CN212516574U - Medicine electronic management device - Google Patents

Abstract

The utility model relates to a medicine electronic management device, which comprises an outpatient registration end, an outpatient doctor end, a pharmacist end, a processing end, a distributing end, a pharmacy end and a purchasing end, wherein the outpatient registration end, the outpatient doctor end, the pharmacist end, the distributing end, the pharmacy end and the purchasing end are all connected with the processing end; the diagnosis system is improved, a doctor makes a prescription, a pharmacist checks and checks the prescription, and the qualified prescription can be obtained after repeated modification, so that the risk caused by improper prescription making is greatly reduced, the patient does not need to repeatedly explain the condition of the patient in the whole process, patient information can be quickly obtained among different medical care personnel, the working efficiency of the medical system is greatly improved, when the medicine needs to be supplemented, the device automatically contacts a supplier in real time for supplementing, the medicine supplementing period is greatly shortened, the treatment time is won, the whole process is completely paperless, clean and environment-friendly, the intelligent degree of the whole set of device is higher, the information is clear, and the medicine safety is improved.

Description

Medicine electronic management device

Technical Field

The utility model belongs to the technical field of medical device, especially, relate to a medicine electronic management device.

Background

At present, the management mode of medicines is carried out according to modes of managing by a specially-assigned person and detecting types and quantities of medicines regularly, namely, the medicines are inquired and recorded according to manual regular patrol, but a large amount of medicines are involved in the treatment process of a hospital, the time for checking the patrol quantity, the validity period and the like is too long, the whole process is time-consuming and labor-consuming, too much workload is increased for the heavy medical work, and the process is limited in energy of people and tedious in medicine checking, so that the time-consuming and labor-consuming process is caused, errors are easy to occur, and the influence on subsequent treatment medicines is easy to cause.

For example, CN111161854A discloses a drug management method and device, which records and gathers information to an electronic system by sensing drugs in a drug cabinet through a sensor, so as to realize automatic drug management, improve efficiency, liberate manpower, prevent errors, and facilitate subsequent treatment and medication.

However, in the actual medicine taking process, a plurality of different medical staff are involved, the patient needs to repeat the information of the patient for many times, and different medical staff need to analyze the information of the patient again, so that the working efficiency of the medical system is greatly reduced; when the medicines are exhausted or are about to be exhausted, the medicines are counted and purchased, and the time for order confirmation and medicine transportation is added, so that the whole period is too long, the treatment of the patient can be delayed, and the body health of the patient is seriously even threatened; the traditional medicine sheet is a paper handwritten or printed sheet, is easy to lose and is easy to damage when meeting water; the doctor lacks the link of examining and verifying after prescribing, has certain risk.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a medicine electronic management device has mainly solved among the prior art doctor and has prescribed the back unmanned audit, paper medicine list fragile or lose, the medicine replenishment cycle is longer, get it filled the in-process and expound repeatedly and the analysis state of an illness, causes the very big scheduling problem that descends of treatment effeciency.

In order to solve the problem, the utility model adopts the following technical scheme:

an electronic medicine management device comprises an outpatient registration end, an outpatient doctor end, a pharmacist end, a processing end, a distributing end, a pharmacy end and a purchasing end,

the outpatient registration end, the outpatient doctor end, the pharmacist end, the dispensing end, the pharmacy end and the purchasing end are all connected with the processing end.

In one mode, the outpatient service registration end comprises a registration display, a registration input device and a registration transmitter,

the registration display is arranged independently, and the registration display is arranged independently,

the registration input device is connected with the registration transmitter,

the registration transmitter is connected with the processing end.

In one mode, the outpatient doctor end comprises a doctor display, a doctor input device, a doctor transmitter and a doctor receiver,

the physician display is connected to the physician receiver,

the physician input device is connected with the physician transmitter,

the physician transmitter is also connected with the processing end,

the physician receiver is also connected with the processing end.

In one form, the pharmacist end includes a pharmacist display, a pharmacist input, a pharmacist transmitter, and a pharmacist receiver,

the pharmacist display is connected with the pharmacist receiver,

the pharmacist input is connected to the pharmacist transmitter,

the pharmacist transmitter is also connected with the processing end,

the pharmacist receiver is also connected with the processing end.

