CN112950122B - Full life cycle management method for drill bit - Google Patents

Abstract

The embodiment of the invention discloses a full life cycle management method for a drill bit. The method comprises the following steps: putting a drill bit produced by a manufacturer in a packaging box with an electronic tag, and acquiring an identity mark corresponding to the drill bit through an electronic tag identification device; recording production information of the drill bit in a database of a manufacturer, wherein the production information comprises an identity mark and the position of the drill bit in a packaging box; the data butt joint from the manufacturer database to the processing manufacturer database is realized through the electronic tag identification device; acquiring information from a processing manufacturer database through an electronic tag identification device to process, and updating information recorded in the processing manufacturer database based on the using information of the drill bit; the data butt joint from the processing manufacturer database to the grinding manufacturer database is realized through the electronic tag identification device; and acquiring information from the grinding manufacturer database through the electronic tag identification device to grind, and updating the information recorded in the grinding manufacturer database based on the grinding result of the drill bit. Accurate information management of a single drill bit is realized.

Description

Full life cycle management method for drill bit

Technical Field

The embodiment of the invention relates to the technical field of material management, in particular to a full life cycle management method of a drill bit.

Background

The drill bit is a consumable product, such as a printed circuit board (Printed Circuit Board, PCB) drill bit is a main tool for processing the PCB, the annual consumption of the drill bit in the world is billions, tens of thousands of different types are involved, and the types of drill bits in the future are continuously increasing, so that efficient, complete and convenient drill bit product information management is very important for the related industries of the drill bit. With the increasing importance of information flows in modern manufacturing, and in particular in automation and intelligent transformation in modern manufacturing, the need for accurate information management of the entire life cycle of drill bits is increasingly highlighted, and must be one of the advancing directions of the development of the drill bit related industry in the future.

However, because the whole drill bit is small in size, various in types and large in dosage, and meanwhile, the drill bit belongs to a consumable product, rough and incomplete information management is basically adopted at present, batch information management is mainly carried out on the drill bit, and full life cycle information management of a single drill bit cannot be realized. Meanwhile, the drill bit cannot be accurately information-managed, which means that deeper informatization, automation and intellectualization are difficult to perform.

Disclosure of Invention

The embodiment of the invention provides a full life cycle management method for a drill bit, which is used for realizing accurate information management for a single drill bit.

The embodiment of the invention provides a full life cycle management method of a drill bit, which comprises the following steps:

placing a drill bit produced by a manufacturer in a packaging box with an electronic tag, and identifying the electronic tag through an electronic tag identification device to obtain an identity corresponding to the drill bit;

recording production information of the drill bit in a manufacturer database, wherein the packaging box can accommodate at least one drill bit, and the production information comprises the identification mark and the position of the drill bit in the packaging box;

after the drill bit is transported to a processing manufacturer, the production information is acquired from the manufacturer database through the electronic tag identification device, processing information is configured for the drill bit, and then the production information and the processing information are recorded in the processing manufacturer database;

acquiring the production information and/or the processing information from the processing manufacturer database through the electronic tag identification device so as to process by using the drill bit according to the production information and/or the processing information, and updating the production information and/or the processing information recorded in the processing manufacturer database based on the use information of the drill bit;

when the drill bit is required to be ground, the grinding information of the drill bit is input into the database of the processing manufacturer through the electronic tag identification device;

after the drill bit is transported to a grinding manufacturer, acquiring the production information and the grinding information from the processing manufacturer database through the electronic tag identification device, and recording the production information and the grinding information in the grinding manufacturer database;

and acquiring the production information and/or the grinding information from the grinding manufacturer database through the electronic tag identification device so as to grind the drill bit according to the production information and/or the grinding information, and updating the production information and/or the grinding information recorded in the grinding manufacturer database based on the grinding result of the drill bit.

