KR100889055B1 - System for monitoring gas leaking in expansion joint element and control method thereof - Google Patents

Abstract

Disclosed are a remote leak detection system for a stretchable unit and a control method thereof. A remote leak detection system according to the disclosed expansion and contraction system includes: a pipe member spaced apart from each other and a corrugated pipe that is stretched to connect the pipe member is stacked in a plurality of layers so that an inner space portion is formed between the corrugated pipe and the inner space portion is in communication with the inner space portion. A connection part provided with at least one pipe member, a supply part connected to one side of the connection part to supply a fluid to the inner space part, and a sensor part connected to the other side of the connection part to automatically measure the fluid pressure of the inner space part; The controller may be configured to receive a measurement value of the sensor unit to determine whether the expansion unit is damaged, and a display unit that is operated by a signal of the controller to notify the user of the leakage of the expansion unit.

Pipe member, corrugated pipe, expansion part, sensor part, control part

Description

Remote leakage detection system of the expansion and contraction and its control method {SYSTEM FOR MONITORING GAS LEAKING IN EXPANSION JOINT ELEMENT AND CONTROL METHOD THEREOF}

The present invention relates to a stretchable part, and more particularly, to a remote leak detection system and a control method of the stretched part for remotely detecting whether the stretched part having a plurality of corrugated pipes damaged.

As is well known, the expansion and contraction portion is a kind of pipe joint member using a corrugated pipe, which is a bellows type expansion pipe, so that the expansion and contraction of the length can be easily performed.

In general, piping is used in various forms in various fields such as blood vessels of modern industrial facilities, and the problem that designers face in designing such piping is expansion of pipes due to temperature change of outside air or transport fluid. To absorb the heavy stress applied to the pipe from problems such as overshrinkage, shrinkage, vibration, wind pressure and earthquake, etc. to protect the equipment and prevent accidents. The expansion and contraction part is installed to absorb the expansion and vibration.

The stretchable portion is formed of a metal material, and can be easily stretched by a plurality of corrugated shapes.

The expansion and contraction unit as described above is designed to calculate the lifespan by the calculation formula, but is installed in the field, the lifespan is shortened due to corrosion and characteristics of the site having a tolerance during installation, and the likelihood of breakage of the expansion unit increases.

However, it is difficult for the operator to easily observe the damage of the stretched part not exposed to the outside, such as the stretched part used in the condenser and the pipe of the nuclear power plant, including the stretched part exposed to the outside, or the stretched part wrapped with the insulation. Because of the safety problems, the stretcher used in nuclear power plants, etc., is difficult for the operator to directly check whether the stretchable part is damaged, thereby increasing the possibility that an accident may occur due to the leakage of fluid due to the breakage of the stretchable part. Therefore, there is a need for improvement.

The present invention has been created by the necessity as described above, the elastic portion that can prevent the increase in the occurrence of an accident due to not easily detect the leakage of the elastic portion not exposed to the outside as well as the expansion portion exposed to the outside. It is an object of the present invention to provide a remote leak detection system and a control method thereof.

Remote leakage detection system according to the present invention comprises: a pipe member spaced apart and a corrugated pipe that is stretched to connect the pipe member is laminated in a plurality of layers and the inner space portion formed between the corrugated pipe and the inner space portion A plurality of connecting parts installed in the pipe member so as to communicate with each other, a supply part connected to one side of the connecting part to supply fluid to the inner space part, and a sensor connected to the other side of the connecting part to automatically measure the fluid pressure of the inner space part And a control unit which receives the measured value of the sensor unit and determines whether the expansion unit is damaged or not, and a display unit which is operated by a signal of the control unit to inform the user whether the expansion unit is leaked or not.

Preferably, the sensor unit is characterized in that to digitally measure the pressure of the fluid in the inner space is delivered to the control unit as an electrical signal.

The display unit may include a first display member visually indicating whether the expansion part is leaked or a second display member audibly indicating whether the expansion part is leaked.

The stretchable portion includes a first wrinkle tube stacked on the outside and a second wrinkle tube stacked on the inside.

The connection part may include a plug penetrating through one side of the pipe member, and a guide member installed inside the pipe member in which the plug is installed to communicate an inner space of the plug and an inner space of the expansion and contraction part.

