KR102464861B1 - Guideline value acquisition device of supporting apparatus for powerplants pipes and inspection maintenance background management system using this - Google Patents

Abstract

The present invention relates to a base that is detachable to a pipe support device and has an electronic circuit board array so that it can be added-on without changing the structure of a spring hanger (or snubber), which is one of the existing support devices for piping. , a potentiometer electrically connected to the electronic circuit board and embedded with a resistor and seated and fixed on the base; a wiper part movable along the formation direction of the potentiometer to convert a change in resistance value of the resistor into displacement; and a pointer value detection sensor housing which is mounted and includes a guide part for guiding the movement of the wiper part, wherein the electronic circuit board is embedded in the pointer value detection sensor housing to convert the pointer value information into a digital signal, In the maintenance or predictive maintenance work for piping support devices that require management of guide values (displacement values) such as spring hangers and snubbers in power plants, It relates to a guide value acquisition device and an inspection and maintenance history management system using the same.

Description

A device for obtaining a guideline value for a support device for power generation piping and an inspection and maintenance history management system using the same

The present invention relates to a device for acquiring a guideline value of a support device for power generation piping and a maintenance history management system using the same, and more particularly, to a pipe support that requires management of a guideline value (displacement value) such as a spring hanger and a snubber in a power plant. It relates to a guide value acquisition device for a support device for power generation piping for efficiently acquiring and managing guide values in maintenance or predictive maintenance work targeting devices, and an inspection and maintenance history management system using the same.

Currently, data obtained from the guideline value of the pipe support device is used to determine the condition and soundness of the pipe in the power plant.

However, the existing management system adopts the method of visually reading the guide value of the pipe support device on site, writing it down, and then entering it again into a computer.

In addition, the existing management system is installed in a high-altitude area, so it is difficult to access, or in the case of a pipe support device installed in a dark and low-illuminance area due to the nature of the site, human errors such as erroneous entry may occur, and it is inefficient to manage a large amount of data. There is this.

In addition, the existing management system is at the level of planned maintenance that responds piecemeal when abnormalities are detected after inspection, and it is necessary to change to a preventive maintenance system that can manage, analyze, and predictably respond to massive amounts of data in the medium and long term.

Registered Patent No. 10-2192293

The present invention was invented to improve the above problems, and it is possible to efficiently acquire and manage the guideline value in the maintenance or predictive maintenance work for the pipe support device that requires management of the guideline value (displacement value). It is to provide a guide value acquisition device for the support device for power generation piping and an inspection and maintenance history management system using the same.

In order to achieve the above object, the present invention is detachable from the pipe support device so that it can be added-on without changing the structure of the spring hanger (or snubber), which is one of the existing support devices for piping. and a base on which an electronic circuit board is arrayed, a potentiometer electrically connected to the electronic circuit board and having a built-in resistor to be seated and fixed to the base, and a formation direction of the potentiometer to convert a change in resistance value of the resistor into displacement and a pointer value detection sensor housing including a movable wiper part and a guide part mounted on the base to guide movement of the wiper part, wherein the electronic circuit board is embedded in the pointer value detection sensor housing to digitally display the pointer value information It will be possible to provide a guide value acquisition device of the support device for power generation piping, characterized in that the conversion into a signal.

Here, a terminal device module that is portable by a guide value checker and provides a terminal point (or port) capable of collecting/storing guide value information of the guide value detection sensor housing and the electronic circuit board, and the terminal device module It is characterized in that it further comprises a portable device that can collect/store the guide value information of the guide value detection sensor housing and the electronic circuit board by connecting it, and can additionally input check items for the spring hanger (or snubber). .

At this time, the potentiometer includes a first flat plate-shaped first contact piece electrically connected to the electronic circuit board, and a flat plate-shaped first measurement in which a resistor extending from the first contact piece and in contact with the wiper unit is embedded. A linear measuring part including a piece, or a second contact piece having a flat plate shape electrically connected to the electronic circuit board, and a ring-shaped resistor extending from the second contact piece and in contact with the wiper unit is built in. and an arc-shaped measuring part including a second measuring piece, wherein the wiper part is reciprocally mounted on the first measuring piece or the second measuring piece while being moved by the guide part mounted on the base. .

