Case Study Useful for In-House Production of Automated Guided Vehicles (AGVs) to Improve Productivity

Industries Material handling
Process and Equipment Name Automated guided vehicle (AGV)
Issue Increased productivity, labor savings, cost savings, space savings

Issue: To Improve Productivity by Introducing AGVs That Match the Conditions of the Company's Facilities

Existing Problems/Requests

  • Commercially available AGVs are not compatible with the company's facilities, adoption of AGVs has not progressed, and stalled efforts to improve productivity.
  • To produce a highly practical AGV, but the time and effort required for design and assembly makes it a burden to introduce.
  • It should be controlled by software that is easy to handle even for inexperienced users.

Solution: In-house AGV Equipped With the Brushless Motor BLV-R Series for Improved Productivity

Improving productivity is one of the key issues. In order to reduce the workload of factory staff and improve productivity, it is necessary to introduce AGVs suited to the company's needs. However, the time and effort required to design and assemble them has stalled their introduction.
Oriental Motor's brushless motor BLV-R Series and mobile robot controller reduce the time and effort required for design and assembly, contributing to the creation of compact and lightweight AGVs.

Image of an In-House AGV Using the BLV-R Series

Cross section of the drive system including motor with blue LED lights, control board, and battery inside a white body
Mobile Robot Controller MVC01 Recognizes Travel Coordinates
White small robot towing a cart with blue containers and cardboard boxes, moving along white guidelines on the floor
Maximum Payload Is 500 kg (With 400 W motor)

Battery-Driven, Compact, Lightweight and High-power Motor Suitable for AGVs

By introducing the brushless motor BLV-R Series, you can build a compact, lightweight in-house AGVs that can be operated even in small-scale factories. The motor (parallel shaft gearhead 400 W with gear ratio 30) is 146 mm in length and with a mass of 4.5 kg, while the driver is compact and lightweight at 65 mm (width) x 75 mm (depth) x 29 mm (height) and mass of 0.12 kg. It has already been adopted as the drive source for AGVs by many customers, including AGVs manufacturers.

Motor*

Comparison of dimensions and weight between the conventional product 400 W (154 mm, 5.4 kg) and the R-type 400 W (146 mm, 4.5 kg); product specification drawing showing an 8 mm size reduction and 0.9 kg weight reduction
*For the Parallel Shaft Gearhead 400 W and Gear Ratio: 30

Driver

Product improvement chart showing an 80 % reduction in volume and mass by evolution from the conventional product (160 x 100 x 45 mm, 0.6 kg) to R-type (75 x 65 x 29 mm, 0.12 kg)
For the 24 VDC 400 W type, the dimensions are 160 mm (width) × 110 mm (depth) × 35 mm (height) and the mass is 0.46 kg.

The high-power motor allows for the transportation of heavy loads. The maximum transportable mass of an AGV equipped with the BLV-R Series 400W motor is 500 kg.

[Transportation Robot Equipment Design Example]

Conditions

BLV-R Series
Motor
Type Parallel shaft gearhead
Output Power 400 W
Gear Ratio 30
Driving Condition Wheel Diameter 150 mm
Number of Drive Wheels 2
Acceleration Time 1 sec.

Result

Maximum Transportable Mass
(Transport robot body mass + load mass)
500 kg
Maximum Travel Speed 0.7 m/sec
  • *Calculated using a wheel friction coefficient of 0.1.
[Transportation Robot Equipment Design Example]

Mobile Robot Controller to Control AGV Motors

The lineup also includes robot controller convenient for driving AGVs with the brushless motor BLV-R Series. The MVC01 is a robot controller that controls the motors of transfer robot based on commands from a host controller. Equipped with the travel control functions required for AGVs, the MVC01 operates while keeping track of its own travel coordinates.
Compared to direct control by host controllers, it can reduce the number of ROS nodes and self-written programs, contributing to a reduction in the burden of software design.

Mobile robot control system configuration diagram: MVC01 controller and BLV-R Series motor controlled via Modbus communication from host controllers (PC, Raspberry Pi, PLC); overall system including MVC Studio support software, switch box, and driving wheel for transfer robots

Setup is done with the free downloadable software "MVC Studio.” The MVC Studio supports the mobile robot controller MVC01 from startup to maintenance, allowing the user to set and edit various parameters and monitor various statuses.

Proposed Product: Brushless Motor BLV-R Series Driving Wheel Motor

Left: Square stepper motor with silver flange; Right: Black stepper driver with orange terminal block and various connection ports; industrial precision positioning system

Driving Wheel Motor

Motor Rated Output Power

  • 100 W, 200 W, 400 W

Combinable Mobile Robot Controller

  • Mobile Robot Controller MVC01

In addition to product inquiries, please contact us about any issues you may have, or to request materials and samples.