SU830077A1 - Method of automatic control of feed water supply to two users - Google Patents

Description

The invention relates to a power system and can be used, for example, to control the power supply of a power unit of a thermal power plant.

A known method of automatic control: supply of feed water to two consumers from a common line with a feed pump using control valves by maintaining the difference in water flow to consumers by changing the position of one of the valves when the other is fully open and maintaining the amount of the specified costs by the action of the Sa pump, and when limiting the range regulation of the latter using another valve [1].

The disadvantage of this method is manifested in the case when the limiting parameter is the minimum allowable pressure of the feed water at the pump. The receipt of a command to increase the total flow rate causes the valves to move in the direction of opening, which leads to a further decrease in the water pressure behind the pump, which reduces the reliability.

The purpose of the invention is to increase reliability in the event of a limitation.

The goal is achieved by measuring the value of the parameter by which the restriction has occurred, and acting on the measured parameter on the saw pump.

As the critical parameter using ⁵ ical pump speed.

In addition, the feed water pressure behind the pump is used as a parameter.

The drawing shows a block diagram of the regulation of power supply, explaining the proposed method.

The circuit contains a regulator 1, which supports the total flow rate 2, a regulator 3, which supports the flow difference 4, a regulator 5, which supports the limiting parameter 6, which act on the actuators of the control valves 7 and 8 and the feed pump 9. The outputs are “more” 10–12 and “Less” 13–15, respectively, of controllers 1, 3, and 5 are connected to inputs “more” 16–18 and “less” 19–21 actuators 7–9 by means of switching relays 22–25. In the power supply circuit of the relay 22 and 23, respectively, contacts 26 and 27 of the limit switches are included, closing when the actuators of the valves 7 and 8 reach the fully open position. Relay 25 contains windings 28 and 29, fixing the first and second state of the indicated relay, respectively.

The scheme works as follows.

If there is no limitation in the range of regulation of the pump, the controller 1 of the total flow rate acts on the feed pump 9, and the controller 3 of the flow difference selectively on one of the control valves when the other is completely open. To do this, the outputs “more” 10 and “less” 13 of the regulator 1 by the contacts of the relay 24, closed when the second state of the specified relay is fixed, are connected to the inputs “more” 18 and “less” 21 of the actuator of the pump 9, and the outputs “more” 11 and “Less” 14 of regulator 3 are connected via relays 22 and 23 to the inputs of actuators of valves 7 and 8. With an intermediate position of both valves, the contacts 26 and 27 of the directional valve switches are open and the relays 22 and 23 are de-energized, outputs 11 and 14 of controller 3 are connected to the inputs "More" executive furs of valve bottoms 7 and 8. When the first (second) valve is opened, contact 26 (27) is closed and relay 22 (23) is energized, then outputs 11 and 14 of controller 3 are connected to inputs 17 (16) and 20 (19) of the actuator 8 (7). When both valves are open, the outputs 11 and 14 of controller 3 are connected to the inputs “less” 20 and 19 of the actuators of valves 8 and 7. If there is a limitation, controller 5 receiving a signal at the current value of the limiting parameter 6 is triggered in the direction of “more” 12 and voltage is applied to the winding 28 of relay 25. In this case, its first state is fixed: normally open and open normally closed contacts of relay 25, outputs “greater” 12 and “less” 15 of controller 5 are connected to inputs 18 and 21 of the pump actuator 9 .

The regulation range of the pump is limited when both valves are in the intermediate position or when at least one of them is opened. In the first case, relays 22 and 23 are de-energized and relay 24 is energized. Then the outputs “more” 10 and “less” 13 of the controller 1 are connected by normally open contacts of the relay 24 to the inputs “more” 16 and “less” 19 of the actuator of the first valve 7, and the outputs “more” 11 and “less” 14'regulator 3 connected normally open contacts of the relay 24 to the inputs “more” 17 and “less” 20 of the actuator of the second valve 8. In the second case, at least one relay 22 (23) is energized, and relay 24 is de-energized. In this case, the output “less” 13 of controller 1 with normally open contacts of relays 24 and 22 is connected to the input “less” 19 of the actuator of valve 7, the output “more” of this controller remains unconnected. The outputs "more" 11 and "less" 14 of the controller 3 are connected using normally closed contacts of the relay 23 and 24 and the normally open contact of the relay 22 to the inputs "less" 20 and "more" 17 of the actuator valve 8.

