RU2775562C1 - Belted electric engine - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular, to electric engines. The result is achieved by the belted electric engine containing a belt drive consisting of a drive belt and pulleys, the axles whereof are inserted into bearings installed in the body, as well as stator electromagnets installed in the body along the belt, wherein permanent magnets are installed on the drive belt.

EFFECT: added rectilinear motions of the rotor.

1 cl, 1 dwg

Description

Field of technology to which this invention relates: electrical engineering. The invention can be used as a drive for vehicles, machine tools, household appliances, construction equipment and other similar areas.

Analogues of this invention include inventions: electric motor RU 2321142 C1, asynchronous motor RU 2171542 C1, asynchronous motor RU 2171540 C1, electric machine SU 741377 A1, electric motor RU 2050668 C1. Having a fixed stator with an electromagnet and a rotor (or armature) rotating around a stationary axis. The disadvantage of such an electric motor is the constant rotation of the rotor. During rotation, the driving force arising from the interaction of the magnetic fields of the stator and rotor, in a very short period of time, is co-directed with the direction of movement of the rotor. The centrifugal force of inertia also acts on the rotor all the time the electric motor is running, this is a negative factor leading to losses.

The object of this invention is to add rectilinear movements of the rotor. In order for the driving force arising from the interaction of the magnetic fields of the stator and rotor to be as much as possible co-directed with the movement of the rotor and to interact with the rotor as much as possible, it is necessary that the rotor, in addition to circular movements, perform rectilinear movements. The percentage of circular movements compared to all rotor movements should be as small as possible.

The figure 1 shows a belt-rotor 1, a permanent magnet on the belt-rotor 2, pulleys 3, stators with electromagnets 4, stators with electromagnets 5, stators with electromagnets 6, rotor position sensor 7.

The principle of operation of a belt electric motor is similar to an electric motor with a constantly rotating rotor. Voltage is applied to the stator coils 4 and the permanent magnets of the rotor are repelled from them. A current of opposite polarity passes through the stator coils 5 and the permanent magnets of the rotor are attracted to them. Figure 1 shows that the belt-rotor, stretched between the pulleys 3, has approximately 50% of the straight path and 50% of the circular path. On straight sections, the permanent magnets 2 of the belt-rotor 1 interact with the electromagnets of the stators. Their interaction force is maximally aligned with the rectilinear movement of the belt-rotor 1 and minimizes the appearance of inertia forces, since the rotor does not move constantly in a circle.

Claims (1)

Belt electric motor, including a belt drive, consisting of a drive belt and pulleys, the axes of which are inserted into bearings installed in the housing, as well as stator electromagnets installed in the housing along the belt, while permanent magnets are installed on the drive belt.

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