KR101227772B1 - Wholesomeness test equipment for enclosed type spring hanger - Google Patents

Abstract

The present invention provides a more convenient and accurate determination of the change in the characteristics of the coil spring according to the durability in the sealed spring hanger for supporting the piping member, so that it is possible to determine the abnormality through the integrity check of the spring hanger in advance. The purpose is to make it possible to more actively deal with various problems that may occur in various facilities in the future.
The present invention for achieving the above object, the displacement measuring magnetic sensor 20 is installed in the casing 14 to measure the compression displacement of the coil spring (16); A support housing 22 fixed to the casing 14; A hydraulic cylinder (24) installed to press the spring rod (18) in the compression direction against the support housing (22); A tension bar (26) fixed to the spring rod (18) for transmitting an acting force provided from the hydraulic cylinder (24) to the spring rod (18); A load cell (34) for measuring the compressive load provided from the hydraulic cylinder (24) to the spring rod (18); A hydraulic installation (36) for adjusting the operating pressure provided to the hydraulic cylinder (24); And a load measured from the load cell 34 and displacement information measured from the displacement measuring magnetic sensor 20 by adjusting an operating pressure provided to the hydraulic cylinder 24 through control of the hydraulic installation 36. It is provided with analysis and display equipment for receiving the information, respectively, to determine the abnormal signs of the coil spring 16 and to output to the outside.

Description

Wholenessness test equipment for enclosed type spring hanger}

The present invention relates to a device for performing an integrity test for a hermetic spring hanger, and more particularly to more accurately analyze the fault diagnosis and cause of the spring hanger supporting the piping member for the support beam in a nuclear power plant. It relates to a health inspection equipment of the hermetic spring hanger that can be easily performed.

In general, the piping member used in the nuclear power plant is firmly supported by a spring hanger installed in a direction perpendicular to the support beam fixed to the ceiling of the facility. In this case, the spring hanger is provided with a coil spring inside which can absorb and cushion the shock by external force, and the coil spring is installed in a state that can be compressed by a spring rod connected to the piping member. Accordingly, abnormal vibrations and shocks transmitted through the piping member may be transmitted to the coil spring through the spring rod to block the transmission of the abnormality to the various facilities through the compression action accompanying the coil spring.

However, the spring hanger installed in the pipe member for the above purpose is equipped with a hermetically sealed casing so that the coil spring installed therein cannot be disassembled, so the characteristic change of the coil spring due to its durability is objectively predicted from the outside. And could not be diagnosed. Of course, the change in the characteristics of the coil spring can be diagnosed by disassembling the casing, but in this case, it takes much time and increases the economic cost.

Accordingly, the health check for the determination of abnormal signs and characteristic changes of the conventional hermetic spring hanger can measure the compression displacement with respect to the coil spring through the naked eye from the outside without disassembling the casing, and thereby determine the abnormal signs. Since there was only one, it was not possible to accurately determine or analyze the abnormality of the pipe due to the defect of the spring itself or the characteristic change of the coil spring due to creep during the preventive maintenance of the plan. There have been many difficulties.

Korean Patent Application No. 10-1996-0019809 (Applicant; Hyundai Motor Company, Name; Apparatus for Inspecting Properties of Automotive Valve Springs) The inspection apparatus disclosed in the patent document can determine the characteristics of the valve spring as an output signal by the strain gauge, and can be performed only when the valve spring is disassembled from the engine.

Accordingly, the present invention has been made in view of the above-mentioned matters, and in the closed spring hanger supporting the piping member, the characteristic change of the coil spring according to the durability can be more easily and accurately judged even without disassembling the spring hanger. By doing so, the purpose of the present invention is to proactively diagnose signs of abnormality through the health check of the spring hanger and to proactively cope with various problems that may occur in the future facilities.

The present invention for achieving the above object is a spring having a casing, a coil spring installed in the casing, and a spring rod is installed to provide the coil spring with a compressive load by external force inside the casing. As a device for checking the health of the hanger,

A displacement measuring magnetic sensor installed in the casing and measuring a compression displacement of the coil spring;

A support housing installed to be fixed to the casing;

A hydraulic cylinder installed to press the spring rod in the compression direction against the support housing;

A tension bar fixed to the spring rod to transfer an action force provided from the hydraulic cylinder to the spring rod;

A load cell for measuring the compressive load provided to the spring rod from the hydraulic cylinder through the tension bar;

A hydraulic system for adjusting the operating pressure provided to the hydraulic cylinder; And

The operating pressure provided to the hydraulic cylinder is controlled through the control of the hydraulic equipment, and the displacement indication measured from the displacement measuring magnetic sensor and the load information measured from the load cell are respectively inputted, indicating an abnormality of the coil spring. Characterized in that it comprises an analysis and display equipment to determine and output to the outside.

