CN217743583U - Electronic medicine cabinet system for anesthesia pharmacy - Google Patents

Abstract

The utility model provides an anesthesia drugstore electron medicine cabinet system, including intelligent cabinet A, intelligent cabinet A include a plurality of medicine cabinet A that are used for depositing the medical kit that have the electronic lock respectively, intelligent cabinet A have host system A and connect in host system A's key input module A, display module A and storage module A, storage module A in the storage have the key that each medicine cabinet A's electronic lock corresponds, and each medicine cabinet A's electronic lock all connect in host system A. The scheme provides an anesthesia drugstore electron medicine cabinet system, can help anesthesia branch of academic or vocational study management medicine, makes things convenient for anesthesia branch of academic or vocational study medicine management.

Description

Electronic medicine cabinet system for anesthesia pharmacy

Technical Field

The utility model belongs to the technical field of anesthesia drugstore drug cabinet, especially, relate to an anesthesia drugstore electron drug cabinet system.

Background

The department of anesthesia undertakes clinical anesthesia, perioperative resuscitation monitoring, postoperative analgesia and terminal cancer analgesia of all department operating patients in the whole hospital. Many drugs are used in the anesthesia department, and each drug has its own indication and contraindication, so the drugs must be regulated, which requires strict management of the drugs. At present, the management of the drugs in the anesthesia department is managed manually, each doctor gets and returns the drugs to the administrator, the drug taking and returning process excessively depends on the administrator, the problem of low drug taking and returning drug efficacy rate is caused, the emergency operation is hindered, the doctor can take the drugs by himself, the drug management is inconvenient, and the anesthesia drug management regulations are violated. At present, a scheme which can realize that a doctor can take the medicine by himself to improve the medicine taking and drug efficacy and can help the anesthesia medicine management is lacked.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem, provide an anesthesia drugstore electron medicine cabinet system.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides an anesthesia drugstore electron medicine cabinet system, includes intelligent cabinet A, intelligent cabinet A include a plurality of medicine cabinet A that are used for depositing the medical kit that have the electronic lock respectively, intelligent cabinet A have host system A and connect in host system A's key input module A, display module A and storage module A, storage module A in the storage have the key that each medicine cabinet A's electronic lock corresponds, and each medicine cabinet A's electronic lock all connect in host system A.

In the above-mentioned anesthesia drugstore electronic medicine cabinet system, still include intelligent cabinet B, intelligent cabinet B include a plurality of medicine cabinets B that are used for depositing the medical kit that have the electronic lock respectively, intelligent cabinet B have host system B and connect in host system B's key input module B, display module B and storage module B, storage module B in store have the corresponding key of each medicine cabinet B's electronic lock, and each medicine cabinet B's electronic lock all connect in host system B.

In the above-mentioned electronic medicine cabinet system for the narcotic pharmacy, the intelligent cabinet a has a locking switch a connected to the main control module a;

the intelligent cabinet B is provided with a locking switch B connected with the main control module B.

In the electronic medicine cabinet system for the narcotic pharmacy, the starting key of the locking switch A is stored in the storage module A; the storage module B stores a starting key of the locking switch B;

or the intelligent cabinet A comprises a switch cabinet A with an electronic lock, the locking switch A is positioned in the switch cabinet A, the electronic lock of the switch cabinet A is connected to the main control module A, and a corresponding secret key of the electronic lock of the switch cabinet A is stored in the storage module A; the intelligent cabinet B comprises a switch cabinet B with an electronic lock, the locking switch B is positioned in the switch cabinet B, the electronic lock of the switch cabinet B is connected with the main control module B, and a corresponding key of the electronic lock of the switch cabinet B is stored in the storage module B.

In the electronic medicine cabinet system for the narcotic pharmacy, the main control module A and the main control module B are connected with each other or connected with each other through the background management system, and the locking switch A and the locking switch B are mutually interlocked and coupled.

