01
Exquisite Group Control
Multiple AGVs can work simultaneously on a single floor. Efficient operation without buffering each other prevents yield loss.
AGV/AMR
Improved productivity in factories and warehouses: Labor-saving by automated transport solutions, and the reduction of burden and human errors
AGV:automatic guides vehicle
HIKROBOT
TAKUMI
AMR:autonomous mobile robot
ASPINA
EffiBOT
Kachaka
Mobisnet
Next-generation logistics system using autonomous mobile robots
Manpower Saving
AGV’s transport products, reducing employee workload.
Flexible Transport Layout
Topological mapping enables a flexible layout.
Reduction of Human Errors
Automatic AGV transport reduces human operation errors.
HIKROBOT
Labor-saving by automated transport solutions and the reduction of burden and human errors to improve productivity in factories and warehouses
Widely used in industries such as 3C, automotive, manufacturing, e-commerce logistics, 3PL, food, and pharmaceutical.
Hikrobot’s intelligent robot solution streamlines the logistic process, reduces costs, and supports innovation.
02
Host Manages AGVs via Wi-Fi
Under the direction of the host, a non-functioning AGV will be replaced with a new one that works immediately.
03
High Operating Rate
The battery has a continuous operating time of 8 hours.
An AGV goes to the charging station by itself before its battery runs out.
TAKUMI
Achieve increased productivity in product picking with domestically produced AGVs that combine power and accuracy.
Both hardware and software can be fully customized.
We provide thorough support not only during implementation but also for maintenance and support afterward.
01
The peace of mind that comes from domestic manufacturing
A domestic manufacturer handling research, development, design, and maintenance. Their products feature a design specifically for the domestic market, adhering to strict safety standards and minimizing the effects of dust, moisture, and other environmental factors.
02
High stopping accuracy and flexible response
With its high stopping accuracy, it is ideal for integration with other equipment such as conveyors. Beyond shelf transport, it enables flexible solutions for in-plant logistics—such as pallet transport and direct pallet transfer to automated warehouses—thereby facilitating factory automation
03
Full hardware/software customization
We offer a wide range of customization options tailored to your specific site, including hardware customization, PLC- controlled integration with shutters, and integration with automated warehouses.
| TiTra G 500 | TiTra G 1000 | |
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| Vehicle weight | 245kg | 374kg |
| Vehicle dimensions | D950 × W720 × H290 mm | D1132 × W850 × H290 mm |
| Supply voltage | Lithium-ion rechargeable battery・51.2V・36.6A/h | Lithium-ion rechargeable battery・52.8V・35A/h |
| Maximum Loading Weigh | 500kg | 1000kg |
| Steering contro | Two-wheel speed difference control | |
| Driving functions | Forward, spin turn | |
| Speed | 1.2 m/s | |
| Stopping accuracy | ±10㎜ | |
| Minimum turning radius | 501 mm | 641 mm |
| Communication Capabilities and Charge/Discharge Ratio | Wi-Fi wireless communication, 30 minutes charge, 3 hours of operation | |
| Charging method | Automatic charging function based on remaining battery level detection | |
| Transfer equipment | Lifter | |
AspinaAMR
Easy to implement, automate now
-Return on investment in less than a year* AMR for manufacturing sites-
Small size, small movements, all-in-one design including hardware and software.
An easy-to-install in-plant transport robot that works with workers on site.
01
Investment payback* within one year
Easy-to-operate software is included in the standard package. Anyone can easily automate conveyance and save manpower.
02
Create a worker-friendly work site.
Automation with AspinaAMR of heavy labor-intensive and time-consuming transfer operations can promote production line efficiency. In addition, it can be expected to reduce the burden and fatigue of workers and reduce man-hours, enabling them to engage in more value-added work.
03
Can be safely introduced to manufacturing sites
The robot can be introduced from a single unit without changing the layout of the manufacturing site, making it possible to start the transfer automation process on a small scale. We develop and manufacture everything from the robot itself to the control software in Japan, so we provide extensive support for our customers' conveyor automation until after the introduction of the system.