The present invention further includes a split clamp which is divided into left and right parts to be assembled for installation of the support housing to the casing, and a guide bar installed in the split clamp to regulate the position of the tension bar to a proper position during movement. Characterized in that.

In the present invention, the guide bar is provided at both ends between the support housing and the tension bar, respectively, the hydraulic cylinder is installed in the left / right symmetrical position with respect to the spring rod, the load cell is the hydraulic pressure It is characterized in that the cylinder is installed separately.

In the present invention, the spring rod is fixed to the tension bar via a locking nut, and the spring rod protrudes out of the casing at one end providing a compressive load to the coil spring so that the displacement measuring magnetic A target portion for setting a reference position when measuring displacement information by a sensor is formed, and the casing forms a slot for allowing movement of the target portion.

According to the soundness inspection equipment of the hermetic spring hanger according to the present invention, the integrity inspection work for the hermetic spring hanger which supports the piping member in a vertical direction with respect to the support beam in the nuclear power plant does not disassemble the spring hanger Spring hanger according to endurance as it can be carried out through a series of analyzes together with the precise measurement of the artificial compressive load applied to the coil spring and the accompanying degree of displacement of the coil spring according to the operation of the hydraulic system It is possible to more accurately determine the change in the characteristics of the coil spring.

In addition, the present invention solves the existing problem that the integrity test for the hermetic spring hanger could not be performed without disassembling the spring hanger, and can build reliability in the health test, in particular, the measured load information and displacement Based on the information, various problems that may occur in the future spring hanger can be determined in advance, and the determined information can be output to the outside, and the inspected information can be saved to be used for health checks on other spring hangers. Will be.

1 is a view showing a state of use for the equipment for the integrity test of the hermetic spring hanger according to the present invention.
2 is a sectional view of Fig. 1;
3 is a perspective view of the health inspection equipment shown in FIG.
Figure 4 is a hydraulic circuit diagram showing the configuration of the hydraulic equipment in the soundness inspection equipment of the present invention.
5 is a front view of the hydraulic installation shown in FIG. 4.
6 is a side view of the hydraulic installation shown in FIG. 4.

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

As shown in the figure, the hermetic spring hanger 10 corresponds to the equipment for hanging and supporting the piping member in the lower portion of the support beam 12 is installed horizontally in the nuclear power plant. The spring hanger 10 may compress the cylindrical casing 14, the coil spring 16 installed inside the casing 14, and the coil spring 16 inside the casing 14. It is provided in a state provided with a spring rod 18 for supporting the load of the piping member is installed on the lower end.

In this case, the casing 14 has a hermetic structure that allows only the spring rod 18 to be projected to the outside in a state in which the coil spring 16 is accommodated therein, and an upper end of the spring rod 18 is coil spring. It is provided in the casing 14 in the form which presses the upper end part of the downward direction 16. FIG. Accordingly, the spring hanger 10 serves to absorb and mitigate vibration or shock transmitted through the pipe member through the compression of the coil spring 16 by the spring rod 18.

The displacement measuring magnetic sensor 20 is mounted on the outer circumferential surface of the casing 14 of the spring hanger 10 to measure the compression displacement of the coil spring 16 by the action force applied to the spring rod 18, the linear displacement It may be implemented as a linear variable differential transformer (LVDT). In this case, the displacement measuring magnetic sensor 20 may be detachably installed using the magnetic block 20a with respect to the casing 14. In this case, the displacement measuring magnetic sensor 20 can accurately measure the displacement information of the coil spring 16 by detecting the position of the target portion 18a integrally formed at the upper end of the spring rod 18. That is, in the spring rod 18, the target portion 18a protrudes out of the casing 14 at the upper end portion that provides the compressive load to the coil spring 16, so that the displacement measuring magnetic sensor 20 It serves to provide a reference position to be measured when measuring displacement information. At this time, the casing 14 forms a slot 14a having a shape that is elongated in the longitudinal direction over a portion to allow the vertical movement of the target portion 18a of the spring rod 18.

The support housing 22 is a member that is installed to be fixed to the casing 14 and is formed to surround the lower end of the casing 14. At this time, the support housing 22 forms an opening 22a that enables the movement of the spring rod 18 in the center thereof. Hydraulic cylinder 24 is provided to provide an artificial load for the integrity test for the spring rod 18, it is installed in the direction that can contract the coil spring 16 with respect to the support housing (22).

