CN114049949A - Medical hospital logistics management system and control method thereof - Google Patents

Abstract

The invention belongs to the medical field, in particular to a medical hospital logistics management system and a control method thereof, wherein the medical hospital logistics management system comprises a medicine detecting and warehousing mechanism, a medicine discharging and warehousing mechanism, a medicine charging mechanism and a logistics management module; after the medicine charging of the medicine charging mechanism is finished, the medicine detection and warehousing mechanism is loaded, and the medicine delivery mechanism is installed on the rear side of the medicine detection and warehousing mechanism; the logistics management module comprises basic management, warehousing management, ex-warehouse management, inventory management and system setting, and the priority of the basic management and the system setting is higher than that of the warehousing management, the ex-warehouse management and the inventory management.

Description

Medical hospital logistics management system and control method thereof

Technical Field

The invention belongs to the field of medical treatment, and particularly relates to a medical hospital logistics management system and a control method thereof.

Background

The logistics transmission system is a device which integrates advanced technologies such as mechanical transmission loading, photoelectric technology and information technology and realizes convenient transmission of articles in a specific area. The logistics transmission system was originally produced and applied in the fields of automobile mass production and electronic processing enterprises, and then started to be widely applied in the fields of banks, shopping malls, airports, libraries, factories and the like. With the development and wide application of information technology, the automation level of the logistics transmission system is greatly improved, and the logistics transmission system is gradually applied to the field of medical industry

A hospital logistics system is essentially a further extension of logistics systems in the medical field, but lacks a clear overview and definition. However, as time goes on, the logistics system of the hospital cannot fully take care of all departments, and only the logistics requirements of a part of areas can be met, so that a medical logistics system capable of realizing terminal communication intelligence is urgently needed in the design of the logistics system.

Disclosure of Invention

The invention aims to provide a medical in-hospital logistics management system and a control method thereof, which do not need to spend a large amount of time, are highly considered from the whole situation and meet the actual requirement, can really reduce the operation and operation cost of related medical institutions, save resources, simplify the logistics departments of the medical institutions and enable the operation and operation of the medical institutions to be more flexible.

In order to achieve the purpose, the invention provides the following technical scheme: a medical hospital logistics management system and a control method thereof are provided, wherein after charging is completed, the medicine charging mechanism is loaded into a medicine detection and warehousing mechanism, and the medicine delivery mechanism is arranged on the rear side of the medicine detection and warehousing mechanism;

the drug detecting and warehousing mechanism comprises a warehouse drug detecting and delivering port, a touch display screen, a warehouse inlet and a cross beam frame; the warehouse delivery inspection medicine port is internally communicated with the bin inlet, and the cross beam frame is fixed outside the warehouse delivery inspection medicine port and the bin inlet;

the medicine warehouse-out mechanism comprises a medicine outlet, a bayonet, a clamping seat and a disc opening, wherein the clamping seat is fixed at the bottom of the disc opening, the bayonet is welded at the bottom of the clamping seat, and one side of the disc opening is connected with the medicine outlet.

Preferably, the medicine charging mechanism comprises a medicine charging barrel (9) and medicine boxes (10), and a plurality of medicine boxes (10) are contained in the medicine charging barrel (9).

Preferably, the logistics management module comprises basic management, warehousing management, ex-warehouse management, inventory management and system setting, and the priority of the basic management and the system setting is higher than that of the warehousing management, the ex-warehouse management and the inventory management.

Preferably, the basic management comprises medical loading unit management, staff management and medicine classification management, and the medical loading unit management and the staff management enter the medicine classification management after inputting information.

Preferably, the system setting comprises medical personnel setting, data backup and data recovery, and the back end of the data backup is connected with an MSql database.

Preferably, the warehousing management comprises drug warehousing and warehousing category setting, the ex-warehouse management comprises drug ex-warehouse and ex-warehouse category setting, and the warehousing category setting corresponds to the ex-warehouse category setting one to one.

Preferably, the inventory management includes inventory query, drug classification and drug inventory warning, and the inventory query is HASH table query, and HASH conflict is resolved by using a divide-and-leave remainder method, i.e. h (key) -key MOD p (p < ═ m).

Preferably, the method comprises the following steps:

s1, the head end purchases the medicine, the warehouse system mainly receives the goods from the medicine inlet station, then the warehouse model is built, the building of the medical warehouse model mainly carries out the corresponding building of each warehouse with the warehouse serial number with the unique identification, each shelf is provided with the identification related to the warehouse, and the position identification of each medicine is uniquely determined by the shelf and the identification of the warehouse;

s2, packaging the loaded medicines, entering the medicine detection and warehousing mechanism, and inputting information by using a touch display screen;

s3, entering a machine for acceptance, editing medicines and codes by using a QT interface at an edge end, then performing communication connection at a department terminal, and informing the department to take;

and S4, the department personnel log in the password, then enter information and take out information, and the drug detection warehousing mechanism carries out ex-warehouse operation on the drug.

