In the modern logistics, manufacturing and inspection fields that pursue ultimate efficiency, mobile robots (such as AGVs/AMRs and driverless cars) have become indispensable core equipment. However, "charging while the machine is shut down" has always been a major obstacle on the road to "unmanned dark factories". Have you ever calculated how much precious working time your robot team wastes each day due to charging?

Typical pain points in static charging mode:

Efficiency loss: The robot needs to leave the job post and go to a fixed charging station. During the charging period, productivity is zero.

fleet's scale expansion: To make up for the capacity gap caused by charging, it is often necessary to configure an additional 20% to 30% of robots as redundancy, resulting in a significant increase in initial investment and operating costs.

Scheduling complexity: The central dispatching system needs to precisely plan tasks and charging times for each robot, making the system complex and having low fault tolerance.

Unable to handle high-intensity tasks: During peak periods such as Double Eleven and production seasons, the traditional charging mode cannot support the demand for 24-hour continuous high-intensity operations.

WIRELESSPT's dynamic wireless charging solution was precisely designed to break this deadlock. We have filled the robot's movement path with electrical energy to achieve "charging while on the move", thus ushering in a new era of "non-stop operation".

The core selling points of WIRELESSPT dynamic wireless charging solution

Continuous operation doubles efficiency

By embedding wireless charging transmission modules under the main driving path, waiting points or operation stations of the robot, the robot can automatically recharge its power when driving, loading, queuing or briefly stopping. This means that robots can break free from their reliance on large batteries and achieve nearly 7x24-hour continuous operation, resulting in a qualitative leap in overall equipment utilization (OEE).

2. Reduce costs and increase efficiency, and optimize investment

After achieving dynamic charging, there is no need to purchase a large number of backup robots to compensate for charging time. A more streamlined fleet of robots can accomplish the same or even greater amount of work, significantly reducing the initial purchase cost as well as the subsequent maintenance and management costs. It has achieved "fewer robots, higher output".

3. Miniaturized and lightweight battery design

Due to the ability to achieve frequent and fragmented energy replenishment, the battery capacity and volume that robots need to carry can be significantly reduced. This reduces the robot's own weight and energy consumption, increases the payload, and also makes the robot's design more flexible and lightweight.

4. System Intelligence and Security

Our system integrates real-time power regulation and communication functions, and is capable of intelligently allocating power based on the robot's power demand and the total system load. The entire system is equipped with multiple safety protections such as overvoltage, overcurrent, overheating and foreign object detection, ensuring stable and reliable operation in complex industrial environments.

In-depth mining of application scenarios

Smart logistics and warehousing: Deploy dynamic charging systems under the main driving channels and picking platforms of AGVs/AMRs to achieve "charging while running", easily handling the peak of massive orders.

Intelligent manufacturing production line: Dynamic charging is applied on assembly lines and material distribution lines to ensure that unmanned carts responsible for the flow between processes never stop, perfectly matching the production rhythm.

Unmanned delivery/inspection in the park: Dynamic charging points are set up along the routes that unmanned delivery vehicles must pass through (such as corridors and main entrances) to ensure they can complete long-distance and multi-floor delivery and inspection tasks.

Smart agriculture and pastures: Plan inspection routes with dynamic charging functions for agricultural inspection robots and livestock feeding robots to enable them to cover a wider range of operation areas.

Dynamic wireless charging is not merely an upgrade in technology; it is a fundamental reshaping of the application model of mobile robots. It has broken the limitations of energy supply in terms of time and space, opening up unlimited possibilities of "never shutting down" for the entire industry. As a leader in industrial-grade wireless charging, WIRELESSPT is willing to join hands with you to pave an "energy highway" leading to ultimate efficiency with dynamic wireless charging technology, enabling your robot fleet to sail towards a brand-new future with no boundaries of endurance.