The tension bar 26 is installed at the end of the spring rod 18 via the first through hole 26a formed at the center thereof, and is supported by the ram of the hydraulic cylinder 24 to support the hydraulic cylinder 24. It serves to compress the coil spring 16 by providing an acting force in the linear direction with respect to the spring rod 18 during the operation of. In this case, the hydraulic cylinder 24 is installed at the parts symmetrical left and right, respectively, between the both ends of the support housing 22 and both ends of the tension bar 26 with respect to the spring rod 18. Accordingly, when the coil spring 16 is compressed by the action force applied from the hydraulic cylinder 24, the coil spring 16 is not subjected to the unloading load in the longitudinal direction.

On the other hand, the support housing 22 is provided with a pair of split clamps 28, which are divided into left and right and assembled in a screwing manner, for a more secure coupling with the lower end of the casing 14, the left The right split clamp 28 additionally installs a guide bar 30 for the purpose of regulating the movement of the tension bar 26 in place. That is, the guide bar 30 extends in the downward direction along the installation direction of the hydraulic cylinder 24 with one end fixed to the left / right split clamp 28, respectively, and thus the tension bar at the other end. It is possible to support the movable member 26 in the vertical position in the vertical direction. In other words, the tension bar 26 forms a second through hole 26b at both ends of the left and right sides, respectively, to allow a movable coupling with the guide bar 30, thereby transferring it from the ram of the hydraulic cylinder 24. When moving in a linear direction by the action force is to be able to move to the right position along the guide bar (30).

And the spring rod 18 is fastening the locking nut 32 to the lower portion of the tension bar 26 at the end, the locking nut 32 is the position of the tension bar 26 relative to the spring rod 18 Will be fixed constantly. Accordingly, the force applied to the tension bar 26 through the hydraulic cylinder 24 is transmitted to the spring rod 18 as it is to induce a contraction deformation of the coil spring 16. The load cell 34 is installed separately with respect to the hydraulic cylinder 24 to accurately measure the axial compressive load provided from the hydraulic cylinder 24 to the spring rod 18 through the tension bar 26.

The hydraulic system 36 is provided with a hydraulic pump 38, a hydraulic pipe 40, a control valve 42, a flow control valve 44, a coupler 46 and the like provided to the hydraulic cylinder 24 Function to adjust pressure. In this case, the hydraulic pipe 40 is installed independently of the left and right hydraulic cylinder 24 from the hydraulic installation (36). And the flow control valve 44 is installed in each of the hydraulic pipe 40 serves to equally distribute the hydraulic force provided from the hydraulic pump 38 to the hydraulic cylinder 24 on both left and right sides. In addition, the coupler 46 serves to connect between the hydraulic pipe 40 and the flow control valve 44. At this time, the hydraulic cylinder 24 is also provided with a separate coupler for connection with the hydraulic pipe (40).

The analysis and display equipment adjusts the operating pressure provided to the hydraulic cylinder 24 to a desired level through the control of the hydraulic equipment 36, and the displacement information and the rod measured from the displacement measuring magnetic sensor 20. The load information measured from the cell 34 is input in real time, and the abnormality indication on the coil spring 16 is analyzed and determined based on the change of the deformation amount relative to the load value accompanying the coil spring 16, and then the determined information is determined. It is a function to visually output to the outside.

That is, the analysis and display equipment is capable of loading the load information generated by the operation of the hydraulic installation 36 and the displacement information of the coil spring 16 resulting from the generation of an artificial external force accompanying the operation of the hydraulic installation 36. It calculates the change of the deformation amount compared to the load value, and analyzes the abnormality signs that may occur in the future in the coil spring 16 through the calculated results, and stores the output and analyzed information to the outside. . In other words, the analysis and display equipment receives the load information detected by the load cell 34 and the displacement information detected by the displacement measuring magnetic sensor 20, respectively, to determine the state of health of the coil spring 16, and the result is external. As a series of equipment that can be output and stored on a computer, it can be implemented as a facility such as a personal computer with associated software for health check.

Hereinafter, the soundness inspection process for the spring hanger 10 using the soundness inspection equipment according to the present invention will be described in detail.

First, the pipe member supported by the spring hanger 10 is disassembled to convert the coil spring 16 into a no-load state, and then a support housing (using the split clamp 28 at the lower end of the casing 14). 22) is firmly fixed and the tension bar 26 is fixed with the locking nut 32 against the lower end of the spring rod 18, and then the ram of the hydraulic cylinder 24 is tension bar 26. Carry out a series of installations on the inspection equipment that is fastened at both ends.

Subsequently, the hydraulic piping 40 of the hydraulic equipment 36 is installed on the hydraulic cylinder 24 and the coupler 46 of the flow control valve 44, respectively, and then the displacement measuring magnetic outside of the casing 14 is installed. The sensor 20 and the load cell 34 are respectively installed. In this process, the displacement measuring magnetic sensor 20 is mounted to face the target portion 18a from the outer circumferential surface of the casing 14 using the magnetic block 20a, and the load cell 34 is a hydraulic cylinder 24. It is installed at the load detection position applied to the tension bar 26 through the.

