SU1718199A1 - Device for automatic control of ratio of two flows - Google Patents

Abstract

Of & retention refers to automatic regulation, namely, devices for automatically regulating the ratio of the two streams. The device contains the first 5 and second 6 single-membrane comparison elements, the chambers of which are connected to the cavities of the first 1 and second 2 tapering elements installed with the AND / XI 00 o o

Description

responsibly on the lines of the main 3 and regulated 4 threads. The rigid centers of the membranes of the elements 5 and 6 of the comparison are kinematically interconnected with the valve 16 of the nozzle-valve assembly. A throttle washer 19 is installed on the drain port 18, before and after which cavities are communicated with the chambers of the actuator 24 of the regulator 25. The nozzle 17 of the nozzle-flap assembly is installed in the flow chamber 10 of the first comparison element 5 and connected to the drain port 18. The first restricting element 1 is made in the form of a Venturi tube, the cavity 7 of the minimum section

which is communicated with a deaf camera, and a -potential 9 output with a flow-through chamber of the first element 5 of the comparison. The device can also be made with a closed valve 26. And a second throttle washer 27. installed in a channel connected to a deaf chamber of the first comparison element 5, the control chamber of the valve 27 being connected to the nozzle 17 installed in the first comparison element 5, and flowing the chamber and the outlet of the valve are respectively connected with the flow-through and blind chambers of the first comparison element 5. 1 hp f-ly, 2 ill.

The invention relates to the field of automatic control, in particular, to devices for automatic control of the ratio of the flow rates of the two streams with automatic shut-off of the controlled flow while reducing the flow rate from a predetermined value of the main flow.

The need to cut off a controlled flow, for example, cut off kerosene, occurs when water consumption decreases from a given value in power plants that create steam gas during combustion of rosin in air and cooling hot gases with water, and can be used in chemical, petrochemical and oil-producing industries. x industry.

The purpose of the invention is to improve the accuracy of the device, achieved by eliminating the influence of the flow rate of the working fluid from the main flow through the nozzle-gate assembly.

FIG. 1 is a schematic diagram of the device; in fig. 2 - the same, with an additional valve.

The device contains the first narrowing element, made in the form of a Venturi tube 1 and the second narrowing element 2, installed respectively on the lines of the main 3 and adjustable 4 streams. The device also includes the first 5 and second 6 single-membrane comparison elements. The cavity 7 of the minimum section of the Venturi tube 1 is connected to the hollow chamber 8, and the cavity 9 to the flow chamber 10 of the reference element 5. The cavities 11 and 12 of the second converging element 2 are connected to the blind chambers 13 and 14 of the comparison element 6. The rigid centers of the membranes of elements 5 and 6 are interconnected by a rod 15. A valve 16 and a nozzle 17 mounted in a flow chamber W are fixed to the rigid center of the membrane of element 5. The nozzle 17 is connected to the channel 18-drain in which the throttle washer 19 is placed,

cavities 20 and 21 before and after which are communicated with chambers 22 and 23 of the actuator 24 of the regulatory body 25 installed on line 4.

FIG. 2 shows an embodiment of the device with a normally closed valve 26. In this case, an additional throttle washer 27 is installed in the channel connected to the blind chamber 8. The control chamber 28 of the valve 26 is connected to the nozzle 17 of the element 5. The inlet 29 and the outlet 30 of the valve 26 communicate with flow 10 and deaf 8 cameras element 5.

The device works as follows.

In the initial position, the device (Fig. 1) is in equilibrium, i.e. the costs of the main and controlled flows correspond to the specified values, the pressure drops on the constricting elements 1 and 2, and, consequently, on the membranes of elements 5 and 6 are equal to each other. In this case, the flow area of the nozzle-flap assembly is set so that the main flow rate on the throttle washer 19 and, consequently, on the actuator 24, a pressure differential sets the regulating member 25 to the position corresponding to the set value of the regulated flow.

When the flow rate at the restricting element 1 changes, the pressure drop, for example, decreases. Since the cavities 7 and 9 of the converging element 1 are in communication with the chambers 8 and 10 of the element 5, the pressure drop across its membrane decreases. In this case, the force on the diaphragm of the element 6, formed by a large pressure drop across the constricting element 2, is transmitted through the rod 15 to the valve. 16, the nozzle 17 closes, and the flow through the throttle washer decreases. Therefore, the pressure drop across the actuator 24, which moves the regulator 25 to reduce the flow area to a value that provides a corresponding reduction in the flow rate of the controlled flow, is reduced. After that, the device will again be in equilibrium.

The device shown in FIG. 2, operates when the valve 26 is closed (FIG. 2). When this valve is opened, the chambers 8 and 10 of the element 5 are interconnected, and under the action of a force from the element 6, the nozzle 17 in the element 5 closes. The differential on the throttle plate becomes zero, and the actuator 24 closes the regulator 25.

The minimum flow rate at which the valve 26 opens. Is set by the spring force in the valve 26. When the tapering element 1 is made in the form of a Venturi tube, the entire main flow passes through the latter, and the flow through the nozzle 17 of the element 5 does not affect the pressure drop across the element 1. It improves the accuracy of the device,

Claims (2)

Invention Formula 1. A device for automatic control of the ratio of two streams, containing the first restricting element installed on the main flow line, the first and second single-membrane comparison elements, the chambers of one of which are connected to the cavity of the second restricting element installed on the adjustable flow line and mounted on adjustable flow lines a regulator with an actuator, the rigid centers of the membranes of the comparison elements are kinematically connected to each other and to the valve of the node the nozzle-valve , due to the fact that, in order to increase accuracy, the device is equipped with a drain channel on which a throttle washer is installed, the cavities before and after which are communicated with the chambers of the actuator of the regulator, the nozzle of the node nozzle-damper is installed in the flow chamber of the first element the first narrowing element is designed in the form of a Venturi tube, the minimum section of which is communicated with a blind chamber, and the outlet cavity is connected with the flow chamber of the first comparison element. 2. The device according to claim 1, in order to expand its functionality, it is provided with a normally closed valve and an additional throttle washer installed in a channel connected to the blind chamber of the first reference element, and the control chamber of the valve is connected to a nozzle installed in the first element of the comparison, and the inlet and outlet of the valve are respectively connected to the flow and blind chambers of the first element of the comparison. 2