OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM stands as a beacon of innovation in the high-tech industry, specializing in cutting-edge industrial wireless remote control equipment. Our enterprise seamlessly integrates research and development, production, sales, and exemplary after-sales service. With our state-of-the-art production and manufacturing base located in Chongqing, and a dedicated sales headquarters along with an after-sales service center in the bustling city of Shanghai, we are committed to providing unparalleled consulting, support, and service excellence in industrial wireless remote control technology.
At the forefront of the industrial wireless remote control landscape, OHM proudly upholds its core principle of 'creating brilliance, only quality,' alongside its unwavering mission to deliver 'safe and reliable industrial wireless remote control products.' Our pledge is to develop products that are not only safe and reliable but also durable and of the highest quality, designed to ease labor demands, enhance productivity, and ensure a more secure and user-friendly operating environment. Our impact spans across various sectors including industry, construction, forestry, and mining.
OHM is passionately devoted to crafting industrial wireless remote control products that resonate with immense influence both domestically and on the global stage, aspiring to be recognized as the nation's premier brand in the realm of remote control technology.

Industrial Remote Control and Its Remarkable Advantages

Remote controls are ubiquitous in our daily lives, found in every household. However, when it comes to industrial remote controls, we generally possess less knowledge compared to their civilian counterparts.

An industrial remote control is an advanced device utilizing radio transmission for the remote operation and control of industrial machinery. It consists of a portable handheld or belt-mounted transmitter and a fixed receiving device installed on the equipment. Operators input commands via the transmitter's operation panel, which are then digitized, encoded, encrypted, and transmitted wirelessly to a remote receiving system. This system decodes and converts the signals back into control instructions, enabling the precise control of diverse mechanical equipment.

The technical parameters required for industrial remote controls, such as accuracy, sensitivity, signal continuity, interference resistance, remote range, waterproofing, dustproofing, and resistance to extreme temperatures, acids, and alkalis, are significantly higher than those of civilian remote controls. Designed to endure harsh conditions, these attributes make civilian remote controls unsuitable replacements for industrial use.

Industrial remote controls are predominantly utilized in sectors that operate cranes, including metallurgy, shipbuilding, and container terminals, as well as warehousing, machinery manufacturing, chemical industries, papermaking, construction, and engineering machinery. These systems allow for remote operations within an effective range spanning from a radius of 100 meters to several kilometers, unaffected by physical obstructions. Operators can carry a lightweight transmitter, move freely, and select a safe vantage point for operation, eliminating previous risks posed by limited visibility, tethered controls, adverse environments, or miscommunication. This technology not only assures safe operations but also significantly enhances production efficiency.

What are the UNPARALLELED ADVANTAGES of industrial remote controls?
★ Slash manufacturing and maintenance expenses: Remote control systems have effectively replaced traditional cabs, becoming a standard in modern production processes.
★ Enhance safety and reliability: By eliminating command links, the potential for misunderstandings due to improper directives is minimized. Operators can manage tasks from optimal angles, gaining better visibility over hoisted items, and avoiding the hazards associated with cab operations in adverse weather or miscommunications during high-altitude tasks.
★ Optimize the working environment: Operators can choose secure positions, evading areas with poor visibility and severe pollution, thereby shielding themselves from harmful gases.
★ Conserve human resources: Consider the bridge crane example; operations such as mooring, lifting, and unloading can be efficiently managed by a single individual, eliminating the need for additional command personnel.
★ Boost work efficiency: Operators can make independent, well-informed decisions, enhancing operational precision and continuity compared to previous methods. Freed from the constraints of cab and tethered controls, they avoid discomfort from extreme temperatures, leading to improved morale and heightened work efficiency.

With industrial remote controls increasingly permeating various industry sectors, their extraordinary advantages have never been more apparent.