CN111145440A - Intelligent management method and system for medical supplies - Google Patents

Abstract

The invention discloses a medical material intelligent management method and a system, wherein the method comprises the following steps: the method comprises the steps of obtaining weight information collected by a weighing module, adjusting the real-time quantity of materials in a corresponding storage lattice based on the weight information, obtaining ultrahigh frequency label information collected by a radio frequency identification module, adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information, sending the real-time quantity of the materials in the corresponding storage lattice to a sub-control board, wherein a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage lattice; the real-time quantity of the materials in the corresponding storage lattice is sent to the upper computer, and the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to the cloud platform. The intelligent cabinet information management system can automatically acquire the real-time quantity and type information of medical materials in the intelligent cabinet, improves the management efficiency, reduces the management cost, and effectively solves the problem that information exchange is easy to be inconsistent in the clinical use process from the actual supply chain.

Description

Intelligent management method and system for medical supplies

Technical Field

The invention relates to the technical field of medical material management, in particular to an intelligent medical material management method and system.

Background

With the development of modern medicine, more and more new materials and new technologies are applied to medical treatment, and medical consumables, particularly high-value consumables, have the characteristics of various varieties, complex and different specifications and models, non-standard names, strong specialty and the like, so that hospitals face huge challenges in consumable management.

At present, hospitals basically adopt warehouse adoption management modes for managing medical consumables, and with the increasing supply of medical consumables, the problems of the existing management modes in the aspects of supply, inventory, supply and marketing information, material management and the like are gradually highlighted, the management efficiency is low, the management cost is high, and the problem that information exchange is inconsistent easily occurs in the process from an actual supply chain to clinical use is a difficult problem which needs to be solved urgently by medical institutions.

Disclosure of Invention

The invention aims to at least solve the technical problems in the prior art, and particularly provides an intelligent management method for medical supplies, which effectively solves the problems that the management efficiency is low, the management cost is high, and information exchange is easy to be inconsistent in the process from an actual supply chain to clinical use in the prior art.

In order to achieve the above object, the present invention provides an intelligent medical material management method, which is applied to an intelligent medical material management cabinet based on a cloud platform, and the intelligent medical material management cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the method comprises the following steps:

acquiring weight information acquired by the weighing module;

adjusting the real-time quantity of the materials in the corresponding storage lattice based on the weight information;

acquiring ultrahigh frequency label information acquired by the radio frequency identification module;

adjusting the real-time quantity of materials in the corresponding storage lattice based on the ultrahigh frequency label information;

sending the real-time quantity of the materials in the corresponding storage lattice to the sub-control board, wherein a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage lattice;

and sending the real-time quantity of the materials in the corresponding storage lattice to an upper computer, wherein the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to a cloud platform.

Preferably, the intelligent cabinet further comprises: the integrated ID card reading head is arranged outside the storage grid, and the electric control lock is arranged on a grid door outside the storage grid; the method further comprises the following steps:

acquiring authority information acquired by the reading head of the integrated ID card;

judging whether the authority information meets a first preset condition, if so, then:

and generating a first control signal, wherein the first control signal is used for controlling the electric control lock to be opened.

Preferably, the intelligent cabinet further comprises: a light mounted within the storage compartment; the method further comprises the following steps:

receiving a door opening signal generated when the electric control lock is opened;

controlling the illumination lamp to be turned on based on the door opening signal;

receiving a door closing signal generated when the electric control lock is closed;

and controlling the lighting lamp to be turned off based on the door closing signal.

Preferably, the intelligent cabinet further comprises: a temperature sensor and a humidity sensor mounted in the storage compartment; the method further comprises the following steps:

receiving temperature information in the storage lattice, which is acquired by the temperature sensor;

receiving humidity information in the storage lattice, which is acquired by the humidity sensor;

and sending the temperature information and the humidity information to the sub-control board, wherein the integrated high-resolution display screen on the sub-control board is also used for displaying the temperature information and the humidity information of the corresponding storage grid opening.

