SU1283719A1 - Pressure regulator for saturated steam - Google Patents

Abstract

The invention relates to automatic regulation and can be applied for automatic and remote control in a steam supply system in nominal mode and in mode with limited steam consumption depending on the required amount of steam supplied to the consumer. The purpose of the invention is to expand the scope of the regulator. The regulator includes a housing with inlet and outlet nozzles, between which a regulator is installed, connected to the sensing element of the actuator on one side, and on the other hand to the base of the running cup of the regulator stroke adjustment unit. The executive mechanism has two chambers, one of which is connected to the atmosphere, in which the regulator adjustment knot is installed, and the other, controlling, is connected to the output of the regulator operating mode switch, which is equipped with a control unit made in the form of two condensate vessels, installed at different heights from the control chamber to which they are connected by an operation mode switch depending on the load in the steam supply system. The regulator operates in two modes: nominal and with limited steam consumption. In this case, there can be two forms of control by the regulator: with the first - the regulator operates in the nominal mode and with steam consumption restriction on command pressure to the regulator (up to itself) with the second - the regulator operates in nominal mode and with steam restriction on the command pressure after the regulator (after itself). All modes of operation of the regulator with the first and second forms of control are provided by means of a switch of its mode of operation and three valves that connect the control chamber or to the inlet through the second condensate vessel in nominal mode, or to the inlet or outlet of the -. new condensate vessel in a mode with limited steam consumption. At the same time, the condensate vessels and the control chamber, as well as the lines connecting them, when the regulator is operated, are filled with liquid, which significantly improves the stability and reliability of the regulator, and in combination with the radiator installed between the regulator and the actuator, use a membrane as a sensitive element when operating the regulator on a pair. Remote control regulation (L ND 00 00

Description

1283719

The driver in the above-mentioned modes are the throttles installed by-by-can be provided with an electric passive line of the mode switch by a circuit that controls two solenoid-like operation of the regulator and 3 Il.

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This invention relates to automatic regulation and can be used to maintain a predetermined pressure of saturated steam in steam supply systems.

The aim of the invention is to expand the scope of application of the regulator.

FIG. 1 shows a functional regulator circuit with a partial section of condensate vessels; FIG. 2, the regulator with the actuator and the regulator setting, in section; Fig. 3 shows an electrical remote control circuit.

Pressure Regulator Contains Corp

I, inlet 2 and outlet 3 sockets, regulator 4, rod 5, sensing element 6, actuator 7, control chamber 8 nipple 9, chamber 10, setting unit

II, radiator 12. Stock 5 installed

in the guide sleeve 13, having channels 14. On the upper part of the housing 1, a regulator stroke adjustment unit is installed, including a cap 15 with guides 16 and a gland assembly 17. In the cavity of the cap 15 is placed a running cup 18, the crown of the second slot includes into the guides 16 of the cap 15. The sleeve of the cup 18 is connected to the upper base of the regulator 4. In the cavity of the traveling cup 18, the nut is placed 19 with grooves (not shown in Fig. 2) entering into the guides 20 of the running glass 18, | Hod nut 19 interacts with the stuff the shaft 21 and the spindle 22, the latter interacts with threads, with the control arrow 23 and the scale 24. The running cup 18 is equipped with a stop sleeve 25 and a support pad 26, limiting the stroke of the regulator 4 by means of the running nut 19. The control unit of the regulator is made in the form of condensate vessels 27 and 28, into the cavity of which hydro-equalizing intake pipes are connected to pressure gauges 29 and 30.

Vessels 27 and 28 are connected by pulse lines 31-33 to inlet 2 and outlet 3 by nozzles before and after the regulator.

On the pulse lines 31-33, shut-off valves 34-36 are installed. The first input 37 of the hydraulic switch of the operating mode of the regulator 38 is connected by a pulse line 39 to the condensate vessel 27. The second input 40 of the hydraulic switch 38 is connected by a pulse line 41 to the condensate vessel 28.

Hydraulic switch 38 is shunted bypass line 42, on which valves 43 and 44, solenoid inductors 45 and 46 are installed, and between them there is a pressure gauge 47 connected to bypass line 42 and to third input 48 of hydraulic switch 38 by impulse line 49. Hydraulic switch output 50 38 is connected by the impulse line 51 through the connection 9 to the control chamber 8 of the actuator 7.

By means of a hydraulic switch 38, two modes of the regulator are implemented: nominal and with limitation of the steam flow rate.

In the nominal mode of operation of the regulator, the switch 38 is switched to a position in which its output 50 is connected to the impulse line 41.

When the regulator is operating in the mode with the limitation of the water vapor flow rate, the switch 38 is switched to the position at which its output 50 is connected to the impulse line 39.

