CN115208913A - Chip incoming material storage management method and system - Google Patents

Abstract

The invention relates to the technical field of chip storage, and discloses a chip incoming material storage management method and system. Chip supplied materials warehouse management system includes: a plurality of bluetooth location labels, platform and warehouse management system in the commodity circulation, chip incoming material warehouse management method includes: the logistics center platform issues a storage instruction of the chip materials to the warehouse management system; when chip materials are put in a warehouse with the Bluetooth positioning tags, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials; the warehouse management system updates the inventory information based on the material information of the chip materials being put in storage. According to the invention, the online management of the goods is realized by introducing the Bluetooth positioning tags, the manual management cost is reduced, and the warehouse management efficiency is improved.

Description

Chip incoming material storage management method and system

Technical Field

The invention relates to the field of chip storage, in particular to a chip incoming material storage management method and system.

Background

The chips are high-value goods, when an upstream supplier delivers goods, the number of the chips in each box is different from that of the chips in many times, and meanwhile, the goods of the upstream supplier does not have a unique box number, so that the chip materials are mixed, the subsequent warehousing and delivery management and material checking are not convenient, the warehousing management is difficult and the error is easy to occur, the warehousing management efficiency is not high, and the subsequent links of production and warehousing are greatly influenced.

In the prior art, the goods are generally managed to be delivered into and out of a warehouse and picked manually, the labor cost is high, the efficiency is low, mistakes are easy to make, and the goods cannot be tracked in real time.

Disclosure of Invention

The invention mainly aims to provide a chip incoming material warehousing management method and a chip incoming material warehousing management system, and aims to solve the technical problem of low warehousing management efficiency in the prior art.

The invention provides a chip incoming material warehousing management method, which is applied to a chip incoming material warehousing management system, wherein the chip incoming material warehousing management system comprises: the chip incoming material warehousing management method comprises the following steps of:

the logistics middle platform issues a storage instruction of the chip materials to the warehouse management system;

when the chip materials carry the Bluetooth positioning tags to be put in storage, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials;

the warehouse management system updates inventory information based on material information of the warehoused chip materials.

Optionally, in a first implementation manner of the first aspect of the present invention, the chip incoming material warehousing management system further includes: the internet of things system, the chip incoming material warehousing management method further comprises the following steps:

the internet of things system acquires the unique identification information of the Bluetooth positioning tags in the warehouse in real time or at regular time, and dynamically updates the inventory information of the in-warehouse chip materials in the internet of things system based on the unique identification information of the Bluetooth positioning tags in the warehouse.

Optionally, in a second implementation manner of the first aspect of the present invention, after the warehouse management system updates the inventory information based on the material information of the warehoused chip materials, the method further includes:

the logistics center platform receives first inventory information uploaded by the warehouse management system after the chip materials are put in a warehouse;

the logistics center platform initiates an inventory information checking request to the Internet of things system and acquires second inventory information of the in-store chip materials returned by the Internet of things system;

and the logistics center platform compares the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

Optionally, in a third implementation manner of the first aspect of the present invention, when the chip material is put in storage with a bluetooth positioning tag, the reading, by the warehouse management system, unique identification information of the bluetooth positioning tag, and binding the unique identification information of the bluetooth positioning tag with the material information of the chip material includes:

when the chip material carries the Bluetooth positioning tag to be put in storage, the warehouse management system obtains unique identification information of the Bluetooth positioning tag by scanning a bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and the warehouse management system binds the unique identification information with the material information of the chip material.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the chip incoming material warehousing management method further includes:

the logistics center platform issues a delivery instruction of the chip materials to the warehouse management system;

when the chip materials are taken out of the warehouse and the Bluetooth positioning tags are removed, the warehouse management system unbundles the unique identification information of the Bluetooth positioning tags carried by the chip materials taken out of the warehouse and the correspondingly bound material information;

and the warehouse management system updates the inventory information based on the material information of the ex-warehouse chip materials.

