SU551448A1 - Steam turbine installation - Google Patents

Claims (1)

(54) STEAM TURBINE INSTALLATION In addition, the location of the NGN near the base of a low pressure part makes it difficult to route the steam lines to the vertical type stop valves and other steam lines of the high pressure cylinder. An additional section of the receiver to compensate for the transverse movement of its free end increases the metal consumption of the receiver and increases the volume of steam in it, which reduces reliability when the turbine unit is stopped. The aim of the invention is to reduce the dimensions of the basement and engine room and increase the reliability of the installation in operation. This is achieved by the fact that in the steam-turbine installation the separators are arranged in pairs on the sides of the receiver, and their bodies are interconnected by rigid straps. In this case, the receiver is mounted on a foundation on a hinged support, and its end is on a rolling support, which provides movement in a plane perpendicular to the axis. FIG. 1 shows a steam turbine installation, side view; in fig. 2 - the same plan. The steam turbine plant contains a high-pressure cylinder 1 and two low-pressure cylinders 2 installed on the foundation 3. The high-pressure cylinder 1 is connected by its exhaust pipes 4 to the SPP 5. To enable the routing of the steam pipes to the stop valves 6, the HGP 5 housings high pressure cylinder 1 zone. The enclosures of the DGP 5 are connected by their outlet nozzles 8 by means of compensators 9 to the receiver 10 so that they are located on both sides of its axis. HACS 5 housings are fitted with clamps 11 attached in the direction of the points of attachment of the outlet nipples 8. The receiver 10 is located on the longitudinal crossbar 12 of the foundation 3. The receiver 10 has three fixing points and fasteners: the hinge bearing 13 at the end 14 of the foundation 3, the steam inlet: nozzles 15 and 16 of cylinder 2, which divide it into sections 17, 18 and 19. On the left and right of the point of attachment of the outlet nozzles 8 on the receiver 10 there are groups of compensators 20 and 21, respectively, connected by a rigid pipe 22 between the end face 23 of the receiver 10 and flange 24. To the right of pipe 22 between the fla Tsami 24 to 25 are disposed compensator 26 fixed tie rods 27. At the hinge support 13 is placed on its right compensator group 28. On the left and right of the pipe 15 located parovpusknogo group compensators 29 and 30 sootvetst- 60 venno. To the right of the steam inlet pipe 16 there is a group of compensators 31 limited by the end 32 of the receiver, with which it rests on the rollers 33 mounted on the support 34. When the turbine unit is operating, steam enters through stop valves in cylinder 1, then through exhaust pipes 4 of this cylinder enters SPP 5 . The dried steam from the SPP 5 through the outlet nozzles 8 enters the receiver 10 and further into the steam inlets 15 and 16 and heats them. The force of the steam, which tends to overturn the CSD 5, is perceived by rigid couplings 11. The thermal expansion of the section of the receiver 1O between the CSD buildings 5 is compensated by compressing the compensators 9. The axial expansion of the section 17 relative to the upper girder 12 of the foundation 3 is provided by groups of compensators 20 and 21. Vertical relative displacement SPP 5 housings are provided by turning the end of the section 17 of the receiver 1O on the hinged support 13 and the fracture of the axes of the compensator groups 26 and 28. Axial expansion of the section 18 relative to the end 14 of the foundation 3 provides The groups of compensators 28 and 29. The relative axial expansion of section 19 is provided by groups of compensators 30 and 31. Vapor pressure on the left end 23 of receiver 1O is unloaded by pipe 22 by straps 27 and flanges 24 and 25. Steam force on right end 32 of receiver 1O is perceived by a roller stop 33-34. The lateral movement of the receiver 10 together with the low pressure cylinder relative to the foundation 3 is achieved by breaking the axes of the compensator groups 28 and 29 and moving the end 32 across the rollers 33 of the support 34. The proposed steam turbine installation allows reducing the width of the mash channel and reducing the overall length of the receiver pipeline compared to with the usual layout while maintaining the permissible depth of the basement of the room of the gymnasium while improving the reliability of the turbine unit in operation, the claims 1. steam turbine a plant comprising a high pressure cylinder and a receiver connected to the low pressure cylinder and remote separators, so that, in order to reduce the dimensions of the base of the turbine unit, the machine