Preferably, the intelligent cabinet further comprises: the alarm device is arranged on the storage grid; the method further comprises the following steps:

judging whether the temperature information and/or the humidity information meet a second preset condition, if not, then:

and generating a second control signal, wherein the second control signal is used for controlling the alarm device to alarm.

The utility model provides a medical supplies intelligent management system, is applied to medical supplies management intelligence cabinet based on cloud platform, the intelligence cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the system comprises:

the first acquisition module is used for acquiring the weight information acquired by the weighing module;

the first adjusting module is used for adjusting the real-time quantity of the materials in the corresponding storage lattice based on the weight information;

the second acquisition module is used for acquiring the ultrahigh frequency label information acquired by the radio frequency identification module;

the second adjusting module is used for adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information;

the first sending module is used for sending the real-time quantity of the materials in the corresponding storage grid to the sub-control board, and a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage grid;

and the second sending module is used for sending the real-time quantity of the materials in the corresponding storage lattice to the upper computer, and the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to the cloud platform.

Preferably, the intelligent cabinet further comprises: the integrated ID card reading head is arranged outside the storage grid, and the electric control lock is arranged on a grid door outside the storage grid; the system further comprises:

the third acquisition module is used for acquiring the authority information acquired by the integrated ID card reading head;

the first judgment module is used for judging whether the authority information meets a first preset condition or not;

and the first generation module is used for generating a first control signal when the authority information meets a first preset condition, wherein the first control signal is used for controlling the electric control lock to be opened.

Preferably, the intelligent cabinet further comprises: a light mounted within the storage compartment; the system further comprises:

the first receiving module is used for receiving a door opening signal generated when the electric control lock is opened;

the first control module is used for controlling the illumination of the illuminating lamp based on the door opening signal;

the second receiving module is used for receiving a door closing signal generated when the electric control lock is closed;

and the second control module is used for controlling the lighting lamp to be turned off based on the door closing signal.

Preferably, the intelligent cabinet further comprises: a temperature sensor and a humidity sensor mounted in the storage compartment; the system further comprises:

the third receiving module is used for receiving the temperature information in the storage lattice, which is acquired by the temperature sensor;

the fourth receiving module is used for receiving the humidity information in the storage lattice, which is acquired by the humidity sensor;

and the third sending module is used for sending the temperature information and the humidity information to the sub-control board, and the integrated high-resolution display screen on the sub-control board is also used for displaying the temperature information and the humidity information of the corresponding storage grid opening.

Preferably, the intelligent cabinet further comprises: the alarm device is arranged on the storage grid; the system further comprises:

the second judgment module is used for judging whether the temperature information and/or the humidity information meet a second preset condition or not;

and the second generating module is used for generating a second control signal when the temperature information and/or the humidity information do not meet a second preset condition, and the second control signal is used for controlling the alarm device to give an alarm.

According to the intelligent cabinet, the real-time quantity and the type information of medical materials in the intelligent cabinet, which are automatically acquired by the weighing module and the radio frequency identification module, are acquired, the real-time quantity of the materials in the corresponding storage grid is updated in real time, the real-time quantity of the materials in the corresponding storage grid is displayed by the high-fraction display screen, and the real-time quantity of the materials in the corresponding storage grid is transmitted to the cloud platform, so that the management efficiency is improved, the management cost is reduced, and the problem that information exchange is easily inconsistent in the process of actual supply chain to clinical use is effectively solved.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a flow chart of an embodiment 1 of a method for intelligently managing medical supplies according to the present invention;

FIG. 2 is a flow chart of an embodiment 2 of the intelligent management method for medical supplies according to the present invention;

fig. 3 is a schematic structural diagram of an embodiment 1 of an intelligent management system for medical supplies according to the present invention;

fig. 4 is a schematic structural diagram of an embodiment 2 of the intelligent management system for medical supplies according to the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