Optionally, in a fifth implementation manner of the first aspect of the present invention, after the warehouse management system updates the inventory information based on the material information of the ex-warehouse chip materials, the method further includes:

the logistics middle platform receives third inventory information returned by the warehouse management system after the chip materials are delivered from the warehouse;

the logistics center platform initiates an inventory information checking request to the Internet of things system and acquires fourth inventory information of the in-store chip materials returned by the Internet of things system;

and the logistics middle platform compares the third inventory information of the warehouse management system with the fourth inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

The invention provides a chip incoming material warehousing management system in a second aspect, which comprises a logistics middle platform, a plurality of Bluetooth positioning tags and a warehouse management system;

the logistics middle platform is used for issuing a storage instruction of the chip material to the warehouse management system;

the warehouse management system is used for reading the unique identification information of the Bluetooth positioning tag when the chip material carries the Bluetooth positioning tag to be put in a warehouse and binding the unique identification information of the Bluetooth positioning tag with the material information of the chip material; and updating the inventory information based on the material information of the chip materials in the warehouse.

Optionally, in a first implementation manner of the second aspect of the present invention, the chip incoming material warehousing management system further includes: an Internet of things system for:

and acquiring the unique identification information of the Bluetooth positioning tags in the warehouse in real time or at regular time, and dynamically updating the inventory information of the in-warehouse chip materials in the Internet of things system based on the unique identification information of the Bluetooth positioning tags in the warehouse.

Optionally, in a second implementation manner of the second aspect of the present invention, the material flow center is further configured to:

receiving first inventory information uploaded by the warehouse management system after the chip materials are put in a warehouse;

initiating an inventory information checking request to the Internet of things system, and acquiring second inventory information of the in-store chip materials returned by the Internet of things system;

and comparing the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the in-warehouse chip materials is accurate or not.

Optionally, in a third implementation manner of the second aspect of the present invention, the warehouse management system is further configured to:

when the chip material carries a Bluetooth positioning tag to be put in storage, unique identification information of the Bluetooth positioning tag is obtained by scanning a bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and binding the unique identification information with the material information of the chip material.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the logistics center platform is configured to issue a warehouse exit instruction of a chip material to the warehouse management system;

the warehouse management system is used for unbinding the unique identification information of the Bluetooth positioning tag carried by the ex-warehouse chip material and the correspondingly bound material information when the chip material is ex-warehouse and the Bluetooth positioning tag is removed; and updating the inventory information based on the material information of the ex-warehouse chip materials.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the material flow stage is further configured to:

receiving third inventory information returned by the warehouse management system after the chip materials are delivered out of the warehouse;

initiating an inventory information checking request to the Internet of things system, and acquiring fourth inventory information of the in-store chip materials returned by the Internet of things system;

and comparing the third inventory information of the warehouse management system with the fourth inventory information of the Internet of things system so as to check whether the inventory information of the in-warehouse chip materials is accurate or not.

In the technical scheme provided by the invention, the chip incoming material warehousing management system comprises: a plurality of bluetooth location labels, platform and warehouse management system in the commodity circulation, chip incoming material warehouse management method includes: the logistics center platform issues a storage instruction of the chip materials to the warehouse management system; when the chip materials are put in storage with the Bluetooth positioning tags, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials; the warehouse management system updates the inventory information based on the material information of the chip materials being put in storage. According to the invention, the online management of goods is realized by introducing the Bluetooth positioning tag, the manual management cost is reduced, and the warehouse management efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a chip incoming material warehousing management method according to a first embodiment of the present invention;

FIG. 2 is a diagram of a second embodiment of a chip incoming material warehousing management method according to the embodiment of the invention;

FIG. 3 is a diagram of a chip incoming material warehousing management method according to a third embodiment of the present invention;

FIG. 4 is a schematic diagram of an embodiment of a chip incoming material warehousing management system according to the embodiment of the invention;

fig. 5 is a schematic diagram of another embodiment of a chip incoming material warehousing management system according to the embodiment of the invention.