And, one side edge of the guide member is fixed by welding to the inner corrugated pipe of the stretchable portion, the other edge of the guide member is fixed to the inside of the pipe member by welding.

The connecting part connected to the supply part and the measuring part connected to the measuring part are installed symmetrically in a diagonal direction with respect to the axial direction of the elastic part.

The inclined member is installed to be inclined in the direction in which the fluid flows, and the cylindrical sleeve extending from the inclined member is positioned inside the elastic part.

A ring-shaped guide ring is provided at both sides of the stretchable part, and the guide ring is constrained by a restraining member.

The restraint member includes a first bending member whose one end is bent and is caught by the guide ring on one side, and a second bending member which is coupled to the first bending member and the other end is bent by the guide ring on the other side.

In addition, the connection hole provided in the guide ring in order to pass the restraining member is formed in a long hole shape.

In addition, the fluid supplied to the inner space is characterized in that any one of nitrogen, compressed air or inert gas.

According to the present invention, there is provided a control method of a remote leakage detecting system for a telescopic unit, comprising: a supply unit operation step of supplying a power supply unit by a power supply, a hydraulic supply step of supplying hydraulic pressure generated by the supply unit to an inner space between corrugated pipes, and A measuring step of measuring a pressure state of the inner space part through a sensor part connected to the inner space part, a comparing step of comparing the measured pressure measured by the sensor part with a value of a set pressure input to the controller, and the measured pressure and According to the relative magnitude of the set pressure includes a damaged part judging step for identifying the damaged part of the corrugated pipe and an alarm step for notifying the damaged part of the corrugated pipe through the display unit.

Preferably, in the damage site determination step, if the measured pressure is greater than the set pressure, it is determined that the corrugated pipe inside the inner space portion is broken, if the measured pressure is less than the set pressure corrugated pipe outside the inner space portion It is characterized by the fact that it is broken.

As described above, the remote leakage detection system and the control method of the expansion and contraction portion according to the present invention, unlike the conventional invention, a plurality of corrugated pipes provided with the expansion and contraction portion, by supplying a fluid to the inner space between the corrugated pipe to remotely pressure By measuring and measuring the breakage position of the corrugated pipe by the control unit, it is possible to easily identify the breakage of the stretchable unit regardless of whether the stretched unit is exposed or not through the display unit, thereby preventing the occurrence of an accident due to breakage of the stretchable unit.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the remote leakage detection system and its control method according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing the main configuration of the remote leakage detection system of the elastic part according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the remote leakage detection system of the elastic part shown in Figure 1, Figure 3 1 is a side cross-sectional view of FIG. 1, FIG. 4 is an enlarged view of portion "A" in FIG. 3, FIG. 5 is a view showing an installation state of the guide member in the direction "B" of FIG. Flow chart of the control method of the remote leakage detection system of the expansion unit according to an embodiment of the present invention.

The pipe member in which the passage for fluid flow is formed is a pipe shape having a circular or various cross-sectional shape, which is divided into a first pipe 1 and a second pipe 6 and is spaced apart at regular intervals, and the first pipe ( The stretchable part 20 is connected between 1) and the second pipe 6.

The first pipe 1 is composed of a first main pipe 3 and a first connection pipe 5 fixed by welding to one end of the first main pipe 3, which is an embodiment of the present invention. Only by way of example, various embodiments may be applied, including the first main pipe 3 and the first connection pipe 5 being integrally connected to form one tubular shape.

In addition, the second pipe 6 is also composed of a second main pipe 8 and a second connection pipe 7 fixed by welding to one end of the second main pipe 8, which is the present invention. According to one embodiment, various embodiments may be applied, including the second main pipe 8 and the second connection pipe 7 integrally connected to form one tubular shape.

That is, the pipe member according to the present invention is composed of the first pipe 1 and the second pipe 6, the first pipe 1 is the first main pipe 3 and the first connection pipe (5) The second pipe 6 is composed of a second main pipe 8 and a second connection pipe (7).

The corrugated pipe that is stretched to connect the spaced pipe members is stacked in a plurality of layers to form the stretchable part 20 having the inner space 95 formed between the corrugated pipes.

That is, the expansion and contraction portion 20 is the two or more corrugated pipe is superimposed, thereby forming an inner space portion 95 between the corrugated pipe and the corrugated pipe in contact with each other.

