Please activate JavaScript

JavaScript is currently disabled on your device. Please enable JavaScript in your browser for the best shopping experience in the web shop. You can find more information here.

Control and navigation

Contact

LEO models

FAQ

Intralogistic automation with BITO LEO

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

The LEO driverless transport system from BITO automates the in-house material flows reliably and economically – without requiring complex IT integration. The track guided navigation using optical lines means that the automated guided vehicle (AGV) can operate precisely, safely and with little maintenance effort. Fixed routes ensure transparent processes, low operating costs and a seamless connection between warehouse, production and mailing departments.

Straightforward, scalable, modular and economical
Optical, track guided navigation
No IT integration necessary, though possible
Perfect for confined spaces

View products

Receive advice now

What is the BITO LEO system?

Track guided precision instead of complexity – an overview of the BITO LEO system

The LEO system offers an alternative to freely navigating automatic guided vehicles (AGVs) which is easy to implement and track guided. While freely navigating AGVs come with high investment and integration costs, LEO works with optical track guidance technology: a coloured strip on the floor and printed markers with QR codes perform navigation – precisely, reliably and without complicated IT integration.

This means that material flows can be automated within a few days without requiring any intervention in existing IT or conveyor systems. The LEO transport robots automatically identify loading stations, transfer stations and destination points and travel along defined routes with precision. Routes can be adapted without external tools – the system grows with the processes, not the other way round.

As a result, companies receive a driverless transport solution with significantly lower investment and operating costs, and one that runs reliably when other systems long since required support. The BITO LEO system is robust, standardised and CE certified.

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Practical examples and success stories using the BITO LEO system

Video insights: automated material flows

Overview: four versions for different requirements

Four versions of LEO – one technology, many potential applications

BITO’s LEO transporters are track guided driverless transport systems for the automation of in-house transport. Depending on the application, there are four versions available – from standardised container transport to customised special solutions.

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

LEO Locative – entry level automation

For containers, trays, cartons
Up to 35 kg
Automates container and cardboard box transport processes between fixed workstations or with manual transfer
For regular material flows in order picking, Kanban processes or interlinked machinery

View product

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

LEO Carrier – the smart order picking assistant

For containers, trays, cartons
Up to 60 kg
Collection vehicle can be used for order picking or as a “mobile buffer storage space”
Tablet-based operation for versatile destination selection and order management
Perfect for zone-based order picking and resupply processes

View product

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

LEO Flow – driverless transport meets conveyor technology

For all solid load carriers
Up to 50 kg
Equipped with a belt conveyor
Can deliver goods directly to conveyor systems or collect them from there
Supplements existing conveyor systems or automatically operated workstations
Two versions: with a fixed height or scissor lift mechanism for height differences of up to 1600 mm

View product

Control and navigation – optical guidance

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

The LEO system is controlled on the basis of optical track guidance. A coloured strip on the floor (blue or green) defines the route, while markers with QR codes send driving commands, stopping points, speeds or operations such as opening gates. This technology does not require full Wi-Fi coverage and allows fast adaptation of routes without programming.

The route guidance is precise and ensure repeat accuracy, as the vehicles are navigated along the track exactly. Markers can be repositioned or added as required to implement route changes, new destinations or traffic rules. If the routes change, an employee can reposition or remove the track strip – quickly, easily and without software adaptations.

Two versions of the LEO track strip are available for applications: the Flex track strip is particularly suitable for straightforward applications without high requirements of durability. The Robust track strip provides a more robust alternative and is resilient to floor cleaning activities.

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using a tablet on the vehicle

Direct control using a built-in tablet with the BITO app
App: destination input, route programming, loading commands directly at the vehicle
Standard feature for LEO Carrier, can be retrofitted as an option for LEO Locative, Flow and Custom

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using a tablet and LEO Smart Box

Destination input: separate vehicle and tablet (connected to Smart Box)
Smart Box automatically communicates with the next available vehicle for an order
Particularly suitable for LEO Flow and Locative

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using bar codes

Each load carrier is given a bar code with an assigned destination
LEO bar code reader stationary or as a hand-held scanner
After scanning, the next available vehicle receives the destination command by means of the LEO Smart Box

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using customer bar codes

Customer bar codes saved in the LEO Smart Box as CSV files
Can be adapted at any time by the customer after a briefing

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using warehouse management system

LEO Smart Box features an automation interface
RS232/RS485 interface for sending commands using external systems (e.g. warehouse management system)
Central control of destination allocation for LEO
Feedback about serial number, last destination, load and battery status upon return to the source station

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

Control using Com-Server and order control

As an upgrade for complex processes: each Smart Box is equipped with a Com-Server to ensure network compatibility
This means that a higher level control system can manage and control pick up and drop off points, loading stations or traffic regulation points in one system
Availability of a suitable order management system from BITO

Products in the webshop

Accessories

Contact me!

A new manufacturing plant. Modular prefab offices. Intelligent room dividers. Or perhaps a customised solution for the warehouse. Assembly, planning, installation. A factory within a factory. A table that doubles as a scissor lift platform truck. Or staff rooms. Whatever the task – our project experts will find a way.

Matthias Bahngruber, Project Manager

sales@kaiserkraft.co.uk

The LEO models – the right system for every application

Four versions, four solutions – customised to your material flow

LEO Locative

The LEO Locative is the most straightforward and, at the same time, most efficient solution for automation of in-house container and cardboard box transport. The system works using standardised transfer stations at which the load is automatically picked up or dropped off as it passes through – without stopping.

