SU1758343A1 - Automatic control device for fuel mixture feed to boiler burner - Google Patents

Abstract

The invention relates to a power system and allows to improve the accuracy of regulation. In the device, the flow of coal dust fluidized in the bunker through the chute 3 is accompanied by the entry of coal dust into the open end of the output end of the additional pipeline 2, the level of which depends on the flow rate through the additional pipe 2, which cyclically varies according to the sawtooth law by the servo motor 13. Measuring and controlling the coal consumption dust is produced at the time of the activation of the sensor 12 of the servomotor 13, which determines the operation of the circuit 11 and the passage of the control signal to threshold elements 5, b. 2 Il.

Description

F1 / 8.1

The invention relates to a power system and can be used in automatic control systems of a boiler.

A device for automatically controlling air supply to a boiler burner is known, comprising a regulator with a servomotor installed in the air supply pipe to the burners, a regulating device connected to it, a fuel flow sensor with platinum of electrically conductive material placed along the pipeline axis behind the knee along the solid fuel the computing unit, the flow sensor is equipped with a receiver-emitter, a coupler, two circulators and transducers installed on the pipeline, the first discharge the teacher-receiver is located in front of the knee, and the second behind it is in the zone where the plate is located, the computing unit is connected to the adjustable device and through the converter to the circulators.

The disadvantage of the device is low control accuracy at low flow rates of coal dust.

The closest in technical essence and achievable technical effect is a device for automatically regulating the air supply to the burners of a boiler unit having a hopper for coal dust with a leak, containing a fuel flow sensor in the leak and a regulating device connected to the servomotor of the regulator installed in the air supply line in the burner, the second regulator with servo motor, installed in the additional pipeline connecting the air supply pipeline with the flow sensor then The fuel gauge, the fuel consumption sensor is designed as an indicator of the level of coal dust in an additional pipeline.

The purpose of the invention is to improve the accuracy of regulation.

This goal is achieved in that the device for automatic control of the supply of combustible mixture to the burner of a boiler unit having a coal dust hopper containing a fuel flow sensor in the heater controlling the device connected to the servomotor of the regulator installed in the air supply pipe to the burners the second regulator with a servo motor, introduced the circuit AND, the position sensor of the second regulator, the output of which is connected to the first input of the circuit AND, the second input connected to the output of the pair a metric generator and output to two-threshold elements

FIG. 1 shows a device 1 in FIG. 2 - a time diagram of a cf the elements of the device

The device contains a fuel consumption sensor, made in the form of a coal dust level indicator 1 in an additional pipeline 2, the end of which is located in the drain 3, is directed vertically upwards, a parametric generator 4 connected to the fuel consumption sensor 4, by two threshold elements 5, b and converters 7, 8, servomotors 9, 10 of two regulators, electronic key 11, sensor

12points of the third 13 of the regulatory body 5.

The operation of the device is as follows.

Fluid outflow in the bunker (not shown) of coal dust

0 through the chute 3 is accompanied by the entry of coal dust into the open end of the output end of the additional 2 pipelines. Moreover, the level of the mentioned intake depends on the amount of air flow through

5 pipeline, which is regulated by the servomotor 10. The entry of coal dust particles into the additional pipeline 2 is determined by their speed of movement and weight, balanced by the speed pressure of the air in the pipeline with the servo motor 10. Regulator

13, a sawtooth change in air flow (OH) in the additional pipe 2 is set.

5 The minimum value of the air flow O min is chosen from the condition of the arrival of coal dust at its maximum flow Qy from the measurement zone with the indicator 1. The maximum value of the air flow

0 (the top edge of the sawtooth dependence (t)) is chosen from the condition of excluding the emission of coal dust from the additional pipeline 2 with its minimum consumption. According to experimental data obtained at

tests of the prototype device at TPP22 Mosenergo, calibration characteristics obtained with decreasing and

increasing the consumption of coal dust have

0 different character, in one case the form is concave, in the other - convex. The maximum measurement error, due to the hysteresis of these characteristics, is reached 14%. To exclude

5 of this error, elements are introduced into the device, which make it possible to measure the degree of coal dust entering into the additional pipeline 2 at the moment of balancing the coal-air velocity and pressure from the additional pipeline

2 only with an increase in air flow from the latter. In other words, when measuring, the unambiguity of the calibration characteristic is maintained.

According to the time diagrams (Fig. 2), it is seen how the output signal of the indicator 1 increases as the air flow rate in the pipeline 2 (Оb) increases, since its cavity is freed from coal dust. Reaching the maximum at time points t2, v. 4, the air flow rate drops sharply, determining a decrease in the signal. The measurement is made at time t2, as follows. The sensor 12 of the regulator 13 fixes the moment of maximum opening of the valve servomotor in pipeline 2 (maximum air flow Omaks) and generates a signal to the key that opens and passes a signal proportional to the flow of coal dust from the parametric generator A. For example, when the flow of coal decreases dust in the chute, the output signal of the parametric generator 4 also comes off; one of the threshold elements 5 is triggered, which is set to the minimum acceptable reduction in the output signal level The generator 4, which turns on the operation of servomotors 9, 10, ensures a corresponding decrease in air flow and the opening of the valve in estrus 3, which determines the increase in the consumption of coal dust, which reduces the inertia of the device.

A simpler version of the device is possible with regulation, for example, only the degree of opening of the valve in the inlet 3 by the servomotor 9, which determines the measurement of the consumption of coal dust in the latter.

With an increase in the consumption of coal dust, the reverse process occurs. The signal from generator 4 increases, the second threshold element 6 triggers, adjusted to the minimum allowable level increase

the output signal of the generator 4, which enables the servomotors 9.10 to operate, ensuring the corresponding changes in the consumption of coal dust and air. The control signal in this case is fed to another input of servomotors 9, 10,

Claims (1)

Apparatus of the Invention A device for automatically controlling the supply of a combustible mixture to a burner of a boiler unit having a coal dust bin with a drain, containing a fuel consumption sensor in a drain, a regulating device connected to the servomotor of the regulator installed in the air supply pipe to the burners, the second regulator with servo motor , installed in the chute, an additional pipeline connecting the air supply pipeline with the fuel consumption sensor, which is made in the form of a coal level indicator dust in the additional pipeline, the end of which, located in the chute, is directed vertically upwards, and the regulating device is designed as a parametric generator connected to a fuel consumption sensor, two threshold elements and two converters connected to the outputs of the threshold elements and connected to the regulator servomotor, installed in the pipeline supplying air to the burner, and the outputs of the threshold elements are additionally connected to the servomotor of the second regulator, characterized that, in order to increase the control accuracy, it additionally contains an electronic key and a third regulator with a servo motor and a position sensor, the output of which is connected to the first key input, the second input connected to the output of the parametric generator, and the output to two threshold elements The regulator is installed on an additional pipeline. lhl + t FIG. 2