When the stretchable portion 20 is formed of two corrugated pipes, the corrugated pipe stacked on the inner side of the inner space part 95 as the first corrugated pipe 22 is formed, and the second corrugated pipe is formed on the inner corrugated pipe ( 24, and the inner space portion 95 is provided between the first wrinkle tube 22 and the second wrinkle tube (24).

In one embodiment of the present invention shows that the corrugated pipe constituting the stretchable portion 20 is made of two, which is only by the embodiment, three or more corrugated pipe to be used in the stretchable portion 20 according to the present invention Of course it can.

The pipe member is provided with a plurality of connecting portions so as to communicate with the inner space portion 95.

The connection part includes, but is not limited to, a first connection part 10 installed on the first pipe 1 and a second connection part 16 installed on the second pipe 6, but is not limited thereto. One or three or more connecting portions, including the first connecting portion 10 and the second connecting portion 16, respectively, are installed on only one side of the first pipe 2 or the second pipe 6. Optionally installed in the two pipes 6 will also be another embodiment of the connecting portion according to the present invention.

When only one connecting part is installed in the pipe member, the supply part 60 and the measuring part 70 are respectively connected to the connecting part.

In the present invention, in order to minimize the material loss due to the convenience of the assembly process and poor processing, the first connecting portion 10 is installed in the first connecting pipe 5 and the second connecting portion 16 in the second connecting pipe 7. Will be installed.

The connection part is installed inside the pipe member having the plugs 12 and 17 penetrated to one side of the pipe member, and the plugs 12 and 17 are installed, and the inner side of the plugs 12 and 17 and the elastic part ( It comprises a guide member (14, 18) for communicating the inner space portion 95 of the 20.

The connection part has a technical idea for communicating the outer space of the pipe member and the inner space part 95 of the expansion and contraction part 20, and the shape and position of the connection part in such a technical idea may be variously changed.

In more detail, the first connection pipe 5 forms a through hole, and a plug 12 having a hollow formed therein is inserted into the first connection pipe 5 so that the inside and the outside of the first connection pipe 5 are connected to the plug ( 12) to communicate.

A guide member 14 having a plate shape is provided inside the first pipe 1 on which the plug 12 is mounted, and an outer side of the first pipe 1 and the elastic part (eg, through the plug 12). The inner space portion 95 of the 20 is connected.

The second connection pipe 7 is also provided with a second connection portion 16 having the same configuration as the first connection portion 10.

The second connecting portion 16 is a guide member provided inside the second connecting pipe 7 in which the plug 17 and the plug 17 are installed to communicate the inside and the outside of the second connecting pipe 7. It consists of 18.

As shown in FIG. 5, one side edge of the guide member 14 installed in the first connecting pipe 5 is fixed by welding to a second corrugated pipe 24, which is an inner corrugated pipe of the stretchable part 20. The first welding portion 80 is formed, and the other edge of the guide member 18 is fixed to the inside of the first connecting pipe 5 by welding to form the fourth welding portion 86.

In addition, the first corrugated pipe 22 in a position where the guide member 14 is in contact with the second welding portion 82 is fixed by welding to an inner surface of the first connecting pipe 5 and the second connecting pipe 7. Will form.

Except for the portion in which the guide member 14 is located, the expansion and contraction portion 20 of the other portion is the first wrinkle pipe 22 and the second wrinkle pipe 24 is fixed to the inner surface of the first connecting pipe 5 by welding The third welding portion is formed, and at this time, one end of the first wrinkle tube 22 and the second wrinkle tube 24 maintains airtight except for the portion where the guide member 14 is located.

On the other hand, the installation state of the guide member 18 provided in the second connection portion 16 is also the same as the installation state of the guide member 14 provided in the first connection portion 10 will be omitted in detail.

By the connection state as described above, the inner space portion 95 is in communication with the first connection portion 10 and the second connection portion 16, the other boundary portion of the expansion and contraction portion 20 is welded to maintain the airtight do.

Both ends of the expansion and contraction portion 20 is provided with a ring-shaped guide ring 30, the guide ring 30 is restrained movement within the range set by the restraining member (40).

The guide ring 30 is provided with a connecting hole 34, the fixing hole 42 is formed on both sides of the male thread is inserted into the connecting hole 34 is fixed by the nut (44).

The restraining member 40 is used to prevent breakage of the stretchable portion 20 during the transport operation of the stretchable portion 20, and is selectively removed when the installation of the stretchable portion 20 is completed.

