Product Parameters
Radio:

Physical Data:

Safety Standard:

Processing Units:

Standard Accessories:

B16FK Description:
Ergonomic design;
Push-Button patent technology, offering a comfortable feel and precise steps;
Push buttons life cycle: exceeds 2,000,000 cycles;
High-speed CPU, response time <= 20ms;
Secondary packing adhesive technology for enhanced shatter and drop resistance;
Automatic shutdown upon impact with three-tier safety guarantees;
Smart key for seamless spare system replacement;
Special transmitter holder for streamlined management.

ABOUT US
OHM (Chongqing) Electronics Technology Co., Ltd.

Founded in August 2013, OHM is a high-tech enterprise specializing in industrial wireless remote control equipment. We integrate R&D, production, sales, and after-sales service. Our manufacturing base is located in Chongqing, with a sales headquarters and after-sales service center in Shanghai, ensuring comprehensive consulting, support, and after-sales service in industrial wireless remote control technology.
As a trailblazer in the industrial wireless remote control industry, OHM upholds the principle of 'creating brilliance, only quality.' Our mission is to consistently provide safe and reliable industrial wireless remote control products. We are dedicated to developing equipment that is safe, reliable, durable, and of high quality, thus reducing labor, enhancing efficiency, and offering operators a more convenient and safe working environment in industries such as construction, forestry, mining, and more.
OHM aspires to be the leading domestic and global brand in industrial wireless remote control, creating products that set the benchmark both nationally and internationally.

Industrial Remote Control and Its Advantages

Remote controls are ubiquitous in everyday life. However, industrial remote controls, unlike their consumer counterparts, are less known.

Industrial remote controls use radio transmission to manage and control industrial machinery remotely. They comprise a handheld or belt-mounted transmitter and a receiving device installed on the machinery. Operators input commands via the transmitter's panel, which are then digitized, encoded, encrypted, and wirelessly transmitted to the receiver. The receiver decodes the signal and converts it back into control commands, enabling precise control over various mechanical operations.

Industrial remote controls are designed to meet higher technical standards than consumer remote controls, including accuracy, sensitivity, signal continuity, anti-interference, range, and resistance to water, dust, temperature extremes, and corrosive environments. These capabilities allow them to function in harsh conditions, making them indispensable in industrial applications.

Industrial remote controls are extensively used in sectors such as metallurgy, shipbuilding, container handling, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. They enable operators to perform remote operations from a safe distance, with an effective control range extending up to thousands of meters, unaffected by obstacles. This flexibility ensures safe and efficient operation, significantly improving productivity by eliminating hazards associated with poor visibility, line restrictions, harsh environments, or miscommunication.

What are the ADVANTAGES of industrial remote controls?
★ Slash Manufacturing and Maintenance Expenditures: The shift to remote control systems from traditional cabs is not only a groundbreaking innovation but also a standard in modern manufacturing processes. This transition ensures a significant reduction in both manufacturing and maintenance costs.
★ Enhance Safety and Reliability: The elimination of command links drastically reduces misunderstandings arising from improper commands. Operators benefit from a direct command angle, offering an intuitive view of hoisted items, thereby preventing mishaps. This system mitigates risks associated with inclement weather and high-altitude operations, ensuring seamless communication and a safer working environment.
★ Optimize Operating Conditions: Operators can now select the safest, most visible, and least polluted angles for their tasks. This choice reduces the risk of harm from hazardous gases and improves overall working conditions.
★ Conserve Human Resources: In the case of bridge cranes, a single person can manage the operation, mooring, hanging, and unloading processes without needing additional command, showcasing a substantial saving in manpower.
★ Boost Work Efficiency: With the autonomy to make independent judgments, operators experience marked improvements in accuracy and operational continuity. Freed from the confines of upper and lower cabs and restrictive operating lines, they avoid the physical discomfort of high temperatures. This freedom leads to heightened morale and significantly increased work efficiency.

As industrial remote controls gain widespread acceptance across various sectors, their numerous advantages become increasingly evident, solidifying their necessity in modern industrial operations.