The Rockwell A-B 836T-D460JX20 Electro-Mechanical Pressure Control Switch is designed for precise pressure regulation in industrial environments. Ideal for use in systems requiring high reliability and accuracy.
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The Rockwell A-B 836T-D460JX20 Electro-Mechanical Pressure Control Switch is designed for precise pressure regulation in industrial environments. Ideal for use in systems requiring high reliability and accuracy.
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Manufacturer:Allen-Bradley
Model Number:836T-D460JX20
Type:Electro-Mechanical Pressure Control Switch
Operating Pressure Range:Up to 1000 PSI
Material:Stainless Steel
Mounting:Panel Mount
Contacts Configuration:SPST
Operating Temperature:-40°C to +100°C
Certifications:CE, UL, CSA
The Allen Bradley 836T-D460JX20 Electro-Mechanical Pressure Control Switch is meticulously engineered for industrial environments where precision and reliability are paramount. Constructed from high-quality stainless steel, this switch can withstand harsh conditions and deliver consistent performance over time.
Designed with a robust NPT 1/4″ connection, the switch ensures secure and leak-proof integration into existing systems, making installation straightforward without the need for additional hardware.
The pressure range of up to 460 PSI makes it suitable for a wide array of applications, including but not limited to hydraulic systems, air compressors, and water treatment plants. Its accuracy of +/- 1% full scale guarantees precise readings that are critical for maintaining operational efficiency.
This electro-mechanical switch is equipped with CE and RoHS certifications, affirming its compliance with stringent European safety and environmental standards. It is designed to operate reliably within a broad temperature range from -40°C to +85°C, ensuring consistent performance even in extreme conditions.
Installation and maintenance of the Allen Bradley 836T-D460JX20 are user-friendly, allowing for quick setup and minimal downtime. Its compact dimensions of 3.2″ x 2.5″ x 1.8″ make it easy to integrate into tight spaces, offering flexibility in system design.
