CN113807778A

Movatterモバイル変換

Info

Publication number: CN113807778A
Application number: CN202111016935.5A
Authority: CN
Inventors: 唐山河; 黄正凯; 柴佳欣
Original assignee: Shenzhen Gallium Core Semiconductor Technology Co ltd
Current assignee: Shenzhen Gallium Core Semiconductor Technology Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-12-17

Abstract

The invention relates to the technical field of warehouse material management, and discloses a warehouse material management method of a third-generation compound semiconductor and related equipment thereof. The warehouse material management method comprises the following steps: acquiring material reader data uploaded by the radio frequency reader, and preprocessing the material reader data to obtain a material reader identifier and material reading data; and classifying the material reader identification and the material reading data, and feeding back a classification result to a database for warehousing management and ex-warehouse management. The invention realizes the purposes of material management position clarification, material data management refinement, material storage cost reduction, effective work efficiency improvement, warehouse utilization rate improvement, automatic material checking and personnel workload reduction.

Description

Warehouse material management method for third-generation compound semiconductor and related equipment

Technical Field

The invention relates to the field of warehouse material management, in particular to a warehouse material management method and related equipment for a third-generation compound semiconductor.

Background

The third generation of compound semiconductor manufacturing requires the use of a large amount of chemicals for manufacturing silicon wafers, and also requires chemicals for cleaning silicon wafers and for handling tools used in the manufacturing process, and therefore, a large amount of chemicals need to be stored, and at the same time, chemical substances more or less emit toxic odors, and when checking, a person needs to stay in a closed warehouse for a long time, and a certain damage to the body of the person is caused for a long time. However, the traditional warehouse management method is the same for a chemical warehouse and a common material warehouse, the goods information is recorded through the traditional label, the whole process of inventory is manually carried out, the traditional label can only be used once, when the label is shielded, the label information cannot be read, the label information is easy to damage and dirty, the goods information on the label is lost, the goods information on the label can only be re-inventory if being verified, extra work burden is added to warehouse personnel, time and labor are wasted, the enterprise cost is increased, along with the continuous development of the enterprise scale, the types and the quantity of goods and materials in the warehouse are continuously increased, the frequency of entering and exiting the warehouse is greatly increased, and the traditional label is difficult to meet the rapid and accurate requirements of warehouse management.

Disclosure of Invention

The invention mainly aims to provide a method and related equipment for managing third-generation compound semiconductor warehouse materials, and aims to solve the technical problems that the traditional label cannot meet the requirements of information recording of various and frequent warehouse-in and warehouse-out materials for warehouse management and the warehouse material management depending on manual material checking due to continuous development of enterprise scale in the third-generation compound semiconductor manufacturing industry.

The invention provides a warehouse material management method of a third generation compound semiconductor, which comprises the following steps:

acquiring material reader data uploaded by the radio frequency reader, and preprocessing the material reader data to obtain a material reader identifier and material reading data;

and classifying the material reader identification and the material reading data, and feeding back a classification result to a database for warehousing management and ex-warehouse management.

Optionally, in a first implementation manner of the first aspect of the present invention, the radio frequency reader includes a warehousing radio frequency reader, and the acquiring the material reader data uploaded by the radio frequency reader and preprocessing the material reader data to obtain the material reader identifier and the material reading data includes:

acquiring reader data of the warehousing materials uploaded by the warehousing radio frequency reader, wherein the reader data of the warehousing materials comprise warehousing material codes, warehousing material descriptions, warehousing quantity, warehousing states, warehousing certificate numbers, suppliers, storage positions, identity information of warehousing personnel holding the materials and warehousing reading time;

cleaning the data of the reader for the warehoused materials according to a preset cleaning rule to obtain an identification field of the reader for the warehoused materials and a reading data field of the warehoused materials;

and coding the identification field of the warehousing reader and the reading data field of the warehousing materials according to a preset coding rule to obtain the identification of the warehousing reader and the reading data of the warehousing materials.