This eliminates emergency situations, resulting in increased reliability.

Claims (3)

(54) AUTOMATIC CONTROL METHOD FOR SUPPLYING NUTRITIONAL WATER TO TWO CONSUMER POSITION SWITCHES, closing when the actuators of the valves 7 and 8 are fully open. Relay 25 contains windings 28 and 29, fixing respectively the first and second state of the specified relay. The scheme works as follows. If there is no limitation of the pump control range, the total flow controller 1 acts on the feed pump 9, and the controller 3 of the flow difference selectively on one of the control valves with the full opening of the other. For this, the outputs "are more than 10 and" less than 13 of the regulator 1 by the contacts of the relay 24, closed when the second state of the specified relay is fixed, are connected to the inputs "more than 18 and" less than 21 of the actuator of the pump 9, and the outputs "more than 11 and" less than 14 regulator 3 is connected via relays 22 and 23 to the actuator inputs of valves 7 and 8. When both valves are in the intermediate position, contacts 26 and 27 of the valves are open and relays 22 and 23 are de-energized, outputs 11 and 14 of regulator 3 are connected to the “more” inputs executive mechanism At valves 7 and 8. When opening the first (second) valve, contact 26 (27) and relay 22 (23) are closed under voltage, then outputs 11 and 14 of regulator 3 are connected to inputs 17 (16) and 20 (19) actuator 8 (7). When both valves are open, the outputs 11 and 14 of the regulator 3 are connected to the inputs "less than 20 and 19 actuators of the valves 8 and 7. When there is a limit, the regulator 5, which receives the signal based on the current value of the limiting parameter 6, operates in the direction" greater than 12 and the voltage is applied to the winding 28 of the relay 25. At the same time, its first state is fixed: normally open is closed and normally closed contacts of the relay 25 are opened, the outputs "are greater than 12 and" less than 15 of the regulator 5 are connected to the inputs 18 and 21 of the actuating mechanism of the pump 9 . The limitation of the pump control range occurs when both valves are in an intermediate position or when at least one of them is opened. In the first case, relays 22 and 23 are de-energized and relay 24 is energized. Then outputs "more than 10 and" less than 13 regulator 1 are connected by normally open contacts of relay 24 to inputs "more than 16 and" less than 19 actuators of the first valve 7, and outputs "more than 11 and less than 14 regulators 3 are connected by normally open contacts of relay 24 to inputs "more than 17 and" less than 20 actuators of the second valve 8. In the second case, at least one relay 22 (23) is under voltage, and relay 24 is de-energized. In this case, the output "less than 13 of the regulator 1 by normally open contacts of the relay 24 and 22 is connected to the input" less than 19 of the actuating mechanism of the valve 7, the output of "more THIS regulator remains unconnected. Outputs "greater than 11 and" less than 14 of regulator 3 are connected via normally closed contacts of relays 23 and 24 and normally open contacts of relay 22 to inputs "me. Less than 20 and" more than 17 actuators of valve 8. Thus, emergency situations are excluded. the result is improved reliability, claims i. A method for automatically controlling the supply of feed water to two consumers from a common line with a feed pump by means of control valves by maintaining the difference in water flow to by changing the position of one of the valves with the full opening of the other and maintaining the sum of the indicated costs by acting on the pump, and by limiting the range of regulation of the latter with another valve, characterized in that, in order to increase the reliability when a limit occurs, on which there was a restriction, and on the measured parameter influence the feed pump. 2. A method according to claim 1, characterized in that the critical speed of rotation of the pump is used as a parameter. 3. A tool according to claim 1, characterized in that as a parameter, the pressure of the feed water is used by the pump. Sources of information taken into account during the examination 1. V. Mikhalchenko. Investigation of the dynamics of the regulation of the oil-fired boiler of ACS with cyclone pre-furnaces. Cand. dis. M., 1977, p. 50-71. I / R rf g