KR20150125794A - Automatic control apparatus and method for hydrostatic test - Google Patents

Abstract

Disclosed are a device and a method for automatically controlling a hydrostatic test. According to an embodiment of the present invention, provided is a device for automatically controlling a hydrostatic test, comprising: a water supply pump for supplying water with predetermined water pressure; an exit water pressure measuring device for measuring water pressure at the exit terminal of a pressure container; an electro-pneumatic regulator for generating pneumatic pressure corresponding to the magnitude of an electric signal transmitted from a computing device; a variable relief valve for adjusting the water pressure of the water supplied from the water supply pump in proportion to the pneumatic pressure applied by the electro-pneumatic regulator, and supplying the water to the entrance terminal of the pressure container; and a computing device for controlling the water pressure at the exit terminal of the pressure container to sequentially increase to a second set value via a first set value by loading hydrostatic test data including information on the first set value, the second set value, a first valid time and a second valid time, operating the water supply pump and periodically generating electric signals with a magnitude corresponding to the water pressure measured by the exit water pressure measuring device, wherein the computing device adjusts the magnitude of the electric signals so that the water pressure at the exit terminal of the pressure container can be maintained at the first set value for the first valid time and the water pressure at the exit terminal of the pressure container can be maintained at the second set value for the second valid time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic control apparatus for a hydraulic test,

The present invention relates to an apparatus and method for automatically controlling a hydraulic pressure test, and more particularly, to a hydraulic pressure test apparatus and method for automatically controlling the hydraulic pressure in a predetermined pressure test section in order to test the pressure resistance of a pressure vessel (e.g., And more particularly, to a test automatic control apparatus and method.

The hydraulic test is a test to determine the presence or degree of leakage or deformation by applying a prescribed hydraulic pressure to the pressure receiving part of a pressure vessel such as a boiler. Generally, in the hydraulic test, first, the water in the pressure vessel is discharged by supplying water through the feed pump, and when the pressure vessel is full, the water pump is stopped and then water pressure is applied. The process proceeds to the stopping process.

These hydrostatic tests can be broadly divided into two cases: progression with respect to new pressure vessels, such as structural inspection or use inspection, and cases with existing pressure vessels, such as performance tests.

On the other hand, the hydraulic pressure test for a new pressure vessel is carried out in order to more accurately determine the proper judgment of the pressure vessel as a part of structural inspection, for example, in a boiler having a maximum operating pressure exceeding 15 kgf / A pressure of 1.5 times the pressure (ie design pressure) can be applied to the test pressure.

However, the hydraulic test apparatus according to the prior art shown in FIG. 1 is very troublesome because the operator manually checks the analog meter for measuring the hydraulic pressure of the pressure vessel as the water supply pump is operated and manually opens and closes the valve. There is a problem that the quality of the hydraulic test is varied depending on the experience of each test.

In addition, in the hydraulic test apparatus according to the prior art, there is no means for automatically recording and managing the hydraulic pressure of the pressure vessel changing in real time according to the progress of the hydraulic pressure test, so that the main information is missing, There was also a limitation that it can not be.

In particular, in the case where a valve (e.g., a servo valve) applicable to a high pressure (e.g., 520 bar) is not provided and an operator manually operates a valve connected to the inlet and outlet ends of the pressure vessel for the hydraulic test of the pressure vessel according to the prior art , There is also a possibility that if a pressure vessel or a part of the class test apparatus is broken or exploded by the high pressure, the worker's body may be seriously injured.

Accordingly, there is a growing demand for a technique for automatically controlling a hydraulic pressure test on a pressure vessel.

Korean Patent Laid-Open Publication No. 10-1997-0022293: Water Valve Durability Tester (May 28, 1997)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus and a method for automatically controlling a part or all of a hydraulic pressure test on a pressure vessel according to an embodiment of the present invention.

In addition, by automatically conducting the hydraulic pressure test, it is intended to prevent the risk of explosion or breakage when the conventional operator manually opens and closes the valve to adjust the hydraulic pressure of the pressure vessel.

In addition, a warning signal is generated when a preset interval (for example, maintaining the test pressure) is reached or a change occurs in the progress of the hydraulic test, so that the operator can accurately determine the current progress.

In addition, the result of monitoring the progress of the hydraulic test over time is stored and output so that the quality of the hydraulic test can be secured and managed later.