Optionally, in a second implementation manner of the first aspect of the present invention, the rf reader includes an ex-warehouse rf reader, and the acquiring the material reader data uploaded by the rf reader and preprocessing the material reader data to obtain the material reader identifier and the material reading data includes:

acquiring outbound material reader data uploaded by the outbound radio frequency reader, wherein the outbound material reader data comprises outbound material codes, outbound material descriptions, outbound quantity, outbound certificate numbers, suppliers, storage positions, identity information of outbound personnel holding materials and outbound reading time;

according to a preset cleaning rule, cleaning the data of the ex-warehouse material reader to obtain an identification field of the ex-warehouse reader and a reading data field of the ex-warehouse material;

and coding the identification field of the ex-warehouse reader and the reading data field of the ex-warehouse materials according to a preset coding rule to obtain the identification of the ex-warehouse reader and the reading data of the ex-warehouse materials.

Optionally, in a third implementation manner of the first aspect of the present invention, the radio frequency reader includes an inventory radio frequency reader, and the acquiring data of the material reader uploaded by the radio frequency reader and preprocessing the data of the material reader to obtain the identifier of the material reader and the read data of the material include:

acquiring inventory material reader data uploaded by the inventory radio frequency reader, wherein the inventory material reader data comprises inventory material codes, inventory material descriptions, inventory quantity, incoming material time, suppliers, storage positions, identity information of warehouse entry personnel holding materials, warehouse entry reading time and inventory reading time;

according to a preset cleaning rule, cleaning the data of the inventory material reader to obtain an identification field of the inventory material reader and a read data field of the inventory material;

and coding the identification field of the inventory reader and the read data field of the inventory material according to a preset coding rule to obtain the identification of the inventory reader and the read data of the inventory material.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the database includes a warehousing database, and after the warehousing reader identification field and the warehousing material reader data field are coded according to a preset coding rule to obtain the warehousing reader identification and the warehousing material reading data, the method further includes:

comparing the reading data of the warehoused materials with preset warehousing inventory data based on the warehousing reader identification;

and if the comparison result is consistent, updating the data of the warehouse-in database according to the warehouse-in material reading data to obtain the updated data of the warehouse-in database.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the database includes a warehouse-out database, and after the warehouse-out reader identification field and the warehouse-out material reader data field are encoded according to a preset encoding rule to obtain a warehouse-out reader identification and warehouse-out material reading data, the method further includes:

comparing the ex-warehouse material reading data with preset ex-warehouse list data based on the ex-warehouse reader identification;

and if the comparison result is consistent, updating the data of the ex-warehouse database according to the ex-warehouse material reading data to obtain the updated data of the ex-warehouse database.

Optionally, in a sixth implementation manner of the first aspect of the present invention, after the updating the data of the warehouse-in database according to the warehouse-in material reading data if the comparison result is consistent, and obtaining the updated data of the warehouse-in database, the method further includes:

carrying out real-time statistics on the updated data of the warehouse-in database and the data of the database to obtain real-time material data;

and comparing the real-time material data with preset reference data, and transmitting a comparison result to a large screen for inventory billboard management, wherein the preset reference data comprises stock data and production worksheet data.

A second aspect of the present invention provides a third-generation compound semiconductor warehouse material management device, including:

the acquisition module is used for acquiring the material reader data uploaded by the radio frequency reader and preprocessing the material reader data to obtain a material reader identifier and material reading data;

and the classification module is used for classifying the material reader identification and the material reading data according to a preset classification rule, and feeding back a classification result to a database for warehousing management and ex-warehouse management.

Optionally, in a first implementation manner of the second aspect of the present invention, the obtaining module includes:

the system comprises a first acquisition unit, a second acquisition unit and a third acquisition unit, wherein the first acquisition unit is used for acquiring reader data of warehousing materials uploaded by the warehousing radio frequency reader, and the reader data of the warehousing materials comprises warehousing material codes, warehousing material descriptions, warehousing quantity, warehousing states, warehousing certificate numbers, suppliers, storage positions, identity information of personnel holding the materials in a warehouse and warehousing reading time;

the first cleaning unit is used for cleaning the data of the warehousing material reader according to a preset cleaning rule to obtain an identification field of the warehousing reader and a reading data field of the warehousing material;

and the first coding unit is used for coding the identification field of the warehousing reader and the reading data field of the warehousing materials according to a preset coding rule to obtain the identification of the warehousing reader and the reading data of the warehousing materials.

