CN117133417A - Self-service dispensing system of aseptic package - Google Patents

Abstract

The invention relates to a self-service dispensing system for sterile bags. The system comprises a control unit, an information transmission unit, a server and a first detection module, wherein the control unit transmits a distribution instruction to the server through the information transmission module, and the server reads the information of medical staff through the first detection module to identify the working state and/or department of the medical staff and correspondingly records the distribution instruction in one of a plurality of groups in a database according to the working state and/or department of the medical staff. Compared with the prior art, the system provided by the invention can be used for storing the sterile package in a sterile environment and distributing the sterile package to the outside when required, so that the risk of pollution of the sterile package caused by touching the sterile package by multiple persons is reduced.

Description

Self-service dispensing system of aseptic package

Technical Field

The invention relates to the technical field of medical machinery, in particular to a self-service dispensing system of a sterile package.

Background

The surgical forceps and the surgical scissors generally comprise medical scissors, hemostatic forceps, needle holding forceps, sponge forceps, medical forceps and the like; in general, various kinds of surgical instruments in hospitals are used repeatedly, and disposable surgical instruments are also used, but most of the surgical instruments are used repeatedly. In the prior art, the acquisition of the sterile bag is carried by a full-time nurse, and when the sterile bag is authorized in a department, the medical staff carries a superior leading signature to be acquired at the acquisition position of the full-time nurse. However, since the use is not immediate, there is a problem of recontamination when left for a long time and taken by a person, and thus, the aseptic packages and the like have a shelf life; must be processed again after expiration.

In the process of issuing, a full-time nurse needs to follow the principle of issuing a near term and a far term. The sterile room window is established with a registration book for picking up sterile articles, and the picking up personnel also need to fill in various information on the registration book with registration contents including an operation room, an operation name, a sterile package name and a picking up person name.

The patent number CN 111568068B's chinese patent discloses an indoor transport robot of medical supplies, the cabinet body, be located a plurality of thing units of putting of cabinet body inside and be located the wheel body that the cabinet body bottom was used for the cabinet body to walk, the wheel body includes flexible rim, is located wheel core at wheel body center and is located the shock absorber structure between rim, the wheel core. Based on the device, the full-time nurse can carry aseptic package in aseptic sealed form and flow in each department to provide the aseptic package of its required kind for medical personnel that have urgent need.

Compared with the equipment only providing the sterile environment, the Chinese patent with the publication number of CN112201334B provides a medical consumable access system capable of performing intelligent statistics, which comprises an access terminal and a background server which are electrically connected with each other; the access terminal comprises an interaction module, an access module and an isolated storage container; the interaction module is used for a user to input the type and the number of each type of medical consumable, and the user performs identity verification on the patient, and after the user succeeds, a command is sent to the access module; the isolated storage container is provided with a plurality of independent and sealable spaces, the access module is used for storing medical consumables and sending the medical consumables into the independent spaces of the isolated storage container, and the access module seals the independent spaces; the background server side comprises an information receiving module, an account generating module and a patient information generating module, wherein the information receiving module is used for inputting and storing patient information and medical storage consumable taking information, and the account generating module is used for generating account information and correlating the patient information. The system can assist a full-time nurse to input information for distributing the sterile bags, but the process still needs the full-time nurse to be mainly responsible, and the sterile bags are manually taken for distribution, and as the sterile bags of part of consumable materials are in a wrapping state rather than a vacuum sealing state, the risk of pollution of the sterile bags is increased due to frequent taking of hands carrying bacteria.

The process of manually dispensing sterile packs increases the risk of contamination on the one hand; on the other hand, the operation efficiency of the retriever is also reduced, especially when the retriever is in an emergency call demand state. Based on the above, the invention provides a self-service dispensing system of a sterile package.

