JP7162301B2 - PRESSURE GAUGE INSPECTION METHOD AND PRESSURE GAUGE INSPECTION DEVICE - Google Patents

Description

The present invention relates to an inspection method and inspection apparatus for inspecting pressure gauges.

Inspection and calibration of the measurement accuracy of pressure gauges for airtight leak testing of gas pipes, for example, involves placing the pressure gauge to be inspected and the pressure gauge that serves as a reference device in a constant temperature bath and keeping them at a constant temperature. This is done by comparing the measured pressures of both while maintaining the pressure (see, for example, Patent Document 1).

JP 2015-224997 A

However, since the inspection method as described above requires a constant temperature bath, it is not easy for the user of the pressure gauge. Therefore, usually, inspection is requested to a third-party inspection agency or the like. For this reason, the time and cost required for the inspection have been required.

SUMMARY OF THE INVENTION In view of the above, it is an object of the present invention to enable even a user of a pressure gauge to easily inspect the pressure gauge.

In order to achieve the above objects, the present invention
A pressure gauge inspection method for inspecting whether a pressure gauge to be inspected measures the same pressure as a predetermined reference device,
a connecting step of connecting the pressure gauge and the reference device so as to communicate with each other;
a pressure applying step of applying atmospheric pressure or a predetermined pressure to the communicating internal space to seal it;
a measured pressure confirmation step of confirming that the pressure difference measured by the pressure gauge and the reference device is within a predetermined allowable range;
The temperature of at least one of the pressure gauge and the reference device, or the temperature of the surrounding atmosphere during a predetermined temperature confirmation period included in the period from the time before the pressure measurement to the time after the pressure measurement. A temperature confirmation step to confirm that it is within the allowable range of
characterized by having

again,
A pressure gauge inspection device for inspecting whether a pressure gauge to be inspected measures the same pressure as a predetermined reference device,
In a state in which the pressure gauge and the reference device are connected so as to communicate with each other, and the internal space of the communication is sealed by applying atmospheric pressure or a predetermined pressure,
a management device to which a pressure signal corresponding to the pressure measured by the pressure gauge and the reference device and a temperature signal corresponding to the temperature of the pressure gauge and the reference device or the temperature of the atmosphere surrounding them are input;
The above management device
confirming that the pressure difference measured by the pressure gauge and the reference device is within a predetermined allowable range;
A change in the temperature of at least one of the pressure gauge and the reference device, or the temperature of the surrounding atmosphere during a predetermined temperature confirmation period included in the period from the time before the pressure measurement to the time after the pressure measurement It is characterized by confirming that it is within a predetermined allowable range.

As a result, if it can be confirmed that the change in the ambient temperature, etc., is within a predetermined allowable range, the inspection result can be determined to be appropriate, so the pressure gauge can be inspected without providing a constant temperature bath can be done easily.

According to the present invention, even the user of the pressure gauge can easily inspect the pressure gauge.

2 is a block diagram showing the configuration of the pressure gauge and reference device of Embodiment 1. FIG. FIG. 10 is a block diagram showing configurations of a pressure gauge and a reference device according to Embodiment 2; FIG. 11 is a block diagram showing the configuration of a pressure gauge and a reference device according to Embodiment 3; FIG. 11 is a block diagram showing the configuration of a pressure gauge and a reference device according to Embodiment 4;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

(Embodiment 1)
An example in which a user or the like inspects a pressure gauge 100 to be inspected as shown in FIG. 1 using a reference device 200 will be described. The pressure gauge 100 includes, for example, a diaphragm-type pressure sensor 101, a control section 102 that controls the operation of the entire pressure gauge 100, and a display section 103 that displays measurement results and the like. Further, the reference device 200 includes a pressure sensor 201, a control section 202, and a display section 203 in the same manner as the pressure gauge 100, except that its measurement accuracy is confirmed by an inspection by the manufacturer or the like. .

Inspection of the pressure gauge 100 is performed as follows. First, the pressure gauge 100 and the reference device 200 are connected through the pipe 301 so as to communicate with each other (connection step). It should be noted that the connection is not limited to being connected via the pipe 301, and may be connected via a communicating internal space, such as connecting via a sealable container or the like, or connecting directly. The pipe 301 is connected to a pressure source 303 via a valve 302 and can be opened to the atmosphere via a valve 304 . A thermometer 151 is arranged near the pressure gauge 100 and the reference device 200 . Note that the thermometer 151 may be provided inside or near the pressure gauge 100 and the reference device 200, respectively.