The embodiment of the invention provides a full life cycle management method for a drill bit. Firstly, a drill bit is placed in a packaging box with an electronic tag in the production process of a manufacturer, and the identification corresponding to the drill bit can be obtained by identifying the electronic tag through an electronic tag identification device. And recording production information of the drill bit in a database of a manufacturer, wherein the production information comprises an identification corresponding to the drill bit and a placement position in each packaging box, and obtaining a single drill bit through unique determination of the identification and the position in each packaging box, so that accurate information management of the single drill bit is realized. After the drill bit is transported to a processing manufacturer, production information is acquired from a manufacturer database through an electronic tag identification device, processing information is configured for the drill bit, and then the production information and the processing information are recorded in the processing manufacturer database, so that data butt joint among different manufacturer databases is realized. When the drill bit is used for processing, the electronic tag identification device is used for acquiring required information from the database of the processing manufacturer for processing, and updating the information recorded in the database of the processing manufacturer according to the use information of the drill bit in the processing process, so that the information recorded in the database always accords with the actual situation. When the drill bit is required to be ground, grinding information of the drill bit is input into a database of a processing manufacturer through the electronic tag identification device, and then after the drill bit is transported to the grinding manufacturer, production information and grinding information are acquired from the database of the processing manufacturer through the electronic tag identification device and recorded in the database of the grinding manufacturer, so that data butt joint is realized. When the drill bit is ground, the electronic tag identification device can acquire required information from the grinding manufacturer database to grind, and the information recorded in the grinding manufacturer database is updated according to the grinding result of the drill bit. The method provided by the embodiment of the invention realizes the accurate information management of the single drill bit, and can acquire real, complete and effective information in any link in the whole life cycle of the drill bit, so that the problems of the drill bit can be found timely, and batch scrapping caused by inaccurate information can be avoided.

Drawings

Fig. 1 is a flowchart of a drill bit full life cycle management method according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Before discussing exemplary embodiments in more detail, it should be mentioned that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart depicts steps as a sequential process, many of the steps may be implemented in parallel, concurrently, or with other steps. Furthermore, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figures. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example 1

Fig. 1 is a flowchart of a drill bit full life cycle management method according to an embodiment of the present invention. The method and the device can be suitable for the situation of accurately managing the single drill bit in the process from production to use and processing to scrapping. As shown in fig. 1, the method specifically comprises the following steps:

s11, placing the drill bit produced by the manufacturer in a packaging box with an electronic tag, and identifying the electronic tag through an electronic tag identification device to obtain an identification corresponding to the drill bit.

The electronic tag can be a two-dimensional code tag or a Radio Frequency Identification (RFID) tag and the like, and can be arranged at any position on the packaging box. The electronic tag identification device can be a sensor or the like, can be matched with equipment for production, processing, grinding and other procedures, can be independently arranged near the equipment, can be used for identifying the electronic tag on the packaging box, and can be communicated with various databases to modify related information of drill bits stored in the databases. After the drill bit is produced, the drill bit is placed in a packaging box with an electronic tag, the electronic tag is identified through an electronic tag identification device, and the identity mark corresponding to the drill bit can be obtained, namely, the corresponding relation between the drill bit and the packaging box which specifically belongs to the drill bit is determined.

S12, recording production information of the drill bits in a database of a manufacturer, wherein the packaging box can accommodate at least one drill bit, and the production information comprises an identification mark and the position of the drill bit in the packaging box.

Specifically, after the drill bit is placed in the packing box, production information of the drill bit may be recorded in the manufacturer database in units of the packing box. In general, for convenience in transportation and storage, a plurality of drill bits may be placed in each package box, and in particular, may be placed in a regular form such as an array, so as to facilitate location recording and identification, and then the production information may include the identity of the drill bit determined by the electronic tag identification device, and the location of each drill bit in the package box, so that a single drill bit may be uniquely determined according to the identity and location. The production information can also comprise basic information such as production batch numbers, models, service lives and the like of the drill bits, and can be recorded according to actual demands. Optionally, in the production stage, can place the same kind of drill bit in same packing carton for the basic information of drill bit in the packing carton is the same, thereby can realize leading into the manufacturer database with basic information in batches, then for the drill bit random record in the same packing carton place the position can, improved the efficiency of information input.

