OHM (Chongqing) Electronics Technology Co., Ltd.

Established in August 2013, OHM has emerged as a pioneering high-tech enterprise dedicated to the innovation of industrial wireless remote control equipment. Our expertise spans comprehensive R&D, efficient production, robust sales, and exceptional after-sales service. Strategically positioned, our manufacturing hub in Chongqing is complemented by our sales headquarters and after-sales service center in the bustling city of Shanghai, ensuring seamless consultation, unparalleled support, and exemplary service in the realm of industrial wireless remote control technology.
Positioned at the forefront of the industrial wireless remote control industry, OHM is steadfast in its commitment to excellence, encapsulated in our guiding corporate principle: 'Creating brilliance, only quality'. Our mission focuses on the consistent delivery of safe and reliable industrial wireless remote control solutions. We are devoted to developing equipment that is not only safe and dependable but also enduring and of superior quality, aimed at reducing labor demands, boosting efficiency, and enhancing operational safety across various sectors including industry, construction, forestry, and mining.
OHM aspires to craft the most impactful industrial wireless remote control products both domestically and globally, positioning ourselves as the nation's premier brand in the remote control industry, leading the charge in the evolution of industrial wireless technology.

Industrial Remote Control and Its Remarkable Benefits

While remote controls are omnipresent in our daily lives, found in every household across the globe, industrial remote controls, on the other hand, remain less familiar to the general public. Unlike their civilian counterparts, these devices serve a crucial role in industrial applications.

Industrial remote controls are sophisticated devices designed for seamless remote operation of industrial machinery via radio transmission. They comprise a portable transmitter, either handheld or waist-mounted, and a receiving unit affixed to the equipment. Operators input commands through the transmitter's control panel, which are then digitized, encoded, and securely transmitted to a remote receiving system. This system decodes and converts the signals back into control commands, enabling precise manipulation of a variety of mechanical equipment.

Industrial remote controls are engineered with superior specifications compared to civilian models, offering unparalleled accuracy, sensitivity, uninterrupted signal transmission, resistance to interference, extended operational range, and robust durability against water, dust, extreme temperatures, and corrosive substances. These enhanced technical capabilities empower them to operate reliably in harsh environments, a feat civilian remote controls cannot achieve.

Widely adopted across industries reliant on cranes, like metallurgy, shipbuilding, container terminals, warehousing, machinery production, chemicals, papermaking, construction, and engineering, industrial remote controls facilitate remote operations with ease. Their effective control extends to any position within a 100-meter radius, or even farther, uninhibited by physical barriers. Operators merely need to carry a lightweight transmitter, enabling them to navigate freely and select a vantage point that ensures safe visibility, thus mitigating risks associated with poor vision, cumbersome wired controls, adverse conditions, or improper coordination. This advancement not only secures operations but also significantly enhances productivity.

What are the ADVANTAGES of industrial remote controls?
★ Minimize production and upkeep expenses: The transition from traditional cabs to remote control systems is now a well-established, standard practice in the industry.
★ Enhance safety and dependability: By eliminating command links, potential miscommunications are avoided; operators gain an unobstructed, direct view of hoisted items, enhancing safety. This mitigates risks associated with traditional tower crane operations, such as adverse weather conditions and miscommunication during high-altitude tasks.
★ Elevate work conditions: Operators can choose optimal angles for operation, steering clear of locations with compromised visibility and pollution, thereby protecting themselves from hazardous gases.
★ Optimize manpower: For instance, with a bridge crane, tasks such as maneuvering, mooring, and unloading can be efficiently managed by a single operator, eliminating the need for additional command personnel.
★ Boost productivity: Empowered to make autonomous decisions, operators benefit from enhanced precision and consistency in operations. Freed from the constraints of upper and lower cabs and restrictive lines, they avoid discomfort and inefficiencies associated with high cabin temperatures, resulting in higher morale and improved performance.

As industrial remote controls become increasingly integrated into various sectors, their exceptional advantages continue to shine, revolutionizing both safety and efficiency in industrial operations.