To choose a suitable carbon fiber infrared heating lamp, you need to consider the following key factors:
- Purpose
Heating purpose
If it is used for industrial drying, such as drying large metal parts or plastic products, you need to choose a carbon fiber infrared heating lamp with higher power. Generally speaking, the power range of 1-5 kilowatts is more suitable, so that enough heat can be quickly provided to complete the drying task. At the same time, the irradiation area of the carbon fiber heat lamp should be considered. For large-area drying objects, it is best to choose a heating lamp with a larger irradiation angle (such as 120°-180°) to ensure uniform heating.
If it is used for heating in a home bathroom, the power can be relatively small, usually around 1-2 kilowatts. And pay attention to the waterproof performance, and choose a Carbon fiber IR heat lamp with a waterproof grade of IPX4 and above to prevent safety problems such as leakage in a humid bathroom environment. The irradiation angle can be selected according to the size and layout of the bathroom. For a small bathroom, an irradiation angle of 90°-120° can meet the needs.
For agricultural greenhouse heating, the number and power of halogen infrared heating bulb should be determined according to the area of the greenhouse. Generally, 1-2 halogen lamp replacement parts with a power of 1-1.5 kilowatts can be used for every 10-15 square meters of greenhouse space. Moreover, the wavelength range of the infrared heating bulb is critical. The infrared wavelength suitable for plant growth is generally 7-14 microns. Infrared in this band helps promote photosynthesis and growth of plants.
Physiotherapy use
When used to relieve muscle pain and joint discomfort, choose a Quartz Infrared Carbon Heating Lamp that can emit infrared at a specific wavelength. The infrared wavelength suitable for human body therapy is mainly concentrated in 3-10 microns. Infrared in this wavelength range can better penetrate human skin, reach muscle and joint tissues, and produce a thermal effect.