S13, after the drill bit is transported to a processing manufacturer, production information is obtained from a manufacturer database through an electronic tag recognition device, processing information is configured for the drill bit, and then the production information and the processing information are recorded in the processing manufacturer database.

Specifically, after the manufacturer finishes packaging, the drill bit is transported to a processing manufacturer for use, and specifically, the PCB processing manufacturer can be used. The processing manufacturer and the manufacturer can record the drill bit information by using different databases, and after the processing manufacturer receives the drill bit, the processing manufacturer can put the drill bit in storage and carry out data docking with the manufacturer so as to input the information of the single drill bit into a local processing manufacturer database for standby. Specifically, the electronic tag identification device on each packaging box can be communicated with the database of a manufacturer at first, so that production information of all drill bits in each packaging box is obtained, then processing information is configured for various drill bits, and the production information and the processing information corresponding to each drill bit are recorded in the database of the manufacturer through communication with the database of the manufacturer. The processing information can comprise drill bit distribution batches, distributor numbers, drilling machine numbers, grinding batches and the like, and a processing manufacturer can better perform each processing flow according to the processing information, and can also better manage each drill bit in the processing process.

S14, acquiring production information and/or machining information from a machining manufacturer database through the electronic tag identification device, machining by using the drill bit according to the production information and/or the machining information, and updating the production information and/or the machining information recorded in the machining manufacturer database based on the use information of the drill bit.

Specifically, the processing process may include a plurality of processes, and before each process is performed, the required information may be extracted from the production information and/or the processing information recorded in the processing manufacturer database by the electronic tag identification device, and then sent to the corresponding processing equipment for use. Meanwhile, in each process, the production information or the processing information of the drill bit may be changed, so as to ensure that the information recorded in the database matches with the real situation of the drill bit, and after each process, the production information and/or the processing information recorded in the database of the processing manufacturer may be updated based on the usage information of the drill bit. The use information can be acquired through corresponding processing equipment, the use information is sent to a corresponding electronic tag identification device through the processing equipment, and the electronic tag identification device is communicated with a processing manufacturer database to update the information.

Optionally, processing using the drill bit according to the production information and/or the processing information includes: distributing the drill bit, drilling holes by using a drilling machine and recovering the drill bit. The distribution process is that the matching process of related types of drill bits is carried out manually or by using equipment according to the requirements of a PCB processing drilling machine, and particularly the drill bits with required types can be taken out from an originally placed packaging box and placed into a special distribution material box for standby, and the material box can also be provided with an electronic tag. The drilling process can be to drill the plate by using the drill bit obtained after the distribution. The recovery process is a process of classifying and recovering the drill bits reaching the service life after finishing PCB processing according to the model by manpower or using equipment, and the corresponding drill bits can be taken out from a special distributing material box and are replaced into any idle packing boxes according to the model.

Further optionally, allocating the drill bit includes: acquiring the distribution information of the drill bits from a processing manufacturer database through an electronic tag identification device, and distributing the drill bits according to the distribution information; updating production information and/or machining information recorded in a machining manufacturer database based on the usage information of the drill bit, comprising: and updating production information and/or machining information recorded in a machining manufacturer database by the drill bits which are distributed through the electronic tag identification device.