However, it also serves to limit the deformation range of the expansion and contraction portion 20 so that the expansion and contraction of the expansion and contraction portion 20 is made within the design allowable range, in this case, as well as the installation of the expansion and contraction portion 20 moves. After the completion of the restraining member 40 will continue to use.

In addition, the inclined member 52 is installed to be inclined in the direction in which the fluid flows inside the pipe member, and the cylindrical sleeve 54 extending from the inclined member 52 has an inner side of the stretchable portion 20. Located in the guide portion 50 will be configured.

By installing the guide part 50, the fluid flowing through the first pipe 1 to the second pipe 6 is not affected by the bent shape of the stretchable part 20.

The first connection portion 10 is provided with a sensor unit 70 for automatically measuring the fluid pressure of the inner space portion 95, the second connection portion 16 is a fluid to the inner space portion (95) Supply unit 60 for supplying the is installed.

The sensor unit 70 may be a pressure sensor of various methods and forms, including an analog or digital method in the technical concept for automatically measuring the fluid pressure of the inner space (95).

The control unit 72 is connected to the sensor unit 70 to receive the measured value of the sensor unit 70 to determine whether the expansion and contraction unit 20 is damaged.

The sensor unit 70 digitally measures the pressure of the fluid in the inner space 95 and transmits it to the controller 72 as an electrical signal.

The display unit 74 is connected to the control unit 72, and the display unit 74 is operated by a signal from the control unit 70 to inform the user of whether the expansion unit 20 is leaked or not.

The display unit 74 includes a first display member that visually informs whether or not the expansion and contraction portion 20 leaks, and a second display member that visually indicates whether the expansion and contraction portion 20 leaks.

The first display member visually informs the state of the expansion and contraction unit 20 using various visual information including flashing of an LED lamp or image information.

When the expansion and contraction unit 20 is formed of two corrugated pipes, when the measured pressure measured by the sensor unit 70 is larger or smaller than the set pressure input to the controller 72, the first display of the display unit 74 is displayed. The member and the second display member inform the user of the breakage of the first corrugated pipe 22, which is the outer corrugated pipe, or the second corrugated pipe 24, which is the inner corrugated pipe.

The supply unit 60 supplies a fluid to the inner space 95, and the fluid is any one of nitrogen, compressed air, or inert gas, but is not limited thereto. Alternatively, fluid may be supplied to the inner space 95.

The supply unit 60 includes a fluid supply 64 and a valve member 62 for controlling the amount of gas or fluid generated by the fluid supply 64.

The second connector 16 to which the supply unit 60 is connected and the first connector 10 to which the sensor unit 70 is connected are diagonally centered on the axial direction (horizontal direction of FIG. 3) of the expansion and contraction unit 20. It is installed symmetrically in the direction.

That is, as shown in FIG. 3, when the first connection portion 10 is installed at the upper left side, the second connection portion 16 corresponding thereto is installed at the lower right side and flows into the inner space 95. The pressure generated by the gas or the fluid can be easily measured by the sensor unit 70, but the positions of the first connection unit 10 and the second connection unit 16 are not limited thereto. Of course, various changes are possible.

The manufacturing method of the remote leakage detection system of the elastic part according to the embodiment of the present invention having the configuration as described above will be described.

It has a plug installation step of drilling holes in the spaced pipe members and installing the plugs (12, 17), respectively.

In detail, a hole is drilled in the first connection pipe 5 and the second connection pipe 7 and the plugs 12 and 17 are inserted and fixed.

In addition, the corrugated pipe has a seating step of placing the stretchable part 20 to position the stretchable part 20 stacked in a plurality of layers between the pipe members.

Then, the pipe member has a ring-shaped guide ring 30 is fixed to the guide ring 30 is fixed by welding.

In the present invention, the guide ring 30 is fixed to the first connection pipe 5 and the second connection pipe 7 for ease of assembly, respectively.

If the first connection pipe (5) and the second connection pipe (7) by drilling a hole (12, 17) to insert the work or the first connection pipe (5) and the second connection pipe (7) guide ring Even if defective products occur in the work of fixing the 30, respectively, the first connecting pipe 5 or the second connecting pipe 7 without having to replace the entire first pipe 1 or the second pipe 6 is required. ) Will save manufacturing costs.

