OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in the vibrant month of August 2013, OHM stands proudly as a high-tech beacon in the realm of industrial wireless remote control equipment. With a robust focus on Research & Development, production prowess, seamless sales, and impeccable after-sales support, OHM has laid its foundation with a state-of-the-art production base nestled in Chongqing. To further our mission of excellence, a strategic sales headquarters coupled with a dedicated after-sales service center has been established in the bustling city of Shanghai. Here, we offer not only expert consulting but also unparalleled support and comprehensive after-sales services, setting the gold standard in industrial wireless remote control technology.
At the helm of the industrial wireless remote control frontier, OHM embodies the corporate principle of 'creating brilliance, only quality' and is steadfast in its mission to 'consistently deliver safe and reliable industrial wireless remote control products.' Our unwavering commitment lies in the innovation of safe, durable, and superior industrial wireless remote control equipment. By easing labor demands, enhancing operational efficiency, and ensuring the utmost safety in the operating environment, we transcend the traditional boundaries in diverse fields such as industry, construction, forestry, and mining, paving the way for a more convenient and secure future for operators.
OHM's vision is to craft the most impactful industrial wireless remote control products both domestically and globally, positioning ourselves as the premier national brand in the art of remote control technology, with influences that resonate worldwide.

Industrial Remote Control and Its Advantages

Remote controls have become an essential part of everyday life, with each household having multiple devices. However, industrial remote controls remain somewhat of a mystery to most people, unlike their consumer counterparts.

An industrial remote control is a sophisticated device utilizing radio waves to remotely manage and control industrial machinery. It consists of a transmitter, which may be handheld or worn on the waist, and a receiver securely mounted on the machinery. The operator inputs commands into the transmitter using its control panel. These instructions are then digitized, encoded, and encrypted by the transmitter before being wirelessly dispatched to a distant receiving system. Upon reception, the system decodes the information, converting it back into control commands, enabling seamless operation of diverse mechanical equipment.

The demands on industrial remote controls surpass those on civilian models, boasting superior accuracy, sensitivity, signal continuity, interference resistance, extended control range, and resilience to water, dust, extreme temperatures, acids, and alkalis. Designed to thrive in challenging conditions, these robust devices address the limitations that prevent consumer remotes from assuming industrial roles.

Industrial remote controls are pivotal in sectors utilizing cranes, including metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. These controls facilitate remote operations across vast distances, unaffected by obstacles, up to thousands of meters. Operators, equipped with lightweight transmitters, enjoy the freedom to move to secure vantage points, eliminating the risks of poor visibility, harsh environments, and miscommunication, thus enhancing safety and productivity manifold.

What are the ADVANTAGES of industrial remote controls?
★ Reduce manufacturing and maintenance costs: The transition from traditional operator cabs to remote control systems is now standard, streamlining production processes and cutting costs significantly.
★ Improve safety and reliability: Elimination of command links reduces misunderstandings, allowing operators to oversee operations directly, minimizing risks during adverse weather conditions and high-altitude tasks.
★ Improve the operating environment: Operators can choose safer positions with optimal visibility, avoiding highly polluted and hazardous areas.
★ Save human resources: For instance, in bridge crane operations, a single operator can manage all tasks independently, negating the need for additional personnel.
★ Improve work efficiency: Autonomous decision-making enhances accuracy and operational continuity. Freed from cab constraints and uncomfortable conditions, operators experience increased morale and efficiency.

As industrial remote controls become ubiquitous across various industries, their benefits are becoming increasingly evident and indispensable.