KR101690972B1 - Apparatus for Sensing Operation of Spring in Spring Hangers - Google Patents

Abstract

The present invention relates to an apparatus to detect whether a spring is correctly operated in a spring hanger. According to the present invention, the apparatus including a case and a spring installed inside the case comprises: a position instrument panel installed in a top of the spring to vertically be moved along a compression displacement of the spring, and at least one side part penetrating to the case to be exposed to the outside; a cylinder installed in one exposed side part of the position instrument panel having a piston rod installed to be interlocked in accordance with a vertical movement of the position instrument panel, wherein the cylinder outputs a fluid in accordance with pressure when the piston rod is vertically moved by interlocking with the position instrument panel in a state which a position is fixated; a pressure gauge installed in an output part of the cylinder to measure a reciprocal movement in accordance with the compressing displacement of the spring as a pressure change to detect whether the spring is correctly operated; a bypass pipe installed between a first and a second chamber of the cylinder to bypass the fluid when a predetermined pressure is applied to the first or second chamber; and a check valve supplying fluid passing the bypass pipe in only one direction to prevent a backflow.

Description

Field of the Invention [0001] The present invention relates to an apparatus for detecting spring operation in a spring hanger,

[0001] The present invention relates to a sensing device for detecting whether a spring in a spring hanger is operating properly, and more particularly, to a sensing device for measuring the reciprocating motion of a spring installed inside a spring hanger, And more particularly, to a spring operation detecting device in a spring hanger which can be visually or remotely detected.

Generally, piping used for power generation facilities such as nuclear power, thermal power, etc., is supported by a spring hanger which is supported on a beam installed in the facility or installed perpendicularly to the ceiling of the facility. In this case, the spring hanger is provided with a spring (coil spring) capable of absorbing shock by absorbing external shock, and the spring is installed in such a state that it can be compressed by the spring rod connected to the pipe.

Accordingly, vibrations and shocks transmitted through the piping are transmitted to the spring through the spring rod, and can be prevented from being transmitted to various facilities through the compression action accompanied by the spring.

In addition, when the pipe is filled with water, rolling may occur in the pipe pipe. In order to prevent such a pipe rolling, a spring hanger is normally used to push or pull the pipe properly It is designed to be able to do.

Since such a spring hanger normally has a hermetically sealed case, there is a disadvantage that the compression displacement of the spring in the case can not be seen from the outside unless the case is disassembled. In order to solve such a problem, a position indicator is provided on the upper end of the spring so as to detect the compression displacement of the spring through the naked eye from the outside of the case, so that the position indicator is interlocked with the spring, Which can be checked from the outside.

However, in general, the spring hanger is suspended in a high position in the power plant or hanging from the ceiling, so in order to check whether the device is working properly, the operator had to go up and look up to the high position where the spring hanger was installed.

This is very dangerous, and it is always exposed to the risk of safety accidents, and since it is not easy to work, there is a need for a technique that can check the operation of the spring visually or at a remote place without a worker going up.

As a conventional technique related thereto, Korean Patent Registration No. 10-1227772 discloses an inspection apparatus that can accurately and easily perform an anomaly diagnosis for a spring hanger and an analysis of a cause of an anomaly.

In the prior art described above, the height of the spring is measured using a displacement measurement magnetic sensor for measuring the compression displacement of the coil spring, so that the change of the characteristics of the coil spring can be easily judged even when the spring hanger is not disassembled. However, That is, by measuring the height of the spring with a sensor, a large change such as an abnormality diagnosis can be detected, but it is impossible to precisely measure whether or not the spring operates, which is a disadvantage that the operation of the minute spring can not be properly checked.

Korean Patent No. 10-1227772

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method of detecting whether a spring in a spring hanger is properly operated by detecting a change in pressure through displacement of a position instrument panel interlocked with a spring, Which can precisely check the operation of the spring.

In addition, the spring operation detection device in the spring hanger increases the convenience of the operator and the work efficiency by allowing the user to check visually without ascending to a high ceiling and to check the operation of the spring by receiving data from a remote place The purpose is to provide.

