CN114023422A - Hospital fine anesthesia medicine whole-course tracing management system - Google Patents

Abstract

The invention provides a hospital fine anesthesia medicine whole-process tracing management system, which comprises the following steps: according to a first identification result of a personnel identity label worn by each medical staff by each storehouse identification terminal installed at an entrance guard of a corresponding operation area drug storehouse, a second identification result of a personnel identity label by each drug cabinet identification terminal installed on a corresponding drug cabinet, a third identification result of a drug box identity label arranged on a drug box by each operation room identification terminal installed in each operation room, a fourth identification result of a personnel identity label by each drug box identification terminal installed on a corresponding drug box, a fifth identification result of a drug identity label arranged on a container of fine anesthesia drugs by each drug cabinet identification terminal, a sixth identification result of a drug identity label by each operation room identification terminal, and a seventh identification result of a drug cabinet identification terminal on a drug box identity label, the whole-course tracing management of each fine anesthesia drug is carried out. The precision of storage, use and safety management of the fine anesthetic is accurate to people.

Description

Hospital fine anesthesia medicine whole-course tracing management system

Technical Field

The invention relates to the technical field of medicine use safety management, in particular to a hospital fine anesthesia medicine whole-process tracing management system.

Background

Anesthesia and psychotropic drugs are indispensable in hospital operations, and have the problems of multiple types, large consumption, more involved personnel and intermediate links and the like, and meanwhile, the anesthetic and psychotropic drugs are used as special management drugs, and serious harm results are caused when improper management flows into the society. The ministry of health promulgates 'narcotic drugs and first class of mental drugs management regulations' of medical institutions in Shanghai city in 2005, and the ministry of health and health in Shanghai city in 2019 promulgated 'narcotic drugs and first class of mental drugs management regulations' of medical institutions in Shanghai city, and the most rigorous regulations, the most rigorous punishments and the most serious accountability aim at the problems found by the fine anesthesia drugs of the medical institutions to check, lack and fill up and leak, so that the closed-loop management of the whole process and the supervision on important links are highlighted, the requirements on the management of each link such as the purchase, storage and use of the fine anesthesia drugs are made, the normal medical requirements of patients are ensured, and the fine anesthesia drugs are prevented from flowing into illegal channels.

In the past, the fine anesthesia medicine in the hospital operation is estimated by a full-time nurse according to the planned operation quantity and size, the medicine is collected and filed to a pharmacy for subsequent keeping and maintenance work, and the medicine is placed on a medicine rack or a medicine cabinet in an operating room warehouse for an anaesthetist to take as required. The pharmacy supplies the medicines according to the specified technology, and the doctors take the medicines according to the operation requirements. The full-time medical staff is responsible for daily inventory, registration and dispensing, and registration is performed using paper documents. Because the personnel in the operating room have complicated contact, the fine anesthesia medicine can be contacted at any time, which is easy to cause the misuse and the taking of the fine anesthesia medicine, even the way to the front is unknown; meanwhile, the fine anesthetic is not bound with the professional medical staff in the links of receiving, using and the like, the medicine state depends on the paper document, the actual state of the medicine cannot be mastered in time, and the management flow cannot meet the requirements of regulations and regulations.

The existing open type medicine rack medicine cabinet lacks safety, and can cause the loss and the improper use of the fine sesame medicine. Although monitoring, intelligent medicine cabinet and access control system have been developed recently, encrypt through technologies such as password, fingerprint identification, facial discernment, when promoting the smart ma medicine management security in operating room, sometimes also influenced the timely of taking in smart ma medicine art. The surgical mask and the wearing gloves are inconvenient to carry out fingerprint and facial recognition, and the password is poor in safety and confidentiality and needs to be replaced regularly. The existing scheme does not realize the binding of fine anesthesia medicines with personnel in the links of receiving and using, and realizes the whole-process tracing management requirement of 'sources can be checked, destination can be traced and responsibilities can be researched'.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a hospital fine anesthesia medicine whole-process tracing management system, wherein at least one medicine cabinet is pre-configured in each medicine storehouse of an operation area of a hospital and is used for loading at least one medicine box; the hospital fine anesthesia medicine full-name tracing management system comprises:

the storehouse identification terminals are respectively installed at the corresponding entrance guard positions of the drug storehouses in the operation area;