Optionally, in a second implementation manner of the second aspect of the present invention, the obtaining module further includes:

the second acquisition unit is used for acquiring the outbound material reader data uploaded by the outbound radio frequency reader, wherein the outbound material reader data comprise outbound material codes, outbound material descriptions, outbound quantity, outbound certificate numbers, suppliers, storage positions, identity information of people holding materials and outbound reading time;

the second cleaning unit is used for cleaning the data of the ex-warehouse material reader according to a preset cleaning rule to obtain an identification field of the ex-warehouse reader and a reading data field of the ex-warehouse material;

and the second coding unit is used for coding the ex-warehouse reader identification field and the ex-warehouse material reading data field according to a preset coding rule to obtain the ex-warehouse reader identification and the ex-warehouse material reading data.

Optionally, in a third implementation manner of the second aspect of the present invention, the obtaining module further includes:

the third acquisition unit is used for acquiring the inventory material reader data uploaded by the inventory radio frequency reader, wherein the inventory material reader data comprises inventory material codes, inventory material description, inventory quantity, incoming material time, suppliers, storage positions, identity information of personnel holding materials in a warehouse, warehouse entry reading time and inventory reading time;

the third cleaning unit is used for cleaning the data of the inventory material reader according to a preset cleaning rule to obtain an identification field of the inventory material reader and a read data field of the inventory material;

and the third coding unit is used for coding the identification field of the inventory reader and the reading data field of the inventory material according to a preset coding rule to obtain the identification of the inventory reader and the reading data of the inventory material.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the obtaining module further includes:

the first comparison unit is used for comparing the reading data of the warehoused materials with preset warehousing inventory data based on the warehousing reader identification;

and the first updating unit is used for updating the data of the warehouse-in database according to the reading data of the warehouse-in materials if the comparison result is consistent, so as to obtain the updated data of the warehouse-in database.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the obtaining module further includes:

the second comparison unit is used for comparing the ex-warehouse material reading data with preset ex-warehouse list data based on the ex-warehouse reader identification;

and the second updating unit is used for updating the data of the ex-warehouse database according to the ex-warehouse material reading data if the comparison result is consistent, so as to obtain the updated data of the ex-warehouse database.

Optionally, in a sixth implementation manner of the second aspect of the present invention, the obtaining module further includes:

the statistical unit is used for carrying out real-time statistics on the updated data of the warehouse-in database and the data of the database to obtain real-time material data;

and the third comparison unit is used for comparing the real-time material data with preset reference data and transmitting a comparison result to a large screen for inventory billboard management, wherein the preset reference data comprises stock data and production worksheet data.

A third aspect of the present invention provides an electronic device comprising: a memory and at least one processor, the memory having instructions stored therein; the at least one processor invokes the instructions in the memory to cause the electronic device to perform the warehouse material management method described above.

A fourth aspect of the present invention provides a computer-readable storage medium having stored therein instructions, which when run on a computer, cause the computer to execute the warehouse material management method described above.

In the technical scheme provided by the invention, a third-generation chemical semiconductor manufacturing enterprise installs radio frequency readers on an outlet, an inlet and a shelf of a warehouse, a worker who holds materials to enter and exit the warehouse also wears a worker plate with a radio frequency tag, the radio frequency tag is also pasted on a material package, when the workers hold the materials to enter and exit the warehouse, the information of the radio frequency tag is read by the radio frequency reader, and the read information is preprocessed to obtain material data information, a radio frequency reader mark and personnel identity information, so that refined data management is established, the warehouse data is traceable, when the materials are lost or other abnormal conditions occur, the personnel can be traced to individuals, the enterprise management is more standardized, and the responsibility of the personnel is enhanced. Meanwhile, the radio frequency reader and the radio frequency tag can rapidly read in batches with penetrability, manual intervention is not needed in the information reading process, the workload of personnel is reduced, and the working efficiency is improved. The material management position is clear, the material data management is fine, the material storage cost is reduced, and the warehouse utilization rate is improved.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of a method for warehouse material management of a third generation compound semiconductor in an embodiment of the present invention;

fig. 2 is a schematic diagram of a second embodiment of a method for warehouse material management of a third generation compound semiconductor in the embodiment of the present invention;

fig. 3 is a schematic view of an embodiment of a third generation compound semiconductor warehouse material management device according to the present invention;

fig. 4 is a schematic diagram of an embodiment of an electronic device in an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a method for managing warehouse materials of a third-generation compound semiconductor and related equipment thereof, and solves the technical problems that the traditional label cannot meet the requirements of information recording of various and frequent material types of warehouse management and warehouse material management depending on manual material checking in and out due to continuous development of enterprise scale in the third-generation compound semiconductor manufacturing industry.

