OHM (Chongqing) Electronics Technology Co., Ltd.

Established in August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. shines as a beacon of innovation in the realm of industrial wireless remote control equipment. As a high-tech trailblazer, we seamlessly integrate research and development, production, sales, and after-sales service. Our state-of-the-art manufacturing hub is nestled in the thriving city of Chongqing, while our dynamic sales headquarters and after-sales service center are strategically positioned in Shanghai. At OHM, we are dedicated to providing exceptional consulting, unparalleled support, and comprehensive after-sales service for cutting-edge industrial wireless remote control technology.
OHM proudly stands at the forefront of the industrial wireless remote control sector, embodying the principle of 'creating brilliance, only quality.' Our mission is unwavering: to consistently deliver safe, reliable, and premium industrial wireless remote control solutions. We are fervently committed to crafting equipment that is not only safe and durable but enhances efficiency by alleviating labor demands. Operators across the industrial, construction, forestry, and mining domains can trust OHM to furnish them with a more convenient and secure operational environment, elevating their work experience to new heights.
OHM is passionately dedicated to forging a legacy as the most influential name in domestic and global industrial wireless remote control products. We are not just a brand; we are a symbol of national pride and excellence in the art of remote control technology.

Exploring the Unparalleled Advantages of Industrial Remote Controls

Remote controls have seamlessly integrated into our daily lives, with every home hosting a myriad of them. However, venturing beyond the realm of household remotes lies the less familiar yet crucial domain of industrial remote controls.

An industrial remote control is an innovative device utilizing radio transmission for the precise remote operation of industrial machinery. It consists of a handheld or belt-mounted transmitter and a receiver securely installed on the machinery. Operators skillfully input commands via the transmitter's control panel, which digitizes, encodes, and encrypts these instructions. Transmitted wirelessly, the commands reach a remote receiving system where they are decoded and translated back into control signals, enabling the seamless management of diverse mechanical equipment.

Industrial remote controls boast superior technical specifications compared to their civilian counterparts. They demand unmatched accuracy, sensitivity, signal continuity, and resilience against interference. These controls are engineered to endure extended remote distances, extreme temperatures, and harsh environments, ensuring unparalleled performance. This is why civilian remotes fall short of substituting industrial ones, which are designed to thrive in demanding conditions.

Industrial remote controls are indispensable in sectors utilizing cranes, such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. They empower operators with an extensive effective control range, spanning hundreds or even thousands of meters, unhindered by obstacles. By providing a portable, lightweight transmitter, operators can navigate freely, selecting a safe vantage point for operations. This flexibility eliminates risks from obscured vision, limited movement, and adverse environments, fostering both safety and heightened production efficiency.

What are the UNMATCHED BENEFITS of industrial remote controls?
★ Minimize Manufacturing and Maintenance Expenditures: Transitioning from traditional cabins to remote control systems is now a mainstream and essential approach in production processes, significantly lowering costs.
★ Elevate Safety and Reliability: By eliminating the command chain, potential misunderstandings are averted; operators gain a direct line of sight to hoisted items, ensuring better safety during operations, especially in adverse weather conditions. This reduces the risk of accidents stemming from miscommunication in high-altitude tasks.
★ Enhance Working Conditions: Operators can choose vantage points that circumvent poor visibility and pollution, safeguarding them from hazardous gases and improving overall occupational health.
★ Optimize Human Resource Allocation: For instance, a single operator can manage all aspects of bridge crane operations, including mooring, loading, and unloading, eliminating the need for additional command personnel.
★ Boost Operational Efficiency: Operators' decision-making autonomy results in improved accuracy and consistency. Freed from the constraints of cabin confines and cumbersome control lines, they avoid the physical discomfort that diminishes productivity, thereby elevating morale and efficiency.

The pervasive adoption of industrial remote controls across diverse industries underscores their remarkable advantages, further cementing their role as indispensable tools for enhancing operational effectiveness.