DE3313768A1 - Asynchronous electric motor having a rotation frequency which can be regulated - Google Patents

Abstract

The invention relates to an asynchronous electric motor having a rotation frequency which can be regulated, for electrical drives. The asynchronous electric motor has a simplified structure and a reduced consumption of active materials and energy. The asynchronous electric motor having a rotation frequency which can be regulated has a stator (1), a front and a rear bearing plate (4, 8), a laminated, short-circuited motor rotor (2) which is supported in the front bearing plate (4), a ventilator rotor (3) which is supported in the rear bearing plate (8), and a ventilator (10) which is surrounded by a jacket (11) which is attached to the body of the stator (1). The motor rotor (2) has an increased rotor impedance and is supported together with the ventilator rotor (3) in two bearing seats having bearings in the ventilator rotor (3) which is produced from a dense ferromagnetic material and has a formed shaft (13) on its other side. <IMAGE>

Description

ASYNCHRONOUS ELECTRIC MOTOR WITH ADJUSTABLE ROTATION FREQUENCY

The invention relates to an asynchronous electric motor with adjustable Rotational frequency for use in electrical drives.

An asynchronous electric motor is known with a wide range adjustable rotational frequency (U.S. Patent No. 3,749,949).

There are three rotors inside the stator of this electric motor: a layer short-circuited motor runner, a hollow, non-magnetic runner, the is assigned immovably to the shaft of the motor rotor and a layer short-circuited Fan rotor with an independent bearing, on whose shaft a fan is mounted. The fan runner is inside the hollow runner. the The fan rotor shaft is hollow and the motor rotor shaft passes through it freely through. The bearing of the motor rotor is with a bearing in the front Realized end shield and with an external bearing in the jacket of the fan. Of the Fan runner is by means of a located in the rear end shield. day and day stored in the jacket of the fan lying inner bearing, which jacket on the body of the stator is attached. The fan of the electric motor is behind the rear end shield and is covered by the jacket of the fan.

A disadvantage of this known electric motor is that it is complicated Construction and the large air space between the fan rotor and the stator, which leads to an increased consumption of active materials and energy.

The object of the invention is to provide an asynchronous electric motor with adjustable rotational frequency to create the the one simplified Construction and a reduced consumption of active materials and energy Has.

This object is achieved in that within of the stator there are two rotors: a layer-short-circuited motor rotor with one increased runner resistance and a fan runner. The fan runner is off a dense ferromagnetic material is made within which it is on the side of the motor rotor are two bearing seats and the one on the other side with a shaped one Wave ends. The motor rotor is on the one hand in the front end shield and on the other hand Bearing together with the fan rotor by two bearings, which are in the bearing seat of the fan rotor. The fan runner is also in the rear end shield stored. A fan is mounted on the shaft of the fan rotor, which is operated by a cladding fastened to the body of the stator is included.

The advantages of the asynchronous electric motor according to the invention exist in the simplified construction, the simplified storage of the motor rotor and of the fan rotor in the end shields and in the reduced consumption of active ones Materials and energy.

Based on the embodiment shown in the drawing, the one Shows the longitudinal section of the asynchronous electric motor with adjustable rotational frequency, the invention is explained in more detail.

A motor rotor 2 and a fan rotor are located inside the stator 1 3. The motor rotor 2 is a short-shift closed rotor with increased rotor resistance. The fan rotor 3 is made of a dense ferromagnetic material and ends with a shaped shaft. The motor runner 2 is in one front bearing plate 4 mounted by means of a bearing 5 and together with the fan rotor 3 mounted in bearing seats of the fan rotor 3 with bearings 6 and 7, which consist of two Protective discs are carried out. The fan rotor 3 is also in the rear end shield 8 stored by means of a bearing 9. On the shaft 13 of the fan rotor 3 is a Fan 10 is mounted by a jacket attached to the body 12 of the stator 1 11 is included.

The electric motor works as follows: The magnetic field generated by the stator 1 passes through the motor rotor 2 and the fan rotor 3. The characteristic in this case is that the motor rotor 2 in the fan rotor 3 by means of the Bearings 6 and 7 is stored.

The rotational frequencies of the two rotors will be different in one Change in the supply voltage of the electric motor and constant load on the motor rotor 2. The rotational frequency of the motor rotor 2 at constant load is in the whole the regulation range determined by the change in the supply voltage, while the rotational frequency of the fan rotor 3 is relatively small Area is changed. As a result, the fan rotor 3 generates by means of the fan 10 a cooling air flow that is sufficient to cool the electric motor.

The rotational frequency of the motor rotor 2 can also be changed by changing the load of the electric motor can be changed. The role of the fan rotor remains in this Case the same.

This applies to the entire regulation range of the rotational frequency of the electric motor, the lower limit of which can be close to zero.

Claims (1)

ASYNCHRONOUS ELECTRIC MOTOR WITH ADJUSTABLE ROTATION FREQUENCY Patent claim Asynchronous electric motor with adjustable rotational frequency, with a stator (1), a front and one rear end shield (4, 8), one in the front end shield (4) layered motor rotor (2) with a short-circuit, one in the rear end shield (8) mounted fan rotor (3) and a fan (1G), which is operated by an am Body of the stator (1) attached jacket (11) is detected, thereby g e k e n n -z e i c h n e t that the motor rotor (2) has an increased rotor resistance and together with the fan rotor (3) in two bearing seats with bearings (6, 7) is mounted in the fan rotor (3), which is made of a dense ferromagnetic material is made and has a shaped shaft (13) on its other side.