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 the sake of understanding, the following describes a specific flow of an embodiment of the present invention, and referring to fig. 1, a first embodiment of a method for warehouse material management of a third generation compound semiconductor in an embodiment of the present invention includes:

101. acquiring material reader data uploaded by the radio frequency reader, and preprocessing the material reader data to obtain a material reader identifier and material reading data;

in this embodiment, the third generation compound semiconductor manufacturing enterprise installs the rf readers at the entrance and the exit of the warehouse, when the person holds the material with the rf tag and passes through the exit and the entrance of the warehouse, the rf readers at the exit and the entrance automatically read the information in the rf tag, and then perform correctness, skip, multi-read, dirty-read, and semantic analysis on the obtained tag information to obtain the material reader identification field and the material reading data field, and then encode the material reader identification field and the material reading data field to obtain the material reader identification and the material reading data. In the embodiment, barrier-free reading is realized by adopting the radio frequency tag, penetrating communication can be carried out even if the radio frequency tag is shielded by non-metal or non-transparent materials such as paper, wood and plastic, information of the radio frequency tag can be repeatedly added, modified and deleted, information updating is facilitated, and when the materials are completely put in storage, storage time is updated into the radio frequency tag, so that the information of the radio frequency tag is more perfect, and more related information of the materials can be acquired during material checking.

In this embodiment, the third generation compound semiconductor manufacturing enterprise further mounts a radio frequency reader on a shelf of a warehouse to achieve the purpose of inventory of materials, mounts a guide rail on each row or each case of the shelf, mounts each inventory radio frequency reader at the starting position of each row or each column on the shelf, mounts a mobile device below the inventory radio frequency reader, starts the mobile device to move along the guide rail after receiving an inventory command, reads information of each radio frequency tag to obtain material information, and cleans and encodes the material information to generate a detailed list of inventory of materials. This embodiment realizes that the material is checked no longer to rely on artifically, and radio frequency technology can read label information in batches and read fast, anti pollution ability reinforce, penetrability are strong, can satisfy warehouse management's quick and accurate requirement.

102. And classifying the material reader identification and the material reading data, and feeding back a classification result to a database for warehousing management and ex-warehouse management.

In the embodiment, the material reading data of warehousing, ex-warehousing and inventory are classified according to the material reader identification and the reading time, and the classification result is transmitted to the warehousing database and the ex-warehousing database for data management, so that the material management position is clear, and the material data management is fine.

In the embodiment, the information is automatically read through the radio frequency technology, manual intervention is not needed in the information reading process, the number of workers entering and exiting the warehouse is reduced, and the workload of the workers is reduced, so that the warehouse management of the third-generation compound semiconductor manufacturing enterprise for storing chemicals really and effectively reduces the personal injury caused by the toxic odor or sudden explosion of the chemicals which are checked or confirmed to stay in the warehouse for a long time. Meanwhile, the material management position is clear, the material data management is fine, the utilization rate of a warehouse is effectively improved, and the material storage cost is reduced.

Referring to fig. 2, a second embodiment of the method for managing third-generation compound semiconductor warehouse materials according to the present invention includes:

201. acquiring reader data of the warehousing materials uploaded by the warehousing radio frequency reader, wherein the reader data of the warehousing materials comprise warehousing material codes, warehousing material descriptions, warehousing quantity, warehousing states, warehousing certificate numbers, suppliers, storage positions, identity information of warehousing personnel holding the materials and warehousing reading time;

in this embodiment, a third generation compound semiconductor manufacturing enterprise installs a warehousing radio frequency reader at an entrance position of a warehouse, attaches a radio frequency tag to a package of a material entering and exiting the material warehouse, and wears a worker plate with the radio frequency tag by a person who holds the material warehousing, so that when the person who holds the material warehousing and the warehoused material enter a reading range of the radio frequency reader at the entrance of the warehouse, the warehousing radio frequency reader reads radio frequency tag information data through a built-in antenna, wherein the radio frequency tag information includes a material code, a material description, a quantity, a certificate number, a supplier and a storage position.

Optionally, in an example, afterstep 201, the method further includes:

in this embodiment, a third generation compound semiconductor manufacturing enterprise installs a warehouse-out rf reader at an exit position of a warehouse, attaches rf tags to packages of materials entering and exiting from the material warehouse, and wears a worker plate with the rf tag for a worker holding the materials exiting from the warehouse, so that the warehouse-out rf reader reads rf tag information data through a built-in antenna when the worker holding the materials exiting from the warehouse and the materials exiting from the warehouse enter a reading range of the rf reader at the exit of the warehouse.

