OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. stands as a beacon of innovation in the high-tech realm of industrial wireless remote control equipment. Seamlessly integrating research and development, production, sales, and unparalleled after-sales support, OHM has anchored its production and manufacturing prowess in Chongqing. Complementing this, an expansive sales headquarters and dedicated after-sales service center in Shanghai ensure that every client receives comprehensive consulting, robust support, and exceptional after-sales service tailored to industrial wireless remote control technology.
As a pioneering force in the industrial wireless remote control sector, OHM proudly upholds the ethos of "creating brilliance, only quality" as its guiding corporate principle. Driven by a mission to continually deliver safe and dependable industrial wireless remote control solutions, OHM is steadfast in its commitment to crafting equipment that is not only safe and reliable but also durable and of the highest quality. Our products are designed to ease labor demands, boost efficiency, and furnish operators with environments that are both convenient and secure, serving industries ranging from construction, forestry, and mining to numerous others.
OHM is on a relentless quest to establish itself as the preeminent domestic and international brand in the realm of industrial wireless remote control products, epitomizing the pinnacle of national excellence in remote control technology.

Industrial Remote Control and Its Distinctive Benefits

Remote controls are a staple in our daily lives, with every household possessing a variety of these devices. However, industrial remote controls, distinct from consumer-grade models, remain relatively unfamiliar to most.

An industrial remote control is a sophisticated device utilizing radio transmission technology to facilitate the remote operation of industrial machinery. This system comprises a handheld or waist-mounted transmitter and a receiver securely installed on the machinery. The operator inputs commands into the transmitter via its control panel. The transmitter then digitizes, encodes, and encrypts these commands, transmitting them wirelessly to a remote receiving system. This system decodes and converts the instructions, restoring them to their original form to effectively control diverse mechanical equipment.

Industrial remote controls surpass civilian counterparts with superior accuracy, sensitivity, signal reliability, and robust resistance to interference. They excel in long-distance operation, waterproofing, dustproofing, and enduring extreme temperatures, as well as resisting acids and alkalis. These enhanced technical parameters ensure the device's adaptability to challenging environments, setting them apart from standard remote controls.

Industrial remote controls find prominent applications in crane-utilizing industries such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. These devices enable seamless remote operations across vast control ranges, unaffected by obstacles, extending to thousands of meters. Operators, equipped with lightweight transmitters, enjoy the freedom to move to secure vantage points, mitigating risks from poor visibility, restricted movement, challenging environments, and miscommunication. This ensures not only operational safety but also significantly boosts production efficiency.

What are the ADVANTAGES of industrial remote controls?
★ Reduce manufacturing and maintenance costs: The transition from traditional cabs to advanced remote control systems has been a game-changer, becoming a standard in modern production processes.
★ Enhance safety and reliability: By eliminating the command link, potential misunderstandings from miscommunication are avoided. Operators benefit from a direct line of sight to the hoisted items, avoiding the dangers associated with operating tower cranes during adverse weather and eliminating errors from miscommunication at great heights.
★ Improve the operating environment: Operators can select safe vantage points, steering clear of areas with poor visibility and significant pollution, thereby shielding themselves from detrimental gases and harmful conditions.
★ Optimize human resources: For instance, with bridge cranes, a single operator can manage operations such as mooring, hanging, and unloading independently without the need for additional personnel.
★ Boost work efficiency: Operators now make autonomous decisions, leading to enhanced precision and continuity in operations, free from the limitations of traditional cab controls. This autonomy prevents physical discomfort from extreme temperatures, ultimately boosting operator morale and efficiency.

As industrial remote controls become ubiquitous across various sectors, their transformative advantages are becoming increasingly evident.