SU723526A1 - Rate-of-flow regulator - Google Patents

Description

The invention relates to automatic flow controllers and can be used in air conditioning systems in aircraft, as well as in various industrial installations for automatic control of the flow and pressure of air, fuel, etc.

A known fuel control system for a gas turbine engine comprising a series-connected driver, a comparison unit, a control unit and an actuator rigidly connected to the regulator 1.

However, the absence of a self-tuning circuit in such a device leads to a decrease in accuracy when the fuel level in the pipeline changes as compared to the calculated one.

The closest in technical essence to the invention is a gas flow regulator consisting of a series-connected driver, a comparison unit, a regulating unit, an actuator rigidly connected with a regulating body located in measuring section.

a pipeline, as well as a flow sensor located in the measured section of the pipeline behind the regulator, and a differential pressure sensor. Differential pressure sensors are used to obtain a signal that determines the flow rate of gas 2.

However, the relay variable gain coefficient of the flow regulator, depending on the magnitude of the pressure behind the regulator, allows to increase the accuracy only in a narrow range of the operating mode of the flow regulator.

Claims (2)

In order to expand the range of regulation and increase the accuracy of the device for regulating the flow of liquid (gas), the proposed device, having a regulating element connected in series with the regulating unit through an actuator and a flow sensor, is connected to the same unit as the input of the comparator, another the input of which is connected to the output of the master unit, and also a differential pressure sensor, contains a nonlinearity unit and. the multiplication unit, the output of which is connected to the input of the regulating unit, the first input - with the output of the comparison unit, the second input - with the output of the nonlinearity unit, the input of which is connected to the output of the differential pressure sensor. The drawing schematically shows the proposed device. It has a regulator J and a flow sensor 2 located in pipeline 3, a regulating unit 4, an executive mechanism 5, a comparison unit 6, a master unit 7, a differential pressure sensor 8 containing two sensitive elements, with element 9 located before regulator 1, and element 10 is after it, nonlinearity unit 11 and multiplication unit 12. The device works as follows. In line 3, the differential pressure sensor 8 is measured by means of sensing elements 9 and 10 of differential sensor 8 in the vicinity of regulator 1, which changes the flow area of pipe 3. Differential pressure sensor 8 produces a DC signal applied to the input of nonlinearity unit 11, which forms the self-tuning signal is Uc gv, where KG is the transmission coefficient of the nonlinearity block. From the nonlinearity block 11, the signal Uc is fed to the first input of the multiplying unit .12, and the second input of this block from block 6 is compared with the error signal AU, which is the result of summing up two signals: the control signal of the ultrasonic, developed by the master unit 7, and feedback signal Uoc) from flow sensor 2. At the G2 multiplication unit, the DC self-tuning signals and the U mismatch signals are multiplied, and the output signal of the block 12 is used to remove the resulting signal Up, which is fed to the input of the regulating unit 4. The regulating unit 4 generates a signal Up, acting on the actuator 5. Depending on the magnitude and polarity the error signal AU on the comparison unit 6 and, accordingly, at the multiplication unit 12, the actuator 5, which is rigidly connected to the regulating authority 1, acts on it by changing the flow section 7 4 UFc of the pipeline 3, which entails change of the fluid flow rate AQ in a given range with high control accuracy. Supply of a device for controlling the flow rate of a liquid (gas) consisting of a serially connected driver, a comparison unit, a regulating unit, an actuator rigidly connected with a regulating body located in the measuring section of the pipeline, and a flow sensor located in the measuring section of the pipeline for the regulator and the differential pressure sensor, a multiplication unit connected between the output of the reference node and the input of the regulating unit, and connected in series with m nonlinearity unit allows re-regulation range complemented with clear priorities and raise the accuracy of the device. This is due to the fact that the total transmission ratio of the system, which is equal to the product of the transmission coefficients of all the elements included in the system, remains constant over a wide control range as the pressure in the pipeline changes. Apparatus of the Invention A device for controlling the flow, having in series a regulating member connected to the control unit via an actuator and a flow sensor connected to one input of the reference unit, the other input of which is connected to the output of the control unit, as well as a differential sensor. pressure, characterized in that, in order to expand the control range and increase the accuracy of the device, it contains a nonlinearity block and a multiplication block, the output of which is connected to the input of the regulating unit; the first input — with the output of the comparison unit; the second input — with the output of the nonlinearity unit, the input of which is connected to the output of the differential pressure sensor. Sources of information taken into account in the examination 1. UK Patent No. 1470757, cl. G 3 R (G 05 D 9/02), published. 1977. 2. USSR author's certificate number 363076, cl. G 05 D 7/06, 1972 (prototype).