KR200486936Y1 - turbine pulse meter - Google Patents

Abstract

The turbine pulse meter 100 of the present invention includes an isolation barrier terminal unit 110 to which a sensor output cable 7 which is a sensor output signal output from a proximity sensor 6a of a turbine meter 10 is connected, And the connection terminal CT is connected to the other side to connect the measurement tip P to the isolation barrier terminal portion 110 to which the sensor output cable 7 is connected and input the connection terminal CT (6a) of the turbine meter (10) measured by the measurement tip (P) through a connection terminal (CT) connected to the input channel port (INP) A signal for comparing the waveform of the sensor output signal and the waveform of a normal sensor output signal when the proximity sensor 6a previously stored in the storage section normally operates, A main switch 210 for controlling the supply and cutoff of the AC power and a main switch 210 for turning on the AC A main switch 210 and a drive switch 220 are turned on to turn on a DC voltage to the isolation barrier terminal unit 110 And a power supply control switching unit 200 composed of barrier switches 230 for supplying power.

Description

Turbine pulse meter "

The present invention relates to a turbine pulse meter, and in particular, when a turbine meter is inspected or maintained, a waveform of a sensor output signal output from a proximity sensor and a waveform of a normal sensor output signal when a proximity sensor is normal are compared If the proximity sensor does not operate normally, the proximity sensor is immediately replaced at the site, and after the proximity sensor is replaced, the blade of the turbine meter is rotated so that the waveform of the sensor output signal output from the proximity sensor And a turbine pulse meter for determining whether the proximity sensor gap is within a normal range when the proximity sensor is replaced.

The Turbine Meter is designed to allow multiple winged turbine wheels to rotate freely by means of bearings and rotating shafts. The rotational speed is measured while the end of the blade of the turbine wheel passes through the measuring point and the output signal from the turbine meter is a frequency signal proportional to the volume flow rate, Each pulse signal generated by the meter can be calculated by calculating the condition corresponding to the volume of the measured liquid.

Turbine meters are typically installed in gas pipelines in the natural gas industry to measure the flow of large volumes of gas.

Prior art related to the turbine meter is disclosed in Korean Patent Laid-Open Publication No. 10-1994-7000665 entitled "Gas Turbine Meter" (Published Date: Feb. 23, 1994) and Korean Utility Model No. 20-1983-0000692 "Turbine Meter" Date: 1983.05.09).

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of a typical turbine meter.

1, the turbine meter 10 includes a main body 2 having a cylindrical shape having both ends penetrated and forming a flow path 1 therein, A turbine wheel 4 including a plurality of blades 3 and a fixture 5 for rotatably supporting the turbine wheel 4 and a turbine wheel 4 positioned above the turbine wheel 4, And a proximity sensor housing 6 to which a proximity sensor 6a for generating a sensor output signal having a frequency proportional to the rotational speed of the sensor housing 6 is mounted.

The sensor output signal outputted from the proximity sensor 6a of the turbine meter 10 is transmitted to the flow rate calculator 9 installed in the control room 8 remotely located from the turbine meter 10 via the cable 7, And measures the sensor output signal outputted from the proximity sensor 6a through the waveform measuring device.

When the sensor output signal of the proximity sensor 6a is measured through the waveform measuring instrument located at a distance, the sensor output signal value output from the proximity sensor by the waveform measuring instrument due to the line resistance along the length of the cable 7 There is a problem that the proximity sensor 6a can not be replaced at an accurate timing in the abnormal operation of the proximity sensor 6a.

Further, since the sensor output signal output from the proximity sensor can not be measured at the site when the proximity sensor 6a is replaced at the site where the turbine meter is installed, the operator adjusts the gap between the proximity sensor and the turbine wheel with the naked eye, The gap between the sensor and the proximity sensor can not be precisely adjusted. Therefore, the sensor output signal output from the proximity sensor also has an incorrect value.

Korean Patent Laid-Open Publication No. 10-1994-7000665 entitled "Gas Turbine Meter" (published on Feb. 23, 1994) Korean Utility Model Publication No. 20-1983-0000692 "Turbine Meter" (Publication Date: May 3, 1983)

The purpose of the present invention is to compare the waveform of the sensor output signal output from the proximity sensor and the waveform of the normal sensor output signal when the proximity sensor is normal at the site where the turbine meter is installed, If not, the proximity sensor is immediately replaced at the site, and after the proximity sensor is replaced, the blade of the turbine meter is rotated to measure the waveform of the sensor output signal output from the proximity sensor at the maximum rotation from the initial drive, And a turbine pulse meter for judging whether the proximity sensor gap is in the normal range.