In addition, constituting the guide part, the first movement having a lower surface facing the upper surface of the base and one side of the upper surface of the base to support the mover reciprocating on the first measurement piece, the first movement A first guide block having a guide rib, constituting the guide part, is detachably coupled to the other side of the upper surface of the base, and has a lower surface facing the other edge of the upper surface of the mover and extends to face the first movement guide rib a second guide block having a second movement guide rib, and a movement guide slot formed by the first movement guide rib and the second movement guide rib, which is formed by the first movement guide rib and the second movement guide rib, protruding from the upper surface of the mover, constituting the wiper Accordingly, a reciprocating protrusion that is integrally interlocked with the mover and the wiper portion are formed. a first measurer mounted on a pole and supported in a direction to depress the first measuring piece and to calculate a displacement value by contact with a resistor inside the first measuring piece according to the reciprocation of the mover; a first receiving groove recessed upwardly from the lower surface of the mover to accommodate the upper side; It characterized in that it further comprises a first support spring for generating a resilient force in the pushing direction to the side.

In addition, as constituting the guide part, it is detachably coupled to one side of the upper surface of the base to support the rotation of the rotor of the wiper part on the second measurement piece, and has a circular arc shape having an inner circumferential surface facing the outer circumferential surface of the rotor. 3 guide blocks, a cover piece constituting the guide portion, the cover piece covering the upper surface of the third guide block and having a lower surface facing the upper surface of the rotor, and the wiper portion, from the upper surface of the rotor A rotating protrusion that protrudes through a through hole through the cover piece and integrally interlocks with the rotor, and a rod-shaped rotary lever that passes through the rotor and protrudes from the upper surface of the rotating protrusion, constituting the wiper part; , constituting the wiper part, which is mounted on the lower surface of the rotor and supported in the direction of pressing down the second measurement piece, the displacement value by contact with the resistor inside the second measurement piece according to the rotation of the rotor A second measurer to calculate In contact with the surface, it characterized in that it further comprises a second support spring for generating a resilient force in a direction for pushing the second measuring member to the side of the second measuring side seated on the base.

On the other hand, the present invention is a system that provides the following listed functions by reprocessing (processing/analysis, etc.)

a) Implementation of the guideline value chart according to the location of the pipe support device

b) Implementation of guideline value chart according to the time of inspection

c) Inspection report output (Auto Reporting) function

d) Inspection using a guide value acquisition device for a support device for power generation piping, characterized in that it includes a short/medium/long-term maintenance plan establishment function of a spring hanger (or snubber) based on past inspection/maintenance history data A maintenance history management system may be provided.

In addition, the present invention provides a first step of extracting characteristics including the direction, degree, and speed of the change of the guideline value over time from the guideline value information for the implementation of the short-term, medium-term and long-term maintenance planning function of the history management system;

a second step of determining a maintenance request time of each spring hanger or snubber based on the characteristics extracted in the first step;

Based on the past inspection and maintenance history data and the maintenance request time information derived in the second step, a third determining coefficient of correlation between the guide value status of individual spring hangers or snubbers and the maintenance request time that varies depending on the change pattern step;

Comprising a fourth step of correcting the maintenance request time of the spring hanger (or snubber) by applying the correlation coefficient determined in the third step to the current state and change characteristics of individual spring hangers or snubber guide values Of course, it is also possible to provide an inspection and maintenance history management method using the guide value acquisition device of the support device for power generation piping.

According to the present invention having the above configuration, the following effects can be achieved.

First, the present invention does not require additional processing because it can be added-on to an already installed pipe support device using magnetism, is easy to install in a short period of time, and allows flexible design changes to various types of pipe support devices. have possible effects.

