RU173644U1 - FLOW METER CONTROL DEVICE - Google Patents

Abstract

The proposed control device for the flow meter relates to the field of measurement technology and can be used to control two-stage flow meters. The control device for the flow meter contains a frequency comparison unit configured to connect one of its inputs to the flow meter with a frequency output in the direct channel of the flow meter and its other input to the output of the constant frequency power supply together with the pump in the return channel of the flow meter, and the output of the comparison unit is connected via Torr with an input block of constant frequency power, wherein the indicator is provided with a frequency setting unit shutdown pitaniyaTehnichesky result - simplification of the control device functioning, facilitating selection of the switching point with a measuring range level to another. 2 ill.

Description

The proposed control device for the flow meter relates to the field of measurement technology and can be used to control two-stage flow meters.

A known medium flow meter (RU No. 2572461 C2, 01/10/2016), adopted as a prototype, in which the control device at the first measurement stage connects to the measured stream a second stream returned by the auxiliary pump through an additional flow meter in order to expand the measuring range by lowering the sensitivity threshold . The control device includes a power supply, a comparison unit and an indicator.

A disadvantage of the known control device is that it must create for the first stage a falling characteristic of the return flow rate opposite to the characteristic of the second stage, and this narrows the choice of the switching point of the measurement from the first stage of the range to the second, making it difficult to set the task in the control device. In addition, for the meter to function, an additional return flow meter is required, which complicates the meter design.

The technical result is to simplify the operation of the control device, to facilitate the selection of the switching point from one step of the measuring range to another.

The technical result is achieved by the fact that the control device of the flow meter contains a frequency comparison unit, configured to connect one of its inputs to the flow meter with a frequency output in the forward channel of the flow meter and its other input to the output of the constant frequency power supply together with the pump in the return channel of the flow meter and the output of the comparison unit is connected via an indicator to the input of the constant-frequency power supply, while the indicator is equipped with a setting for the frequency of switching off the power supply.

In FIG. 1 shows a structural diagram of a two-stage flow meter controlled by the proposed device.

In FIG. 2 shows the output characteristic of the meter obtained by the proposed control device получ = F (Q), where Q is the measured flow rate and ƒ is the output frequency of the meter.

The control device provides operation according to a predetermined flow meter algorithm, which comprises in series connected to the input channel 1 (Fig. 1), an adder 2 (supply tee), a direct channel 3 with a flow meter 4 of a pressure stream (for example, a jet generator with a frequency output converted into electrical signal), the divider 5 (exhaust tee) and the output channel 6. In this case, the divider 5 through the pump 7 (for example, a piezo pump) in the return channel 14 of the return flow is connected to the adder 2. The flow meter 4 in the forward channel 3 is connected to one of the inputs the frequency comparison unit 8 of the control unit 9, the output of the constant frequency power supply unit 10 is connected to the pump 7 and to the other input of the frequency comparison unit 8, the output of the comparison unit is connected via an indicator 11 to the input 12 of the constant frequency power supply unit 10. The indicator has a reference value 13 the frequency at which the steps of the measuring range must be switched.

Managed by the claimed device, the flow meter operates as follows.

When the measured flow rate Q (Fig. 2) appears and the meter sensitivity threshold level is reached (mark A), the latter starts to work if there is a circulating additional constant flow in the return channel 14 (Q ₁ ) supplied by the pump 7 (i.e., if reinforced through the flow meter 4 in this way double flow Q ₂ = Q + Q ₁ ).

When the total flow Q ₂ reaches a value exceeding the sensitivity threshold of the flowmeter 4 itself (the threshold of which is indicated by B in Fig. 2), the power supply unit of pump 7 is turned off and the reverse flow Q _{1 is} stopped by the signal from the indicator, in which the current total flow Q ₂ frequency ƒ ₂ reaches the setpoint ƒ _yst . This switching can be carried out at any point B after mark B, in contrast to the known (prototype), in which this shutdown must be performed in a narrow corridor between mark B and point C, in which the difference sign changes in the prototype. In the proposed control scheme, this difference does not change its sign.

In the first step of the measurement range (to point B), in the comparison unit 8, the difference of the variable frequency, ƒ ₂ , corresponding to the total flow rate Q ₂ and the constant frequency ƒ ₁ from the power supply unit 10 is calculated. From the comparison unit 8, the difference of these frequencies is transmitted to the indicator 11, showing the corresponding value of the measured flow Q.

Upon reaching the set value ƒ _yst , the meter switches to the second stage of the measuring range, in which the flowmeter 4 can independently measure the flow rate of the pressure stream, since the value of the measured flow Q already exceeds its sensitivity threshold.

As a result, the proposed device for controlling the flow meter can simplify the choice of the frequency of the setpoint switching steps of the measuring range and the operation of a two-stage flow meter with an extended measuring range by lowering its lower limit of measurement using a functionally and structurally simplified circuit.

Claims (1)

A flow meter control device, characterized in that it comprises a frequency comparison unit configured to connect one of its inputs to the flowmeter with a frequency output in the forward channel of the flow meter and its other input to the output of the constant frequency power supply together with a pump in the return channel of the flow meter, and the output of the comparison unit is connected through an indicator to the input of the constant-frequency power supply, while the indicator is equipped with a setting for the frequency of shutdown of the power supply.

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