CN113658664A - Management method, device, system and storage medium for narcotic application - Google Patents

Abstract

The invention is applicable to the technical field of management data processing, and discloses a management method, a device, a system and a storage medium for anesthetic drug application. The method comprises the steps of obtaining an anesthetic drug application created and initiated by a first user on first terminal equipment; determining the inventory state meeting the requirement of the narcotic application according to the inventory drug information in the narcotic intelligent storage cabinet; generating a medicine taking position and a medicine taking instruction of the needed anesthetic in the anesthetic application according to the inventory state; sending the medicine taking position and the narcotic application to a second terminal device to request authorization; according to the authorization of a second user for the narcotic application on a second terminal device, sending a medicine taking instruction to the narcotic intelligent storage cabinet, and sending a medicine taking position to a first terminal device; the cabinet door is opened by verifying the biological characteristic information input by the first user on the intelligent narcotic storage cabinet where the medicine taking position is located, so that medicine taking is completed. The efficiency of narcotic drug application is improved.

Description

Management method, device, system and storage medium for narcotic application

Technical Field

The invention belongs to the technical field of management data processing, and particularly relates to a management method, a device, a system and a storage medium for anesthetic drug application.

Background

Narcotic drugs are among the strictly managed items in hospitals, and the purpose of this is to prevent the leakage and abuse of narcotics caused by human factors. For example, in a procedure of applying anesthesia in a hospital surgery, since the application of anesthetic is relatively frequent, not only strict requirements but also time-dependent requirements for the management of anesthetic are required. The existing application process is that a doctor finds a specially-assigned person for managing the narcotic medicines according to a prescription to provide the narcotic medicines, in the process, the applicant and the specially-assigned person for managing the narcotic medicines are required to participate together, obviously, the obtaining time of the narcotic medicines is relatively slow, the specially-assigned person for managing the narcotic medicines is required to be present all the time, and if the specially-assigned person for managing the narcotic medicines temporarily leaves or is not present due to accidents or other factors, the obtaining time of the narcotic medicines is delayed.

Therefore, hospitals are expected to further improve the efficiency of application of surgical anesthetic drugs while ensuring the management requirements for anesthetic drugs.

Disclosure of Invention

In view of this, embodiments of the present invention provide a management method, an apparatus, a system and a storage medium for anesthetic drug application, so as to solve the problem of how to further improve the efficiency and safety of anesthetic drug application management.

In a first aspect of the embodiments of the present invention, a management method for an anesthetic application is provided, where the method includes: acquiring an anesthetic drug application created and initiated by a first user on first terminal equipment; determining the inventory state meeting the requirement of the narcotic required in the narcotic application according to inventory drug information in the intelligent narcotic storage cabinet, wherein the inventory drug information comprises the type and the quantity of the existing stored narcotic; generating a medicine taking position and a medicine taking instruction of the needed narcotic in the narcotic application according to the inventory state, wherein the medicine taking position comprises position information of an intelligent narcotic storage cabinet in which the needed narcotic is stored, and the medicine taking instruction comprises an instruction for verifying biological characteristic information of the first user and opening a cabinet door in the intelligent narcotic storage cabinet after the verification is passed; sending the medicine taking position and the corresponding narcotic application to a second terminal device, and requesting a second user to authorize the narcotic application on the second terminal device; according to the authorization of the second user for the narcotic application on the second terminal device, the medicine taking instruction is sent to the narcotic intelligent storage cabinet corresponding to the medicine taking position, and meanwhile the medicine taking position is sent to the first terminal device; and acquiring biological characteristic information input by a first user on an intelligent narcotic storage cabinet where the medicine taking position is located, and after the biological characteristic information passes verification, opening a cabinet door in the intelligent narcotic storage cabinet, which meets the narcotic application, to finish taking the medicine.

In a second aspect of the embodiments of the present invention, there is provided a management apparatus for an anesthetic application, including: the application module is configured to acquire an anesthetic drug application created and initiated by a first user on a first terminal device; the system comprises an inquiry module, a storage module and a storage module, wherein the inquiry module is configured to determine the storage state of needed narcotics in a narcotic application according to the information of the stored narcotics in an intelligent narcotic storage cabinet, and the information of the stored narcotics comprises the types and the quantity of the existing narcotics; the generating module is configured to generate a medicine taking position and a medicine taking instruction of a required anesthetic in the anesthetic application according to the inventory state, wherein the medicine taking position comprises position information of an intelligent anesthetic storage cabinet in which the required anesthetic is stored, and the medicine taking instruction comprises an instruction for verifying biological characteristic information of the first user and opening a cabinet door in which the required anesthetic is stored in the intelligent anesthetic storage cabinet only after the verification is passed; the first sending module is configured to send the medicine taking position and the corresponding narcotic application to a second terminal device and request a second user to authorize the narcotic application on the second terminal device; the second sending module is configured to send the medicine taking instruction to an intelligent narcotic storage cabinet corresponding to the medicine taking position according to the authorization of the second user on the second terminal device for the narcotic application, and send the medicine taking position to the first terminal device; and the verification module is configured to acquire biological characteristic information input by a first user on the intelligent narcotic storage cabinet where the medicine taking position is located, and when the biological characteristic information passes verification, a cabinet door which meets the application of the narcotic in the intelligent narcotic storage cabinet is opened to finish the medicine taking.