Furthermore, there are differences in one aspect due to understanding to those skilled in the art; on the other hand, since the applicant has studied a lot of documents and patents while making the present invention, the text is not limited to details and contents of all but it is by no means the present invention does not have these prior art features, but the present invention has all the prior art features, and the applicant remains in the background art to which the right of the related prior art is added.

Disclosure of Invention

Medical sterile wrap refers to a wrap formed with sterile wrap or other material that wraps the medical device that requires sterile preservation to maintain the sterility of the medical device. In the prior art, storage, retrieval, return and recording of sterile packs is dependent on manual labor. Storage of sterile packs requires constant temperature and humidity. Manual dispensing of sterile packs increases both the picking time and the risk of contamination.

In order to solve the above problems, the present invention provides a self-service dispensing system for sterile packages, comprising:

the server comprises a first database for storing medical personnel identification data generated based on the first detection module, wherein the database is divided into a plurality of groups according to working states and departments;

the aseptic package automatic delivery device is connected with the server, and the aseptic package automatic delivery device comprises:

the first detection module is used for acquiring first detection information related to the identity recognition of medical staff;

an information transmission module, via which the sterile packet automatic delivery device is connected to the server;

a terminal actuated to generate a corresponding sterile package dispensing command;

the data control module is electrically connected with the first detection module and the information transmission module, receives the first detection information related to the identity identification of the medical staff, and transmits the first detection information related to the identity identification of the medical staff to the server through the information transmission module; and

the control unit is electrically connected with the terminal and the information transmission module, receives the distribution instruction and commands the automatic sterile package delivery device to conduct a transaction program according to the distribution instruction;

the control unit transmits the distribution instruction to the server through the information transmission module, and the server reads the information of the medical staff through the first detection module to identify the working state and/or department of the medical staff, and correspondingly records the distribution instruction in one of a plurality of groups in the database according to the working state and/or department of the medical staff.

The beneficial effects of this technical scheme:

(1) Compared with the prior art, the system provided by the invention can be used for storing the sterile package in a sterile environment and distributing the sterile package to the outside when required, so that the risk of pollution of the sterile package caused by touching the sterile package by multiple persons is reduced.

(2) The manual picking process of the sterile bag mainly depends on the text records among medical staff, and the picked medical staff needs to record various information on a record book, so that the time consumption is relatively long. In particular, when a plurality of types of sterile bags are required to be picked up, a great amount of time is required for medical staff to describe and record the picked up sterile bag information, but the system provided by the invention can provide a selection interface with rich types for the medical staff only after the identity of the medical staff is identified, and the picking up information is automatically recorded while the sterile bags are distributed, so that the time consumed in the picking up process is greatly saved. This is particularly important during emergency or surgical procedures where additional retrieval of sterile packs is often due to an emergency situation, such as an unexpected major bleeding (requiring additional hemostatic packs) in the emergency; or the viscera of the patient is accidentally broken (additional apparatuses such as hemostatic forceps are needed) in the operation process, and the operation is limited by the speed of manual searching and registering, so that a medical staff can still waste much time even though the medical staff can be urgent through a green channel when getting the sterile bag.

(3) The automatic sterile bag taking device can accommodate various sterile bags, medical staff often need to remember codes or input correct related words to find the sterile bags when taking the sterile bags, and articles in the sterile bags based on different nursing types can be different, for example, the devices contained in the sterile bags for urinary nursing and urinary flushing have overlapping parts and different parts. When a healthcare worker needs to perform a simple treatment, such as emergency debridement, the sterile packs that need are likely to be of a combined nature rather than a single debridement pack, the system can generate recommendations of the sterile packs that may be used based on a selection of a broad class and provide the devices contained in the sterile packs in a screen, and when the healthcare worker preselects more than two sterile packs, the system can provide the healthcare worker with all the medical devices of the currently selected sterile pack in advance and prompt the healthcare worker of the devices that may be currently missing or expected to be used based on the debridement medical procedure. On one hand, the medical staff can be prompted for all the instruments in the selected sterile bags, so that waste is avoided; on the other hand, the medical staff can be prompted for lack of instruments.