Optionally, in an example, afterstep 201, the method further includes:

in this embodiment, the third generation compound semiconductor manufacturing enterprise installs a guide rail on each line or each column on the shelf, installs each inventory radio frequency reader at the start position of each line or each column on the shelf, installs a mobile device below the inventory radio frequency reader, starts the mobile device to move along the guide rail after receiving the inventory command, reads information of each radio frequency tag, obtains material information, analyzes the material information, and generates a detailed table of material inventory.

In this embodiment, carry out automatic material of checing through the checing radio frequency reader, read fast in batches, the precision is high, does not need artifical checing, reduces the cost of labor, simultaneously, also reduces the injury of the chemical to personnel in warehouse.

202. Cleaning the data of the reader for the warehoused materials according to a preset cleaning rule to obtain an identification field of the reader for the warehoused materials and a reading data field of the warehoused materials;

in this embodiment, the correctness, missed reading, multiple reading, dirty reading, and semantic analysis of the warehouse entry material read data are cleaned, and a warehouse entry reader identification field and a warehouse entry material read data field are obtained.

In the embodiment, the data acquired in batches are not repeated by cleaning the data, and meanwhile, the data are not missed to be read, so that the accuracy of the data is further improved.

Optionally, in an example, afterstep 202, the method further includes:

in this embodiment, the correctness, missed reading, multiple reading, dirty reading, and semantic analysis of the ex-warehouse material read data are cleaned, so as to obtain an out-warehouse reader identification field and an out-warehouse material read data field.

Optionally, in an example, afterstep 202, the method further includes:

in this embodiment, the correctness, missed reading, multiple reading, dirty reading, and semantic analysis of the inventory material read data are cleaned, so as to obtain an identification field of the inventory reader and a read data field of the inventory material.

203. Coding the identification field of the warehousing reader and the reading data field of the warehousing materials according to a preset coding rule to obtain the identification of the warehousing reader and the reading data of the warehousing materials;

in this embodiment, according to a preset encoding rule, the identification field of the warehousing reader and the reading data field of the warehousing materials are encoded to obtain the identification of the warehousing reader and the reading data of the warehousing materials, a warehousing material data list is generated according to the identification of the warehousing reader, and is compared with the planned warehousing material list to determine whether the generated warehousing material data list is abnormal.

Optionally, in an example, afterstep 203, the method further includes:

according to a preset coding rule, coding the identification field of the ex-warehouse reader and the reading data field of the ex-warehouse materials to obtain the identification of the ex-warehouse reader and the reading data of the ex-warehouse materials

In this embodiment, the outbound reader identification field and the outbound material reading data field are encoded according to a preset encoding rule to obtain an outbound reader identification and outbound material reading data, an outbound material data list is generated according to the outbound reader identification, and is compared with a planned outbound material list to determine whether the generated outbound material data list is abnormal.

Optionally, in an example, afterstep 203, the method further includes:

coding the identification field of the inventory reader and the read data field of the inventory material according to a preset coding rule to obtain the identification of the inventory reader and the read data of the inventory material

In this embodiment, the identification field of the inventory reader and the reading data field of the inventory material are encoded according to a preset encoding rule to obtain an identification of the inventory reader and reading data of the inventory material, an inventory material data list is generated according to the identification of the inventory reader, and is compared with a planned inventory material list to determine whether the generated inventory material data list is abnormal.

204. Comparing the reading data of the warehoused materials with preset warehousing inventory data based on the warehousing reader identification;

in the embodiment, the corresponding reading data of the warehoused materials is determined through the unique identification of the warehouse entry reader, then the determined reading data of the warehoused materials is compared with the planned warehouse entry list data, if the comparison is not consistent, the comparison result is transmitted to the large-screen billboard, different data and other consistent data are marked with different colors, a user knows that the warehoused materials are abnormal, and countermeasures are taken. The condition that the warehousing data and the warehousing materials do not accord with each other is avoided.

Optionally, in an example, afterstep 204, the method further includes:

in the embodiment, the corresponding outbound material reading data is determined through the unique identification of the outbound reader, then the determined outbound material reading data is compared with the planned outbound list data, if the comparison is inconsistent, the comparison result is transmitted to the large-screen billboard, and different data and other consistent data are identified by different colors, so that a user knows that the outbound material is abnormal, and takes countermeasures. The condition that the ex-warehouse data and the ex-warehouse materials are inconsistent is avoided.