According to an aspect of the present invention, there is provided a spring hanger having a case and a spring installed inside the case, the spring hanger being located at an upper end of the spring and moving in a vertical direction according to the compression displacement of the spring, And a piston rod installed at one side of the exposed position of the position dash plate and installed to interlock with the movement of the position dash plate in the vertical direction, A cylinder in which a fluid is output in accordance with the pressure when the rod moves upward and downward in cooperation with the position dash plate; and a piston which is installed at an output portion of the cylinder and measures a reciprocating momentum in response to a compression displacement of the spring, A pressure gauge capable of sensing whether the first A bypass pipe installed between the chamber and the second chamber to bypass the first chamber or the second chamber when a predetermined pressure is applied to the chamber and a fluid flowing through the bypass pipe in one direction, There is provided a spring operation detecting device in a spring hanger including a check valve for preventing a spring operation.

Wherein the cylinder comprises a first chamber provided on both sides of the piston and a double acting cylinder capable of exerting both outputs by the action of hydraulic pressure in the second chamber and the bypass pipe is arranged to supply fluid from the first chamber to the second chamber And a second bypass pipe for supplying a fluid to the first chamber in the second chamber, wherein the first bypass pipe and the second bypass pipe are respectively provided with check valves .

In the present invention, the control unit may further include a control unit for controlling the check valve to be opened when the pressure information measured from the pressure gauge exceeds a predetermined range.

Further, the present invention may further comprise a display device for receiving pressure information measured from the pressure gauge and outputting the operation status of the spring to the outside.

The display device may be installed at a remote location to receive pressure data measured from the pressure gauge and receive data to check whether the spring operates.

Meanwhile, the position dash plate is exposed to the outside through both sides of the case so as to move in the vertical direction according to the compression displacement of the spring at both sides of the case, and the piston rod is installed at one side of the case .

According to the present invention as described above, it is possible to precisely check whether a spring in a spring hanger is properly operated by detecting a change in pressure through displacement of a position instrument panel interlocked with a spring.

In addition, it is possible to check with the naked eye the worker without going up to the high ceiling, and to check the operation of the spring by receiving the data even from a long distance, thereby enhancing the convenience of the operator and the work efficiency.

1 is a front sectional view showing a configuration of an apparatus for detecting whether or not the spring hanger is operated according to the present invention.
2 is a cross-sectional view showing a main part of the present invention.
3 is a front sectional view showing a state in which the spring is lowered in the device for detecting the operation of the spring hanger of the present invention.
4 is a front sectional view showing a state in which the spring of the spring hanger of the present invention is lifted up.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. It is provided to let you know.

FIG. 1 is a front sectional view showing a configuration of an apparatus for detecting the operation of a spring hanger according to the present invention, and FIG. 2 is a sectional view showing a main part of the present invention.

The present invention relates to a spring hanger having a case (10) and a spring (20) installed inside the case (10), wherein a reciprocating motion value of the spring (20) So that it can be visually or remotely detected.

For this purpose, the spring operation detection device 100 of the present invention includes a position dashboard 30 positioned at the upper end of the spring 20 and moving in the vertical direction according to the compression displacement of the spring 20, A cylinder 130 having a piston rod 110 installed to be interlocked with a vertical movement of the spring 130 and a piston 130 installed at an output portion of the cylinder 130, And a pressure gauge 142 (144) capable of detecting whether the spring 20 is properly operated by measuring the change of the spring 20.

As shown in the drawing, the spring 20 is preferably a coil spring, and the position dash plate 30 is moved in the vertical direction according to the compression displacement of the spring 20 at both sides of the case 10 It is preferable that openings are formed on both sides of the case 10, and the position dash plate 30 is exposed through the openings.

The position dash plate 30 can be moved in the vertical direction in accordance with the compression displacement of the spring 20 through the opening and the spring 20 ) Can be detected.

However, in order to detect whether or not the spring 20 is compressed through the position of the position dash panel 30, the worker has to ascend and look up to the spring hanger. Thus, in the present invention, A cylinder 130 having a piston rod 110 installed to be interlocked with the movement of the position dash plate 30 in the vertical direction, A pressure gauge 142 (144) installed at an output portion of the spring 130 for detecting the operation of the spring 20 by measuring the amount of reciprocation according to the compression displacement of the spring 20 by a change in pressure, Respectively.

The piston rod 110 is installed at one side of one side of the position dash plate 30 exposed to the outside, and at least one side of the position dash plate 30 penetrates the case 10 So that the piston rod 110 can be installed by being exposed to the outside for a predetermined length.