the medicine cabinet identification terminals are respectively arranged on the corresponding cabinet doors of the medicine cabinets;

the medicine box identification terminals are respectively arranged on the box doors of the corresponding medicine boxes;

a plurality of operating room identification terminals respectively installed in the operating rooms of the hospital;

the plurality of personnel identity tags are respectively worn by corresponding medical personnel;

the medicine box comprises a plurality of containers, a plurality of medicine identification labels and a plurality of intelligent control modules, wherein the plurality of medicine identification labels are respectively arranged on the containers for loading the fine ramie medicines, the medicine boxes are used for loading the containers, and each medicine box is also provided with a medicine box identification label;

a tracing management module which is respectively connected with each storeroom identification terminal, each medicine cabinet identification terminal, each medicine box identification terminal and each operating room identification terminal, for receiving and according to a first recognition result of each warehouse recognition terminal to the personnel identity tag, a second recognition result of each medicine cabinet recognition terminal to the personnel identity tag, a third recognition result of each operating room recognition terminal to the medicine box identity tag, a fourth recognition result of each medicine box recognition terminal to the personnel identity tag, a fifth recognition result of each medicine cabinet recognition terminal to the medicine identity tag, and a sixth recognition result of each operating room recognition terminal to the medicine identity tag, respectively, and the medicine cabinet identification terminal carries out the whole-process tracing management on the fine anesthesia medicines according to a seventh identification result of the medicine box identity label.

Preferably, the tracing management module includes a first storage unit, configured to acquire and store medicine information of each purchased fine anesthetic, so as to generate the medicine identity label of the corresponding fine anesthetic according to the medicine information.

Preferably, the trace back management module includes:

the first judgment unit is used for outputting a first judgment signal when the second identification result and the fourth identification result which are received in sequence both indicate that the corresponding medical staff is a pharmacist and then the fifth identification result is received;

the second judging unit is connected with the first judging unit and used for outputting a second judging signal when the sixth identification result is not received within a preset time period before the first judging signal is received and outputting a third judging signal when the sixth identification result is received;

a third judging unit, connected to the second judging unit, for outputting a fourth judging signal when the sixth identification result and the fifth identification result both indicate the same drug for fine anesthesia according to the third judging signal, and outputting a fifth judging signal when the sixth identification result and the fifth identification result indicate different drugs for fine anesthesia;

a first management unit, respectively connected to the second determination unit and the third determination unit, for generating a drug preparation record of the drug for refined anesthesia according to the second identification result, the third identification result and the fifth identification result when receiving the second determination signal or the fifth determination signal,

and when the fourth judgment signal is received, generating a recovery record of the fine anesthetic according to the second identification result, the third identification result, the fifth identification result and the sixth identification result.

Preferably, each medicine cabinet is provided with at least one weight sensing device for detecting and outputting a weight value of the medicine chest correspondingly placed in the medicine cabinet in real time, and an indicating component corresponding to the weight sensing device is arranged outside each medicine cabinet;

the tracing management module is further connected to the weight sensing device and the indicating component, the tracing management module further includes a control unit for receiving the weight value and controlling the corresponding indicating component to give an empty status indication when the weight value indicates that the medicine chest is not placed in the medicine chest,

when the weight value indicates that the medicine chest is placed in the medicine chest and the weight value remains unchanged from the time of generation of the medicine preparation record of the latest time related to the medicine chest, controlling the corresponding indicating means to give an indication of a medicine preparation completion state,

and when the weight value indicates that the medicine chest is placed in the medicine chest and the weight value changes from the time of generation of the medicine preparation record which is associated with the medicine chest and is the latest time, controlling the corresponding indicating component to give an indication of a state of medicine to be prepared.

Preferably, the tracing management module includes a second management unit, configured to control the medicine box to be unpacked and generate an unpacking use record when the received second identification result indicates that the medical staff is an anesthesiologist, and then the seventh identification result, the third identification result, and the fourth identification result are sequentially received, and the third identification result indicates that the corresponding operating room identification terminal successfully identifies the medicine box identity tag, and the fourth identification result indicates that the medical staff is an anesthesiologist.

Preferably, the tracing management module further includes a third management unit, connected to the second management unit, and configured to receive the sixth identification result and generate a usage record of the surgical drug according to the usage record of the unpacking after the unpacking usage record is generated.