Solenoid valves 45 and 46 are provided for remote control of the controller. In the case of the remote control of the regulator, the switch 38 is switched to a position in which ei o output 50 is connected to the impulse line 49.

Condensate vessels are installed at different levels of H and in height relative to the control chamber 8 of the actuator 7.

Starting the pressure regulator for sat

water vapor requires preliminary preparation. To do this, open the valves 43 and 44 with the solenoid valves 45 and 46 open, the hydraulic switch 38 is installed for remote control of the regulator, and then the condensate tanks 27 and 28 are filled with vapor of the controlled medium. Steam is supplied to the inlet 2 of the regulator and the shut-off valves 34-36 open. With a time delay of 50–100 min, the system is filled. The pressure control is carried out using gauges 29.30 and 47.

In the process of steam condensate condensation, the formed condensate doesn’t have the capacities of vessels 27 and 25, as well as a system of impulse lines 39, 41 and 51, thereby accumulating a hydraulic column of a power control pulse with ensuring a predetermined pressure difference taking into account the level of a liquid column H or Hj. - by means of condensate vessels 27 and 28, Then the valves 34-36, 43 and 44 are closed.

The operation of each of the condensate vessels 27 and 28 is based on the conversion of the vapor phase into a condensate pulse, taking into account its hydraulic effect on the effective area of the membrane actuator 7,

Overlapping the respective valves and hydraulic switch 38 selects the mode of operation of the controller,

The mode of operation of the regulator is chosen depending on its load. In the day shift, when the selection of steam is the greatest ,. the regulator is in nominal mode. In the evening and night shifts, the regulator is switched to a mode with a limited flow of water vapor. In this case, limiting the flow rate of water vapor is carried out at the input pressure P, when the pulse line 31 is connected to the condensate vessel 27 via the valve 34 and through the switch 38 with the pulse line 51, and to the output pressure P, when the regulator outlet pipe 3 A valve 35 is connected to the condensate vessel 27 and through a switch 38 with a pulse line 51.

Thus, the operation of the controller can be carried out by two forms of control,

The first form of control by the regulator can be based on two modes of operation: nominal and with limiting the steam flow up to pressure P, while in the mode with flow limiting steam up to pressure P, the line 39 of the condensate tank 27 is connected With the first input 37 of the hydraulic switch 38 and the pulse line 51 with the diaphragm actuator 7. To do this, with the valve 35 closed, the valve 34 is opened, thereby connecting the control unit with the pipeline to the controller, i.e. The valve 4 is affected by an overpressure up to the regulator P, taking into account the liquid column 41, and the pulse line 31 is connected to the condensate vessel 27, on which the hydraulic column of liquid H accumulates, providing additional pulse power. Pressure is monitored by gauge 29,

Under the influence of a power pulse from an overpressure of excess pressure on the operating mechanism 7, the latter puts the regulator 4 in the closed position. The degree of closure is set by the node adjusting its stroke with the help of the handwheel 21, control of the stroke of the regulator 4 is carried out according to the navigation arrow 23 and the scale 24

For operation of the pressure regulator in the nominal value mode, the valve 36 is opened. In this case, the pulse line 39 is connected to the second input of the hydraulic switch 38 and through the line 51 to the actuator 7. Under the influence of the regulated pressure P behind the regulator on the actuator 7 it balances - the spring of the setting unit 11, thereby ensuring automatic control of the pressure by the regulator after itself. At the same time, steam consumption can also be limited with the help of the regulator stroke adjustment unit.

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The second form of controlling the controller can also be based on two modes of its operation; nominal and with limited steam consumption after se. To do this, close the shut-off valve 34 and open the valve 35, In the mode of limiting the steam flow after itself, the pulse line 38 is connected to the first input 37 of the hydraulic switch 38, and the pulse-tO clear line 51 is connected to the actuator 7.

Under the influence of an impulse of regulated pressure P behind a regulator

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with increment of force from hydraulic

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The condensate column H accumulated by the vessel 27 to the actuator mechanism 7, the sensitive element 6 of the latter is balanced by the spring of the setting unit 11. This ensures automatic regulation of the water vapor pressure with regard to the liquid column H, which is greater than H2, i.e. the flow rate and vapor pressure are limited by the additional force of the uH Hi-H2 liquid column.

Switching the hydraulic switch 38 to a position in which the pulse line 39, with the valve 36 open, is connected to the second input 40 of the switch 38, via line 51 to the actuator 7, ensures the operation of the regulator in nominal mode. Under the influence of a pulse of controlled pressure P. behind the regulator and a static column of condensate H, the accumulated condensate vessel 28 on the sensitive element 6 of the executive mechanism 7 regulator provides the nominal flow rate and pressure of the controlled medium after itself.