In a third aspect of the embodiments of the present invention, there is provided a management system for an anesthetic application, including: the intelligent storage system comprises a first terminal device, a second terminal device, a server and a plurality of intelligent narcotic storage cabinets, wherein the first terminal device, the second terminal device and the intelligent narcotic storage cabinets are respectively connected with the server through a network, the server comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and the steps of the method are realized when the processor executes the computer program.

In a fourth aspect of the embodiments of the present invention, a storage medium storing a computer program is provided, wherein the computer program is configured to implement the steps of the above method when executed by a processor.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: acquiring an anesthetic drug application created and initiated by a first user on first terminal equipment; determining the inventory state meeting the requirement of the narcotic required in the narcotic application according to inventory drug information in the intelligent narcotic storage cabinet, wherein the inventory drug information comprises the type and the quantity of the existing stored narcotic; generating a medicine taking position and a medicine taking instruction of the needed narcotic in the narcotic application according to the inventory state, wherein the medicine taking position comprises position information of an intelligent narcotic storage cabinet in which the needed narcotic is stored, and the medicine taking instruction comprises an instruction for verifying biological characteristic information of the first user and opening a cabinet door in the intelligent narcotic storage cabinet after the verification is passed; sending the medicine taking position and the corresponding narcotic application to a second terminal device, and requesting a second user to authorize the narcotic application on the second terminal device; according to the authorization of the second user for the narcotic application on the second terminal device, the medicine taking instruction is sent to the narcotic intelligent storage cabinet corresponding to the medicine taking position, and meanwhile the medicine taking position is sent to the first terminal device; the method comprises the steps of obtaining biological characteristic information input by a first user on an intelligent narcotic storage cabinet where a medicine taking position is located, and after the biological characteristic information passes verification, opening a cabinet door which meets an narcotic application in the intelligent narcotic storage cabinet to finish medicine taking.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art without inventive efforts.

FIG. 1 is a flow chart of an implementation of the method for narcotic custody of the present invention in one embodiment;

FIG. 2 is a schematic structural diagram of an apparatus for anesthetic administration according to an embodiment of the present invention;

fig. 3 is a schematic configuration diagram of a system to which the method for keeping anesthetic drugs of the present invention can be applied.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the disclosed embodiments. However, it will be apparent to one skilled in the art that the present disclosure may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present disclosure with unnecessary detail.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

Fig. 1 is a flowchart of a management method for an anesthetic drug application according to an embodiment of the present invention.

In practical applications, the server may be used as a main body for executing the management method for the anesthetic drug application provided by the present embodiment. As shown in fig. 1, the method for managing an anesthetic application includes the following steps S01-S06:

step S01, acquiring an anesthetic drug application created and initiated by the first user on the first terminal device.

The first user may be a doctor qualified for application, the first terminal device may be a computer, a tablet computer or other electronic device, and the first user may create an anesthetic drug application on the first terminal device according to a surgical task, where the anesthetic drug application is the same as an existing prescription for anesthetic drugs.

Specifically, in an optional example, to prevent other unqualified physicians from creating an anesthetic drug application, the obtaining of the first user' S creating an anesthetic drug application on the first terminal device in step S01 may specifically include S11-S13:

and S11, acquiring the identity information input by the first user on the first terminal equipment.

If any user wants to create an anesthetic drug application on the first terminal device, the identity information of the user must be verified, for example, the identity information may be biometric information such as a fingerprint and a face of the user.

And S12, determining the authority of the first user according to the identity information, and if the first user has the authority of creating the narcotic application, enabling the first terminal device to display a narcotic application creation page.

In the existing process of applying for narcotic drugs, doctors with qualification need to make prescriptions for narcotic drugs, that is, not all people can apply for narcotic drugs. Therefore, the identity information of all doctors who have prescriptions for narcotics can be stored in advance, and when a user wants to create a narcotic application, the authority of the user can be determined by verifying whether the identity information of the user is consistent with the identity information stored in advance. If the identity information of the first user is verified to be consistent with the identity information stored in advance, the first user is indicated to have the authority, and therefore the first user can create the narcotic drug application on the first terminal device.

And S13, when the first user completes the narcotic application on the first terminal device, acquiring the narcotic application.

After a first user with authority establishes an anesthetic drug application on a first terminal device, the anesthetic drug application is sent to a server, and the server correspondingly controls other connecting devices according to the anesthetic drug application.

