer possible to move in the height direction. The upper support 49 is positioned above the upper H-beam on which the hanger is supported. It is manufactured in the same shape as the lower support on the upper portion of the beam and connected to the cylinder rods 34, 35 and 37 of the lower support so that the load of the main hanger rods 15, 16 and 17 can be maintained instead. The connection 92 and 93 between the load cell and the auxiliary hanger rods 34 and 35 for measuring the load applied to the auxiliary hanger can be simply fastened by using an eye bolt on the load cell and a shackle on the hanger rod. The method of connecting the auxiliary hanger rods 34 and 37 to the cylinders 32 and 33 can likewise be implemented.

Instead of using the lower support 41 and the auxiliary hanger rods 33, 34 and 35 vertically, it may be used to incline as shown in FIG. At this time, the load of the hanger rod 17 is transferred to the cylinder by using the lower clamp 101 instead of the lower support 41. The lower clamp may be a support capable of temporarily supporting the hanger load under the nut fastened to the tightening bolt of the pipe clamp 22.

The auxiliary hanger rods (34, 35, 37) are of rod-shaped type or of wire ropes, etc., and are of a strength that can be handled under the load of the hanger, but can be used to connect the cylinder, the load cell, and the upper and lower supports. Must have At this time, in case of using wire rope, shackle should be used to connect with load cell, cylinder and so on in the middle.

If you want to remove, disassemble, or assemble a damaged hanger while the pipe is under load, move the load on the hanger to the auxiliary hanger rods (34, 35, 37) before removing the hanger from the pipe. Should be done. If a part of the hanger is to be disassembled while the load is applied to the hanger, there is a high possibility of causing a big safety accident during work, and the load of the hanger to be repaired is moved to a nearby hanger and the surrounding hanger is temporarily damaged. This may happen. Therefore, before repairing the hanger, the load of the same capacity as the load on the damaged or repaired hanger must be transferred to the auxiliary hanger rod and then safely operated.

When replacing or repairing the hanger, install the auxiliary hanger rod and the hydraulic cylinder in the same manner as when measuring the load acting on the hanger, so that the lower support 41 of FIG. 1 does not come into contact with the turnbuckle 18. do. At this time, the hanger rod clamp 43 must be firmly fastened to the hanger rod 17, and then the lower support 41 must be installed. When the auxiliary hanger rod is installed as shown in [Fig. 1] or [Fig. 2] and pressure is applied to the lower part of the hydraulic cylinder 31 to turn the turn buckle 18 by hand, the turn buckle is not applied any more. It disassembles and removes the load on a hanger completely, and frees hanger 11 from piping. After carrying out the necessary work on the hanger, reload the turn buckle to reload the hanger. At this time, if the load on the load cell becomes zero, separate the auxiliary hanger. If you want to use an auxiliary hanger without a load cell, turn the turn buckle until the pressure at the bottom of the cylinder becomes zero, restore the original load, and then withdraw the auxiliary hanger rod.

Long-term use of industrial equipment can lead to deformed or unexpected damage to the piping due to malfunction of the springs and associated linkages due to corrosion in hangers and supporting system. To prevent this, industrial equipment that has been operating for a long time needs to regularly assess the integrity of the pipe support system. Hangers using springs as components, including constant hangers, can assess the health of the hangers by ensuring that the springs are in the original design range and that other linkages are smooth. The present invention allows the hanger soundness evaluation test to be performed by disassembling only the turn buckle 18 connected to the hanger rod without removing the hanger from the pipe in the field and bringing it to the factory. Integrity evaluation test of hanger has a spring constant originally designed by measuring the correlation between load and spring displacement given the load from zero to maximum load, and the impact force on the pipe due to the load-displacement characteristics being maintained. It can be confirmed that the pipe can be protected when external force or thermal expansion is applied.

When evaluating the health of a hanger, first install an auxiliary device to move the load on the hanger. The auxiliary hanger is installed in the form of [Fig. 1] or [Fig. 2] and disassembles the turnbuckle 18 in the same order as when dismantling the hanger. The hanger soundness evaluation device disengages the connection between the middle hanger rod 16 and the lower hanger rod 17 by separating the turnbuckles 18 as shown in FIG. 4, and then the turnbuckle 18 is placed under the middle hanger rod 16. Fix and install the lower support (41) thereon. The displacement measuring device (LVDT) 51 is fixed to an appropriate position of the steel frame on which the hanger is supported by an appropriate method such as a U-bolt or a band, and the hanger rod of the displacement measuring device is fixed. 16) and measure the displacement of the hanger rod. The method of connecting the active part of the displacement measuring device to the hanger rod 16 uses a suitable mechanism such as a clamp or a band. When pressure is applied to the upper portion of the hydraulic cylinder, the hanger rod 16 moves to the vertical lower portion, causing deformation due to an increase in load. The output of the load cell 91 and the output of the displacement measuring device (LVDT) 51 of the hanger assisting device for soundness evaluation are passed through the signal input device 61 and the signal conversion device 62 and the data processing and indicating device 71. In the printing apparatus 71, the relationship between the displacement and the load is output as a graph. The health of the hanger can be evaluated by evaluating the load-displacement plots indicated here.

When repairing or evaluating the soundness of pipe hangers installed in industrial equipment for heavy and chemical industries or thermal power plants, the load on damaged hangers can be moved to the auxiliary hangers by simple operation, and the hangers are attached to the industrial equipment. The load-displacement characteristic test can be performed to evaluate the working load of the hanger and to evaluate the integrity of the hanger after disassembling only the turn buckle by simple operation, which can contribute to improving the soundness and reliability of the pipe in operation.

Claims (2)

Hydraulic cylinder of the auxiliary device under the state of being installed in the pipe by using the auxiliary device composed of the hydraulic cylinder 31, the load cell 91, and the upper and lower support parts 41 and 49 on both sides of the hanger supporting the pipe. A method of measuring the load applied to the actual hanger by applying a pressure to (31) to move the load of the hanger to the auxiliary device, evaluating the load of the load cell 91 at that time Hydraulic cylinder (31) in the state that is installed in the pipe by using the auxiliary device consisting of the hydraulic cylinder 31, the load cell 91, the upper and lower support (41, 49) on both sides of the hanger supporting the pipe. Applying pressure to move the load of the hanger to the auxiliary device, the method of disassembling / assembling or repairing the hanger, and installing the double hanger auxiliary device and sending the output of the hanger rod displacement measuring device and load cell to the data processing device. Method for evaluating the reliability of a hanger that can evaluate the load-displacement characteristics of the hanger while changing the pressure