According to a preferred embodiment, the server further comprises at least one push message related to the working status of the medical staff and/or the type of sterile pack required by the department;

the server reads the input information of the medical staff through the first detection module, distinguishes the working state and/or department of the medical staff, correspondingly transmits the push information of the sterile package type which accords with the working state and/or department of the medical staff to the data control module of the sterile package automatic delivery device, and the data control module receives the push information through the information transmission module and correspondingly displays the push information through the imaging module.

When the healthcare worker is in an emergency state, the server can generate other sterile pack type information associated with the first sterile pack based on the type of the sterile pack entered by the healthcare worker. For example, when a medical professional desires an autogenous bag, the server can analyze other sterile bags, such as tracheal tube bags, endotracheal tube bags, rescue bags, etc., that may be needed for physiological aspects associated with the autogenous bag based on the desire and display them on the imaging module.

When the medical staff is in the operation state, the server can provide the medical staff with the type information of the sterile bag based on the operation content and accidents possibly happening to the medical staff. For example, when a medical staff is in a heart stent procedure, and the medical staff is in need of additional sterile packages during the procedure, the server can generate sterile package recommendations, such as hemostats, needle holders, etc., based on the risk accidents that occur with heart valve procedures.

When medical staff is in a sitting state, the server can provide the type information of the sterile bag for the medical staff based on the department of the current sitting of the medical staff.

When the medical staff is in the ward-round state, the server can generate the type information of the sterile package based on the diseases of the patient in charge of the server.

According to a preferred embodiment, the server is provided with at least three databases. The first database is used for storing personal information of medical staff and data of corresponding sterile package type requirements. The second database is a temporary database and is used for recording data of all processes of the sterile package in the borrowing state. The third data is a history database for storing all borrowing flow data of the completed sterile package.

According to a preferred embodiment, the server is capable of counting the acquisition of sterile packages of medical staff in one cycle based on the medical staff history borrowing flow data stored in the third database. Preferably, a cycle can refer to a group meeting time, a summary time of a healthcare worker, for example, a quarterly job summary time, or an annual end person assessment time. The server can feed back the evaluation of the workload of a certain medical staff or the workload of a certain department or the optimization of the program in the current year based on the statistical data.

The work efficiency of some medical staff is higher for medical staff involved in surgical operations, especially for the trainees of emergency departments. The evaluation of the workload means that the dosage/frequency of use of the sterile bags of the medical staff can reflect the speed of processing patients when the medical staff is on the post within the same working time, and the efficiency is higher. In personal ability assessment, especially end-of-year personal ability assessment, the frequency of use of the sterile packs can be used as auxiliary information to help assess the efficiency of the healthcare worker.

The optimization of the program is the optimization of the sterile package combination issuance/recommendation for certain specific emergency medical events. For the same kind of emergency, in a time period, the A medical care selects an a+b sterile packet, the B medical care selects an a+c sterile packet, the times and the number of people of the combined sterile packet are more through analysis and selection, and the conditions can be automatically screened and reported to expert reviews, and finally, the sterile packet issuing standard for the emergency can be solidified, so that flow optimization feedback is formed. For example, the frequency of pneumology as thoracocentesis increases during one season of respiratory disease bursts. A doctor selects an aseptic bag a containing a thoracic cavity puncture needle, a disposable aseptic injection needle, a disposable aseptic syringe, a medical gauze piece and a hole towel and an aseptic bag b containing rubber medical gloves, plastic forceps, medical cotton balls, a disinfection wound plaster and a test tube. B doctor selects a sterile bag containing thoracic puncture needle, disposable sterile injection needle, disposable sterile syringe, medical gauze sheet and hole towel and c sterile bag containing rubber medical glove, hole towel, rubber tube, cotton swab, gauze and wound protecting paste. The server can count the use times, frequency and time period of the combination and report to an expert group, and the sterile package combination for thoracocentesis is fixed in the spring of the year or in the year. When the respiratory physician is faced with a patient with thoracocentesis, he can directly select the sterile combination of bags, or the server can directly provide the physician with the sterile combination of bags based on the operational objectives entered by the respiratory physician.