Preferably, in step S1, the goods allocation stage uses a population individual coding method, each medicine storage area is a storage goods number, the initial codes are all coded by random numbers from 0 to 1, a hash table is established by using a database, and different classification tables are established by using different kinds of medicines.

Preferably, aiming at the steps S3 and S4, a development mode of JAVABean, JSP and Servlet is adopted by a model for login and communication of department personnel, a request is sent to the department by storage, the back end of the request is submitted to the model layer for processing, the back end model layer returns a processing structure to a terminal controller and finally is correspondingly sent to the department personnel, the interface of the terminal is a QT interface, a storage management system is developed for a Mysql database, an operation record table is built inside the system, and the operation record table comprises department personnel ID, medicine entering time, medicine taking time and operation time.

To sum up, the medical nosocomial logistics management system and the control method thereof of the invention are based on the long-term development direction of the medical market, provide a new development direction for the development of medical institutions from the viewpoint of logistics research, and have a constructive auxiliary effect on medical and health policies, compared with the prior art, the analysis of the whole target link can predict the problems possibly occurring in the software development link, and make possible countermeasures first, so as to improve the whole efficiency, solve the information communication barrier between medical departments through the system, realize the logistics information sharing between hospital departments, solve the goods coding management inside the hospital departments, improve the information communication speed between the logistics management departments, reduce the possibility of goods residue in inventory, and reasonably abstract the optimized mathematical model of the whole medicine goods location operation through the optimization problem of the stored goods location medicines, and constructing a goods position distribution model with the conditions of the running time of the truck, the stability of the goods shelf and the inventory capability of the goods position as resources.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic diagram of a warehousing system according to the present invention;

FIG. 2 is a diagram illustrating a procedure of accessing medical logistics according to the present invention;

FIG. 3 is a schematic view of the acceptance machine of the present invention;

FIG. 4 is a schematic structural view of a drug delivery mechanism according to the present invention;

fig. 5 is a schematic structural diagram of the charging mechanism of the present invention.

1. A warehouse medicine inspection and delivery port; 2. a touch display screen; 3. a bin inlet; 4. a cross beam frame; 5. a medicine outlet; 6. a bayonet; 7. a card holder; 8. a disc opening; 9. loading a medicine box; 10. a medicine box.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

Referring to fig. 2, a head end purchases a medicine, a warehouse system mainly receives goods from a medicine inlet station, then a warehouse model is established, for the establishment of the medical warehouse model, a warehouse number with a unique identifier is established corresponding to each warehouse, each shelf has a mark related to the warehouse, and each medicine position identifier is uniquely determined by the identifier of the shelf and the warehouse; then, packaging the loaded medicines, entering a medicine detection and warehousing mechanism, and inputting and recording information by using a touch display screen; then entering a machine for acceptance, editing medicines and codes by utilizing a QT interface at an edge end, then carrying out communication connection on department terminals, and informing departments of picking up; finally, the department personnel log in the password, then enter information and take out information, and the drug detection and warehousing mechanism carries out ex-warehouse operation on the drug;

the content of medical department request is packed by HTTP protocol, and the connection between department and logistics management module is realized by TCP/IP protocol, the goods allocation stage adopts the mode of group individual coding, each medicine storage area is the storage goods position number, the initial code is coded by random number from 0 to 1, the database is used to build Hash table, different classification tables are built by using different medicine types, the development mode of JAVABean, JSP and Servlet is adopted by the model for the department personnel to log in and communicate, the storage sends request to department, the back end is handed to the model layer for processing, the back end model layer returns the processing structure to the terminal controller, and finally the department personnel are correspondingly given, the interface of the terminal is QT interface, the storage management system is developed by Mysql database, wherein the inside is built with operation record table, and the operation record table includes ID of department personnel, The time of medicine taking, the time of medicine taking and the time of operation.