Detailed Description

The embodiment of the invention provides a chip incoming material warehousing management method and system, which realize online management of goods by introducing a Bluetooth positioning tag, reduce the manual management cost and improve the warehouse management efficiency.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of understanding, a specific flow of the embodiment of the present invention is described below, and referring to fig. 1, a first embodiment of a chip incoming material warehousing management method according to the embodiment of the present invention includes:

101. the middle logistics platform issues a warehousing instruction of the chip materials to a warehouse management system;

in this embodiment, the chip incoming material warehousing management method is applied to a chip incoming material warehousing management system, and the chip incoming material warehousing management system includes: a plurality of bluetooth location label, platform and warehouse management system in the commodity circulation.

In this embodiment, the bluetooth positioning tag has a unique identification code, and the external device can read the unique identification information of the bluetooth positioning tag in a bluetooth manner, that is, the unique identification code.

In this embodiment, the logistics middle desk supervises the whole link flow from warehousing to ex-warehouse of the materials.

In this embodiment, the Warehouse Management System (WMS) is a Management System that implements functions such as batch Management, material correspondence, inventory checking, quality inspection Management, and instant inventory Management by functions such as warehousing service, ex-Warehouse service, warehouse allocation, inventory allocation, and virtual Warehouse Management, and effectively controls and tracks the status information of the Warehouse and the goods in the Warehouse, thereby implementing perfect enterprise Warehouse information Management.

In this embodiment, when a material is put in storage, the logistics center issues a storage instruction to the warehouse management system.

In this embodiment, the warehousing instruction is used to notify the warehouse management system that there is a new material to be warehoused, and the specific content and format of the warehousing instruction are not limited.

102. When the chip materials carry the Bluetooth positioning tags to be put in storage, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials;

in this embodiment, a barcode/two-dimensional code is pasted on the bluetooth positioning tag, and the unique identification information of the bluetooth positioning tag can be obtained by scanning the barcode.

In this embodiment, transport to the warehouse after bluetooth location label is pasted to the chip material, obtain bluetooth location label's only identification information through sweeping the sign indicating number to bind its material information with the chip material who pastes and have this bluetooth location label.

In this embodiment, the material information of the chip material includes, but is not limited to, supplier information of the chip material, basic specification information of the chip material, warehousing information of the chip material, and storage area information of the chip material.

103. The warehouse management system updates inventory information based on material information of the warehoused chip materials.

In this embodiment, the inventory information includes, but is not limited to, quantity information of the chip materials, storage area information of the chip materials, and warehousing time of the chip materials.

In this embodiment, bluetooth location label is installed in the basic station of warehouse through the bluetooth signal of self transmission and is caught, and then accomplishes the only identification code collection that the goods packing corresponds bluetooth location label, and the material is checked according to the only identification code that gathers can be accomplished on line to the backstage. In addition, the position of the Bluetooth positioning tag in the warehouse can be accurately calculated based on the direction, the angle, the power and the like of Bluetooth signal emission, and therefore material searching and safety monitoring are facilitated.

In the embodiment of the invention, the chip incoming material warehousing management system comprises: the chip incoming material warehousing management method comprises the following steps: the logistics center platform issues a storage instruction of the chip materials to the warehouse management system; when chip materials are put in a warehouse with the Bluetooth positioning tags, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials; the warehouse management system updates the inventory information based on the material information of the warehouse chip materials. According to the invention, the online management of the goods is realized by introducing the Bluetooth positioning tags, the manual management cost is reduced, the warehouse management efficiency is improved, meanwhile, errors and management confusion are avoided, and the intelligent management of high-value goods is realized.

Referring to fig. 2, a second embodiment of the chip incoming material warehousing management method according to the embodiment of the present invention includes:

201. the logistics center platform issues a storage instruction of the chip materials to the warehouse management system;

in this embodiment, the chip incoming material storage management method is applied to a chip incoming material storage management system, and the chip incoming material storage management system includes: a plurality of bluetooth location label, platform, warehouse management system and thing networking system in the commodity circulation.