Hereinafter, the connection state of the guide member 14 and the stretchable part 20 of the first connection part 10 will be described, and the guide member 18 and the stretchable part 20 of the second connection part 16 will be described. The connection state is omitted because it is the same as the connection state of the guide member 14 and the elastic portion 20 of the first connection portion 10.

A first connection pipe having one end of both ends of the expansion and contraction portion 20 constituting the pipe member except for a portion in which the expansion member 20 is in contact with the guide member 14 positioned below the plug 12. It has a primary welding step of welding to the inner surface of 5) to form a third welding portion 84.

That is, the stretchable portion 20 is welded to the inner surface of the first connecting pipe 5 except for the portion where the guide member 14 is in contact with each other, thereby forming a third welding portion 84 to achieve airtightness.

In addition, the corrugated pipe contacting the pipe member in the expansion and contraction portion 20 located in the contact portion of the guide member 14 is welded to the inner surface of the pipe member to form a second welding portion 82, the guide member ( The corrugated pipe in contact with 14 has a secondary welding step in which the corrugated pipe is welded to the guide member 14 to form the first welding part 80.

That is, in the stretchable portion 20 in contact with the guide member 14, the first wrinkle pipe 22 is fixed to the inner surface of the first connection pipe 5 by welding to form a second weld portion 82. The second wrinkle tube 24 is fixed to the guide member 14 by welding to form a first welding part 80.

In addition, the edge portion of the guide member 14, which is not in contact with the stretchable part 20, is fixed to the inner surface of the pipe member by welding to have a third welding step of forming a fourth welding part 86.

To recapitulate this, after welding other parts of the pipe member along the inner surface of the pipe member in the primary welding step except for the part contacting the guide member 14, Only the first corrugated pipe 22 is fixed to the inner surface of the pipe member by welding, and the second corrugated pipe 24 is fixed to the guide member 14, and the non-welded portion of the guide member 14 in the third welding step. To the inner surface of the pipe member by welding, in a state where the first connecting portion 10, the inner space portion 95 and the second connecting portion 16 are in communication with each other, the other part is sealed and airtight. .

After the third welding step, the guide part 50 has a guide part 50 having an inclined member 52 and a sleeve 54 installed inside the elastic part 20.

In addition, an assembly step of connecting the sensor unit 70 and the supply unit 60 to the plugs 12 and 17, respectively.

The control unit 72 is connected to the sensor unit 70, and the control unit 72 is connected to the display unit 74 including the first display member and the second display member.

The welding of the first connecting pipe 5 to the first main pipe 3 is performed together with welding to fix the second connecting pipe 7 to the second main pipe 8 by welding. You have a process.

Then, the guide ring 30 provided on both sides of the stretchable portion 20 has a process of fixing using the nut 44 and the fixing bar 42.

The control method of the remote leakage detection system of the elastic part according to the embodiment of the present invention having the configuration as described above will be described.

When the power is applied to the remote leak detection system of the expansion and contraction unit 20 according to an embodiment of the present invention, the operation of the supply unit 60 has a supply unit operation step (S10).

Then, the hydraulic pressure generated by the supply unit 60 has a hydraulic pressure supply step (S20) is supplied to the inner space 95 between the corrugated pipe.

The amount of fluid generated by the fluid supplier 64 constituting the supply part 60 is controlled by the valve member 62 to control the plug 17 and the guide member 18 of the second connection part 16. Accordingly, it flows into the inner space portion 95 of the stretchable portion 20.

In addition, the sensor unit 70 connected to the inner space 95 has a measuring step S30 of measuring the pressure state of the inner space 95.

The fluid introduced into the inner space portion 95 is introduced into the sensor portion 70 through the guide member 14 and the plug 12 of the first connection portion 10 to measure the pressure of the fluid.

The pressure of the fluid supplied to the inner space portion 95 is preferably 1/4 to 1/2 of the design pressure of the first and second wrinkle pipes 22 and 24 constituting the stretchable portion 20. Do.

Then, there is a comparison step (S40) for comparing the value of the measured pressure measured by the sensor unit 70 and the set pressure input to the control unit 72.

The measured pressure is the pressure measured by the sensor unit 70 and is equal to the pressure of the inner space 95.

The set pressure represents a pressure value of the inner space part 95 by the pressure supplied from the supply part 60 when there is no damage of the expansion and contraction part 20.

