JP3518823B2 - Automatic measuring device for pressure test - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic pressure resistance test measuring apparatus used in a pressure resistance test work with water, which is carried out in a final assembly step in manufacturing a heat exchanger such as a feed water heater.

[0002]

2. Description of the Related Art Generally, as shown in FIG. 4, a feed water heater as a heat exchanger has a steam inlet account 1a into which steam flows into a main body 1 and a steam outlet account 1b from which steam is discharged, The opening of the body 1 is closed by the tube sheet 2. A water chamber end plate 3 having a water supply inlet 3a, a water supply outlet 3b and a manhole seat 3c is attached to the tube plate 2 by welding. And in the main body 1, U
A character-shaped heating tube 4 is provided, and the heating tube 4 has a tube end portion fixed to the tube sheet 2 formed into an expanded tube, and the tube end portion is fixed to the tube sheet 2 by seal welding. .

In the feed water heater thus constructed, the feed water flowing into the water chamber end plate 3 from the feed water inlet account 3a flows through the heating pipe 4 of the main body 1, and the heating pipe 4 causes the steam inlet of the main body 1 to enter the vapor. After heat exchange with the steam flowing in from 1a, it returns to the water chamber end plate 3 again and flows out from the water supply outlet account 3b. Further, the steam that has flowed in from the steam deposit account 1a is discharged from the steam deposit account 1b.

After completion of a series of assembling work of the feed water heater, a pressure resistance test with water is conducted as a final quality confirmation of the heat exchanger. As shown in FIG. 5, this pressure resistance test is performed on the main body 1
Side (primary side) and the water chamber side (secondary side) where the U-shaped heating pipe 4 is provided.

That is, FIG. 5 is a system diagram showing a configuration for carrying out a conventional withstand voltage test. As shown in FIG.
The steam entrance account 1a and the steam exit account 1b of the main body 1, the water supply entrance account 3a, the water supply exit account 3b and the manhole seat 3c of the water chamber end plate 3 are closed by the closure plates 5, respectively, and the closure plate 5 of the steam entrance account 1a is closed. The main body side pressure gauge 6 is provided on the closing plate 5 of the water supply account 3b via the pressure resistant hose 8a.
The water chamber side pressure gauges 7 are attached via b.

Also, the steam outlet account 1b and the water supply inlet account 3
Pressure-resistant hoses 8c and 8d are connected to the closing plate 5 of a, respectively, and these pressure-resistant hoses 8c and 8d are connected to a booster pump 9 that uses pressure-resistant water.

The pressure-resistant hose 8c from the booster pump 9 to the steam outlet 1b is provided with a main body side switching valve 10 and a check valve 11, and from the check valve 11 the steam outlet 1b.
The pressure-resistant hose 8c up to is branched, and the main body side drain valve 12 is arranged in the branched pressure-resistant hose.

On the other hand, in the pressure resistant hose 8d from the booster pump 9 to the water supply account 3a, the water chamber side switching valve 13 and the check valve 1 are provided.
4, the pressure resistant hose 8d from the check valve 14 to the water supply account 3a is branched, and the water chamber side drain valve 15 is arranged on the branched pressure resistant hose.

By the way, it is stipulated by law (technical standard for welding of electric works) that the pressure resistance test with water is conducted at 1.5 times the maximum working pressure of the pressure resistance test equipment. This pressure resistance test requires a witness inspection by the Power Generation Equipment Technical Inspection Association, which is a designated inspection agency of the Ministry of International Trade and Industry. Also,
Since the witness inspection of the customer who is the orderer of the withstand voltage test equipment is also conducted at the same time, the same withstand voltage test may be performed depending on the equipment.
Often repeated times. All of this pressure resistance test work is performed by the operator every time.

The test pressure on the main body 1 side, which is the primary side, is approximately 1 kg / kg, although it varies depending on the plant and the output.
in the range of ^{cm 2 g~100 kg / cm 2 g} . On the other hand, the test pressure on the side of the water chamber, which is the secondary side, differs from that on the main body side due to differences in plant and output, but it is higher than the main body side 1 and is 300 kg / cm ² g to 550 kg / cm. ^A pressure resistance test is carried out in the range of ² g.