In this embodiment, the internet of things system can perform location positioning based on the bluetooth signal transmitted by the bluetooth positioning tag, thereby positioning and tracking the position of the chip material.

202. When the chip material is put in a warehouse with a Bluetooth positioning tag, the warehouse management system reads the unique identification information of the Bluetooth positioning tag and binds the unique identification information of the Bluetooth positioning tag with the material information of the chip material;

optionally, in an embodiment, the step 202 includes:

when the chip material is put in a warehouse with the Bluetooth positioning tag, the warehouse management system obtains the unique identification information of the Bluetooth positioning tag by scanning the bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and the warehouse management system binds the unique identification information with the material information of the chip material.

203. The warehouse management system updates the inventory information based on the material information of the chip materials to be warehoused;

204. the logistics center platform receives first inventory information uploaded by the warehouse management system after the chip materials are put in a warehouse;

205. the logistics center platform initiates an inventory information check request to an Internet of things system and acquires second inventory information of the in-store chip materials returned by the Internet of things system;

in this embodiment, the specific content and format of the inventory information checking request are not limited, and may be a request for checking a chip material of a certain specified supplier, a request for checking a chip material put in storage by a certain event, or a request for checking a chip material of a certain storage area.

Optionally, in an embodiment, the internet of things system acquires the unique identification information of the bluetooth positioning tag in the warehouse in real time or at regular time, and dynamically updates the inventory information of the in-warehouse chip materials in the internet of things system based on the unique identification information of the bluetooth positioning tag in the warehouse.

In this embodiment, the unique identification information of the bluetooth positioning tag in the warehouse is read in real time or at regular time in a bluetooth manner.

In this embodiment, can accurate calculation bluetooth location label position in the warehouse based on direction, angle, power size etc. of bluetooth signal transmission, and then make things convenient for material to seek and safety monitoring.

206. And the logistics center platform compares the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

In the embodiment of the invention, a logistics center platform issues a warehousing instruction of a chip material to a warehouse management system, when the chip material is warehoused with a Bluetooth positioning tag, the warehouse management system reads unique identification information of the Bluetooth positioning tag and binds the unique identification information of the Bluetooth positioning tag with material information of the chip material, the warehouse management system updates inventory information based on the material information of the warehoused chip material, the logistics center platform receives first inventory information uploaded by the warehouse management system after the chip material is warehoused, the logistics center platform initiates an inventory information checking request to an Internet of things system, obtains second inventory information of the in-warehouse chip material returned by the Internet of things system, and compares the first inventory information of the warehouse management system with the second inventory information of the Internet of things system to check whether the inventory information of the in-warehouse chip material is accurate. According to the invention, the online management of goods is realized by introducing the Bluetooth positioning tags, the manual management cost is reduced, the warehouse management efficiency is improved, meanwhile, errors and management confusion are avoided, the intelligent management of high-value goods is realized, and meanwhile, the inventory information in the warehouse management system and the Internet of things system is compared, so that the accuracy of the inventory information is ensured.

Referring to fig. 3, a third embodiment of the chip incoming material warehousing management method according to the embodiment of the present invention includes:

301. the logistics center platform issues a storage instruction of the chip materials to the warehouse management system;

in this embodiment, the chip incoming material warehousing management method is applied to a chip incoming material warehousing management system, and the chip incoming material warehousing management system includes: a plurality of bluetooth location label, platform, warehouse management system and thing networking system in the commodity circulation.

302. When the chip materials carry the Bluetooth positioning tags to be put in storage, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials;

303. the warehouse management system updates the inventory information based on the material information of the chip materials to be warehoused;

304. the logistics middle platform issues a delivery instruction of the chip materials to the warehouse management system;

in this embodiment, the warehouse-out instruction is used to notify the warehouse management system that there is a material to be warehouse-out, and the specific content and format of the warehouse-out instruction are not limited.