The technical problem to be solved by the present invention is not limited to the above-mentioned technical problems and other technical problems which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

According to one aspect of the present invention, there is provided an automatic hydraulic test automation control system for automatically controlling a hydraulic test for a pressure vessel, comprising: a water supply pump for supplying water at a predetermined water pressure; An outlet hydraulic pressure meter for measuring the outlet water pressure of the pressure vessel; A pneumatic regulator for generating a pneumatic pressure corresponding to a magnitude of an electric signal transmitted from the computing device; A variable relief valve for adjusting a water pressure of water supplied from the water supply pump in proportion to a pneumatic pressure applied from the electropneumatic regulator and then supplying the water pressure to an inlet end of the pressure vessel; And loading hydraulic test data including information on a first set value, a second set value, a first valid time, and a second valid time, activating the water supply pump, and controlling the water pressure measured by the outlet hydraulic pressure meter And a computing device for periodically generating an electric signal of a corresponding magnitude to control the pressure at the outlet end of the pressure vessel to be sequentially increased to a second set value via a first set value, Adjusting the size of the electric signal so as to maintain the outlet pressure of the pressure vessel at a first set value for a first effective time and to maintain the outlet pressure of the pressure vessel at a second set value for a second effective time, A hydraulic test automatic control device is provided.

In addition, the first set value may be set to a value of 80% or more and 90% or less of the second set value.

The computing device may further include a time point when the pressure at the outlet end of the pressure vessel is increased to the first set value, a time point at which the first effective time has elapsed with the first set value, Values can generate the same or different notification signals when the second valid time elapses.

Further, the second validity time may be set to 30 minutes or more and 2 hours or less.

Further, the hydraulic test data may further include a third set value, and the computing device may generate a notification signal when the outlet end of the pressure vessel is opened and the hydraulic pressure is reduced from the second set value to the third set value have.

The computing device further includes an inlet hydraulic pressure gauge for measuring the inlet pressure of the pressure vessel, wherein the computing device increases the generation period of the electrical signal as the difference between measured values of the inlet hydraulic pressure gauge and the outlet hydraulic pressure gauge increases have.

The apparatus may further include a check valve connected between the variable relief valve and an inlet end of the pressure vessel to prevent backflow of water.

In addition, the computing device may store the result of monitoring the measured value of the outlet hydraulic pressure meter with respect to time.

In addition, the monitoring result data can be output to at least one of a voice format, a file format, and a screen format according to a user's request.

According to another aspect of the present invention, there is provided a method for automatically controlling a hydraulic pressure test on a pressure vessel by a hydraulic pressure test automatic control apparatus, the method comprising: a first set value, a second set value, a third set value, A first step of loading hydraulic test data including information on two valid times; A second step of increasing the pressure of the outlet end of the pressure vessel to a first set value; A third step of maintaining the pressure at the outlet end of the pressure vessel at a first set value during a first effective period of time; A fourth step of increasing the pressure at the outlet end of the pressure vessel from a first set value to a second set value; And a fifth step of maintaining the pressure at the outlet end of the pressure vessel at a second set value during a second effective period of time.

In addition, the first set value may be set to a value of 80% or more and 90% or less of the second set value.

In addition, each time at least one of the first to fifth steps is completed, the same or different notification signals may be generated.

Further, the second effective time may be set to 30 minutes or more and 2 hours or less.

The method may further include a sixth step of generating a notification signal after the fifth step, when the outlet end of the pressure vessel is opened and the water pressure is reduced to a third predetermined value.

In the second and fourth steps, the outlet hydraulic pressure measuring device measures the outlet water pressure of the pressure vessel and transmits the pressure to the computing device. Periodically generating an electrical signal proportional to the measured outlet water pressure and delivering the electric signal to the electropneumatic regulator; Generating a pneumatic pressure proportional to the magnitude of the electric signal and outputting the pneumatic pressure to the variable relief valve; And the variable relief valve regulates the water pressure of water supplied from the water pump based on the pneumatic pressure and then supplies the regulated water pressure to the inlet end of the pressure vessel.

The generating of the electrical signal may increase the generation period of the electrical signal as the computing device increases the pressure difference between the inlet and outlet ends of the pressure vessel.

Further, it is possible to store data as a result of monitoring the pressure at the outlet end of the pressure vessel with respect to time according to each of the above steps.

In addition, the monitoring result data can be output to at least one of a voice format, a file format, and a screen format according to a user's request.

According to an embodiment of the present invention, it is possible to provide an apparatus and method for automatically controlling part or all of a hydraulic test on a pressure vessel.

