OHM (Chongqing) Electronics Technology Co., Ltd.

Established in the heart of technological innovation, OHM (Chongqing) Electronics Technology Co., Ltd. has been a beacon of industrial advancement since its inception in August 2013. As a high-tech powerhouse, OHM excels in the realm of industrial wireless remote control equipment. Seamlessly integrating research & development, production, sales, and exceptional after-sales care, OHM has rooted its manufacturing prowess in Chongqing. Complementing this is its expansive sales headquarters and dedicated after-sales service center in Shanghai, which together ensure the delivery of exemplary consulting, technical support, and comprehensive after-sales services for industrial wireless remote technology.
As a trailblazer in the industrial wireless remote control sector, OHM proudly upholds the principle of "creating brilliance, only quality," and is steadfast in its mission to perpetually provide safe, dependable industrial wireless remote control solutions. OHM is unwavering in its commitment to engineering robust, high-quality equipment that prioritizes safety and reliability. These products are designed to streamline labor, enhance operational efficiency, and ensure a safer, more ergonomic working environment across diverse sectors including industry, construction, forestry, and mining.
OHM is vigorously driven by its vision to become the most influential name in both domestic and global markets for industrial wireless remote control systems. The company aspires to symbolize the pinnacle of national brand excellence in the field of remote control technologies.

Industrial Remote Control and Its Advantages

Remote controls have become a staple in everyday life—each household boasts an array of these devices. However, the realm of industrial remote controls remains less explored, particularly when contrasted with their civilian counterparts.

An industrial remote control is a sophisticated device utilizing radio transmission to remotely manage or control industrial machinery. It comprises a handheld or waist-bound transmitter and a steadfast receiving device affixed to the equipment. Through the transmitter's operation panel, operators input commands which are then encoded, encrypted, and transmitted wirelessly. These signals are received, decoded, and converted by a remote receiving system, thus reconstituting the control instructions and enabling seamless operation of various mechanical equipment.

Industrial remote controls demand elevated technical specifications—precision, sensitivity, signal continuity, and anti-interference capabilities are exemplary. They are engineered to endure remote control distances and are robust against challenging environments, such as waterproofing, dustproofing, and resistance to extreme temperatures, as well as acidic and alkaline conditions. These attributes distinctly set industrial remote controls apart from their civilian counterparts.

Industries utilizing cranes, including metallurgy, shipbuilding, and container terminals, along with warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery sectors, predominantly employ industrial remote controls. These devices facilitate remote operations within an extensive control range, spanning from any position within a 100-meter radius to distances covering thousands of meters, unhindered by obstructions. Operators benefit from the freedom to roam with a lightweight transmitter, selecting a safe vantage point to operate from. This eliminates past hazards associated with restricted line control, unclear visibility, or adverse environments, ensuring safety while significantly boosting production efficiency.

What are the ADVANTAGES of industrial remote controls?
★ Reduce Manufacturing and Maintenance Costs: The transition to remote control systems, replacing traditional cabs, is well-established and now a standardized production process.
★ Enhance Safety and Reliability: With the removal of the command link, communication errors from improper commands are avoided, and operators can directly observe hoisted items from a commanding angle. This ensures safety during adverse weather and mitigates risks associated with miscommunication in high-altitude operations.
★ Improve Operating Environment: Operators can select a safe position, avoiding areas with poor visibility or heavy pollution, thus shielding themselves from harmful gases.
★ Optimize Human Resources: For example, with bridge cranes, a single individual can manage operation, mooring, hanging, and unloading tasks without requiring additional command.
★ Boost Work Efficiency: Operators benefit from making autonomous decisions, leading to enhanced accuracy and operational continuity. Freed from the confines of cabs and cabling, they avoid the discomfort of extreme temperatures, thus elevating morale and efficiency.

The widespread integration of industrial remote controls across diverse sectors highlights their burgeoning advantages, underscoring their transformative impact on operational landscapes.