And, the present invention establishes an efficient system of the existing maintenance work; Data can be easily received by connecting a small portable device to the terminal device module that collects/stores the guide value of the pipe support device.

Accordingly, the present invention has the advantages of reducing human errors due to visual reading and handwriting, and simplifying procedures by reducing repetitive tasks.

In addition, the present invention can improve worker safety.

That is, the present invention has the effect that it is possible to perform remote inspection through the guide value detection sensor module and the terminal device module, so that it is possible to minimize the work at high altitude for reading the guide value of the pipe support device installed in most high places.

1 is a perspective conceptual view showing the exterior of a guide value detection sensor housing, which is a main part of a guide value acquisition device of a support device for power generation piping according to an embodiment of the present invention;
2 and 3 are exploded perspective conceptual views showing the overall coupling relationship of the pointer value detection sensor housing, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention;
4 and 5 are exploded perspective conceptual views showing the overall coupling relationship of the pointer value detection sensor housing, which is a main part of the guide value acquisition device of the support device for power generation piping according to another embodiment of the present invention;
6 is a view showing the internal structure of the guide value detection sensor housing, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention, and FIG. 6 (a) is the via- It is a conceptual diagram of a via line, and FIG. 6(b) is a conceptual diagram of a vib-vib line of FIG. 1(b).
7 and 8 are perspective conceptual views showing a state in which the guide value detection sensor housing, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention, is installed in the pipe support device;
9 is a block diagram showing the overall configuration of an intelligent pipe support inspection/maintenance history management technology according to an embodiment of the present invention;
10 is a work flow diagram of an intelligent pipe support inspection/maintenance history management system according to an embodiment of the present invention;

Advantages and features of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to completely inform those of ordinary skill in the art to which the present invention pertains to the scope of the present invention.

And the invention is only defined by the scope of the claims.

Thus, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described to avoid obscuring the present invention.

In addition, like reference numerals refer to like elements throughout the specification, and terms used (referred to) in this specification are for the purpose of describing the embodiments and are not intended to limit the present invention.

In this specification, the singular also includes the plural unless specifically stated in the phrase, and elements and operations referred to as 'comprising (or having)' do not exclude the presence or addition of one or more other elements and operations. .

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

Also, terms defined in commonly used dictionary are not to be interpreted ideally or excessively unless defined.

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

First, FIG. 1 is a perspective conceptual view showing the exterior of a pointer value detection sensor housing 100, which is a main part of a guide value acquisition device of a support device for power generation piping according to an embodiment of the present invention.

2 and 3 are exploded perspective views illustrating the overall coupling relationship of the pointer value detection sensor housing 100, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention.

4 and 5 are exploded perspective views illustrating the overall coupling relationship of the pointer value detection sensor housing 100, which is a main part of the guide value acquisition device of the support device for power generation piping according to another embodiment of the present invention.

And, Figure 6 shows the internal structure of the guide value detection sensor housing 100, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention, Figure 6 (a) is ( A) is a schematic cross-sectional view of the via-via line, and FIG. 6(b) is a cross-sectional view of the vib-vib line of FIG. 1(b).

7 and 8 are perspective views showing a state in which the guide value detection sensor housing 100, which is a main part of the guide value acquisition device of the support device for power generation piping according to an embodiment of the present invention, is installed in the pipe support device 200 It is a conceptual diagram.

In addition, Figure 9 is a block diagram showing the overall configuration of the intelligent pipe support inspection / maintenance history management technology according to an embodiment of the present invention.

In addition, Figure 10 is a work flow diagram of the intelligent pipe support inspection / maintenance history management system according to an embodiment of the present invention.

As shown, the present invention may include a guide value detection sensor housing 100 to enable additional mounting (add-on) without changing the structure of a spring hanger (or snubber), which is one of the existing support devices for piping. can

Here, the guide value detection sensor housing 100 may include a base 110 , a potentiometer 120 , a wiper unit 130 , and a guide unit 140 .