Preferably, the tracing management module further includes a fourth management unit, connected to the second management unit, and configured to generate a medicine-box returning record when the second identification result and the seventh identification result are sequentially received after the generation of the opening use record and the medicine box corresponding to the seventh identification result matches the medicine box associated in the opening use record.

Preferably, the tracing management module is provided with a viewing port, connected to the third management unit, for the medical staff to view the usage record of the surgical medicine.

The technical scheme has the following advantages or beneficial effects: the precision of warehousing, storing, using and safety management of the fine anesthesia medicine in the pharmacy of the operating room of the hospital is realized; the information means is matched with the RFID wireless radio frequency technology, so that the states of all links of the fine anesthesia medicine are bound with the professional medical staff, electronic mark retention is performed, the full-flow management of the fine anesthesia medicine with traceable sources and traceable destinations is realized, and the misuse and the mistaken taking of the fine anesthesia medicine or even the missing of the fine anesthesia medicine caused by the complicated passing of personnel in an operating room are effectively avoided.

Drawings

Fig. 1 is a schematic structural diagram of a hospital general traceability management system for fine drugs in accordance with a preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In a preferred embodiment of the present invention, based on the above problems in the prior art, a hospital fine anesthesia medicine whole-process traceability management system is provided, in which at least one medicine cabinet is pre-configured in each medicine storehouse of the operation area of the hospital for loading at least one medicine box; as shown in fig. 1, the hospital general-name traceability management system for fine anesthesia drugs comprises:

the storehouse identification terminals 1 are respectively installed at the corresponding entrance guard of the drug storehouse in the operation area;

the medicine cabinet identification terminals 2 are respectively arranged on the cabinet doors of the corresponding medicine cabinets;

a plurality of medicine box identification terminals 3 each mounted on a box door of a corresponding medicine box;

a plurality of operating room identification terminals 4 installed in the operating rooms of the hospital, respectively;

the plurality of personnel identity tags are respectively worn by corresponding medical personnel;

the medicine box identity labels are respectively arranged on the containers for loading the fine ramie medicines, the medicine boxes are used for loading the containers, and each medicine box is also provided with a medicine box identity label;

the tracing management module 5 is connected to each storehouse identification terminal 1, each medicine cabinet identification terminal 2, each medicine box identification terminal 3 and each operating room identification terminal 4, and is configured to receive and perform, according to a first identification result of each storehouse identification terminal 1 on a person identification label, a second identification result of each medicine cabinet identification terminal 2 on the person identification label, a third identification result of each operating room identification terminal 4 on the medicine box identification label, a fourth identification result of each medicine box identification terminal 3 on the person identification label, a fifth identification result of each medicine cabinet identification terminal 2 on the medicine identification label, a sixth identification result of each operating room identification terminal 4 on the medicine identification label, and a seventh identification result of each medicine cabinet identification terminal 2 on the medicine box identification label, and perform whole-course tracing management on each fine anesthetic.

Specifically, in this embodiment, the fine anesthetic includes a psychotropic drug and an anesthetic, the medical staff includes all medical staff related to the administration of the fine anesthetic, including but not limited to a doctor, an anesthesiologist, a nurse, and a pharmacist, each medical staff needs to wear a staff identity tag, and the staff identity tag has unique electronic tag coding information and is bound with the staff identity of the medical staff in each link. The entrance guard department of operation area drug storage is equipped with storehouse identification terminal 1, this storehouse identification terminal 1 can be high frequency radio frequency identification terminal, induced-current will appear when medical staff carries personnel's identity label and gets into storehouse identification terminal 1's wireless transmission work area, then personnel's identity label will activate through built-in transmitting antenna transfer signal to the read write line, decode, store medical staff and information such as access time by tracing back management module 5 at last, this management module 5 of tracing back can be hospital's drug logistics information system.

After the fine drugs are purchased in the operating room, the tracing management module 5 includes a first storage unit 51 for acquiring and storing the drug information of each purchased fine drug, and then generating the corresponding drug identity label of the fine drug according to the drug information of each fine drug. Preferably, the drug information includes, but is not limited to, key information such as drug name, lot number, production time, expiration time, warehousing time, and the like of the fine anesthetic drug, and then a unique electronic tag code, that is, a drug identity tag, is bound. And then, a minimum metering container of the fine drugs, such as an ampoule bottle, can be covered with a drug identity label, preferably, the drug identity label is an electronic label which can be repeatedly erased and written, so that the electronic label is convenient to recycle, and the cost is saved.

