OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM is a trailblazing high-tech enterprise specializing in cutting-edge industrial wireless remote control equipment. With a seamless integration of R&D, production, sales, and stellar after-sales services, OHM has established its formidable production and manufacturing hub in Chongqing. To further enhance customer experience, OHM has strategically positioned its sales headquarters and after-sales service center in the dynamic city of Shanghai, ensuring comprehensive consulting, unparalleled support, and meticulous after-sales service for its state-of-the-art industrial wireless remote control technology.
As a vanguard of innovation in the industrial wireless remote control sector, OHM proudly upholds the corporate principle of 'creating brilliance, only quality,' and is unwavering in its mission to 'always provide safe and reliable industrial wireless remote control products.' Our commitment is steadfast in developing equipment that embodies safety, reliability, durability, and superior quality. We strive to significantly reduce labor demands for users, enhance operational efficiency, and furnish operators with an exceedingly convenient and secure working environment across diverse industries such as construction, forestry, mining, and beyond.
OHM aspires to craft the most influential and pioneering industrial wireless remote control products both domestically and globally, securing its status as the nation's premier brand in the realm of remote control technology.

Exploring the Advantages of Industrial Remote Controls

Remote controls have become ubiquitous in our daily lives, gracing every home with their presence. However, while civilian remote controls are familiar to most, industrial remote controls remain lesser-known yet offer indispensable capabilities.

An industrial remote control is a sophisticated device that employs radio transmission to enable remote operation or control of industrial machinery. This system comprises a handheld or waist-mounted transmitter and a receiving unit securely affixed to the machinery. The operator inputs commands into the transmitter's control panel, which are then digitized, encoded, and encrypted before being sent wirelessly to the receiving system. There, the signals are decoded and transformed back into control commands, thus facilitating seamless and precise control of various mechanical equipment.

Industrial remote controls demand superior technical specifications compared to their civilian counterparts. Parameters such as accuracy, sensitivity, signal continuity, and resistance to interference are more stringent. They are designed to withstand extreme environmental conditions, such as high and low temperatures, as well as being waterproof and dustproof, and resistant to acids and alkalis. These features ensure their reliability in challenging settings, distinguishing them from civilian remote controls.

Predominantly utilized in industries reliant on cranes, such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery, industrial remote controls allow for efficient remote operations. With an operational range extending from a 100-meter radius to several kilometers, they operate unhindered by obstructions. Operators, equipped with lightweight transmitters, can maneuver freely, selecting safe vantage points for optimal control. This eliminates past challenges associated with poor visibility, tethered control lines, and adverse conditions, which previously led to hidden hazards and accidents. Such innovation not only assures operational safety but also significantly enhances productivity.

What are the DISTINCT ADVANTAGES of Industrial Remote Controls?
★ Minimize Manufacturing and Maintenance Costs: The evolution from cab control to remote systems has transformed standard production processes, effectively reducing costs associated with manufacturing and maintenance.
★ Enhance Safety and Reliability: By bypassing the command link, misinterpretations due to miscommunication are avoided. Operators gain a direct line of sight to hoisted items, reducing the risks associated with tower crane operations conducted from cabs during adverse weather. This direct control mitigates unnecessary accidents caused by miscommunication during high-altitude tasks.
★ Optimize Operating Environments: Operators are empowered to choose vantage points free from poor visibility and pollution, thus shielding them from harmful gases and enhancing workplace safety.
★ Conserve Human Resources: For example, with bridge cranes, a single operator can independently manage operations such as mooring, hoisting, and unloading, eliminating the need for command assistance.
★ Boost Work Efficiency: Independent decision-making by operators enhances the precision and uninterrupted nature of operations. Freed from the confines of cabs and control lines, operators avoid discomfort caused by high temperatures within cabs, thus elevating morale alongside work efficiency.

As industrial remote controls become increasingly integrated across various sectors, their outstanding advantages continue to shine, offering transformative benefits that are ever more pronounced.