JP4757691B2 - Pipe leak inspection method - Google Patents

Description

  The present invention relates to a pipe leak inspection method for determining whether or not there is a leak in a pipe by filling a pipe inspection section with a fluid and measuring the pressure of the fluid.

  For example, at the time of new construction or renovation of a house, it is indispensable to carry out leak-tightness inspections of housing piping for water supply and hot water supply and floor heating piping. In the conventional inspection, it is common to apply water pressure to the pipe, measure the pressure in the pipe using a pressure gauge, and determine whether the pressure is acceptable or not based on the measured value. In the case of this method, the expansion coefficient when water pressure is applied differs depending on the material of the pipe forming the pipe, and the measured pressure value also changes. In particular, since resin pipes such as polyethylene pipes and polybutene pipes are significantly expanded when water pressure is applied, the pressure drops, making it difficult to accurately determine leakage.

  In addition, when water is injected into the pipe, the pressure should be applied with the air completely removed, otherwise the measured pressure will vary greatly. In other words, the greater the amount of residual air, the higher the rate at which the applied pressure is used to compress the air, so the pressure is less likely to decrease. This makes it very difficult to determine if there is a slight leak.

  Considering that it is difficult to completely remove the air in the piping at homes and construction sites, even if a slight leak occurs, it is impossible to detect it even if a slight leak has occurred. It will be close. On the other hand, even if an attempt is made to determine a leak by applying a gas pressure such as air pressure to determine a leak, the pressure change appearing on the measuring instrument is small due to the compressibility of the gas. In particular, in the case of a minute leak, the pressure change is very small, and a minute leak inspection with a gas that is greatly influenced by the temperature change is considered to be substantially impossible. Therefore, it is understood that the gas leak test is highly useful.

  Japanese Patent Laid-Open No. 2001-147172 is an invention that deals with leak inspection by gas, but this is for inspection of machined container-like workpieces, and for leaks of pipes at the time of new construction or renovation of houses. There are circumstances that are difficult to divert. The same applies to JP-T-2003-524112.

JP 2001-147172 A Special table 2003-524112

  The present invention has been made paying attention to the above points, and the problem is that it is possible to perform both a gas leak test and a liquid leak test, and a pipe leak test method that can easily realize advanced tests. Is to provide. Another object of the present invention is to accurately detect, for example, a minute leak at a screw joint or a minute leak caused by nailing. Another object of the present invention is to make it possible to clearly present a test result to a third party.

In order to solve the above problems, the present invention is intended for resin pipes including water supply, hot water supply pipes and floor heating pipes, and fills the inspection portion of the resin pipes with a fluid. This is a method for determining the presence or absence of leakage in the pipe by measuring using a pressure sensor. As the pressure sensor, a pressure sensor having a higher resolution of a pressure measurement range of 1 MPa is used for gas leakage inspection. , with closed inspection portion of the pipe, filled with fluids to the testing portion, pressed and waits a preset test pressure depending on the type of pipe, in a constant state expansion inspection portion of the pipe by the standby when it becomes, with measuring the pressure of the test portion, to detect the pressure difference between the measurement value and the test pressure, setting the pressure difference predetermined by the type of tubing pipe Values and compares the pressure difference between the obtained measured value and the test pressure by measurement of the differential pressure setting value the pressure difference between the measured value and the test pressure is defined thus advance the type of tubing The test pressure is 0.3 to 0.75 Mpa for a polyethylene pipe, polyvinyl chloride, and the test pressure is 0.3 to 0.75 Mpa for a polyethylene pipe. The pipe is 0.03 to 0.75 Mpa, and the waiting time is 5 to 10 minutes for the polyethylene pipe and 5 to 10 minutes for the polyvinyl chloride pipe .
The present invention is also intended for resin pipes including water supply and hot water supply pipes and floor heating pipes, fills the inspection portion of the resin pipes with a fluid, and measures the pressure change of the fluid using a pressure sensor. This is a method for judging whether or not there is a leak in the pipe, and as a pressure sensor, use a pressure sensor with a lower resolution of 2 MPa for gas and liquid inspection records, and inspect the pipe. Close the part, fill the inspection part with fluid, pressurize to the test pressure set in advance according to the type of piping, wait, and when the expansion of the inspection part of the pipe becomes constant by waiting, Measure the pressure of the inspection part, record the measured value, and look at the pressure difference generated during an arbitrary time interval in the recorded pressure change. Maximum 2 MPa, test time is obtained by taking steps that 1 minute to 24 hours.