In order to achieve the above object, the turbine pulse meter of the present invention comprises: a isolation barrier terminal portion to which a sensor output cable 7, which is a sensor output signal outputted from a proximity sensor of a turbine meter, is connected; A measurement probe for connecting a measuring tip to one side of the isolation barrier terminal portion to which the sensor output cable is connected and to connect the connection terminal to the input channel port; A monitor for displaying a waveform of a sensor output signal output from a proximity sensor of the turbine meter measured by a measurement tip through a connection terminal connected to the input channel port; A signal processing unit for comparing a waveform of the sensor output signal with a waveform of a normal sensor output signal when the proximity sensor previously stored in the storage unit normally operates; A main switch for controlling the supply and cutoff of the AC power supply and a drive switch for controlling power supply to the monitor and the signal processing unit by the AC power when the main switch is turned on, And a power supply control switching unit configured to supply a DC voltage to the isolation barrier terminal unit. When the barrier switch is turned on and a DC voltage is supplied to the isolation barrier terminal unit, a DC voltage supplied to the isolation barrier terminal unit is supplied to the sensor And the proximity sensor is supplied to the proximity sensor via an output cable to operate the proximity sensor.

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The turbine pulse meter of the present invention compares the waveform of the sensor output signal output from the proximity sensor and the waveform of the normal sensor output signal when the proximity sensor is normal at the site where the turbine meter is installed at the time of inspection or maintenance of the turbine meter, If it does not operate normally, the proximity sensor can be replaced immediately in the field, and the turbine meter can be diagnosed in real time to shorten the maintenance time. After the proximity sensor is replaced, the turbine meter blade is rotated, The gap between the turbine wheel and the proximity sensor can be precisely adjusted when the proximity sensor is replaced by measuring the waveform of the sensor output signal output from the proximity sensor.

1 shows a general turbine meter,
2 is a view of a turbine pulse meter of the present invention,
3 is a view showing a connection state between a turbine meter for measuring a sensor output signal output from a proximity sensor of a turbine meter and a turbine pulse meter of the present invention.

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

2 and 3, the turbine pulse meter 100 of the present invention is configured such that the sensor output cable 7, which is a sensor output signal output from the proximity sensor 6a of the turbine meter 10, The measurement tip P is connected to one side of the barrier terminal unit 110 and the connection terminal CT is connected to the other side and the measurement tip P is connected to the isolation barrier terminal unit 110 to which the sensor output cable 7 is connected. A measurement probe 120 for connecting the connection terminal CT to the input channel port INP and a measurement probe 120 for connecting the connection terminal CT to the input channel port INP via a connection terminal CT connected to the input channel port INP A monitor 130 for displaying a waveform of a sensor output signal output from the proximity sensor 6a of the turbine meter 10 when the proximity sensor 6a previously stored in the storage unit and the waveform of the sensor output signal are normally operated A main switch 210 for controlling the supply and cutoff of the AC power, When the main switch 210 is turned on, a drive switch 220 for controlling power supply to the monitor 130 and the signal processing unit by an AC power source, And a power supply control switching unit 200 composed of barrier switches 230 for supplying a DC voltage to the barrier terminal unit 110.

When the barrier switch 230 is turned on and a DC voltage is supplied to the isolation barrier terminal unit 110, the DC voltage supplied to the isolation barrier terminal unit 110 is supplied to the proximity sensor 6a via the sensor output cable 7 So as to operate the proximity sensor 6a.

The operation of the turbine pulse meter according to the present invention is as follows.

3, the turbine pulse meter 100 of the present invention includes a sensor output cable 7, which is a sensor output signal output from the proximity sensor 6a of the turbine meter 10 at the site where the turbine meter 10 is installed To determine whether or not the sensor output signal output from the proximity sensor 6a of the turbine meter 10 is in a normal state.

The signal processing unit of the present invention receives the sensor output signal outputted from the proximity sensor 6a in real time and generates the waveform of the sensor output signal outputted in real time and the waveform of the sensor output signal outputted from the normal sensor 6a when the proximity sensor 6a pre- And a known microprocessor that compares the waveform of the output signal.

The signal processing unit displays the waveform of the sensor output signal on a monitor 130 such as a touch screen and executes a built-in program for comparative analysis of waveforms.

In order to operate the turbine pulse meter 100 of the present invention, the main switch 210 is turned on to supply alternating current power to the turbine pulse meter 100. Upon supply of the alternating current power, To output a DC voltage of 24 volts and 5 volts.

