Products & Services

Autonomous Forklift CarriRo Fork Reach Type

CarriRo Fork Reach type is one of the lineup of Autonomous forklift CarriRo Fork.

Autonomous Forklift CarriRo Fork Reach Type

This is an Autonomous electric forklift truck that applies the Autonomous Driving technology developed by ZMP.
Reach type allows automatic picking of pallets placed on the floor.

Luggage can be transported to the location or via the route set by Autonomous Driving technology.

It can lift to a height of 5.6m, and can be loaded and unloaded on racks that are vertically stacked with 2 to 3 tiers.
Corresponding to a passage width of 3.2 m, it can make small turns.

After the work is complete, it can return to the parking area and take measures such as automatic charging.

Concept Video:​ ​

The video explains the functions and features of the Autonomous forklift CarriRo® Fork based on the sensors installed on the actual machine.

Features and Functions demo video

Product Specifications

Body dimensions 全長2307×全幅1380×全高2750 (mm)
 フォークリフトタイプ  リーチ
Payload ~ 1400kg
Maximum speed

4.2km/h when not loaded, 3.6km/h when loaded

Movement accuracy / Stop accuracy

± 20mm / ± 20mm

Vehicle weight 2975kg
Safety function レーザーセンサー、バンパーセンサー、緊急停止ボタン

Autonomous Forklift CarriRo Fork Price

Currently, it is sold as a 5-year lease.

CarriRo® Fork (reach type): 338,000 JPY (excluding tax) per month / 1 unit for 5-year lease

* We opt to offer the purchase option. Prices may change without prior notice.

Catalog download

Contact us by phone

TEL: 03-5844-6211

Contact us by email

ZMP related products that contribute to the logistics

In addition to the logistics support robot CarriRo, below are some related products which can be chosen according to the application.
Logistics support robot CarriRo®
Assist function, Tracking function, Autonomous Movement function
Delivery robot equipped with Autonomous Driving function
Mobile platform for research and development
RoboCar® MV 2
Single-seat electric vehicle based Autonomous Driving development platform