CN115410696A - Batch number-based tracing verification system and method for medical apparatus - Google Patents

Batch number-based tracing verification system and method for medical apparatus Download PDF

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CN115410696A
CN115410696A CN202210860931.3A CN202210860931A CN115410696A CN 115410696 A CN115410696 A CN 115410696A CN 202210860931 A CN202210860931 A CN 202210860931A CN 115410696 A CN115410696 A CN 115410696A
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王磊
杨山
刘明全
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Sichuan Bangu Smart Medical Technology Co ltd
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Abstract

The invention discloses a medical instrument traceability verification system and method based on lot numbers, and the system comprises an upstream client module, an upstream butt joint module, a traceability platform module, a downstream butt joint module and a downstream client module, wherein the output end of the upstream client module is connected with the input end of the upstream butt joint module in a control mode.

Description

Batch number-based tracing verification system and method for medical apparatus
Technical Field
The invention relates to the technical field of medical instrument purchase traceability, in particular to a traceability verification system and method for medical instruments based on batch numbers.
Background
The medical apparatus refers to instruments, equipment, appliances, in-vitro diagnostic reagents, calibrators, materials and other similar or related articles, medical equipment and medical consumables which are directly or indirectly used for human bodies and are used for diagnosing, preventing, monitoring, treating or relieving diseases; diagnosis, monitoring, treatment, mitigation, or functional compensation of injury; examination, replacement, regulation or support of a physiological structure or physiological process; support of life or maintenance of pregnancy control, providing information for medical or diagnostic purposes, national policy requirements, each participant of the supply chain of the pharmaceutical industry, upstream enterprises being obligated to provide relevant traceability information to downstream enterprises by examining samples from human bodies; when downstream enterprises purchase, the downstream enterprises actively ask for relevant tracing information to upstream enterprises, check the information when checking and accepting the information, and feed back the check result to upstream enterprises, but the existing tracing system carries out tracing verification by comparing the ex-warehouse quantity and the in-warehouse quantity, the verification mode is simple, the tracing verification of batch number granularity cannot be realized, so that the verification accuracy is reduced, the verification comparison and retrieval data volume is large, and the tracing verification efficiency of the system is influenced, so that the design of the tracing verification system and method based on batch numbers for medical instruments is necessary.
Disclosure of Invention
The invention aims to provide a batch number-based tracing verification system and method for medical instruments, so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a medical instrument is based on verification system that traces back of batch number, includes upstream client module, upper reaches butt joint module, traces back platform module, low reaches butt joint module and low reaches client module, the input of upper reaches butt joint module is connected in the output control of upper reaches client module, and the input of tracing back platform module is connected in the output control of upper reaches butt joint module, traces back the input of platform module, and the input of low reaches butt joint module is connected in the output control of low reaches butt joint module, the input of low reaches butt joint module is connected in the output control of low reaches client module, and the input of tracing back platform module is connected in the output control of low reaches butt joint module, the input of upper reaches butt joint module is connected in the output control of tracing back platform module, and the input of high reaches butt joint module is connected in the output control of upper reaches butt joint module.
Preferably, the upstream client module comprises an upstream login module, a code scanning recording module, a serial number recording module, a batch number recording module, a quantity recording module, a date recording module, a delivery order generating module and a delivery order uploading module, wherein the output end of the upstream login module is in control connection with the input end of the code scanning recording module, and the output end of the code scanning recording module is in control connection with the input end of the serial number recording module.
Preferably, the output end of the serial number recording module is in control connection with the input end of the batch number recording module, the output end of the batch number recording module is in control connection with the input end of the quantity recording module, the output end of the quantity recording module is in control connection with the input end of the date recording module, the output end of the date recording module is in control connection with the input end of the delivery list generating module, and the output end of the delivery list generating module is in control connection with the input end of the delivery list uploading module.
Preferably, the tracing platform module comprises a platform receiving module, a delivery downloading module, a warehousing entry storage module, a delivery entry storage module, a document calling module, a screening and sorting module, an information checking module and a checking output module, and the output end of the platform receiving module is in control connection with the input end of the delivery downloading module.
