OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. has swiftly emerged as a beacon of innovation and excellence in the realm of industrial wireless remote control equipment. As a distinguished high-tech enterprise, OHM seamlessly integrates robust Research & Development, meticulous production, strategic sales, and comprehensive after-sales services. Our state-of-the-art production and manufacturing base, located in Chongqing, is complemented by our strategic sales headquarters and a dedicated after-sales service center in Shanghai. This dual-location strategy ensures that we deliver unparalleled consulting, steadfast support, and flawless after-sales service for all your industrial wireless remote control technology needs.
Positioned at the forefront of the industrial wireless remote control sector, OHM proudly upholds the corporate principle of "creating brilliance, only quality." Our mission is a testament to our unwavering dedication to safety and reliability. We are fervently committed to engineering industrial wireless remote control equipment that is synonymous with safety, reliability, durability, and quality. Our innovative solutions are designed to significantly reduce labor, enhance operational efficiency, and ensure a secure and convenient environment for operators across diverse sectors including industry, construction, forestry, and mining.
OHM is resolute in its quest to craft the most influential and globally recognized industrial wireless remote control products. Our vision is to stand as a symbol of national pride, representing the foremost brand in the domestic and international remote control landscape.

Industrial Remote Control: Unveiling Its Advantages

Remote controls are ubiquitous in everyday life, with each household possessing various types. However, industrial remote controls are less familiar to the general public compared to their civilian counterparts.

An industrial remote control is a sophisticated device leveraging radio waves for the remote operation of industrial machinery. It consists of a handheld or waist-mounted transmitter paired with a receiver affixed to the equipment. Operators relay commands into the transmitter via its panel, where these commands undergo digitization, encoding, and encryption before being wirelessly transmitted to a remote receiver system. The receiver then deciphers and converts these signals back into actionable control commands, enabling precise management of diverse machinery.

Industrial remote controls necessitate advanced technical specifications such as heightened accuracy, sensitivity, signal stability, interference resistance, extensive remote distances, and rugged construction resistant to water, dust, extreme temperatures, and corrosive substances. These features empower them to thrive in challenging environments, underscoring why civilian remote controls fall short in industrial scenarios.

In sectors like metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery, industrial remote controls enable swift, remote operations. With an impressive effective range from 100 meters to several kilometers, these controls remain unaffected by obstacles. Operators carry lightweight transmitters, maneuver freely, and choose secure vantage points, eliminating prior safety risks tied to poor visibility, constrained control lines, harsh environments, or miscommunication. Not only do they bolster operational safety, but they also significantly elevate production efficiency.

What are the KEY BENEFITS of industrial remote controls?
★ Slash production and maintenance costs: Transitioning from traditional cabs to remote systems is now standard, optimizing production processes.
★ Enhance safety and trustworthiness: By bypassing command chains, remote controls avert miscommunication. Operators gain a clearer view of hoisted items, minimizing risks tied to cab operations during adverse weather and poor communication during high-altitude tasks.
★ Better the working environment: Operators can select secure angles, steering clear of poorly visible and polluted zones, thus avoiding harm from toxic gases.
★ Optimize human resources: For example, operating, mooring, lifting, and unloading tasks on a bridge crane can be efficiently managed solo, negating the need for external commands.
★ Boost operational efficiency: Operators make autonomous decisions, significantly enhancing precision and continuity. By eliminating cab and line constraints, issues like overheating and discomfort that impede operator performance are resolved, uplifting morale and efficiency.

As industrial remote controls permeate various sectors, their benefits become ever more pronounced.