Description:
This KK-P20/15 3KG Lifting Solenoid consists of an iron core and a coil to attract magnetic substances, using the magnetic action induced by electric current, only while the current is applied. This compact functional device offers high power with high reliability. The structure and design to release the residual magnetism left after de-energization is also one of its unique features.
Specifications:
- Max. Operating Current: 0.17mA
- Power Consumption: 2Watt
- Operating Temperature Range: -20~120°C
- Bolt Size: M4
- Body Material: Mild Steel
- Dimensions (LxWxH): 20 x 15mm (Dia. x Length)
Features:
- This highly efficient electromagnet generates a magnetic field of a strong pull (high attractive force) with low energy consumption. You can adjust to the desired attractive force by changing the power applied and the magnetic gap between the electromagnet and the substance.
- When an electromagnet is energized, the problem is how to release the magnetic force which remains on the device after the power is turned off. Our electromagnet is designed with measures to release and minimize this residual magnetic force.
- Compact mechanism with high reliability.
- High mechanical strength and excellent durability.
Working Principle:
- An electromagnet is simply a coil of wire. It is usually wound around an iron core. However, it could be wound around an air core, in which case it is called a solenoid. When connected to a DC voltage or current source, the electromagnet becomes energized, creating a magnetic field just like a permanent magnet. The magnetic flux density is proportional to the magnitude of the current flowing in the wire of the electromagnet.
- The polarity of the electromagnet is determined by the direction of the current. The north pole of the electromagnet is determined by using your right hand. Wrap your fingers around the coil in the same direction as the current is flowing (conventional current flows from + to -). The direction your thumb is pointing in the direction of the magnetic field so north would come out of the electromagnet in the direction of your thumb. DC electromagnets are principally used to pick up or hold objects
Caution:
Electromagnets must meet the following conditions to achieve maximum suction:
- The object to be sucked must have good magnetic permeability.
- Proper use of power supply, and rated voltage.
- The object to be sucked must be flat and clean.
- The object to be sucked must be greater than or equal to the surface of the magnet( For example the magnet is 20 x 15 mm, so the surface area is S=r²π=10²π mm² so the object to be sucked must be greater than or equal to 10²π mm² )
- The object to be sucked must be greater than 5mm. (If the thickness decreases, the suction decreases)
- The object to be sucked must be close, the middle can’t be interspersed with objects or gaps
- Suction means more than 5cm in thickness, surface roughness, the surface is greater than the cross-sectional area of the electromagnet and maximum suction completely fits together on an iron-based material.
- Electromagnet in working condition electromagnetic conversion would produce a certain amount of heat, and electricity more frequently the higher temperatures, which is a normal phenomenon.
Applications:
- Assembly line
- Sorting machine
- Mechanical arm
- Experimental facility
Package Included:
1 x 3KG Lifting Solenoid DC 24V KK-P20/15 3KG Lifting Solenoid Electromagnet