Next, one of the valves 302 and 304 is closed and the other is opened to bring the inside of the pipe 301 to a predetermined pressure or atmospheric pressure, then both valves 302 and 304 are closed to allow adiabatic expansion or compression as necessary. It is left until the accompanying temperature change is stabilized (pressure applying step). After that, the pressure is measured by the pressure gauge 100 and the reference device 200 (measured pressure confirmation step). In addition, the temperature of the pressure gauge 100 and the reference device 200 or the temperature of the surrounding atmosphere is measured by the thermometer 151 before, after, or before and after a predetermined temperature confirmation period before and after the pressure measurement ( temperature confirmation process).

Here, the measurement and confirmation of the temperature and pressure are not limited to being performed on the spot, but the measurement images (photographs and videos) are taken with a camera or recording device, the measurement signals are recorded, etc., and later, You may make it confirm based on these. Further, for example, the measurement signal of the reference device may be acquired and recorded at the timing when the measurement image of the pressure gauge is captured.

When the difference in the measured temperature before and after the temperature confirmation period is within a predetermined allowable range, and the difference in the measured pressure between the pressure gauge 100 and the reference device 200 is within a predetermined allowable range, according to the result of the measurement. Second, it is determined that the measurement accuracy of the pressure gauge 100 is appropriate. That is, it is not always difficult to prepare an environment that is less affected by air currents, convection, radiant heat, etc., without using a constant temperature bath or the like. Therefore, by placing the pressure gauge 100 and the reference device 200 in such an environment and conducting the inspection, if it can be confirmed that the change in the ambient temperature, etc., is within a predetermined allowable range, the inspection result is determined to be appropriate. can do. Therefore, the pressure gauge can be easily inspected without providing a constant temperature bath or requesting inspection from an inspection agency.

Regarding the timing of temperature measurement as described above, if it can be confirmed that there is no temperature change that affects pressure measurement, there may be a slight time difference between the timing of pressure measurement and the temperature confirmation period. . That is, in general, if it is possible to confirm that the temperature fluctuation is within a predetermined range from the timing sufficiently before the pressure measurement until the pressure measurement is performed, it is preferable in terms of facilitating direct confirmation. Normally, however, pressure measurement is appropriate if it is possible to confirm that the temperature fluctuation is within a predetermined range for a predetermined period of time prior to pressure measurement or for a predetermined period after pressure measurement, unless there is a particular cause of temperature fluctuation. It can be assumed that there is Here, in order to confirm the temperature fluctuation, it is not limited to obtaining the temperature difference before and after the temperature confirmation period as described above. You may ask for

Moreover, the comparison of the pressure measured by the pressure gauge and the reference device is not limited to the instantaneous pressure, but may be performed using the average value, maximum, minimum, or other representative value of the pressure within a predetermined period.

(Embodiment 2)
An example in which an inspection similar to that of the first embodiment is automatically performed will be described.

As shown in FIG. 2, the pressure gauge 100 and the reference device 200 of the second embodiment have temperature sensors 104 and 204 and communication units 105 and 205 in addition to the configuration of the first embodiment. The temperature sensors 104 and 204 detect the temperature of the atmosphere inside and near the pressure gauge 100 and the reference device 200 . The communication units 105 and 205 communicate with a management device 400 provided separately.

The management device 400 receives signals corresponding to the pressure and temperature detected by the pressure sensors 101 and 201 and the temperature sensors 104 and 204, and inspects the pressure gauge 100 in the same manner as in the first embodiment. there is That is, when the difference in the measured temperature before and after the temperature confirmation period is within a predetermined allowable range and the difference in the measured pressure between the pressure gauge 100 and the reference device 200 is within a predetermined allowable range, the pressure gauge 100 is determined to be appropriate. It should be noted that these signals may be input by a user's operation or the like instead of receiving signals corresponding to pressure or temperature as described above.

