RU2130U1 - ROTOR - Google Patents

Abstract

1. The rotor, consisting of two disks interconnected, between which there are elements for pumping the working medium, made in the form of a spiral of Archimedes, and connected to a rotation drive, characterized in that to increase the power pressure of the working medium by adjusting the passage through the gap between the elements, the latter are made in the form of three lead-in grooves on the end (flat) surface of one of the disks and protrusions - on the other, which is a mirror image of the first, protrusions of the second disk when e go to the first disk into the grooves of the latter with a gap. 2. The rotor according to claim 1, characterized in that one of the disks (or both) has the ability to move in the radial-angular direction relative to the other, which allows you to adjust the gap between the walls of the grooves of the first and the protrusions of the second disk.

Description

ROTOR

The proposal relates to Mayinostroenigo, in particular to the design of rotary-action pneumatic hydraulic pumps.

Known impeller / used in a hydraulic pump (household electric pump Bts1o, 4-20-U1L Agidel, GOST 26287-84, instruction manual), consisting of two discs rigidly interconnected with a certain gap, in which the blades are used to radially pump water in the pipeline. UT of the electric motor of the impeller (fan), rotating in the case, sucks in the center liquid (water) and grows it along the periphery of the disks into the discharge pipe. The blades in shape represent part of the Archimedes spiral and contribute to the creation of ejection at the center of rotation.

The disadvantage of the design of the impeller is that it does not create sufficient power of the liquid head at the outlet, because the power of the pressure, with this design, can only be increased due to the speed of rotation of the impeller, but at revolutions of more than 800 rpm, the water column breaks off and the pump stops working. The disadvantage of the impeller is also that the cavities between the blades are not regulated and are constant, which affects the performance and power of the fluid head.

To increase the pressure head in pneumatic and hydraulic systems without increasing the energy of the rotation drive, we propose a rotor consisting of two disks, one of which has three-way grooves made on the Archimedes spiral along its end surface, and the second disk is a mirror image of the first, the protrusions of which when superimposed on the first disk, they enter the grooves of the latter with a gap. The rotor is mounted on the shaft of the rotation drive in such a way that one of the disks is able to move in the radial-angular direction. Relative to the other, thereby adjusting the gap between the walls of the groove of the first disk and the protrusions of the second. The resulting slots in the reactor form a Loval nozzle and contribute to the outflow of gas or β-liquid at the exit of the rotor at a speed many times higher than the speed of the gas or liquid at the inlet.

class P 04 D 2 9/18;

The rotor operates as follows.

Disk I is installed in the disk so that between the protrusions 3 of disk I and the grooves of the disk, made in the Archimedes spiral, gaps form, initially narrowing from the periphery of the disk, and then expanding C to the center of the disk form a Loval nozzle). The disks are informed of the rotational movement in the direction indicated by arrow G. The rotor is placed in a gas or LIQUID environment. When the rotor rotates, the medium in which the rotor is placed enters the slots B formed on the periphery of the disks. Slots, starting from the periphery, narrow to the middle of the length of the spiral, and then expand to the center of the discs. In this case, the rate of depletion of the medium in which the rotor is placed, in the center (from the hole D) increases many times with respect to the rate of liquid or gas entering the slot B at the periphery of the disks.

The outer diameter of the discs is 120 mm., The depth of the grooves and the height of the protrusions is 10 mm.

The proposed technical solution is made and the pilot tests have confirmed its advantages over the well-known

technical solution.

Authors: - / - G. 1L Ponomarev

Obsi

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i.3.C) aap I.I. Levin

Claims (2)

1. The rotor, consisting of two disks interconnected, between which there are elements for pumping the working medium, made in the form of a spiral of Archimedes, and connected to a rotation drive, characterized in that to increase the power pressure of the working medium by adjusting the passage through the gap between the elements, the latter are made in the form of three lead-in grooves on the end (flat) surface of one of the disks and protrusions - on the other, which is a mirror image of the first, protrusions of the second disk when e Go to the first disk enter the grooves of the latter with a gap.  2. The rotor according to claim 1, characterized in that one of the disks (or both) has the ability to move in the radial-angular direction relative to the other, which allows you to adjust the gap between the walls of the grooves of the first and the protrusions of the second disk.