305. When the chip materials are taken out of the warehouse and the Bluetooth positioning tags are removed, the warehouse management system unbundles the unique identification information of the Bluetooth positioning tags carried by the chip materials taken out of the warehouse and the correspondingly bound material information;

in this embodiment, take off bluetooth location label when the chip material is out of the warehouse to unbind its only identification information and the material information that corresponds, bluetooth location label repeatedly usable after unbinding.

306. The warehouse management system updates the inventory information based on the material information of the chip materials discharged from the warehouse;

307. the logistics middle platform receives third inventory information returned by the warehouse management system after the chip materials are delivered from the warehouse;

308. the logistics center platform initiates an inventory information checking request to the Internet of things system and acquires fourth inventory information of the in-store chip materials returned by the Internet of things system;

optionally, in an embodiment, the internet of things system acquires the unique identification information of the bluetooth positioning tag in the warehouse in real time or at regular time, and dynamically updates the inventory information of the in-warehouse chip materials in the internet of things system based on the unique identification information of the bluetooth positioning tag in the warehouse.

309. And the logistics middle platform compares the third inventory information of the warehouse management system with the fourth inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

In the embodiment of the invention, the logistics center platform issues the warehousing instruction of the material to the warehouse management system during warehousing, the warehouse management system reads the unique identification information of the Bluetooth positioning tag and binds with the material information of the material and updates the inventory information, the logistics center platform issues the ex-warehouse instruction to the warehouse management system during ex-warehouse, the warehouse management system unbinds the Bluetooth positioning tag and the material information and updates the inventory information, the logistics center platform receives the inventory information returned by the warehouse management system after ex-warehouse and checks with the inventory information in the Internet of things system, and the accuracy of the inventory information is ensured. According to the invention, when a supplier delivers goods, the Bluetooth positioning label is pasted on the chip material outer package and then put in storage, so that the on-line management of the chip material is realized, the chip material is taken down from the outer package when the chip material is delivered out of the storage, the chip material can be repeatedly recycled, and meanwhile, the accuracy of the inventory information is ensured by the backup and comparison of the inventory information of the two systems, and the intelligent management of high-value goods is realized.

In the above description of the chip incoming material warehousing management method in the embodiment of the present invention, referring to fig. 4, the chip incoming material warehousing management system in the embodiment of the present invention is described below, and an embodiment of the chip incoming material warehousing management system in the embodiment of the present invention includes:

the logistics middle platform 401 is used for issuing a storage instruction of the chip material to the warehouse management system;

a bluetooth positioning tag 402 for positioning the position of the chip material bound by the bluetooth positioning tag;

the warehouse management system 403 is configured to, when the chip material is put into a warehouse with a bluetooth positioning tag, read unique identification information of the bluetooth positioning tag, and bind the unique identification information of the bluetooth positioning tag with the material information of the chip material; and updating the inventory information based on the material information of the chip materials in the warehouse.

In an embodiment of the present invention, a chip incoming material warehousing management system includes: the system comprises a plurality of Bluetooth positioning tags, a logistics center platform and a warehouse management system, wherein the logistics center platform issues a warehousing instruction of a chip material to the warehouse management system; when chip materials are put in a warehouse with the Bluetooth positioning tags, the warehouse management system reads the unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with the material information of the chip materials; the warehouse management system updates the inventory information based on the material information of the chip materials being put in storage. According to the invention, the online management of the goods is realized by introducing the Bluetooth positioning tags, the manual management cost is reduced, the warehouse management efficiency is improved, meanwhile, errors and management confusion are avoided, and the intelligent management of high-value goods is realized.