Specifically, when the drill bits are distributed, the distribution information of the drill bits in the packaging box can be acquired through the electronic tag identification device, so that the drill bits can be selected and distributed according to the distribution information of each drill bit, and the distribution process can be realized by manual or special equipment (a distributor). The allocation information may include, among other things, drill bit allocation lot, dispenser number, drill number, location of drill bit within the package, model, grinding lot, and life time, among others. In the processing process of the PCB, various different types of drill bits may be required, and meanwhile, the complete processing process can be completed by generally distributing the drill bits once, so that the drill bits can be selected according to the type of the drill bits, the service life and other information, taken out from corresponding placement positions and put into a special material box for distribution. In the manual distribution process, the specific position of the drill bit placed in the special material box for distribution can be manually input to the electronic tag identification device, in the distribution process by using the distribution machine, the specific position of the drill bit placed in the special material box for distribution can be determined and recorded by the distribution machine, after the distribution is completed, the distribution machine can send the using information of the drill bit, such as the specific position of the drill bit in the material box after the distribution, to the electronic tag identification device, and the electronic tag identification device can be communicated with a processing manufacturer database, so that the recorded drill bit information is updated according to the using information.

Optionally, drilling using a drilling machine, including: acquiring drilling information of a drill bit from a processing manufacturer database through an electronic tag identification device, and sending the drilling information to a drilling machine; updating production information and/or machining information recorded in a machining manufacturer database based on the usage information of the drill bit, comprising: and after the drilling machine finishes drilling, the drill bit use information is sent to the electronic tag identification device, and the electronic tag identification device updates production information and/or processing information recorded in a processing manufacturer database by the drill bit after drilling.

Specifically, when the drilling machine is used for drilling, firstly, drilling information of the drill bits in each material box after distribution can be obtained through the electronic tag identification device and sent to the drilling machine, wherein the drilling information can comprise the type, the placement position, the service life and the like of the drill bits, the drilling machine can select the drill bits according to the type, the service life and the like of the currently required drill bits, and the drill bits are taken out from the corresponding placement positions in the material boxes for use. In the use process, the drilling machine can record the drilling quantity of the drill bit, when the drilling quantity exceeds the service life of the drill bit, the drill bit can be put back into the material box, and the next drill bit is taken out for use until the drilling is completed. After the drilling is finished, the service life of part or all of the drill bits in the material box can be changed, so that the information recorded in the database needs to be updated, and particularly, only the information of the drill bits which reach the service life in the material box can be updated, and the drill bit service information which reach the service life is sent to the electronic tag identification device through the drilling machine, so that the electronic tag identification device can be communicated with the database of a processing manufacturer, and the service lives of the drill bits are cleared. And other drills in the material box can be continuously left in the material box for the next drilling, and the drilling times can be continuously recorded by the drilling machine until the service life is reached, so that unnecessary repeated operation in the distribution process can be reduced, and the distribution process is more efficient.

Optionally, recovering the drill bit includes: acquiring recovery information of the drill bit from a processing manufacturer database through an electronic tag identification device, and recovering the drill bit according to the recovery information; updating production information and/or machining information recorded in a machining manufacturer database based on the usage information of the drill bit, comprising: and updating production information and/or processing information recorded in a processing manufacturer database by the drill bit after recovery through the electronic tag identification device.

Optionally, before recovering the drill bit, the method further comprises: determining a target drill bit, wherein the target drill bit is a drill bit with the service life; correspondingly, retrieve the drill bit, include: and recycling the target drill bit. Specifically, the target drill bit which has reached the service life in the magazine can be recovered after the drilling process is completed, and the target drill bit can be determined according to the updated information of the drilling machine after drilling, and the above description is referred to for specific purposes and is not repeated here. For the recycling process, the recycling information of the drill bit in each material box can be acquired through the electronic tag identification device, so that recycling can be performed according to the recycling information, and the recycling process can be realized through manual or special equipment (recycling machine). The recycling information may include the type of the drill bit in the magazine, the placement position, and the like. The drill bits of the same type are placed in the common packing boxes, so that when the drill bits are recovered, the packing boxes with empty positions can be selected according to the types of the drill bits, and then the drill bits are taken out from the material boxes and placed in the packing boxes. In the manual recycling process, the specific position of the drill bit placed back into the packaging box can be manually input to the electronic tag identification device, in the recycling process by using the recycling machine, the specific position of the drill bit placed back into the packaging box can be determined and recorded by the recycling machine, after recycling is completed, the recycling machine can send the use information of the drill bit to the electronic tag identification device, for example, the specific position of the drill bit in the packaging box after recycling is sent to the electronic tag identification device, and then the electronic tag identification device can be communicated with a database of a processing manufacturer, so that recorded drill bit information is updated according to the use information.

