KR101188721B1 - System for revising flow meter to be revised using signal from standard flow meter - Google Patents

Abstract

PURPOSE: A system capable of a correction of a flowmeter by directly receiving signals of a reference flowmeter is provided to reduce costs for installing a signal collector because a flowmeter to be corrected directly receives signals of a reference flowmeter and corrects by oneself. CONSTITUTION: A system capable of a correction of a flowmeter by directly receiving signals of a reference flowmeter comprises a reference flowmeter(10) and a flowmeter(20) to be corrected. The reference flowmeter generates reference signals which are correction signals. The flowmeter to be corrected comprises a sensor(21), an amplifier(22), an A/D convertor(23), a controller(24), a current signal inputting device(25), a pulse signal inputting device(26). The sensor performs a correction and detects an amount of a fluid by receiving the reference signals from the reference flowmeter. The amplifier amplifies flow rate sensing signals sensed by the sensor at a predetermined level. The A/D convertor converts amplified signals of the amplifier into digital signals. The controller decides a flow rate by processing the digital signals input from the A/D converter. The current signal inputting device receives current signals transmitted from a signal outputting unit(11) of the reference flowmeter. The pulse signal inputting device receives pulse signals transmitted from the signal outputting unit of the reference flowmeter. [Reference numerals] (21) Sensor; (22) Amplifier; (23) AD convertor; (24) Controlling device; (25) Current signal inputting device; (26) Pulse signal inputting device; (AA) Current signals; (BB) Pulse signals

Description

System for revising flow meter to be revised using signal from standard flow meter}

The present invention relates to a system capable of directly calibrating a flowmeter to be calibrated by directly receiving a signal of a reference flowmeter, and more particularly, to calibrate by directly receiving a reference signal of the flowmeter to be calibrated by a flowmeter to be calibrated. It is possible to reduce the cost by installing a separate signal collector, to be able to easily calibrate at the work site, and to reduce the calibration error because the signal collector error of the signal collector does not have to be taken into consideration.

In practice, the flow rate controller employed in the prior art receives a set value converted into a mass or volumetric flow rate. The mass or volume flow rate is then converted into a pressure difference based on the calibration curve. Therefore, the flow controller had to have a calibration curve stored for the process fluid and the process conditions under which the flow controller operates. For flow controllers suitable for use under various types of fluids and various operating conditions, flow controller manufacturers typically provide a number of calibration curves for the flow controller or the flow rate for the conditions under which the process fluid and flow controller will operate. The controllers had to be calibrated individually. This can be a time consuming and inefficient task. Thus, what is needed is a system and method for calibrating flow controllers more quickly.

In order to solve this problem, generating a flow of the fluid through the flow meter so that the variable representing the flow rate of the fluid has a test value, determining the experimental flow rate of the fluid during the test period, Determining a calculated value for the variable representing a flow rate based on a calibration curve and the experimental flow rate, determining a correction factor based on a test value and the calculated value, and based on the correction factor Correcting the flow curve, wherein the correction factor can be determined appropriately for the flow curve based on a simple experimental test or fluid properties of the process fluid, and then storing the corrected flow curve in a flow meter for later flow Techniques have been disclosed that may be used for control, but the calibration of these flowmeters And applying a correction factor to measure the flow rate was the description of the calculation method using such a flow rate and an actual flow rate necessary for the test.

There is also disclosed a technique for calibrating a flow meter installed at an actual work site based on the flow reference signal input to the flowmeter calibration device to measure the flow rate of the flow meter, but this technique converts the output signals of the reference flow meter and the calibration flow meter into a signal collector, respectively. Collected, compared, and calibrated to match the reference signal of the flowmeter.

However, this method has to transmit the reference signal of the reference flowmeter to the flowmeter to be calibrated through the signal collector, so that the signal transmission process is complicated and errors may occur in the process, and there is a problem of cost increase due to the installation of the signal collector.

In addition, only the flowmeter to be calibrated for work is installed on the actual site, and both the reference flowmeter and the signal collector are generally installed far away from the site. There was a problem that it was not easy.

The present invention is to solve the problem caused by the calibration of the conventional flow meter caused by the signal collector to collect the reference signal of the reference flow meter and transmit it to the calibration target flow meter, the reference signal of the reference flow meter is directly received by calibration Its purpose is to provide a system that can perform this.