Preferably, the output end of the platform receiving module is respectively in control connection with the input ends of the warehousing entry storage module and the ex-warehouse entry storage module, the output ends of the warehousing entry storage module and the ex-warehouse entry storage module are in control connection with the input end of the document calling module, the output end of the document calling module is in control connection with the input end of the screening and sorting module, the output end of the screening and sorting module is in control connection with the input end of the information verification module, and the output end of the information verification module is in control connection with the input end of the verification output module.
Preferably, the downstream client module comprises a downstream login module, an ex-warehouse receiving module, a warehousing code scanning module, a tracing processing module, a warehousing entry generating module and a warehousing entry uploading module, and the output end of the ex-warehouse receiving module is in control connection with the input end of the downstream login module.
Preferably, the output end of the downstream end login module is in control connection with the input end of the warehousing code scanning module, the output end of the warehousing code scanning module is in control connection with the input end of the tracing processing module, the output end of the tracing processing module is in control connection with the input end of the warehousing entry form generating module, and the output end of the warehousing entry form generating module is in control connection with the input end of the warehousing entry uploading module.
A tracing verification method of medical instruments based on batch numbers comprises the following steps: step one, ex-warehouse registration; step two, delivering the delivery list; step three, warehousing and registering; step four, tracing and comparing; step five, warehousing the bills for storage;
in the first step, an enterprise of a delivery party logs in an account from an upstream end login module in an upstream client module, then details of medical instruments are registered in a code scanning recording module, then the serial numbers of the instruments are recorded in a serial number recording module, the batches of the instruments are recorded in a batch number recording module, the delivery quantity of the instruments is recorded in a quantity recording module, the delivery date of the instruments is recorded in a date recording module, and then a delivery list generating module generates a corresponding instrument delivery list by combining the recorded details, serial numbers, batches, delivery quantity and delivery date of the instruments;
in the second step, the ex-warehouse list generating module transmits the generated instrument ex-warehouse list to the ex-warehouse list uploading module, the upstream docking module transmits the instrument ex-warehouse list in the ex-warehouse list uploading module to the tracing platform module, the platform receiving module transmits the instrument ex-warehouse list to the ex-warehouse list storage module for storage, the platform receiving module transmits the instrument ex-warehouse list to the ex-warehouse downloading module, and the downstream docking module transmits the instrument ex-warehouse list to the downstream client module for display to enterprises of the buyer;
in the third step, the enterprise of the purchaser logs in the module from the downstream end in the downstream client module to log in an account, then checks an instrument ex-warehouse list transmitted by the downstream docking module according to needs, when the instrument arrives, performs warehousing registration in the warehousing code scanning module, records the instrument details, the serial number, the batch and the quantity of the arrived goods, and then transmits the instrument details, the serial number, the batch and the quantity of the arrived goods to the tracing processing module;
in the fourth step, the device details, the serial numbers, the batches and the quantity of the arrived goods are transmitted to a downstream docking module by a tracing processing module, then the device details, the serial numbers, the batches and the quantity of the arrived goods are transmitted to an information verification module in a tracing platform module by the downstream docking module, then the corresponding device ex-warehouse list is called from an ex-warehouse list storage module by a bill calling module in combination with the device details of the goods, the corresponding device ex-warehouse list is transmitted to a screening and sorting module, then the list with the date interval exceeding seven days is removed by the screening and sorting module, then the rest lists are sorted according to the ex-warehouse date, then the sorted lists are transmitted to the information verification module to be compared with the device details, the serial numbers, the batches and the quantity of the arrived goods, then a verification list is generated according to the comparison result, and then the verification list is transmitted to a verification output module;
in the fifth step, the check list is transmitted to the upstream client module by the upstream docking module for being checked by enterprises of the delivery party, meanwhile, the check list is transmitted to a tracing processing module in the downstream client module by the downstream docking module, then an instrument warehousing list is generated by a warehousing entry generation module by combining instrument details, serial numbers, batches, quantity of arrived goods, date of arrived goods and check results of the goods, then the instrument warehousing list is transmitted to the downstream docking module by a warehousing entry uploading module, and then the instrument warehousing list is transmitted to the platform receiving module by the downstream docking module and then is stored by a warehousing entry storage module.
