SU16213A1 - Screw turbine - Google Patents

Description

In the proposed turbine for a liquid or gaseous working medium, in contrast to existing screw turbines, the rotor is made in the form of a microscopic screw that faces the feeding pipe and has v-blades formed by planes that are normal to the rotor axis , and drawbars, wherein the blades are located on the screw by the steps, and the working medium is supplied from the side; In addition, in order to increase the washed surface, the outlet of the housing is located adjacent to the inlet, and to bypass the working medium from one side of the rotor to the other, a bypass channel is provided, with the aim of unloading axial pressure to the rotor shaft at the ends of the discharge discs. A modification of the proposed turbine is that the outlet is located at the inlet side and in the lid of the cylindrical body. ..

 schematic drawing of FIG. 1 is a front view of a turbine; FIG. 2-horizontal section of it; FIG. 3-vertical section of it; FIG. 4 - in real scale horizontal section of the feed chamber; FIG. 5 is a similar section of the discharge chamber; FIG. 6 is a cross-section of the turbine in a different form of execution.

In the casing 3, to which the inlet chamber 5 with the inlet 6 and the outlet chamber 8 in the inlet 7 (Fig. 3, 4, 5, 6) are fitted, a rotor drum of the rotor 2 is placed, the shaft 1 of which is laid in bearings and sealed with glands 4. The drum 2 is made in the form of a wide blade screw, the surface of which is facing the feeding chamber, which is provided with styueno spaced blades formed by planes normal to the drum axis and radial grooves. For directing the spray media to the blades of the feed chamber, at the exit of it fences 12, a bypass channel 13 can be provided for bypassing the working medium from one side of the rotor to the other, and disks 14 are used for unloading from axial pressure. The entire turbine is mounted on the foundation 9. The outlet 7 can be located in the bottom of the cylindrical body. The working medium (steam or water) enters through the nozzle 6 into the inlet chamber 5, where it breaks, divided by partitions 12 onto a series of parallel jets, onto the rotor blades and transforms the kinetic energy and hydrodynamic pressure into mechanical work; The feed enters channel 13, changes its direction in it and approaches the lower

half of the rotor, where work is also additionally formed. After working in the lower half of the rotor, the working gear is collected in the diversion chamber 8, from where it is diverted through the inlet 7 in the case of steam operation to a condenser or atmosphere, or to another similar turbine, in the case of water operation to its lower level.

The subject of the patent.

1. A screw turbine for a liquid or gaseous working medium, characterized with the use of a screw rotor 2, the surface of which is turned towards the supply pipe 5, located on the extension of one of the chords of the rotor, is equipped with blades in the form of steps formed by planes normal to the axis rotor and crankshafts designed to repel a jet of working medium directed at them, and to increase the surface of the rotor being washed, the outlet of the housing 8 is located next to the inlet 5, ska working fluid from one side of the rotor to another particular Bypass channel 13 may be provided.

 2. The form of implementation of the screw turbine described in paragraph 1, ex; it is common with the end surfaces on the top of the rotor of the discharge disks 14 mounted on the rotor shaft. 3. Modification of the characterized turbine turbine j in clause 1, characterized in that the outlet port is located not adjacent to the inlet port, but in the lid of the cylindrical body.