Unbalance motor
Unbalance vibratory Motor, Unbalance vibrator motor, Unbalanced motor
AViTEQ Unbalance motors can be used as drives for almost each case of application in the vibration feeder technology and over all industries. Unbalanced motors are the prefered drive system, in particular if it depends on high throughput of bulk material.
Advantages and benefits
available as standard for explosion proofed ATEX zones 21+22
available as standard for CSA-apllication "Class 1 + 2"
available as standard with thermistor
operationally safe in continuous employment
high level of performance with compact dimensions
efficiency
latest state-of-the-art of technology and production
conformity with all EC Guidelines which affect the drives
available for 60 Hz power systems and other mains voltages
Construction and operation mode
The AViTEQ unbalance motor is a three-phase ac induction motor, on which weights are eccentrically attached at the ends of the running shaft; so-called eccentric weights (flyweights). Centrifugal forces are generated with rotating waves. The value of these centrifugal forces can be changed by adjustment of the flyweights while the motors are at standstill. The centrifugal forces which the motor generates displace the working device (conduit, table, shaped form) and the conveyed material mass by means of vibrations.
With working torques of 0.1 kg.cm to 2,763 kg.cm and centrifugal forces up to 119kN, AViTEQ unbalance motors can move devices of more than 11,000 kg dead weight.
In the case of unbalance motors elliptical, circular or rectilinear vibration movements of the working device can be generated, according to arrangement:
Double drives, which are counterrotating and synchronous rotating, generate a linear vibration movement; for example, in the case of vibration conduits or pipes.
Individual drives, which are arranged at the center of gravity, generate a circular vibration movement; for example in the case of filters.
Individual drives, which are arranged outside of the center of gravity, result in an elliptical vibration movement; for example for the shaking of bunkers.
Minggu, 26 April 2020
Aviteq UV Motor
Unbalance motor
Unbalance vibratory Motor, Unbalance vibrator motor, Unbalanced motor
AViTEQ Unbalance motors can be used as drives for almost each case of application in the vibration feeder technology and over all industries. Unbalanced motors are the prefered drive system, in particular if it depends on high throughput of bulk material.
Advantages and benefits
available as standard for explosion proofed ATEX zones 21+22
available as standard for CSA-apllication "Class 1 + 2"
available as standard with thermistor
operationally safe in continuous employment
high level of performance with compact dimensions
efficiency
latest state-of-the-art of technology and production
conformity with all EC Guidelines which affect the drives
available for 60 Hz power systems and other mains voltages
Construction and operation mode
The AViTEQ unbalance motor is a three-phase ac induction motor, on which weights are eccentrically attached at the ends of the running shaft; so-called eccentric weights (flyweights). Centrifugal forces are generated with rotating waves. The value of these centrifugal forces can be changed by adjustment of the flyweights while the motors are at standstill. The centrifugal forces which the motor generates displace the working device (conduit, table, shaped form) and the conveyed material mass by means of vibrations.
With working torques of 0.1 kg.cm to 2,763 kg.cm and centrifugal forces up to 119kN, AViTEQ unbalance motors can move devices of more than 11,000 kg dead weight.
In the case of unbalance motors elliptical, circular or rectilinear vibration movements of the working device can be generated, according to arrangement:
Double drives, which are counterrotating and synchronous rotating, generate a linear vibration movement; for example, in the case of vibration conduits or pipes.
Individual drives, which are arranged at the center of gravity, generate a circular vibration movement; for example in the case of filters.
Individual drives, which are arranged outside of the center of gravity, result in an elliptical vibration movement; for example for the shaking of bunkers.
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