The above example-first, by setting the authorization verification on the first terminal device, ensures that the first user who creates the anesthetic drug application is a qualified doctor, and not others.

Step S02, according to the inventory drug information in the intelligent narcotic storage cabinet, determining the inventory state meeting the requirement of the narcotic in the narcotic application, wherein the inventory drug information comprises the type and the quantity of the existing stored narcotic.

Among them, the conventional hospital generally stores narcotics in one place, and a nurse requests to take a prescription of narcotics from a designated place in a preparation room of an operation, which requires a certain preparation time and needs the participation of a plurality of persons. In the invention, the storage of the narcotic is not a place any more, but the nearby positions of the hospitals where the narcotic is needed can be provided with intelligent narcotic storage cabinets for narcotic management, the intelligent narcotic storage cabinets store the narcotic, the narcotic can be stored respectively according to the measurement, and the opening of the cabinets needs to pass certain authority verification. It should be noted that, at present, intelligent cabinets for narcotic administration are very common, and the present invention does not improve on narcotic intelligent storage cabinets, which can be implemented by the prior art. As for the various functions of the intelligent narcotic storage cabinet mentioned in the present application, they can be realized by means of customization in the prior art, and therefore, they will not be described in detail here.

Specifically, the intelligent narcotic storage cabinet has the advantages that the number of medicines is large, the intelligent narcotic storage cabinet stores narcotics and the number of the narcotics, the data information can be automatically identified and acquired through the intelligent narcotic storage cabinet, the intelligent narcotic storage cabinet sends the information to the server as inventory information, the server collects and stores the inventory information of all the intelligent narcotic storage cabinets, and meanwhile, a data basis is provided for subsequent steps.

Furthermore, all the intelligent narcotic storage cabinets are connected with the server, and the installation positions of the intelligent narcotic storage cabinets are fixed, so that the server can calculate which narcotics in the intelligent narcotic storage cabinets meet the requirements of narcotic application according to the inventory information of the intelligent narcotic storage cabinets, and can know the specific positions or numbers of the intelligent narcotic storage cabinets meeting the requirements of the narcotic application. Then, according to the position of the first terminal device, the intelligent storage cabinet for the narcotic drugs closest to the first terminal device can be determined.

Step S03, according to the inventory state, generating a medicine taking position and a medicine taking instruction of the needed narcotic in the narcotic application, wherein the medicine taking position comprises position information of an intelligent narcotic storage cabinet in which the needed narcotic is stored, and the medicine taking instruction comprises an instruction for verifying the biological characteristic information of the first user and opening a cabinet door in which the needed narcotic is stored in the intelligent narcotic storage cabinet only after the verification passes.

In practice, because the number of the intelligent narcotic storage cabinets is large, a plurality of intelligent narcotic storage cabinets all have narcotics required in the narcotic application, that is, more than one intelligent narcotic storage cabinet meets the narcotic application; or, there may be no intelligent cabinet for storing narcotics to satisfy the narcotic application; or, one of the intelligent anesthetic storage cabinets has the part of anesthetic required in the anesthetic application, and the other intelligent anesthetic storage cabinet has the other part of anesthetic required in the anesthetic application, that is, the medicines in the two intelligent anesthetic storage cabinets need to satisfy the anesthetic application.

In some embodiments, generating a medication taking position and a medication taking instruction of a required anesthetic in the anesthetic application according to the inventory status may specifically include steps S31-S32:

s31, when more than one intelligent narcotic storage cabinet meets the narcotic application according to the inventory state, identifying the type of the first terminal equipment, wherein the type comprises fixed equipment and mobile equipment;

and S32, determining the position of one intelligent narcotic storage cabinet as the medicine taking position according to the type of the first terminal equipment, and generating a corresponding medicine taking instruction.

The first terminal device may be a computer device, such as a desktop computer, disposed in a fixed or designated location. Through the network or a preset mark, whether the first terminal equipment is fixed equipment or mobile equipment can be determined. The fixed equipment can be arranged in fixed scenes such as offices or operation preparation rooms, and the mobile equipment can be carried about, so that the application flexibility is improved, even if a doctor can apply for the medicine outside the hospital, for example, when receiving an emergency operation notice, the doctor can apply for the narcotic medicine through the mobile equipment, and the application of the narcotic medicine can be completed on the way that the doctor walks to the operation room.

It should be noted that, since identifying the type of the first terminal device may be performed by using the prior art, no further description is given here.

As described immediately above, step S32 may specifically include: s321, when the first terminal device is identified to be a fixed device, determining the position of the intelligent narcotic storage cabinet closest to the first terminal device as the medicine taking position, and generating a corresponding medicine taking instruction. Because the first terminal device applying for the narcotic is a fixed device, the position of the narcotic intelligent storage cabinet closest to the fixed position can be calculated as the medicine taking position according to the position of the fixed device or the position of the first terminal device calibrated in advance, and a corresponding medicine taking instruction for opening the narcotic intelligent storage cabinet is generated.