Furthermore, the drug storeroom in the operating area is used for placing drug cabinets and drug boxes according to operating rooms, a single drug cabinet device is provided with an independent drug cabinet identification terminal 2, a drug box device is provided with an independent drug box identity label and a drug box identification terminal 3, the drug box device can be opened and stored after only reading the personnel identity label of an operating medical worker, and meanwhile, the traceability management module 5 records information such as a cabinet opening number, information of the operating worker, operating time and the like.

After the fine anesthesia medicine is purchased, a pharmacist usually places the fine anesthesia medicine which is purchased and then is covered with the medicine identity label into each medicine cabinet and medicine box in a medicine storehouse in an operation area at regular intervals, and preferably, the tracing management module 5 comprises:

a first judging unit 52, configured to output a first judging signal when the second identification result and the fourth identification result that are sequentially received both indicate that the corresponding medical staff is a pharmacist and then the fifth identification result is received;

the second judging unit 53, connected to the first judging unit 52, is configured to output a second judging signal if the sixth identification result is not received within a preset time period before the first judging signal is received, and output a third judging signal if the sixth identification result is received;

a third judging unit 54, connected to the second judging unit 53, for outputting a fourth judging signal when the sixth recognition result and the fifth recognition result both indicate the same drug for fine anesthesia according to the third judging signal, and outputting a fifth judging signal when the sixth recognition result and the fifth recognition result indicate different drugs for fine anesthesia;

a first management unit 55, connected to the second determination unit 53 and the third determination unit 54, respectively, for generating a drug preparation record of the drug for anesthesia according to the second identification result, the third identification result and the fifth identification result when receiving the second determination signal or the fifth determination signal,

and when the fourth judgment signal is received, generating a recovery record of the fine anesthetic according to the second identification result, the third identification result, the fifth identification result and the sixth identification result.

Specifically, in this embodiment, the pharmacist can respectively open the cabinet and the medicine box according to the personal identification tag. Furthermore, the medicine preparation and dosing can be performed by checking the operation medicine use record of the fine anesthesia medicine recorded by the tracing management module 5, the use base number is complemented, the prescription and the fine anesthesia medicine after recycling are audited, the quantity is determined, and the use record of the special medicine is printed. When preparing medicines, carry out radio frequency identification through medicine cabinet identification terminal 2 on medicine identity label and the medicine cabinet, trace back management module 5 and can record which medical personnel added which essence anesthesia medicine at which medicine cabinet in what time quantum according to the second identification result to close the case, lock to the medicine cabinet medical kit after preparing medicines and accomplishing.

More specifically, it can be confirmed that both the drug cabinet and the drug box are pharmacists by the second recognition result and the fourth recognition result, and then the fifth recognition result is received, that is, when the pharmacist recognizes the container by using the drug cabinet recognition terminal 2, it is described that the drug preparation or recycling operation will be performed on the fine anesthetic, and in order to further determine whether the drug preparation or recycling operation is performed, at this time, it is determined whether the sixth recognition result of the identity tag of the drug by the operating room recognition terminal 4 is received within a preset time period before the time when the pharmacist recognizes the container by using the drug cabinet recognition terminal 2, and whether the sixth recognition result and the fifth recognition result represent the same fine anesthetic, in other words, it is determined whether the usage record of the fine anesthetic used by the operating room is recorded by the traceability management module 5 before the time when the pharmacist recognizes the container by using the drug cabinet recognition terminal 2, if the usage record of the fine anesthetic exists, the recovery operation is performed, and if the usage record does not exist, the preparation operation is performed.

