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B16FK Product Description:
Ergonomically designed for optimal user comfort.
Patented push-button technology offers a comfortable feel with clearly defined steps.
Push buttons with an impressive life cycle of over 2,000,000 operations.
Equipped with a high-speed CPU, ensuring response times of ≤20ms.
Utilizes secondary packing adhesive technology for enhanced shatter and drop resistance.
Features automatic shutdown upon impact and triple-level safety mechanisms.
Smart key functionality for seamless spare system replacement.
Comes with a specialized holder for easy transmitter management.
ABOUT US
OHM (Chongqing) Electronics Technology Co., Ltd.
Founded in August 2013, OHM is a pioneering high-tech enterprise specializing in industrial wireless remote control equipment. We integrate Research & Development, production, sales, and after-sales services. Our manufacturing base is located in Chongqing, with sales headquarters and an after-sales service center in Shanghai. We are dedicated to providing comprehensive consulting, support, and after-sales services for industrial wireless remote control technology.
As a leader in the industrial wireless remote control sector, OHM upholds the corporate principle of 'creating brilliance, only quality.' Our mission is to deliver safe, reliable, and durable industrial wireless remote control products. We strive to reduce user labor, enhance efficiency, and ensure a safer and more convenient operating environment across industries such as construction, forestry, mining, and more.
OHM is committed to establishing itself as the most influential brand in both the domestic and global markets for industrial wireless remote control products.
Industrial Remote Control and Its Benefits
Remote controls are ubiquitous in household settings, but industrial remote controls, which differ significantly from their civilian counterparts, are less well-known.
An industrial remote control system uses radio transmission to manage the remote operation of machinery. It consists of a portable transmitter (handheld or waist-worn) and a fixed receiving device. The operator inputs commands via the transmitter's control panel. These commands are then digitized, encoded, and encrypted before being wirelessly transmitted to the receiver, which decodes and converts them back into control instructions for the machinery.
Industrial remote controls exhibit higher requirements for accuracy, sensitivity, signal continuity, anti-interference capabilities, operational range, and resistance to environmental factors such as water, dust, extreme temperatures, acids, and alkalis compared to civilian remote controls. These technical advantages enable them to perform reliably in harsh environments, which is why civilian remote controls cannot replace their industrial counterparts.
Primarily used in crane operations within industries like metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering, industrial remote controls facilitate remote operations with an effective range of up to thousands of meters. They provide operators with the freedom to move around safely, choosing optimal visual positions while avoiding the limitations and hazards associated with traditional control methods. This not only ensures operational safety but also significantly boosts production efficiency.
What are the ADVANTAGES of Industrial Remote Controls?
★ Substantially Slash Manufacturing and Maintenance Costs: The integration of remote control systems in replacing traditional cabs has now become a standard in production processes, leading to significant cost reductions.
★ Enhance Safety and Reliability: By eliminating the command link, we can prevent misunderstandings caused by improper commands. This allows operators to have a clearer view of hoisted items from optimal angles, thereby avoiding the dangers associated with operating a tower crane from a cab during inclement weather and minimizing miscommunication during high-altitude tasks.
★ Upgrade the Operating Environment: Operators can now select safe vantage points, steering clear of positions with poor visibility and heavy pollution, thus safeguarding themselves from the harmful effects of toxic gases.
★ Optimize Human Resources: For instance, when operating a bridge crane, one individual can undertake the tasks of operation, mooring, hanging, and unloading without the need for additional command, streamlining the workforce.
★ Boost Work Efficiency: Operators can make autonomous decisions, greatly improving the accuracy and continuity of operations. Freed from the constraints of cabs and operational lines, they are no longer subject to the physical discomfort caused by high temperatures or low efficiency, which dramatically enhances their morale and overall work efficiency.
As industrial remote controls gain widespread application across various sectors, their numerous advantages are becoming increasingly evident.