S15, when the drill bit is required to be ground, the grinding information of the drill bit is input into a database of a processing manufacturer through the electronic tag identification device.

Specifically, after the service life of the drill bit is reached, the service life of the drill bit can be generally recovered through grinding, but when the grinding times exceeds the preset times, the drill bit cannot be used even through grinding, so that whether the drill bit can be continuously used after grinding when the service life of the drill bit is reached can be judged by counting grinding batches of the drill bit, and whether the drill bit needs to be ground can be determined. When the drill bit is required to be ground, the electronic tag on the packaging box where the drill bit is located can be identified through the electronic tag identification device, so that grinding information of the drill bit is recorded into a database of a processing manufacturer. The grinding information may include a manufacturer, a grinder, a transportation time, and the like. The drill bits to be ground can then be packaged and taken out of stock for transportation to the grinding manufacturer for grinding. Optionally, the drill bits to be ground can be determined in the recycling process, and the drill bits are placed in the same batch of packaging boxes in a concentrated manner, so that the batch of packaging boxes can be directly packaged when packaged and delivered out of the warehouse, and the packaging time is saved.

S16, after the drill bit is transported to a grinding manufacturer, production information and grinding information are obtained from a processing manufacturer database through an electronic tag identification device, and the production information and the grinding information are recorded in the grinding manufacturer database.

Specifically, the grinding manufacturer and the processing manufacturer can record the drill bit information by using different databases, and after the grinding manufacturer receives the drill bit, the drill bit can be put in storage and is in data butt joint with the processing manufacturer, so that the information of a single drill bit is input into a local database for standby. The specific process can be similar to the warehousing process of a processing manufacturer, namely, the electronic tag identification device is communicated with the processing manufacturer database at first, so that the production information and the grinding information of all the drill bits in each packaging box are obtained, and then the production information and the grinding information corresponding to each drill bit are recorded in the grinding manufacturer database through the communication with the grinding manufacturer database. After finishing data butt joint, the grinding manufacturer can more conveniently conduct classified production, so that the production is more informationized, automatic and intelligent.

S17, acquiring production information and/or grinding information from a grinding manufacturer database through the electronic tag identification device so as to grind the drill bit according to the production information and/or the grinding information, and updating the production information and/or the grinding information recorded in the grinding manufacturer database based on the grinding result of the drill bit.

Optionally, after the production information and/or the grinding information are obtained from the grinding manufacturer database through the electronic tag identification device, the method further includes: transmitting the production information and/or grinding information to a grinder; updating production information and/or grinding information recorded in a grinding manufacturer database based on a grinding result of the drill bit, including: and after finishing grinding, the grinding machine sends the grinding result of the drill bit to the electronic tag identification device, and updates the production information and/or grinding information recorded in the grinding manufacturer database by the drill bit after finishing grinding through the electronic tag identification device.

Specifically, before grinding by using the grinder, the production information and the grinding information of the drill bit in the packaging box can be firstly obtained through the electronic tag identification device and sent to the grinder, so that the automation of the transmission of the grinding information can be realized, for example, the model of the drill bit and the current grinding batch are known, and further, the finer grinding process can be realized according to the model and the grinding batch. After grinding, the grinder may send information such as the number of the grinder used and the grinding lot of the drill bit to the electronic tag recognition device, and the electronic tag recognition device may communicate with a grinder database, so as to update production information and/or grinding information of the drill bit that is finished grinding. After finishing grinding, the drill bit can be transported back to the processing manufacturer for use through a packaging and ex-warehouse process of a similar processing manufacturer, and data are butted, and then the processing and grinding processes can be repeated continuously until the drill bit is required to be scrapped.