Further, whether the pharmacy needs to open the medicine cabinet earlier and look over and need prepare medicine when generally preparing medicine, if open the back discovery and do not need prepare medicine and close again, the pharmacy needs to open every medicine cabinet in proper order promptly and looks over, when inconvenient for preparing medicine work brings, when the pharmacy opens the medicine cabinet at every turn, traces back management module 5 and frequently takes notes the operation of opening the cabinet of pharmacy, produces multiunit invalid data, brings inconvenience for the follow-up management of traceing back. Based on this, in a preferred embodiment of the present invention, at least one weight sensing device 6 is disposed in each medicine cabinet for detecting and outputting a weight value of a medicine box correspondingly disposed in the medicine cabinet in real time, and an indicating component 7 corresponding to the weight sensing device 6 is disposed outside each medicine cabinet;

the tracing management module 5 is further connected to the weight sensing device 6 and the indicating component 7, the tracing management module 5 further comprises a control unit 56 for receiving the weight value, and when the weight value indicates that no medicine chest is placed in the medicine chest, controlling the corresponding indicating component 7 to give an empty status indication,

when the weight value indicates that a medicine chest is placed in the medicine chest and the lifting weight value of the medicine chest related to the generation time of the latest medicine preparation record is kept unchanged, the corresponding indicating component 7 is controlled to give an indication of the medicine preparation completion state,

and when the weight value indicates that a medicine box is placed in the medicine cabinet and the weight value changes at the time of generating the latest medicine preparation record related to the medicine cabinet, controlling the corresponding indicating component 7 to give an indication of a state of medicine preparation.

Specifically, in the present embodiment, the indicating means 7 may be an indicator light, and when the weight value indicates that no medicine boxes are placed in the medicine chest, the corresponding indicating means 7 may be controlled to turn on a red light to give an indication of an empty state, when the weight value indicates that the medicine chest is placed in the medicine chest, it is necessary to further determine whether the medicine chest is ready to be prepared or is ready to be prepared, and in this embodiment, whether the weight value that corresponds changes through this medicine cabinet's medicine preparation record after the formation judges, if change, indicate that the fine anesthesia medicine in the medicine cabinet has been used, need carry out the medicine preparation, can control corresponding indicating part 7 and light the amber light in order to give the state indication of waiting to prepare medicine this moment, if keep unchangeable, indicate that fine anesthesia medicine in this medicine cabinet is not used after the completion of preparing medicine, need not to prepare medicine once more, can control corresponding indicating part 7 and light the amber light in order to give the state indication of completing preparing medicine this moment. To sum up, the pharmacist only need correspond open the medicine cabinet of bright yellow light prepare medicine can, other medicine cabinets need not to open one by one and look over, effectively promote pharmacist's the efficiency of preparing medicine.

After the pharmacist finishes preparing the medicine, before the operation, the anesthesiologist needs to carry the medicine box in the medicine cabinet to the operating room for use, and for the use management of the fine anesthesia medicine, in a preferred embodiment of the present invention, the tracing management module 5 includes a second management unit 57, configured to, when the received second identification result indicates that the medical staff is an anesthesiologist, then sequentially receive a seventh identification result, a third identification result, and a fourth identification result, and the third identification result indicates that the corresponding operating room identification terminal successfully identifies the medicine box identity tag, and the fourth identification result indicates that the medical staff is an anesthesiologist, control the medicine box to be unpacked and generate an unpacking use record. The case-opening usage records include, but are not limited to, identity information of the anesthesiologist, the time at which the anesthesiologist identifies his or her personal identification tag, and the particular identified drug cabinet. When an anesthesiologist brings a medicine box to an operating room, firstly, the identity label of the medicine box is identified through the operating room identification terminal 3, if the identification is successful, the fact that fine anesthesia medicines in the medicine box need to be used in the operating room is described, at the moment, the medicine box is opened through identity identification of the anesthesiologist, if the identification of the operating room identification terminal 3 on the medicine box identity label is unsuccessful, the fact that the fine anesthesia medicines in the medicine box need not be used in the operating room is described, the problem of taking by mistake possibly exists, even if the identity identification of the anesthesiologist passes through and the medicine box is not opened, the fact that the appointed medicine box is brought into the appointed operating room can be used for opening and closing the medicine box, and the problem of using the medicines is avoided from the source.

In a preferred embodiment of the present invention, the tracing management module 5 further includes a third management unit 58 connected to the second management unit 57, and configured to receive the sixth identification result and the unpacking usage record to generate a usage record of the surgical medicine according to the sixth identification result and the unpacking usage record after the unpacking usage record is generated.