According to a preferred embodiment, the first detection module includes a data chip identification unit, wherein, based on the data chip identification information provided by the first detection module, the server can retrieve the information of the medical staff in the database for comparison, and when the information of the two information accords with each other, the information of the sterile package is displayed on the imaging module for the next operation selected by the medical staff.

According to a preferred embodiment, the first detection module further comprises an image capturing unit, and the server performs a next operation of displaying sterile package information on the imaging module for selection by the medical staff based on coincidence of the data chip identification information, the image information and the database information.

According to a preferred embodiment, the system further comprises a token module for providing a password for the present delivery of information, and the server further comprises an encryption program, the token module being connected to the server, wherein the token module is capable of issuing a credential information representative of the present sterile package when the sterile package is delivered by the automated sterile package delivery device, and being identifiable by the server until the sterile package is returned.

The beneficial effects of this technical scheme: and taking the sterile package to generate a temporary verification code, and inputting the corresponding verification code during return. Medical staff can return to the sterile packaging system at different places. Because the working property of medical staff is that the person taking the sterile package and the person returning the sterile package are not necessarily the same, the system can generate a temporary verification code which is common in the borrowing process of the sterile package because the personal account number and the password cannot be leaked. Therefore, the convenience of returning the sterile package can be improved, and the equivalent quantity of taking and returning can be ensured.

According to a preferred embodiment, when a medical staff who does not borrow the sterile pack returns the sterile pack, the server can confirm borrowing information of the sterile pack based on credential information input by the medical staff and record personal information of the medical staff who returns the sterile pack through a personal data chip of the medical staff.

The beneficial effects of this technical scheme: based on the first detection module, the system can record the identity of medical staff during taking and returning. When omission occurs, the medical staff identity of a plurality of sterile bags can be taken for a single time through verification, and the medical staff identity of the sterile bags can be returned for a plurality of times to confirm where the omission problem is. The verification code is disabled when the type and number of the sterile package taken matches the type and number of the return sterile package.

According to a preferred embodiment, when the aseptic package is returned to the system through the aseptic package automatic delivery device, the server can retrieve the borrowing information of the aseptic package from the temporary database and destroy the corresponding borrowing instruction based on the credential information received by the aseptic package and transmitted by the terminal.

According to a preferred embodiment, the automatic sterile package delivery device further comprises an imaging module electrically connected to the data control module, wherein the imaging module can provide information on the type of sterile package and the type and amount of consumable materials in various sterile packages for medical staff.

According to a preferred embodiment, the information transmission module can be a module with a wireless networking function, and the marking module is connected to the network transmission module through a wireless network interface provided by the information transmission module by a wireless network protocol.

According to a preferred embodiment, the server comprises a history database, wherein the server is able to copy all information generated in the borrowing procedure of the healthcare worker into the history database while destroying the borrowing information.

The invention provides a self-service dispensing method of a sterile package, which comprises the following steps:

based on the first detection module, the server acquires at least one piece of identification information of the medical staff and compares the identification information with corresponding information in the history database;

when the information is in conformity, the server is able to display the type of sterile package on the imaging module, wherein,

the server can read the information of the medical staff based on the first detection module to identify the working state and/or department of the medical staff, and correspondingly record the distribution instruction in one of a plurality of groups in the database according to the working state and/or department of the medical staff.

Drawings

Fig. 1 is a schematic diagram of a preferred embodiment provided by the present invention.

List of reference numerals

100: a server; 200: an automated sterile package delivery device.

Detailed Description

The following detailed description refers to the accompanying drawings.

It will be understood that when an element is referred to as being "held" or "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. The terms "length," "width," "inner," "outer," and the like are used for convenience in describing and simplifying the description only, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a number" is two or more, unless explicitly defined otherwise.