These operating modes and forms of control by the controller can be carried out remotely, while shifting the hydraulic switch 38 to a position in which its output 50 is connected via line 49 to the bypass line 42, and solenoid chokes 45 and 46 are controlled remotely using an electrical circuit (FIG. 3). At the same time, the stop valves 43 and 44 are opened. The pressure is monitored by the pressure gauge 47,

Remote control is carried out from the control panel, which is equipped with an automatic transfer

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an electric current switch (not shown), the voltage is controlled by the lamp 52,

The initial position is determined by the absence of voltage on the signal lamps 53 and 54, while the parallel channels of the hydraulic control power pulses are blocked by solenoid chokes 45 and 46,

The remote control in the mode of limiting the flow rate of the pair (the first form) is carried out as follows. The button 55 supplies the power supply of the electric current to the power supply of the coil of the intermediate relay 56, which turns on its open contact 57 and breaks its closed contact 58, and through the closed contact 59 of the intermediate relay 60 switches to self-locking. At the same time, the signal lamp 53 is turned on, and the open contact 61 turns on the solenoid valve 45, thereby the system connects the power control impulse via line 39 to the executive

mechanism 7 on line 51,

A hydraulic control system is produced in a manner similar to the scheme specified, which regulates overpressure according to the position of the regulator.

The control remotely in nominal mode (the second form of control) is performed as follows. Button 62 serves to supply electric current to the coil of intermediate relay 60, which turns on its open contact 63 and breaks its closed contact 59 in the circuit of intermediate relay 56. The latter turns on its closed contact 53, thereby providing self-blocking of the intermediate relay 60. At the same time, the signal the lamp 53 and the signal lamp 54 light up. On the open contact 64, the solenoid choke 45 is turned on, thereby connecting the control pulse on line 41 to the actuator 7 on line 51.

A second form of control is provided by closing the gate valve 34 through line 31 and opening the valve 35 through line 32. Control is performed on the specified hydraulic system.

The remote control circuit can provide automatic control of the time response. At the same time in parallel

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the circuit of the intermediate relay 56 connects the time relay 65. In the parallel circuit of the intermediate relay 60 connect the time relay 66.

Thus, by varying the listed construction elements, it is not difficult to achieve a wide choice of pressure regulator settings.

The use of condensate vessels 2 and 28 in combination with radiators 12 ensures reliable and stable operation of the regulator in the steam supply systems; a membrane can be used as its sensitive element.

The proposed control unit provides a flexible control program for the controller, which contributes to the increase of heat and energy resources.

the invention

Formula

A pressure regulator for the saturated water vapor, comprising a housing with inlet and outlet nozzles, between which a regulating member is installed, connected by a rod installed in the radiator with a sensing element of the actuating mechanism, with a control chamber and a chamber connected to the atmosphere in which a setting node was installed, which is about that and with the fact that, in order to solve

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widening the scope of application of the regulator, it is equipped with a control unit and a control unit for adjusting the regulator, the control unit is designed as a hydraulic switch for the regulator operating mode connected by the first input to the output of the first condensate vessel, the second input to the output of the second condensate vessel, and output - with the control chamber of the actuator, while the input of the first condensate vessel is connected through the first valve to the input of the regulator and through the second valve to the output of the regulator, the input The second condensate vessel is connected through the third valve to the regulator output, and the regulator travel adjustment unit is installed as a cap located on the body, in the cavity of which a suspension assembly with a flywheel and a spindle is mounted, rigidly connected to the regulator an organ on the opposite side of the stem and containing a crown with grooves in the upper part, in which the guide caps are located, and the spindle has a groove nut with grooves, and on the inner surface of the glass Nena guide, races "location in grooves nut.

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Claims (1)

Claim A pressure regulator for saturated water vapor, comprising a housing with inlet and outlet nozzles, between which a regulating organ 25 is mounted, connected by a rod installed in the radiator with a sensing element of the actuator, with a control chamber and a chamber connected to the atmosphere in which the unit is mounted settings, characterized in that, in order to 7 1283719 8 to expand the scope of application of the regulator, it is equipped with a control unit and a knot for adjusting the stroke of the regulatory body, the control unit being made in the form of a hydraulic switch for the regulator operating mode connected by the first input to the output of the first condensate vessel, the second input to the output of the second condensate vessel, and the output with the control chamber of the actuator, while the input of the first condensate vessel is connected through the first valve to the input of the regulator and through the second valve to the output of the regulator, d of the second condensate vessel is connected through the third valve to the output of the regulator, and the adjusting unit stroke adjusting unit is made in the form of a cap located on the housing, in the cavity of which there is a running unit made in the form of a spindle with a flywheel and a running tube rigidly connected to the regulating body with the opposite side of the rod and the crown containing in the upper part with grooves in which the guide caps are located, moreover, a running nut with grooves is installed on the spindle, and on the inner surface of the glass enes guides, races * "position in the grooves nuts. pul. / • f> ui 2