Specifically, in the present embodiment, when an anesthesiologist or operation nurse uses a drug for anesthesia, the operating room identification terminal 3 is required to identify the drug identification tag, so as to generate the usage record of the operation drug in combination with the unpacking usage record. The record of the usage of the surgical drugs includes, but is not limited to, the operating room in which the fine drug is operated and used by which medical staff and the production and operation details.

After the operation, the medical staff may put the prescription and the used empty ampoule of fine anesthetic drug back into the drug box and return the drug box to each drug cabinet of the drug storage room in the operation area, in a preferred embodiment of the present invention, the trace management module 5 further includes a fourth management unit 59 connected to the second management unit 57, and configured to generate a drug box return record when the second identification result and the seventh identification result are sequentially received after the generation of the box opening use record, and the drug box corresponding to the seventh identification result is identical to the drug box associated in the box opening use record. The case return record includes, but is not limited to, the return operator and the return time.

After returning, a pharmacist can enter a medicine storehouse in an operation area, and medicine preparation and medicine adding are carried out on the medicine boxes in the medicine cabinets, so that a base number link is complemented. The operation medicine use record and the prescription information in the operation are confirmed and rechecked through the tracing management module 5, a special book is registered, the empty ampoules of the used fine anesthesia medicine are recovered and then registered, and the recovered electronic tags and the radio frequency identification terminal of the medicine cabinet are used for scanning. Only when the medicine is used in an operation and the identification of the medicine is confirmed and recorded after the identification of the medicine is read through an identification terminal in each operating room. Meanwhile, the electronic label which can be repeatedly erased and written is separated from the empty ampoule, and the ampoule is recycled for scanning and registering when the medicine is purchased. After the used empty fine anesthetic ampoules are checked to be consistent with the special account book for the special medicines, the empty fine anesthetic ampoules are sent to an appointed place to be destroyed, records are made, and closed-loop management of the fine anesthetic is completed. Preferably, the traceability management module 5 is provided with a viewing port 50 connected to the third management unit 58 for medical staff to view the record of the usage of the surgical drug.

In conclusion, the whole-process tracing of the whole using process is realized for the fine anesthesia medicine through the RFID technology, and the real-time use condition of each minimum metering unit medicine can be accurately seen; the operation of medical staff in each link is marked, all information of executives, operation behaviors, operation time and operation medicines is recorded, the responsibility is clear, the source can be checked, the destination can be traced, and possible misuse and mistaken taking of fine drugs and even unknown destination of the fine drugs are avoided; the medicine using process is convenient and easy to implement, the information such as the using batch number, the using quantity, the using personnel and the like of the fine and rough medicines is recorded through an informatization system, and the possible transcription error or unreal recording during the recording of the existing paper documents is avoided. The safety of the operating area during the use of fine anesthesia medicines in the medicine storehouse and the operating room is ensured, the possible management omission and medicine loss risk points caused by the complicated personnel reciprocating are avoided, and the conditions of password unlocking, fingerprint identification, face identification and the like are more in line with the clinical practical use requirements.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (8)

1. A hospital fine anesthesia medicine whole-process tracing management system is characterized in that at least one medicine cabinet is pre-configured in each operation area medicine storehouse of a hospital and used for loading at least one medicine box; the hospital fine anesthesia medicine full-name tracing management system comprises:

the storehouse identification terminals are respectively installed at the corresponding entrance guard positions of the drug storehouses in the operation area;

the medicine cabinet identification terminals are respectively arranged on the corresponding cabinet doors of the medicine cabinets;

the medicine box identification terminals are respectively arranged on the box doors of the corresponding medicine boxes;

a plurality of operating room identification terminals respectively installed in the operating rooms of the hospital;

the plurality of personnel identity tags are respectively worn by corresponding medical personnel;

the medicine box comprises a plurality of containers, a plurality of medicine identification labels and a plurality of intelligent control modules, wherein the plurality of medicine identification labels are respectively arranged on the containers for loading the fine ramie medicines, the medicine boxes are used for loading the containers, and each medicine box is also provided with a medicine box identification label;

a tracing management module which is respectively connected with each storeroom identification terminal, each medicine cabinet identification terminal, each medicine box identification terminal and each operating room identification terminal, for receiving and according to a first recognition result of each warehouse recognition terminal to the personnel identity tag, a second recognition result of each medicine cabinet recognition terminal to the personnel identity tag, a third recognition result of each operating room recognition terminal to the medicine box identity tag, a fourth recognition result of each medicine box recognition terminal to the personnel identity tag, a fifth recognition result of each medicine cabinet recognition terminal to the medicine identity tag, and a sixth recognition result of each operating room recognition terminal to the medicine identity tag, respectively, and the medicine cabinet identification terminal carries out the whole-process tracing management on the fine anesthesia medicines according to a seventh identification result of the medicine box identity label.