[0011]

By the way, in the pressure increasing work of the pressure resistance test described above, the pressure resistant water pressurized by the pressure increasing pump 9 is transferred from the pressure resistance hose 8c to the steam outlet account 1b through the main body side switching valve 10 and the check valve 11. It is supplied or supplied from the pressure resistant hose 8d to the water supply inlet account 3a via the water chamber side switching valve 13 and the check valve 14. Further, in the step-down work, the main body side drain valve 12 or the water chamber side drain valve 15 is opened to blow the pressure resistant water.
Currently, each of these operations requires a total of three people, one operator of the boost pump, one operator of the switching valve / drainage valve, and one person of the pressure gauge monitor.

In the pressure resistance test work, the booster pump 9 is connected to the main body side switching valve 10, the check valve 11 and the main body side drain valve 12 through the pressure resistant hose 8c to the steam outlet 1b, and the pressure booster pump 9 is connected to the water chamber. It is started at the stage when the work of connecting the side switching valve 13, the check valve 14 and the water chamber side drain valve 15 to the water supply inlet account 3a via the pressure resistant hose 8d is completed.

Then, the operator of the step-up pump operates the step-up pump 9
Press the start button to start boosting. Next, one operator of the switching valve / drainage valve rotates the handle of the main body side switching valve 10 or the water chamber side switching valve 13 to open it. By this work, the pressure inside the UUT is increased to the specified pressure.

Here, the pressure raising time, the pressure holding time and the pressure lowering time are empirically defined, and one example thereof will be described below. That is, (1) The pressurization time is set to 5 minutes or more up to 1/2 P (pressure) of the maximum operating pressure, and the pressure is maintained for 3 minutes or more.

(2) After that, the pressure is increased to the maximum working pressure in 5 minutes or more, and the pressure is maintained for 3 minutes or more.

(3) After that, the test pressure (1.5 times the maximum working pressure) is increased in 5 minutes or more, and the pressure is increased to 3
Hold for 0 minutes or more and check for leakage.

(4) After that, after confirming that there is no leakage, the step-down work is performed for 10 minutes or more.

Test procedure (1)-
(4) shows the primary side and secondary side main tests (the witness inspection of the designated inspection agency of the Ministry of International Trade and Industry and the witness inspection of the customer) shown in FIG.

FIG. 7 is a secondary side (water chamber side) based on experience.
Test (in-house test), and the above test procedure (1),
After repeating (2) three times, the above test procedure (3),
The procedure of (4) is to be performed. Each worker performs such a work procedure by turning on and off the power of the booster pump 9,
The switching valve / drain valve handle operation is repeated.

In addition, the pressure values of the main body side pressure gauge 6 and the water chamber side pressure gauge 7 are continuously monitored during the test for the purpose of preventing damage to the pressure-resistant test equipment and ensuring quality. As shown in the above test procedure, the pressure raising and lowering times are not managed by a timer, but the operator adjusts the time while watching the wristwatch and operates the handle of the switching valve / drain valve (adjusting the opening of the valve). Is the current situation.

Since the pressure resistance test is carried out at a very high pressure as described above, it is necessary to carry out a reliable work setup and a careful meeting and signal of the operator. As a matter of course, since it is a very dangerous work, it is important not only to ensure the safety of the worker, but also to prevent damage to the withstand voltage test equipment and to ensure the quality.

As described above, in the conventional pressure resistance test, at least three or more workers are required, and the operation of the booster pump 9 and the handle of the switching valve / drain valve are performed manually, and at the same time, the main body is operated. Since the pressure values of the side pressure gauge 6 and the water chamber side pressure gauge 7 are also visually observed by the operator, there is a problem that the work efficiency is low.

The present invention has been made in consideration of the above-mentioned circumstances, and provides an automatic measuring device for a pressure resistance test which can perform a pressure resistance test operation fully automatically and can measure a test pressure value. With the goal.

[0024]

In order to solve the above-mentioned problems, the first aspect of the present invention provides a pressure sensor for detecting the pressure on the primary side and the secondary side of a heat exchanger for performing a pressure resistance test, and A booster pump for boosting at least one of the primary side and the secondary side, booster control valves provided for the primary side and the secondary side respectively for boosting them, and these booster control valves provided for the primary side and the secondary side, respectively. And a CPU for programming the pressure resistance test work procedure and operation contents of the heat exchanger.
Is characterized by controlling ON / OFF control of the booster pump and automatic opening / closing of the booster adjusting valve and the pressure reducing adjusting valve on the basis of a measured value by the pressure sensor.

A second aspect of the present invention is characterized in that the CPU according to the first aspect is a personal computer.

