This robust, non-illuminated pushbutton is designed to meet the rigorous demands of mining, construction, and heavy industry applications. With a flush actuator type and a standard diameter of 22 mm, this button offers a streamlined profile that seamlessly integrates into various control panels.
Built for durability, it features an IP66 degree of protection, ensuring reliable performance in environments exposed to dust and powerful jets of water. The metal bezel material further enhances its resilience against harsh conditions.
The device adheres to multiple international standards and approvals including EN IEC 60947-5-1, EN IEC 60947-5-5, EN IEC 60073, EN IEC 60529 as well as UL 508 and CSA C22.2 No. 14 certifications. This compliance assures users of its quality and safety across different regions.
Designed with versatility in mind, the contact configuration includes both normally open (NO) and normally closed (NC) contacts (1NO+1NC), providing flexibility for diverse application requirements. It operates effectively within an ambient temperature range from -30 to 70 degrees Celsius.
For electrical specifications, the pushbutton boasts a rated insulation voltage of up to 690 V along with a rated impulse withstand voltage of 4 kV—making it suitable for high-demand industrial settings. Additionally, it supports a rated thermal current of up to 10 A.
Installation is straightforward due to its Faston connection type which facilitates quick setup without compromising on connection integrity. The cutout size aligns perfectly at 22 mm matching the actuator diameter for easy panel integration.
Available in blue color, this momentary function button offers clear visual differentiation aiding operational efficiency where multiple buttons are deployed together.
With these comprehensive technical specifications tailored for heavy-duty use cases, this pushbutton stands out as an optimal choice for professionals seeking reliable components capable of enduring challenging industrial environments while maintaining peak performance levels under pressure.