When the piston rod 110 moves up and down with the position dash plate 30 in a state where the cylinder 130 is fixed, the fluid can be outputted according to the pressure. That is, the cylinder 130 is fixed at one side of the case 10.

In the present invention, a fixing plate 50 for connecting and fixing the lower end of the case 10 and the lower end of the cylinder 130 is applied. The fixing plate 50 is installed between the case 10 and the cylinder 130 so that the cylinder 130 can be installed next to the case 10.

2, the cylinder 130 according to the present invention includes a first chamber 130b disposed on both sides of the piston 112 and a second chamber 130b disposed on both sides of the piston 112, .

The pressure gauges 142 and 144 are installed on both output sides of the cylinder 130 and measure the amount of reciprocating motion according to the compression displacement of the spring 20 by a change in pressure, It is installed so that it can detect whether it works properly.

That is, the pressure is checked through the cylinder 130 to see how much load is applied to the spring 20.

The spring operation detecting apparatus 100 according to the present invention is installed between the first chamber 130b and the second chamber 130a of the cylinder 130 and detects the operation of the first chamber 130b or the second chamber 130a The bypass pipe 152 and the bypass pipe 154 may be formed in a manner to prevent the fluid passing through the bypass pipes 152 and 154 from flowing in only one direction to flow backward. Check valves 162 and 164 are installed.

In this case, since the cylinder 130 is a double acting cylinder, the bypass pipe includes a first bypass pipe 152 for supplying a fluid from the first chamber 130b to the second chamber 130a, And a second bypass pipe 154 for supplying fluid from the second chamber 130a to the first chamber 130b. The first bypass pipe 152 and the second bypass pipe 154 are connected to each other, Check valves 162 and 164 may be provided.

The check valves 162 and 164 are disposed in the first chamber 130b so that the fluid passing through the bypass pipe is directed in one direction, The check valve 164 provided in the second bypass pipe 154 can supply the fluid only from the second chamber 130a to the first chamber 130b so that the fluid can be supplied only to the first chamber 130a, And flows in one direction.

At this time, it is preferable that the pressure at which the check valves 162 and 164 are opened is adjustable according to the pressure information measured from the pressure gauges 142 and 144. That is, when the pressure information measured from the pressure gauges 142 and 144 exceeds a predetermined range, the check valves 162 and 164 can be opened, and a control unit (not shown) May be further included.

The present invention is characterized in that the amount of reciprocation according to the compression displacement of the spring 20 through the pressure gauges 142 and 144 is measured by a change in pressure and can be visually checked. That is, the operator can check whether or not the spring is properly operated by the user through the pressure gauges 142 and 144 without going up to a high ceiling.

The lower end of the piston rod 110 is exposed to the outside of the cylinder 130 and the lower end of the piston rod 110 is provided with an identification mark 114a ) 114b.

The identification marks 114a and 114b may be formed in the form of a scale, or may be formed in a band shape having different colors so as to facilitate identification even at a long distance.

For example, if the spring 20 is not compressed (referred to in the industry as a "cold line position") only the blue identification mark 114a is exposed at the lower end of the piston rod 110, , The piston rod 110 is lowered to the lower side, so that the red identification mark 114a (see FIG. 3) is displayed together with the blue identification mark 114a May be exposed to the lower end of the piston rod 110. [

The number, color, spacing, etc. of the identification marks 114a and 114b can be freely set as the case may be. The change in pressure of the spring 20 formed at the lower end of the piston rod 110 can be visually recognized If you can check it, you can apply it in various ways.

In this way, the operator can check whether or not the spring is properly operated with the naked eye even if the worker does not go up to the high ceiling.

In addition, a display device (not shown) for receiving the pressure information measured from the pressure gauges 142 and 144 and outputting the operation status of the spring 20 to the outside so as to measure the operation of the spring with more accurate data (Not shown).

The display device is installed in a work space where a worker works, and is easily visible to a worker. Pressure data measured from the pressure gauges 142 and 144 are transmitted as data, ) Can be checked.

Therefore, it is possible to check the operation of the spring by receiving data from a long distance, thereby enhancing the convenience of the operator and the work efficiency.

FIG. 3 is a front sectional view showing a state in which a spring is lowered in the device for detecting the operation of the spring hanger according to the present invention, FIG. 4 is a front sectional view showing a state in which a spring is raised in the device for detecting the operation of the spring hanger according to the present invention The piston 60 is filled with water and the spring 20 is compressed by the load so that the position dash plate 30 is lowered by the compression of the spring 20 and the piston rod 110 Down.

