RU107001U1 - ROTOR OF VENTILATING SUBMERSIBLE PUMP MOTOR MOTOR FOR OIL PRODUCTION - Google Patents

Abstract

 The rotor of a submersible valve electric motor of a pumping unit for oil production, consisting of a magnetic system mounted on the shaft, in the form of a metal hub, with permanent magnets fixed to it, characterized in that the permanent magnets are fixed to the metal hub by pouring with high-strength polymer material, for example polyphenylene sulfide.

Description

The utility model relates to the field of electrical engineering, in particular to the design of rotor valves of submersible electric motors (SEM) used in pumping units for oil production.

In the prior art, a rotor of a valve electric motor is known, consisting of a magnetic system mounted on a shaft, in the form of a package of plates of magnetically conductive steel with holes in which permanent magnets with tangential magnetization are placed (see patent RU 2244370 C1, publ. 10.01.05, Н02К 1 / 06).

This rotor design has significant scattering fluxes that are closed between magnets facing each other with the same poles through a jumper between the holes, which leads to a decrease in the working magnetic flux, and as a result to a decrease in the energy performance of the SEM. In addition, this design has a high metal consumption, which complicates its use in high-speed engines without laborious balancing.

The prior art also known is a rotor of a valve PED, consisting of a magnetic system mounted on a shaft, in the form of a metal hub, with permanent magnets fixed to it. To protect the magnets from destruction during centrifugal loads and the effects of the chemically aggressive environment in which the SEM works, the magnets are surrounded on the outside by a thin-walled metal cage seated on centering discs, on the outside of which there are thin-walled profile covers connected to the cage and the hub by welds. In this case, the rotor cavity is filled with a compound (see patent RU 2309510 C2, publ. 10.03.07, Н02К 1/22).

This design of the rotor in technical essence is closest to the claimed utility model and is selected as a prototype.

This design has a large number of structural elements designed to protect the magnets from destruction during centrifugal loads and from exposure to a chemically aggressive environment, as well as the high complexity of manufacturing, which is due to the fact that reliable attachment of the magnets to the hub and holder requires accurate grinding of the magnets on all surfaces . In addition, the presence of a metal cage covering the magnets increases the electrical losses in the rotor

Utility Model Disclosure

The technical result achieved by the implementation of the claimed utility model is to simplify the design of the rotor and reduce the complexity of its manufacture, as well as to reduce electrical losses in the rotor.

The specified technical result is achieved due to the fact that in the rotor of the submersible motor of the pumping unit for oil production, consisting of a magnetic system mounted on the shaft, in the form of a metal hub, with permanent magnets fixed to it, magnets are fixed on the hub by pouring with high-strength polymer material , for example, polyphenylene sulfide.

Utility Model Implementation

Figure 1 - Cross section of the rotor.

The rotor consists of a shaft 1 with a metal hub 2 mounted on it, which is fastened to the shaft by means of dowels 3. On the hub there are magnets 4 and 5, which are fixed to it by pouring with high-strength polymer material 6. As an example, a polymer material can be used polyphenylene sulfide having high strength and heat resistance.

High-strength polymer material reliably fixes magnets to the hub and protects them from the effects of a chemically aggressive environment; therefore, a large number of structural elements protecting the magnets is not required, which greatly simplifies the design of the rotor. It does not require accurate grinding of the magnets on the outer surface, which reduces the complexity of manufacturing the rotor. In addition, the absence of a metal cage covering the magnets reduces electrical losses in the rotor

Claims (1)

The rotor of a submersible valve electric motor of a pumping unit for oil production, consisting of a magnetic system mounted on the shaft, in the form of a metal hub, with permanent magnets fixed to it, characterized in that the permanent magnets are fixed to the metal hub by pouring with high-strength polymer material, for example polyphenylene sulfide.