BIORELAX® Wristband
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Adjustable for different wrist sizes
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Breathable, sweat-absorbing & odor-resistant
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Suitable for sports as well as everyday use
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Can be worn on the wrist or ankle
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Klein’sche Fields pad not included
Product Highlights
Made in Germany
Easy to clean
Natural mode of action
Robust and durable
Without power supply
Our products come from certified medical device manufacturers and also comply with the Oeko-Tex Standard, which confirms their safety and high quality standards.
Pairs well with
In stock! Shipping in 1-2 business days.
Free shipping within Germany
BIORELAX® Wristband
Product Details
Material and Dimensions
- Weight: 0.01 kg
- Size: 24 x 5.5 cm (for small to medium wrists), 27 x 5.5 cm (for medium wrists or small ankles), 30 x 5.5 cm (for wrists or ankles)
- Material: 73% polyamide and 27% Lycra
Use
The BIORELAX® wristband is primarily designed for use in combination with the Klein’sche Fields pad, which can be easily inserted into the wristband. This allows the pad to be worn comfortably around the wrist or ankle during everyday activities and sports.
The BIORELAX® bracelet can be worn alone as a functional sweatband without Klein’sche Fields during sports or in everyday life.
Attention : The BIORELAX® Klein’sche Fields pad is not included in the scope of delivery.
Quality
Handmade in Germany by a certified medical device manufacturer.
Care
- For hygienic care, the bracelet can be washed at 30°C on a gentle cycle.
- Allow to air dry. Do not dry the bracelet in a dryer, on a radiator, or with other direct heat sources. This can lead to undesirable material changes.
- Contact with acids or solvents must be avoided.
- If you notice any changes to the material that are not due to normal wear and tear, contact the manufacturer.
Klein’sche Fields
Klein'sche Fields are an innovative magnetic field technology that does not require a power supply and is based on the principles of nature.
Klein'sche Fields are based on a special arrangement of several permanent magnets. The north and south poles alternate at short intervals and in different directions. This structure creates a multi-layered, spatially differentiated magnetic field with many field variations rather than a homogeneous one. This magnetic structure is integrated across the entire surface of the material and operates completely without electricity. The resulting static magnetic field can be detected using appropriate physical measurement methods.
