Unmanned intelligent workshop control system

Abstract

The invention discloses an unmanned intelligent workshop control system. An unmanned intelligent workshop control method comprises a warehousing method and an ex-warehouse method. The unmanned intelligent workshop control system comprises a workshop management system, a workshop control system, an unstacking / stacking robot, a track type goods shelf, shuttle robot tracks, a shuttle robot, a wireless data transmission communication android system and an electrical control system, wherein the track type goods shelf is divided into multiple layers, the end portion of the goods shelf is provided with a freight elevator communicating with each layer of the goods shelf, and a trolley track of the shuttle robot is laid between the goods shelf and the freight elevator. According to the system, theoperation modes such as stacking and unstacking by the industrial robot can be realized, and the functions of personalizing, sorting, distributing goods, taking zero and returning to a warehouse can be realized; and PLC detection and analysis technology is utilized to realize the flexible discharging and warehousing process of the goods through the shuttle robot and the up-down layer change of thefreight elevator, the goods shelf is modularized and assembled, and a multi-layer three-dimensional workshop can be realized.

Description

technical field [0001] The invention relates to the technical field of warehouse management, in particular to an unmanned intelligent workshop control system. Background technique [0002] With the development of the economy, the market has higher and higher requirements for product production, transportation and storage, and higher efficiency in product logistics. In view of the current product warehousing, especially the intelligent warehousing system, there is still a defect that the product logistics process can only be controlled and managed. The Internet of Things and logistics informatization are still limited to the identification, automatic perception, and automatic positioning of items. In general applications such as , process tracking, and online scheduling, there are problems such as low efficiency of logistics information processing, inaccurate positioning, and insufficient utilization of logistics equipment. For example, in the process of picking materials, t...

AI Technical Summary

Problems solved by technology

[0003] However, often there are many kinds of materials in a picking work order, even if there are multi-station picking materials, there must be a situation where the same station picks multiple materials, so the staff or intelligent picking vehicles wait at the same station and their equipment The time to move the material to the picking station will be prolonged, and this way of working will reduce the overall production efficiency

[0004] The traditional workshop uses manual labor and forklifts to operate on the flat ground, which does not realize effective space utilization, messy work, and low efficiency of entering and exiting the warehouse; the problem still exists in the traditional workshop is that there is a vehicle walking passage between the roadways, and the turning radius is large. Take up a lot of space

The second-generation single- and double-extension stackers have sky-ground rails, but they still have the problems of large space occupation, complex structure, high failure rate, and high annual maintenance costs.

Images