The measured pressure measured by the sensor unit 70 is transmitted to the control unit 72 to compare with the set pressure input into the control unit 72.

First, it is determined whether the measured pressure and the set pressure are in the same range, and if the measured pressure and the set pressure are in the same range, the measurement of the sensor unit 70 is continued.

In the comparison of the measured pressure and the set pressure, the numerical values of the measured pressure and the set pressure do not have to exactly match, and a positive error and a negative error may be determined within a setting range set by the user.

In addition, according to the relative magnitude of the measured pressure and the set pressure has a broken site determination step (S50) of grasping the broken site of the corrugated pipe.

When the measured pressure and the set pressure are not in the same range, the magnitudes of the measured pressure and the set pressure are compared.

If the measured pressure is greater than the set pressure, it is determined that the second corrugated pipe 24, which is a corrugated pipe inside the inner space part 95, is broken. If the measured pressure is less than the set pressure, the inner space part 95 is determined. It is determined that the first corrugated pipe 22, which is an outer corrugated pipe, is broken.

That is, when the measured pressure measured by the sensor unit 70 is higher than the set pressure, when the second corrugated pipe 24 located inside is damaged and the fluid flowing through the pipe member flows into the inner space 95. Corresponding.

In addition, when the pressure measured by the sensor unit 70 is lower than the set pressure, the first corrugated pipe 22 located on the outside is damaged and the fluid supplied to the inner space 95 is leaked to the outside. do.

Then, it has an alarm step (S60) that informs the damaged portion of the corrugated pipe through the display unit 74.

The display unit 74 informs the state of the expansion and contraction unit 20 through a first display member that visually alerts through a light or an image and a second display member that visually alerts.

That is, when the elastic part 20 is in a normal state, a normal mode operation signal is generated, and when the first corrugated pipe 22 or the second corrugated pipe 24 is broken, a corresponding alarm of the corrugated pipe is broken. Informed through the first display member and the second display member.

Therefore, the operator can easily determine whether the first corrugated pipe 22 or the second corrugated pipe 24 is damaged by the pressure value measured through the display unit 74.

In addition, when the first corrugated pipe 22 and the second corrugated pipe 24 are damaged at the same time, the measured pressure is generally smaller than the set pressure, but the measured pressure may be greater than the set pressure depending on the degree and range of breakage of the corrugated pipe. In this case, the experience value appropriate to each site is introduced to determine whether the expansion and contraction part 20 is damaged.

On the other hand, the restraining member 40 including the guide ring 30 and the nut 44 and the fixing bar 42 for restraining the guide ring 30 and the elastic part (20) by the external impact during the movement or installation of the elastic part 20 ( 20) to prevent breakage.

FIG. 6 is a perspective view illustrating a main part of a remote leak detection system of a stretchable part according to another exemplary embodiment of the present invention. FIG. 7 is an exploded perspective view illustrating a remote leak detection system of the stretched part shown in FIG. 6. For the same components and configurations as the embodiment and the same components for the same reference numerals, and detailed description thereof will be omitted.

Guide rings 32 are provided at both sides of the stretchable part 20, and the guide ring 32 is provided with a connection hole 35 having a long hole shape through which the restraining member 90 passes.

The restraining member 90 has one end bent and the first bending member 92 which is caught by the guide ring 32 on one side, and the other end which is coupled to the first bending member 92 and is bent on the other side of the guide ring 32. It is configured to include a second bending member 94 is caught.

The shape of the first bending member 92 and the second bending member 94 in the technical spirit as described above may be formed in various shapes, in another embodiment of the present invention the first bending member 92 is " It is bent to the "b" shape, the second bending member 94 coupled to the first bending member 92 is a "b" shape or "|" shape is coupled to the first bending member 92. .

To this end, the joint portions of the first bending member 92 and the second bending member 94 are selectively formed with a coupling groove in which a female thread is formed and a screw protrusion in which a male thread is formed.

The restraining member 90 has a shape in which both sides are bent, and the length of the restraining member 90 is formed to be longer than the length of the stretchable portion 20 so that the stretchable portion 20 is limited in length. It is to restrain the expansion and contraction portion 20 is extended beyond the allowable length to prevent damage.