Further, step S32 may further specifically include: s322, when the first terminal device is identified to be a mobile device, all the positions of the intelligent storage cabinet for the narcotics meeting the narcotic application are pushed to the mobile device; and S323, calculating the real-time distance between the mobile equipment and each intelligent narcotic storage cabinet, and generating a medicine taking instruction on the intelligent narcotic storage cabinet closest to the real-time distance.

When a first user applies for narcotics on the mobile device, the narcotic intelligent storage cabinet can send a medicine taking instruction to the nearest narcotic intelligent storage cabinet according to the real-time position of the mobile device, and when the distance between the mobile device and the narcotic intelligent storage cabinet receiving the medicine taking instruction meets a preset distance value, the narcotic intelligent storage cabinet sends out a prompt.

Wherein, the generated medicine taking instruction comprises an instruction for opening the cabinet door. Specifically, which of the anesthetic intelligent storage upper cabinet doors is opened is determined by performing matching calculation with the inventory anesthetic stored in the anesthetic intelligent storage according to the type and dosage of the anesthetic required in the anesthetic application.

For example, assuming that the intelligent narcotic storage cabinet has a plurality of independent cabinets and the doses of narcotics stored in the cabinets are different, for example, 0.01ml is measured as a minimum unit, and 10-numbered cabinets are used to store narcotics, each of which is measured between 0.01ml and 0.10 ml. It should be noted that, in the intelligent narcotic storage cabinet, a plurality of narcotics can be stored, and each narcotic can be respectively stored with a certain data according to different measurement.

For example, assuming that the anesthetic application requires 0.02ml of anesthetic a1, a variety of matching results can be obtained according to the inventory status of the intelligent cabinet for anesthetic, i.e. the above example, including: a cabinet door opening command of opening a cabinet door M1 for storing 0.02ml of narcotic A1 can be generated, or a cabinet door opening command of opening a cabinet door M2 for storing 0.01ml of narcotic A1 can be generated; if a cabinet door opening instruction of opening a cabinet door M1 for storing 0.02ml of narcotic A1 is generated, the first user can take one narcotic to meet the requirement of narcotic application; if the generated cabinet door opening instruction is 'open the cabinet door M2 for storing 0.01ml of narcotic A', the first user can take two narcotics in the cabinet door to meet the requirement of narcotic application. The design is to improve the matching success rate of the inventory information and the narcotic application.

For another example, there are an intelligent narcotic storage cabinet a and an intelligent narcotic storage B, where 0.30 ml of narcotic C1 is stored in the intelligent narcotic storage cabinet a, and 0.40 ml of narcotic C1 is stored in the intelligent narcotic storage B; at this time, if the anesthetic C1 is required for the anesthetic application and the dosage is 70 ml, the cabinet door for opening the anesthetic C1 on the intelligent anesthetic storage cabinet a and the medicine taking instruction for opening the cabinet door for intelligently storing the anesthetic C1 on the intelligent anesthetic storage cabinet B may be matched according to the inventory status.

For another example, the same anesthetic C1 is stored in 2 cabinets on the intelligent anesthetic storage cabinet a, but the doses are different; for example, there are 10 in cabinet D1, 0.01ml of narcotic C1 in stock; 2 narcotic C1 stocks of 0.20 ml are stored in the cabinet body D2; at this time, if the dosage of the anesthetic C1 required for the anesthetic application is 0.25 ml, matching is performed according to the inventory status, and a command for opening the cabinet bodies D1 and D2 on the intelligent anesthetic storage cabinet a can be generated.

Furthermore, when the first user opens the cabinet door according to the medicine taking instruction, if the dosage or type of the medicine taking is wrong, a prompt is given on the intelligent storage of the narcotic.

And step S04, sending the medicine taking position and the corresponding narcotic application to a second terminal device, and requesting a second user to authorize the narcotic application on the second terminal device.

Specifically, the second user is a doctor qualified for storing the anesthetic drug, and when the second user knows that the anesthetic drug is applied through the second terminal device, and according to the calculation of the server, the second user can know the position of the intelligent storage cabinet for the anesthetic drug meeting the anesthetic drug application at the second terminal device. At this time, only the authorization of the doctor qualified for the storage of the anesthetic drug is required, and the second user with authority can be considered to agree with the anesthetic drug application, so that the first user is allowed to take the drug in the anesthetic drug application.

More specifically, when the second user authorizes the anesthetic drug application, the server prompts the first user that the anesthetic drug application has passed through the first terminal device, and the corresponding anesthetic drug can be taken from the intelligent anesthetic drug storage cabinet according with the position. Therefore, the server can send the calculated position of the intelligent narcotic storage cabinet closest to the first terminal device, and display the position on the first terminal device, so that the first user can know the position.

