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A kind of intelligent sowing equipment and its control method

An intelligent and equipment technology, applied in the direction of instruments, data processing applications, logistics, etc., can solve the problems of overall efficiency offset and inability to obtain overall operating efficiency

Inactive Publication Date: 2018-06-22
范剑斌
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0026] From the introduction and analysis of the above background knowledge, we can see that there are conflicts in the business characteristics of the two links before and after the current picking-and-sowing operation mode. , The requirement is that the smaller the size of the order combination, the higher the efficiency. The existence of this conflict has formed the limitations of the current mode of picking first and broadcasting later, and it is impossible to obtain better overall operating efficiency.
[0027] The two links before and after the current picking and sowing operation mode have conflicts in their respective business characteristics. The requirement for fruit picking is that the larger the order combination, the higher the efficiency, and the sowing requirement is that the smaller the order combination, the higher the efficiency. This conflict The existence of , leading to the self-cancellation of the overall efficiency

Method used

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  • A kind of intelligent sowing equipment and its control method
  • A kind of intelligent sowing equipment and its control method
  • A kind of intelligent sowing equipment and its control method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0165] Embodiment one: totally 100 sowing positions in the sowing wall, current task contains 80 orders, and the binding operation has been carried out to the 75th sowing position (the electronic label 5 with a light of the 75th sowing position is in a lighted state, this When the operator found that the container on the 70th sowing position was dirty and unusable, he replaced the container on the 70th sowing position with another container, and then scanned the barcode 6 of the 70th sowing position number, and the 75th The electronic label 5 with a light at the sowing position goes out, the electronic label 5 with a light at the 70th sowing position lights up, the operator scans the barcode 6 of the container number on the 70th sowing position, and the 70th sowing position The electronic tag 5 with a light goes out, and the electronic tag 5 with a light at the 75th seeding position lights up, as follows.

Embodiment 2

[0166] Embodiment two: totally 100 sowing positions in the sowing wall, current task contains 80 orders, and the binding operation has been carried out to the 75th sowing position (the electronic label 5 with a light of the 75th sowing position is in a lighted state, this When the operator scans the barcode 6 of the 85th seeding position number, the sound and light alarm will give an alarm (the seeding position is invalid), and the task monitor will display an error message. After scanning the bar code representing "confirmation", the sound and light alarm will reset and the task monitoring will The controller displays the interface of the container binding operation status after the error information is updated, and returns to the 75th seeding position to continue the normal operation.

[0167] 7. After the binding is successful on the last seeding position, the system will automatically light up all electronic tags 5 with a light that have been successfully bound.

[0168] 8...

Embodiment 3

[0177] Embodiment 3: There is already a product B on a certain seeding position. This time, according to the calculation, the product C is delivered to the seeding position. After the delivery is completed, it is found through retrieval data that there are 4 unbound orders, and the unbound order 101 includes the product: A, B, C, unbound order 102 includes commodities: A, B, C, D, unbound order 103 includes commodities: B, C, D, and unbound order 104 includes commodities: A, B, E, Among them, the commodities contained in three orders (order 101, order 102, and order 103) all include the existing commodities B and C on the seeding position, so the seeding position is not temporarily bound to any order one-to-one.

[0178] (3) Under the control of the dynamic intelligent seeding controller, when a commodity is put into a sowing position, if the commodity (or commodity combination, if there are other commodities on the sowing position) and multiple If the intersection of the orde...

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Abstract

The invention discloses an intelligent seeding device and control method thereof. The device comprises a dynamic intelligent seeding controller, a monitor, a data exchange port, a mouse keyboard, a plurality of wireless scanning guns, an electronic label controller, and a seeding wall; a worker obtains the suggestion of a seeding action through the steps of preparing the operation, loading a task, binding a container, initially positioning, scanning commodities and performing multi-latitudinal cross-footing on the commodities, an operator position, an order and a seeding position, finishes the seeding and recycles the container. Through the adoption of the intelligent seeding device, the seeding job has higher efficiency, and is more suitable for large-scale operation; the overall efficiency inflection point related to the increment of the order combination scale is eliminated or infinitely improved.

Description

technical field [0001] The invention relates to the technical field of logistics storage systems, in particular to an intelligent sowing device and a control method thereof. Background technique [0002] At present, the processing method often adopted by the logistics center for multiple orders (orders containing 2 or more items) is the process of picking first and then sowing. The specific process of picking first and then sowing is as follows: [0003] First form a combination of several orders, the number of orders is limited by the number of sowing positions on the sowing wall, and can only be less than or equal to the number of sowing positions on the sowing wall; in this combination, the orders are summarized by commodity, that is, the statistics of the The total quantity of all commodity requirements involved in the orders in the combination and the quantity that should be allocated for each order. For example, a specific example, the relevant data is shown in Table ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06Q10/08G06K17/00
Inventor 范剑斌
Owner 范剑斌
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