On the basis of the technical scheme, optionally, after the drill bit is recovered, the method further comprises: and (5) carrying out scrapping recovery treatment on the drill bit which cannot be reused. Specifically, if the drill bit can not be reused even though being ground after reaching the service life, the drill bit is required to be scrapped and recycled, and the electronic tag recognition device can be communicated with a database of a processing manufacturer to delete all information of the drill bit to be scrapped, so that the storage space is released, and meanwhile, redundant packaging boxes can be recycled to the manufacturing manufacturer at regular time for recycling, so that the management cost is reduced, the resources are saved, and finally, the drill bit can be scrapped and recycled.

Further optionally, before the disposal of the drill bit that cannot be reused, the method further includes: all information recorded in the database of the processing manufacturer of the drill bit which cannot be reused is transferred to a special database, and deleted or covered in the database of the processing manufacturer. Specifically, before the scrapping recovery processing is performed on the drill bit, all the information recorded in the database of the processing manufacturer of the drill bit can be transferred to a special database for specially storing the scrapped drill bit information, and the scrapped drill bit information can be stored for a certain time so as to trace the related information, thereby better realizing the management of the drill bit. After the information transfer process is completed, the relevant information in the manufacturer database can be deleted to free up storage space or marked as removable and covered with new information when needed.

According to the technical scheme provided by the embodiment of the invention, firstly, the drill bit is placed in the packaging box with the electronic tag in the production process of a manufacturer, and the identity corresponding to the drill bit can be obtained by identifying the electronic tag through the electronic tag identification device. And recording production information of the drill bit in a database of a manufacturer, wherein the production information comprises an identification corresponding to the drill bit and a placement position in each packaging box, and obtaining a single drill bit through unique determination of the identification and the position in each packaging box, so that accurate information management of the single drill bit is realized. After the drill bit is transported to a processing manufacturer, production information is acquired from a manufacturer database through an electronic tag identification device, processing information is configured for the drill bit, and then the production information and the processing information are recorded in the processing manufacturer database, so that data butt joint among different manufacturer databases is realized. When the drill bit is used for processing, the electronic tag identification device is used for acquiring required information from the database of the processing manufacturer for processing, and updating the information recorded in the database of the processing manufacturer according to the use information of the drill bit in the processing process, so that the information recorded in the database always accords with the actual situation. When the drill bit is required to be ground, grinding information of the drill bit is input into a database of a processing manufacturer through the electronic tag identification device, and then after the drill bit is transported to the grinding manufacturer, production information and grinding information are acquired from the database of the processing manufacturer through the electronic tag identification device and recorded in the database of the grinding manufacturer, so that data butt joint is realized. When the drill bit is ground, the electronic tag identification device can acquire required information from the grinding manufacturer database to grind, and the information recorded in the grinding manufacturer database is updated according to the grinding result of the drill bit. Accurate information management of a single drill bit is achieved, real, complete and effective information can be obtained in any link in the whole life cycle of the drill bit, so that problems of the drill bit can be found timely, and batch scrapping caused by inaccuracy of the information can be avoided.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (8)

