OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM is a visionary high-tech enterprise dedicated to revolutionizing industrial wireless remote control equipment. We seamlessly integrate research and development, production, sales, and exceptional after-sales support. Our state-of-the-art production and manufacturing hub is strategically located in Chongqing, complemented by our prominent sales headquarters and after-sales service center in Shanghai. At OHM, we pride ourselves on delivering unparalleled consulting, support, and comprehensive after-sales service, ensuring the pinnacle of satisfaction in industrial wireless remote control technology.
As a trailblazer in the industrial wireless remote control industry, OHM adheres to the guiding principle of 'Creating Brilliance through Unmatched Quality.' Our steadfast mission is to continuously deliver safe and dependable industrial wireless remote control products. We are devoted to crafting innovative, robust, and top-tier industrial wireless remote control solutions that minimize labor, enhance efficiency, and ensure a safer and more convenient operating environment across diverse sectors such as industry, construction, forestry, and mining.
OHM is passionately devoted to establishing itself as the most influential force in the domestic and global landscape of industrial wireless remote control products, proudly epitomizing the first national brand in this field.

Understanding the Power of Industrial Remote Control and Its Extraordinary Benefits

Remote controls have become an integral part of daily life, with every household owning a variety of them. However, industrial remote controls remain less familiar to the general population, setting themselves apart from civilian remote controls.

Industrial remote control devices are advanced systems that utilize radio transmission to facilitate remote operation and control of industrial machinery. These sophisticated systems consist of a handheld or waist-mounted transmitter and a receiving device securely installed on the equipment. Operators input commands through the transmitter's operation panel. These instructions are then digitized, encoded, securely encrypted, and transmitted wirelessly to a remote receiving system. Upon receipt, the system decodes and converts the signals to restore control instructions, thereby enabling precise manipulation of various mechanical equipment.

The technical specifications required for industrial remote controls, such as accuracy, sensitivity, signal continuity, anti-interference capabilities, remote control range, waterproof and dustproof features, as well as high and low temperature resistance, and acid and alkali resistance, far exceed those of civilian remote controls. These devices are engineered to withstand extreme environments, which is why civilian remote controls simply cannot substitute for their industrial counterparts.

Industrial remote controls find their primary use in sectors utilizing cranes, including metallurgy, shipbuilding, and container terminals, as well as warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery. They enable seamless remote operations within a radius extending from 100 meters to potentially thousands of meters, unaffected by obstacles. Operators need only carry a lightweight transmitter, allowing them the freedom to move, select an optimal visual position, and operate safely, thereby eliminating the hidden hazards associated with poor visibility, restricted line control, harsh environments, or miscommunication. This technology not only ensures safety but significantly boosts production efficiency.

Exploring the UNPARALLELED ADVANTAGES of Industrial Remote Controls
★ Slash Manufacturing and Maintenance Costs: The transition from cabs to remote control systems is a tangible reality, now a standard in production processes.
★ Elevate Safety and Reliability: With the elimination of the command link, miscommunication due to improper commands is avoided; operators gain intuitive perspectives of hoisted items, thus avoiding the risks associated with tower crane operations in adverse weather, as well as the potential accidents stemming from miscommunication between operator and commander at high altitudes.
★ Enhance the Operating Environment: Operators can select safe vantage points, steering clear of positions plagued by poor visibility and severe pollution, thus shielding themselves from harmful gases.
★ Optimize Human Resources: Take the bridge crane for instance, where a single operator can manage operations, mooring, hoisting, and unloading, independently, without requiring additional command.
★ Amplify Work Efficiency: Empowered by independent judgment, operators achieve significantly enhanced accuracy and operational continuity. Freed from the constraints of upper-lower cabs and operating lines, they avoid discomfort from high temperatures in cabs, ultimately boosting morale and operational efficiency.

With industrial remote controls becoming increasingly prevalent across industries, their exceptional advantages are becoming more pronounced.