RU87842U1 - OPEN SUBMERSIBLE ASYNCHRONOUS MOTOR - Google Patents

Abstract

An open-type submersible induction motor, consisting of a housing, a stator, stator protectors rings, a shaft with a rotor mounted on it, on which grooves of multi-thread cutting are made, rotor protectors rings and bearing shields, characterized in that ultrasonic emitters are mounted on the bearing shields in the form of rings.

Description

The inventive utility model relates to the field of electrical engineering, in particular to submersible electric machines that can be used in various fields of underwater technology, for example, to drive pumps, propellers, winches, etc. underwater inhabited and uninhabited vehicles, as well as for driving offshore and production offshore rigs.

Known open-type submersible induction motor (1), consisting of a housing, a stator, rings of stator protectors, a shaft with a rotor mounted on it, on which grooves of multi-thread screw cutting, rings of rotor protectors and bearing shields are made with holes concentrically located relative to the shaft.

This engine is the closest in design to the claimed utility model, therefore, adopted as a prototype.

The disadvantage of the prototype is ineffective anti-fouling, and the need to create forced circulation when the engine is idle.

The essence of the claimed technical solution lies in the fact that in the well-known open-type submersible induction motor, consisting of a housing, a stator, stator protectors rings, a shaft with a rotor mounted on it, on which grooves of multi-thread cutting are made, rotor protectors rings and bearing shields, on ultrasonic emitters made in the form of rings are fixed to bearing shields.

A comparative analysis of the claimed technical solution with the prototype showed that the claimed technical solution has signs that do not coincide with the prototype, namely, ultrasonic emitters made in the form of rings are mounted on the bearing shields, which allows us to conclude that the claimed utility model meets the criterion of "novelty".

A comparative analysis of the claimed utility model with other technical solutions showed that ultrasonic cleaning of surfaces from various contaminants is widely used in technology, however, in the claimed utility model, ultrasonic emitters are not used to clean the surface, but as a means of protection against fouling, which allows us to conclude that the claimed utility model, the criterion of "inventive step"

In Fig.1 shows a longitudinal section of a submersible induction motor open design.

An open-type submersible asynchronous motor consists of a housing 1, inside which a stator 2 is installed. A rotor 4 is mounted on the motor shaft 3, on which grooves 5 of multi-thread screw cutting are made. In the housing 1, tread rings 6 of the stator 2 are installed on both sides, and tread rings 7 of the rotor 4 and tread sleeves 8 are installed on the shaft 3. Bearing shields 9 are mounted on both sides of the housing 1 with holes 10 concentrically arranged relative to the shaft for water to enter the engine cavity and exit from it. On the bearing shields 9 from the inner side of the housing 1 are mounted ultrasonic emitters 11, made in the form of rings and connected to an ultrasonic oscillation generator (generator not shown).

Open submersible induction motor operates as follows:

When the engine is running, sea water through the holes 10 in the bearing shield 9 enters the internal cavity of the engine and, due to the presence of multi-threading screw grooves on the rotor 4, is sent to the gap between the stator 2 and rotor 4, removing foreign particles, including fouling larvae entering the gap with seawater, after which it is removed from the engine cavity through the holes 10 in the bearing shield 9 from the opposite side.

After the engine is stopped, fouling larvae falling into its internal cavity with sea water will not be able to settle on the internal surfaces due to ultrasonic vibrations of the fluid, which are created by ultrasonic emitters 11 mounted on bearing shields 9 on the inside of the housing 1 and connected to the ultrasonic vibrations generator.

Thus, the claimed utility model allows, with minimal changes to the existing design, to protect this type of engine from fouling and to eliminate the need to create forced circulation when the engine is idle.

Claims (1)

An open-type submersible induction motor, consisting of a housing, a stator, stator protector rings, a shaft with a rotor mounted on it, on which grooves for multi-thread cutting are made, rotor protector rings and bearing shields, characterized in that ultrasonic emitters are mounted on the bearing shields in the form of rings.