OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM stands as a beacon of high-tech innovation, specializing in industrial wireless remote control solutions. Seamlessly integrating research and development, production, sales, and exceptional after-sales service, OHM has established a state-of-the-art manufacturing base in Chongqing. Complementing this, our sales headquarters and after-sales service center in Shanghai are dedicated to delivering unparalleled consulting, steadfast support, and comprehensive after-sales service, ensuring excellence in industrial wireless remote control technology.
As a pioneering leader in the industrial wireless remote control sector, OHM adheres to the guiding principle of 'creating brilliance, only quality.' Our corporate mission, 'always providing safe and reliable industrial wireless remote control products,' fuels our commitment to developing cutting-edge equipment that is safe, reliable, durable, and of superior quality. Whether in industry, construction, forestry, or mining, we aim to minimize labor, boost efficiency, and offer operators a more convenient and secure operating environment.
OHM is steadfast in its mission to craft the most influential industrial wireless remote control products both domestically and globally. We proudly represent the nation's premier brand in the realm of remote control technology.

Exploring the Industrial Remote Control and Its Unmatched Benefits

Remote controls are ubiquitous in everyday life, found in virtually every household. While we are familiar with civilian remote controls, industrial remote controls remain less understood.

Industrial remote controls are innovative devices utilizing radio transmission to enable remote operation or control of industrial machinery. These systems consist of a handheld or belt-mounted transmitter paired with a receiver permanently installed on the machinery. Operators input commands via the transmitter's interface, which are then digitized, encoded, encrypted, and wirelessly sent to a remote receiving system. Upon reception, the system decodes and converts these signals back into control instructions, allowing seamless operation of various types of industrial equipment.

Industrial remote controls demand superior technical specifications compared to civilian counterparts, including heightened accuracy, sensitivity, signal continuity, anti-interference capabilities, extended range, and robust resistance to water, dust, extreme temperatures, as well as acidic and alkaline environments. These advanced features empower industrial remote controls to thrive in challenging conditions, illustrating why civilian remote controls cannot substitute their industrial variants.

Industrial remote controls are predominantly utilized in industries reliant on cranes, such as metallurgy, shipbuilding, container handling, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. They facilitate remote operations within a substantial radius, extending up to hundreds or even thousands of meters, unaffected by obstacles. Operators carry a lightweight transmitter, enabling free movement and selection of safe, optimal vantage points for operation, effectively eliminating risks associated with poor visibility, line control restrictions, harsh environments, or miscommunication. This not only ensures heightened safety but significantly boosts production efficiency.

Exploring the CORE BENEFITS of Industrial Remote Controls
★ Reduced Manufacturing and Maintenance Costs: Embracing remote control systems over traditional cabs has become the norm, setting a new standard in production processes.
★ Enhanced Safety and Reliability: By eliminating command links, misunderstandings due to improper instructions are avoided. Operators can view hoisted items more directly from a command perspective, enhancing safety and mitigating risks associated with adverse weather conditions or miscommunications during high-altitude operations.
★ Improved Operating Environment: Operators can choose safer angles, steering clear of areas with poor visibility or severe pollution, thus protecting themselves from harmful gases.
★ Efficient Use of Human Resources: For example, operations such as maneuvering, mooring, hoisting, and unloading of a bridge crane can be efficiently conducted by a single individual, eliminating the need for command direction.
★ Boosted Work Efficiency: Operators can make autonomous decisions, resulting in greater accuracy and fluidity in operations. Freed from constraints of cab or line-based controls, operators enjoy comfort, avoiding the physical strain of high temperatures, thereby elevating morale and operational efficiency.

As industrial remote controls become increasingly prevalent across diverse sectors, their exceptional advantages continue to shine brightly.