In one mode, the dispensing end comprises an outpatient end and an inpatient end,

the clinic end is connected with the treatment end,

the hospitalization end is connected with the treatment end;

the outpatient site includes an outpatient receiver and an outpatient transmitter,

the outpatient receiver is connected with the processing end,

the outpatient transmitter is connected with the outpatient receiver;

the hospitalization end comprises a hospitalization receiver, a hospitalization transmitter and a ward medical care end,

the hospitalization receiver is connected with the processing end,

the hospitalization transmitter is connected with the hospitalization receiver,

the hospital nursing end of the ward is connected with the hospital transmitter;

the ward medical care end comprises a ward receiver, a ward identifier and a ward display,

the ward receiver is connected with the hospitalization transmitter,

the ward area identifier is connected with the ward area receiver,

the ward display is connected with the ward identifier.

In one mode, the pharmacy end comprises a medicine warehouse outlet device, a medicine replenishing device, a medicine counting device, a medicine receiver, a medicine transmitter and a pharmacy identifier,

the drug delivery device and the drug replenisher are both connected with the drug statistics device,

the drug counter is connected with the drug transmitter,

the drug receiver is connected with the processing end,

the drug transmitter is connected with the processing end,

the pharmacy identifier is connected with the drug receiver.

In one mode, the purchasing end comprises a purchasing receiver and a purchasing transmitter,

the purchase receiver is connected with the processing end,

the purchase transmitter is connected with the purchase receiver.

In one mode, the processing end comprises a processing receiver, a two-dimensional code generator and a processing transmitter,

the processing receiver is respectively connected with the outpatient registration end, the outpatient doctor end, the pharmacist end and the pharmacy end,

the two-dimensional code generator is respectively connected with the processing receiver and the processing transmitter,

the processing transmitter is respectively connected with the outpatient doctor end, the pharmacist end, the dispensing end, the pharmacy end and the purchasing end,

the process receiver is also connected to the process transmitter.

The utility model has the advantages that:

1. the diagnosis system is improved, a doctor makes a prescription, a pharmacist checks and checks, and after repeated modification and checking, the two parties confirm that the prescription is correct and a qualified prescription can be obtained, so that the risk caused by improper prescription making is greatly reduced;

2. the patient does not need to repeatedly explain the self condition in the whole process except the outpatient stage, and the information of the patient can be quickly obtained among different medical care personnel, so that the working efficiency of the medical system is greatly improved;

3. when the medicine needs to be supplemented, the device automatically contacts with a supplier for supplementing, so that the time for searching medicine information and checking information in the middle is saved, and the method is different from the method that the statistics is only carried out in a fixed time period every day in a hospital;

4. the whole process is completely paperless, clean and environment-friendly, the intelligent degree of the whole set of device is higher, the information is clear, and the medication safety is improved.

Drawings

Fig. 1 is a relationship diagram of an electronic medicine management device according to an embodiment of the present invention;

FIG. 2 is a flow chart of prescription audit according to an embodiment of the present invention;

fig. 3 is a flowchart of two-dimensional code distribution according to an embodiment of the present invention;

FIG. 4 is a flow chart of a drug statistic according to an embodiment of the present invention;

fig. 5 is a simple flowchart of a method for operating a drug electronic management device according to an embodiment of the present invention;

fig. 6 is a schematic circuit diagram of a physician receiver and a physician transmitter according to an embodiment of the present invention;

fig. 7 is a schematic circuit diagram of a medicine counter according to an embodiment of the present invention.

In the figure: 1. a clinic registration end; 11. a registration display; 12. a registration input unit; 13. a registration transmitter; 2. an outpatient physician end; 21. a physician display; 22. a physician input; 23. a physician transmitter; 24. a physician receiver; 3. a pharmacist end; 31. a pharmacist display; 32. a pharmacist input device; 33. a pharmacist sender; 34. a pharmacist receiver; 4. a processing end; 41. processing the receiver; 42. a two-dimensional code generator; 43. processing the transmitter; 5. a distributing end; 51. an outpatient side; 511. an outpatient receiver; 512. an outpatient transmitter; 52. hospitalization end; 521. a hospitalized recipient; 522. a hospitalization transmitter; 523. a ward medical care end; 5231. a lesion receptor; 5232. a ward identifier; 5233. a ward display; 6. a pharmacy end; 61. a drug delivery device; 62. a drug replenisher; 63. a medicine counter; 64. a drug receiver; 65. a drug dispenser; 66. a pharmacy identifier; 7. a purchasing end; 71. a purchase receiver; 72. a purchase transmitter; 8. a supplier end; 9. patient intelligent equipment end.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

