OHM (Chongqing) Electronics Technology Co., Ltd.

Established in August 2013, OHM stands as a pioneering high-tech enterprise dedicated to the realm of industrial wireless remote control systems. Our company seamlessly integrates cutting-edge Research & Development, sophisticated production, strategic sales, and comprehensive after-sales support. With a state-of-the-art production and manufacturing hub nestled in Chongqing, and a dynamic sales headquarters coupled with a customer-centric after-sales service center in Shanghai, OHM delivers exceptional consulting, robust support, and unparalleled after-sales service, setting the benchmark in industrial wireless remote control technology.
OHM shines as a trailblazer within the industrial wireless remote control sector, passionately embracing our corporate philosophy of 'creating brilliance, only quality'. Our unwavering mission is to consistently deliver safe and dependable industrial wireless remote control products. We are devoted to engineering solutions that are secure, trustworthy, durable, and of premium quality. Our products aim to minimize labor for users while boosting efficiency, offering operators a seamless and safe operational experience across various industries, including construction, forestry, mining, and beyond.
OHM envisions establishing itself as the most influential leader both domestically and globally in the realm of industrial wireless remote control technology. Our ambition is to become the foremost brand representing national excellence in this cutting-edge industry.

Industrial Remote Control: Unveiling Its Remarkable Benefits

Remote controls have seamlessly integrated into our daily lives, with almost every household equipped with a multitude of them. However, industrial remote controls, which differ significantly from civilian ones, remain less understood by the general public.

An industrial remote control is an innovative gadget leveraging radio transmission to execute remote operations on industrial machinery. Comprised of a portable or belt-worn transmitter and a fixed receiver on the equipment, it enables seamless communication. Operators input commands through a transmitter's control panel, which are then digitized, encoded, and encrypted before being wirelessly transferred to the receiver. Upon receiving, the system decodes and translates these signals into actionable control commands, facilitating precise management of diverse mechanical equipment.

Industrial remote controls necessitate superior technical parameters compared to civilian versions, including enhanced accuracy, sensitivity, signal continuity, and resilience against interference. They must endure extensive remote control ranges, and resist environmental challenges such as waterproofing, dustproofing, extreme temperatures, and chemical resistance. These robust features are why civilian remotes simply cannot substitute for industrial ones, which are engineered to thrive in rugged conditions.

Widely embraced across sectors reliant on cranes—such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering—industrial remote controls empower operators with remote capabilities. With a commanding range extending from 100 meters to several kilometers, they remain operational despite obstacles. Operators enjoy the freedom to carry a lightweight transmitter, maneuvering freely to secure a safe vantage point for operations. This advancement eliminates previous risks linked to limited visibility, tethered control, challenging environments, or poor coordination, thus bolstering safety and turbocharging production efficiency.

Illuminating the UNPARALLELED BENEFITS of Industrial Remote Controls
★ Significantly reduce manufacturing and maintenance expenses: The shift from traditional cabs to advanced remote control systems is a reality and a standard in production processes today.
★ Elevate safety and reliability: By omitting the command chain, errors due to miscommunication are minimized. Operators gain intuitive views of lifted items, mitigating risks in cab operations during adverse weather and errors in high-altitude activities, preventing unwanted mishaps.
★ Enhance operating environments: Operators can select secure positions, avoiding areas with poor visibility or high pollution levels, and safeguarding themselves from exposure to harmful gases.
★ Optimize human resource allocation: Consider the bridge crane scenario, where one individual can manage operation, mooring, hoisting, and unloading independently, eliminating the need for guidance.
★ Boost work efficiency: Operators make autonomous decisions, achieving unprecedented levels of operational precision and consistency. Freed from cab confines and cumbersome lines, they avoid discomfort from extreme temperatures, resulting in boosted morale and heightened operational efficiency.

As industrial remote controls find broader use across various industries, their formidable advantages continue to shine ever more brightly.