Basic Parameters
Model Name: DX602020S Square Suction Cup Electromagnet
Dimensions: Length 60mm x Width 20mm x Thickness 20mm
Applicable Voltage: DC3V ~ DC60V
Traveling Suction: >70N
Workpiece Characteristics: The object to be adsorbed must be medium/low carbon steel; the surface must be smooth, and the area must be larger than the suction cup surface.
Environment: Temperature -20~40°C; Humidity: 5%RH - 85%RH
Structure and Working Principle
Ⅰ Structure Composition
The DX602020S suction cup electromagnet is composed of basic components such as coils, yoke wire, etc.
602020 Electromagnet yoke and core form the magnetic field transmission section; 602020 Coils, wires, etc., form the magnetic field excitation section.
II. Working Principle
The enameled wire is wound around the spool. When the 602020 suction cup electromagnet is powered on, the magnetic field excitation generates a magnetic force, which magnetizes the transmission section of the field, creating a magnetic force on the suction surface to lift the workpiece. When the magnetic field excitation section is de-energized, the transmission section cannot generate magnetic force, causing the workpiece to detach.
Operating Frequency
| Working Frequency = (Power-On Time / (Power-On Time + Power-Off Time)) * 100 | 100 | 50% | 25% | 10% |
| Continuous Power Supply | Spaced Power Supply | |||
| Power-on Time (seconds) | ∞ | 200 | 15 | 3 |
| Power W (20°C) | 6.5W | 13W | 26W | 60W |
| Note: With different working voltages and different power factor, the power remains constant, while resistance and current will vary. Please note to calculate the required current when making a selection. Calculation formula: Resistance = Voltage * Voltage / Power; Current = Power / Voltage. | ||||
Important Notice: By default, our 602020 suction electromagnets are operated with a 100V continuous power supply. They can also be set for intermittent power supply, which is entirely based on the customer's actual usage conditions. If operated under continuous power supply, the force will be relatively weaker. On the other hand, intermittent power supply will produce greater force but may increase temperature.
Dimensions