The base 110 is detachable from the pipe support device 200, and the electronic circuit board 111 is arrayed, and the space and area in which the potentiometer 120, the wiper part 130, and the guide part 140, which will be described later, are mounted. is designed to provide

The potentiometer 120 is electrically connected to the electronic circuit board 111 , has a built-in resistor (hereinafter not shown), and is seated and fixed to the base 110 .

The wiper unit 130 is movable along the formation direction of the potentiometer 120 to convert a change in the resistance value of the resistor into displacement.

The guide unit 140 is mounted on the base 110 to guide the movement of the wiper unit 130 .

Accordingly, the electronic circuit board 111 is embedded in the pointer value detection sensor housing 100 to convert the pointer value information into a digital signal.

It goes without saying that the present invention can be applied to the above-described embodiments, and can also be applied to the following various embodiments.

First, of course, the guide value detection sensor housing 100 may further include at least one magnet 150 detachably provided on the bottom surface of the base 110 so as to be detachably attached to the pipe support device 200 . .

In some cases, the contact surface of the base 110 to the pipe support device 200 may be manufactured in a shape corresponding to the outer surface of the pipe support device 200 in order to increase the adhesive force due to the magnetism of the magnet 150 , of course. to be.

The potentiometer 120 may include a linear measuring unit 121 or an arc-shaped measuring unit 122 as shown in FIGS. 2 and 3 and FIGS. 4 and 5 .

The linear measuring unit 121 includes a flat first contact piece 121a electrically connected to the electronic circuit board 111 and extending from the first contact piece 121a to contact the wiper unit 130 . An embodiment of a structure including the first measurement piece 121b having a flat plate shape in which a resistor is embedded may be applied.

The arc-shaped measuring unit 122 includes a flat second contact piece 122a electrically connected to the electronic circuit board 111 and extending from the second contact piece 122a to contact the wiper unit 130 . An embodiment of a structure including a ring-shaped second measurement piece 122b in which a resistor is incorporated may be applied.

It can also be understood that the wiper unit 130 to be described later is mounted reciprocally on the first measurement piece 121b or the second measurement piece 122b while being guided by the guide unit 140 mounted on the base 110 to move. .

On the other hand, the wiper unit 130 is shown with reference to FIGS. 2, 3 and 6 (a), the reciprocating protrusion piece 131p, the reciprocating lever 132, the first measurer 133a, and the first receiving groove 131a. and a first support spring 134a , and the guide unit 140 may include first and second guide blocks 141 and 142 .

First, the first guide block 141 is detachably coupled to one side of the upper surface of the base 110 to support the mover 131 of the wiper unit 130 reciprocating on the first measurement piece 121b, and the mover 131 . It is provided with a first movement guide rib (141r) having a lower surface facing the upper surface of one edge.

The second guide block 142 is detachably coupled to the other side of the upper surface of the base 110, and has a lower surface facing the upper surface of the mover 131 and a second movement extending to face the first movement guide rib 141r. It is provided with a guide rib (142r).

The reciprocating protrusion piece 131p protrudes from the upper surface of the mover 131 and is integral with the mover 131 along the movement guide slot 140s formed by the first movement guide rib 141r and the second movement guide rib 142r. will be linked with

The reciprocating lever 132 is in the shape of a rod protruding from the upper surface of the reciprocating protrusion piece 131p through the mover 131 .

The first measurer 133a is mounted on the lower surface of the mover 131 and supported in a direction to depress the first measuring piece 121b. Displacement value is calculated by contact.

The first accommodating groove 131a is recessed upwardly from the lower surface of the mover 131 to accommodate the upper side of the first measurer 133a.

The first support spring 134a is accommodated in the first receiving groove 131a and in contact with the upper end surface of the first measurer 133a, in a direction in which the first measurer 133a pushes toward the first measuring piece 121b. to generate elasticity.

