In the demanding environments of mining, construction, and heavy industry, equipment reliability is paramount. This robust industrial control component is designed to meet those rigorous standards. Engineered with a non-illuminated design, it ensures simplicity and durability in high-stress applications.
One of its standout features is the IP66 degree of protection, which offers exceptional resistance against dust ingress and powerful water jets. This makes it ideal for harsh outdoor conditions frequently encountered in industrial settings. The product's adherence to multiple international standards such as EN IEC 60947-5-1, EN IEC 60947-5-5, EN IEC 60073, EN IEC 60529, UL 508, and CSA C22.2 No. 14 underscores its global compliance and reliability.
This product operates effectively within a broad ambient temperature range from -30 to 70 degrees Celsius, making it suitable for diverse climates across Australia and beyond. Its screw connection type facilitates secure installation while ensuring ease of maintenance—a critical feature when uptime is crucial.
The rated insulation voltage stands at an impressive 690 V with a rated impulse withstand voltage of 4 kV. These specifications highlight its capability to handle significant electrical loads safely—essential for maintaining operational integrity in electrically intensive environments.
Featuring a contact configuration of two normally closed (2NC) contacts and an extended actuator type with a maintained function ensures consistent performance without repeated manual intervention—ideal for processes requiring steady-state operation.
With a diameter cutout size of 22 mm complemented by a metal bezel material, this device fits seamlessly into standard panels while offering enhanced durability against mechanical impacts. Its black button color provides easy visibility against most panel backgrounds without being visually intrusive.
Rated for a thermal current up to 10 A, this product caters well to moderate power applications typical in heavy industries where energy efficiency must balance with operational demands.
Overall, this component embodies resilience through meticulous engineering tailored specifically for demanding industrial contexts where dependability cannot be compromised.