In the above-mentioned electronic medicine cabinet system for the narcotic pharmacy, the intelligent cabinet a has a scanning module a connected to the main control module a;

the intelligent cabinet B is provided with a scanning module B connected with the main control module B;

the medicine chest is provided with an identification code which can be scanned and identified.

In the above-mentioned anesthesia drugstore electronic medicine cabinet system, still include intelligent cabinet C, intelligent cabinet C include a plurality of medicine cabinets C that are used for depositing the medical kit that have the electronic lock respectively, intelligent cabinet C have host system C and connect in host system C's identity module C, medicine cabinet selection module C, display module C and storage module C, each medicine cabinet C's electronic lock all connect in host system C.

In the above electronic medicine cabinet system for the narcotic pharmacy, the intelligent cabinet C has a scanning module C connected to the main control module C.

In the above electronic medicine cabinet system for the narcotic pharmacy, the key input module a, the key input module B and the identity identification module C are all biometric identification modules, such as a fingerprint identification module, an iris identification module, and the like.

The utility model has the advantages that: the electronic medicine cabinet system for the anesthesia pharmacy is capable of helping the anesthesia department manage medicines and facilitating medicine management of the anesthesia department;

each anesthesia department doctor can correspondingly take and return a medicine box through a key (fingerprint) of the doctor, and the medicine box of the doctor is responsible for the medicine box of the doctor, so that the medicine is managed by people, the error rate of the medicine is reduced, the medicine management standard is facilitated, and the medicine taking and returning efficiency is improved;

the two intelligent cabinets are used alternately, so that the medicine sorting efficiency is improved, and the normal use of the doctor is not hindered in the medicine sorting process;

two intelligent cabinets that alternate use have locking switch respectively, and the administrator can lock intelligent cabinet through locking switch at the in-process of arrangement, avoids the doctor to take the medical kit of intelligent cabinet in the arrangement by mistake.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent cabinet A in an electronic medicine cabinet system of an anesthesia pharmacy;

FIG. 2 is a block diagram of a circuit structure of an intelligent cabinet A in the electronic medicine cabinet system of the anesthesia pharmacy;

FIG. 3 is a schematic structural view of an intelligent cabinet B in the electronic medicine cabinet system of the anesthesia pharmacy;

FIG. 4 is a block diagram of the circuit structure of the intelligent cabinet B in the electronic medicine cabinet system of the narcotic pharmacy;

FIG. 5 is a schematic structural view of an intelligent cabinet A in the electronic medicine cabinet system of the narcotic pharmacy according to the present invention, which has a switch cabinet A;

FIG 6 is a schematic structural view of an intelligent cabinet C in the electronic medicine cabinet system of the narcotic pharmacy;

fig. 7 is a circuit structure block diagram of the intelligent cabinet C in the anesthesia pharmacy electronic medicine cabinet system according to the present embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1, the present embodiment provides an electronic medicine cabinet system for an anesthesia pharmacy, which includes an intelligent cabinet a, where the intelligent cabinet a includes a plurality of medicine cabinets a having electronic locks respectively for storing medicine boxes, such as A1-a20, and 20 medicine cabinets in fig. 1.

As shown in fig. 2, the intelligent cabinet a includes a main control module a, and a key input module a, a display module a, and a storage module a connected to the main control module a, where keys corresponding to the electronic locks of the respective medicine cabinets a are stored in the storage module a, and the electronic locks of the respective medicine cabinets a are connected to the main control module a, and after a correct key is input, the corresponding electronic locks can be opened, so that the medicine box inside can be taken out or put back.

Each doctor can be equipped with a medicine cabinet An, the doctor can master the key of the medicine cabinet An, inputs the key when needing to use, opens the medicine cabinet An, takes out the medicine box, inputs the key again after using up the medicine box, opens the medicine cabinet An, puts back the medicine box, and each doctor is responsible for the medicine box of the doctor.