The present invention, said such takes place during residential new construction and renovation as water supply, housing the pipe and the hot water supply, including the floor heating pipes and the like directed to the various leakage Moken査. That is, the material of the piping is resin, metal, or the like, and the degree of expansion that occurs when pressure is applied to the inspection portion varies. The inspection portion of the pipe is a section in which at least one end of the pipe can be closed by a valve or the like. A place where pressure is applied to implement the present invention is set at the other end or in the middle of the piping. In the present invention, the fluid used for applying pressure is a gas typified by air or a liquid typified by water. When water is injected into the pipe, the air is extracted and pressure is applied as in the conventional case.

  In the present invention, the pressure is measured by a pressure sensor. Various types of pressure sensors can be used in the present invention. Among them, an oilless type pressure sensor using a stainless steel film can withstand a wide range of temperature changes and is resistant to shock and vibration. This is a preferable pressure sensor because accuracy can be maintained over a long period of time. In the present invention, it is desirable to use a pressure sensor with a higher resolution for gas leak inspection and a pressure sensor with a lower resolution for gas and liquid inspection records as pressure sensors. The pressure range (measurement range) for a pressure sensor with a higher resolution for gas leak inspection is 1 MPa, for example, and the pressure range (measurement range) for a pressure sensor with a lower resolution for gas and liquid inspection records is, for example, 2 MPa is good.

  Under such a configuration, the inspection portion of the pipe is closed, the inspection portion is filled with fluid and pressurized, and the pressurized portion is maintained for a predetermined time, and the inspection portion of the pipe is deformed by waiting. When the pressure becomes almost constant, the pressure in the inspection portion is measured. The reason for waiting for a predetermined time after filling with fluid and pressurizing is to wait for the expansion to occur in the inspection portion of the piping due to pressurization and to measure accurately. As a result of experiments, in the case of a resin pipe such as a polyethylene pipe or a polybutene pipe, the waiting time is required to be about 5 to 10 minutes throughout the winter and summer. For vinyl chloride and metal pipes, it may take about 5 minutes throughout the year.

The measured value obtained by the above measurement is compared with the differential pressure set value determined by the pipe material type, and the measured value exceeds the differential pressure set value according to the pipe type. Whether or not there is a leak in the inspection part of the pipe. The set value of the differential pressure between the measured value and the test pressure is, for example, 0.4 to 0.7 KPa in the case of the above-mentioned cases of water supply, hot water supply residential piping, floor heating piping, and the like. is a suitable set value and the differential pressure settings for the other cases are separately determined. It is desirable that handling such as calculation processing of data such as setting values and measurement values proceeds according to a procedure programmed in advance by a computer including a personal computer (so-called personal computer: PC).

  In the present invention, when it is determined that there is a leak in the inspection portion of the piping, a display indicating failure is turned on, and when it is determined that there is no leakage in the inspection portion of the piping, a display indicating acceptance is turned on. Can be configured. Thereby, only the pass / fail result of the leak inspection can be instantly known, and the pass / fail can be notified to all the people on the spot. The judgment of pass / fail may be notified by sound such as a buzzer in addition to lighting.

Furthermore, in the present invention, each measurement value obtained by the pressure sensor is processed and recorded by computer software, and is displayed in a diagram so that the inspection result can be presented to a third party. With this configuration, it is possible not only to notify the pass / fail inspection result , but also to present an objective numerical value to a third party and leave it in a record.

  Since the present invention is configured and operates as described above, both gas leak inspection and liquid leak inspection are possible, and advanced inspection can be realized easily and accurately. It is possible to provide a pipe leak inspection method. Further, according to the present invention, it is possible to accurately detect a minute leak at a screw joint portion, a minute leak caused by nailing, and the like. Moreover, according to this invention, a test result can be clearly shown to a third party.

  Further, the pipe leakage inspection method according to the present invention will be described with reference to embodiments. First, the apparatus configuration will be described with reference to the drawings.

As shown in FIG. 1, the inspection portion 12 of the pipe 11 used in the water supply system is determined by closing the valves 13 and 13 'and the openable / closable portion outside the figure, and the inside is filled with fluid, and the pressure change of the fluid Is measured using the pressure sensor 14 to constitute a device 10 that implements a method for determining the presence or absence of leakage in the inspection portion 12 of the pipe 11. Note that one end of the illustrated pipe 11 is a closed end. Reference numeral 15 denotes a main part of the pipe leakage inspection device, which is a display unit 16 for displaying a measurement numerical value by 7-segment display and displaying a pass / fail judgment result and a notification, and buttons for all settings and selections. Have a kind. Reference numeral 17 denotes an AC adapter for power supply.