Example 1

The invention provides a self-service dispensing system of a sterile package, which comprises the following components: the server 100 comprises a first database for storing medical personnel identification data generated based on a first detection module, wherein the database is divided into a plurality of groups according to working states and departments; an automatic sterile package delivery device 200 connected to the server 100, wherein the automatic sterile package delivery device 200 comprises: the first detection module is used for acquiring first detection information related to the identity recognition of medical staff; an information transmission module via which the sterile packet automatic delivery device 200 is connected to the server 100; a terminal actuated to generate a corresponding sterile package dispensing command; the data control module is electrically connected with the first detection module and the information transmission module, and is used for receiving the first detection information related to the identity identification of the medical staff and transmitting the first detection information related to the identity identification of the medical staff to the server 100 through the information transmission module; the control unit is electrically connected with the terminal and the information transmission module, receives the distribution instruction and commands the automatic sterile packet delivery device 200 to conduct a transaction program according to the distribution instruction; the control unit transmits the distribution instruction to the server 100 through the information transmission module, and the server 100 reads the information of the medical staff through the first detection module to identify the working state and/or department of the medical staff, and correspondingly records the distribution instruction in one of a plurality of groups in the database according to the working state and/or department of the medical staff.

Specifically, the healthcare worker transmits personal information data to the server 100 through the scanning of the first detection module and the transmission of the data control module based on the personal information storage device that it authenticated in the medical system. Server 100 compares the received information based on healthcare worker information stored in the first database. When the information matches, the first detection module can scan the image of the healthcare worker and the server 100 confirms that the healthcare worker matches the personal information entered by the healthcare worker. The server 100 groups medical staff based on the first database to confirm that the medical staff is currently in the state of XX operation/XX department sitting/XX department tour/emergency, generates information of a sterile package type related to the first requirement based on the first requirement of the medical staff transmitted to the server 100 by the input module, and transmits the information to the imaging module for display. Meanwhile, based on the first demand, the server 100 generates a delivery instruction, and the sterile package automatic delivery device 200 distributes the corresponding sterile package to the medical staff based on the delivery instruction.

According to a preferred embodiment, the server 100 further comprises at least one push message related to the working status of the medical staff and/or the type of sterile pack required by the department;

the pushing information corresponds to each group of the database, the server 100 reads the input information of the medical staff through the first detection module, identifies the working state and/or department of the medical staff, and correspondingly transmits the pushing information of the sterile package type according with the working state and/or department of the medical staff to the data control module of the sterile package automatic delivery device 200, and the data control module receives the pushing information through the information transmission module and correspondingly displays the pushing information through the imaging module. Preferably, the classification mode of each group can include two factors, namely a department and a working state.

According to a preferred embodiment, the server 100 is provided with at least three databases. The first database is used for storing personal information of medical staff and data of corresponding sterile package type requirements. The second database is a temporary database and is used for recording data of all processes of the sterile package in the borrowing state. The third data is a history database for storing all borrowing flow data of the completed sterile package.

According to a preferred embodiment, the first detection module includes a data chip identification unit, where, based on the data chip identification information provided by the first detection module, the server 100 can retrieve the information of the medical staff in the database for comparison, and when the two information are in accordance, the information of the sterile package is displayed on the imaging module for the next operation selected by the medical staff.

According to a preferred embodiment, the first detection module further comprises an image acquisition unit, and based on the coincidence of the data chip identification information, the image information and the database information, the server 100 performs a next operation of displaying the sterile package information on the imaging module for selection by the medical staff. Preferably, the acquisition sequence of the image information and the data chip identification information is not sequential. The timing of collecting the image information includes, but is not limited to, a continuous collection mode for a long time, or a dynamic collection mode when detecting that a medical staff approaches to the dispensing system for a certain distance, or image information collection is performed when the medical staff actuates the input module to select, etc., and the person in the art can change by himself according to the requirement and is not described herein. The image acquisition procedure can adopt different identification technologies or algorithm logic, but is not limited to the above. Meanwhile, the image acquisition program and the identification comparison table can be matched with data provided by a commodity manufacturer to correspond to correction parameters, so that the identification function of the data control module is more accurate. Based on the setting, the carrier carrying the identification information of the data chip of the medical staff can be prevented from being picked up by other people and then randomly operated in the system.