1. A method for managing the full life cycle of a drill bit, comprising:

placing a drill bit produced by a manufacturer in a packaging box with an electronic tag, and identifying the electronic tag through an electronic tag identification device to obtain an identity corresponding to the drill bit;

recording production information of the drill bit in a manufacturer database, wherein the packaging box can accommodate at least one drill bit, and the production information comprises the identification mark and the position of the drill bit in the packaging box;

after the drill bit is transported to a processing manufacturer, the production information is acquired from the manufacturer database through the electronic tag identification device, processing information is configured for the drill bit, and then the production information and the processing information are recorded in the processing manufacturer database;

acquiring the production information and/or the processing information from the processing manufacturer database through the electronic tag identification device so as to process by using the drill bit according to the production information and/or the processing information, and updating the production information and/or the processing information recorded in the processing manufacturer database based on the use information of the drill bit;

when the drill bit is required to be ground, the grinding information of the drill bit is input into the database of the processing manufacturer through the electronic tag identification device;

after the drill bit is transported to a grinding manufacturer, acquiring the production information and the grinding information from the processing manufacturer database through the electronic tag identification device, and recording the production information and the grinding information in the grinding manufacturer database;

acquiring the production information and/or the grinding information from the grinding manufacturer database through the electronic tag identification device so as to grind the drill bit according to the production information and/or the grinding information, and updating the production information and/or the grinding information recorded in the grinding manufacturer database based on the grinding result of the drill bit;

wherein the processing using the drill bit according to the production information and/or the processing information comprises: distributing the drill bit, drilling holes by using a drilling machine, and recovering the drill bit.

2. The drill bit full life cycle management method of claim 1, wherein said assigning the drill bit comprises:

acquiring the distribution information of the drill bit from the database of the processing manufacturer through the electronic tag identification device, and distributing the drill bit according to the distribution information;

the updating the production information and/or the processing information recorded in the processing factory database based on the usage information of the drill bit includes:

and updating the production information and/or the processing information recorded in the processing manufacturer database by the drill bit which is distributed through the electronic tag identification device.

3. The drill bit full life cycle management method of claim 1, wherein drilling using a drill comprises:

acquiring drilling information of the drill bit from the database of the processing manufacturer through the electronic tag identification device, and sending the drilling information to the drilling machine;

the updating the production information and/or the processing information recorded in the processing factory database based on the usage information of the drill bit includes:

and after the drilling machine finishes drilling, the drill sends the using information of the drill bit to the electronic tag identification device, and the electronic tag identification device updates the production information and/or the processing information recorded in the database of the processing manufacturer by the drill bit after drilling.

4. The drill bit full life cycle management method of claim 1, wherein the recovering the drill bit comprises:

acquiring recovery information of the drill bit from the database of the processing manufacturer through the electronic tag identification device, and recovering the drill bit according to the recovery information;

the updating the production information and/or the processing information recorded in the processing factory database based on the usage information of the drill bit includes:

and updating the production information and/or the processing information recorded in the database of the processing manufacturer by the drill bit after recovery through the electronic tag identification device.

5. The drill bit full life cycle management method of claim 4, further comprising, prior to said retrieving said drill bit:

determining a target drill bit, wherein the target drill bit is a drill bit with the service life;

correspondingly, the recovering the drill bit comprises the following steps:

and recycling the target drill bit.

6. The drill full life cycle management method of claim 1, further comprising, after the acquiring the production information and/or the grinding information from the grinding manufacturer database by the electronic tag recognition device:

transmitting the production information and/or the grinding information to a grinder;

the updating the production information and/or the grinding information recorded in the grinding manufacturer database based on the grinding result of the drill bit comprises the following steps:

and after finishing grinding, the grinding machine sends the grinding result of the drill bit to the electronic tag identification device, and updates the production information and/or the grinding information recorded in the grinding manufacturer database of the drill bit subjected to grinding through the electronic tag identification device.

7. The drill bit full life cycle management method of claim 1, further comprising, after recovering the drill bit:

and (5) carrying out scrapping recovery treatment on the drill bit which cannot be reused.

8. The method of claim 7, further comprising, prior to said disposal of said non-reusable drill bits for disposal, the steps of:

and transferring all information recorded in the database of the processing manufacturer, which is recorded in the database of the processing manufacturer, of the drill bit which cannot be reused to a special database, and deleting or covering the drill bit in the database of the processing manufacturer.

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