A DC voltage of 24 volts is supplied to the isolation barrier terminal unit 110 by turning on the barrier switch 230 and a DC voltage of 5 volts is supplied to the monitor 130 and the signal processing unit by turning on the drive switch 220 The monitor 130 and the signal processing unit are driven.

When a DC voltage having a high driving voltage of 5 volts is required as the driving voltage of the monitor 130, it is sufficient to output the DC voltage required by the DC voltage generating unit by a known method.

The main switch 210 and the drive switch 220 are turned on before the sensor output cable 7 is connected to the isolation barrier terminal unit 110 so that the signal processing unit and the monitor 130 are driven, And completes the program setting for viewing the waveform.

 The sensor output cable 7 which is a sensor output signal output from the isolation barrier terminal unit 110 and the proximity sensor 6a is connected and the barrier switch 230 is turned on so that the isolation barrier terminal unit 110 is supplied with a 24 volt DC voltage And the DC voltage supplied to the isolation barrier terminal unit 110 is supplied to the proximity sensor 6a through the sensor output cable 7 so that the proximity sensor 6a is operated.

As described above, it is possible to prevent the proximity sensor 6a from being damaged by turning on the barrier switch 230 after the main switch 210 and the drive switch 220 are turned on.

The isolation barrier terminal unit 110 may be constituted by a transformer isolation barrier formed of a primary coil and a secondary coil so that the sensor output signal output from the proximity sensor 6a may not be influenced by other signals or noise.

When the proximity sensor 6a is operated, the connection terminal CT of the measurement probe 120 is connected to the input channel port INP, and the measurement tip P is connected to the isolation barrier terminal portion 110 and outputs the sensor output signal of the proximity sensor 6a output through the sensor output cable 7 on the monitor 130 in real time.

The signal processing unit compares the normal sensor output signal when the proximity sensor 6a stored in the storage unit normally operates with the sensor output signal outputted in real time from the proximity sensor 6a of the turbine meter 10 in the field, It is judged that the proximity sensor 6a malfunctions when the sensor output signal outputted from the proximity sensor 6a of the controller 10 is different from the sensor output signal outputted in real time and the normal sensor output signal stored in the base unit, (6a) is replaced.

As described above, in the present invention, the sensor output signal of the proximity sensor 6a of the turbine meter 10 and the turbine pulse meter 100 of the present invention are directly connected at the site where the turbine meter 10 is installed, The output waveform of the output signal can be confirmed on the signal processor and the monitor 130. If the proximity sensor 6a malfunctions, the proximity sensor 6a is immediately replaced in the field.

The precise clearance between the turbine wheel and the proximity sensor 6a must be maintained after the replacement of the proximity sensor 6a so that the blade 3 of the turbine meter 10 is rotated to the supply pressure level, The turbine pulse meter 100 continuously measures the sensor output signal of the proximity sensor 6a at the time of the maximum rotation from the initial driving of the turbine pulse meter 100 and outputs the waveform of the sensor output signal determined by the user under each condition The clearance between the turbine wheel and the adjacent fine wire 6a can be adjusted to an optimum position by adjusting the gap of the proximity sensor 6a.

3: Blade 4: Turbine wheel
6a: proximity sensor 10: turbine meter
100: turbine pulse meter 110: isolation barrier terminal
120: constant measurement probe 130: monitor
200: power supply control switching unit 210: main switch
220: drive switch 230: barrier switch

Claims (2)

A isolation barrier terminal portion 110 to which a sensor output cable 7, which is a sensor output signal outputted from the proximity sensor 6a of the turbine meter 10, is connected;
The measurement tip P is connected to one side and the connection terminal CT is connected to the other side to connect the measurement tip P to the isolation barrier terminal portion 110 to which the sensor output cable 7 is connected, A measurement probe 120 connecting the input port CT to the input channel port INP;
A monitor 130 for displaying the waveform of the sensor output signal output from the proximity sensor 6a of the turbine meter 10 measured by the measurement tip P via the connection terminal CT connected to the input channel port INP );
A signal processing unit for comparing a waveform of the sensor output signal with a waveform of a normal sensor output signal when the proximity sensor 6a previously stored in the storage unit normally operates; And
A main switch 210 for controlling the supply and cutoff of the AC power, a drive switch 220 for controlling power supply to the monitor 130 and the signal processing unit by the AC power when the main switch 210 is turned on, And a barrier switch 230 for turning on the main switch 210 and the drive switch 220 to supply the DC voltage to the isolation barrier terminal unit 110,
When the barrier switch 230 is turned on and a DC voltage is supplied to the isolation barrier terminal unit 110, a DC voltage supplied to the isolation barrier terminal unit 110 is supplied to the proximity sensor 6a To operate the proximity sensor (6a). delete

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