As shown in fig. 1, the method is a flowchart of a method in embodiment 1 of the intelligent management method for medical materials, and the method is applied to an intelligent cabinet for medical material management based on a cloud platform, wherein the intelligent cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the method may comprise the steps of:

s101, acquiring weight information acquired by a weighing module;

when needs carry out intelligent management to medical material, when operating personnel took out or put into medical material from medical material intelligent management intelligence cabinet, the weight information of storing check mouth this moment can be gathered through the weighing module of installing in intelligence cabinet storing check mouth bottom, after the important information of storing check mouth was gathered to weighing module, the weight information that the weighing module gathered was acquireed to the system.

S102, adjusting the real-time quantity of materials in the corresponding storage lattice based on the weight information;

according to the acquired weight information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

S103, acquiring ultrahigh frequency label information acquired by the radio frequency identification module;

meanwhile, when an operator takes out or puts in medical materials from the intelligent medical material management cabinet, ultrahigh frequency label information on the medical materials can be collected through the radio frequency identification module arranged in the storage lattice of the intelligent cabinet, and after the ultrahigh frequency label information is collected by the radio frequency identification module, the ultrahigh frequency label information collected by the radio frequency identification module is obtained by the system.

S104, adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information;

according to the acquired ultrahigh frequency label information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

S105, sending the real-time quantity of the materials in the corresponding storage lattice to a sub-control board, wherein a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage lattice;

after the system calculates the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice this moment, can divide the control panel with real-time quantity information transmission, then show the intraoral real-time quantity of goods and materials of corresponding matter storage lattice through dividing the integrated high score display screen on the control panel, be convenient for observe the condition of medical goods and materials in the matter storage lattice mouth in real time through showing.

S106, sending the real-time quantity of the materials in the corresponding storage lattice to an upper computer, wherein the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to a cloud platform.

Simultaneously, the system can also be with the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the host computer, and the host computer can show the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice, also can transmit the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the cloud platform simultaneously.

In summary, in the above embodiments, the real-time quantity and the type information of the medical supplies in the intelligent cabinet, which are automatically acquired by the weighing module and the radio frequency identification module, are updated in real time, the real-time quantity of the supplies in the corresponding storage grid is displayed through the high-resolution display screen, and the real-time quantity of the supplies in the corresponding storage grid is transmitted to the cloud platform, so that the management efficiency is improved, the management cost is reduced, and the problem that information exchange is not consistent with each other easily in the process of actual supply chain to clinical use is effectively solved.

As shown in fig. 2, the method is a flowchart of a method of embodiment 2 of the intelligent management method for medical materials, and the method is applied to an intelligent cabinet for medical material management based on a cloud platform, wherein the intelligent cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage lattice opening of the intelligent cabinet, a radio frequency identification module arranged in the storage lattice opening of the intelligent cabinet, and a sub-control board arranged outside the storage lattice opening of the intelligent cabinet, wherein a high-resolution display screen, an integrated ID card reading head arranged outside the storage lattice opening, an electric control lock arranged on a lattice opening door outside the storage lattice opening, an illuminating lamp arranged in the storage lattice opening, a temperature sensor and a humidity sensor arranged in the storage lattice opening, and an alarm device arranged on the storage lattice opening are integrated on the sub-control board; the method may comprise the steps of:

s201, acquiring authority information acquired by a reading head of the integrated ID card;

when the medical substances need to be intelligently managed, firstly, the integrated ID card reading head is used for collecting authority information of an operator, and after the integrated ID card reading head is used for collecting the authority information of the operator, the system obtains the authority information collected by the integrated ID card reading head.

S202, judging whether the authority information meets a first preset condition, if so, entering S203:

then, the system further judges whether the authority information of the operator meets a first preset condition according to the acquired authority information acquired by the reading head of the integrated ID card, for example, whether the operator has the authority to operate the storage grid.

