OCF功能升级

“AGILOX为您带来一个更智能、更高效的未来!”

Dynamic Safety Field Switching

动态安全区域切换

客户经常需要将多个不同的载货载体从A点快速移动到B点。自主移动机器人 (AMR) 在行进方向上使用所谓的安全区域，以确保安全运输，并防止危及附近人员。安全区域的大小通常与载货载体（LC）的大小相对应。

Customers often need to move several different load carriers from station A to station B as quickly as possible. Autonomous Mobile Robots (AMRs) use so-called safety fields in the travel direction to ensure safe transport and to prevent endangering personnel in the immediate vicinity. The size of the safety field usually corresponds to the size of the load carrier（LC）.

过去，如果 AMR 需要移动不同类型的载货载体，通常会使用较大的安全区域，因为它无法区分两种不同的载货载体（LC）。这往往迫使 AMR 移动的距离比需要的距离更长，导致整个循环时间大大延长。我们的新型动态安全区域切换功能消除了这种低效现象。

In the past, if the AMR needed to move different types of load carriers, it usually employed a larger safety field since it could not distinguish between two different LCs. This often forced the AMR to travel longer distances than strictly necessary, resulting in significantly longer cycle times for entire swarms of AMRs. Our new Dynamic Safety Field Switching feature eliminates this inefficiency.

Process

流程

安全区域的大小可根据载货载体类型进行调整，从而优化路径并显著缩短循环时间

The size of the safety field is adjusted to the load carrier type, thus optimizing paths and significantly reducing cycle times.

AGILOX 机器可以扫描载货载体（LC），并根据 LC 的大小动态调整安全区域

The AGILOX scans the load carrier and dynamically adjusts the safety field to the size of the LC.

我们的机器人会根据当前载货载体的尺寸、安全区域和可用通道的宽度规划最佳路线

Our robots plan the optimal route depending on current load carrier dimensions, safety fields, and available aisle widths.

OCF 可以检测到较小的载货载体(LC)，并根据LC的尺寸自动调整其安全区域

The OCF detects the smaller load carrier and automatically adjusts its safety field to the size of the load carrier.

得益于 X-SWARM群体智能技术，我们可以检测 OCF 周围的环境，并根据当前载货载体的大小自动调整路线

Thanks to X-SWARM technology, we detect the OCF environment and automatically adjust its route depending on the size of the current load carrier.

Auto Fork Adjustment

货叉自动调节

不同的载货载体通常需要设置不同的货叉间距。较小的载货载体（如欧式托盘）与较大的载货载体之间需要不同的货叉间距设置。如果由同一辆车运输这两种载体，则自主移动机器人 (AMR) 必须根据不同载体调整货叉间距。

Different load carriers often require different settings for the distance between the forks. A smaller load carrier, such as a Euro pallet, requires different fork settings than a larger specialty load carrier. If both load carriers are transported by the same vehicle, the Autonomous Mobile Robot (AMR) has to adjust its forks to the particular load carrier.