Basic Parameters
The DT5550 Rotating Electromagnet features an inclined angle structure design. Both the yoke and the rear cover come with built-in installation threads, allowing for simple and convenient customization of installation dimensions. All parts are precision-machined using CNC technology, and the built-in 0.08mm micro-adjustment blade ensures high rotation angle accuracy and high torque.
Structure and Working Principle
Ⅰ Structural Composition
The DT5550 Rotating Electromagnet is composed of basic components such as the yoke, front cover, rotating shaft, spool, rotor, positioning block, fixed block, bearing, and spring.
5550 yoke and front cover form the magnetic flux transmission section; 5550 spool, enameled wire, wire, etc., constitute the magnetic field excitation section; the 5550 rotor and shaft make up the magnetic field action section.
II Principle of Operation
During power outages, the magnetic field section returns to its initial position under the influence of the spring. When the magnetic excitation section of the 5550 rotary electromagnetic magnet is energized, two sections with opposite polarities are generated, causing the magnetic field section to rotate at a specific angle.
Operating Frequency
| Operating Frequency = (Power-On Time / (Power-On Time + Power-Off Time)) * 100 | 100 | 50% | 25% | 10% |
| Continuous Power Supply | Interval Power Supply | |||
| Power-on Time (seconds) | ∞ | 180 | 15 | 3 |
| Power W (at 20℃) | 14W | 28W | 56W | 120W |
| Note: Under different working voltages and varying power factor, the power remains constant, while resistance and current will change. Please note when selecting to calculate the required current. Calculation formula: Resistance = Voltage * Voltage / Power; Current = Power / Voltage. | ||||
Parameter Introduction
Body Size: Diameter 55mm x Height 50mm
Rotary shaft diameter: 6mm
Voltage Range: Over 12V DC
Rotation Angle: 45° (Customizable)
Operation Style: Counter-Clockwise Left Rotation
Torque: 2.5 N.cm (Torque is related to power)
Reset Method: Spring Return
Dimensions