Preferably, the key input module a may be a fingerprint input module, the key corresponding to each medicine cabinet is fingerprint information of a corresponding doctor, when the doctor needs to use the medicine box, the fingerprint is pressed at the fingerprint input module to open the medicine cabinet, and when the medicine box needs to be returned, the fingerprint is pressed at the fingerprint input module again to open the medicine cabinet to return the medicine box.

Further, as shown in fig. 3, the system further includes an intelligent cabinet B, and similarly, the intelligent cabinet B includes a plurality of medicine cabinets B each having an electronic lock for storing medicine boxes, and similarly, as shown in fig. 3, there are 20 medicine cabinets B1 to B20.

As shown in fig. 4, the intelligent cabinet B has a main control module B, and a key input module B, a display module B and a storage module B connected to the main control module B, wherein the storage module B stores keys corresponding to the electronic locks of the medicine cabinets B, and the electronic locks of the medicine cabinets B are connected to the main control module B. Similarly, the key input module B is a fingerprint input module, and the key corresponding to each drug cabinet is fingerprint information of the corresponding doctor. Every doctor is equipped with a medicine cabinet respectively in intelligent cabinet A and intelligent cabinet B, and corresponding in the medicine cabinet has a medical kit, and every doctor has two medical kits, two medicine cabinets correspondingly promptly, and every doctor can be the same in the medicine cabinet position of two intelligent cabinets A, B departments to satisfy every doctor's use habit. The intelligent cabinet A and the intelligent cabinet B are used alternately, one is used for normal use of doctors, and the other is used for arrangement use of administrators. When the administrator is arranging the medicine boxes of the intelligent cabinet A, the doctor takes the medicines from the intelligent cabinet B and returns the medicines, the medicine taking and returning mode is consistent with that of the intelligent cabinet A, and when the administrator is arranging the medicine boxes of the intelligent cabinet B, the doctor takes the medicines from the intelligent cabinet A and returns the medicines.

Preferably, the intelligent cabinet A is provided with a locking switch A connected to the main control module A, and the intelligent cabinet B is provided with a locking switch B connected to the main control module B. The administrator can lock the intelligent cabinet through the corresponding locking switch when arranging the intelligent cabinet, so that the doctor can not open the intelligent cabinet which is being arranged by the administrator, and the problem of use and arrangement disorder is avoided. The locking switch a and the locking switch B may be key switches connected to the main control module a and the main control module B, or may be analog switches triggered by a certain condition.

As shown in fig. 5, taking the former as an example, the intelligent cabinet a includes a switch cabinet a having an electronic lock, the locking switch a is located in the switch cabinet a, the electronic lock of the switch cabinet a is connected to the main control module a, and the storage module a stores a key corresponding to the electronic lock of the switch cabinet a; the intelligent cabinet B comprises a switch cabinet B with an electronic lock, the locking switch B is positioned in the switch cabinet B, the electronic lock of the switch cabinet B is connected to the main control module B, and a corresponding secret key of the electronic lock of the switch cabinet B is stored in the storage module B. The key corresponding to the switch cabinet a electronic lock and the key corresponding to the switch cabinet B electronic lock may be the same or different, and the administrator may grasp the keys, and may use the keys as digital keys, or may use fingerprint information of the administrator as the keys.

Taking the latter as an example, the storage module a stores a starting key of the locking switch a; the storage module B stores a starting key of the locking switch B, the two starting keys can be the same or different, an administrator grasps the starting key, and the administrator starts the locking switch A or the locking switch B by inputting the corresponding starting key. The display module A and the display module B can be touch display screens, the starting key can be a digital key, the intelligent cabinet A and the intelligent cabinet B display a key keyboard through the touch display screens A and B, and an administrator inputs the starting key through the key keyboard. Or, the fingerprint information of the administrator can be used as the starting key of the locking switch a and the locking switch B, and the administrator can start the corresponding locking switch by pressing a finger at the fingerprint input module.