S203, generating a first control signal, wherein the first control signal is used for controlling the opening of the electric control lock;

when the authority information meets the first preset condition through judgment, namely the operator has the authority to operate the storage cell, the system generates a first control signal and controls the electric control lock of the storage cell to be unlocked through the first control signal.

S204, receiving a door opening signal generated when the electric control lock is opened;

when the electric control lock is opened, the electric control lock generates a door opening signal, and the system receives the door opening signal generated when the electric control lock is opened.

S205, controlling the lighting of the lighting lamp based on the door opening signal;

after the system receives the door opening signal that the electric control lock generated when opening, the illumination lamp in the further control storing check of root system is lighted to this door opening signal, can be more convenient for operating personnel to carry out medical supplies operation through lighting the illumination lamp.

S206, acquiring weight information acquired by the weighing module;

when operating personnel takes out or puts into medical supplies from medical supplies intelligent management intelligence cabinet, can gather the weight information of storing check this moment through the weighing module of installing in intelligence cabinet storing check mouth bottom, after the important information of storing check mouth was gathered to weighing module, the weight information that the weighing module gathered was acquireed to the system.

S207, adjusting the real-time quantity of the materials in the corresponding storage lattice based on the weight information;

according to the acquired weight information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

S208, acquiring ultrahigh frequency label information acquired by the radio frequency identification module;

meanwhile, when an operator takes out or puts in medical materials from the intelligent medical material management cabinet, ultrahigh frequency label information on the medical materials can be collected through the radio frequency identification module arranged in the storage lattice of the intelligent cabinet, and after the ultrahigh frequency label information is collected by the radio frequency identification module, the ultrahigh frequency label information collected by the radio frequency identification module is obtained by the system.

S209, adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information;

according to the acquired ultrahigh frequency label information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

S210, sending the real-time quantity of the materials in the corresponding storage lattice to a sub-control board, wherein a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage lattice;

after the system calculates the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice this moment, can divide the control panel with real-time quantity information transmission, then show the intraoral real-time quantity of goods and materials of corresponding matter storage lattice through dividing the integrated high score display screen on the control panel, be convenient for observe the condition of medical goods and materials in the matter storage lattice mouth in real time through showing.

S211, sending the real-time quantity of the materials in the corresponding storage lattice to an upper computer, wherein the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to a cloud platform;

simultaneously, the system can also be with the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the host computer, and the host computer can show the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice, also can transmit the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the cloud platform simultaneously.

S212, receiving a door closing signal generated when the electric control lock is closed;

after an operator finishes operating the medical materials in the storage compartment, when the electric control lock corresponding to the storage compartment is closed, the electric control lock generates a door closing signal, and the system receives the door closing signal generated when the electric control lock is closed.

S213, controlling the lighting lamp to be turned off based on the door closing signal;

when the system receives a door closing signal generated when the electric control lock is closed, the lighting lamp is further controlled to be turned off according to the door closing signal, and the energy-saving effect is further achieved.

S214, receiving temperature information in the storage lattice, which is acquired by the temperature sensor;

simultaneously, the temperature sensor who installs in the matter storing lattice mouth can also real-time intraoral temperature information of collection matter storing lattice, and temperature sensor sends the intraoral temperature information of matter storing lattice who gathers to the system.

S215, receiving humidity information in the storage lattice, which is acquired by the humidity sensor;

in addition, the humidity sensor installed in the storage lattice opening can also collect humidity information in the storage lattice opening in real time, and the humidity sensor sends the collected humidity information in the storage lattice opening to the system.

S216, sending the temperature information and the humidity information to a sub-control board, wherein a high-resolution display screen integrated on the sub-control board is also used for displaying the temperature information and the humidity information of the corresponding storage grid;

the system can also send temperature information and humidity information to the branch control board after receiving temperature information and humidity information, shows temperature information and humidity information through the high fraction display screen of integration on dividing the control board, is convenient for real-time temperature and humidity situation in the observation matter storing lattice through showing temperature information and humidity information.