A system capable of calibrating a calibration target flowmeter by directly receiving a signal of the reference flowmeter of the present invention for achieving the above object includes a reference flowmeter for generating a reference signal that is a calibration signal; And it is characterized in that the flowmeter for receiving a reference signal for calibration is connected to enable transmission and reception of electrical signals.

The reference signal of the present invention is characterized in that the current signal and the pulse signal of the reference flowmeter.

The calibration subject flow meter of the present invention includes a sensor that is installed in the pipeline to always detect the amount of fluid flowing therein; An amplifier for amplifying the flow rate signal detected by the sensor to a predetermined level; An A / D converter for converting an amplified signal of the amplifier into a digital signal; A controller for processing the digital signal for the flow rate detection signal inputted from the A / D converter to determine the flow rate; A current signal input unit for receiving a calibration current signal transmitted from a signal output unit of the reference flowmeter; And a pulse signal input unit for receiving a calibration pulse signal transmitted from the signal output unit of the reference flowmeter.

The current signal and the pulse signal of the reference flow meter of the present invention are received as a percentage at the signal input device of the flowmeter to be calibrated, and are processed by the controller to convert the flow rate value according to the flow range of the reference flow meter, and the largest value among the converted flow values. And the detected flow rate signal from the sensor corresponding to the smallest value is used as the flow rate calibration variable of the flowmeter to be calibrated.

According to a system capable of directly calibrating a calibration target flowmeter by directly receiving a signal of the reference flowmeter of the present invention, conventionally, the output signals of the reference flowmeter and the calibration target flowmeter are collected and compared with a signal collector, respectively, and calibration is performed according to the comparison result. As a result, the performance of the signal collector not only affects the accuracy of the calibration, but also causes the cost increase such as the cost of installing the collector. The cost can be reduced.

In addition, according to the system that can directly receive the signal of the reference flow meter of the present invention and the calibration of the flow meter to be calibrated, by directly connecting the reference flow meter and the calibration flow meter installed in the field so that the transmission and reception of the signal between the two flow meters without the intermediate process signal Calibration errors due to collector errors can be reduced, improving field accuracy.

1 is a control block diagram of a flow meter in accordance with an embodiment of the present invention.
2 is a flow chart measuring method of the flow meter according to the embodiment of the present invention.

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

A system capable of directly calibrating a flowmeter to be calibrated by directly receiving a signal of the reference flowmeter of the present invention includes a reference flowmeter 10 for generating a reference signal as a calibration signal, and a flowmeter 20 for receiving and calibrating the reference signal. It is connected to transmit and receive electrical signals.

The reference flowmeter 10 generates a current signal and a pulse signal as a reference signal for calibration. The current signal and the pulse signal are transmitted to the calibration target flowmeter 20 through the signal output unit 11 of the reference flowmeter 10.

The calibration target flow meter 20 is installed in the pipeline to constantly detect the amount of fluid flowing through the pipeline 21, and the amplifier 22 to amplify the flow rate detection signal detected by the sensor 21 to a predetermined level And an A / D converter 23 for converting the amplified signal of the amplifier 22 into a digital signal, and a digital signal for the flow rate detection signal input from the A / D converter 23 to determine the flow rate. And a controller 24.

The flow rate determination by the controller 24 is different from the analysis and judgment of the daytime time detected flow rate signal and the nighttime time detected flow signal in consideration of the fact that the use of tap water is typically different by day time zone and night time zone, or In consideration of the fact that the flow rates used in various industrial facilities and machinery used in manufacturing facilities may be different, the flow rates are divided into high flow rate, heavy flow rate, and low flow rate to analyze and judge the detected flow signals. The configuration related to the flow rate determination in the configuration is not limited to a particular example.

The calibration target flow meter 20 also includes a current signal input unit 25 and a pulse signal input unit 26 for receiving a calibration current signal and a calibration pulse signal respectively transmitted from the signal output unit 11 of the reference flow meter 10. ) Is further configured.

