OHM (Chongqing) Electronics Technology Co., Ltd.

Established in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. is a distinguished high-tech enterprise at the forefront of the industrial wireless remote control sector. Specializing in the seamless integration of research, development, production, sales, and after-sales services, OHM stands as a beacon of innovation. Our state-of-the-art production and manufacturing hub is strategically located in Chongqing, complemented by our sales headquarters and comprehensive after-sales service center in Shanghai. This allows us to offer unparalleled consulting, robust support, and impeccable after-sales service, ensuring that our clients' needs in industrial wireless remote control technology are met with precision and dedication.
As a pioneering leader in the industrial wireless remote control landscape, OHM takes pride in its core tenet of "creating brilliance, only quality." Our corporate mission is steadfast: to consistently deliver safe, dependable, and cutting-edge industrial wireless remote control solutions. We are devoted to the advancement of equipment that is not only safe and reliable but also durable and of superior quality. Our goal is to minimize labor demands, amplify operational efficiency, and furnish operators with an environment that is both convenient and safe. Our innovative solutions excel across a spectrum of industries, including construction, forestry, and mining, ensuring enhanced safety and efficiency for all operations.
OHM is passionately committed to establishing itself as the preeminent force in the domain of industrial wireless remote control products, both domestically and globally. We aspire to epitomize the nation's leading brand, exemplifying excellence and innovation in the field of remote control technology.

Understanding Industrial Remote Control and Its Distinctive Advantages

Remote controls are ubiquitous in daily life, with each household typically owning multiple devices. However, industrial remote controls, unlike the familiar civilian models, remain less known to the general public.

An industrial remote control is an advanced device utilizing radio transmission technology for the remote operation of industrial machinery. It comprises a handheld or waist-mounted transmitter and a stationary receiver installed on the machinery. The operator inputs instructions through the transmitter's control panel. These instructions are then digitized, encoded, and encrypted before being transmitted wirelessly to a remote receiving system. Upon receipt, the system decodes and translates the signal back into actionable control commands, enabling seamless real-time control of various industrial equipment.

Industrial remote controls demand greater precision, sensitivity, continuous signal integrity, and superior resistance to interference compared to their civilian counterparts. Additionally, they are engineered to withstand challenging conditions such as extreme temperatures, moisture, dust, and chemical exposure. These superior technical specifications make them indispensable in environments where civilian remotes fail.

Industrial remote controls find extensive applications in sectors utilizing cranes, including metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. They enable remote operations over vast areas, handling control from anywhere within a 100-meter radius or even kilometers away, unaffected by barriers. Operators can freely move, carrying a lightweight transmitter and selecting optimal visual positions for operation, significantly reducing risks associated with poor visibility, restricted line control, or unfavorable environments. This technological advancement not only enhances safety standards but also significantly boosts production efficiency.

What Are the UNRIVALED BENEFITS
★ Cost Reduction in Manufacturing and Maintenance: Transitioning to remote control systems from traditional cabs has been a game-changer, now a standard in production processes.
★ Enhanced Safety and Reliability: By streamlining the command link, misunderstandings are minimized. Operators gain a clearer, more intuitive view of hoisted items, reducing the potential hazards faced by operators in tower crane cabs during adverse weather. Miscommunications in high-altitude operations are eliminated, preventing unnecessary accidents.
★ Improved Operating Environment: Operators can select safer angles, avoiding areas with poor visibility or pollution, thus evading exposure to harmful gases.
★ Human Resource Optimization: In scenarios like bridge crane operations, a single operator can efficiently manage tasks such as maneuvering, mooring, hoisting, and unloading, eliminating the need for additional command personnel.
★ Boosted Work Efficiency: Operators make autonomous decisions, leading to enhanced accuracy and operational continuity. Freed from the constraints of cabs and lines, operators avoid discomfort from extreme temperatures, resulting in improved morale and productivity.

As industrial remote controls become increasingly prevalent across industries, their remarkable advantages continue to stand out prominently.