Products Parameters
Radio:
| Frequency range: 400-470MHz |
| Transmission rate: 9600bit/s |
| Transmitted power: ≤10mW |
| Frequency tolerance: 4ppm |
| Adjacent channel rejection: >50dB |
| Modulation mode: GFSK (Gaussian Frequency Shift Keying) |
| Channel spacing: 25Hz |
| Receiving sensitivity: -115dBm |
| Check method: CRC-1TM |
| Response time: ≤20ms |
Physical Data:
| Transmitter weight: 400g (without battery) |
| Transmitter size: 255mm x 62mm x 50mm (length x width x height) |
| Transmitter shell material: high-strength engineering plastics |
| Receiver weight: 2kg |
| The overall size of the receiver: 298mm x 206mm x 75mm (length x width x height) |
| Receiver installation size: 184mm x 88mm |
| Receiver installation aperture: Φ6mm |
| Receiver shell material: high-strength engineering plastic |
| Working temperature range: -25ºC-70ºC |
| Working humidity range: 0-97%RH |
Safety Standard:
| JB/T8437-2015 |
| EN ISO 13849 Class D |
| Radio Transmission Equipment Type Approval Certificate (State Radio Regulatory Commission of the People's ***) |
| Crane remote control device safety qualification certificate (Liao'an Institute) |
Processing Units:
| Real-time performance: Implement control technology |
| Frequency control: PLL (phase-locked loop) |
| Special address code: 32bit>4,200,000,000 |
| Control distance: >80m |
| Transmitter form: button type, 10 double-speed buttons |
| Transmitter power supply: 3.6V-4.5VDC (3 AA batteries or rechargeable batteries) |
| Transmitter working current: 50mA |
| Transmitter low voltage alarm: sound and light alarm (3.3-3.5VDC) |
| Transmitter failure alarm: Various combination of sound-light alarms |
| Power saving protection: Auto power-off (setting range: 0-30 minutes) |
| Transmitter antenna: Internal |
| Receiver power supply: 42-250VDC/10-30VDC/380VAC optional |
| Rated power of receiver: ≤6W |
| Receiver fault display: LED for indication of operating/fault conditions |
| Output mode: fully airtight relay output; *non-standard customizable PROFIBUS-DP, CANOPEN |
| Relay contact capacity: 4A/250VAC |
| Output interface: "Output terminals (including pipe fittings);*Non-standard optional HAN16,25 heavy connectors |
| Receiver antenna: external |
Standard Accessories:
| Transmitter lanyard: 1 |
| Receiver antenna: 1 |
| Receiver anti-vibration pad: 4 |
| Receiver mounting screws: 4 sets |
| Instruction manual: 1 set (Chinese and English) |
B16FK Description:
Ergonomic design;
Push-Button patent technology, comfortable feel, and clear step;
Life cycle for push buttons: above 2,000,000 times;
High-speed CPU, response time<=20ms;
Secondary packing adhesive technology ensures shatter and falling-down resistance;
Automatically shutdown when being impacted and three-level safety guarantee;
Smart key for perfect replacement of spare system;
Special holder for transmitter for easy management.
ABOUT US
OHM (Chongqing) Electronics Technology Co., Ltd.
Founded in August 2013, OHM is a high-tech enterprise focusing on industrial wireless remote control equipment, integrating R&D, production, sales, and after-sales services. OHM has established a robust production and manufacturing base in Chongqing, alongside a sales headquarters and after-sales service center in Shanghai. Our mission is to offer exceptional consulting, support, and after-sales services for industrial wireless remote control technology.
As a pioneer in the industrial wireless remote control industry, OHM upholds the corporate principle of 'creating brilliance, only quality'. Our mission is to continuously provide safe and reliable industrial wireless remote control products. We are dedicated to developing high-quality equipment that is safe, reliable, and durable, ultimately reducing labor, enhancing efficiency, and providing operators with a more convenient and secure working environment across various sectors such as industry, construction, forestry, and mining.
OHM is devoted to establishing itself as the leading domestic and global brand in the field of industrial wireless remote control products, aiming to be recognized as the nation's premier brand.
Industrial Remote Control and Its Advantages
Remote controls are ubiquitous in daily life, but industrial remote controls remain less familiar to the general public. Unlike their civilian counterparts, industrial remote controls utilize radio transmission to manage and operate industrial machinery remotely.
An industrial remote control comprises a handheld or waist-hung transmitter and a receiving device fixedly installed on the equipment. The operator inputs commands via the transmitter's operation panel. These commands are digitized, encrypted, and transmitted wirelessly to a remote receiving system, which then decodes and converts them to control various mechanical equipment seamlessly.
Industrial remote controls demand higher technical parameters-accuracy, sensitivity, signal continuity, anti-interference, long-range capability, waterproof and dustproof features, and resistance to extreme temperatures and chemicals-compared to civilian remote controls. This robustness enables them to thrive in extreme environments, making them indispensable where civilian remote controls fall short.
Industrial remote controls are predominantly used in sectors employing cranes, such as metallurgy, shipbuilding, container terminals, warehousing, machinery manufacturing, chemicals, papermaking, construction, and engineering. They empower operators to manage equipment remotely within a range of up to thousands of meters, unaffected by obstacles. Operators can carry a lightweight transmitter, move freely, and choose safe vantage points for clearer operation, eliminating risks associated with poor visibility, restricted line control, harsh environments, or miscommunication. This not only ensures safety but also significantly boosts production efficiency.
What are the ADVANTAGES of industrial remote controls?
★ Reduce Manufacturing and Maintenance Costs: Transitioning from traditional cabs to advanced remote control systems is no longer a futuristic vision-it's today's standard. This evolution slashes both manufacturing and maintenance expenses, streamlining the production process for maximum efficiency.
★ Enhance Safety and Reliability: By eliminating the need for a command link, our system eradicates misunderstandings caused by improper commands. Operators command from the optimal angle, providing a clearer view of hoisted items, ensuring safety in adverse weather conditions, and eliminating miscommunications that could lead to accidents during high-altitude operations.
★ Upgrade Operating Environment: Operators can now choose safer angles, avoiding positions plagued by poor visibility or pollution. This innovation prevents exposure to harmful gases, significantly improving the working environment and protecting the operator's health.
★ Conserve Human Resources: For instance, with a bridge crane, one person can handle the entire process-operation, mooring, hanging, and unloading-without the need for external commands. This autonomy significantly reduces the requirement for additional manpower.
★ Boost Work Efficiency: Granting operators the freedom to make independent judgments enhances both the accuracy and continuity of operations. Freed from the constraints of upper and lower cabs and cumbersome operating lines, operators avoid discomfort from extreme temperatures, leading to higher morale and greatly improved work efficiency.
With the widespread application of industrial remote controls across diverse sectors, their advantages are increasingly evident and undeniable.
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