Here, the reciprocating lever 132 may be applied to the embodiment of the structure including the first lever head 132h and the first lever fixing nut 132n to the first lever body 132b.

At this time, the first lever body 132b is recessed upwardly from the lower surface of the mover 131 separately from the first receiving groove 131a and penetrates to the upper surface of the reciprocating protrusion piece 131p. In the first mounting hole 131b. will be combined

The first lever head 132h is formed at the lower end of the first lever body 132b and is seated and fixed on the first fixed step 131c formed to be stepped along the lower end edge of the first mounting hole 131b.

The first lever fixing nut 132n is screwed through the upper end of the first lever body 132b and fixed to the upper surface of the reciprocating protrusion piece 131p.

On the other hand, the present invention constitutes the guide part 140, it may further include a stopper block 143 mounted on the upper surface of the base 110 and closing the open end of the movement guide slot 140s.

The stopper block 143 is provided to prevent the mover 131 from being separated from the upper surface of the base 110 while the mover 131 reciprocates.

On the other hand, in the present invention, the guide part 140 of the sensor housing 100 to which the arc-shaped measuring part 122 is applied has a third guide block 144 and a cover piece 144c as shown in FIGS. 4, 5 and 6 (b). ), and the wiper part 130 has a structure including a rotary protrusion piece 137p, a rotary lever 139, a second measurer 133b, a second receiving groove 137a, and a second support spring 134b. Of course, the embodiment may be applied.

First, the third guide block 144 is detachably coupled to one side of the upper surface of the base 110 to support the rotation of the rotor 137 of the wiper unit 130 on the second measurement piece, and It is an arc-shaped member having an inner circumferential surface facing the outer circumferential surface.

The cover piece 144c covers the upper surface of the third guide block 144 and has a lower surface facing the upper surface of the rotor 137 .

The rotating protrusion piece 137p protrudes from the upper surface of the rotor 137 through the through hole 144h penetrating through the cover piece 144c and is integrally interlocked with the rotor 137 .

The rotary lever 139 constitutes the wiper unit 130 , and is a rod-shaped member protruding from the upper surface of the rotary protrusion piece 137p through the rotor 137 .

The second measurer 133b is mounted on the lower surface of the rotor 137 and is supported in a direction in which the second measuring piece 122b is depressed, and the resistance body inside the second measuring piece 122b according to the rotation of the rotor 137 . The displacement value is calculated by contact with

The second accommodating groove 137a is formed to be depressed upwardly from the lower surface of the rotor 137 to accommodate the upper side of the second measurer 133b.

The second support spring 134b is accommodated in the second receiving groove 137a and is in contact with the upper end surface of the second measurer 133b, and the second measuring piece 133b is seated on the base 110. (122b) is to generate an elastic force in the pushing direction.

Here, it can be seen that the rotary lever 139 has a structure in which the second lever head 139h and the seating rotary rod 139r are provided on the second lever body 139b.

At this time, the second lever body 139b is recessed upwardly from the lower surface of the rotor 137 separately from the second receiving groove 137a, and a second mounting hole 137b that penetrates to the upper surface of the rotating protrusion piece 137p. will be coupled to

The second lever head 139h is formed at the upper end of the second lever body 139b and is seated and fixed on the upper surface of the rotating protrusion piece 137p.

The seating rotary rod 139r is formed to protrude stepwise from the lower end surface of the second lever body 139b and is seated and fixed in the shaft groove 119 recessed in the base 110 .

Here, the reciprocating clip 136a constituting the wiper part 130 is coupled to the first measuring body 135a, and the distal end of the first lever body 132b of the reciprocating lever 132 is latched and fixed. A slot (136s) is formed.

Accordingly, the first measuring body 135a constituting the wiper unit 130 receives the driving force as shown in FIG. 7 and moves in parallel with the movement guide slot 140s.

In addition, the rotary transfer clip 136b constituting the wiper part 130 is coupled to the second measuring body 135b, and the distal end of the second lever body 139b of the rotary lever 139 is coupled.

