Efficient steam generation:
CRSI uses advanced steam generation technology and is usually equipped with a powerful heating element, such as a high-power heating plate or heating element. These elements use conductive or resistive heating to rapidly convert water into high-temperature, high-pressure steam. Efficient steam generation ensures users get enough steam output in a short time to remove wrinkles from clothes quickly and easily.
Even steam distribution:
CRSI focuses on even distribution of steam across the entire iron soleplate to ensure every inch of clothing is evenly covered with steam. This is often accomplished by designing unique steam outlet layouts, channel designs, and high-precision engineering. Evenly distributed steam ensures that users can achieve consistent ironing results without localized uneven drying and wetness.
Adjustable steam volume:
CRSI is usually equipped with the function of adjusting the steam volume to meet the needs of different types of clothing. This function uses an intelligent control system to automatically adjust the steam output according to the user's selection and the type of fabric being ironed. This not only makes CRSI more adaptable to a variety of ironing scenarios, but also helps save energy and reduce unnecessary steam waste.
Vertical steam function:
In addition to horizontal steam, CRSI usually also has a vertical steam function, allowing users to conveniently steam iron hanging clothes, curtains, etc. This technology adjusts the direction and intensity of steam injection to ensure that items on vertical surfaces are evenly covered by steam, providing a more comprehensive ironing service.
To prevent water droplets from dripping onto clothing, CRSI usually has a drip-proof design. This design ensures that no water droplets will form at low temperatures by optimizing the steam channels and outlets, preventing water stains from causing damage to clothing. The implementation of this technology involves precise temperature control and intelligent steam output regulation.