205. If the comparison result is consistent, updating the data of the warehouse-in database according to the warehouse-in material reading data to obtain the updated data of the warehouse-in database;

in this embodiment, when the comparison result between the reading data of the warehousing materials and the planned warehousing inventory data is consistent, the reading data of the warehousing materials is fed back to the warehousing database and the data of the warehousing materials is updated in real time. The user can master the material inventory condition in real time.

Optionally, in an example, afterstep 205, the method further includes:

if the comparison result is consistent, updating the data of the ex-warehouse database according to the ex-warehouse material reading data to obtain the updated data of the ex-warehouse database;

in this embodiment, when the comparison result between the ex-warehouse material reading data and the planned ex-warehouse list data is consistent, the ex-warehouse material reading data is fed back to the ex-warehouse database, and the data of the ex-warehouse data is updated in real time. The user can master the material inventory condition in real time.

206. Carrying out real-time statistics on the updated data of the warehouse-in database and the data of the database to obtain real-time material data;

in the embodiment, the updated data of the warehousing database and the data of the database are counted in real time to obtain real-time material data, so that a user can conveniently master the inventory condition in real time, stock is prepared and materials stored for a long time are cleaned in time, the material storage cost is reduced, and the warehouse utilization rate is improved.

207. Comparing the real-time material data with preset reference data, and transmitting a comparison result to a large screen for inventory billboard management, wherein the preset reference data comprises stock data and production worksheet data;

in the embodiment, the obtained real-time material data, the stock data and the production work order data are compared, and the comparison result is transmitted to the large screen, so that a user can visually know the stock condition, and orders the materials according to the stock according to the requirement of the order, the material storage cost is reduced, and meanwhile, the production progress is not influenced.

In this embodiment, read and handle information through adopting radio frequency reader and radio frequency label, need not artificial intervention and can not have the barrier to read at the reading information in-process, when the material volume that will go out the warehouse or put in storage is big, the radio frequency label by the condition of sheltering from can appear, but need not the artifical information that just can read radio frequency label of taking off the shelter, and can read information in batches, reading speed is fast, and carry out the preliminary treatment to reading data, obtain data, and the operating efficiency is improved, this embodiment realizes that material inventory no longer depends on artifically, and radio frequency technology can read label information in batches and reading speed is fast, the pollution resistance is strong, the penetrability is strong, can satisfy warehouse management's quick and accurate requirement.

In the above description of the method for managing the warehouse material of the third generation compound semiconductor in the embodiment of the present invention, and in the following description of the apparatus for managing the warehouse material of the third generation compound semiconductor in the embodiment of the present invention, referring to fig. 3, the first embodiment of the apparatus for managing the warehouse material of the third generation compound semiconductor in the embodiment of the present invention includes:

an obtainingmodule 301, configured to obtain material reader data uploaded by the radio frequency reader, and perform preprocessing on the material reader data to obtain a material reader identifier and material reading data;

theclassification module 302 is configured to classify the material reader identifier and the material reading data according to a preset classification rule, and feed back a classification result to a database for warehousing management and ex-warehouse management.

In the embodiment, the information is automatically read through the radio frequency technology, manual intervention is not needed in the information reading process, the number of workers entering and exiting the warehouse is reduced, and the workload of the workers is reduced, so that the warehouse management of the third-generation compound semiconductor manufacturing enterprise for storing chemicals really and effectively reduces the personal injury caused by the toxic odor or sudden explosion of the chemicals which are checked or confirmed to stay in the warehouse for a long time. The material checking is realized without depending on manpower, the working efficiency is improved, the material management position is clear, the material data management is refined, the utilization rate of a warehouse is effectively improved, and the material storage cost is reduced.

A second embodiment of the third generation compound semiconductor warehouse material management apparatus according to the present invention includes:

Optionally, in an embodiment, the obtainingmodule 301 includes:

Optionally, in an embodiment, the obtainingmodule 301 further includes:

a second coding unit, configured to code the outbound reader identification field and the outbound material reading data field according to a preset coding rule, so as to obtain an outbound reader identification and outbound material reading data

Optionally, in an embodiment, the obtainingmodule 301 further includes:

In this embodiment, carry out information acquisition and processing through adopting radio frequency reader and radio frequency label, need not artificial intervention and can not have the barrier to read at the acquisition information in-process, when the inventory that will go out the warehouse or put in storage is big, the radio frequency label by the condition of sheltering from can appear, but need not the artifical information that just can read radio frequency label of taking away the shelter, and can read information in batches, the reading speed is fast, and carry out the preliminary treatment to reading data, obtain data, and radio frequency technology can read label information in batches and read fast, pollution resistance can be strong, the penetrability is strong, can satisfy warehouse management's quick and accurate requirement.