Further, as shown in fig. 6, the system further includes an intelligent cabinet C, where the intelligent cabinet C includes a plurality of medicine cabinets C having electronic locks respectively for storing medicine boxes, and in fig. 6, the intelligent cabinet C has C1-C15 medicine cabinets. As shown in fig. 7, the intelligent cabinet C has a main control module C, and an identity recognition module C, a medicine cabinet selection module C, a display module C, and a storage module C connected to the main control module C, and the electronic lock of each medicine cabinet C is connected to the main control module C. xianshi

The identity recognition module C is a fingerprint recognition module, the display module C is a touch screen, and the medicine cabinet selection module C can display the medicine cabinet through the display module C. Intelligence cabinet C can be as adding the medicine case temporarily, and after the fingerprint was pressed to the doctor on identification module C, display module C shows medicine cabinet selection module C, and medicine cabinet selection module shows with the form of medicine cabinet number, which the doctor ordered, corresponding medicine cabinet alright with opening, storage module C storage doctor identity information and its medicine cabinet door of opening. All the medicine names in the medicine cabinets can be pasted on the medicine cabinets so as to be convenient for doctors to select.

The electron medicine cabinet system of this embodiment provides three medicine cabinet, and two are used for ordinary borrowing and returning the medical kit, and alternate use, and one is used for adding the medicine temporarily, can help anesthesia branch of academic or vocational study management medicine, reduces the medicine when realizing that the doctor gets by oneself and returns the medical kit and gets the error rate that returns, improves the efficiency that the medicine got and returns.

Furthermore, the intelligent cabinet A, the intelligent cabinet B and the intelligent cabinet C are connected to the background management system together, and managers can manage the intelligent cabinets and check the use conditions of the intelligent cabinets in a unified mode at the background. Furthermore, the background management system can have attendant information, one or more medicine cabinets An in the intelligent cabinet A can be used as An attendant medicine cabinet, likewise, one or more medicine cabinets Bn in the intelligent cabinet B can be used as An attendant medicine cabinet, and the background management system can control the intelligent cabinet A and the intelligent cabinet B according to the current time and the attendant information, wherein the attendant medicine cabinet of the unlocked intelligent cabinet can only be opened by the fingerprint information of the attendant.

Example two

The present embodiment is similar to the present embodiment, and the difference is that the main control module a and the main control module B are connected with each other by wire or wirelessly, or the two are connected with each other through a background management system, and the background management system has an interlocking coupling relationship between the locking switch a and the locking switch B. When the manager starts the locking switch A to lock the A cabinet, the B cabinet is automatically unlocked, when the manager unlocks the A cabinet, the B cabinet is automatically locked, when the manager manages, only one intelligent cabinet needs to be operated, one intelligent cabinet does not need to be unlocked, and the other intelligent cabinet is locked.

The locking switches of the two intelligent cabinets which are used alternately have an interlocking coupling relation, when an administrator arranges one intelligent cabinet, the other intelligent cabinet is unlocked automatically, when the administrator unlocks one intelligent cabinet, the other intelligent cabinet is locked automatically, and the administrator locks or unlocks when arranging medicines and only operates one intelligent medicine cabinet.

EXAMPLE III

The present embodiment is similar to the embodiment, and the difference is that the intelligent cabinet a of the present embodiment has a scanning module a connected to the main control module a; the intelligent cabinet B is provided with a scanning module B connected with the main control module B; the intelligent cabinet C is provided with a scanning module C connected with the main control module C.