Further, when the management device 400 determines that the measurement accuracy is not appropriate, that is, the pressure difference is not within the predetermined allowable range, or the temperature difference is not within the predetermined allowable range. In such a case, the pressure gauge 100 can be made to stop the measurement operation, or can be notified by displaying on the display unit 103 or by an alarm sound that the measurement accuracy is determined to be inappropriate as a result of the inspection. This makes it possible to easily prevent inappropriate measurements.

Note that the management device 400 is not limited to being provided separately from the pressure gauge 100 and the reference device 200 as described above. It may be provided separately in the total 100 and the reference device 200 . Further, the operation of the valves 302 and 304 and the pressure source 303 may also be controlled by the management device 400 .

(Embodiment 3)
The pressure gauge 100 and the reference device 200 are not limited to being used in pairs as described above, and as shown in FIG. can be inspected. That is, a plurality of pressure gauges 100 are connected to the pipe 301, and the management device 400 can identify each pressure gauge 100 by, for example, a device ID (identification information) such as a manufacturing number. Inspection of the pressure gauge 100 can be easily performed at the same time. As a result, it is possible to easily reduce the labor and time required for inspection.

(Embodiment 4)
As shown in FIG. 4, the management device 400 is configured to be able to communicate with, for example, the manufacturer server 600 via the Internet 500 or the like, so that the determination result of the inspection as described above is sent to the manufacturer server 600 together with the serial number. can be As a result, it is possible to automatically issue a calibration certificate for the pressure gauge 100 whose measurement accuracy is determined to be adequate, and to automatically repair the pressure gauge 100 whose measurement accuracy is determined to be inappropriate. In addition, the manufacturer or the like can easily grasp and manage the state of each pressure gauge 100 in an integrated manner.

It should be noted that not only the result of determination by the inspection is sent to the manufacturer server 600 or the like as described above, but also the measurement results themselves of the pressure sensors 101 and 201 and the temperature sensors 104 and 204 are sent to the manufacturer server 600. The maker server 600 may perform the same processing as the management device 400 . In that case, if the communication units 105 and 205 can be directly connected to the Internet 500 or the like, the management device 400 can be omitted.

Also, the measurement results of the pressure sensors 101 and 201 and the determination results of the management device 400 may be temporarily stored in a user's server or the like, and sent to the manufacturer server 600 as necessary.

(Modification)
Instead of using the thermometer 151 and the temperature sensors 104 and 204 as described above, the temperature may be substantially (indirectly) measured by pressure measurement by the pressure sensors 101 and 201. . That is, if there is no leak in the pipe 301, a change in temperature will cause a change in pressure, so it is possible to check whether there is a change in temperature or the like by measuring the pressure. Specifically, for example, within at least one of the predetermined time before and after the pressure measurement for the inspection, the pressure in the pipe 301 is set to a predetermined pressure or atmospheric pressure and sealed, and the measured pressure is If the variation is within the predetermined allowable range, it is estimated that the temperature variation during pressure measurement for inspection is also less than the predetermined value. Therefore, the presence or absence of temperature fluctuations can be confirmed by measuring the pressure as described above. It should be noted that confirmation of the presence or absence of temperature fluctuations by measuring the pressure may be performed using a separately provided pressure gauge or reference device. In this case, it is possible to easily perform the measurement for confirming the temperature fluctuation during the pressure measurement for the inspection or during the period during the measurement. Also, when the pressure in the pipe 301 is set to the atmospheric pressure, even if there is some leakage, there is almost no movement of air inside or outside the pipe 301. Therefore, it is necessary to check the presence or absence of temperature fluctuations. can do.

Note that the components and the like described in each of the above embodiments and modifications may be combined in various ways within a logically possible range.

100 pressure gauge 101 pressure sensor 102 control unit 103 display unit 104 temperature sensor 105 communication unit 151 thermometer 200 reference device 201 pressure sensor 202 control unit 203 display unit 204 temperature sensor 205 communication unit 301 piping 302 valve 303 pressure source 304 valve 400 management Device 500 Internet 600 Maker server

Claims (12)

