CS261007B1 - Blade Rotor System - Google Patents

Abstract

The solution concerns a system of bladed rotors, both driving and driven for liquid media, where an even number of rotors are placed in one plane with counter-intersecting blades. The blades in this system overlap each other by almost two-thirds of the functional surface of the blades of each adjacent rotor, up to the passage distance between the hubs of adjacent rotors. These bladed rotor systems are suitable for water pump turbines.

Description

BACKGROUND OF THE INVENTION The present invention relates to a system of vane rotors, both propelled and propelled for liquid media, for use in water turbines, pumps, propulsion propulsion and the like.

At present, rotors mounted on the axis of the flow space are known and used with vanes orbiting the circumference of the internal flow space for both driven and driving rotors. These rotors are commonly used, for example in pumps, water turbines and the like.

When the liquid medium flows through these rotors, there is a loss of energy supplied or obtained by the medium having the possibility of slipping on the blade without transferring all of its usable energy. Also, the axial bearing of these rotors, which occupies about 12.5% of the area flow area, is itself loss-making since it excludes the possibility of using the center of the flow area.

These disadvantages are overcome by a system of vane rotors, propelled or propelled for liquid media, according to the invention, in which the right-handed and left-handed rotors are distributed on an axial circle in an even number in one plane, their blades, at least two on one rotor. and overlap almost two-thirds of the functional surface of the blades of each adjacent rotor up to the passage distance between the rotor hubs of adjacent rotors.

The main advantage of this solution is the mutual overlapping and overlapping of functional surfaces of the blades by almost two thirds. Prevents loss of media leaks without use.

Another advantage of the blade rotor assembly, both driven and driven, is the use of the central flow space! the blade area is larger than the rotors used, with more turns.

Another advantage of this solution is that more than one separate set of propeller blades, driven or driven, can be installed in the pipe flow.

A particular exemplary embodiment of the rotor assembly is shown in the accompanying drawing, in which Fig. 1 shows a plan view of a rotor of a water turbine and Fig. 2 shows a side view of the rotor assembly.

Rotor hubs A are in even number, in this case six rotors Αι Α »with axial circle 5, which lie at the tops of the hexagon inscribed in the flow space of pipe A · The diameters of rotors 2» A are given by · The diameter of the rotor hubs 2 is chosen such that there is adequate clearance between the rotor hub 2 and the rotor blades 3, A, as well as between the rotor blades 3, A ^and the inner circumference of the defining trays 6 in the flow space of the pipe A ·

The medium passing through the blade rotor assembly Ai A ' ^{does not} rotate because the flow of the medium is supported, for example, on the blade of the right-hand rotor A ^and then immediately on the blade of the left-hand rotor Ar.

Claims (2)

A system of propeller rotors, both propelled and propelled for liquid media, for use with water turbines, pumps, ship propellers and the like, characterized in that the right-handed and left-handed rotors (3, 4) are distributed on an axis circle (5) in an even The number of blades in their plane, at least two on one rotor (3, 4), overlap each other and overlap almost two-thirds of the functional surface of the blades of each adjacent rotor (3, 4) up to the passage distance between the rotor hubs (2) of adjacent rotors (3, 4). A set of impeller rotors, driven and driven according to claim 1, characterized in that the inner space of the pipe (1) is shaped according to the circumference of the set of impeller rotors (3, 4) defining the troughs (6).