DESIGN OF THE CONVEYING SUBSYSTEM AND COMMUNICATION SUBSYSTEM OF AN AUTOMATIC RACKING SYSTEM FOR WAREHOUSES IN CONVENIENCE GOODS INDUSTRY
To reduce errors in warehouse management system, an automated forklift robot (plant) can be used to assist operators in placing or retrieving items in the warehouse. This document will discuss the conveying subsystem and communication subsystem of this plant. The purpose of this document is to ex...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/72115 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | To reduce errors in warehouse management system, an automated forklift robot
(plant) can be used to assist operators in placing or retrieving items in the
warehouse. This document will discuss the conveying subsystem and
communication subsystem of this plant. The purpose of this document is to explain
the background, objectives, design, implementation, and testing results of these
subsystems. The conveying subsystem of the plant is implemented using a stepper
motor, motor driver, pulley gear, and timing belt as the driver of the conveying
frame of the plant, which functions to place and retrieve items. The communication
subsystem is implemented using the NodeMCU ESP8266 module, which has builtin
WiFi features. The communication protocol used is MQTT by utilizing free online
public brokers available. From the testing that has been carried out, the conveying
system can already respond to user work commands with adjusted movement
simulations, but there are still physical limitations on the conveying frame so that
the conveying movement cannot meet the expectations according to the
specifications, and the retrieval feature for a certain number of items cannot be
realized yet. Meanwhile, the communication subsystem includes the connection
between the GUI service connection and the controller which has been implemented
well according to the expected specifications. |
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