Referring to fig. 5, another embodiment of the chip incoming material warehousing management system according to the embodiment of the present invention includes:

the logistics middle platform 401 is used for issuing a storage instruction of the chip material to the warehouse management system;

a bluetooth positioning tag 402 for positioning the position of the chip material bound by the bluetooth positioning tag;

the warehouse management system 403 is configured to, when the chip material is put into a warehouse with a bluetooth positioning tag, read unique identification information of the bluetooth positioning tag, and bind the unique identification information of the bluetooth positioning tag with the material information of the chip material; updating stock information based on material information of the chip materials to be put in a warehouse;

and the internet of things system 404 is used for acquiring the unique identification information of the bluetooth positioning tags in the warehouse in real time or at regular time, and dynamically updating the inventory information of the in-warehouse chip materials in the internet of things system based on the unique identification information of the bluetooth positioning tags in the warehouse.

Optionally, the material distribution center 401 may be further specifically configured to:

receiving first inventory information uploaded by the warehouse management system after the chip materials are put in a warehouse;

initiating an inventory information checking request to the Internet of things system, and acquiring second inventory information of the in-store chip materials returned by the Internet of things system;

and comparing the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the in-warehouse chip materials is accurate or not.

Optionally, the warehouse management system 403 may be further specifically configured to:

when the chip material carries a Bluetooth positioning tag to be put in storage, unique identification information of the Bluetooth positioning tag is obtained by scanning a bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and binding the unique identification information with the material information of the chip material.

Optionally, in an embodiment, the logistics center 401 is configured to issue an ex-warehouse instruction of the chip material to the warehouse management system; the warehouse management system 403 is configured to unbind unique identification information of the bluetooth positioning tag carried by the ex-warehouse chip material and the correspondingly bound material information when the chip material is ex-warehouse and the bluetooth positioning tag is removed; and updating the inventory information based on the material information of the ex-warehouse chip materials.

Optionally, the material distribution center 401 may be further specifically configured to:

receiving third inventory information returned by the warehouse management system after the chip materials are delivered out of the warehouse;

initiating an inventory information checking request to the Internet of things system, and acquiring fourth inventory information of the in-store chip materials returned by the Internet of things system;

and comparing the third inventory information of the warehouse management system with the fourth inventory information of the Internet of things system so as to check whether the inventory information of the in-warehouse chip materials is accurate or not.

In an embodiment of the present invention, a chip incoming material warehousing management system includes: the system comprises a plurality of Bluetooth positioning tags, a logistics platform, a warehouse management system and an Internet of things system, wherein the logistics platform issues a warehousing instruction of chip materials to the warehouse management system, when the chip materials carry the Bluetooth positioning tags to be warehoused, the warehouse management system reads unique identification information of the Bluetooth positioning tags and binds the unique identification information of the Bluetooth positioning tags with material information of the chip materials, the warehouse management system updates inventory information based on the material information of the warehoused chip materials, the Internet of things system acquires the unique identification information of the Bluetooth positioning tags in a warehouse in real time or at regular time and dynamically updates the inventory information of the chip materials in the warehouse in the Internet of things system based on the unique identification information. According to the invention, the online management of the goods is realized by introducing the Bluetooth positioning tags, the manual management is reduced, the warehouse management efficiency is improved, meanwhile, errors and management confusion are avoided, the intelligent management of high-value goods is realized, meanwhile, the position information of the goods can be acquired in real time through the Internet of things system, and the material searching and safety monitoring are convenient.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A chip incoming material warehousing management method is applied to a chip incoming material warehousing management system and is characterized in that the chip incoming material warehousing management system comprises: the chip incoming material warehousing management method comprises the following steps:

the logistics middle platform issues a storage instruction of the chip materials to the warehouse management system;

when the chip material is put in a warehouse with a Bluetooth positioning tag, the warehouse management system reads the unique identification information of the Bluetooth positioning tag and binds the unique identification information of the Bluetooth positioning tag with the material information of the chip material;

the warehouse management system updates inventory information based on material information of the warehoused chip materials.

