SU503026A2 - Condensing steam turbine with adjustable steam extraction - Google Patents

Description

between pressure regulator 2 and servo motor 4 PND. If this choke is located before branching AND, the link between the two regulators and the servomotor 4 is broken. The choke 12 of the switch 9 locks the servo motor 4 in a predetermined position, and the chokes 13 and 14 change the characteristics of the link between the pressure regulator 2 and the servomotor 3 FFR . The choke 13 changes the transmission ratio by opening the line from the servomotor 3 to the choke 15 of the regulator 2. The choke 14 produces an equidistant displacement of the characteristic to the desired position, i.e. allows the pressure regulator to act on the FHD servo motor over the entire load range. The switch 9 is equipped with an additional switch 16, which can be shifted relative to the main switch by means of a kinematic adjustable transmission, for example a screw one. In this case, the throttle 17 of the switch 16 breaks the connection between the regulator 2 and the servomotor 5 PND. If this throttle is located before branching 18, then the connection between the wallpaper knobs and the servomotor 5 PND is broken. The choke 19 of the switch 16 locks the servomotor 5 PND in a predetermined position. In the thermal graphics mode, controller 1 can be put on power limiter 20. Servomotors 3-5 contain feedback chokes 21-23.

When the turbine operates, the electrical switch 9 and the additional switch 16 are located on the lower stops, while the speed and pressure controllers 1 and 2 control the servos 3-5 through the throttles 6-8 and 6-8 (this position is shown in the drawing) . To convert the turbine to the thermal schedule mode, the switch 9, together with the switch 16, is integrally shifted to the upper stop. Thus, by means of chokes 10, 12, 17 and 19, the servomotors 4 and 5 of the PND are fixed in the position of minimal opening of their steam distribution bodies, and by means of the chokes 13 and 14 the necessary gear ratio between the pressure regulator 2 and the power supply pump servomotor 3 is established.

To enable the turbine to operate in a combined mode, with the position of the switch 9 and the switch 16 corresponding to the electrical graphic (lower stop), it is necessary to act on the drive of the additional switch 16, i.e. shift it to the upper stop relative to the switch 9 remaining on the lower stop. Thus, by means of throttles 17 and 19, the connection between the pressure regulator 2 and the servomotor 5 PND is broken, and the servomotor 5 is set to the desired position (position

the minimum opening of the steam distribution body of the second compartment of the PND). Due to the reliable fixation of the steam distribution body of the second compartment of the PND in the minimum open position, the amount of water entering the condenser connected to this compartment can be reduced, and its thermal potential can be useful in the CHP cycle. At the same time, the link between the controllers 1 and 2 and the servomotor 3 and

4, i.e., the maneuverability of the purely electrical graphics is maintained.

In this case, the turbine has two exhaust bays for the PND. For a larger number of exhaust compartments, the circuit is carried out in a similar way: for each servomotor of a PND that controls the steam distribution body of its exhaust compartment, a switch similar to switch 16 is installed.

Formula of invention

Condensing steam turbine with adjustable steam extraction according to ed. St. No. 216019, characterized in that, in order to improve efficiency in the presence of several

independent streams of steam of low pressure turbine parts; additional converter elements are connected to the switch via kinematic controlled transmission, for example chokes, included in the LIPR of communication of servomotors of low pressure parts with regulators.

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