* Manufacturer's research. Calculated using the payback period method under the following conditions Depreciation life is 3 years, corporate tax rate is 30%, no change in sales and variable costs due to capital investment, and labor saving.
| Standard model | Lift model | Aspina AMR300 | ||
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| Various factors or elements | Body size | W600 × D600 × H260 mm | W600 × D600 × H280 mm*1 | W600 × D800 × H380 mm |
| Maximum speed | 3.6 km/h | |||
| Driveability | Step: 5mm Angle: 3° Groove width: 30mm*2 | |||
| Stop Position Accuracy | Standard position: ±50mm, Angle: ±5 With derivative assist (option): ±10mm, Angle: ±2° |
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| Maximum Loading Weight | 100kg | 85kg | 300kg | |
| Power | Battery | Lithium-ion iron phosphate battery | ||
| Charging method | Plug-in or automatic charging (optional) | |||
| Interfaces | Wireless LAN | 802.11a/b/g/n/ac | ||
| USB | Type-A port x 1 - allows connection of QR code reader, etc. | |||
| Signal I/O | 6 input/output I/O channels each (for operation linkage between AMR and external devices) | Eight input/outpu | ||
| Sound | Voice and melody for each operation report |
Obstacle Detection:
Two locations (visible from the front, back, left, and right) Alarm device:Speaker |
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| Safety | Safety features | Proximity/contact detection by emergency stop button and various sensors | ||
| Safety standards | Scheduled to comply with JIS D6802 | |||
| Other | Other Functions | Map creation/obstacle recognition and avoidance/automatic route search/automatic door support/obstacle setting on map (setting of no-entry areas)/registration of stop positions and programs (routes)/instructions using QR codes/setting of narrow passages/calls to designated positions | ||
※1 Dimensions when lifted down. When lifted up, it will be H330mm.
※2 Applies under conditions of speeds of 1.0 km/h or less.
※3 Operation is not guaranteed in all operating environments.
※4 Specifications, features and appearance are subject to change without notice for performance improvement or other reasons. Please note that specifications, features, appearance, etc. are subject to change without prior notice for performance improvement or other reasons.
※5 AspinaAMR is a registered trademark of Shinano Kenshi Co.
※6 QR Code is a registered trademark of DENSO WAVE INCORPORATED.
EffiBOT
4WD Autonomous Mobile Robot (AMR)
-Labor-saving solution for logistic warehouses and in-plant logistics-
Optimize transport operation via the human-AMR collaboration “Follow-me”, autonomous transport, or combinations of the two.
Multiple sensors, covering 360°, for easy and immediate use.
01
Unparalleled Running Ability
4WD and large tires for use in environments where the surface is not flat, for example a floor with steps.
Efficient for long-distance and heavy load transportation.
02
Unique Collaborative Transport
AMRs follow back and forth just as you would imagine.
Operators can use both hands to concentrate on value-added tasks other than transport. The vehicle can also tow materials.
03
Automated Guide Vehicles With Flexible Route Setting
No need for guide tapes or any other infrastructure on the floor, the AGV allows users to freely set their own transport routes and operation rules. You can flexibly expand the routes to interlock stand-alone autonomous transfer with external facilities and host systems.
| Two-wheel drive | Four-wheel drive | |
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| Vehicle body size | 1450 × 660 × 550 mm | |
| Vehicle weight | Approximately 140kg | |
| Maximum carrying capacity | 200kg | 300kg |
| Maximum traction weight | 200kg | 500kg |
| Operating temperature | -10°C to 45°C | |
| Maximum spee | 6km/h | |
| Travel time | 6 to 8 hours | |
| Communication | Wi-Fi | |
| Wheel space | 800 mm | |
| Road width required for a U-turn | 3,300 mm | |
| Minimum turning radius | 1,200 mm | |
Kachaka Pro
Automating the "transportation" aspect of operations The smallest class of autonomous transport robots
- Compact, inexpensive, and easy-to-operate AMR -
No programming knowledge required. Can be implemented immediately.Using proprietary AI technology, it transports items safely without disrupting foot traffic.It reduces the workload in all kinds of settings, including clinics, restaurants, and factories.
01
Surprisingly compact design
With a compact body measuring 24 cm wide and 38.7 cm deep, it can navigate narrow aisles as small as 55 cm with ease. It enables automated transport in limited spaces without requiring changes to existing layouts. It won’t get in the way, even in high-traffic areas.
02
Advanced autonomous driving (SLAM)
No magnetic tape or markers are required. Using the latest SLAM technology that combines LiDAR and cameras, the robot accurately estimates its own position. AI detects and avoids obstacles in real time, autonomously determines the shortest route to the destination, and navigates accordingly.
03
Easy Setup for Everyone
Simply follow the instructions in the dedicated smartphone or tablet app, and anyone can easily complete the process from mapping to setting a destination. With the optional "Click-and-Go Button," one- touch transport is possible without needing to use a computer.
- It can operate in aisles as narrow as 550 mm.
- It operates in narrow passages where conventional transport robots cannot function, and moves without obstructing pedestrian traffic.
- By following the app’s instructions, you can get started right away without needing any special knowledge.
