OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM is a pioneering high-tech enterprise specializing in cutting-edge industrial wireless remote control equipment. We seamlessly integrate research and development, production, sales, and after-sales services. Our state-of-the-art production and manufacturing base is strategically located in Chongqing, while our sales headquarters and after-sales service center are established in the bustling metropolis of Shanghai. Here, we deliver impeccable consulting, comprehensive support, and dedicated after-sales service, ensuring excellence in industrial wireless remote control technology.
As a frontrunner in the industrial wireless remote control sector, OHM proudly upholds the corporate principle of 'creating brilliance, only quality.' Our mission is unwavering: 'always providing safe and reliable industrial wireless remote control products.' We are steadfastly devoted to developing equipment that is not only safe, reliable, and durable but also high-quality. Our innovations significantly reduce manual labor, boost efficiency, and enhance operational safety and convenience across diverse fields such as industry, construction, forestry, and mining.
OHM is passionately committed to becoming a trailblazer in remote control technology, crafting products that dominate both domestic and global markets. We aspire to be recognized as the nation's premier brand in the realm of industrial wireless remote control solutions.

Exploring the Advantages of Industrial Remote Control

Remote controls have become common fixtures in our daily lives, with each household possessing an array of them. However, when it comes to industrial remote controls, they remain a mystery to many compared to their civilian counterparts.

An industrial remote control is a sophisticated device utilizing radio transmissions for the remote operation and control of industrial machinery. It consists of a user-friendly handheld or waist-mounted transmitter and a receiver meticulously fixed to the equipment. The operator seamlessly inputs instructions via the transmitter's control panel, which are then digitized, encoded, and securely encrypted before being transmitted wirelessly to a remote receiving system. This system expertly decodes and converts the data back into control instructions, allowing for the precise management of various mechanical equipment.

The technical parameters of industrial remote controls, such as precision, sensitivity, uninterrupted signal, interference resistance, long-range capability, as well as being waterproof, dustproof, and resistant to extreme temperatures, acids, and alkalies, far exceed those of civilian counterparts. These robust devices are designed to thrive in challenging environments, highlighting why household remote controls cannot substitute their industrial variants.

Industrial remote controls are predominantly employed in crane-utilizing sectors such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery. They enable seamless remote operations from any vantage point within a 100-meter radius or even beyond, unaffected by obstacles. Operators are empowered with a lightweight transmitter, allowing them to navigate freely, select a safe viewpoint, and operate efficiently. This innovation removes previous limitations such as poor visibility, cumbersome line controls, challenging environments, or poor coordination, thereby ensuring operational safety and significantly boosting production efficiency.

What are the ADVANTAGES of industrial remote controls?
★ Slash Manufacturing and Maintenance Costs: The transition from cab-based to remote-control systems is a well-established reality and has become a standard in production processes.
★ Enhance Safety and Reliability: By eliminating the command link, misunderstandings from miscommunication are minimized. Operators can control from an optimal viewpoint, gaining a clear view of lifted items, reducing the risks associated with inclement weather, and preventing miscommunications during high-altitude operations that could lead to accidents.
★ Boost the Operating Environment: Operators can select safe angles, avoiding sites with poor visibility or high pollution, and shield themselves from harmful gases, enhancing their overall safety.
★ Optimize Human Resources: For instance, using a bridge crane, tasks such as operation, mooring, hanging, and unloading can be managed independently by a single person, eliminating the need for additional command personnel.
★ Elevate Work Efficiency: Operators can make autonomous decisions with improved precision and seamless continuity, unbound by the confines of cabs and wiring systems. This alleviates discomfort caused by extreme cabin temperatures, leading to heightened morale and superior work efficiency.

With the expansive adoption of industrial remote controls across industries, their benefits are increasingly becoming pronounced, transforming efficiency and safety dynamics.