Accordingly, the second measuring body 135b constituting the wiper unit 130 can be rotated within a predetermined angular range around the rotary lever 139 by receiving the driving force as shown in FIG. 8 .

Therefore, the guide value acquisition device of the support device for power generation piping is portable as shown in FIG. 9 , and can collect/store the guide value information of the guide value detection sensor housing 100 and the electronic circuit board 111 . It may further include a terminal device module that provides an end point (or port).

In addition, the guide value acquisition device of the support device for power generation piping is connected to the terminal device module to collect/store the guide value information of the guide value detection sensor housing 100 and the electronic circuit board 111, and a spring hanger (or switch Nuver) may be further provided with a portable device that can additionally input the check items.

In addition, a system for providing the following listed functions by reprocessing (processing/analysis, etc.) of the guide value information and inspection items collected and stored in the aforementioned portable device may be provided.

in other words,

a) Implementation of a guideline value chart according to the location of the pipe support device 200

b) Implementation of guideline value chart according to the time of inspection

c) Inspection report output (Auto Reporting) function

d) Short/medium/long-term maintenance plan establishment function of spring hanger (or snubber) based on past inspection/maintenance history data.

On the other hand, for the implementation of the short-term, medium-term and long-term maintenance and maintenance plan establishment function of the above-described history management system, the maintenance history management using the guide value acquisition device of the support device for power generation piping is carried out through the following steps with reference to FIG. 10 . it could be

First, characteristics including the direction, degree, and speed of the change of the guide value over time are extracted from the guide value information (first step).

Next, the characteristics extracted in the first step determine when the individual spring hangers or snubbers are required to be serviced (the second step).

Then, based on the past inspection and maintenance history data and the maintenance request time information derived in the second step, the correlation coefficient between the guide value status of individual spring hangers or snubbers and the maintenance request time that varies depending on the change pattern is determined. (3rd step).

Thereafter, by applying the correlation coefficient determined in the third step to the current state and change characteristics of the individual spring hanger or snubber guide value, the maintenance request time of the spring hanger (or snubber) is corrected (the fourth step).

As described above, the present invention provides a guideline for a support device for power generation piping that enables efficient acquisition and management of a guideline value in maintenance or predictive maintenance work for a pipe support device requiring management of a guideline value (displacement value). It can be seen that the basic technical idea is to provide a value acquisition device and an inspection and maintenance history management system using the same.

And, within the scope of the basic technical spirit of the present invention, many other modifications and applications are also possible for those of ordinary skill in the art.

100...Instruction value detection sensor housing
110...bass
111...Electronic circuit board
119...shaft groove
120...Potentiometer
121...linear measuring part
121a...first contact piece
121b...the first measurement piece
122... arc measuring part
122a...second contact piece
122b...Second measurement piece
130...Wiper part
131...Movers
131a... first receiving groove
131b...First mounting hole
131c...First fixed step
131p...Round Trip Stone
132...reciprocating lever
132b...First lever body
132h...first lever head
132n...First lever fixing nut
133a...first measurer
133b...Second Measurer
134a...first support spring
134b...Second support spring
135a...First measurement object
135b...Second measurement object
136a...reciprocating clip
136b...Rotary feed clip
136s...first jamming slot
137...rotor
137a...Second receiving groove
137b...Second mounting hole
137p...Rolling Stones
139...rotating lever
139b...Second lever body
139h...2nd lever head
139r...Seating Rotating Rod
140...Guide Department
140s...during my slot
141...First guide block
141r...First movement guide rib
142...Second guide block
142r...Second movement guide rib
143...stopper block
144...3rd guide block
144c...cover edition
144h...through air
150...magnet
200...Pipe support device

Claims (7)

