RU119543U1 - INDUCTION ASYNCHRONOUS ELECTRIC HEATING MACHINE - Google Patents

Abstract

1. Induction asynchronous electric machine for heating fluids, containing a housing, stator, rotor, windings, characterized in that the stator and rotor are made of plates, the thickness of which is determined by calculation, depending on the required degree of heating of fluids, and the design of the stator and monolithic rotor provides maximum heating, and the windings are made of metal, which has increased resistance compared to copper. ! 2. An induction asynchronous electric machine for heating fluids according to claim 1, characterized in that screw threads are made on the surface of the stator and rotor. ! 3. An induction asynchronous electric machine for heating fluids according to claim 1, characterized in that through channels are made in the stator and rotor. ! 4. An induction asynchronous electric machine for heating fluids according to claims 2 and 3, characterized in that an impeller or blades are installed on the rotor shaft.

Description

The utility model relates to electrical engineering, in particular to devices for induction heating of liquid and gaseous media.

The closest technical solution to the claimed device is an induction fluid heater (AS USSR No. 527240, publ. 09/05/1976, BI No. 33), comprising a housing on which the induction winding, gear pump, one of the parts of which is made from magnetic material, inlet and outlet nozzles, electric motor.

The disadvantage of this device is the design complexity.

The technical task of the utility model is to simplify the design.

The technical problem is solved by the fact that it is proposed to reduce the efficiency of the device, thereby increasing heat transfer to the environment, due to the fact that the stator and rotor are made of plates, the thickness of which depends on the set degree of heating, and the maximum heating is ensured when the stator and rotor are cast in place.

Induction induction electric machine for heating fluids, contains a housing, a stator, a rotor made of plates, the thickness of which is determined by calculation, depending on the required degree of heating of the fluid winding. The execution of the stator and rotor monolithic provides maximum heating. Fluids can be air, gas, liquid (kerosene, fuel oil, oil, etc.) that do not conduct electric current, and in the case of using, for example, water or saline, additional insulation is required. On the surface of the stator and rotor, screw threads are made, which are necessary for pumping fluids and for increasing the heat transfer surface. Through the stator and rotor are made through channels for the passage of fluids. The windings are made of metal having a high resistance compared to copper, for example steel. The speed of the fluid can be increased by installing impellers or blades on the rotor shaft.

The device comprises a housing, a stator, a winding, a rotor.

The device is essentially an asynchronous motor, made with maximum losses in heating while passing alternating electric current.

The device operates as follows. When connected to an electrical network (single-phase or three-phase) with a frequency of 50 Hz or more, the rotor rotates when interacting with the stator winding. The emerging magnetic field causes the rotor to rotate. When the stator and rotor are monolithic, the resulting losses on Foucault currents will be maximum, which entails their increased heating. To increase the degree of heating, the windings of the device are made of metal of increased resistance compared to copper. The surface of the stator and rotor is made with screw threads. Through the stator and rotor are made through channels for the passage of fluids. The speed of the fluid can be increased by installing impellers or blades on the rotor shaft. The implementation of the stator and rotor of the plates, the thickness of which is calculated based on the required degree of heating, will ensure the heating of fluids to a predetermined temperature. This embodiment is applicable if, for example, a slight heating of engine oil is required.

Induction electric induction machine for heating fluids can be used in heating systems of industrial facilities, the operation of fan heaters, when pumping heated oil products and oils.

Claims (4)

1. Induction asynchronous electric machine for heating fluids containing a housing, a stator, a rotor, windings, characterized in that the stator and rotor are made of plates, the thickness of which is determined by calculation, depending on the required degree of heating of the fluids, moreover, the stator monolithic rotor provides maximum heating, and the windings are made of metal having a high resistance compared to copper. 2. Induction asynchronous electric machine for heating fluids according to claim 1, characterized in that on the surface of the stator and rotor are made screw threads. 3. Induction asynchronous electric machine for heating fluids according to claim 1, characterized in that through channels are made in the stator and rotor. 4. Induction asynchronous electric machine for heating fluids according to claims 2 and 3, characterized in that an impeller or blades are mounted on the rotor shaft.