Pick-and-Load Omnidirectional Forklift (PiLOF) 

Emerging of new technology such as Automated Guided Vehicle (AGV) and Remotely Controlled Vehicle (RCV) as well as Internet of Things (IoT) demand, the forklift system has potential to be designed with semi-autonomous or maybe fully autonomous configuration for both long and short distance operations. However, most of the AGVs/RCVs in the market are available for the certain standard size of the area of work in which unable to meet the user requirement for the case of confine and narrow area deployment.  This project was initiated by our collaborator Vacuumschmelze (M) Sdn. Bhd., to simplify and automate their heavy spool pick-and-place process from confined inventory with 170cm x 270cm square, to the testing room repeatably not more than 20 minutes approximately as shown in Figure 1 for the overall flow process and as shown as Figure 2 for top view of the site process. 

Figure 4: Example of PiLOF Forklifter swallow operation 

Pick-and-Load Omnidirectional Forklift (PiLOF) or formerly known as Mini Heavy Loaded Forklift Autonomous Guided Vehicle (MHeLFAGV) [patent applied] as shown in Figure 3 was started developed in mid 2014, is designed with RCV concept with swallow mechanism to handling between 20-200kg payloads at the confine warehouse. PiLOF is designed to suit with the 170cm x 270cm square area that configured with tri-tips and 2-axis of fork-lifter to pick-and-place and extend-retract a spool item operation respectively. The omnidirectional mechanism was chosen by configuring four industrial-scale mecanum wheels as PiLOF’s wheels. Moreover, this customized fork-loader unit also equipped with absorber unit to deal with any uneven terrain that essential for mecanum wheel and its movement topology. 

Figure 8: Additional absorbance/suspension 

Figure 9: Wireless remote control with wireless video viewer 

Figure 1: Pick-and-place heavy spool process 

Figure 2: Top view of inventory warehouse with confine area and flow of heavy spool pick-and-place process 

Figure 3: Overview of PiLOF unit (First phase design) 

Wireless remote controls and mainly with two stages of controller boards; Board 1 and Board 2 was developed as a controller and monitoring unit of the system.  The overview of PiLOF control architecture as shown in Figure 6. The intensive tests and experiments were done by operating both indoor and outdoor operation on PiLOF. The structure model was verified with some finite element analyses and the motion algorithms in which were validated in the wide terrain area with Global Positioning System (GPS) as its waypoint tracer as shown as sample in Figure 7. 

Figure 6: Overview on PiLOF Control System Architecture 

For second stage of progress, PiLOF has been enhanced with additional suspension to deal with the uneven ground surfaces. According to the first trial on site, some area of the floor in targeted warehouse have uneven surfaces that disturbing vehicle motion. Moreover, this additional part consider to increase the height of the vehicle so that it can deal with any rack of cartons in the inventory site. In addition, remote control with wireless video viewer also added for user to view the targeted spool to be grasped as shown in Figure 9. This remote system allow user to align the fork to be nearly to the target spool so that the automatic alignment process time can be reduce. It also as emergency tool if the automatic grasping system is malfunction.