The system comprises a medicine detecting and warehousing mechanism, a medicine delivery mechanism, a medicine charging mechanism and a logistics management module; after the medicine is filled in the medicine filling mechanism, the medicine is filled in the medicine detecting and warehousing mechanism, and the medicine delivery mechanism is arranged on the rear side of the medicine detecting and warehousing mechanism; wherein the medicine is through the vanning packing then the powder charge mechanism of packing, refer to fig. 5, the powder charge mechanism includes cartridge case 9 and cartridge case 10, cartridge case 9 is inside to include a plurality of cartridge case 10, cartridge case 9 once packs into for every cartridge case 10, then unified entering medicine detects warehouse entry mechanism, then the loading personnel types information and carries out warehouse storage, wherein the medicine detects warehouse entry mechanism and includes warehouse inspection medicine mouth 1, touch display screen 2, warehouse entry mouth 3 and crossbeam frame 4, QT display interface is on touch display screen 2, 1 inside intercommunication of warehouse inspection medicine mouth has warehouse entry mouth 3, the medicine enters warehouse entry mouth 3 immediately, and inspection medicine mouth 1 and 3 external fixation in warehouse entry mouth have crossbeam frame 4, the safe performance of device has been guaranteed.

In order to ensure logistics logicality of a bottom layer, a framework is constructed by using Java, wherein the framework of the system mainly comprises a logistics management module, a user interface presentation layer, a controller and a service layer, the logistics management module comprises basic management, warehousing management, ex-warehouse management, inventory management and system setting, the priority of the basic management and the system setting is higher than that of the warehousing management, the ex-warehouse management and the inventory management, the interface of the management module is displayed in a QT interface of a touch display screen, the logistics management module is in two-way communication with the user interface presentation layer, the user interface presentation layer is in communication with an internal controller to request data of the service layer, and the service layer comprises a medicine inventory query table, an in-out table, a basic information management table and an optimization module base table. Original codes concentrated on the client side are separated, all functional modules are abstractly packaged, and the logic of the codes is simplified by using a modularized idea. According to the business process analysis and the data flow direction analysis of the previous sections, each relatively independent data module is placed at a server side, the system setting comprises medical personnel setting, data backup and data recovery, and the rear end of the data backup is connected with an MSql database.

And aiming at the security of the logistics system, the account and the password of the user are judged, if the account and the password accord with the account and the password of the database access, the authentication is considered to be passed, otherwise, the authentication is not passed. The system accesses the back-end data based on a QT form, so that the access right is set to be a URI form and stored in a database, wherein the relationship among medical departments, carloaders and rights is realized. The front-end user encrypts an account and a password input by the user through JavaScript coding, simultaneously acquires a randomly generated verification code from the rear end of a hospital, combines the account, the password and the verification code to be MD5 encrypted, the encrypted data is transmitted to the controller, the controller can execute corresponding background processing logic, the background processing logic carries out security authentication and authorization management, and all working personnel log in to ensure the privacy and security of login

In order to distribute and optimize multiple orders, medicine loading is distributed to the beginning of batches of the orders, each batch comprises one or more orders, the optimal storage cargo space of a medicine partition corresponding to each order is obtained, the orders are processed together in batches, each batch is distributed to i trucks, the algorithm is carried out by fusing a Lagrange interpolation algorithm and an improved difference algorithm, firstly, the algorithm group is set, wherein a dynamically adjusted threshold silver control formula is as follows:

wherein DF_maxE (0,1) and DF_minE (0,1) is a dynamically adjusted threshold factor, and is controlled by DF, so as to avoid the problem that the proposed algorithm cannot be converged globally during the evolution process, we can adjust the dynamic factor according to formula 1, where λ_gFor a global convergence silver, when λ_gAnd if the comparison is large, carrying out global search, otherwise, entering local search by the algorithm.

In order to ensure the fluency of the logistics, the invention adopts a method of combining Lagrange with dynamic factors to optimize the global optimum value, and the difference value point can be obtained by the following formula:

wherein x_i,2(g) And obtaining an optimal scheme by utilizing the iteration times of the logistics vehicles for obtaining the interpolation points, wherein h and p are equation coefficients, corresponding to the optimal objective function value, and then judging the interpolation points, thereby realizing the iterative optimal scheme seeking.

In the drug logistics distribution stage, the optimal target values are adopted, then each storage area is recoded, then a Lagrange difference algorithm is calculated in an order distribution mode, the order number corresponding to each partition is calculated, then a vector table is listed and stored in a database, the algorithm model performs optimal distribution on the maximum completion time of each batch, and if the optimal conditions are met, distribution is ended, or redistribution is performed.