A third aspect of the present invention is the personal computer according to the second aspect.
It is characterized in that the result of the pressure resistance test executed by the computer can be output by the printer.

[0027]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a system diagram showing an embodiment of an automatic measuring device for a pressure resistance test according to the present invention. It should be noted that the same or corresponding portions as those of the conventional configuration will be described using the same reference numerals as those in FIG. As shown in FIG. 1, a steam deposit account 1a in which steam flows into the main body 1 and a steam deposit account 1 in which steam is discharged.
While having b, the opening of the main body 1 is closed by the tube sheet 2. A water chamber end plate 3 having a water supply inlet 3a, a water supply outlet 3b and a manhole seat 3c is attached to the tube plate 2 by welding. And the main body 1
A U-shaped heating tube 4 is disposed inside, and the heating tube 4 has a tube end portion that is fixed to the tube plate 2 and is formed into an expanded tube.
This tube end is fixed to the tube sheet 2 by seal welding.

Steam entrance account 1a of main body 1, steam exit account 1
b, the water supply inlet account 3a, the water supply outlet account 3b and the manhole seat 3c of the water chamber end plate 3 are each closed by a closing plate 5, and the main plate pressure gauge is attached to the closing plate 5 of the steam inlet account 1a via a pressure resistant hose 8a. 6, the water chamber side pressure gauge 7 is attached to the closing plate 5 of the water supply and discharge account 3b via a pressure resistant hose 8b.

Further, the steam outlet account 1b and the water supply inlet account 3
Pressure-resistant hoses 8c and 8d are connected to the closing plate 5 of a, respectively, and these pressure-resistant hoses 8c and 8d are connected to a booster pump 9 that uses pressure-resistant water.

The pressure-resistant hose 8c from the booster pump 9 to the steam outlet account 1b is provided with a main body side booster adjusting valve 16 and a check valve 11 for boosting the pressure on the primary side. The pressure resistant hose 8c up to the steam outlet account 1b is branched, and the branched pressure resistant hose is provided with a main body side pressure reducing adjustment valve 17 for reducing the pressure on the primary side.

On the other hand, the pressure-resistant hose 8d from the booster pump 9 to the water supply account 3a is provided with a water chamber side booster adjusting valve 18 and a check valve 14 for boosting the pressure on the secondary side. The pressure resistant hose 8d from the stop valve 14 to the water supply account 3a is branched, and the branched pressure resistant hose is provided with a water chamber side pressure reducing adjustment valve 19 for reducing the pressure on the secondary side.

The main body side pressure adjusting valve 16, the main body side pressure reducing adjusting valve 17, the water chamber side pressure increasing adjusting valve 18 and the water chamber side pressure reducing adjusting valve 19 are solenoid valves, which are operated by the exchange of electric signals.
Automatically opened and closed, these adjusting valves 16, 17, 18,
The booster pump 19 and the booster pump 9 are connected to an input / output board 20, and the input / output board 20 is connected to a personal computer (hereinafter referred to as a personal computer) 21 as a CPU. A printer 22 for recording the pressure resistance test is connected to the personal computer 21 so that the recorded content can be output as appropriate.

A pressure resistant hose 8a connected to the main body side pressure gauge 6 and a pressure resistant hose 8 connected to the water chamber side pressure gauge 7
A pressure sensor 23 is attached to b, and the output voltage value of the pressure sensor 23 is converted from an analog signal to a digital signal by the A / D converter 24 and output to the personal computer 21.

Next, the operation of the above embodiment will be described.

A feed water heater, which is a pressure-resistant test device, is installed at a predetermined place, and pressure-resistant water is supplied to each of the primary side and the secondary side to make a full state. And be sure to vent the air.
Next, the booster pump 9, the main body side pressure adjusting valve 16, the main body side pressure reducing adjusting valve 17, the water chamber side pressure increasing adjusting valve 18, the water chamber side pressure reducing adjusting valve 19 and the pressure resistant hoses 8a, 8b, 8c, 8d are shown in FIG. Connect as shown.

Then, based on the flowcharts shown in FIG. 2 and FIG.
Execute by 1. That is, as shown in FIG. 2, first, the plant name is displayed in step S1, the start screen is displayed, and the time is displayed in step S2. Next, in step S3, the open / close state of the adjusting valves 16, 17, 18, 19 and the on / off state of the booster pump 9 are read by the input / output board 20.