Further, the authorization of the second user for the anesthetic drug application may specifically include: displaying a page to be confirmed on the second terminal device, wherein the page to be confirmed comprises information of the narcotic application and the position of the intelligent narcotic storage cabinet according with the narcotic application; when a second user confirms the information in the page to be confirmed, second terminal equipment acquires identity information of the second user and sends the identity information to a server; the server verifies the authority of the identity information: and if the identity information has the authority, agreeing to receive the authorization of the second user for applying the narcotic.

The identity information of the second user may also include a fingerprint, a human face, or other biometric information.

In some embodiments, when the medication taking position and the corresponding anesthetic application are sent to the second terminal device, the method may further include: requesting a second user to determine a target medicine taking position from the medicine taking positions of a plurality of intelligent narcotic storage cabinets meeting the narcotic application simultaneously on the second terminal device, and authorizing the narcotic application. This is in order to promote the management and control to the narcotic, if the narcotic takes disproportionately, or when needing temporary control dosage, can have the second user to authorize the management.

And step S05, sending the medicine taking instruction to an intelligent narcotic storage cabinet corresponding to the medicine taking position according to the authorization of the second user on the second terminal device for the narcotic application, and sending the medicine taking position to the first terminal device.

After the server sends the position of the intelligent narcotic storage cabinet authorized to take narcotics to the first terminal device, the position can be seen on the first terminal device, and at the moment, the first user can take corresponding narcotics in front of the intelligent narcotic storage cabinet. In order to ensure the safety of the narcotic drugs, the intelligent narcotic drug storage cabinet can be arranged in a preparation room of an operating room or beside the preparation room, so that a first user can quickly take the corresponding narcotic drugs. That is, a plurality of intelligent narcotic storage cabinets can be arranged in a hospital, and the intelligent narcotic storage cabinets can be arranged in preparation rooms of various operations or other places, so that the efficiency of applying for the narcotic can be improved by scattered storage, and the safety of the narcotic can be ensured by the method provided by the invention.

In some embodiments, when the mobile device of the first user is applied for the anesthetic, the location of the intelligent storage cabinet for the anesthetic closest to the mobile device may be intelligently matched to the mobile device according to the real-time location of the mobile device. That is, during the moving process of the mobile device, the intelligent narcotic storage cabinet closest to the mobile device is changed. In order to improve safety.

Specifically, will get it filled the order and send to the narcotic drugs intelligence that the position of getting it filled corresponds keeps cabinet, still includes: according to the real-time distance, sending a medicine taking instruction to the intelligent storage cabinet of the narcotic closest to the real-time distance; detecting whether the intelligent narcotic storage cabinet executes the medicine fetching instruction within a set period; if not, setting the medicine taking instruction to be invalid, and sending the medicine taking instruction to the intelligent storage cabinet of the anesthetic closest to the real-time distance according to the real-time distance; if yes, stopping calculating the real-time distance, and finishing taking the medicine. That is to say, the drug taking instruction is sent periodically according to the distance between the mobile device and each intelligent narcotic storage cabinet meeting the narcotic application, if the drug is not taken successfully in one period, the distance between the intelligent narcotic storage cabinet which just sent the drug taking instruction and the mobile device is not the nearest, the instruction needs to be sent again, and the setting which just sent is disabled automatically.

And step S06, acquiring biological characteristic information input by a first user on the intelligent narcotic storage cabinet where the medicine taking position is located, and after the biological characteristic information passes verification, opening a cabinet door in the intelligent narcotic storage cabinet, which meets the narcotic application, to finish taking the medicine.

Furthermore, in the method, the first user applying the anesthetic and the second user opening the anesthetic do not need to touch each other, and the authorization and the opening of the anesthetic application can be realized. However, considering that in some emergency situations, the doctor involved in the operation is not in the hospital or is in the way to the hospital, if the preparation work of the operation, such as the application of anesthetic, is completed before the doctor enters the operation room, the efficiency of the operation can be further improved.

Specifically, the first user may enter one or more biometric information in advance, and when the first user reaches the pushed medication taking position, the biometric information may be directly verified, thereby improving efficiency.

If the user fails to verify after inputting the biometric information for the first time, the method can be implemented in the following manner in order to improve the security and ensure that the first user can efficiently and smoothly take the medicine.

Specifically, the step S06 may specifically include the steps of:

s61, acquiring any biological characteristic information input by the first user on the intelligent narcotic storage cabinet where the first user is located according to a plurality of biological characteristic information input by the first user in advance;

s62, when the biological characteristic information input by the first user passes verification, opening a cabinet door of the intelligent narcotic storage cabinet which meets the narcotic application, and completing the taking of the narcotic;

and S63, when the biological characteristic information is not verified, requiring the first user to input another biological characteristic information again, when the biological characteristic information is not verified, cancelling the narcotic application, and when the biological characteristic information is verified, opening a cabinet door in the intelligent narcotic safe cabinet, which meets the narcotic application, to finish taking the medicine.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

On the basis of the inventive concept of the method shown in fig. 1, the invention also provides a management device for an anesthetic drug application.