2. The hospital drug for entire process of traceability management of seminal hemp according to claim 1, wherein the traceability management module comprises a first storage unit for acquiring and storing drug information of each purchased seminal hemp drug, so as to generate the corresponding drug identity label of the seminal hemp drug according to the drug information.

3. The hospital anesthesia medicine whole-process traceability management system of claim 1, wherein the traceability management module comprises:

the first judgment unit is used for outputting a first judgment signal when the second identification result and the fourth identification result which are received in sequence both indicate that the corresponding medical staff is a pharmacist and then the fifth identification result is received;

the second judging unit is connected with the first judging unit and used for outputting a second judging signal when the sixth identification result is not received within a preset time period before the first judging signal is received and outputting a third judging signal when the sixth identification result is received;

a third judging unit, connected to the second judging unit, for outputting a fourth judging signal when the sixth identification result and the fifth identification result both indicate the same drug for fine anesthesia according to the third judging signal, and outputting a fifth judging signal when the sixth identification result and the fifth identification result indicate different drugs for fine anesthesia;

a first management unit, respectively connected to the second determination unit and the third determination unit, for generating a drug preparation record of the drug for refined anesthesia according to the second identification result, the third identification result and the fifth identification result when receiving the second determination signal or the fifth determination signal,

and when the fourth judgment signal is received, generating a recovery record of the fine anesthetic according to the second identification result, the third identification result, the fifth identification result and the sixth identification result.

4. The hospital general anesthesia medicine traceability management system of claim 3, wherein each medicine cabinet is provided with at least one weight sensing device for detecting and outputting the weight value of the medicine chest correspondingly placed in the medicine cabinet in real time, and an indicating component corresponding to the weight sensing device is arranged outside each medicine cabinet;

the tracing management module is further connected to the weight sensing device and the indicating component, the tracing management module further includes a control unit for receiving the weight value and controlling the corresponding indicating component to give an empty status indication when the weight value indicates that the medicine chest is not placed in the medicine chest,

when the weight value indicates that the medicine chest is placed in the medicine chest and the weight value remains unchanged from the time of generation of the medicine preparation record of the latest time related to the medicine chest, controlling the corresponding indicating means to give an indication of a medicine preparation completion state,

and when the weight value indicates that the medicine chest is placed in the medicine chest and the weight value changes from the time of generation of the medicine preparation record which is associated with the medicine chest and is the latest time, controlling the corresponding indicating component to give an indication of a state of medicine to be prepared.

5. The hospital general anesthesia medicine traceability management system of claim 1, wherein the traceability management module comprises a second management unit, configured to control the medicine box to be unpacked and generate an unpacking usage record when the received second identification result indicates that the medical staff is an anesthesiologist, and then the seventh identification result, the third identification result and the fourth identification result are sequentially received, and the third identification result indicates that the corresponding operating room identification terminal successfully identifies the medicine box identity tag and the fourth identification result indicates that the medical staff is an anesthesiologist.

6. The hospital general anesthesia medicine traceability management system of claim 5, wherein the traceability management module further comprises a third management unit connected to the second management unit for receiving and generating a surgical medicine usage record according to the sixth identification result and the unpacking usage record after the unpacking usage record is generated.

7. The hospital general anesthesia medicine traceability management system of claim 5, wherein the traceability management module further comprises a fourth management unit connected to the second management unit and configured to receive the second identification result and the seventh identification result in sequence after the unpacking use record is generated, and generate a medicine box return record when the medicine box corresponding to the seventh identification result is identical to the medicine box associated in the unpacking use record.

8. The hospital anesthesia medicine whole-process traceability management system of claim 6, wherein the traceability management module is provided with a viewing port connected to the third management unit for the medical staff to view the usage record of the operation medicine.

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