According to a preferred embodiment, the information transmission module may be integrated in the control unit, that is, the first detection module and the control unit have network transmission functions, but not limited thereto.

According to a preferred embodiment, the system further comprises a token module for providing a password for the current delivery of information, and the server 100 further comprises an encryption program, the token module being connected to the server 100, wherein the token module is capable of issuing a credential information representative of the current sterile package when the sterile package is delivered by the automated sterile package delivery device 200, and being recognized by the server 100 until the sterile package is returned.

According to a preferred embodiment, when the aseptic package is returned to the system by the aseptic package automatic delivery device 200, the server 100 can retrieve the borrowing information of the aseptic package from the temporary database and destroy the corresponding borrowing instruction thereof based on the credential information received by the aseptic package and transmitted by the terminal. Preferably, the third database can be a replaceable storage unit. The second database can be a memory location for a transient memory. Because the second database needs to complete recording in time when the medical staff operates, the data recording speed of the instantaneous memory storage unit can reduce the recording time and the operation time of the system. The self-service sterile packet dispensing system of the embodiment distributes the identification function of the image information to the data control module of the automatic sterile packet delivery device 200 for processing, and distributes the operation of the identification technology to the automatic sterile packet delivery device 200 to match with the environment with low network transmission speed. Meanwhile, since the operations of the identification function are concentrated on the automatic sterile packet delivery device 200, the server 100 is only used for storing transaction records and statistics, so that the system operation time and the data transmission time are saved, and the response speed of the automatic sterile packet delivery device 200 is improved.

According to a preferred embodiment, the automatic sterile package delivery device 200 further comprises an imaging module electrically connected to the data control module, wherein the imaging module is capable of providing information about the type of sterile package and the type and amount of consumable materials in various types of sterile packages to medical staff. Preferably, the imaging module and the input module are provided as one piece, i.e. the imaging module can contain the functionality of a touch screen input.

According to a preferred embodiment, the information transmission module can be a module with a wireless networking function, and the marking module is connected to the network transmission module through a wireless network interface provided by the information transmission module by a wireless network protocol. Preferably, the sign module and the server 100 can be separately located at different positions of the system, in particular, the server 100 can be located at a relatively remote place (such as a machine room), so as to reduce the space of various devices in the area for the medical staff to operate, or increase the space for accommodating the number of sterile packages.

According to a preferred embodiment, the server 100 comprises a history database, wherein the server 100 is capable of copying all information generated in the borrowing procedure of the healthcare worker into the history database while destroying the borrowing information. By long data storage, the third database can clearly provide its flow path when a sudden unexpected need to find the sterile packet flow path. Preferably, the third database is capable of data categorization based on the initial lender.

The invention provides a self-service dispensing method of a sterile package, which comprises the following steps:

based on the first detection module, the server 100 obtains at least one piece of identification information of the medical staff and compares the identification information with corresponding information in the history database; when the information is matched, the server 100 can display the type of the sterile package on the imaging module, wherein the server 100 can read the medical staff information based on the first detection module to identify the working state and/or department of the medical staff, and correspondingly record the distribution instruction in one of several groups in the database according to the working state and/or department of the medical staff.

Example 2

Medical staff is in the working state of the urological patrol house.

When a healthcare worker encounters a sudden patient requiring urinary care, the healthcare worker requires at least a sterile pack of ordinary conventional care sets and a sterile pack of catheters.