- After that, you can transport the item simply by pressing a button.
| Kachaka PRO | |
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| Body size | W240 × D387 × H124 mm |
| Vehicle weight | 12.2kg |
| Maximum speed | .8 m/s (without shelf) (0.5 m/s with shelf) |
| Maximum towing capacity (including trailer weight) |
30kg(on hardwood floors),20kg(on carpet) *Varies depending on floor material, etc. |
| Minimum lane width | When towing Kachaka Base: 550 mm When towing Kachaka Shelf: 650 mm |
| Driving performance | Step height: 5 mm, Angle: 2° *May vary depending on usage environment and towing weight, etc. |
| Continuous operating time | 2 hours or more |
| Charging time | 2 hours or more |
| Cameras | 2 RGB cameras |
| Sensors | 1 laser sensor, 1 3D sensor, 2 step sensors, 1 shelf recognition sensor |
| Sound | 4 microphones, 1 speaker |
Mobisnet
n use across a wide range of environments
- Flexible transport and a comprehensive lineup of AMRs -
AMRs developed from the medical field, offering high performance, precision, and reliability.With a diverse product lineup and high customizability, they adapt flexibly to a variety of environments.
01
Highly Customizable
Supports a wide range of interfaces, including RFID, password management, voice control, and touchscreen operation. Advanced integration capabilities are also available, such as elevator integration, automatic door control, and multi-unit control systems.
02
Suitable for a Wide Range of Applications
Thanks to its diverse options— such as call buttons, emergency stop buttons, and the ability to power various devices via a service power supply—it is used in a wide variety of environments. It is currently in use in factories, hospitals, offices, hotels, libraries, and more.
03
Advanced Safety
Advanced sensor technology ensures safe driving. Safety features can be further enhanced through customization options such as cameras and dashcams.
| AMR50 | AMR100 | Nuta v2 | |
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| Model name | AMR50 | AMR100 | NUTAV2 |
| Body size | 41.9 × 40 × 22.3 cm | 57.9 × 55.4 × 26.6 cm | 50 × 50 × 125 cm |
| Vehicle weight | 12kg | 35kg | 45kg |
| Color | Black / White | White | Black / White |
| Loading weight | 50kg | 100kg | 5kg(each container) |
| Travel Speed | 1.0 m/s forward | ||
| Navigation Accuracy | ±8〜10 cm | ±3 cm | ±3 cm |
| Continuous operating time | 8–13 hours | 8–12 hours | 7–9 hours |
| Charging time | 6 hours | 4–5 hours | 4–5 hours |
| Gradeability | 5% | ||
| Step/Groove Width | Step: 1.5 cm / Groove: 3 cm | ||
| Sensor Configuration |
2D Lidar ×1 Depth Camera ×2 Ultrasonic Sensors ×7 |
2D Lidars x2 Depth Camera ×1 Ultrasonic Sensors ×6 |
2D Lidars x4 Depth Camera ×1 Ultrasonic Sensors ×6 |
| Battery | Lithium-ion battery 14.8V / 20.1Ah | Lithium-ion battery 25.2V / 20Ah | Lithium-ion battery 25.2V / 20Ah |
| Charger | Input: 100–240VAC 50/60Hz Output: 24VDC 4.2A |
Input: 100–240VAC 4.5A 50/60Hz Output: 28.8 VDC 5A |
Input: 100-240VAC 4.5A 50/60Hz Output: 28.8 VDC 5A |
| Communications / I/O | Ethernet, 10Pin I/O, USB ×1, HDMI ×1 |
Ethernet, Power Output 5V/12V |
Bluetooth 4.0 Wi-Fi 802.11 a/b/g/n/ac |
| System | Ubuntu+ROS | Ubuntu + ROS |
OS: Ubuntu+ROS, Android 11 CPU: ARM® Cortex®-A53 i.MX 8M Plus Quad RAM: 6G ROM: 16G |
| Interfaces | None | None |
Display: Front/10.1-inch LCD Touch Screen Rear/8.8-inch LCD Audio: 5W Speaker x 2 Camera: 5M Pixel Buttons: Power button x 1, Emergency button x 1 |
| LED | RGB LED strip | ||
| Authentication |
Battery: UN38.3 Charger: BSMI, CE & UKCA, RoHS, TUV, UL Lidar: IEC 60825-1 CLASS 1 |
Battery: UN38.3, PSE, IEC62133 Charger: CE & UKCA, RoHS, TUV, RU Lidar: IEC 60825-1, CLASS 1 |
Battery: UN38.3, PSE, IEC62133 Charger: CE & UKCA, RoHS, TUV, RU Lidar: IEC 60825-1, CLASS 1 |
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