Referring to fig. 1, the logistics management module includes basic management, warehousing management, ex-warehouse management, inventory management, and system setting, and the priority of the basic management and the system setting is higher than that of the warehousing management, the ex-warehouse management, and the warehousing management includes drug warehousing and warehousing category setting, the ex-warehouse management includes drug ex-warehouse and ex-warehouse category setting, the warehousing category setting and the ex-warehouse category setting correspond to each other one by one, drug ex-warehouse query is that a user can query the in-warehouse and out-warehouse conditions of all drugs classified by the system, and the in-warehouse and out-warehouse record of each drug corresponds to an entity at the back end. Each department can inquire the goods in and out of the warehouse according to the ID of the warehouse.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to substantially achieve the technical effect.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A medical hospital logistics management system comprises a medicine detecting and warehousing mechanism, a medicine discharging and warehousing mechanism, a medicine charging mechanism and a logistics management module;

the method is characterized in that: after the medicine charging of the medicine charging mechanism is finished, the medicine detection and warehousing mechanism is loaded, and the medicine delivery mechanism is installed on the rear side of the medicine detection and warehousing mechanism;

the drug detecting and warehousing mechanism comprises a warehouse drug detecting and delivering port (1), a touch display screen (2), a warehouse inlet (3) and a cross beam frame (4); the warehouse drug inspection and delivery opening (1) is internally communicated with the bin inlet (3), and the cross beam frame (4) is fixed outside the warehouse drug inspection and delivery opening (1) and the bin inlet (3);

the medicine warehouse-out mechanism comprises a medicine outlet (5), a bayonet (6), a clamping seat (7) and a disc opening (8), wherein the clamping seat (7) is fixed at the bottom of the disc opening (8), the bayonet (6) is welded at the bottom of the clamping seat (7), and the medicine outlet (5) is connected to one side of the disc opening (8).

2. A medical hospitality logistics management system as recited in claim 1, wherein: the medicine charging mechanism comprises a medicine charging barrel (9) and medicine boxes (10), and the medicine charging barrel (9) internally comprises a plurality of medicine boxes (10).

3. A medical hospitality logistics management system as recited in claim 1, wherein: the logistics management module comprises basic management, warehousing management, ex-warehouse management, inventory management and system setting, and the priority of the basic management and the system setting is higher than that of the warehousing management, the ex-warehouse management and the inventory management.

4. A medical hospitality logistics management system as claimed in claim 3, wherein: the basic management comprises medical loading unit management, staff management and medicine classification management, and the medical loading unit management and the staff management enter the medicine classification management after inputting information.

5. A medical hospitality logistics management system as claimed in claim 3, wherein: the system setting comprises medical personnel setting, data backup and data recovery, and the back end of the data backup is connected with an MSql database.

6. A medical hospitality logistics management system as claimed in claim 3, wherein: the warehousing management comprises medicine warehousing and warehousing category setting, the ex-warehouse management comprises medicine ex-warehouse and ex-warehouse category setting, and the warehousing category setting corresponds to the ex-warehouse category setting one to one.

7. A medical hospitality logistics management system as claimed in claim 3, wherein: the inventory management comprises inventory query, medicine classification and medicine inventory early warning, the inventory query is HASH table query, and HASH conflict is solved by adopting a remainder dividing method, namely H (key) MOD p (p < ═ m).

8. The medical hospitality logistics management system of any one of claims 1-7, wherein: the method comprises the following steps:

s1, the head end purchases the medicine, the warehouse system mainly receives the goods from the medicine inlet station, then the warehouse model is built, the building of the medical warehouse model mainly carries out the corresponding building of each warehouse with the warehouse serial number with the unique identification, each shelf is provided with the identification related to the warehouse, and the position identification of each medicine is uniquely determined by the shelf and the identification of the warehouse;

s2, packaging the loaded medicines, entering the medicine detection and warehousing mechanism, and inputting information by using a touch display screen;

s3, entering a machine for acceptance, editing medicines and codes by using a QT interface at an edge end, then performing communication connection at a department terminal, and informing the department to take;

and S4, the department personnel log in the password, then enter information and take out information, and the drug detection warehousing mechanism carries out ex-warehouse operation on the drug.

9. The medical hospitality logistics management system of claim 8, wherein: and step S1, a population individual coding mode is adopted in the goods allocation stage, each medicine storage area is a storage goods position number, the initial codes are all coded by random numbers from 0 to 1, a hash table is established by using a database, and different classification tables are established by using different medicine types.

10. The medical hospitality logistics management system of claim 8, wherein: aiming at the steps S3 and S4, a development mode of JAVABean, JSP and Servlet is adopted for a model for login and communication of department personnel, a request is sent to the department by storage, the back end of the request is sent to the model layer to be processed, the back end model layer returns a processing structure to a terminal controller and finally is sent to the department personnel correspondingly, the interface of the terminal is a QT interface, a storage management system is developed for a Mysql database, an operation record table is built inside the system, and the operation record table comprises department personnel ID, medicine entering time, medicine taking time and operation time.

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