In addition, by conducting the hydraulic pressure test automatically, it is possible to prevent the risk of explosion or breakage when the conventional operator manually opens and closes the valve to adjust the hydraulic pressure of the pressure vessel.

In addition, when a predetermined period (for example, maintaining the test pressure) is reached or a change occurs in the progress of the hydraulic test, a notification signal is generated so that the operator can accurately determine the current progress.

In addition, the result of monitoring the progress of the hydrostatic test over time can be stored and output, ensuring the quality of the hydrostatic test and managing it later.

The technical problem to be solved by the present invention is not limited to the above-mentioned technical problems and other technical problems which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

1 is a block diagram schematically showing a hydraulic test apparatus according to the prior art.
2 is a block diagram schematically showing the overall configuration of an automatic hydraulic pressure test apparatus according to an embodiment of the present invention.
3 is a photograph showing an example of hydraulic pressure test data loaded into the automatic hydraulic pressure test apparatus according to the present invention.
4 is a flowchart sequentially showing each step of the method for automatically controlling a hydraulic test according to an embodiment of the present invention.
FIG. 5 is a flowchart sequentially illustrating the detailed steps of the pressure increasing step according to an embodiment of the present invention.
FIG. 6 is a graph showing a change in pressure of the pressure vessel with respect to time according to an embodiment of the present invention.
FIG. 7 shows an example of outputting a result of monitoring the hydraulic test according to an embodiment of the present invention.

The embodiments disclosed herein should not be construed or interpreted as limiting the scope of the invention. It will be apparent to those of ordinary skill in the art that the description including the embodiments of the present specification has various applications. Accordingly, it is not intended to be limited to the embodiments but to limit the scope of the present invention, as defined in the appended claims. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

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

FIG. 2 is a block diagram schematically showing an overall configuration of an automatic hydraulic pressure test apparatus according to an embodiment of the present invention, FIG. 3 is a photograph showing an example of hydraulic pressure test data loaded into the automatic hydraulic pressure test apparatus according to the present invention to be.

2, an automatic hydraulic pressure test apparatus according to an embodiment of the present invention includes a water supply pump 20, an outlet hydraulic pressure meter 42, a pneumatic regulator 50, a variable relief valve 30, and a computing device 60, .

First, the water supply pump 20 supplies water of a predetermined water pressure. The feed water pump 20 of the present invention may be designed and manufactured to withstand the temperature and pressure of the use environment for the hydraulic test of the pressure vessel 10 such as a high-pressure boiler used in a power plant. Further, the water supply pump 20 supplies water having a water pressure equal to or higher than the test pressure required for the hydraulic pressure test on the pressure vessel 10. For example, if the test pressure for the pressure vessel 10 is 520 bar, the feed pump 20 must supply water at least 520 bar.

The outlet hydraulic pressure meter 42 is configured to measure the hydraulic pressure at the outlet end 12 of the pressure vessel. Specifically, the outlet hydraulic pressure meter 42 measures the hydraulic pressure at the outlet end 12, which is increased as water is supplied to the inlet end 11 of the pressure vessel 10, converts it into a digital signal, To the device (60).

The pneumatic regulator 50 is a configuration for generating a pneumatic corresponding to the magnitude of an electric signal transmitted from the computing device 60. That is, when a current or voltage having a predetermined magnitude is input, the electropneumatic regulator 50 transmits a pneumatic pressure proportional to the magnitude of the input current or voltage to the variable relief valve 30 side. For example, when a current of 1 ampere is inputted as an electric signal, a pneumatic pressure of 2 bar can be outputted. In this electropneumatic regulator 50, a pneumatic pressure to be outputted corresponding to the inputted electric signal can be preset.

The variable relief valve 30 is configured to adjust the water pressure of water supplied from the water supply pump 20 in proportion to the air pressure applied from the electropneumatic regulator 50 and then supply the water pressure to the inlet end 11 of the pressure vessel. Specifically, the variable relief valve 30 is installed between the feed pump 20 and the inlet end 11 of the pressure vessel so that water supplied from the feed pump 20 can be introduced into the pressure vessel 10, And serves to depressurize the water pressure of the water supplied from the water supply pump 20. When the water pressure of the water supplied from the water supply pump 20 is supplied without pressure reduction, the inlet end 11 of the pressure vessel may be overloaded.

For example, as the pneumatic pressure applied from the electropneumatic regulator 50 increases, the degree of opening of the variable relief valve 30 also increases. Therefore, compared with the case where the pneumatic pressure is relatively small, The water pressure is lowered and the water pressure of the water flowing into the pressure vessel inlet end 11 becomes high.