2. The chip incoming material warehousing management method according to claim 1, wherein the chip incoming material warehousing management system further comprises: the internet of things system, the chip incoming material warehousing management method further comprises the following steps:

the internet of things system acquires the unique identification information of the Bluetooth positioning tags in the warehouse in real time or at regular time, and dynamically updates the inventory information of the in-warehouse chip materials in the internet of things system based on the unique identification information of the Bluetooth positioning tags in the warehouse.

3. The chip incoming material warehousing management method according to claim 2, after the warehouse management system updates the inventory information based on the material information of the warehoused chip materials, further comprising:

the logistics middle platform receives first inventory information uploaded by the warehouse management system after the chip materials are put in storage;

the logistics center platform initiates an inventory information checking request to the Internet of things system and acquires second inventory information of the in-store chip materials returned by the Internet of things system;

and the logistics center platform compares the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

4. The chip incoming material warehousing management method according to claim 1, wherein when the chip materials are warehoused with bluetooth positioning tags, the warehouse management system reads the unique identification information of the bluetooth positioning tags and binds the unique identification information of the bluetooth positioning tags with the material information of the chip materials comprises:

when the chip material carries the Bluetooth positioning tag to be put in storage, the warehouse management system obtains unique identification information of the Bluetooth positioning tag by scanning a bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and the warehouse management system binds the unique identification information with the material information of the chip material.

5. The chip incoming material warehousing management method according to claim 1, further comprising:

the logistics middle platform issues a delivery instruction of the chip materials to the warehouse management system;

when the chip materials are taken out of the warehouse and the Bluetooth positioning tags are removed, the warehouse management system unbundles the unique identification information of the Bluetooth positioning tags carried by the chip materials taken out of the warehouse and the correspondingly bound material information;

and the warehouse management system updates the inventory information based on the material information of the ex-warehouse chip materials.

6. The chip incoming material warehousing management method according to claim 2 or 5, further comprising, after the warehouse management system updates the inventory information based on the material information of the outgoing chip materials:

the logistics center platform receives third inventory information returned by the warehouse management system after the chip materials are delivered from the warehouse;

the logistics center platform initiates an inventory information checking request to the Internet of things system and acquires fourth inventory information of the in-store chip materials returned by the Internet of things system;

and the logistics middle platform compares the third inventory information of the warehouse management system with the fourth inventory information of the Internet of things system so as to check whether the inventory information of the chip materials in the warehouse is accurate.

7. A chip incoming material warehousing management system is characterized by comprising a logistics middle platform, a plurality of Bluetooth positioning tags and a warehouse management system;

the logistics middle platform is used for issuing a storage instruction of the chip material to the warehouse management system;

the warehouse management system is used for reading the unique identification information of the Bluetooth positioning tag when the chip material is put in a warehouse with the Bluetooth positioning tag, and binding the unique identification information of the Bluetooth positioning tag with the material information of the chip material; and updating the inventory information based on the material information of the chip materials in the warehouse.

8. The system according to claim 7, wherein the system further comprises: an Internet of things system for:

and acquiring the unique identification information of the Bluetooth positioning tags in the warehouse in real time or at regular time, and dynamically updating the inventory information of the in-warehouse chip materials in the Internet of things system based on the unique identification information of the Bluetooth positioning tags in the warehouse.

9. The system for chip incoming material warehousing management according to claim 8, wherein the staging platform is further configured to:

receiving first inventory information uploaded by the warehouse management system after the chip materials are put in a warehouse;

initiating an inventory information checking request to the Internet of things system, and acquiring second inventory information of the in-store chip materials returned by the Internet of things system;

and comparing the first inventory information of the warehouse management system with the second inventory information of the Internet of things system so as to check whether the inventory information of the in-warehouse chip materials is accurate or not.

10. The chip incoming material warehousing management system of claim 7, wherein the warehouse management system is further configured to:

when the chip material is put in a warehouse with a Bluetooth positioning tag, the unique identification information of the Bluetooth positioning tag is obtained by scanning a bar code/two-dimensional code of the Bluetooth positioning tag adhered to the chip material;

and binding the unique identification information with the material information of the chip material.

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