Compared with the prior art, the invention has the beneficial effects that: the medical instrument traceability verification system and method based on the batch number are characterized in that a code scanning recording module is used for registering details of the medical instrument when the medical instrument is delivered out of a warehouse, then the serial number of the instrument is input into a serial number input module, the batch of the instrument is input into a batch number input module, the delivery quantity of the instrument is input into a quantity input module, the delivery date of the instrument is input into a date input module, then a delivery list generation module is used for generating a corresponding instrument delivery list by combining the input instrument details, serial number, batch, delivery quantity and delivery date, the information input process when the medical instrument is delivered out of the warehouse is refined, a verified delivery list is provided for verification, the practicability of the system is improved, the set information verification module is used for comparing and verifying the delivery instrument details, serial number, batch and delivery quantity of the delivery transmitted by a downstream client module and the instrument delivery list, the verification precision of the batch and delivery quantity is realized, the traceability verification of the granularity of the batch number is improved, the verification efficiency is improved, the verification of the delivery list after delivery is compared and the verification of the residual verification of the delivery list is reduced.
Drawings
FIG. 1 is a system flow diagram of the present invention;
FIG. 2 is a system framework diagram of the present invention;
FIG. 3 is a flow chart of a method of the present invention;
FIG. 4 is a flowchart of the trace back process of the present invention;
in the figure: 1. an upstream client module; 2. an upstream docking module; 3. a tracing platform module; 4. a downstream docking module; 5. a downstream client module; 11. an upstream end login module; 12. a code scanning recording module; 13. a number input module; 14. a batch number input module; 15. a number input module; 16. a date entry module; 17. a delivery list generation module; 18. a delivery list uploading module; 31. a platform receiving module; 32. the ex-warehouse downloading module; 33. a warehousing entry storage module; 34. a delivery list storage module; 35. a document calling module; 36. a screening and sorting module; 37. an information verification module; 38. a verification output module; 51. a downstream end login module; 52. a warehouse-out receiving module; 53. a warehousing code scanning module; 54. a tracing processing module; 55. a warehousing entry generating module; 56. and a warehousing entry uploading module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-2, an embodiment of the present invention is shown: a medical instrument tracing verification system based on batch numbers comprises an upstream client module 1, an upstream butt joint module 2, a tracing platform module 3, a downstream butt joint module 4 and a downstream client module 5, wherein the output end of the upstream client module 1 is in control connection with the input end of the upstream butt joint module 2, the output end of the upstream butt joint module 2 is in control connection with the input end of the tracing platform module 3, the output end of the tracing platform module 3 is in control connection with the input end of the downstream butt joint module 4, the output end of the downstream butt joint module 4 is in control connection with the input end of the downstream client module 5, the output end of the downstream butt joint module 4 is in control connection with the input end of the tracing platform module 3, the output end of the tracing platform module 3 is in control connection with the input end of the upstream butt joint module 2, the output end of the upstream butt joint module 2 is in control connection with the input end of the upstream client module 1, the upstream client module 1 is composed of an upstream log-in module 11, a scan code recording module 12, a number recording module 13, a batch number recording module 14, a number recording module 15, a batch number recording module 16, an output end of a batch number recording module 14, an output end of the batch number recording module 15, and a batch number recording module 15, an output end of a batch number recording module 12, and a batch number recording module 14, the output end of the delivery bill generation module 17 is in control connection with the input end of the delivery bill uploading module 18, the tracing platform module 3 is composed of a platform receiving module 31, a delivery downloading module 32, a warehousing bill storage module 33, a delivery bill storage module 34, a bill transferring module 35, a screening and sorting module 36, an information verification module 37 and a verification output module 38, the output end of the platform receiving module 31 is in control connection with the input end of the delivery downloading module 32, the output end of the platform receiving module 31 is in control connection with the input ends of the warehousing bill storage module 33 and the delivery bill storage module 34 respectively, the output ends of the warehousing bill storage module 33 and the delivery bill storage module 34 are in control connection with the input end of the bill transferring module 35, the output end of the bill transferring module 35 is in control connection with the input end of the screening and sorting module 36, and the output end of the screening and sorting module 36 is in control connection with the input end of the information verification module 37, the output end of the information checking module 37 is in control connection with the input end of the checking output module 38, the downstream client module 5 is composed of a downstream end login module 51, an ex-warehouse receiving module 52, an in-warehouse code scanning module 53, a tracing processing module 54, an in-warehouse receipt generating module 55 and an in-warehouse receipt uploading module 56, the output end of the ex-warehouse receiving module 52 is in control connection with the input end of the downstream end login module 51, the output end of the downstream end login module 51 is in control connection with the input end of the warehousing code scanning module 53, the output end of the warehousing code scanning module 53 is in control connection with the input end of the tracing processing module 54, the output end of the tracing processing module 54 is in control connection with the input end of the warehousing entry form generation module 55, the output end of the warehousing entry form generation module 55 is in control connection with the input end of the warehousing entry form uploading module 56, and the warehousing entry form generation module 55 is combined with the instrument details of the goods, serial numbers, batches, the number of arrived cargos, the date of arrival and the verification result are used for generating an instrument warehousing list, and then the instrument warehousing list is transmitted to the tracing platform module 3 for storage, so that the list verification in the later period is facilitated, and the practicability of the system is improved.