A pressure gauge inspection method for inspecting whether a pressure gauge to be inspected measures the same pressure as a predetermined reference device,
a connecting step of connecting the pressure gauge and the reference device so as to communicate with each other;
a pressure applying step of applying atmospheric pressure or a predetermined pressure to the communicating internal space to seal it;
In the environment outside the constant temperature bath, a measured pressure confirmation step of confirming that the pressure difference measured by the pressure gauge and the reference device is within a predetermined allowable range;
The temperature of at least one of the pressure gauge and the reference device, or the temperature of the surrounding atmosphere during a predetermined temperature confirmation period included in the period from the time before the pressure measurement to the time after the pressure measurement. A temperature confirmation step to confirm that it is within the allowable range of
A method of inspecting a pressure gauge, comprising: A pressure gauge inspection method according to claim 1,
A method of inspecting a pressure gauge, characterized in that the measured pressure confirming step and the temperature confirming step are performed by a management device. The pressure gauge inspection method according to claim 2,
If the pressure difference is not within the predetermined allowable range or the temperature fluctuation is not within the predetermined allowable range, the management device causes the pressure gauge to be inspected to stop measuring operation; Alternatively, a method of inspecting a pressure gauge, characterized in that an inspection result is notified. A pressure gauge inspection method according to any one of claims 1 to 3,
In the temperature confirmation step, during a predetermined temperature confirmation period when the measured pressure confirmation step is performed, the pressure in the internal space or the internal space of a separately provided pressure gauge or reference device is set to a predetermined pressure, or A method of inspecting a pressure gauge, characterized in that it is carried out by confirming that fluctuations in pressure measured by the pressure gauge or reference device are within a predetermined allowable fluctuation range in a sealed state at atmospheric pressure. . A pressure gauge inspection method according to any one of claims 1 to 4,
A pressure gauge inspection method comprising simultaneously inspecting a plurality of pressure gauges with respect to one reference device. A pressure gauge inspection device for inspecting whether a pressure gauge to be inspected measures the same pressure as a predetermined reference device,
In a state in which the pressure gauge and the reference device are connected so as to communicate with each other, and the internal space of the communication is sealed by applying atmospheric pressure or a predetermined pressure,
a management device to which a pressure signal corresponding to the pressure measured by the pressure gauge and the reference device and a temperature signal corresponding to the temperature of the pressure gauge and the reference device or the temperature of the atmosphere surrounding them are input;
The above management device
In the environment outside the constant temperature bath, While confirming that the pressure difference measured by the pressure gauge and the reference device is within a predetermined allowable range,
A change in the temperature of at least one of the pressure gauge and the reference device, or the temperature of the surrounding atmosphere during a predetermined temperature confirmation period included in the period from the time before the pressure measurement to the time after the pressure measurement An inspection device for a pressure gauge, characterized by checking that it is within a predetermined allowable range. The pressure gauge inspection device according to claim 6,
The above management device
When the pressure difference is not within the predetermined allowable range or the temperature fluctuation is not within the predetermined allowable range, the measuring operation of the pressure gauge to be inspected is stopped or the inspection result is notified. A pressure gauge inspection device characterized by: The pressure gauge inspection device according to any one of claims 6 to 7,
The above management device
During the predetermined temperature confirmation period when the pressure difference is confirmed, the pressure in the internal space or the internal space of the separately provided pressure gauge or reference device is set to a predetermined pressure or atmospheric pressure and sealed. A pressure gauge inspection device characterized by checking the temperature fluctuation by confirming that the pressure fluctuation measured by the pressure gauge or the reference device is within a predetermined allowable fluctuation range. . The pressure gauge inspection device according to any one of claims 6 to 8,
A pressure gauge inspection device, wherein the management device simultaneously inspects a plurality of pressure gauges with respect to one reference device. The pressure gauge inspection device according to any one of claims 6 to 9,
A pressure gauge inspection device, wherein the management device is provided in at least one of the pressure gauge to be inspected and the reference device. The pressure gauge inspection device according to any one of claims 6 to 10,
The above management device
When the pressure difference is within the predetermined allowable range and the temperature fluctuation is within the predetermined allowable range, information indicating that fact and information specifying the pressure gauge to be inspected are provided. A pressure gauge inspection device characterized by transmitting to a predetermined server device. The pressure gauge inspection device according to any one of claims 6 to 10,
The above management device
A pressure signal corresponding to the pressure measured by the pressure gauge and the reference device, a temperature of the pressure gauge and the reference device, or a temperature signal corresponding to the temperature of the atmosphere surrounding them, and the pressure gauge to be inspected are specified. A pressure gauge inspection device characterized by transmitting information to a predetermined server device.

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