S217, judging whether the temperature information and/or the humidity information meet a second preset condition, if not, entering 218:

after receiving the temperature information and/or the humidity information, the system may further determine whether the temperature information and/or the humidity information satisfy a second preset condition, for example, determine whether the temperature exceeds a preset threshold, or whether the humidity exceeds a preset threshold, or the like.

And S218, generating a second control signal, wherein the second control signal is used for controlling an alarm device to alarm.

And when the temperature information and/or the humidity information are judged not to meet the second preset condition, the system generates a second control signal, and the alarm device is controlled to give an alarm through the second control signal so as to achieve the monitoring and prompting functions. In conclusion, the technical scheme provided by the embodiment effectively improves the management efficiency of medical materials, reduces the management cost, and effectively solves the problem that information exchange is easy to be inconsistent from the actual supply chain to the clinical use process.

As shown in fig. 3, which is a schematic structural diagram of an embodiment 1 of the intelligent medical material management system disclosed in the present invention, the system is applied to an intelligent medical material management cabinet based on a cloud platform, wherein the intelligent cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the system may include:

the first acquisition module 301 is used for acquiring the weight information acquired by the weighing module;

when needs carry out intelligent management to medical material, when operating personnel took out or put into medical material from medical material intelligent management intelligence cabinet, the weight information of storing check mouth this moment can be gathered through the weighing module of installing in intelligence cabinet storing check mouth bottom, after the important information of storing check mouth was gathered to weighing module, the weight information that the weighing module gathered was acquireed to the system.

A first adjusting module 302 for adjusting the real-time quantity of the materials in the corresponding storage compartment based on the weight information;

according to the acquired weight information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

The second obtaining module 303 is configured to obtain the ultrahigh frequency tag information acquired by the radio frequency identification module;

meanwhile, when an operator takes out or puts in medical materials from the intelligent medical material management cabinet, ultrahigh frequency label information on the medical materials can be collected through the radio frequency identification module arranged in the storage lattice of the intelligent cabinet, and after the ultrahigh frequency label information is collected by the radio frequency identification module, the ultrahigh frequency label information collected by the radio frequency identification module is obtained by the system.

The second adjusting module 304 is configured to adjust the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency tag information;

according to the acquired ultrahigh frequency label information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

The first sending module 305 is used for sending the real-time quantity of the materials in the corresponding storage grid to the sub-control board, and the high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage grid;

after the system calculates the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice this moment, can divide the control panel with real-time quantity information transmission, then show the intraoral real-time quantity of goods and materials of corresponding matter storage lattice through dividing the integrated high score display screen on the control panel, be convenient for observe the condition of medical goods and materials in the matter storage lattice mouth in real time through showing.

The second sending module 306 is used for sending the real-time quantity of the materials in the corresponding storage lattice to the upper computer, and the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to the cloud platform.

Simultaneously, the system can also be with the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the host computer, and the host computer can show the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice, also can transmit the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the cloud platform simultaneously.

In summary, in the above embodiments, the real-time quantity and the type information of the medical supplies in the intelligent cabinet, which are automatically acquired by the weighing module and the radio frequency identification module, are updated in real time, the real-time quantity of the supplies in the corresponding storage grid is displayed through the high-resolution display screen, and the real-time quantity of the supplies in the corresponding storage grid is transmitted to the cloud platform, so that the management efficiency is improved, the management cost is reduced, and the problem that information exchange is not consistent with each other easily in the process of actual supply chain to clinical use is effectively solved.