  The main body portion 15 includes a control IC 18 and a memory IC 19 as shown in FIG. 2, and is connected to the personal computer 21 by, for example, a USB device. A storage device 22 such as a CD or a flexible disk stores inspection results such as measured numerical values. What is the material of the pipe to be inspected, what kind of pipe, the set time and the set pressure for performing the inspection according to the present invention, the necessary items input section, and further pass or fail of the inspection, Such an item output section is provided in the main body portion 15.

  A specific configuration of the main body portion 15 is illustrated in FIG. FIG. 3 shows an example, in which 23 is a power supply IC for supplying power to the control IC (18), 24 is a clock IC for taking time into the control IC (18), and 26 is a control. A memory IC for exchanging data with the IC (18), 27 an IC for creating a standard voltage to be compared with the sensor output, 28 an IC for comparing and digitizing the sensor voltage and the standard voltage, 29 An IC for displaying the digital output of the control IC (18) as a four-digit number, 30 is an IC for converting the digital output of the control IC (18) into a signal of the RS232C format, and 31 is a control IC (18) The tact switch 32 is used to display the state of the control IC (18). Showing a display portion made of.

In order to implement the leak inspection method for piping according to the present invention using the leak inspection apparatus 10 configured as described above, the following procedure is performed. The inspection portion 12 of the pipe 11 is filled with fluid and pressurized , waits for a predetermined time, and when the deformation of the inspection portion of the pipe becomes almost constant due to the standby, the pressure of the inspection portion is measured. Furthermore, the specific method is demonstrated.

Inspection for piping gas leakage A description will be given with reference to FIG. In this example 1, the pipe 11 is a cross-linked polyethylene pipe. Since this is a gas leak test, the test pressure is 0.3 MPa (megapascal) and the waiting time is 5 minutes.
The apparatus 10 of the present invention is connected to a power source to be in an energized state, a tube type (crosslinked PE tube) is selected by a selection button on the main body portion 15, and a pressure of 0.3 MPa is set on the display unit 16.
A pressure sensor 14 composed of an oilless stainless steel sensor is connected to the port of the pipe 11, and a pressurizing device 20 is connected to the pipe 11. The valve 13 ′ leading to the pressurizing device 20 is opened, all other valves 13 are closed, and gas (air) is injected into the inspection portion 12 of the pipe 11 at a test pressure of 0.3 MPa.
A pressure measurement inspection is performed at a set test pressure of 0.3 MPa. When a set time after button operation (15 minutes in Example 1 of this case) elapses, the inspection automatically ends, and the measurement value and the inspection result are displayed on the display unit 16.
Moreover, the measured value of pressure is processed by computer software, and becomes a viewable state by recording and plotting.

Examples thereof are shown in FIGS. In the example of FIG. 5, the measured value of the pressure at the time point A after 5 minutes of the waiting time is 0.295 MPa, the measured value at the time points B and C after another 10 minutes is 0.2945 MPa, and the difference is the differential pressure. Since it falls below the set value of 0.5 KPa, it is judged as acceptable.
On the other hand, in the example of FIG. 6, the measured value of the pressure at the time point A after 5 minutes of the waiting time is 295 KPa, but the measured value at the time point B after another 5 minutes is 294.25 KPa. since but not fit to do Ri differential pressure setting value 0.70KPa and 0.75KPa, judgment is rejected.

  In the water pressure and air pressure test (example 2) for the gas and liquid leak test, the following is performed. Arbitrary pressure up to 2 MPa is applied to the pipe 11, the test time is set to an arbitrary time in the range of 1 minute to 24 hours, and the apparatus 10 of the present invention is connected to a power source to be in an energized state as in Example 1. Then, the pressure change of the inspection portion 12 of the pipe 11 is measured. Measurement ends when the set time has elapsed. The measured values are processed by computer software in the same manner as in Example 1, and are in a viewable state by recording and plotting.

  The graphical display of the pressure inspection record of Example 2 will be described with reference to FIGS. With the inspection apparatus 10 of the present invention connected to a power source and energized, the time to be recorded (recording time) is set on the display unit 16. By setting 24 hours, one day pressure change can be seen. Next, the pressure sensor 14 is connected to the port of the pipe 11. In the case of a water pressure test, the piping 11 is vented. By operating the button, the change in pressure in the inspection portion 12 of the pipe 11 is measured, and when the set time (24 hours in this example 2) has elapsed, the inspection is automatically terminated, and the measurement value and the inspection result are displayed on the display unit 16. Is done.