Referring to fig. 3-4, an embodiment of the present invention: a tracing verification method of medical instruments based on batch numbers comprises the following steps: step one, ex-warehouse registration; step two, delivering the delivery list; step three, warehousing and registering; step four, tracing and comparing; step five, warehousing the bills for storage;
in the first step, an enterprise of a delivery party logs in an account from an upstream end login module 11 in an upstream client module 1, then registers details of medical instruments in a code scanning recording module 12, then records instrument numbers in a number recording module 13, records instrument batches in a batch number recording module 14, records delivery quantity of the instruments in a quantity recording module 15, records delivery dates of the instruments in a date recording module 16, and then generates a corresponding instrument delivery list by a delivery list generating module 17 in combination with the recorded instrument details, numbers, batches, delivery quantity and delivery dates;
in the second step, the delivery list generating module 17 transmits the generated instrument delivery list to the delivery list uploading module 18, the upstream docking module 2 transmits the instrument delivery list in the delivery list uploading module 18 to the tracing platform module 3, the platform receiving module 31 transmits the instrument delivery list to the delivery list storage module 34 for storage, the platform receiving module 31 transmits the instrument delivery list to the delivery downloading module 32, and the downstream docking module 4 transmits the instrument delivery list to the downstream client module 5 for display to the enterprise of the purchaser;
in the third step, the enterprise of the buyer logs in the downstream logging-in module 51 in the downstream client module 5 to log in an account, then checks the instrument ex-warehouse list transmitted by the downstream docking module 4 according to the requirement, when the instrument arrives at the goods, performs warehousing registration in the warehousing code scanning module 53, records the instrument details, the serial number, the batch and the quantity of the arrived goods, and then transmits the instrument details, the serial number, the batch and the quantity of the arrived goods to the tracing processing module 54;
in the fourth step, the traceback processing module 54 transmits the instrument details, the serial number, the batch and the quantity of the arrived goods to the downstream docking module 4, the downstream docking module 4 transmits the instrument details, the serial number, the batch and the quantity of the arrived goods to the information verification module 37 in the traceback platform module 3, the document calling module 35 combines the instrument details of the goods to call a corresponding instrument ex-warehouse list from the ex-warehouse list storage module 34, the corresponding instrument ex-warehouse list is transmitted to the screening and sorting module 36, the screening and sorting module 36 rejects the list with the date interval exceeding seven days, the rest lists are sorted according to the ex-warehouse date, the sorted lists are transmitted to the information verification module 37 to be compared with the instrument details, the serial number, the batch and the quantity of the arrived goods, a verification list is generated according to the comparison result, and the verification list is transmitted to the verification output module 38;
in the fifth step, the upstream docking module 2 transmits the check list to the upstream client module 1 for the enterprise of the delivery party to check, the downstream docking module 4 transmits the check list to the tracing processing module 54 in the downstream client module 5, the warehousing entry generation module 55 combines the details, the serial number, the batch, the quantity of the delivered goods, the date of the delivered goods and the check result to generate the warehousing entry list of the instruments, the warehousing entry uploading module 56 transmits the warehousing entry list of the instruments to the downstream docking module 4, and the downstream docking module 4 transmits the warehousing entry list of the instruments to the platform receiving module 31 and the warehousing entry storage module 33 stores the warehousing entry list of the instruments.