Furthermore, in step S4, the output voltage value of the pressure sensor 23 is converted from an analog signal to a digital signal by the A / D converter 24, and it is determined whether or not the pressure value of the pressure sensor 23 exceeds the specified pressure value. It is determined (step S5). If the pressure value of the pressure sensor 23 exceeds the specified pressure value in step S5, the process proceeds to step S6 to display an error, and in step S7, all the devices are emergency stopped.

On the other hand, if the pressure value of the pressure sensor 23 does not exceed the specified pressure value in step S5, the cumulative time from the start to the end of the pressure resistance test is counted in step S8, and the data from the start to the end are counted. After plotting, the data is saved (steps S9 to S10).

In step S11, it is determined whether or not the test is finished. If not finished, it is determined in step S12 whether or not the test menu is executed. When executing this test menu, the process proceeds to step S13.

In this step S13, step S13
Emergency stop of all the equipment of a, the main body side menu of step S13b, the water chamber side menu of step S13c, step S
13d data display, printer output in step S13e, screen copy in step S13f, step S13g
Main body side emergency stop, step S13h water chamber side emergency stop, step S13i buzzer stop, and step S
At least one of the pressure holding release of 13j is selected and executed.

Next, in step S14, automatic pressure control (main body side / water chamber side) is performed, and then step S15
The printer 22 outputs. Then, returning to step S2, the above steps are repeated until the data from the start to the end of the withstand voltage test are stored.

In this way, the pressure set value of the pressure resistance test is input to the personal computer 21, and the output signal of the pressure sensor 23 is fed back, while the main body side pressure adjusting valve 16, the main body side pressure reducing adjusting valve 17, the water chamber side pressure adjusting valve. 18 and the water chamber side pressure reducing valve 19 are automatically opened and closed to control the pressure value and the pressure raising / lowering time.

The operating procedure, operating method, and measuring method by the above-mentioned automatic measuring device for pressure resistance test will be described in more detail.

(1) First, the booster pump 9, the main body side pressure adjusting valve 16 for increasing and decreasing the pressure, and the main body side pressure reducing adjustment valve 1
7, water chamber side pressure increasing control valve 18 and water chamber side pressure decreasing control valve 19
Turn on the control power source, the personal computer 21 and the printer 22.

(2) Enter the plant name, equipment name, test date and time, pressure test pressure (body main body side and water chamber side), pressure curve (measurement) pattern, number of pressure sensor 23, etc. for performing pressure resistance test.

(3) Select the operation pattern for the main body side or the water chamber side. Here, since the pressure ranges on the main body side and the water chamber side are remarkably different, the simultaneous withstanding pressure on the main body side and the water chamber side cannot be applied in consideration of safety and equipment damage prevention.

(4) When the automatic operation is selected and the start key is operated, the booster pump 9 automatically starts to operate and stops at each pressure value indicated by the pressure curve (measurement) pattern. After the automatic stop, in order to boost the voltage to the next stage, in addition to having a function that allows a safety check, it is programmed to operate the start key again. In this case, it will not operate until after 3 minutes or more specified by regulation.

(5) When the maximum working pressure and the test pressure of the withstand pressure test equipment are reached, the buzzer is used to notify the arrival. After checking this buzzer, stop it manually.
And, the setting value of the pressure when shifting to pressure holding is +
It is set in the software to be in the range of 3% and -0%.

(6) During the pressure rising / falling and pressure holding of the pressure resistance test, the pressure value is measured every minute and the data is displayed on the screen of the personal computer 21.

(7) After the pressure resistance test is completed, the key operation for ending the test is performed to open the main body side pressure reducing adjustment valve 17 or the water chamber side pressure reducing adjustment valve 19 to start the pressure reduction. in this case,
The step-down time is programmed to fall to atmospheric pressure over 10 minutes.

(8) The record of the pressure resistance test is stored in the printer 22.
The recorded contents can be output. Although the simultaneous withstanding pressure cannot be applied to the main body side and the water chamber side, the recording itself is designed so that the data of the main body side and the water chamber side can be collected at the same time.

(9) When the pattern registration is selected in the initial menu after the withstand voltage test is performed, the function is such that under the same conditions, it is only necessary to input the pattern number from the next time.

As described above, according to the above-described embodiment, the pressure resistance test work is automatically operated according to the procedure described above.
The measurement work is also automated, and the pressure resistance test work that was conventionally performed by three workers can be done by one person, thus saving labor. In addition, the work that conventionally takes 72 hours for one feed water heater can be done in 1/3 in 24 hours, and the work time can be greatly reduced.

