OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in the vibrant month of August 2013, OHM (Chongqing) Electronics Technology Co., Ltd. has emerged as a distinguished high-tech enterprise specializing in the dynamic sector of industrial wireless remote control equipment. Seamlessly integrating research and development, production, sales, and after-sales service, OHM has established a formidable production and manufacturing base in Chongqing. Complementing this, a strategic sales headquarters and a comprehensive after-sales service center have been set up in Shanghai, ensuring exceptional consulting, robust support, and impeccable after-sales service tailored for industrial wireless remote control technology.
As a trailblazer in the industrial wireless remote control arena, OHM holds firm to its corporate principle of 'creating brilliance, only quality,' and its unwavering mission of 'always providing safe and reliable industrial wireless remote control products.' Dedicating itself to the innovation of safe, robust, and high-quality industrial wireless remote control equipment, OHM aims to reduce labor efforts, enhance efficiency, and offer operators a more convenient and secure operational experience. This commitment spans across diverse fields such as industry, construction, forestry, and mining, among others.
OHM is resolute in its quest to forge the most influential domestic and global presence in the realm of industrial wireless remote control products, proudly standing as the nation's premier brand.

The Power of Industrial Remote Controls: Unveiling Unparalleled Advantages

Remote controls are ubiquitous in everyday life, with every household possessing multiple devices. However, industrial remote controls operate in a realm of their own, distinct from their civilian counterparts.

An industrial remote control is a sophisticated device employing radio transmission to execute remote operations or control of industrial machinery. It consists of a handheld or waist-mounted transmitter paired with a fixed receiving device on the equipment. Operators input commands through the transmitter's panel, which then digitizes, encodes, and encrypts the instructions. These are wirelessly transmitted to a remote receiving system that decodes and converts the signals, ultimately restoring the control commands to manage various mechanical apparatus effectively.

The demands on industrial remote controls far surpass those of civilian remotes, requiring heightened accuracy, sensitivity, signal continuity, anti-interference capabilities, extended control distance, and resistance to water, dust, extreme temperatures, acids, and alkalis. These features enable industrial devices to thrive in harsh environments, underscoring why civilian remotes cannot substitute industrial ones.

Industrial remote controls find extensive application in sectors reliant on cranes, including metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering machinery. These devices facilitate remote operations over vast distances—up to thousands of meters—unhindered by obstacles. Operators carry lightweight transmitters, freely navigating to secure vantage points for operation, thereby mitigating risks from obscured views, environmental challenges, or flawed communication. This technology not only ensures secure operations but significantly boosts production efficiency.

Exploring the ADVANTAGES of Industrial Remote Controls
★ Cost Efficiency in Manufacturing and Maintenance: Transitioning to remote control systems from traditional cabs is a well-established practice, streamlining production processes.
★ Enhanced Safety and Reliability: By eliminating command links, misunderstandings are minimized. Operators gain an unobstructed view of hoisted items, mitigating risks associated with adverse weather or miscommunication, especially during high-altitude operations.
★ Improved Working Conditions: Operators can select secure positions, avoiding areas with poor visibility or severe pollution, thereby reducing exposure to harmful gases.
★ Human Resource Optimization: For instance, a single operator can manage the operation, mooring, loading, and unloading of a bridge crane, negating the need for additional command staff.
★ Enhanced Operational Efficiency: Operators make autonomous decisions, significantly improving accuracy and continuity. Freed from the constraints of cabs and tangled lines, operators function more effectively, maintaining high morale and work efficiency.

As industrial remote controls permeate various industries, their remarkable advantages are increasingly emphasized and appreciated.