As shown in fig. 4, which is a schematic structural diagram of an embodiment 2 of the intelligent medical material management system disclosed in the present invention, the system is applied to an intelligent medical material management cabinet based on a cloud platform, wherein the intelligent cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage lattice opening of the intelligent cabinet, a radio frequency identification module arranged in the storage lattice opening of the intelligent cabinet, and a sub-control board arranged outside the storage lattice opening of the intelligent cabinet, wherein a high-resolution display screen, an integrated ID card reading head arranged outside the storage lattice opening, an electric control lock arranged on a lattice opening door outside the storage lattice opening, an illuminating lamp arranged in the storage lattice opening, a temperature sensor and a humidity sensor arranged in the storage lattice opening, and an alarm device arranged on the storage lattice opening are integrated on the sub-control board; the system may include:

a third obtaining module 401, configured to obtain authority information collected by the reading head of the integrated ID card;

when the medical substances need to be intelligently managed, firstly, the integrated ID card reading head is used for collecting authority information of an operator, and after the integrated ID card reading head is used for collecting the authority information of the operator, the system obtains the authority information collected by the integrated ID card reading head.

A first determining module 402, configured to determine whether the permission information satisfies a first preset condition;

then, the system further judges whether the authority information of the operator meets a first preset condition according to the acquired authority information acquired by the reading head of the integrated ID card, for example, whether the operator has the authority to operate the storage grid.

A first generating module 403, configured to generate a first control signal when the authority information meets a first preset condition, where the first control signal is used to control the electronic control lock to be unlocked;

when the authority information meets the first preset condition through judgment, namely the operator has the authority to operate the storage cell, the system generates a first control signal and controls the electric control lock of the storage cell to be unlocked through the first control signal.

A first receiving module 404, configured to receive a door opening signal generated when the electronic control lock is unlocked;

when the electric control lock is opened, the electric control lock generates a door opening signal, and the system receives the door opening signal generated when the electric control lock is opened.

A first control module 405 for controlling the illumination of the illumination lamp based on the door opening signal;

after the system receives the door opening signal that the electric control lock generated when opening, the illumination lamp in the further control storing check of root system is lighted to this door opening signal, can be more convenient for operating personnel to carry out medical supplies operation through lighting the illumination lamp.

A first obtaining module 406, configured to obtain weight information collected by the weighing module;

when operating personnel takes out or puts into medical supplies from medical supplies intelligent management intelligence cabinet, can gather the weight information of storing check this moment through the weighing module of installing in intelligence cabinet storing check mouth bottom, after the important information of storing check mouth was gathered to weighing module, the weight information that the weighing module gathered was acquireed to the system.

A first adjusting module 407, configured to adjust a real-time amount of the material in the corresponding storage compartment based on the weight information;

according to the acquired weight information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

A second obtaining module 408, configured to obtain the ultrahigh frequency tag information acquired by the radio frequency identification module;

meanwhile, when an operator takes out or puts in medical materials from the intelligent medical material management cabinet, ultrahigh frequency label information on the medical materials can be collected through the radio frequency identification module arranged in the storage lattice of the intelligent cabinet, and after the ultrahigh frequency label information is collected by the radio frequency identification module, the ultrahigh frequency label information collected by the radio frequency identification module is obtained by the system.

The second adjusting module 409 is used for adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information;

according to the acquired ultrahigh frequency label information, the system can calculate the real-time quantity of the materials in the corresponding storage lattice in real time.

The first sending module 410 is used for sending the real-time quantity of the materials in the corresponding storage grid to the sub-control board, and the high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage grid;

after the system calculates the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice this moment, can divide the control panel with real-time quantity information transmission, then show the intraoral real-time quantity of goods and materials of corresponding matter storage lattice through dividing the integrated high score display screen on the control panel, be convenient for observe the condition of medical goods and materials in the matter storage lattice mouth in real time through showing.

The second sending module 411 is used for sending the real-time quantity of the materials in the corresponding storage lattice to the upper computer, and the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to the cloud platform;

simultaneously, the system can also be with the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the host computer, and the host computer can show the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice, also can transmit the real-time quantity of the intraoral goods and materials of corresponding matter storage lattice to the cloud platform simultaneously.

A second receiving module 412, configured to receive a door closing signal generated when the electric control lock is closed;

after an operator finishes operating the medical materials in the storage compartment, when the electric control lock corresponding to the storage compartment is closed, the electric control lock generates a door closing signal, and the system receives the door closing signal generated when the electric control lock is closed.