Therefore, the red identification mark 114a is displayed on the lower end of the piston rod 110 together with the blue identification mark 114a, and the pressure gauge 144 detects the amount of reciprocation according to the compression displacement of the spring 20, .

At this time, if the pressure information measured from the pressure gauge 144 exceeds a predetermined range, the check valve 162 is opened and the first chamber 130b is opened from the first chamber 130b through the first bypass pipe 152, (130a).

The pressure gauge 142 is connected to the pressure gauge 142 through a display device (not shown) that receives the pressure information measured by the pressure gauges 142 and 144 and outputs the operation of the spring 20 to the outside. The pressure information measured from the pressure sensor 144 is transmitted as data and the presence or absence of the operation of the spring 20 can be checked.

On the contrary, when the pipe 60 is filled with water and rolling occurs to raise the pipe, the spring 20 and the position dashboard 30 are lifted up and the piston rod 110 is lifted upward, As shown in FIG. 4, it can be visually distinguished by a change in the position of the identification mark 114a.

In this case, since the piston 112 is moved upward together with the piston rod 110 and the second chamber 130a is compressed, the pressure gauge 142 adjusts the amount of reciprocation according to the compression displacement of the spring 20, .

At this time, when the pressure information measured from the pressure gauge 142 exceeds a predetermined range, the check valve 164 is opened and the second chamber 130a is opened from the second chamber 130a through the second bypass pipe 154, (130b).

The pressure gauge 142 is connected to the pressure gauge 142 through a display device (not shown) that receives the pressure information measured by the pressure gauges 142 and 144 and outputs the operation of the spring 20 to the outside. The pressure information measured from the pressure sensor 144 is transmitted as data and the presence or absence of the operation of the spring 20 can be checked.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and variations and modifications may be made without departing from the scope of the invention. It will be understood that the present invention can be changed.

10: Case 20: Spring
30: Position dashboard 100: Spring operation detection device
110: piston rod 130: cylinder
142, 144: pressure gauge 152, 154: bypass pipe
162, 164: Check valve

Claims (7)

A spring hanger comprising a case and a spring provided inside the case,
A position gauge located at an upper end of the spring and moving in a vertical direction according to the compression displacement of the spring, at least one of the one side portion being exposed to the outside through the case;
And a piston rod installed on the exposed one side of the position dash plate and installed to be interlocked with the movement of the position dash plate in the vertical direction, wherein when the piston rod is moved up and down in association with the position dash plate A cylinder for outputting fluid according to the pressure;
A pressure gauge installed at an output portion of the cylinder and capable of sensing whether the spring is operating properly by measuring a reciprocating momentum according to a compression displacement of the spring as a change in pressure;
A bypass tube installed between the first chamber and the second chamber of the cylinder to bypass the first chamber or the second chamber when a predetermined pressure is applied thereto; And
A check valve for preventing the fluid flowing through the bypass pipe from flowing backward in one direction only;
Wherein the spring hanger is a spring hanger. The method according to claim 1,
Wherein the cylinder comprises a first chamber provided on both sides of the piston and a double-acting cylinder in which an oil pressure acts on both sides of the second chamber,
Wherein the bypass tube comprises a first bypass tube for supplying fluid from the first chamber to the second chamber and a second bypass tube for supplying fluid from the second chamber to the first chamber, ,
And a check valve is installed in each of the first bypass pipe and the second bypass pipe. The method of claim 2,
Further comprising a control unit for controlling the check valve to be opened when pressure information measured from the pressure gauge exceeds a predetermined range. The method according to claim 1,
And a display device for receiving pressure information measured from the pressure gauge and outputting an operation state of the spring to the outside. The method of claim 4,
Wherein the display device is installed at a remote location and receives pressure information measured from the pressure gauge and receives data to check whether the spring operates or not. The method according to claim 1,
Wherein the position dash plate is exposed to the outside through both sides of the case so as to move in the vertical direction according to the compression displacement of the spring at both sides of the case, and the piston rod is installed at one side of the case Spring detection device in spring hanger. The method according to claim 1,
Wherein the lower end of the piston rod is exposed to the outside of the cylinder and an identification mark is provided on the lower end of the piston rod so that a change in the pressure of the spring can be visually checked. .

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