In addition, when the expansion and contraction portion 20 is twisted by more than a limit angle because the connection hole 35 is formed in a long hole shape, the expansion and contraction of the expansion and contraction portion 20 is suppressed and expanded by the restraining member 90. The breakage of the part 20 is prevented.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 is a perspective view showing the main configuration of the remote leakage detection system of the elastic part according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view illustrating a remote leak detection system of the expansion and contraction unit illustrated in FIG. 1.

3 is a side cross-sectional view of FIG. 1.

FIG. 4 is an enlarged view of a portion “A” of FIG. 3.

5 is a view showing an installation state of the guide member in the direction "B" of FIG.

6 is a perspective view illustrating a main part of a remote leak detection system of an elastic part according to another exemplary embodiment of the present invention.

FIG. 7 is an exploded perspective view illustrating a remote leak detection system of the expansion and contraction unit illustrated in FIG. 6.

8 is a flowchart illustrating a control method of a remote leakage detection system of an elastic part according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: first pipe 3: first main pipe

5: first connecting pipe 6: 2nd pipe

7 second connection pipe 8 second main pipe

10: first connection portion 12, 17: plug

14,18: guide member 16: the second connection portion

20: expansion and contraction portion 22: the first wrinkle tube

24: 2nd corrugated pipe 30,32: guide ring

34,35 connection hole 40,90 restraining member

42: fixed bar 44: nut

50: guide portion 52: inclined member

54 sleeve 60 supply part

62: valve member 64: fluid supply

70 sensor unit 72 control unit

74: display portion 80: first welding portion

82: second welded portion 84: third welded portion

86: fourth welding portion 92: the first bending member

94: second bending member 95: inner space portion

Claims (14)

Spaced pipe members; An expansion and contraction portion of the corrugated pipe, wherein the corrugated pipe is stretched to connect the pipe member, and an inner space is formed between the corrugated pipes; At least one connection part installed on the pipe member to communicate with the inner space part; A supply part connected to one side of the connection part to supply a fluid to the inner space part; A sensor unit connected to the other side of the connection unit to automatically measure the fluid pressure of the inner space part; A control unit which receives the measured value of the sensor unit and determines whether the expansion unit is damaged or not; And It is operated by the signal of the control unit includes a display unit for informing the user whether the expansion or contraction, The inside of the pipe is provided with a guide portion including an inclined member which is installed inclined in the direction in which the fluid flows, and a cylindrical sleeve extending from the inclined member and positioned inside the stretchable portion, Both sides of the expansion and contraction portion is provided with a ring-shaped guide ring which is constrained by the restraint member, and the connection hole provided in the guide ring is formed in a long hole shape so that the restraint member is passed through, so that the elastic portion is greater than or equal to the limit angle. In the case of twisting, the torsional portion of the expansion and contraction of the expansion and contraction portion is suppressed, the remote leakage detection system of the expansion and contraction, characterized in that to prevent breakage of the expansion and contraction. The method of claim 1, The sensor unit remote leakage detection system of the expansion and contraction, characterized in that for measuring the pressure of the fluid in the inner space digitally transmitted to the control unit. The method of claim 1, And the display unit comprises a first display member for visually notifying whether the elastic part is leaked and a second display member for audibly notifying whether the elastic part is leaked. The method of claim 1, The stretchable part remote leakage detection system of the stretchable part, characterized in that it comprises a first wrinkle pipe stacked on the outside and the second wrinkle pipe stacked on the inside. The method of claim 1, The connecting portion and the plug is installed through one side of the pipe member, And a guide member installed inside the pipe member in which the plug is installed to communicate the inner space of the plug and the inner space of the stretchable part. The method of claim 5, wherein One side edge of the guide member is fixed by welding to the inner corrugated pipe of the elastic portion, the other edge of the guide member is remote leakage detection system of the elastic part, characterized in that fixed to the inside of the pipe member by welding. The method of claim 1, And a connecting part connected to the supply part and a connecting part connected to the measurement part are installed symmetrically in a diagonal direction around the axial direction of the elastic part. delete delete The method of claim 1, The restraining member is one end is bent and the first bending member is caught by the guide ring of one side, And a second bending member coupled to the first bending member and having the other end bent to the guide ring of the other side. delete The method of claim 1, The fluid supplied to the inner space is one of nitrogen, compressed air or inert gas remote leakage detection system, characterized in that any one. delete delete

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