The current signal (for example, 4 to 20 mA) and the pulse signal (frequency signal) of the reference flowmeter 10 are respectively represented as percentages in the current signal input unit 25 and the pulse signal input unit 26 of the flowmeter 20 to be calibrated. 0 to 100%), and these signals are inputted to the controller 24 and processed to convert them into flow values according to the flow rate range of the reference flowmeter 10, and to the largest and smallest values of the converted flow values. The detected flow rate signal from the corresponding sensor 10 is stored to find the flow rate calibration variable of the flow meter 20 to be calibrated.

Specifically, A is the smallest value of the output of the reference flowmeter 10, the sensor data is AD, the smallest value of the output of the reference flowmeter 20, B is the largest value of the output of the reference flowmeter 10 When the sensor data is BD at the largest flow rate value of the output of the reference flow meter 20, the flow rate calibration variable may be calculated by the formula (BA) / (BD-AD). As a result, the flow rate will be calculated by the formula of Sensor Data X Flow Calibration Variable.

Referring to the operation of the system according to the present invention configured as described above are as follows.

First, as a flow meter to be calibrated, that is, a flow meter used to measure actual flow in the field, for example, used in a semiconductor manufacturing process or a precision technology field, it is determined whether a calibration of a flow meter requiring accurate flow measurement is necessary (S1).

If calibration is necessary, it is determined whether the reference flowmeter 10 and the calibration target flowmeter 20 are electrically connected (S2).

If electrically connected, the current signal and the pulse signal necessary for calibration are transmitted from the reference flow meter 10 to the calibration target flow meter 20.

The current signal and the pulse signal transmitted from the reference flow meter 10 are input to the controller 24 through the current signal input unit 25 and the pulse signal input unit 26 of the calibration target flow meter 20.

At this time, the current signal (for example, 4 ~ 20mA) and the pulse signal (frequency signal) of the reference flowmeter 10 is a percentage in the current signal input unit 25 and the pulse signal input unit 26 of the flowmeter to be calibrated, respectively. Received at (0 ~ 100%).

Therefore, the controller 24 processes the calibration current signal and the pulse signal from the reference flowmeter 10 and converts the flow rate value according to the flow rate range of the reference flowmeter 10 (S4). The flow rate calibration variable of the calibration target flow meter 20 is found by storing the detected flow rate signal from the sensor 10 corresponding to the largest value and the smallest value (S5).

Since the flow rate calibration variable has been determined, the calibration target flow meter 20 may be calibrated in step S6.

The smallest value among the outputs of the reference flowmeter 10 is A, the smallest flow rate value among the outputs of the reference flowmeter 20, sensor data is AD, and the largest value of the output of the reference flowmeter 10 is B, the reference flowmeter 20 If the sensor data is BD at the largest flow value among the outputs of), the flow calibration parameter becomes (BA) / (BD-AD).

10: reference flowmeter 11: signal output
20: flow meter to be calibrated 21: sensor
22: amplifier 23: A / D converter
24: controller 25: current signal input
26: pulse signal input device

Claims (4)

A reference flow meter 10 for generating a reference signal as a calibration signal; And
Receiving a calibration reference signal from the reference flowmeter 10 to perform calibration
A sensor 21 installed in the conduit to constantly detect the amount of fluid flowing in the conduit; An amplifier 22 for amplifying the flow rate detection signal detected by the sensor 21 to a predetermined level; An A / D converter 23 for converting an amplified signal of the amplifier 22 into a digital signal; A controller 24 for processing a digital signal input from the A / D converter 23 to determine a flow rate; A current signal input unit 25 for receiving a calibration current signal transmitted from the signal output unit 11 of the reference flowmeter 10; And a calibration target flow meter (20) consisting of a pulse signal input unit (26) for receiving a calibration pulse signal transmitted from the signal output unit (11) of the reference flow meter (10). A system that can directly calibrate the flow meter to be calibrated. delete delete According to claim 1, wherein the calibration current signal and the calibration pulse signal of the reference flow meter 10 is a percentage (0 ~ 100) in the current signal input unit 25 and the pulse signal input unit 26 of the calibration flow meter 20, respectively. %), These signals are processed by the controller 24 and converted into flow values according to the flow range of the reference flow meter 10, and the sensors 10 corresponding to the largest and smallest values of the converted flow values A system capable of calibrating a flow meter to be calibrated by directly receiving a signal of a reference flow meter, which stores the flow rate detection signal from the circuit and stores the flow detection signal as a flow calibration parameter of the flow meter to be calibrated.

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