JP2006003086A - Gas trap diagnostic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas trap diagnostic device capable of diagnosing correctly whether its operation is right or not. <P>SOLUTION: An inlet side piping 2 is provided with a holder 10 on which an ultrasonic transmitter/receiver 5 or 6 is freely detachably mounted. A handy ultrasonic vibration detector 7 is pressed against the upper surface of a gas trap 1, and detects the ultrasonic vibration generated from the fluid flowing in the gas trap 1. An ultrasonic transmitter/receiver 5 and the ultrasonic vibration detector 7 are connected with an operation display 4 the connection cords 13 and 16. In the case of measuring the liquid level of the condensed liquid in the inlet side piping 2, the ultrasonic transmitter/receiver 5 or 6 is attached to the holder 10. The vibration detector 7 is capable of determining whether the operation of the gas trap 1 is right or not, and also capable of measuring the amount of the condensed liquid in the inlet side piping 2 of the gas trap 1 with the ultrasonic transmitter/receiver 5 or 6 via the holder 10. Consequently, the operation of the gas trap 1 is more correctly diagnosed whether it is right or not. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a gas trap for diagnosing the quality of a gas trap that is attached to various gas pipes, receiver tanks, etc., and that automatically discharges the condensate condensed from the liquid contained in the gas. The present invention relates to a strap diagnostic apparatus. Various gases include various types such as high-pressure compressed air, city gas, and naphtha.

  The gas trap diagnostic device detects the ultrasonic vibration that occurs when the gas trap opens and discharges condensate or high-pressure gas, and compares it with a preset vibration criterion for good or bad operation. In this case, it is diagnosed whether or not the gas trap is operating normally.

In the conventional gas trap diagnostic apparatus, there is a problem that the quality of the operation cannot be accurately diagnosed when part or all of the gas trap valve port is blocked. Even if a part of the gas trap valve port is closed and the condensate cannot be discharged reliably, if the condensate is discharged from the remaining valve port, it is almost the same as when operating normally. This is because it is erroneously determined that the gas trap is operating normally in order to generate ultrasonic vibration. In addition, even when all the gas trap valve ports are closed and condensate remains on the gas trap inlet side, the gas trap valve body closes the valve port and generates ultrasonic vibrations. This is because it is erroneously determined that the normal valve closing state is maintained.
Japanese Examined Patent Publication No. 4-55260

  The problem to be solved is to provide a gas trap diagnostic device capable of accurately diagnosing the quality of the gas trap even when the valve port of the gas trap is closed.

  The present invention detects vibration generated by a gas trap and diagnoses whether or not the gas trap is operating normally. The liquid level in the gas trap main body or the liquid level near the gas trap inlet side is exceeded. It is equipped with an ultrasonic liquid level measuring device that measures with sound waves.

  The present invention includes an ultrasonic liquid level measuring device that measures the liquid level in the gas trap body or the liquid level on the gas trap inlet side to detect the presence or absence of condensate. The closed state of the gas trap can be grasped, and the quality of the operation of the gas trap can be accurately diagnosed.

  In the gas trap diagnostic apparatus of the present invention, the liquid level of the condensate can be accurately measured by the method of measuring the liquid level by reflecting the ultrasonic wave on the condensate surface as an ultrasonic liquid level measuring device.

  In FIG. 1, a gas trap 1 having a valve body and a valve opening therein, a calculation display 4 that performs various calculations, display, and storage functions, ultrasonic transmitters 5 and 6, and an ultrasonic transmitter / receiver 6 are provided. A gas trap diagnostic apparatus is constituted by the handy ultrasonic vibration detector 7 attached to the. In FIG. 1, the ultrasonic vibration detector 7 detects the ultrasonic vibration emitted from the gas trap 1, and the gas trap 1 is operating normally, or the valve port is closed, The state of diagnosing the quality of operation such as whether a gas leak has occurred is shown. The ultrasonic transmitter / receiver 6 is detachably attached from the vibration detector 7.

  A holder 8 for fixing the ultrasonic transmitter / receiver 5 at a predetermined angle is attached to the inlet side pipe 2 of the gas trap 1. The second holder 9 is attached at a predetermined distance from the holder 8. Although not shown, the detachable ultrasonic transmitter / receiver 6 is attached to the holder 9 in the same manner as the transmitter / receiver 5 in order to measure the flow velocity of the fluid in the pipe 2. The third holder 10 is attached to the lower surface of the pipe 2, and either one of the ultrasonic transmitters / receivers 5 and 6 is fixed so that the liquid level in the pipe 2 can be measured. In this embodiment, the ultrasonic transmitter / receiver 5 or 6, the holder 10, and the calculation display 4 constitute an ultrasonic liquid level measuring device.