It should be noted that the present invention is not limited to the above embodiment, and various modifications can be made. For example, although the personal computer 21 is used in the above embodiment, the present invention is not limited to this, and another CPU may be used.

[0056]

As described above, according to the first aspect of the present invention.
According to this, a pressure sensor that detects the pressure on the primary side and the secondary side of the heat exchanger that performs a pressure resistance test, a booster pump that pressurizes at least one of the primary side and the secondary side, and the primary side and the secondary side. The pressure adjusting valves for increasing the pressure of the heat exchangers, the pressure reducing valves for decreasing the pressure of the primary and secondary sides, and the pressure resistance test work procedure and operation contents of the heat exchanger. A CPU for programming is provided, and the CPU controls ON / OFF control of the booster pump and automatic opening / closing of the booster adjusting valve and the pressure reducing adjusting valve based on the measurement value by the pressure sensor, thereby performing a pressure resistance test work. Since the automatic operation is performed and the measurement work is also automated, the pressure resistance test work can be saved, and the work time can be significantly shortened.

Further, since the pressure monitoring of the pressure resistance test is automated, it is possible to perform highly accurate measurement and to maintain and improve the product of pressure resistance equipment.

According to claim 2, the CPU according to claim 1
Is a personal computer, the usability can be improved.

According to the third aspect, since the result of the withstand voltage test executed by the personal computer according to the second aspect can be output by the printer, the result of the withstand voltage test conventionally recorded by the operator can be obtained. By outputting with a printer, work efficiency can be further improved.

[Brief description of drawings]

FIG. 1 is a system diagram showing an embodiment of an automatic measuring device for a pressure resistance test according to the present invention.

FIG. 2 is a flowchart showing an operating procedure of a withstand voltage test of the embodiment of FIG.

FIG. 3 is a flowchart showing an operating procedure of a withstand voltage test of the embodiment of FIG.

FIG. 4 is a vertical cross-sectional view showing the structure of a general feed water heater.

5 is a system diagram showing a configuration for carrying out a conventional pressure resistance test with the feed water heater of FIG.

FIG. 6 is a view showing a step-up / down state of a main test on the main body side and the water chamber side system.

FIG. 7 is a diagram showing a buck-boost state of a pressure resistance test of a water chamber side system based on experience.

[Explanation of symbols]

1 Main body (primary side) 1a Steam account 1b Steam account 2 tube sheet 3 Water chamber end plate (secondary side) 3a Water supply account 3b Water supply account 3c Manhole seat 4 heating tubes 5 Closing plate 6 Body pressure gauge 7 Water chamber side pressure gauge 8a, 8b, 8c, 8d pressure-resistant hose 9 Booster pump 11 Check valve 14 Check valve 16 Main unit side boost control valve 17 Main unit side pressure reducing valve 18 Water chamber side pressure adjusting valve 19 Water chamber side pressure reducing valve 20 I / O board 21 PC (CPU) 22 Printer 23 Pressure sensor 24 A / D converter

Continuation of front page (56) Reference JP-A-55-162032 (JP, A) JP-A-59-215598 (JP, A) JP-A-63-284449 (JP, A) JP-A-6-50864 (JP , A) JP-A-5-5686 (JP, A) Actually open 3-55544 (JP, U) Actually open 5-38548 (JP, U) Actually open 60-88250 (JP, U) Actually open 63-78241 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) G01N 3/12 F22D 1/32 F28F 27/00 511

Claims (3)

(57) [Claims] 1. A pressure sensor for detecting a pressure on a primary side and a secondary side of a heat exchanger for performing a pressure resistance test, and a booster pump for boosting at least one of the primary side and the secondary side.
Pressure-increasing control valves that are respectively arranged on the primary side and the secondary side to increase their pressure, pressure-reducing control valves that are respectively arranged on the primary side and the secondary side and reduce the pressure thereof, and a pressure resistance test work for the heat exchanger. A CPU for programming procedures and operation contents, which controls ON / OFF control of the booster pump and automatic opening / closing of the booster regulating valve and the pressure-reducing regulating valve on the basis of a measured value by the pressure sensor. Automatic measuring device for pressure resistance test. 2. The automatic measuring device for pressure resistance test according to claim 1, wherein the CPU is a personal computer. 3. The automatic measuring device for pressure resistance test according to claim 2, wherein the result of the pressure resistance test executed by the personal computer can be output by a printer.