Subsequently, when the hydraulic pump 38 and the control valve 42 are started to provide an appropriate working pressure to the hydraulic cylinder 24, the ram of the hydraulic cylinder 24 is tension bar 26. By pressing down, the compression action of the coil spring 16 by the spring rod 18 is performed.

In this process, the displacement measuring magnetic sensor 20 measures the position displacement of the target portion 18a of the spring rod 18 in conjunction with the contraction displacement of the coil spring 16 in real time, and the load cell 34. Will also measure in real time the action force provided to the coil spring 16 via the hydraulic cylinder 24.

At this time, the analysis and display equipment is the coil spring 16 for the load value applied to the coil spring 16 via the displacement information and load information input through the displacement measuring magnetic sensor 20 and the load cell 34 Determining the deformation amount of the), through this to determine the integrity of the coil spring 16, and then outputs information about this. In addition, the analysis and display equipment also performs the function of storing the measured information and the analyzed information at the same time.

Therefore, the soundness inspection equipment of the present invention can easily perform the integrity test for the coil spring 16 of the hermetic spring hanger 10 through the series of steps as described above without disassembling the spring hanger 10. In addition, it is possible to implement the determination of the abnormal signs and the cause analysis in the event of an error through the spring hanger 10 through this. In particular, in the present invention, the analysis and display equipment is used for the operation of the inspection equipment, such as the adjustment of the operating pressure provided through the hydraulic cylinder 24 with the start of the operation of the hydraulic installation 36 via the relevant software for health inspection. It makes it easier to carry out all kinds of work.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular details of the embodiments set forth herein. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10-spring hanger 12-support beam
14-casing 16-coil spring
18-spring rod 20-displacement magnetic sensor
22-support housing 24-hydraulic cylinder
26-tension bar 28-split clamp
30-guide bar 32-locking nut
34-load cell 36-hydraulic installation
38-Hydraulic Pump 40-Hydraulic Piping
42-control valve 44-flow control valve

Claims (8)

A casing 14, a coil spring 16 installed inside the casing 14, and a spring rod installed to provide the coil spring 16 with a compressive load by external force inside the casing 14. Equipment for checking the health of the spring hanger (10) having a (18),
A displacement measuring magnetic sensor (20) installed in the casing (14) to measure the compression displacement of the coil spring (16);
A support housing 22 fixed to the casing 14;
A hydraulic cylinder (24) installed to press the spring rod (18) in the compression direction against the support housing (22);
A tension bar (26) fixed to the spring rod (18) to transmit an acting force provided from the hydraulic cylinder (24) to the spring rod (18);
A load cell (34) for measuring the compressive load provided from the hydraulic cylinder (24) to the spring rod (18);
A hydraulic installation (36) for adjusting the operating pressure provided to the hydraulic cylinder (24); And
Through the control of the hydraulic equipment 36, the operating pressure provided to the hydraulic cylinder 24 is adjusted, and the displacement information measured from the displacement measuring magnetic sensor 20 and the load measured from the load cell 34 Integrity inspection equipment of a hermetic spring hanger, characterized in that it comprises an analysis and display equipment for receiving the information, respectively, to determine the abnormal signs of the coil spring (16) and output to the outside. The method according to claim 1,
Integrity testing equipment for a hermetic spring hanger, characterized in that it further comprises a split clamp (28) divided into left and right for the installation of the support housing (22) to the casing (14). The method according to claim 2,
And a guide bar (30) installed on the split clamp (28) for regulating the position of the tension bar (26) to a fixed position during movement. The method according to claim 3,
The guide bar 30 is provided on both ends between the support housing (22) and the tension bar (26), the health check equipment of the hermetic spring hanger, characterized in that each. The method according to claim 1,
The hydraulic cylinder 24 is a health check equipment of a closed spring hanger, characterized in that installed in the left / right symmetrical position with respect to the spring rod (18). The method according to claim 5,
The load cell (34) is a health check equipment of the hermetic spring hanger, characterized in that installed separately to the hydraulic cylinder (24). The method according to claim 1,
The spring rod (18) is the integrity test equipment of the hermetic spring hanger, characterized in that fixed to the tension bar (26) via a locking nut (32). The method of claim 7,
The spring rod 18 protrudes out of the casing 14 at one end providing a compressive load to the coil spring 16 so as to measure a reference position when measuring displacement information by the displacement measuring magnetic sensor 20. Formed target portion (18a) to set the, and the casing (14) health check equipment of the hermetic spring hanger, characterized in that to form a slot (14a) for allowing the movement of the target portion (18a).

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