an electronic medicine management device is shown in fig. 1-4 and comprises an outpatient registration end 1, an outpatient doctor end 2, a pharmacist end 3, a processing end 4, a distributing end 5, a pharmacy end 6 and a purchasing end 7, wherein the outpatient registration end 1, the outpatient doctor end 2, the pharmacist end 3, the distributing end 5, the pharmacy end 6 and the purchasing end 7 are all connected with the processing end 4.

The outpatient service registration terminal 1 comprises a registration display 11, a registration input device 12 and a registration transmitter 13, wherein the registration display 11 is independently arranged, the registration input device 12 is connected with the registration transmitter 13, and the registration transmitter 13 is connected with the processing receiver 41.

The outpatient physician side 2 comprises a physician display 21, a physician inputter 22, a physician transmitter 23, a physician receiver 24, the physician display 21 being connected to the physician receiver 24, the physician inputter 22 being connected to the physician transmitter 23, the physician transmitter 23 being further connected to a processing receiver 41, the physician receiver 24 being further connected to a processing transmitter 43.

Pharmacist end 3 includes pharmacist display 31, pharmacist input 32, pharmacist transmitter 33, pharmacist receiver 34, and pharmacist display 31 is connected with pharmacist receiver 34, and pharmacist input 32 is connected with pharmacist transmitter 33, and pharmacist transmitter 33 is still connected with processing receiver 41, and pharmacist receiver 34 is still connected with processing transmitter 43.

The distributing terminal 5 comprises an outpatient terminal 51 and an inpatient terminal 52, wherein the outpatient terminal 51 is connected with the processing transmitter 43, and the inpatient terminal 52 is connected with the processing transmitter 43;

the clinic end 51 comprises a clinic receiver 511 and a clinic transmitter 512, wherein the clinic receiver 511 is connected with the processing transmitter 43, and the clinic transmitter 512 is connected with the clinic receiver 511;

the hospitalization end 52 comprises a hospitalization receiver 521, a hospitalization transmitter 522 and a ward health care end 523, wherein the hospitalization receiver 521 is connected with the treatment transmitter 43, the hospitalization transmitter 522 is connected with the hospitalization receiver 521, and the ward health care end 523 is connected with the hospitalization transmitter 522;

the ward health care terminal 523 includes a ward receiver 5231, a ward identifier 5232 and a ward display 5233, the ward receiver 5231 is connected with the hospital transmitter 522, the ward identifier 5232 is connected with the ward receiver 5231, and the ward display 5233 is connected with the ward identifier 5232.

The pharmacy end 6 comprises a medicine warehouse-out device 61, a medicine replenisher 62, a medicine statistics device 63, a medicine receiver 64, a medicine transmitter 65 and a pharmacy identifier 66, the medicine warehouse-out device 61 and the medicine replenisher 62 are connected with the medicine statistics device 63, the medicine statistics device 63 is connected with the medicine transmitter 65, the medicine receiver 64 is connected with the processing transmitter 43, the medicine transmitter 65 is connected with the processing receiver 41, and the pharmacy identifier 66 is connected with the medicine receiver 64.

The purchasing end 7 comprises a purchasing receiver 71 and a purchasing transmitter 72, wherein the purchasing receiver 71 is connected with the processing transmitter 43, and the purchasing transmitter 72 is connected with the purchasing receiver 71.

The processing terminal 4 comprises a processing receiver 41, a two-dimensional code generator 42 and a processing transmitter 43, wherein the processing receiver 41 is respectively connected with the outpatient registration terminal 1, the outpatient doctor terminal 2, the pharmacist terminal 3 and the pharmacy terminal 6, the two-dimensional code generator 42 is respectively connected with the processing receiver 41 and the processing transmitter 43, the processing transmitter 43 is respectively connected with the outpatient doctor terminal 2, the pharmacist terminal 3, the dispensing terminal 5, the pharmacy terminal 6 and the purchasing terminal 7, and the processing receiver 41 is further connected with the processing transmitter 43.