Based on the above, the invention has the advantages that when the invention is used, the details of the medical instruments are registered through the code scanning recording module 12, then the serial numbers of the instruments are input into the number input module 13, the batches of the instruments are input into the batch number input module 14, the ex-warehouse quantity of the instruments is input into the quantity input module 15, the ex-warehouse date of the instruments is input into the date input module 16, then the ex-warehouse list is generated by the ex-warehouse list generation module 17 in combination with the input instrument details, serial numbers, batches, the ex-warehouse quantity and the ex-warehouse date, the information input process during the ex-warehouse of the medical instruments is refined, a verified ex-warehouse list is provided for verification conveniently, the practicability of the system is improved, the comparison and verification of the instrument details, serial numbers, batches and the ex-warehouse quantity of the delivered goods transmitted by the downstream client module 5 are compared with the instrument ex-warehouse list by the set information verification module 37, the retrospective verification of the batch number granularity is realized, the verification of the batch number granularity is improved, the verification of the screening and the sorting module 36 is used for eliminating the verification of the residual verification data after the verification of the verification, and the verification of the verification is carried out-warehouse list, and the verification data is compared and the verification of the verification data is reduced.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a medical instrument is based on traceability verification system of lot number, includes upstream client module (1), upper reaches butt joint module (2), traces back platform module (3), low reaches butt joint module (4) and low reaches client module (5), its characterized in that: the input of upper reaches butt joint module (2) is connected in the output control of upper reaches client module (1), and the input of tracing back platform module (3) is connected in the output control of upper reaches butt joint module (2), the input of tracing back platform module (3) the output control of lower reaches butt joint module (4), and the input of lower reaches client module (5) is connected in the output control of lower reaches butt joint module (4), the input of lower reaches butt joint module (4) is connected in the output control of lower reaches client module (5), and the input of tracing back platform module (3) is connected in the output control of lower reaches butt joint module (4), the input of upper reaches butt joint module (2) is connected in the output control of tracing back platform module (3), and the input of upper reaches client module (1) is connected in the output control of upper reaches butt joint module (2).
2. The batch number-based retrospective verification system for medical instruments according to claim 1, wherein: the system is characterized in that the upstream client module (1) is composed of an upstream end login module (11), a code scanning recording module (12), a number recording module (13), a batch number recording module (14), a number recording module (15), a date recording module (16), a delivery order generating module (17) and a delivery order uploading module (18), the output end of the upstream end login module (11) is in control connection with the input end of the code scanning recording module (12), and the output end of the code scanning recording module (12) is in control connection with the input end of the code scanning recording module (13).
3. The system for retrospective verification of medical instruments based on lot numbers according to claim 2, wherein: the input of the output end control connection batch number entry module (14) of serial number entry module (13), and the input of the output end control connection quantity entry module (15) of batch number entry module (14), the input of the output end control connection date entry module (16) of quantity entry module (15), and the input of the output end control connection delivery list generation module (17) of date entry module (16), the input of the delivery list upload module (18) of output end control connection delivery list generation module (17).
4. The batch number-based retrospective verification system for medical instruments according to claim 1, wherein: the traceability platform module (3) is composed of a platform receiving module (31), a delivery downloading module (32), a warehousing entry storage module (33), a delivery entry storage module (34), a document calling module (35), a screening and sorting module (36), an information checking module (37) and a checking output module (38), and the output end of the platform receiving module (31) is in control connection with the input end of the delivery downloading module (32).
5. The batch number-based retrospective verification system for medical instruments according to claim 4, wherein: the output of platform receiving module (31) is the input of control connection warehouse entry list storage module (33) and delivery list storage module (34) respectively, and warehouse entry list storage module (33) and delivery list storage module (34)'s the equal control connection document of output transfer module's (35) input, the output control connection screening module's (36) the input of sorting module (35) is transferred to the document, and the input of the output control connection information verification module (37) of screening sorting module (36), the input of the output control connection verification output module (38) of information verification module (37).
6. The batch number-based retrospective verification system for medical instruments according to claim 1, wherein: the downstream client module (5) is composed of a downstream end login module (51), an ex-warehouse receiving module (52), a warehousing code scanning module (53), a tracing processing module (54), a warehousing entry generating module (55) and a warehousing entry uploading module (56), and the output end of the ex-warehouse receiving module (52) is in control connection with the input end of the downstream end login module (51).
