Remote predictive maintenance using retrofitted vibration sensors: "Add-on Vibration Sensing"
Explosion-proof area Zone 1 compatible products! No need for power or network installation, ready for immediate use.
"Add-on Vibration Sensing" is a product designed for remote predictive maintenance using an aftermarket vibration sensor that can accommodate all volatile gases. It is compatible with IIC T6, allowing for the detection of gases such as hydrogen and acetylene. It is suitable for older equipment where sensor installation has not progressed, as well as auxiliary equipment in explosion-proof areas. Installation does not require power or network construction, allowing for immediate use. Remote failure monitoring of equipment can be conducted from a PC in the management room. 【Features】 ■ Products compatible with explosion-proof area Zone 1 ■ Capable of accommodating all volatile gases ■ Compatible with IIC T6, allowing for the detection of gases such as hydrogen and acetylene ■ Well-suited for older equipment where sensor installation has not progressed and auxiliary equipment in explosion-proof areas ■ Immediate use possible with installation that does not require power or network construction *For more details, please refer to the PDF document or feel free to contact us.
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【Other Features】 - No need for battery replacement due to self-generating power - Easy installation and suitable for simple inspections - Remote fault monitoring of equipment can be done from PCs in the management room *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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InQs Corporation has developed a material that can generate electricity even from invisible light using high-purity SiO2. Unlike conventional silicon solar cells, which are limited to specific locations, this technology absorbs a wide range of light and generates electricity, allowing for the installation of colorless and transparent photovoltaic elements on windows, exterior walls, and other surfaces of buildings and vehicles. Additionally, we have created ultra-low illumination photovoltaic elements that can generate electricity efficiently in indoor environments. We will continue to discover new functionalities from familiar materials and engage in the development and design of distinctive products that leverage these characteristics.