The working principle is as follows: an electronic medicine management device, as shown in fig. 1-4, comprises an outpatient registration terminal 1 for inputting basic information of patients into the device,

an outpatient physician end 2 for outpatient physicians to upload diagnostic information and prescriptions to the device;

a pharmacist end 3 for examining and verifying a prescription issued by an outpatient physician in the apparatus by a pharmacist;

the processing terminal 4 is used for collecting and sorting the information in the device and generating a uniform two-dimensional code;

a dispensing end 5 for sending prescription information to a patient or medical staff;

the pharmacy end 6 is used for monitoring the taking condition and the inventory quantity of the medicines by a pharmacy;

the purchasing end 7 is used for contacting with the manufacturer in time to purchase and supplement the medicines; and

the outpatient registration end 1, the outpatient doctor end 2, the pharmacist end 3, the dispensing end 5, the pharmacy end 6 and the purchasing end 7 exchange information with the processing end 4.

The outpatient registration terminal 1 comprises a registration display 11 for displaying a registration interface,

a registration input device 12 for the registration staff to input the basic information of the patient and transmit to the registration transmitter 13;

and the registration transmitter 13 is used for forwarding the information input by the registration inputter 12 to the processing terminal 4.

The outpatient physician side 2 includes a physician display 21 for displaying patient basic information, pharmacist review information and pharmacy drug information transmitted by the physician receiver 24;

a physician input unit 22 for the outpatient physician to query pharmacy drug information, modify patient information, input diagnosis information and prescriptions, modify prescriptions for pharmacist feedback information, and transmit the input information to a physician transmitter 23;

a physician transmitter 23 for forwarding the information input by the physician input unit 22 to the processing terminal 4,

and the doctor receiver 24 is used for receiving the pharmacist audit information, the patient basic information and the pharmacy medicine information sent back by the processing end 4 and transmitting the information to the doctor display 21.

The pharmacist end 3 comprises a pharmacist display 31 for displaying prescription information and pharmacy medicine information issued by a doctor;

a pharmacist input unit 32 for inquiring pharmacy medicine information, inputting prescription check information, and transmitting the information to the pharmacist transmitter 33;

a pharmacist transmitter 33 for transmitting the information input from the pharmacist input unit 32 or the approved qualified prescription information to the processing terminal 4;

the pharmacist receiver 34 is used for receiving the doctor's prescription information and the pharmacy drug information sent by the processing terminal 4 and transmitting the information to the pharmacist display 31.

The transmitting terminal 5 comprises an outpatient terminal 51 and is used for transmitting the two-dimensional code generated by the processing terminal 4 to the patient without hospitalization;

the hospitalization terminal 52 is configured to send the two-dimensional code generated by the processing terminal 4 to a patient needing or already being hospitalized;

the clinic end 51 comprises a clinic receiver 511 for receiving the two-dimensional code of the non-inpatient sent by the processing end 4;

the outpatient service transmitter 512 is used for transmitting the two-dimensional code received by the outpatient service receiver 511 to the intelligent patient equipment end 9;

the hospitalization terminal 52 comprises a hospitalization receiver 521 for receiving the two-dimensional code of the patient needing or already being hospitalized sent by the processing terminal 4;

the hospitalization transmitter 522 is configured to transmit the two-dimensional code received by the hospitalization receiver 521 to the corresponding ward medical care terminal 523 after being partitioned;

a ward medical care end 523 for medical care personnel to help patients to take their medications;

the ward health care end 523 comprises a ward receiver 5231 for medical personnel in the ward to receive the two-dimensional code sent by the hospital transmitter 522,

a ward identifier 5232 for identifying the two-dimensional code received by the ward receiver 5231 to generate specific information of the patient;

a ward display 5233 for displaying the two-dimensional code received by the ward receiver 5231 and the patient specific information identified by the ward identifier 5232.