The second control module 413 is used for controlling the lighting lamp to be turned off based on the door closing signal;

when the system receives a door closing signal generated when the electric control lock is closed, the lighting lamp is further controlled to be turned off according to the door closing signal, and the energy-saving effect is further achieved.

The third receiving module 414 is configured to receive temperature information in the storage compartment acquired by the temperature sensor;

simultaneously, the temperature sensor who installs in the matter storing lattice mouth can also real-time intraoral temperature information of collection matter storing lattice, and temperature sensor sends the intraoral temperature information of matter storing lattice who gathers to the system.

A fourth receiving module 415, configured to receive humidity information in the storage compartment collected by the humidity sensor;

in addition, the humidity sensor installed in the storage lattice opening can also collect humidity information in the storage lattice opening in real time, and the humidity sensor sends the collected humidity information in the storage lattice opening to the system.

A third sending module 416, configured to send the temperature information and the humidity information to the sub-control board, where the high-resolution display screen integrated on the sub-control board is further configured to display the temperature information and the humidity information of the corresponding storage grid;

the system can also send temperature information and humidity information to the branch control board after receiving temperature information and humidity information, shows temperature information and humidity information through the high fraction display screen of integration on dividing the control board, is convenient for real-time temperature and humidity situation in the observation matter storing lattice through showing temperature information and humidity information.

A second judging module 417, configured to judge whether the temperature information and/or the humidity information satisfy a second preset condition;

after receiving the temperature information and/or the humidity information, the system may further determine whether the temperature information and/or the humidity information satisfy a second preset condition, for example, determine whether the temperature exceeds a preset threshold, or whether the humidity exceeds a preset threshold, or the like.

And a second generating module 418, configured to generate a second control signal when the temperature information and/or the humidity information do not satisfy a second preset condition, where the second control signal is used to control an alarm device to alarm.

And when the temperature information and/or the humidity information are judged not to meet the second preset condition, the system generates a second control signal, and the alarm device is controlled to give an alarm through the second control signal so as to achieve the monitoring and prompting functions. In conclusion, the technical scheme provided by the embodiment effectively improves the management efficiency of medical materials, reduces the management cost, and effectively solves the problem that information exchange is easy to be inconsistent from the actual supply chain to the clinical use process.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The intelligent medical material management method is applied to a cloud platform-based intelligent medical material management cabinet, and the intelligent cabinet comprises the following steps: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the method comprises the following steps:

acquiring weight information acquired by the weighing module;

adjusting the real-time quantity of the materials in the corresponding storage lattice based on the weight information;

acquiring ultrahigh frequency label information acquired by the radio frequency identification module;

adjusting the real-time quantity of materials in the corresponding storage lattice based on the ultrahigh frequency label information;

sending the real-time quantity of the materials in the corresponding storage lattice to the sub-control board, wherein a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage lattice;

and sending the real-time quantity of the materials in the corresponding storage lattice to an upper computer, wherein the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to a cloud platform.

2. The method of claim 1, wherein the smart cabinet further comprises: the integrated ID card reading head is arranged outside the storage grid, and the electric control lock is arranged on a grid door outside the storage grid; the method further comprises the following steps:

acquiring authority information acquired by the reading head of the integrated ID card;

judging whether the authority information meets a first preset condition, if so, then:

and generating a first control signal, wherein the first control signal is used for controlling the electric control lock to be opened.

3. The method of claim 2, wherein the smart cabinet further comprises: a light mounted within the storage compartment; the method further comprises the following steps:

receiving a door opening signal generated when the electric control lock is opened;

controlling the illumination lamp to be turned on based on the door opening signal;

receiving a door closing signal generated when the electric control lock is closed;

and controlling the lighting lamp to be turned off based on the door closing signal.

