SU1265721A1 - Device for controlling ratio of flow rates - Google Patents

Abstract

The invention relates to a process control technique in the chemical, electrochemical industry and other similar industries where it is necessary to maintain a given ratio of components with a simultaneous change in their total value. The purpose of the invention is to simplify the device and expand its scope. For this, the device contains a series-connected direct current source, a flow master and a ratio master, as well as two component flow controllers connected by an input to the first and second outputs of the ratio master, respectively. Each component flow regulator contains a series-connected comparison element and an actuator and a regulating member and a flow sensor, the output of which is connected to the input of the comparison element and successively installed on the component supply pipeline, and the regulator input connected to the output of the actuator. The ratio master contains four series-connected resistors, the first and fourth resistors are connected to the common bus by other terminals, the connection point of the first and second resistors is the input, and the middle terminals of the first and third resistors are the first and second ratios of the ratio setpoint, respectively. The flow sensor contains a variable resistor, the first and second terminals of which are combined and are the input, and the third output is the output of the flow master. 2 hp f-ly, 1 ill.

Description

Yu

O5

SP

N5

The invention relates to a process control technique in the chemical, electrochemical industry and other similar industries where it is necessary to maintain a given ratio of components with a simultaneous change in their total value.

The purpose of the invention is to simplify the device and expand its scope.

The drawing shows a block diagram of the device.

The ratio control device comprises a series-connected direct current source 1, a flow master 2 and a pilot 3 ratios, as well as two flow controllers 4 and 5 of the components connected by input to the first and second ratios of the pilot 3 ratios, respectively. Each component flow regulator contains a series-connected comparison element 6 and an actuator 7 and a regulator organ 8 and a flow sensor 9 whose output is connected to the input of the comparator element 6 and the regulator input of its element 8 is connected to the actuator output 6. mechanism 7. Unit 3 ratios contains four series-connected reistor 10-13, with the resistors 10 and 13 other terminals connected to the common bus, the connection point of the resistors 10 and 11 Is the input, and the middle terminals of the resistors 10 and 12 are respectively the first and second outputs of the setter 3 ratio. Flow master 2 contains a variable resistor 14, the first and second terminals of which are combined and are the input, and the third output - the output of the flow master 2.

The device works in the following way.

With the aid of the flow adjuster 2 and the flow adjuster 3, the required (respectively, total) consumption of the components and their ratio are established, respectively. In this case, the range of adjustment of one component is limited (resistor 11 is a flow limiter from above, and resistor 13 is a flow limiter from below) so that it is equal to the range of adjustment of another component. In this case, at a constant position of the moving contact of the variable resistor 14 in the flow setting master 2 and the change in the ratio of components in the set 3 adjuster, the total (total) consumption of the components remains constant, since due to the opposite connection of the resistors 10 and 12, the sum of the voltage on these resistors remains constant. By changing the position of the moving contact of the variable resistor 14 in the setpoint 2 flow and

the constant ratio of components in the setter 3 of the ratio of the total (general) consumption of components varies, but the ratio of components remains constant. Regulators 4 and 5 of the flow of components provide regulation of the flow of components in accordance with the magnitudes of the signals given on their control yush, their inputs. To provide a high resolution on the specification of the flow rate and the ratio of the components, for example variable resistors 10, 12 and 14 can be used, for example, SP5-39B high-precision adjustment multi-turn resistors.

Thus, by simple means

It is possible to achieve the purpose of the invention and to ensure highly accurate separate control of the flow rate and the ratio of the components.

Claims (3)

1. A device for controlling the ratio of costs, containing a flow master and two controllers for the flow of components, each of which contains a series-connected comparison element and an actuator and a regulator and a flow sensor which are sequentially installed on the component supply conduit and connected to the first input of the comparison element The regulator input is connected to the output of the actuator, characterized in that, in order to simplify the device and extend its area Menenius, introduced into the device DC source connected to the input of the output flow setpoint and setpoint ratios whose input is connected to the output flow setpoint and the first and second outputs are connected to second inputs of the comparing elements of the first and second regulators 0 consumption of components. 2. The device according to claim 1, characterized in that the ratio adjuster comprises four series-connected resistors, the terminals of the first and fourth resistors being connected to the common bus, the connection point of the first and second resistors being input, and the third terminals of the first and third resistors respectively, the first and second outputs of the ratio controller. 3. The device according to claim 1, wherein the flow master comprises a variable resistor, the first and second terminals of which are combined and are an input, and the third output is the output of the flow master. / component component / "P and component -. s / /// and P