OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. stands as a pioneering high-tech enterprise dedicated to the realm of industrial wireless remote control equipment. Seamlessly integrating cutting-edge R&D, meticulous production, strategic sales, and unparalleled after-sales support, OHM has crafted a legacy of excellence. Our state-of-the-art production and manufacturing hub in Chongqing, complemented by our dynamic sales headquarters and comprehensive after-sales service center in Shanghai, ensures that clients receive exemplary consulting, robust support, and impeccable service in all aspects of industrial wireless remote control technology.
As a vanguard in the industrial wireless remote control domain, OHM embraces the corporate principle of 'creating brilliance, only quality,' while steadfastly upholding its mission of delivering 'safe and reliable industrial wireless remote control products.' We are unwaveringly committed to engineering safe, reliable, and high-caliber remote control solutions that excel in durability and quality. Our focus is on reducing labor demands, elevating operational efficiency, and establishing a safer, more convenient working environment for operators across diverse sectors, including industry, construction, forestry, and mining.
OHM is passionately driven to forge products that redefine the landscape of industrial wireless remote control, both domestically and globally. Our ambition is to emerge as the nation's premier brand, setting benchmarks and pioneering innovations that lead the market.

Industrial Remote Control: Elevating Efficiency and Safety

Remote controls are ubiquitous in everyday life, with every household boasting a variety of them. However, unlike the familiar civilian remote controls, industrial remote controls are less known and possess unique features tailored for industrial applications.

An industrial remote control is a sophisticated device utilizing radio transmission to command industrial machinery from a distance. It comprises a transmitter, either handheld or waist-hung, and a receiver affixed to the equipment. Operators input commands via the transmitter's operation panel, which are then digitized, encoded, and wirelessly transmitted to a remote receiver. The receiver decodes and converts these signals back into control commands, enabling seamless manipulation of diverse mechanical equipment.

Industrial remote controls demand superior technical specifications compared to civilian models. They boast enhanced accuracy, sensitivity, continuous signaling, anti-interference capabilities, extensive remote operational range, and resilience against water, dust, extreme temperatures, acids, and alkalis. These robust specifications allow them to thrive in challenging environments where civilian remotes fall short.

Widely employed in crane-utilizing industries like metallurgy, shipbuilding, and container terminals, as well as in warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering, industrial remote controls facilitate remote operations. They offer an impressive control range extending to any position within a radius of 100 meters or even thousands, unaffected by obstacles. Operators can carry a lightweight transmitter, move freely, and select a safe vantage point to operate, eliminating risks associated with poor visibility, confined control lines, harsh environments, or miscommunication. This ensures not only safe operations but also significantly boosts production efficiency.

What are the Distinctive Advantages of Industrial Remote Controls?
★ Slash Manufacturing and Maintenance Costs: Remote control systems have replaced traditional cabs, becoming a standard in the production process, leading to cost reductions.
★ Enhance Safety and Reliability: By eliminating the command link, misinterpretations due to improper command are minimized. Operators can intuitively monitor hoisted items from a command perspective, avoiding risks posed by inclement weather and miscommunication during high-altitude operations.
★ Optimize Operating Environments: Operators can select secure angles, steering clear of positions plagued by poor visibility and severe pollution, safeguarding against exposure to harmful gases.
★ Conserve Human Resources: For instance, with bridge cranes, a single operator can manage operation, mooring, lifting, and unloading independently, negating the need for additional command personnel.
★ Boost Work Efficiency: Operators make autonomous decisions, enhancing operational precision and continuity. Freed from the constraints of cabs and operating lines, they avoid discomfort from high cabin temperatures, which can lead to reduced efficiency. Thus, morale and efficiency are significantly improved.

As industrial remote controls continue to find widespread use across diverse sectors, their transformative advantages become increasingly apparent.