  FIG. 8 shows an example of editing the result of the inspection of FIG. 7. In the figure, vertical lines A and D are set at arbitrary times, and indicate the pressure difference generated during the time interval. Yes. At the start of the inspection, a pressure of 600 KPa was applied, the pressure at point A after 2.5 hours was 640 KPa, the pressure at point D after 4.5 hours was 620 KPa, and the differential pressure between A and D was 20 KPa. It is understood that there is.

Specific examples of pass / fail judgment are shown in Table 1 below. In Table 1, the differential pressure means a preset differential pressure.
Table 1

  In order to carry out the pipe leak inspection method according to the present invention using the leak inspection apparatus 10 according to the present invention shown in FIGS. 1 to 3, software for processing the measurement values is required. The software needs to have processing functions such as calculating, comparing, and judging measured and digitally converted data. These softwares are for executing at least the processes shown in the flowcharts of FIGS.

The top view which shows an example of the apparatus used directly for implementation of the leak inspection method of piping concerning the present invention. Explanatory drawing which shows the apparatus similar to FIG. 1 typically. The circuit diagram (or block diagram) which shows the main-body part of the leak inspection apparatus of piping. The chart figure explaining the leak detection process by the leak inspection method of piping concerning the present invention. The graph in the case of "pass" which recorded the test result by this invention. The graph in the case of "failure" which recorded the test result by this invention. The chart figure explaining the leak detection process by the leak inspection method of piping concerning the present invention. The graph which shows the measurement result of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Leak inspection apparatus 11 Piping 12 Inspection part of piping 13, 13 'Valve 14 Pressure sensor 15 Main part of apparatus 16 Display part 18 Control IC
19 Memory IC
20 Pressurizing device 21 Personal computer 22 Storage device 23 Power supply IC
24 IC for clock
26 Memory IC
27 Standard Voltage IC
28 Voltage comparison IC
29 IC for display
30 Signal conversion IC
31 tact switch 32 display

Claims (4)

For resin pipes including water supply and hot water supply pipes and floor heating pipes, the inspection part of the resin pipes is filled with a fluid, and the pressure change of the fluid is measured using a pressure sensor. This is a method for judging the presence or absence of leaks in pipes. As a pressure sensor, a pressure sensor with a higher resolution of 1 MPa is used for gas leak inspection, and the inspection part of the pipe is closed. filled with fluids to test part is pressurized and waits a preset test pressure depending on the type of pipe, when the expansion of the inspection portion of the pipe becomes constant state by the standby, the pressure in the inspection section with measuring, detecting the pressure difference between the measurement value and the test pressure, the setting value of the differential pressure predetermined by the type of tubing pipe, obtained by measurement of the Comparing the pressure difference between the value and the test pressure, relative to the differential pressure set value the differential pressure is determined thus advance the type of tubing between the measured value and the test pressure, whether the or below exceeds The test pressure is 0.3 to 0.75 Mpa for polyethylene pipes, 0.03 to 0.75 Mpa for polyvinyl chloride pipes, and standby. The pipe leakage inspection method, wherein the time is 5 to 10 minutes for a polyethylene pipe and 5 to 10 minutes for a polyvinyl chloride pipe . The display indicating failure is turned on when it is determined that there is a leak in the inspection portion of the piping, and the indication indicating acceptance is turned on when it is determined that there is no leakage in the inspection portion of the piping. Inspection method of leakage of piping as described. For resin pipes including water supply and hot water supply pipes and floor heating pipes, the inspection part of the resin pipes is filled with a fluid, and the pressure change of the fluid is measured using a pressure sensor. A method for determining the presence or absence of leaks in pipes. As a pressure sensor, a pressure sensor with a lower resolution of 2 MPa is used for gas and liquid inspection records, and the inspection part of the pipe is closed. Fill the inspection part with fluid, pressurize to the test pressure set in advance according to the type of piping, and wait, and when the expansion of the inspection part of the piping becomes constant due to the standby, the pressure of the inspection part , And the measured value is recorded, and the pressure difference generated during an arbitrary time interval in the recorded pressure change is observed. The test time leak inspection method of the pipe, characterized in <br/> be 1 minute to 24 hours. The pipe leakage inspection method according to claim 1 or 3, wherein each measured numerical value obtained by the pressure sensor is recorded by a computer and plotted so that a measurement result can be presented to a third party.

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