Many processes in chemistry, pharmacy and biotechnology are automatically controlled. Nevertheless, a glimpse into what is happening at the reactor is often desired. As many of the reactor vessels are set up in a potentially explosive area, special requirements apply here. Papenmeier GmbH & Co. KG, in its Lumiglas division, specializes in sight glass assemblies. In order to guarantee a clear view for automated equipment such as camera monitoring systems, the cleaning processes for the glass also had to be automated. Window wipers with ex-protected micromotors provide the necessary transparency here.
Things tend to heat up in reactor vessels in the truest sense of word. The medium is thoroughly stirred by agitators, new reagents are streamed in through conduits and the reaction often results in bursting bubbles. All of these events mean that liquids splash in every direction – naturally, onto the sight glass as well. In other words, window cleaning is required to maintain a clear view into the vessel.
Spray nozzles are not always suitable for cleaning sight glasses; sometimes it is necessary for the wipers to perform manual work. The major disadvantage of this solution is that it requires local operation. The Lumiglas experts took on this problem and developed a motorized wiper which can also be remote-controlled. This enables camera-supported monitoring solutions without major personnel expense. Particularly in process engineering, special attention must frequently be given to the specific potentially explosive atmosphere surrounding the system. All mechanical and electrical components must therefore be designed with protected constructions. In case of window wipers, this necessitates a smooth-running yet gastight shaft feedthrough in the reactor. The drive motor must also fulfill the relevant requirements. The same applies to the necessary gearing for increasing torque. As large drives would obscure the view into the relatively small sight glasses, a further requirement is the smallest design possible. Media which are rough or fibrous to wipe require a high torque on the part of the wiper shaft. These were all requirements which the FAULHABER drive developers needed to take into account when producing the suitable motor concept.
There are several possible ways of realizing an explosion-proof device. The pressurized enclosure Ex p, the oil immersion Ex o or the encapsulation Ex m, among others, are state-of-the-art. As the motor has a colletor and brushes, sparks are produced during operation. Therefore only pressure-resistant casing can be used for ignition protection. This means that all components which could ignite a spark are embedded into an enclosure that can withstand explosion pressure. The openings of the enclosure are furnished in such a way that outward transmission of the explosion is prevented. The motor casing was developed for the highest possible explosion class IIC (this includes IIA and IIB) and is also authorized for zones 1 and 2. The temperature class is T5, and the highest possible class T6 is available upon request. With the exception of the motor shaft feedthrough (IP 54 in accordance with EN 60529), the motor has been implemented in protection class IP 68. In motor practice, this means that despite the pressure-resistant casing, the motor at a length of 80 mm and diameter of 35 mm is hardly larger than a comparable non-ex-protected motor. With a supply voltage of 24 VDC and a maximal possible continuous current of 0.5 A, the motor achieves up to 9 watts of shaft power for an ambient temperature of 40 °C. The efficiency factor is over 75%. The small rotor weight of the skew wound permits a high rate of acceleration. Specially adapted attachment planetary gearheads (32 to 63.5 mm in length, 35 mm in diameter) increase the torque to up to 10 Nm. The speed reduction range, depending upon the number of stages (one to five stages) spans from 3.71: 1 to 1,526: 1. Motor and gearing are connected directly in the plant, thereby ensuring the protection class.
Protection against unauthorized heating is achieved by two integrated thermal fuses. For secure operation, only one fuse is necessary; if a disturbance has triggered a fuse, continued operation is possible with the second. Whether as a protected version for vacuum, compressed air or liquid pumps or as a specially designed drive solution for sophisticated positioning tasks – explosion-proof miniature drives open up a variety of new application fields within the explosion hazardous areas of process engineering.
F.H. Papenmeier GmbH & Co. KG