The pharmacy end 6 comprises a medicine delivery device 61 for counting the delivery condition of the pharmacy,

a medicine replenisher 62 for counting the condition of the medicine warehoused by the pharmacy,

a medicine counting device 63 for counting the existing medicine condition and the medicine information to be supplemented of the pharmacy according to the information of the pharmacy delivery end and the pharmacy supplementing end,

the drug receiver 64 is used for receiving the qualified prescription information, the related information of the patient and the information of the drug taker sent by the processing terminal 4, transmitting the information to the pharmacy identifier 66,

a medicine transmitter 65 for transmitting the information counted by the medicine warehouse-out device 61, the medicine replenisher 62 and the medicine counter 63 to the processing terminal 4,

and the pharmacy identifier 66 is used for identifying the two-dimensional code, displaying the identified content to the pharmacy staff and verifying the information.

The purchasing end 7 comprises a purchasing receiver 71 for receiving the information of the medicine to be supplemented by the processing end 4 and the information of the relevant supplier,

a purchase transmitter 72 for contacting the supplier to make a purchase in a timely manner.

The processing terminal 4 comprises a processing receiver 41, which is used for receiving the basic information of the patient sent by the outpatient registration terminal 1, transmitting the basic information to a two-dimensional code generator 42, receiving the original prescription information or the modified prescription information sent by the outpatient doctor terminal 2, transmitting the original prescription information or the modified prescription information to a processing transmitter 43, receiving the prescription opinion information sent by the pharmacist terminal 3, transmitting the prescription opinion information to the processing transmitter 43, receiving the qualified prescription information sent by the pharmacist terminal 3, transmitting the qualified prescription information to the two-dimensional code generator 42, receiving the drug delivery information, the drug supplement information, the existing drug information and the drug information to be supplemented sent by the pharmacy terminal 6, and transmitting the drug information to the processing transmitter 43;

a two-dimensional code generator 42 for classifying the patient basic information and the qualified prescription information collected by the processing receiver 41, determining the information of the person who takes the medicine according to the processing result, generating a corresponding two-dimensional code, and transmitting the two-dimensional code to the processing transmitter 43;

the processing transmitter 43 is configured to transmit the basic patient information sent by the outpatient registration terminal 1 to the outpatient doctor terminal 2 and the pharmacist terminal 3, transmit the original prescription information or the modified prescription information sent by the outpatient doctor terminal 2 to the pharmacist terminal 3, transmit the prescription opinion information or the verification qualified information sent by the pharmacist terminal 3 to the outpatient doctor terminal 2, transmit the qualified prescription information sent by the pharmacist terminal 3, the basic patient information sent by the outpatient registration terminal 1, the two-dimensional code sent by the two-dimensional code generator 42, and the information of the drug taker to the pharmacy terminal 6, transmit the two-dimensional code generated and classified by the two-dimensional code generator 42 to the dispensing terminal 5, and transmit the information of the drug to be supplemented sent by the pharmacy terminal 6 to the purchasing terminal 7.

Fig. 6 is a schematic circuit diagram of the physician receiver 24 and the physician transmitter 23 in this embodiment, the transmitter and receiver in the other end have substantially the same principle, fig. 7 is a schematic circuit diagram of the medicine counter 63, and other components in this embodiment are all the prior art and are not listed.

The operation method based on the electronic medicine management device, as shown in fig. 5, includes the following steps:

s1, the drug delivery device 61, the drug replenishment device 62 and the drug statistics device 63 send the drug information in the pharmacy to the processing terminal 4 through the drug transmitter 65, update the information in real time according to the change of the drugs, and enter step S2;

s2, the patient registers basic information at the outpatient registration terminal 1, the registration staff records the patient information through the registration input device 12 and sends the information to the processing receiver 41 through the registration transmitter 13, then the information is sent to the processing terminal 4 through the processing transmitter 43, the patient registration is successful, and the step S3 is entered;

s3, the patient goes to an outpatient room, the outpatient physician inquires the medicine information in the pharmacy by the physician input device 22 according to the outpatient condition, issues the original prescription, can modify the basic information of the patient according to the requirement, sends the issued original prescription and the diagnosis information to the processing end 4 by the physician sender 23, and the step S4 is entered;

s4, the processing end 4 sends the diagnosis information and the original prescription to the pharmacist receiver 34, the pharmacist receiver 34 inquires the information of the medicine in the pharmacy according to the diagnosis information, the original prescription is checked and modified, and the step S4a is executed;

s4a, if the prescription is reasonable, the doctor passes the examination, the qualified information and the prescription information are sent to the processing terminal 4, the processing terminal 4 sends the qualified information to the doctor receiver 24, and the step S5 is executed;

