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B16FK Description:
Ergonomic Design: Crafted to provide maximum comfort for extended use.
Innovative Push-Button Technology: Features patented technology for a comfortable feel and clear, precise steps.
Push Button Durability: Engineered for an impressive lifecycle of over 2,000,000 actuations.
High-Speed CPU Performance: Ensures a rapid response time of ≤20ms.
Robust Secondary Packing: Utilizes advanced adhesive technology to resist shattering and impacts.
Automatic Shutdown: Activates upon impact with a three-level safety guarantee.
Smart Key Feature: Allows seamless replacement of spare systems.
Convenient Transmitter Holder: Designed for easy and efficient management.

ABOUT US
OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. is a cutting-edge enterprise specializing in industrial wireless remote control systems. We excel in R&D, production, sales, and after-sales services. Our manufacturing base is strategically located in Chongqing, complemented by our sales headquarters and after-sales service center in Shanghai. We are dedicated to providing exceptional consulting, support, and after-sales service for industrial wireless remote control technologies.
As a trailblazer in the industrial wireless remote control sector, OHM upholds 'creating brilliance, only quality' as our corporate principle. Our mission is to 'consistently deliver safe and reliable industrial wireless remote control products.' We are driven to develop equipment that is safe, reliable, durable, and of the highest quality. By reducing labor, boosting efficiency, and ensuring a safer operating environment, we serve various industries including construction, forestry, mining, and more.
OHM is steadfast in its commitment to becoming the most influential name in the domestic and global industrial wireless remote control markets, aspiring to be the national frontrunner.

Industrial Remote Control and Its Advantages

Remote controls are ubiquitous in everyday life. However, industrial remote controls, unlike their civilian counterparts, are less known.

Industrial remote controls use radio transmission to manage and control industrial machinery remotely. These devices consist of a handheld or waist-hung transmitter and a receiver affixed to the machinery. Operators input commands via the transmitter's panel, which are then digitized, encoded, encrypted, and wirelessly transmitted to the receiving system. The receiving system decodes and converts these commands to control various mechanical equipment.

Industrial remote controls demand higher standards in accuracy, sensitivity, signal continuity, anti-interference, range, and durability, including waterproof and dustproof capabilities, and resistance to extreme temperatures, acids, and alkalis. These rigorous technical parameters enable industrial remote controls to operate in harsh environments, making them indispensable compared to civilian remote controls.

Primarily utilized in industries such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering, industrial remote controls enable remote operations of cranes and other machinery. Their effective control radius can extend from 100 meters to several kilometers, unobstructed by physical barriers. This mobility allows operators to choose safe vantage points, reducing risks associated with poor visibility, restricted wired controls, harsh environments, or communication errors, thereby enhancing both safety and productivity.

What are the ADVANTAGES of Industrial Remote Controls?
★ Significantly Reduce Manufacturing and Maintenance Costs: Transitioning from traditional cabs to advanced remote control systems is no longer a futuristic concept but a standardized production process that slashes overheads.
★ Enhance Safety and Reliability: By removing the command link, we eliminate misunderstandings from improper commands. Operators can now work from optimal vantage points, gaining a clearer view of hoisted items. This approach minimizes the risks posed by adverse weather conditions and poor communication during high-altitude operations, ensuring safer and more reliable crane maneuvers.
★ Optimize the Operating Environment: Operators can now select safe angles for operation, avoiding areas plagued by poor visibility or heavy pollution. This precautionary measure protects operators from harmful gases, providing a healthier and more efficient work environment.
★ Drastically Save Human Resources: For example, with a bridge crane, a single operator can manage the entire process—operation, mooring, hoisting, and unloading—independently, eliminating the need for additional command personnel.
★ Boost Work Efficiency: By empowering operators to make autonomous decisions, operations become significantly more precise and continuous. Freed from the constraints of upper and lower cabs and tangled operating lines, operators avoid discomfort from high temperatures, leading to higher morale and markedly improved productivity.

With the extensive application of industrial remote controls across various sectors, their benefits and superior performance have become increasingly evident.