SU377170A1 - ALL-UNION NATEHTHO-rtXHfi'fF-KAYA! - Google Patents

Description

one

The rotary apparatus is applicable for the intensification of the processes of interaction of liquids with the possible inclusion of powdered bodies. Rotating devices with movable working elements are known, whose working cylinders are made in the form of separate freely moving radial sectors.

The proposed apparatus allows reducing wear on the working surfaces of the cylinders.

This is achieved by the fact that each rotating sector is made with a blade in order to create a constant minimum gap between the cylinders due to the formation of a thin layer of liquid between them, the sectors are made with helical grooves, the gap size being regulated by the angle of inclination of the groove.

FIG. 1 given apparatus, longitudinal section; in fig. 2 is a section along L-A in FIG. one.

The concentric rings of the rotor rotating from the shaft /, consist of separate sectors 2 with slots or holes 3.

Each sector has a guide protrusion 4 with an axis on which the blade 5 is attached. The guide protrusions are inserted into the slots; on the rotor disk 7 and serve to transmit rotational motion to the sectors. The sectors of each ring are movably interconnected by means of a driver S, which enters groove 9

neighboring sector. Each sector of the rotor on the internal and internal working surfaces has one or more helical grooves 10. The outer ring of the stator 11 is integral and

also has slots or holes.

The inner ring or rings are comprised of individual sectors 12 with slots 3 and protrusions 13 included in slots 14 based on the sector. Among themselves the sectors of each

the rings are movably connected by means of a driver 8, which is inserted into the groove 9 on the adjacent sector.

The processed medium enters through the hole 15 in the stator, passes through the slots in

rings of the rotor and stator and goes out through the pipe 16 of the housing 17. In this case, part of the medium through channel 18 in the housing of the apparatus returns and through the holes / P enters the blades 5 of each sector of the rotating rotor. In this case, each blade is affected by a reactive force, the radial component which is directed toward the center of rotation. The blades 5 located on the Calchdom sector of the rotor create a reactive force acting on the sector in a direction opposite to the direction of the centrifugal force. By varying the angle of attack of the blade, the magnitude of the reactive force is selected, which provides only the possibility of radial movement of the sector (as it wears out) along the guide slot 6 on the rotor disk with minimal contact friction force. When moving the rotor sectors to the next concentric circle, the sectors of the stator 12 are also moved along the guide slots 14 at the base of the stator.

Due to the fact that the moving sectors of each ring of the rotor and stator are interconnected by means of a ring S, which is included in the groove 9 of the neighboring sector, it is possible to simultaneously move the sectors of each ring to the next concentric circle (when its working surface is abraded). each ring, which eliminates the possibility of skewing the rotating sector when its geometric size changes.

The reduction of centrifugal forces, pressing the moving sectors of the rotor and stator, makes it possible to replace the contact friction by sliding friction. To do this, screw grooves 10 are made on the outer and inner working surfaces of the rotor sectors. When they rotate, the liquid gets between the friction surfaces and forms a layer that prevents direct contact of the working surfaces. The inclination angle of the grooves and their section can change the thickness of the layer, i.e. the size of the gap between the rings

rotor and stator, which is of great importance for maintaining the stability of the parameters of the plant, as well as significantly reduces wear due to contact friction. Thus, the proposed design of the apparatus allows to increase the service life and reliability while maintaining all the positive qualities of the known rotary devices.

Subject invention

Claims (2)

1. A rotary apparatus with movable working elements, the working cylinders of which are made in the form of separate freely moving radial sectors, characterized in that, in order to reduce the wear of the cylinder surface caused by contact friction, each rotating sector is made with a blade. 2. The apparatus according to claim 1, characterized in that, in order to create a constant minimum the gap between the cylinders due to the formation of a thin layer of liquid between them, the sectors are made with helical grooves, the gap being regulated by the angle of inclination of the second section of the groove. -Id