Fig. 2 is a schematic structural diagram of a management device for an anesthetic application according to an embodiment of the present invention.

As shown in fig. 2, the administration device for anesthetic drug application includes:

an application module 201 configured to obtain an anesthetic drug application created and initiated by a first user on a first terminal device;

the query module 202 is configured to determine, according to inventory drug information in the intelligent narcotic storage cabinet, an inventory state meeting a requirement of a required narcotic in the narcotic application, where the inventory drug information includes types and quantities of currently stored narcotics;

the generating module 203 is configured to generate a medicine taking position and a medicine taking instruction of a required anesthetic in the anesthetic application according to the inventory state, where the medicine taking position includes position information of an intelligent anesthetic storage cabinet in which the required anesthetic is stored, and the medicine taking instruction includes an instruction for verifying biological characteristic information of the first user and opening a cabinet door in which the required anesthetic is stored in the intelligent anesthetic storage cabinet only after the verification passes;

a first sending module 204, configured to send the medication taking position and the corresponding anesthetic drug application to a second terminal device, and request a second user to authorize the anesthetic drug application on the second terminal device;

a second sending module 205, configured to send the medicine taking instruction to an intelligent narcotic storage cabinet corresponding to the medicine taking position according to the authorization of the second user for the narcotic application on a second terminal device, and send the medicine taking position to the first terminal device at the same time;

the verification module 206 is configured to acquire biometric information input by the first user on the intelligent narcotic storage cabinet where the medication taking position is located, and when the biometric information passes verification, open a cabinet door in the intelligent narcotic storage cabinet, which satisfies the narcotic application, to complete medication taking.

In some optional embodiments, the generating module 203 is further configured to identify a type of the first terminal device when it is determined that more than one intelligent narcotic storage cabinet satisfies the narcotic application according to the inventory status, where the type includes a fixed device and a mobile device; and determining the position of one intelligent narcotic storage cabinet as the medicine taking position according to the type of the first terminal equipment, and generating a corresponding medicine taking instruction.

In some optional embodiments, the generating module 203 can be further configured to, when it is identified that the first terminal device is a fixed device, determine a location of an intelligent narcotic storage cabinet closest to the fixed device as the medicine taking location, and generate a corresponding medicine taking instruction.

In some optional embodiments, the generating module 203 can be further configured to, when it is identified that the first terminal device is a mobile device, push all the locations of the more than one intelligent storage cabinet for narcotics that satisfy the narcotic application to the mobile device; and calculating the real-time distance between the mobile equipment and each intelligent narcotic storage cabinet, and generating a medicine taking instruction on the intelligent narcotic storage cabinet with the closest real-time distance.

In some optional embodiments, the second sending module 205 can be further configured to send a medicine fetching instruction to the intelligent cabinet for storing anesthetic drugs closest to the real-time distance according to the real-time distance; detecting whether the intelligent narcotic storage cabinet executes the medicine fetching instruction within a set period; if not, setting the medicine taking instruction to be invalid, and sending the medicine taking instruction to the intelligent storage cabinet of the anesthetic closest to the real-time distance according to the real-time distance; if yes, stopping calculating the real-time distance, and finishing taking the medicine.

In some optional embodiments, the first sending module 204 is further configured to request the second user to determine a target medication taking location on the second terminal device from the medication taking locations of the multiple intelligent narcotic storage cabinets that simultaneously satisfy the narcotic application, and authorize the narcotic application.

In some optional embodiments, the verification module 206 is further configured to obtain, according to a plurality of kinds of biometric information pre-entered by the first user, any biometric information input by the first user on the intelligent narcotic storage cabinet where the first user is located at the medication taking position; when the biological characteristic information input by the first user passes verification, opening a cabinet door in an intelligent narcotic storage cabinet, which meets the narcotic application, to finish taking the narcotic; and when the biological characteristic information verification fails, the first user is required to input another biological characteristic information again, when the biological characteristic information verification input again fails, the narcotic drug application is cancelled, and when the biological characteristic information verification input again passes, a cabinet door which is in the narcotic drug intelligent storage cabinet and meets the narcotic drug application is opened, so that the medicine taking is completed.

Fig. 3 is a schematic diagram of a management system for an anesthetic drug application according to an embodiment of the present invention.

In practical application, the management method for anesthetic drug application in fig. 1 can be applied to the system of the present embodiment.

