SU1663231A1 - Rotary pump - Google Patents

Abstract

The invention relates to a pump engineering industry and relates to rotary pumps. The purpose of the invention is to increase reliability and durability. The rotary pump contains a working chamber 4 in the form of two conjugate hollow tori 10 and 11 of a nonmagnetic material. Inside the tori there are two kinematically connected rotors 8 and 9. In the working chamber 4, pressure elements 7 are installed in the form of balls of solid ferromagnetic material. The rotors 8 and 9 are made of magnetic material and have radial protrusions with tips, covering the tori 10 and 11 from two opposite sides. Being carried away by the magnetic field created by the rotation of the rotors, the ball pressure elements 7 move in the cavities of the working chamber 4, each inside its own torus, which ensures high tightness without using seals. 2 Il.

Description

1

The invention relates to a pumping station and concerns rotary pumps.

The purpose of the invention is to increase reliability and durability.

Figure 1 shows a rotary pump, a slit; figure 2 is the same, side view.

The rotary pump includes a housing 1 with an inlet 2 and an outlet 3 with nozzles and a working chamber 4 formed by two annular cavities 5 and 6. In each of the cavities 5 and 6, pressure elements 7 are located, driven by rotors 8 and 9, kinematically connected between by myself. The working chamber 4 is formed by the conjugation of two hollow tori 10 and 11, having a common cross-section and made of a non-magnetic material. The injection elements 7 are made in the form of ferromagnetic balls, and the rotors 8 and 9 are made of magnetic material. The rotors 8 and 9 have at the opposite ends of the radial protrusions 12 and 13 with tips 14, 15, covering from two opposite ends the tori 10 and 11. All the tips 14 or 15, located at one end, have the same poles.

The number of injection elements 7 in each cavity 5 and 6 is equal to the number of pairs of poles. The radial protrusions 12 and 13 are spaced from each other by equal angular distances. There is a gap between the tori 10 and 11 and the ends of the tips 14 and 15, which have a curvilinear shape.

The rotors 8 and 9 are set so that over the cross section common to both tori 10 and 11, the radial protrusions of one rotor 8 are shifted relative to the protrusions of the other rotor 9 and half the angular distance between the protrusions, so that the protrusions of the rotor 9 can fit between the protrusions rotor 8. The rotor pump works as follows.

During the rotation of the rotors 8 and 9, the ball injection elements 7, carried by the magnetic field, move inside the tori 10 and 11, each in its own ring

cavities 5 and 6. The distance between the discharge -. body elements 7 is not less than the diameter of the element, and when they enter the total cross section, the pressure element 7 of one torus 11 enters between the pressure elements

elements 7 of the other torus 10. The pumping of fluid from the inlet 2 of the nozzle into the outlet 3 occurs in the same way as in the gear pump. The magnetic field is created by tips 14 and 15.

This design allows the working chamber to be sealed without the use of seals, which ensures high reliability.

Claims (1)

Invention Formula A rotary pump, comprising a housing with inlet and outlet nozzles and a working chamber, formed by two annular cavities, pressure elements placed in each of the cavities and driven by rotors kinematically interconnected, characterized in that, in order to increase reliability and durability, the working chamber is formed by the conjugation of two hollow tori having one common cross section and made of a nonmagnetic material, the injection elements are made in the form of ferromagnetic balls, and the rotors are made of magnetic material and are equipped with radial projections with tips that encompass two opposite ends of the tori, and the tips located from one end have the same poles, and the number of oppressive elements in each cavity is equal to the number of rotor pole pairs. 9 p FIG. 2