Customization: | Available |
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Application: | Industrial Machinery, Special Equipment, Remote Control |
Battery Type: | 3 AA Battery or AA NiMH Batteries |
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Audited by an independent third-party inspection agency
Modular battery design makes replacement easier, and a single battery can last for 40 hours |
Double-color injection molding, super strong shock and drop resistance, 2-meter drop |
Emergency stop switch and push button switch are assembled with automated equipment, with better consistency |
Stronger protection performance: IP65, suitable for underground or outdoor operation |
High-speed CPU, response time ≤20ms
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The service life of keys can reach one million times
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Operating elements | ≤8 dual-speed buttons; 1 emergency stop switch |
Standard functions | Smart key; automatic shutdown; power-on access code |
Optional functions | ID card; 1 to N function; N to 1 function; N to N function (N≤8) |
Remote controls are ubiquitous in our daily lives, with every home housing a variety of them. However, industrial remote controls remain a lesser-known yet vital component in the realm of industry.
An industrial remote control is a sophisticated device utilizing radio transmission to execute remote operations on industrial machinery. This system comprises a handheld or waist-mounted transmitter and a fixed receiver on the equipment. The operator inputs commands through the transmitter's panel, which are then digitized, encoded, and encrypted before being wirelessly transmitted to a remote receiving system that decodes and converts them back into control commands, thereby enabling efficient machinery operation.
Industrial remote controls demand superior accuracy, sensitivity, signal consistency, interference resistance, extended control range, and robustness against harsh conditions, including waterproof and dustproof features, temperature extremes, and chemical resistance. These qualities render industrial remote controls indispensable in environments where civilian remote controls fall short.
Industrial remote controls are predominantly utilized in sectors reliant on cranes, such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery. These controls facilitate remote operations over distances of 100 meters or more, transcending obstacles. Operators, equipped with lightweight transmitters, can maneuver freely and select secure vantage points for operation, mitigating risks associated with poor visibility, environmental hazards, miscommunication, and boosting both safety and productivity.
What are the UNMATCHED ADVANTAGES of industrial remote controls?
★ Slash Manufacturing and Maintenance Expenses: The integration of remote control systems in place of traditional cabs is now a standard, streamlining production processes.
★ Amplify Safety and Reliability: Eliminate command link errors that lead to miscommunications. Operators gain clearer visibility of hoisted items and avoid the dangers faced by cab operators during adverse weather conditions and high-altitude operations, thus reducing unnecessary accidents.
★ Enhance Operating Conditions: Operators can select safe vantage points, steering clear of areas with poor visibility or high pollution, thereby protecting themselves from exposure to harmful gases.
★ Optimize Human Resource Utilization: In bridge crane operations, a single operator can manage tasks such as moving, mooring, hoisting, and unloading, all without needing additional direction.
★ Boost Efficiency: Operators make rapid, independent decisions, enhancing operational precision and continuity. Freed from the confines of cabs and their lines, operators avoid discomfort due to heat, leading to improved morale and work output.
As industrial remote controls become increasingly integral across industries, their compelling benefits continue to shine.