if the prescription is not reasonable, the pharmacist does not check the prescription, modifies the prescription or proposes an opinion, sends modification information or opinion information to the processing terminal 4, and forwards the modification information or opinion information to the doctor receiver 24 through the processing terminal 4, the doctor performs secondary evaluation according to the received opinion information or modification information to modify the prescription, and forwards the modified prescription to the pharmacist terminal 3 through the processing terminal 4, and the step S4b is entered;

s4b, the modified prescription is rechecked by the pharmacist, and the step S4a is entered;

s5, transmitting the qualified prescription and the basic information of the patient to the two-dimensional code generator 42, classifying the two-dimensional code generator 42 according to whether the patient is in hospital or not, and entering the step S5 a;

s5a, if the patient is not hospitalized, confirming that the patient or the family member of the patient takes the medicine, generating the two-dimensional code by the two-dimensional code generator 42 according to the qualified prescription and the patient information, sending the prescription information and the information of the person taking the medicine to the pharmacy end 6,

the two-dimensional code is sent to the outpatient receiver 511, and then forwarded to the intelligent patient equipment end 9 by the outpatient transmitter 512, so that the patient obtains information, and the process goes to step S6;

if the patient is in hospital or needs to be in hospital, the inpatient area is confirmed according to the basic information of the patient, the medical staff in the inpatient area is confirmed to be the medicine taker, the qualified prescription and the patient information are generated into a two-dimensional code by the two-dimensional code generator 42, the prescription information and the medicine taker information are sent to the pharmacy end 6,

the two-dimensional code is transmitted to the ward receiver 5231, the ward identifier 5232 identifies the two-dimensional code, the identified information is transmitted to the ward display 5233, the medical staff corresponding to the ward obtains the information from the ward display 5233, and the process goes to step S6;

s6, according to the obtained information, the relevant personnel go to a pharmacy to take the medicine, the pharmacy personnel identify the two-dimensional code through the pharmacy identifier 66, check the relevant information, deliver the medicine, after the medicine is taken, the medicine is recorded by the medicine delivery device 61 and collected to the medicine statistics device 63, the medicine is forwarded to the processing end 4 by the medicine transmitter 65 to be updated, the medicine statistics device 63 is provided with the lowest value, and when the medicine inventory is less than the lowest value, the step S7 is automatically carried out;

s7, when the medicine is exhausted or about to be exhausted, the medicine counter 63 forwards the information of the existing medicine and the information of the medicine to be supplemented to the purchasing receiver 71 through the processing terminal 4, the purchasing receiver 71 sends the purchasing information of the medicine to the supplier terminal 8 through the purchasing transmitter 72, and supplements the medicine in time, and then the procedure goes to step S8;

s8, the medicine information to be filled into the pharmacy is collected by the medicine supply unit 62 to the medicine counter 63, and the latest information is transmitted to the processing terminal 4 by the medicine transmitter 65 and updated.

The information about the prescription in the two-dimensional code comprises: electronic list of total detail of medicines in the ward; electronic list of total medicine details of individual patients in the ward; name, quantity, price and instructions for the relevant drug; corresponding to the internal number of the medicine; the drug stock condition and the like, and the two electronic list files are convenient to print to patients or to dispense drugs;

the two-dimensional code comprises the following basic information about the patient: the name, age, sex, number of visiting card, processing order number, etc. of the patient are convenient for unified management.

The whole set of device and the working method perfect the diagnosis system, a doctor makes prescriptions, a pharmacist checks the customs, and after the prescriptions are repeatedly modified and checked, the two parties confirm that the prescriptions are correct, so that qualified prescriptions can be obtained, and the risk caused by improper prescription making is greatly reduced; the patient does not need to repeatedly explain the self condition in the whole process except the outpatient stage, and the information of the patient can be quickly obtained among different medical care personnel, so that the working efficiency of the medical system is greatly improved; when the medicine needs to be supplemented, the device automatically contacts with a supplier for supplementing, so that the time for searching medicine information and checking information in the middle is saved, and the method is different from the method that the statistics is only carried out in a fixed time period every day in a hospital; the whole process is completely paperless, clean and environment-friendly, the intelligent degree of the whole set of device is higher, the information is clear, and the medication safety is improved.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. Which all fall within the protection scope of the utility model. The protection scheme of the utility model is based on the appended claims.