The computing device 60 loads the hydraulic test data including information on the first set value, the second set value, the first valid time, and the second valid time (see FIG. 3), and operates the water pump 20 Periodically generates an electric signal of a size corresponding to the water pressure measured by the outlet hydraulic pressure meter 42 and controls the water pressure of the outlet end 12 of the pressure vessel to gradually increase from the first set value to the second set value, As shown in FIG.

The hydraulic pressure test data may be data previously input by the user or inputted in real time, and may further include a third set value. The third set value means the design pressure of the pressure vessel 10 and the second set value can be set to a value of about 1.3 times or more and 1.5 times or less of the third set value as the test pressure of the pressure vessel 10 .

The first set value is a value set smaller than the second set value and is a value for stabilizing the pressure vessel 10 before the water pressure of the pressure vessel 10 is increased to the second set value. Specifically, the water pressure at the outlet end 12 of the pressure vessel 10 may be lower than the water pressure at the inlet end 11 during the pressure increasing process. This is because water from the inlet end 11 to the outlet end 12 of the pressure vessel 10 Due to the delay that occurs during the supply process.

Accordingly, even when the water pressure at the outlet end 12 is measured to be smaller than the test pressure which is the second set value, the water pressure at the inlet end 11 may exceed the test pressure and overload may occur. Therefore, after the pressure vessel 10 is stabilized by allowing the water pressure at the outlet end 12 to be maintained at the first set value for the first effective time, the process of re-pressure-increasing the pressure to the second set value is performed.

If the pressure at the outlet end 12 of the pressure vessel is increased to a second set point, the computing device 60 may adjust the magnitude of the electrical signal to maintain it for a second validity period. That is, the computing device 60 may fix the magnitude of the electrical signal for a second valid time from when the hydraulic pressure at the outlet end 12 of the pressure vessel reaches the second set value.

This second effective time is a time set to check whether the pressure vessel 10 can withstand leakage or deformation without being affected by the test pressure, and may be different depending on the use, size or shape of the individual pressure vessel 10, But it is not limited thereto.

On the other hand, the computing device 60 determines the time point at which the hydraulic pressure at the outlet end 12 of the pressure vessel 12 is increased to the first set value, the point at which the first set time reaches the first set value, It is possible to generate the same or different notification signals at the time when the second effective time has elapsed from the second set value or when the pressure has been reduced to the third set value. For example, when the green warning light is activated at the time when the pressure has been increased to the first set value, and the first effective time has elapsed with the first set value, the first section test is completed. Quot; can be generated. Alternatively, information on the viewpoints may be visualized in a graph or text format through a display unit provided on an operation panel of the computing device 60. [

The automatic hydraulic pressure test apparatus according to the embodiment of the present invention may further include an inlet hydraulic pressure meter 44. Specifically, the inlet hydraulic pressure meter 44 measures the hydraulic pressure supplied from the feed pump 20 via the variable relief valve 30 to the inlet end 11 of the pressure vessel, converts the hydraulic pressure into a digital signal, .

Accordingly, the computing device 60 increases the generation period of the electrical signal transmitted to the electropneumatic regulator 50 as the difference between the measured values of the inlet hydraulic pressure meter 44 and the outlet hydraulic pressure meter 42 increases. The large difference between the measured values of the inlet hydraulic pressure meter 44 and the outlet hydraulic pressure meter 42 means that a large delay has occurred between the inlet end 11 and the outlet end 12 of the pressure vessel, So that the water pressure supplied to the inlet end 11 is increased relatively slowly.

In addition, the hydraulic test automatic control apparatus according to the embodiment of the present invention may further include a check valve (70). The check valve 70 is connected between the variable relief valve 30 and the pressure vessel inlet end 11 to prevent water from flowing backward from the inlet end.

The computing device 60 stores data as a result of monitoring the hydraulic pressure data of the outlet hydraulic pressure meter 42 and the measured values thereof with respect to time and outputs the monitoring result data to a voice format, , XPS), and a screen format (e.g., numerical value, graph). For example, as shown in FIG. 3, a pressure setting value and an inspection time setting value for the pressure vessel 10 may be displayed on the display unit of the operation panel of the computing device 60. As another example, the result of monitoring the hydraulic test as shown in FIG. 7 may be output in the form of a graph or the like. At this time, as shown in Fig. 7, the monitoring result includes information such as test name, test date and time, information on the creator (test host), customer information of the pressure vessel, Whether the specification is satisfied, and the like.

