Magnetic vibrators are suitable as drives for vibration conveying conduits and pipes, vibrating filters, water-removal equipment, worm conveyors and vibrating tables. As impact vibrators for silos, bunkers, deflection grills, downspouts, chutes, filters and filling plants, they provide for a smooth material flow. Whether in the case of bunker settlement, draining, screening, dedusting or protection filter, whether with extraction of large volume quantities or in case of special tasks within process engineering, such as e.g. blocking, dosing, feeding, cooling, warming and drying, AViTEQ magnetic vibrators reliably perform their work in every case. Use our long-standing experience with vibration conveying technologies in all sectors
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Advantages of the AViTEQ magnetic vibrators
Construction and operating mode
Magnetic vibrators are spring-mass systems, which always exploit the close-to-resonance condition of the entire vibration system (drive and working device). The drive includes the elements for vibration generation, such as electromagnet and leaf spring package. The vibration generated by the excitation current on the driving side is transmitted directly to the working device (e.g. filter, conduit or pipe). Directed, linear vibration movements of the working device are generated. The vibration direction in this case always runs at a pre-determined "vibration angle" to the horizontal. The "vibration amplitude" corresponds in this case to the double amplitude of the overall system. Magnetic vibrators are continuously controllable using the drive voltage. They immediately achieve full conveying capacity, and thus interference effects from run-up and run-down of motor drives are dispensed with. This is especially important in case of dosing and feeding or for process-technical applications. Magnetic vibrators enable the continuous adjustment of the conveying rate in on-going operation. They achieve full conveying capacity immediately after turning on. The shutdown is implemented in fractions of a second and stops the conveying rate immediately.
Reference:
For deviating data for magnetic vibrators for connection to 60Hz power supplies or power supplies with deviating voltages, see reference pamphlet VIB.2.57; or on request.
Accessories
Our magnetic vibrators are connected, via different standard interface devices, according to the required function, to the alternating current mains. The adapter units are required for an operation of the vibration device with the planned operating frequency and for continuous regulation of the vibration amplitude and thus the conveying rate.
Adapter units with voltage compensation balance line voltage fluctuations and hold the conveying rate constant over a broad voltage range.
Analog adapter units are also employed as vibration amplitude controllers, together with additional vibration recorders, in order to check the function of the overall system. The current vibration amplitude can then also be displayed in analog or digital form.
With our digital adapter units, the problem-free integration of vibration conveyor equipment with magnetic vibrator is possible in operation-wide system automation concepts.
Extensive programming of nominal/actual value and all system-specific parameters can be implemented from a central control system. Also, additional sensors make possible the integration of diagnosis and maintenance functions.
Drive  |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
vibrator
weight (kg) |
||
| MV C 25-4 | 15 | 40 | 3,9 | 2,3 | 42 |
| MV D 25-4 | 35 | 150 | 3,4 | 1,2 | 61 |
| MV E 25-4 | 70 | 250 | 3,3 | 1,3 | 110 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
Vibrator- Gewicht (kg) |
||
| MV C 25-4 | 15 | 40 | 3,9 | 2,3 | 42 |
| MV D 25-4 | 35 | 150 | 3,4 | 1,2 | 61 |
| MV E 25-4 | 70 | 250 | 3,3 | 1,3 | 110 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
Vibrator- Gewicht (kg) |
||
| MV ES 33-1 | 90 | 300 | 2,8 | 1,1 | 125 |
| MV ES 33-IP | 90 | 300 | 3,8 | 1,5 | 125 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
vibrator
weight (kg) |
||
| MV ES 33-1 | 90 | 300 | 2,8 | 1,1 | 125 |
| MV ES 33-IP | 90 | 300 | 3,8 | 1,5 | 125 |
| MV FS 33-2 | 190 | 600 | 2,1 | 1,1 | 250 |
| MV FS 33-2P | 190 | 600 | 3,7 | 1,5 | 250 |
| MV G 33-1 | 300 | 900 | 3,8 | 1,5 | 340 |
| MV H 33-1 | 600 | 1800 | 3,8 | 1,5 | 680 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
vibrator
weight (kg) |
||
| MV 6/50-1 | 1 | 6 | 1,05 | 0,6 | 6,5 |
| MV 12/50-3 | 6 | 18 | 1,75 | 0,9 | 18 |
| MV B 50-4 | 10 | 20 | 1,8 | 1,0 | 14 |
| MV C 50-4 | 15 | 40 | 1,75 | 1,0 | 39 |
| MV C 50-4.1 | 40 | 100 | 1,15 | 0,6 | 42 |
| MV D 50-4 | 35 | 150 | 1,7 | 0,6 | 63 |
| MV E 50-4 | 70 | 250 | 1,75 | 0,7 | 99 |
| MV ES 50-1 | 115 | 350 | 1,85 | 0,75 | 125 |
| MV ES 50-IP | 115 | 350 | 2,0 | 0,9 | 125 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
vibrator
weight (kg) |
||
| MV C 50-4 | 15 | 40 | 1,75 | 1,0 | 39 |
| MV C 50-4.1 | 40 | 100 | 1,15 | 0,6 | 42 |
| MV D 50-4 | 35 | 150 | 1,7 | 0,6 | 63 |
| MV E 50-4 | 70 | 250 | 1,75 | 0,7 | 99 |
| MV ES 50-1 | 115 | 350 | 1,85 | 0,75 | 125 |
| MV ES 50-1P | 115 | 350 | 2,0 | 0,9 | 125 |
| MV FS 50-2 | 170 | 600 | 1,95 | 0,75 | 250 |
| MV FS 50-2P | 170 | 600 | 2,3 | 0,9 | 250 |
| MV G 50-2 | 180 | 450 | 2,1 | 1,0 | 310 |
| MV G 50-11 | 180 | 450 | 2,2 | 1,1 | 270 |
| MVH 50-1 | 520 | 1.200 | 1,8 | 1,0 | 700 |
Drive |
Effective weight range (kg) von bis |
vibration amplitude range (mm) von bis |
vibrator
weight (kg) |
||
| MV 1/100-4 | 0,2 | 3 | 0,6 | 0,25 | 3,1 |
| MV 6/100-5 | 1 | 6 | 0,6 | 0,3 | 6,5 |
| MV C 100-4 | 18 | 40 | 0,62 | 0,4 | 46 |
Copyright (C) 2006 by J.T.E. Co.,Ltd. |