A base that is detachable from a pipe support device and has an electronic circuit board arrayed thereon so that it can be added-on without changing the structure of a spring hanger (or snubber), which is one of the existing support devices for piping, and the electronic circuit board; A potentiometer electrically connected to a circuit board and having a built-in resistor and mounted and fixed to the base, a wiper part movable along the formation direction of the potentiometer to convert a change in resistance value of the resistor into displacement; It includes a guide value detection sensor housing including a guide portion for guiding the movement of the wiper portion,
The potentiometer is
Linear measurement including a flat first contact piece electrically connected to the electronic circuit board, and a flat first measurement piece extending from the first contact piece and having a built-in resistor in contact with the wiper unit wealth, or
An arc-shaped measurement including a flat second contact piece electrically connected to the electronic circuit board and a ring-shaped second measurement piece extending from the second contact piece and having a built-in resistor in contact with the wiper unit including wealth,
The guide part,
A first guide block having a first movement guide rib that is detachably coupled to one side of the upper surface of the base to support reciprocation of the mover of the wiper part on the first measurement piece, and has a lower surface facing the upper surface of the mover class,
A second guide block coupled to and detached from the other side of the upper surface of the base, the second guide block having a lower surface facing the other edge of the upper surface of the mover and having a second movement guide rib extending to face the first movement guide rib;
The electronic circuit board is embedded in the guide value detection sensor housing to convert the guide value information into a digital signal.
delete delete The method according to claim 1,
The terminal device module portable by the guide value checker provides a terminal point (or port) capable of collecting/storing guide value information of the guide value detection sensor housing and the electronic circuit board,
The portable device connected to the terminal device module may collect/store the guide value information of the guide value detection sensor housing and the electronic circuit board, and may additionally input check items for the spring hanger (or snubber). A guide value acquisition device for a support device for power generation piping.
The method according to claim 1,
The wiper part is guided by the guide part mounted on the base and is reciprocally mounted on the first measurement piece or the second measurement piece.
The method according to claim 1,
a reciprocating protrusion that protrudes from the upper surface of the mover and integrally interlocks with the mover along a movement guide slot formed by the first movement guide rib and the second movement guide rib constituting the wiper part;
a rod-shaped reciprocating lever constituting the wiper part, which penetrates the mover and protrudes from the upper surface of the reciprocating protrusion piece;
As constituting the wiper part, it is mounted on the lower surface of the mover and supported in a direction to depress the first measurement piece, and the displacement value is calculated by contact with the resistance body inside the first measurement piece according to the reciprocation of the mover. and a first measurer,
a first accommodating groove recessed upwardly from the lower surface of the mover to accommodate the upper side of the first measurer;
It is accommodated in the first receiving groove and comes in contact with the upper end surface of the first measurer, and further comprising a first support spring for generating an elastic force in a direction in which the first measurer pushes to the first measuring side. A device for acquiring a guideline value for a support device for power generation piping.
The method according to claim 1,
A third guide in the shape of an arc that constitutes the guide part, is detachably coupled to one side of the upper surface of the base to support rotation of the rotor of the wiper part on the second measurement piece, and has an inner peripheral surface facing the outer peripheral surface of the rotor block and
a cover piece constituting the guide part, covering the upper surface of the third guide block and having a lower surface facing the upper surface of the rotor;
a rotary protrusion that forms the wiper part, which protrudes from the upper surface of the rotor through a through hole penetrating through the cover piece, and is integrally interlocked with the rotor;
a rod-shaped rotary lever that passes through the rotor and protrudes from the upper surface of the rotary protrusion, constituting the wiper part;
As constituting the wiper part, it is mounted on the lower surface of the rotor and supported in a direction in which the second measurement piece is depressed, and the displacement value is measured by contact with a resistor inside the second measurement piece according to the rotation of the rotor. a second measurer to be calculated;
a second accommodating groove recessed upwardly from the lower surface of the rotor to receive the upper side of the second measurer;
A second support spring accommodated in the second receiving groove, in contact with the upper end surface of the second measurer, and generating a resilient force in a direction to push the second measurer to the side of the second measuring piece seated on the base. The guide value acquisition device of the support device for power generation piping, characterized in that it further comprises.

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