7. The batch number-based retrospective verification system for medical instruments according to claim 6, wherein: the output end of the downstream end login module (51) is in control connection with the input end of the warehousing code scanning module (53), the output end of the warehousing code scanning module (53) is in control connection with the input end of the tracing processing module (54), the output end of the tracing processing module (54) is in control connection with the input end of the warehousing entry list generating module (55), and the output end of the warehousing entry list generating module (55) is in control connection with the input end of the warehousing entry list uploading module (56).
8. A tracing verification method of medical instruments based on batch numbers comprises the following steps: step one, ex-warehouse registration; step two, delivering the delivery list; step three, warehousing and registering; step four, tracing and comparing; step five, storing the warehousing bills; the method is characterized in that:
in the first step, an enterprise of a delivery party logs in an account from an upstream end login module (11) in an upstream client module (1) to log in the account, then performs detailed registration of medical instruments in a code scanning recording module (12), then records the serial numbers of the instruments in a number recording module (13), records the batches of the instruments in a batch number recording module (14), records the delivery quantity of the instruments in a quantity recording module (15), records the delivery date of the instruments in a date recording module (16), and then generates a corresponding instrument delivery list by a delivery list generation module (17) in combination with the recorded details, serial numbers, batches, delivery quantity and delivery date of the instruments;
in the second step, the delivery list generation module (17) transmits the generated instrument delivery list to the delivery list uploading module (18), the upstream docking module (2) transmits the instrument delivery list in the delivery list uploading module (18) to the tracing platform module (3), the platform receiving module (31) transmits the instrument delivery list to the delivery list storage module (34) for storage, the platform receiving module (31) transmits the instrument delivery list to the delivery downloading module (32), and the downstream docking module (4) transmits the instrument delivery list to the downstream client module (5) for display to enterprises of the buyer;
in the third step, an enterprise of a purchaser logs in an account from a downstream end login module (51) in a downstream client module (5), then checks an instrument ex-warehouse list transmitted by a downstream docking module (4) according to needs, when instruments arrive at the goods, performs warehousing registration in a warehousing code scanning module (53), records instrument details, numbers, batches and quantity of the arrived goods, and then transmits the instrument details, the numbers, the batches and the quantity of the arrived goods to a tracing processing module (54);
in the fourth step, the device details, the serial number, the batch and the quantity of the arrived goods are transmitted to a downstream docking module (4) by a tracing processing module (54), then the device details, the serial number, the batch and the quantity of the arrived goods are transmitted to an information verification module (37) in a tracing platform module (3) by the downstream docking module (4), then a corresponding device ex-warehouse list is called from an ex-warehouse list storage module (34) by combining the device details of the goods by a bill calling module (35), the corresponding device ex-warehouse list is transmitted to a screening sorting module (36), then a list with a date interval exceeding seven days is rejected by the screening sorting module (36), then the remaining list is sorted according to the ex-warehouse date, then the sorted list is transmitted to the information verification module (37) and compared with the device details, the serial number, the batch and the quantity of the arrived goods, then a verification list is generated according to a comparison result, and then the verification list is transmitted to a verification output module (38);
in the fifth step, the verification list is transmitted to the upstream client module (1) by the upstream docking module (2) and is checked by enterprises of a delivery party, meanwhile, the verification list is transmitted to a tracing processing module (54) in the downstream client module (5) by the downstream docking module (4), then a warehousing entry generation module (55) combines the details, the serial number, the batch, the quantity of the delivered goods, the delivery date and the verification result of the delivered goods to generate a device warehousing entry list, then the warehousing entry uploading module (56) transmits the device warehousing entry list to the downstream docking module (4), and then the downstream docking module (4) transmits the device warehousing entry list to the platform receiving module (31) and then the warehousing entry storage module (33) stores the device warehousing entry list.
CN202210860931.3A 2022-07-21 2022-07-21 Batch number-based tracing verification system and method for medical apparatus Pending CN115410696A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117316413A (en) * 2023-11-22 2023-12-29 祺遽(天津)信息科技有限公司 Medical instrument life cycle management system based on UDI coding four-code mapping

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117316413A (en) * 2023-11-22 2023-12-29 祺遽(天津)信息科技有限公司 Medical instrument life cycle management system based on UDI coding four-code mapping
CN117316413B (en) * 2023-11-22 2024-02-23 祺遽(天津)信息科技有限公司 Medical instrument life cycle management system based on UDI coding four-code mapping

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