Claims (8)

1. An electronic medicine management device, comprising: comprises an outpatient registration end (1), an outpatient doctor end (2), a pharmacist end (3), a processing end (4), a distributing end (5), a pharmacy end (6) and a purchasing end (7),

the outpatient registration end (1), the outpatient doctor end (2), the pharmacist end (3), the dispensing end (5), the pharmacy end (6) and the purchasing end (7) are all connected with the processing end (4).

2. The electronic medication management device of claim 1, wherein: the outpatient service registration end (1) comprises a registration display (11), a registration input device (12) and a registration transmitter (13),

the registration display (11) is arranged separately,

the registration input device (12) is connected with the registration transmitter (13),

the registration transmitter (13) is connected with the processing end (4).

3. The electronic medication management device of claim 1, wherein: the outpatient doctor end (2) comprises a doctor display (21), a doctor input device (22), a doctor transmitter (23) and a doctor receiver (24),

the physician display (21) is connected with the physician receiver (24),

the physician input device (22) is connected to the physician transmitter (23),

the physician transmitter (23) is also connected with the processing end (4),

the physician receiver (24) is also connected to the treatment end (4).

4. The electronic medication management device of claim 1, wherein: the pharmacist end (3) comprises a pharmacist display (31), a pharmacist input device (32), a pharmacist transmitter (33) and a pharmacist receiver (34),

the pharmacist display (31) is connected to the pharmacist receiver (34),

the pharmacist input (32) is connected to the pharmacist transmitter (33),

the pharmacist transmitter (33) is also connected with the processing end (4),

the pharmacist receiver (34) is also connected to the processing end (4).

5. The electronic medication management device of claim 1, wherein: the distributing end (5) comprises an outpatient end (51) and an inpatient end (52),

the clinic end (51) is connected with the treatment end (4),

the hospitalization end (52) is connected with the treatment end (4);

the clinic end (51) comprises a clinic receiver (511) and a clinic transmitter (512),

the outpatient receiver (511) is connected with the processing end (4),

the outpatient transmitter (512) is connected with the outpatient receiver (511);

the hospitalization end (52) comprises a hospitalization receiver (521), a hospitalization transmitter (522) and a ward medical care end (523),

the hospitalization receiver (521) is connected with the treatment end (4),

the hospitalization transmitter (522) is connected with the hospitalization receiver (521),

the ward medical care end (523) is connected with the hospitalization transmitter (522);

the ward medical care end (523) comprises a ward receiver (5231), a ward identifier (5232) and a ward display (5233),

the ward receiver (5231) is connected to the hospitalization transmitter (522),

the ward identifier (5232) is connected to the ward receiver (5231),

the ward display (5233) is connected with the ward identifier (5232).

6. The electronic medication management device of claim 1, wherein: the pharmacy end (6) comprises a medicine warehouse-out device (61), a medicine replenisher (62), a medicine counter (63), a medicine receiver (64), a medicine transmitter (65) and a pharmacy identifier (66),

the drug delivery device (61) and the drug supplement device (62) are both connected with the drug statistics device (63),

said medication counter (63) being connected to said medication sender (65),

the drug receiver (64) is connected with the processing end (4),

the drug transmitter (65) is connected with the processing end (4),

the pharmacy identifier (66) is connected to the drug receptacle (64).

7. The electronic medication management device of claim 1, wherein: the purchasing end (7) comprises a purchasing receiver (71) and a purchasing transmitter (72),

the purchasing receiver (71) is connected with the processing end (4),

the purchase transmitter (72) is connected to the purchase receiver (71).

8. The electronic medication management device of claim 1, wherein: the processing terminal (4) comprises a processing receiver (41), a two-dimensional code generator (42) and a processing transmitter (43),

the processing receiver (41) is respectively connected with the outpatient registration end (1), the outpatient doctor end (2), the pharmacist end (3) and the pharmacy end (6),

the two-dimensional code generator (42) is respectively connected with the processing receiver (41) and the processing transmitter (43),

the processing transmitter (43) is respectively connected with the outpatient physician end (2), the pharmacist end (3), the dispensing end (5), the pharmacy end (6) and the purchasing end (7),

the processing receiver (41) is also connected to the processing transmitter (43).

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