Fig. 3 above describes in detail the third generation compound semiconductor warehouse material management apparatus in the embodiment of the present invention from the perspective of the modular functional entity, and the electronic device in the embodiment of the present invention is described in detail in the perspective of the hardware processing.

Fig. 4 is a schematic structural diagram of anelectronic device 500 according to an embodiment of the present invention, where theelectronic device 500 may have a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 510 (e.g., one or more processors) and amemory 520, and one or more storage media 530 (e.g., one or more mass storage devices) for storingapplications 533 ordata 532.Memory 520 andstorage media 530 may be, among other things, transient or persistent storage. The program stored on thestorage medium 530 may include one or more modules (not shown), each of which may include a sequence of instructions for operating theelectronic device 500. Further, theprocessor 510 may be configured to communicate with thestorage medium 530 to execute a series of instruction operations in thestorage medium 530 on theelectronic device 500.

Theelectronic device 500 may also include one ormore power supplies 540, one or more wired or wireless network interfaces 550, one or more input-output interfaces 560, and/or one ormore operating systems 531, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, and so forth. Those skilled in the art will appreciate that the electronic device configuration shown in fig. 4 does not constitute a limitation of the electronic device and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

The present invention also provides an electronic device including a memory and a processor, wherein the memory stores computer readable instructions, and the computer readable instructions, when executed by the processor, cause the processor to execute the steps of the warehouse material management method for the third generation compound semiconductor in the above embodiments.

The present invention also provides a computer-readable storage medium, which may be a non-volatile computer-readable storage medium, and which may also be a volatile computer-readable storage medium, having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the third-generation warehouse material management method for compound semiconductors.

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

1. A warehouse material management method of a third generation compound semiconductor is applied to a material warehouse and is characterized in that a radio frequency reader is installed on the material warehouse, radio frequency tags are attached to packages of materials entering and exiting the material warehouse, and the warehouse material management method comprises the following steps:

2. The warehouse material management method according to claim 1, wherein the radio frequency reader comprises a warehousing radio frequency reader, and the obtaining of the material reader data uploaded by the radio frequency reader and the preprocessing of the material reader data to obtain the material reader identification and the material reading data comprises:

3. The warehouse material management method according to claim 1, wherein the rf reader comprises an ex-warehouse rf reader, and the obtaining of the material reader data uploaded by the rf reader and the preprocessing of the material reader data to obtain the material reader identifier and the material reading data comprises:

4. The warehouse material management method of claim 1, wherein the radio frequency reader comprises an inventory radio frequency reader, and the obtaining of the material reader data uploaded by the radio frequency reader and the preprocessing of the material reader data to obtain the material reader identification and the material reading data comprises:

5. The warehouse material management method according to claim 2, wherein the database comprises a warehouse database, and after the warehouse reader identification field and the warehouse material reader data field are encoded according to a preset encoding rule to obtain the warehouse reader identification and the warehouse material read data, the method further comprises:

6. The warehouse material management method according to claim 3, wherein the database comprises a warehouse-out database, and after the warehouse-out reader identification field and the warehouse-out material reader data field are encoded according to a preset encoding rule to obtain the warehouse-out reader identification and the warehouse-out material reading data, the method further comprises:

7. The warehouse material management method according to claim 5, wherein if the comparison result is consistent, the data in the warehouse database is updated according to the warehouse material reading data, and after the data in the warehouse database after updating is obtained, the method further comprises:

8. A warehouse material management apparatus for a third-generation compound semiconductor, characterized by comprising:

9. An electronic device, characterized in that the electronic device comprises: a memory and at least one processor, the memory having instructions stored therein;

the at least one processor invoking the instructions in the memory to cause the electronic device to perform the warehouse material management method of any of claims 1-7.

10. A computer-readable storage medium having instructions stored thereon, which when executed by a processor, implement the warehouse material management method of any of claims 1-7.