Transnorm motors

Transnorm motors are special types of electric motors designed for use in different application areas where precision and efficiency are of utmost importance. These motors are characterized by their high reliability and performance and are often used in automated systems. Historically, transnorm motors have undergone a remarkable evolution, from simple mechanical devices to state-of-the-art, computer-controlled drives. They typically work by converting electrical energy into mechanical motion, with different types of transnorm motors having specific functions and applications.

Types of Transnorm Motors

There are various types of Transnorm motors, each designed for different applications and requirements. The main types include alternating current (AC) motors, direct current (DC) motors, and servo motors. AC motors are widely used in industrial applications due to their robustness and efficiency. DC motors offer precise control of speed and torque, making them ideal for applications requiring high precision. Servo motors are known for their accurate positioning capabilities and are frequently used in robotics and automation. Each of these motor types has specific advantages and disadvantages that make them particularly suitable for certain applications.

Areas of Application

These special motors are used in a wide variety of applications. In industry, they are essential for operating conveyor belts, automation systems, and production plants. They contribute to making processes more efficient and reliable. In everyday life, we encounter Transnorm motors in many devices, such as household appliances or consumer electronics, where they ensure smooth operation. Furthermore, technological advances offer new opportunities for the use of Transnorm motors, for example, in electromobility or in smart buildings, where they can contribute to improved energy efficiency and reduced emissions.

Advantages of Transnorm Motors

The numerous advantages offered by transnorm motors make them the preferred choice in many applications. Their high efficiency and performance ensure that they consume less energy while delivering strong and consistent power. The reliability and long service life of these motors reduce the need for frequent maintenance, resulting in lower operating costs. Furthermore, Transnorm motors are often more environmentally friendly than conventional motors, as their lower energy consumption and improved efficiency contribute to reducing emissions. These advantages make Transnorm motors a sustainable and economically attractive solution for numerous technical challenges.

Features

Energy-efficient and environmentally friendly
suitable for operation on a frequency converter
Design according to EN 60034 (IEC 60072)
Designs IM B3, IM B35 and IM V1 according to EN 60034-7
Protection class IP 55, optionally IP 56 or IP 65
robust, one-piece die-cast runner
Winding in thermal class 155 (F), optional 180 (H)
impregnated under vacuum
Optimized ventilation system with internal and external cooling from size 355MX
Relubrication device with grease quantity regulator
Temperature monitoring with PTC thermistor (low voltage) or PT100 (high voltage version)
Spaciously dimensioned connection boxes
standard equipment with RFID transponder (memory motor)
environmentally friendly painting system based on water-based paint

Technical details

Size	315 – 450
Performance range	200 – 1000 kW
Efficiency classes according to IEC 60034-30	The motors can be delivered in compliance with VO(EC) 640/2009 in the versions: without efficiency classification, Standard Efficiency IE1, High Efficiency IE2, Premium Efficiency IE3 > 375 kW according to draft IEC 6034-30 Edition 2.0, 2/1652/CD
Speeds	3,000, 1,500, 1,000, 750, 600, 500 min⁻¹, lower speeds possible on request, pole-changing versions in many speed combinations, e.g. with Dahlander winding 4-2, 8-4, 12-6 pole or 6-4, 8-2, 8-6 and 12-4 pole with two separate windings, three speeds like 8-4-2 or 8-6-4 or four speeds 12-8-6-4 pole
Protection types	IP 55, optional IP 56, IP 65 according to EN 60034-5 (IEC 60034-5)
Designs	IM B3, IM B35, IM V1 (IM B5 up to size 315MY) and derived designs according to EN 60034-7
Types of cooling	according to EN 60034-6 (IEC 60034-6): self-ventilated, IC 411, forced-ventilated, IC 416, unventilated, IC 410
Coolant temperature/installation altitude	standard -20 °C to +40 °C, optional -40 °C to +60 °C installation altitude 1000 m above sea level
Transponder	optional, RFID system iID®2000 (13.56 MHz based on ISO 15693), standard from size 400 onwards