As shown in fig. 3, the system 03 includes: the intelligent anesthetic drug storage system comprises a server 31, a terminal device 32 and an intelligent anesthetic drug storage cabinet 33, wherein the terminal device 32 and the intelligent anesthetic drug storage cabinet 33 are respectively connected to the server 31 through a network, and the terminal device 32 at least comprises a first terminal device and a second terminal device. The server 31 may specifically include a memory, a processor, and a computer program stored in the memory and executable on the processor, and the processor executes the computer program to implement the steps of the management method of the anesthetic drug application in the embodiment of fig. 1.

Further, the memory may be a computer-readable storage medium. In some embodiments, a computer-readable storage medium is also provided, wherein the computer-readable storage medium stores a computer program, which when executed by a processor implements the steps of the method for managing an anesthetic drug application in the embodiment of fig. 1 described above.

The number of the intelligent narcotic storage cabinets can include one or more narcotic storage cabinets, each narcotic storage cabinet is arranged at a different position, and the intelligent narcotic storage cabinet can be arranged in a surgery preparation room, for example.

In addition, the system can also comprise a mobile intelligent narcotic storage cabinet, and the mobile intelligent narcotic storage cabinet is connected to the server through a network as the narcotic storage cabinet. Different from the intelligent narcotic storage cabinet, the movable narcotic intelligent storage cabinet is movable, namely has portability, so that a user can conveniently move the movable narcotic intelligent storage cabinet, and the narcotic intelligent storage cabinet is fixedly installed and cannot be moved under ordinary conditions.

The terminal device includes but is not limited to an electronic device such as a smart phone, a computer, a tablet computer, an intelligent cabinet, an entrance guard or a customized intelligent display terminal.

For example, in an application scenario, the server, the terminal device and the intelligent narcotic storage cabinet are connected to the same local area network through a switch, wherein a first terminal device in the terminal device and the intelligent narcotic storage cabinet are arranged at the same position or at a similar position; when a surgical task occurs, a first user can apply for an anesthetic drug on first terminal equipment, at the moment, a server can inform second terminal equipment according to the anesthetic drug application of the first user, the second terminal equipment can be arranged at another position, a second user uses the second terminal equipment, the second user verifies the anesthetic drug when knowing the anesthetic drug application through the second terminal equipment, and if the second user agrees to the anesthetic drug application, the first user authorizes the anesthetic drug application on the second terminal equipment; then, after the server receives the authorization of the second user for the application, an authorization notice is sent to the first terminal device, so that the first user knows that the application is annotated, the narcotic application of the first user is sent to the narcotic intelligent storage cabinet, the narcotic intelligent storage cabinet generates a cabinet door opening instruction for taking the drug according to the narcotic application, then when the first user walks to the narcotic intelligent storage cabinet for taking the drug, only the first user needs to enter own identity information, and if the identity information passes the verification, the narcotic intelligent storage cabinet can open the cabinet door for taking the drug according to the cabinet door opening instruction, so that the first user can take the corresponding narcotic.

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

Claims (10)

1. A method for managing an application for an anesthetic drug, the method comprising:

acquiring an anesthetic drug application created and initiated by a first user on first terminal equipment;

determining the inventory state meeting the requirement of the narcotic required in the narcotic application according to inventory drug information in the intelligent narcotic storage cabinet, wherein the inventory drug information comprises the type and the quantity of the existing stored narcotic;

generating a medicine taking position and a medicine taking instruction of the needed narcotic in the narcotic application according to the inventory state, wherein the medicine taking position comprises position information of an intelligent narcotic storage cabinet in which the needed narcotic is stored, and the medicine taking instruction comprises an instruction for verifying biological characteristic information of the first user and opening a cabinet door in the intelligent narcotic storage cabinet after the verification is passed;

sending the medicine taking position and the corresponding narcotic application to a second terminal device, and requesting a second user to authorize the narcotic application on the second terminal device;

according to the authorization of the second user for the narcotic application on the second terminal device, the medicine taking instruction is sent to the narcotic intelligent storage cabinet corresponding to the medicine taking position, and meanwhile the medicine taking position is sent to the first terminal device;

and acquiring biological characteristic information input by a first user on an intelligent narcotic storage cabinet where the medicine taking position is located, and after the biological characteristic information passes verification, opening a cabinet door in the intelligent narcotic storage cabinet, which meets the narcotic application, to finish taking the medicine.

2. The method of claim 1, wherein generating a location and an instruction for a required narcotic in the narcotic application based on the inventory status further comprises:

when more than one intelligent narcotic storage cabinet meets the narcotic application according to the inventory state, identifying the type of the first terminal equipment, wherein the type comprises fixed equipment and mobile equipment;

and determining the position of one intelligent narcotic storage cabinet as the medicine taking position according to the type of the first terminal equipment, and generating a corresponding medicine taking instruction.