Each medicine box is provided with an identification code which can be scanned and identified. When a doctor takes a medicine box, the medicine box in the corresponding medicine cabinet can be taken out by inputting fingerprint information, when the medicine box is returned, the scanning module is used for scanning identification codes on the medicine box, the corresponding relation between the identification code information and the medicine cabinet in the intelligent cabinet is stored in each storage module, the main control module opens the corresponding medicine cabinet according to the identification code information, and if the medicine box is not the medicine box of the medicine cabinet, the doctor is prompted that the medicine box is not the medicine box of the medicine cabinet. By the mode, the medicine boxes can be returned to the correct medicine cabinets, and the situation that the medicine boxes are returned in disorder due to the fact that the medicine boxes are taken by the doctors and the medicine cabinets are returned by the doctors is avoided.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms smart cabinet a, smart cabinet B, smart cabinet C, electronic lock, medicine cabinet a, medicine cabinet B, medicine cabinet C, master control module a, key input module a, display module a, storage module a, master control module B, key input module B, display module B, storage module B, master control module C, identification module C, display module C, storage module C, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (7)

1. An electronic medicine cabinet system for an anesthesia pharmacy is characterized by comprising an intelligent cabinet A and an intelligent cabinet B, wherein the intelligent cabinet A comprises a plurality of medicine cabinets A which are respectively provided with electronic locks and used for storing medicine boxes, the intelligent cabinet A is provided with a main control module A, a key input module A, a display module A and a storage module A which are connected with the main control module A, keys corresponding to the electronic locks of the medicine cabinets A are stored in the storage module A, and the electronic locks of the medicine cabinets A are connected with the main control module A;

the intelligent cabinet B comprises a plurality of medicine cabinets B which are respectively provided with electronic locks and used for storing medicine boxes, the intelligent cabinet B is provided with a main control module B, a key input module B connected to the main control module B, a display module B and a storage module B, keys corresponding to the electronic locks of the medicine cabinets B are stored in the storage module B, and the electronic locks of the medicine cabinets B are connected to the main control module B;

the intelligent cabinet A is provided with a locking switch A connected with the main control module A;

the intelligent cabinet B is provided with a locking switch B connected with the main control module B; the main control module A and the main control module B are mutually connected or mutually connected through a background management system, and the locking switch A and the locking switch B are mutually interlocked and coupled.

2. The electronic medicine cabinet system for the anesthesia pharmacy according to claim 1, wherein the storage module A stores therein an activation key for locking the switch A; the storage module B stores a starting key of the locking switch B;

or the intelligent cabinet A comprises a switch cabinet A with an electronic lock, the locking switch A is positioned in the switch cabinet A, the electronic lock of the switch cabinet A is connected to the main control module A, and a key corresponding to the electronic lock of the switch cabinet A is stored in the storage module A; the intelligent cabinet B comprises a switch cabinet B with an electronic lock, the locking switch B is positioned in the switch cabinet B, the electronic lock of the switch cabinet B is connected with the main control module B, and a corresponding key of the electronic lock of the switch cabinet B is stored in the storage module B.

3. The narcotic pharmacy electronic drug cabinet system as claimed in claim 1, wherein said intelligent cabinet a has a scanning module a connected to said master control module a;

the intelligent cabinet B is provided with a scanning module B connected with the main control module B;

the medicine chest is provided with an identification code which can be scanned and identified.

4. The electronic medicine cabinet system for the narcotic pharmacy according to claim 3, further comprising a plurality of intelligent cabinets C, each intelligent cabinet C having an electronic lock and being used for storing medicine boxes, wherein each intelligent cabinet C has a main control module C, and an identification module C, a medicine cabinet selection module C, a display module C and a storage module C which are connected to the main control module C, and the electronic lock of each medicine cabinet C is connected to the main control module C.

5. The narcotic pharmacy electronic drug cabinet system as claimed in claim 4, wherein said intelligent cabinet C has a scanning module C connected to said master control module C.

6. The electronic medicine cabinet system for the narcotic pharmacy according to claim 5, wherein the key input module A, the key input module B and the identity module C are all biological identification modules.

7. The electronic medicine cabinet system for the narcotic pharmacy according to claim 6, wherein the key input module A, the key input module B and the identity module C are all fingerprint identification modules.

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