  The inlet 11 of the gas trap 1 is connected to the inlet side pipe 2, and the outlet 12 is connected to the outlet side pipe 3. The gas trap 1 discharges only the condensate out of the inflowing gas-liquid mixed fluid to the outlet 12 side and does not discharge compressed air or gas, but the gas is discharged to the outlet 12 side after long-term use. There arises a problem that leakage or condensate cannot be discharged to the outlet 12 side due to the valve opening being closed. In the present embodiment, the ultrasonic vibration detector 7 detects the ultrasonic vibration emitted from the gas trap 1, so that the gas trap 1 is discharging only the condensate normally or the gas becomes defective. It is possible to measure whether or not air is leaking to the outlet 12 side.

A connection cord 13 is detachably attached to the upper end of the ultrasonic vibration detector 7. The other end of the connection cord 13 is connected to the calculation display 4. The ultrasonic vibration of the gas trap 1 detected by the ultrasonic vibration detector 7 is sent to the calculation display 4 by the connection cord 13, where calculation and comparison are performed, and the result is displayed on the display unit 14. . The arithmetic display 4 is provided with a keyboard 15 for inputting various data, conditions, and numerical values, and is connected to the ultrasonic transmitter / receiver 5 by a connection cord 16.

When measuring whether the valve port of the gas trap 1 is closed and the condensate cannot be discharged and the condensate remains in the inlet side pipe 2, the ultrasonic transmitter / receiver 5 is used. By removing from the holder 8 and fixing it to a separate holder 10, the liquid level of the condensate is detected by utilizing the reflection of ultrasonic waves at the level of the condensate that does not satisfy the cross-sectional area in the pipe 2. When the liquid level becomes higher than a predetermined value, it can be diagnosed that the valve port is closed. Further, in this case, if the ultrasonic vibration is not detected by the ultrasonic vibration detector 7 for a predetermined time, it can be more reliably diagnosed that the valve port is in the closed state.

Further, by switching the ultrasonic range of the ultrasonic transmitter / receiver 6 attached to the tip of the ultrasonic vibration detector 7, ultrasonic waves corresponding to the fluid discharged from the valve port of the gas trap 1 have been detected so far. The liquid level can be detected by utilizing the fact that ultrasonic waves are reflected from the liquid level of the condensate in the gas trap 1, and the valve port is closed when the liquid level becomes higher than a predetermined value. Alternatively, it can be diagnosed that the condensate cannot be sufficiently discharged from the gas trap 1 because the valve port of the gas trap 1 is too small.

  In the present embodiment, the amount of condensate flowing into the gas trap 1 from the inlet side pipe 2 can be measured. That is, the ultrasonic transmitter / receiver 6 is detached from the vibration detector 7 and connected to the connection cord 13, and is fixed to the holder 9 to form a pair with the ultrasonic transmitter / receiver 5 on the upper surface of the pipe 2. By receiving the flow rate, the flow rate of the condensate in the pipe 2 can be detected, and further, the condensate passing through the pipe 2 can be input by inputting the necessary correction coefficient, the cross-sectional area of the pipe 2 and the like to the calculation display 4. The amount of liquid can be measured.

  When the amount of the condensate passing through the pipe 2 is small and the error is large in the measured values at the ultrasonic transmitters / receivers 5 and 6 via the holders 8 and 9, the ultrasonic transmitter / receiver 5 is detached from the holder 8 and separated. By fixing to the holder 10, the liquid level can be detected by utilizing the fact that the ultrasonic wave is reflected by the liquid level of the condensate that does not satisfy the cross-sectional area in the pipe 2. The amount of condensate passing through the interior can be measured.

  In this way, it is possible to measure whether the gas trap 1 cannot discharge the condensate and retain the condensate, and it is possible to accurately diagnose the quality of the operation of the gas trap 1. .

The block diagram of the gas trap diagnostic apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Gas trap 2 Inlet side piping 3 Outlet side piping 4 Calculation display 5 Ultrasonic transmitter / receiver 6 Ultrasonic transmitter / receiver 7 Ultrasonic vibration detector 8, 9 Holder 10 Holder

Claims (1)

Detecting the vibration generated by the gas trap and diagnosing whether or not the gas trap is operating normally. Measures the liquid level in the gas trap body or the liquid level near the gas trap inlet with ultrasound. A gas trap diagnostic apparatus comprising an ultrasonic liquid level measuring device.

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