3. The method according to claim 2, wherein the determining the position of one intelligent narcotic storage cabinet as the medicine taking position according to the type of the first terminal device and generating a corresponding medicine taking instruction comprises:

and when the first terminal equipment is identified as fixed equipment, determining the position of an intelligent narcotic storage cabinet closest to the fixed equipment as the medicine taking position, and generating a corresponding medicine taking instruction.

4. The method according to claim 2, wherein the determining a location of one intelligent narcotic storage cabinet as the medicine taking location according to the type of the first terminal device and generating a corresponding medicine taking instruction further comprises:

when the first terminal equipment is identified to be mobile equipment, all the positions of the more than one intelligent narcotic storage cabinets meeting the narcotic application are pushed to the mobile equipment;

and calculating the real-time distance between the mobile equipment and each intelligent narcotic storage cabinet, and generating a medicine taking instruction on the intelligent narcotic storage cabinet with the closest real-time distance.

5. The method according to claim 4, wherein the instruction to take the drug is sent to an intelligent narcotic storage cabinet corresponding to the location to take the drug, further comprising:

according to the real-time distance, sending a medicine taking instruction to the intelligent storage cabinet of the narcotic closest to the real-time distance;

detecting whether the intelligent narcotic storage cabinet executes the medicine fetching instruction within a set period;

if not, setting the medicine taking instruction to be invalid, and sending the medicine taking instruction to the intelligent storage cabinet of the anesthetic closest to the real-time distance according to the real-time distance;

if yes, stopping calculating the real-time distance, and finishing taking the medicine.

6. The method of claim 1, wherein when sending the medication withdrawal location and the corresponding anesthetic drug application to a second terminal device, further comprising: requesting a second user to determine a target medicine taking position from the medicine taking positions of a plurality of intelligent narcotic storage cabinets meeting the narcotic application simultaneously on the second terminal device, and authorizing the narcotic application.

7. The method according to any one of claims 1 to 6, wherein the obtaining of the biometric information input by the first user on the intelligent narcotic storage cabinet in which the first user is located at the dispensing position, and after the biometric information is verified, opening a cabinet door in the intelligent narcotic storage cabinet which meets the narcotic application to complete dispensing comprises:

according to various biological characteristic information pre-input by a first user, acquiring any biological characteristic information input by the first user on an intelligent narcotic storage cabinet where the first user is located;

when the biological characteristic information input by the first user passes verification, opening a cabinet door in an intelligent narcotic storage cabinet, which meets the narcotic application, to finish taking the narcotic;

and when the biological characteristic information verification fails, the first user is required to input another biological characteristic information again, when the biological characteristic information verification input again fails, the narcotic drug application is cancelled, and when the biological characteristic information verification input again passes, a cabinet door which is in the narcotic drug intelligent storage cabinet and meets the narcotic drug application is opened, so that the medicine taking is completed.

8. A management device for an anesthetic drug application, the device comprising:

the application module is configured to acquire an anesthetic drug application created and initiated by a first user on a first terminal device;

the system comprises an inquiry module, a storage module and a storage module, wherein the inquiry module is configured to determine the storage state of needed narcotics in a narcotic application according to the information of the stored narcotics in an intelligent narcotic storage cabinet, and the information of the stored narcotics comprises the types and the quantity of the existing narcotics;

the generating module is configured to generate a medicine taking position and a medicine taking instruction of a required anesthetic in the anesthetic application according to the inventory state, wherein the medicine taking position comprises position information of an intelligent anesthetic storage cabinet in which the required anesthetic is stored, and the medicine taking instruction comprises an instruction for verifying biological characteristic information of the first user and opening a cabinet door in which the required anesthetic is stored in the intelligent anesthetic storage cabinet only after the verification is passed;

the first sending module is configured to send the medicine taking position and the corresponding narcotic application to a second terminal device and request a second user to authorize the narcotic application on the second terminal device;

the second sending module is configured to send the medicine taking instruction to an intelligent narcotic storage cabinet corresponding to the medicine taking position according to the authorization of the second user on the second terminal device for the narcotic application, and send the medicine taking position to the first terminal device;

and the verification module is configured to acquire biological characteristic information input by a first user on the intelligent narcotic storage cabinet where the medicine taking position is located, and when the biological characteristic information passes verification, a cabinet door which meets the application of the narcotic in the intelligent narcotic storage cabinet is opened to finish the medicine taking.

9. A management system for anesthetic drug applications, comprising: a first terminal device, a second terminal device, a server and a plurality of intelligent narcotic drug storage cabinets, wherein the first terminal device, the second terminal device and the plurality of intelligent narcotic drug storage cabinets are respectively connected with the server through a network, the server comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and the processor is characterized in that the steps of the method according to any one of claims 1 to 7 are realized when executing the computer program.

10. A storage medium storing a computer program, characterized in that the computer program realizes the steps of the method according to any one of claims 1 to 7 when executed by a processor.

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