
IKVAGV intelligent storage systems include the following components:
1, AGV intelligent robot platform
AGV intelligent robots perform basic logistics, cargo locate, identify, crawl and cargo and other functions, depending on the application scenario, the robot can achieve intelligent logistics transport function of light, heavy and other types of logistics. Among them, the automatic navigation software, motion control module and the robot motion unit is a major component of intelligent robot platform. And compared to traditional logistics AGV, AGV intelligent robot platform can be a simple function to achieve full freedom of movement, security or transport logistics crawl flexible, traditional AGV product to achieve full freedom of movement, usually require a lot of extra equipment to complete deployment The laser reflector plate, are generally more expensive price. And flexible mobile features traditional AGV, usually located in the high-end, heavy products, it is difficult to meet the growing demand for lightweight intelligent logistics.
IKV intelligent robot developed at a low cost way to achieve a fully automated mobile navigation technology, the whole body to move the mechanical design technology, based on which the whole country has applied for patents to mobile image technology and inertial navigation.
IKV intelligent robot developed at a low cost way to achieve a fully automated mobile navigation technology, the whole body to move the mechanical design technology, based on which the whole country has applied for patents to mobile image technology and inertial navigation.
Logistics for light, a large number of intelligent robots can be used collaboratively, heavy logistics robot complete with laser navigation, in order to meet the system requirements flexible mobile, intelligent scheduling.
2, multi-robot cooperative and Scheduling System
In addition to flexible features intelligent robots individuals and precise control algorithms, multi-robot collaboration and scheduling technology is the core technology of intelligent logistics system. Multi-robot cooperative and scheduling system automatically generates a series of specific tasks based on the upper transport tasks and achieve the intelligent robot, the operator, storage shelves, logistics automation equipment, such as the traditional perfect butt. In order to achieve these interfaces, you need multi-robot cooperative and scheduling system to complete the work on the multi-robot task scheduling, congestion control, real-time monitoring, historical data mining and learning functions.
IKV technical team, successfully developed the world's leading multi-robot cooperative and scheduling system that can dispatch hundreds of intelligent robots working simultaneously to complete logistics system to automatically distribute tasks.
3, intelligent storage management design and optimization algorithms
With the increasing level of manufacturing and customer needs, a variety of industries warehousing systems are faced with many challenges: how to improve storage systems turnover efficiency, reduce labor costs; and how to improve the technical accuracy of warehousing operations; how fast do the heavy lifting goods picking and much more. Enterprise business decision-makers are increasingly concerned at the overall operating efficiency of the entire storage system, in order to solve these problems, the system from the perspective of overall optimization of the storage system, you need advanced intelligent warehouse design and optimization algorithms to improve the overall management of logistics operational efficiency
Smart storage design and management optimization algorithm is the core of the intelligent storage system, including storage mode of operation, business processes, warehouse layout, location assignment, location adjustments, order processing strategy, automatic replenishment strategy, planning and other aspects of the running path optimization algorithm module, through a common model and personalized custom interfaces to multi-robot cooperative and scheduling system as an execution layer, effectively connecting robot, logistics personnel, automation equipment, logistics management software, in order to achieve the overall smart storage design and management optimization.