Reflector for high bay fitting HBPHS LENS 200W120D 38129
Suggested products
TECHNICAL DATA
Sales unit dimensions and weight: 1 pcs
Reflector for high bay fitting HBPHS LENS 200W120D 38129
High bay luminaire lens – precise light control
This lens, dedicated to high bay luminaires from the HBPHS series, allows you to shape the light characteristics. This is particularly important in industrial spaces, warehouses and production halls, where appropriate lighting affects work efficiency and safety. The HBPHS LENS 200W120D lens is designed for luminaires with a power of 200W and offers a light beam angle of 120 degrees.
Design and application
The lens is made of high-quality materials, which ensures its durability and resistance to mechanical damage. Its main task is to modify the light distribution emitted by the luminaire, concentrating it in a specific area or dispersing it more evenly. The 120-degree angle makes this lens ideal for illuminating larger surfaces where a wider light stream is needed. Installing the lens is simple and intuitive – just fit it to a compatible HBPHS high bay luminaire.
Advantages and benefits
- Lighting optimization: The lens allows you to adapt the light characteristics to the specific needs of a given room.
- Improved work comfort: Properly diffused light reduces eye strain and increases work comfort.
- Durability and reliability: Made of durable materials, the lens ensures long-lasting and trouble-free operation.
- Easy installation: Quick and easy installation allows you to minimize downtime during installation or replacement.
- Compatibility: Designed for HBPHS 200W high bay luminaires, which guarantees a perfect fit and optimal performance.
It is also worth mentioning the dimensions of the lens: height 112 mm and diameter 299 mm – this data will help in selecting the correct accessory for a specific installation. Thanks to this lens, you can precisely tune the lighting in a production hall, warehouse or other industrial facility, improving working conditions and increasing the energy efficiency of the entire installation.

