The role of medium-wave infrared heating lamps in printing machines:
Working principle
Medium-wave halogen infrared heating lamp achieve heating functions by emitting medium-wave infrared rays. After the fabrics and other materials in the printing machine absorb these infrared rays, the vibration and rotation of the molecules intensify, thereby increasing the temperature of the material, which helps to dry and cure the printing ink, etc.
Advantages
Efficient heating: Medium-wave Quartz IR Halogen Heating Bulb has high thermal efficiency. It can quickly transfer heat to the heated object, and the heating speed can be increased several times compared to traditional heating methods such as hot air heating.
Precise heating: Its heating area is relatively concentrated. The precise heating of the printed pattern part can be achieved by adjusting the parameters such as the position, angle and power of the heating lamp. This is very important for some printing processes that require local heating treatment. For example, in the thermal transfer process, only the transfer pattern part needs to be heated to sublimate the ink and transfer it to the fabric. The medium-wave Quartz Infrared Halogen Heating Element can meet this requirement well.
Energy saving: Since the medium-wave IR heat lamp directly converts electrical energy into radiation energy, and most of the radiation energy can be absorbed by the heated object, the energy loss during the transfer process is reduced. Compared with other heating methods, it can save energy and reduce production costs while achieving the same heating effect.