Advantages:

Automated transport of containers, cardboard boxes and trays between defined workstations
Particularly suitable for order picking, machinery supply and Kanban processes
Automatic pick up and drop off using standardised transfer stations or manual transfer by employees
Drive through principle: containers are picked up/dropped off as they pass through the station without stopping for short cycle times
Easy to upgrade: additional stations can be added at any time without system adaptation
Ideal for unvarying material flows (e.g. between machines, shelf units or buffer zones)

Typical applications: incoming goods – storage, order picking – consolidation, interlinked machinery

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

View product

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

View product

LEO Carrier

The LEO Carrier is a track guided driverless transport system with an integrated shelf system for order picking and resupply processes. Different containers or goods can be transported simultaneously on several shelves. The system is controlled using a tablet directly on the vehicle, which can be used to select different destinations. This allows the carrier to support zone-based order picking and material resupply between storage and production areas while also reducing walking distances

Advantages:

Provides support for employees with order picking, resupply and production orders with four storage or removal shelves
All-in-one: can also be used as a manual order picking trolley or mobile buffer store
4 shelves each 655 × 495 mm, total effective load 60 kg
Can transport several orders at the same time
Versatile destination control using integrated tablet: order and route selection directly on the vehicle
Enables zone-based order picking, in which several orders are processed simultaneously
Home base function: returns to the starting position at the end of the order – saves search and waiting times
Ideal for dynamic order picking and resupply processes, seasonal fluctuations or multi-shift operation

Typical applications: order picking, mailing preparation, production supply, multi-shift operation, resupply, returns processing

LEO Flow

The LEO Flow is a track guided driverless transport system with an integrated belt conveyor, which delivers loads directly to conveyor systems or picks them up from there. It therefore serves as a mobile connection between already installed conveyor systems, automated small parts warehouses and manually operated workstations. This adaptability allows the LEO Flow to be seamlessly integrated into existing systems and to support interlinking of different conveyor technology sections without having to install new stationary conveyor lines.

LEO Flow is available in two versions:

Fixed height: for unchanging transfer heights, for example when connecting conveyor lines at the same level
Scissor lift mechanism: with automatic height adjustment of the container holder for height differences of up to 1600 mm

Advantages:

Interconnects automated conveyor technology – for use as a material flow bridge between automated systems without an additional conveyor section
Automatic pick up and drop off of containers by means of an integrated belt conveyor
Versions for fixed transfer heights or with an automatic scissor lift function
Compatible with standard conveyor systems, automated small parts systems and buffer shelf units
Seamless integration into existing material flow concepts
Supports continuous operation at automatically operated workstations

Typical applications: connection of automatic storage systems, buffer and mailing areas, machine and line production

$Automated intralogistics with BITO LEO – efficient material flows | {cms.var.company_name} wt$$

View product

FAQ – frequently asked questions about the BITO LEO driverless transport systems

How does the LEO system work without Wi-Fi or a central control system?

The LEO transporters operate using optical track guidance: a strip on the floor defines the route, while markers with QR codes send instructions such as stops, turns or speeds. This means that the vehicles do not require any Wi-Fi, radio connection or software installation. New routes or changes are easy to implement by sticking on new markers – without requiring programming or external technicians. This makes the system particularly robust, cost efficient and quick to customise

What distinguishes the LEO system from other driverless transport systems?

In contrast to many conventional driverless transport systems, the LEO system does not require any complex IT integration or 3D navigation. Track guidance using markers is simpler, safer and requires less maintenance. Investment costs are also significantly lower, as there is no need for servers, Wi-Fi coverage or expensive commissioning by external service providers. LEO systems are ready for use in just a few days and are scalable, as new vehicles can be added at any time.

What versions of the LEO system are available and what are they suitable for?

The LEO product range is comprised of four different versions:

LEO Locative: automated container transport between fixed stations
LEO Carrier: mobile shelf unit system for order picking and resupply
LEO Flow: for the connection of driverless transport systems and conveyor technology – with optional scissor lift mechanism up to 1,600 mm
LEO Custom: customisable platform for special transport requirements and tugger trains. All systems can be combined and offer a standardised control logic and power supply.

How is the LEO system controlled and integrated into operations?

There are different options for the control system:

Using a tablet directly on the vehicle,

or by using a tablet with a Smart Box, which automatically assigns orders to the vehicles available. Neither version requires centralised software or Wi-Fi. Integration into an existing environment is straightforward: routes are marked, stations are positioned, markers are programmed – and it’s done. The entire process from set-up to operational start usually only takes a few days.

How long does the battery of a LEO transporter last for, and how is it charged?

The vehicles are equipped with LiFePo₄ batteries that provide up to 16 hours of operating time per charge.

Charging is done either manually by using the integrated charging connection or automatically with a contact charging station, which the LEO automatically drives to.

The batteries are low maintenance, hardwearing and particularly safe from overheating or deep discharge. With over 1000 charging cycles and low energy consumption (approx. 200 kWh/year), operation is extremely economical.

How safe is the operation of LEO transporters?

All LEO systems comply with the Machinery Directive 2006/42/EC and the ISO 3691-4 standard for driverless transport systems.

Due to track guided navigation, there is no risk of collision due to unexpected motions.

Sensors and safety bars automatically stop the vehicle in the event of encountering obstacles. As there is no Wi-Fi communication or cloud connection, the systems are also cyber-secure and operated entirely locally.

How fast the system to introduce?

A major advantage of the LEO transporters is the short introduction time:

Most projects can be implemented within two to five days – including installation of the track guidance system, transfer stations and test drives.

As no software installation or network connection is required, productivity is maintained during implementation. LEO is therefore also ideal for companies that wish to automate step by step.

What maintenance does the system require?

LEO systems are virtually maintenance free.

The vehicles only require regular visual inspections and a battery replacement after several years of operation.

As there is no complex sensor technology, no Wi-Fi communication nor central software, the typical maintenance costs of classic driverless transport systems are eliminated.

This significantly reduces operating costs and ensures maximum availability and a plannable cost structure.