FIG. 4 is a flowchart sequentially showing each step of the method for automatically controlling a hydraulic test according to an embodiment of the present invention, and FIG. 5 is a flow chart showing a detailed process of a pressure increasing step according to an embodiment of the present invention And FIG. 6 is a graph showing a change in hydraulic pressure of each pressure control chamber 10 with respect to time according to an embodiment of the present invention.

Referring to FIG. 4, a method for automatically controlling a hydraulic pressure test according to an embodiment of the present invention includes the step of loading (S210) hydraulic test data, the step of increasing the hydraulic pressure of the pressure vessel outlet end 12 to a first set value (Refer to S220 in Fig. 6), maintaining the water pressure at the outlet end 12 of the pressure vessel at the first set value for the first valid time (S230, see the second section in Fig. 6) (S240, refer to the third section in Fig. 6) and the water pressure at the outlet end (12) of the pressure vessel to a second set value (S250, refer to the fourth section in Fig. 6) for a second valid period of time. Here, steps S220 and S240 are steps for increasing the water pressure at the outlet end 12 of the pressure vessel, and steps S210 and S230 are for maintaining the water pressure at the outlet end 12 of the pressure vessel at a constant level.

At this time, the hydraulic test data may include information on the first set value, the second set value, the third set value, the first valid time, and the second valid time, and are the same as those described above, .

5, in the step of increasing the hydraulic pressure at the outlet end 12 of the pressure vessel (i.e., steps S220 and S240), the outlet hydraulic pressure meter 42 measures the hydraulic pressure at the outlet end 12 of the pressure vessel, (S22) of periodically generating an electric signal proportional to the measured water pressure of the outlet port (12) and transmitting the electric signal to the electropneumatic regulator (50) (S23) of generating a pneumatic pressure proportional to the magnitude of the electrical signal and then outputting the pneumatic pressure to the variable relief valve (30); and controlling the variable relief valve (30) (S24) of regulating the water pressure of the water supplied from the pressure vessel 10 to the inlet end of the pressure vessel 10. At this time, the computing device 60 stops the step of increasing the hydraulic pressure when it is determined that the hydraulic pressure measured by the outlet hydraulic pressure meter 42 has reached the first set value and the second set value, respectively.

In the method for automatically controlling a hydraulic pressure test according to an embodiment of the present invention, after the fifth step, a step S260 of generating a notification signal when the outlet end 12 of the pressure vessel is opened and the water pressure is reduced to a third set value, (See the fifth section of FIG. 6).

For example, the outlet end 12 of the pressure vessel may be connected to a drain valve (80, manual valve or solenoid valve). When the step S250 is completed and a notification signal is generated, the hydraulic pressure at the outlet end 12 of the pressure vessel is changed to the second setting (for example, the second setting) by the operator manually opening the manual valve or generating a signal that the computing device 60 opens the solenoid valve Value to a third set point. At this time, the computing device 60 may generate a notification signal when the measured value at the outlet hydraulic pressure meter 42 is the third set value.

Referring to FIG. 6, the sixth period can be confirmed, which means that the pressure vessel 10 is maintained at the third set value, that is, the design pressure. This interval may be set to a time sufficient for the operator to check the leakage or deformation of the pressure vessel 10 to the duct. When the oil pipe inspection of the pressure vessel 10 is completed, the water supply pump 20 is turned off to drain all the water in the pressure vessel 10 to complete the hydraulic pressure test.

It is to be understood that the term "comprising" and / or " comprising " as used herein means that the constituent element may be implanted unless specifically stated to the contrary, .

The embodiments of the present invention described above are disclosed for illustrative purposes only, and the present invention is not limited thereto. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

10: pressure vessel 11: inlet end
12: outlet end 20: feed water pump
30: variable relief valve 42: outlet hydraulic pressure meter
44: inlet hydraulic pressure meter 50: electropneumatic regulator
60: computing device 70: check valve
80: drain valve

Claims (18)