4. The method of claim 3, wherein the smart cabinet further comprises: a temperature sensor and a humidity sensor mounted in the storage compartment; the method further comprises the following steps:

receiving temperature information in the storage lattice, which is acquired by the temperature sensor;

receiving humidity information in the storage lattice, which is acquired by the humidity sensor;

and sending the temperature information and the humidity information to the sub-control board, wherein the integrated high-resolution display screen on the sub-control board is also used for displaying the temperature information and the humidity information of the corresponding storage grid opening.

5. The method of claim 4, wherein the smart cabinet further comprises: the alarm device is arranged on the storage grid; the method further comprises the following steps:

judging whether the temperature information and/or the humidity information meet a second preset condition, if not, then:

and generating a second control signal, wherein the second control signal is used for controlling the alarm device to alarm.

6. The utility model provides a medical material intelligent management system which characterized in that is applied to medical material management intelligence cabinet based on cloud platform, intelligence cabinet includes: the intelligent cabinet comprises a weighing module arranged at the bottom of a storage grid opening of the intelligent cabinet, a radio frequency identification module arranged in the storage grid opening of the intelligent cabinet and a sub-control board arranged outside the storage grid opening of the intelligent cabinet, wherein a high-resolution display screen is integrated on the sub-control board; the system comprises:

the first acquisition module is used for acquiring the weight information acquired by the weighing module;

the first adjusting module is used for adjusting the real-time quantity of the materials in the corresponding storage lattice based on the weight information;

the second acquisition module is used for acquiring the ultrahigh frequency label information acquired by the radio frequency identification module;

the second adjusting module is used for adjusting the real-time quantity of the materials in the corresponding storage lattice based on the ultrahigh frequency label information;

the first sending module is used for sending the real-time quantity of the materials in the corresponding storage grid to the sub-control board, and a high-resolution display screen integrated on the sub-control board is used for displaying the real-time quantity of the materials in the corresponding storage grid;

and the second sending module is used for sending the real-time quantity of the materials in the corresponding storage lattice to the upper computer, and the upper computer is used for transmitting the real-time quantity of the materials in the corresponding storage lattice to the cloud platform.

7. The system of claim 6, wherein the smart cabinet further comprises: the integrated ID card reading head is arranged outside the storage grid, and the electric control lock is arranged on a grid door outside the storage grid; the system further comprises:

the third acquisition module is used for acquiring the authority information acquired by the integrated ID card reading head;

the first judgment module is used for judging whether the authority information meets a first preset condition or not;

and the first generation module is used for generating a first control signal when the authority information meets a first preset condition, wherein the first control signal is used for controlling the electric control lock to be opened.

8. The system of claim 7, wherein the smart cabinet further comprises: a light mounted within the storage compartment; the system further comprises:

the first receiving module is used for receiving a door opening signal generated when the electric control lock is opened;

the first control module is used for controlling the illumination of the illuminating lamp based on the door opening signal;

the second receiving module is used for receiving a door closing signal generated when the electric control lock is closed;

and the second control module is used for controlling the lighting lamp to be turned off based on the door closing signal.

9. The system of claim 8, wherein the smart cabinet further comprises: a temperature sensor and a humidity sensor mounted in the storage compartment; the system further comprises:

the third receiving module is used for receiving the temperature information in the storage lattice, which is acquired by the temperature sensor;

the fourth receiving module is used for receiving the humidity information in the storage lattice, which is acquired by the humidity sensor;

and the third sending module is used for sending the temperature information and the humidity information to the sub-control board, and the integrated high-resolution display screen on the sub-control board is also used for displaying the temperature information and the humidity information of the corresponding storage grid opening.

10. The system of claim 9, wherein the smart cabinet further comprises: the alarm device is arranged on the storage grid; the system further comprises:

the second judgment module is used for judging whether the temperature information and/or the humidity information meet a second preset condition or not;

and the second generating module is used for generating a second control signal when the temperature information and/or the humidity information do not meet a second preset condition, and the second control signal is used for controlling the alarm device to give an alarm.

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