DE2208010A1 - LINEAR ASYNCHRONOUS MOTOR - Google Patents

Description

ASYNCHROME LINEAR MOTOR The present invention relates to linear ones Asynchronous motors for the direct conversion of electrical energy into mechanical Energy in a moving working organ of a machine or a mechanism are usable.

It is a linear asynchronous motor with a stator and a for Stator cross-shafts asymmetrically arranged runner known, on the surface of which cross slots are incised around those caused by the esymmetrical grounding of the rotor To reduce ejection forces (see e.g. "Procseings of the British IEE, v. 16 and "Energia", 1969, no. 51 "Using the linear inductive motors for high-speed transport systems ").

As is well known, step asymmetrically to the stand over the entire height arranged solid runner perpendicular to the tensile force acting as a result of ejection forces the uneven distribution of the currents flowing along the rotor. These Ejection forces are sufficiently large. They often increase those created by movement Frictional forces and cause increased wear, around the ejecting the runner To reduce forces, one sometimes tries to keep the runner symmetrical to the transverse post to arrange. However, this usually leads to a weakening of the mechanically fastening the stand Parts and overconsumption of non-ferrous metals from which the runner is made.

The purpose of the present invention is to remedy the disadvantages mentioned above to fix.

The invention is based on the object of a linear asynchronous motor to create sufficient mechanical strength and rigidity at practical complete elimination of the above-mentioned forces that the runner in which only emit traction in the vertical direction.

According to the invention this is achieved in that the slots in the runner of the proposed linear asynchronous motor cut along its length are, whereby the Ejection forces are significantly reduced.

In order to exclude the ejection forces as effectively as possible, it is advisable to to execute the slots arranged along the runner so that their length is greater is than that of the pole pitch of the stator and the distance between these slots is smaller than the pole pitch length, a length of the slot which the constraints of the Pole pitch is exceeded, it is necessary that the currents in their orbits runners arise and usually correspond to the length of the stator pole Laurerberen Schlienen, ud the ends of the part of the runner bounded by the slots don't go out.

The smaller distance between the slots compared to the pole pitch length is due to the effort to obtain the lowest possible currents, the go beyond the boundaries of the line delimiting the slots at these intervals.

The present invention can be used in devices and mechanisms in which the lateral forces occurring due to linear electric motors are undesirable because, for example, a frictional force arises under the action of these forces, which in turn causes the emergence of the forces of resistance to movement. As an an example Such a facility can be a tow truck of the hydrodynamic test rig for ship models serve whose linear motor is above the Tow car arranged is (the engine can not be mounted underneath the tow truck, be there Would impede runners from towing the model).

An exemplary embodiment is given below with reference to the explain the accompanying drawings in more detail. It shows Fig. 1 a side view of the asynchronous linear motor; Fig. 2 is a front view of the asynchronous linear motor.

As can be seen from Figs. 1 and 2, there is the linear asynchronous motor of two columns 1 and 2 with windings, between which a rotor 3 is arranged is.

The upper and lower parts of the cross section of the rotor 3 are asymmetrical to the plane of symmetry of the stand. The stands 1 and 2 are with each other with a Housing 4 bound to any base, but can also be mounted on a v.

To suppress the impact forces from the runner 3 from the intermediate stand space Eject in the direction perpendicular to the force of the groove, the rotor 3 is with longitudinal slots 5 executed, the length of which is equal to or greater than that of the pole pitch 27 of the stator (The width of the slots 5 does not have any effect on reducing the impact forces) and the slot spacing is smaller than the length of the pole pitch r of the stator.

When the alternating current flows through the windings of the stator 1 and 2 creates a wandering magnetic field, its movement along the stand 9 and 2 and the rotor 3 is directed. When moving this magnetic field will be Induced in the rotor 3 electromagnetic forces and generated currents that in the limits of the pole pitch # must be completed. Since the length of the longitudinal slots 5 in Läifer 3 is equal to or greater than that of the pole pitch #, these flow together practically not the non-cooperating, beyond the slots 5 located part of the runner 3.

As a result, the magnetic field of the rotor 3 is symmetrical to the Magnetic field of the stator 1 and 2 and there is no resulting ejection force, because the type of distribution of the longitudinal currents of the rotor on both sides of the planes of symmetry the stand located rush the same The arrangement of the slots described above in runners also effectively prevents the repulsive forces against the stand, if the linear electric motor has only one stand.

Claims (2)

P A T E N T A N S P R Ü C H E: 1. Asynchronous linear motor with a stator and a rotor with Slots, which is arranged asymmetrically to the transverse axis of the stand, d a d u r c h g e k e nn nn n e i n e t that for the reduction of the ejection forces with preservation the mechanical strength of the rotor (3) along the aforementioned slots (5) of the rotor (3) are executed. 2. Linear asynchronous motor aaeh claim 1, d a -d u r c h g e k It is noted that the length of each slot in the runner (3) is greater than that of the pole pitch # of the stator (1 and 2) and the distance between these slots (5) is smaller than the length of the pole pitch # of the stator.