A hydraulic test automatic control system for automatically controlling a hydraulic test on a pressure vessel, comprising:
A water supply pump for supplying water at a predetermined water pressure;
An outlet hydraulic pressure meter for measuring the outlet water pressure of the pressure vessel;
A pneumatic regulator for generating a pneumatic pressure corresponding to a magnitude of an electric signal transmitted from the computing device;
A variable relief valve for adjusting a water pressure of water supplied from the water supply pump in proportion to a pneumatic pressure applied from the electropneumatic regulator and then supplying the water pressure to an inlet end of the pressure vessel; And
The water pressure test data including information on the first set value, the second set value, the first valid time and the second valid time is loaded, the water feed pump is operated, and the water pressure measured by the outlet water pressure meter corresponds to the water pressure Wherein the control unit controls the pressure of the outlet end of the pressure vessel to be gradually increased to the second set value through the first set value,
Lt; / RTI >
The computing device comprising:
Adjusting the size of the electric signal so as to maintain the pressure at the outlet end of the pressure vessel at the first set value for the first effective time and maintain the pressure at the outlet of the pressure vessel at the second set value for the second effective time , Hydraulic test automatic control device.
The method according to claim 1,
The first set value is a value
Is set to a value of 80% or more and 90% or less of the second set value.
The method according to claim 1,
The computing device comprising:
A point of time when the pressure at the outlet end of the pressure vessel is increased to the first set value, a point at which the first effective time has elapsed with the first set value, a time when the pressure has been increased to the second set value, Automatic test equipment for water pressure test that generates the same or different notification signal at the time when elapsed.
The method according to claim 1,
The second validity time,
The hydraulic test automatic control device is set to 30 minutes or more and 2 hours or less.
The method according to claim 1,
The hydraulic test data further includes a third set value,
The computing device comprising:
And an alarm signal is generated when the outlet end of the pressure vessel is opened and the water pressure is reduced from a second set value to a third set value.
The method according to claim 1,
An inlet hydraulic pressure meter for measuring an inlet end hydraulic pressure of the pressure vessel;
Further comprising:
The computing device comprising:
Wherein the generation period of the electric signal is increased as the difference between the measured values of the inlet hydraulic pressure gauge and the outlet hydraulic pressure gauge increases.
The method according to claim 1,
A check valve connected between the variable relief valve and the inlet end of the pressure vessel to prevent backflow of water;
Further comprising: an automatic hydraulic pressure test apparatus.
The method according to claim 1,
The computing device comprising:
And the result of monitoring the measured value of the outlet hydraulic pressure meter with respect to time is stored.
9. The method of claim 8,
And outputs the monitoring result data to at least one of a voice format, a file format, and a screen format according to a user's request.
A method for automatically controlling a hydraulic test of a pressure vessel by an automatic hydraulic pressure test apparatus,
A first step of loading hydraulic test data including information on a first set value, a second set value, a third set value, a first valid time, and a second valid time;
A second step of increasing the pressure of the outlet end of the pressure vessel to a first set value;
A third step of maintaining the pressure at the outlet end of the pressure vessel at a first set value during a first effective period of time;
A fourth step of increasing the pressure at the outlet end of the pressure vessel from a first set value to a second set value; And
A fifth step of maintaining the pressure at the outlet end of the pressure vessel at a second set value for a second effective period of time;
Wherein the hydraulic pressure test method comprises the steps of:
11. The method of claim 10,
The first set value is a value
Is set to a value of 80% or more and 90% or less of the second set value.
11. The method of claim 10,
And generating the same or different notification signals each time at least one of the first through fifth steps is completed.
11. The method of claim 10,
The second validity time,
Wherein the hydraulic pressure is set to 30 minutes or more and less than 2 hours.
11. The method of claim 10,
After the fifth step,
A sixth step of generating a notification signal when the outlet end of the pressure vessel is opened and the water pressure is reduced to a third predetermined value;
Further comprising the step of automatically controlling the hydraulic test.
11. The method of claim 10,
The second and fourth steps may include:
Measuring the pressure at the outlet end of the pressure vessel and delivering it to the computing device;
Periodically generating an electrical signal proportional to the measured outlet water pressure and delivering the electric signal to the electropneumatic regulator;
Generating a pneumatic pressure proportional to the magnitude of the electric signal and outputting the pneumatic pressure to the variable relief valve;
The variable relief valve regulating the water pressure of water supplied from the water pump based on the pneumatic pressure and then supplying the regulated water pressure to the inlet end of the pressure vessel;
The hydraulic pressure test is automatically repeated.
16. The method of claim 15,
Wherein the generating of the electrical signal comprises:
Wherein the computing device increases the generation period of the electric signal as the pressure difference between the inlet end and the outlet end of the pressure vessel increases.
11. The method of claim 10,
Wherein the result of monitoring the pressure at the outlet end of the pressure vessel with respect to time is stored.
18. The method of claim 17,
And outputting the monitoring result data to at least one of a voice format, a file format, and a screen format according to a user's request.

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