The personal hand-held terminal or personal employee's card of the medical staff is scanned at the input module. The first detection module scans the face of the medical staff simultaneously. The data control module processes the image data and transmits the two pieces of information to the server 100 through the information transmission module. The server 100 performs a three-way check based on the information in the first database.

When the information matches, the server 100 groups the medical staff members to the urology department based on the first database, and confirms that the medical staff members are currently in the patrol state.

The healthcare worker inputs his need for a sterile pack of a plain type conventional care set based on the input module. The control unit generates a sterile package allocation instruction based on the first demand and sends this information to the server 100. The server 100 generates information of the sterile package type associated with the first requirement. The information includes a sterile pack for care requiring a catheter, a C-type (dedicated) sterile pack for dedicated care for bladder irrigation, urinary stones, etc. The server 100 transmits this information to the imaging module for display. After the medical staff gets all the sterile bags, each sterile bag correspondingly generates a temporary verification code, and the information is displayed on the medical staff terminal.

After the medical staff uses one sterile bag, other medical staff can return the sterile bag to the system by means of the personal handheld terminal or the personal employee's card or the temporary verification code.

Example 3

The self-service dispensing system for sterile packages also includes a container capable of providing a sterile storage environment for the sterile packages. The container is capable of moisturizing the sterile package when stored for more than 2 hours and expiration after expiration of the sterile package.

Expiration refers to the exclusion of the sterile package to a list that can be distributed to healthcare workers and the notification of the relevant healthcare workers responsible for the system to perform the update of the sterile package.

It should be noted that the above-described embodiments are exemplary, and that a person skilled in the art, in light of the present disclosure, may devise various solutions that fall within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present description and drawings are illustrative and not limiting to the claims. The scope of the invention is defined by the claims and their equivalents. The description of the invention encompasses multiple inventive concepts, such as "preferably," "according to a preferred embodiment," or "optionally," all means that the corresponding paragraph discloses a separate concept, and that the applicant reserves the right to filed a divisional application according to each inventive concept. Throughout this document, the word "preferably" is used in a generic sense to mean only one alternative, and not to be construed as necessarily required, so that the applicant reserves the right to forego or delete the relevant preferred feature at any time.

Claims (10)

1. A self-service dispensing system for sterile packs, comprising:

the server (100) comprises a first database for storing medical personnel identification data generated based on a first detection module, wherein the database is divided into a plurality of groups according to working states and departments;

an automatic sterile package delivery device (200) connected to the server (100), wherein the automatic sterile package delivery device (200) comprises:

the first detection module is used for acquiring first detection information related to the identity recognition of medical staff;

an information transmission module via which the sterile packet automatic delivery device (200) is connected to the server (100);

a terminal actuated to generate a corresponding sterile package dispensing command;

the data control module is electrically connected with the first detection module and the information transmission module, receives the first detection information related to the identity identification of the medical staff, and transmits the first detection information related to the identity identification of the medical staff to the server (100) through the information transmission module; and

the control unit is electrically connected with the terminal and the information transmission module, receives the distribution instruction and commands the automatic sterile packet delivery device (200) to conduct a transaction program according to the distribution instruction;

the control unit transmits the delivery instruction to the server (100) through the information transmission module, the server (100) reads the information of the medical staff through the first detection module to identify the working state and/or department of the medical staff, and the delivery instruction is correspondingly recorded in one of a plurality of groups in the database according to the working state and/or department of the medical staff.

2. The system according to claim 1, wherein the server (100) further comprises at least one push information related to the working status of the medical staff and/or the type of sterile pack required by the department;

the server (100) reads the input information of the medical staff through the first detection module, distinguishes the working state and/or department of the medical staff, correspondingly transmits the push information of the sterile package type which accords with the working state and/or department of the medical staff to the data control module of the sterile package automatic delivery device (200), and the data control module receives the push information through the information transmission module and correspondingly displays the push information through the imaging module.

3. The system according to claim 1 or 2, wherein the first detection module comprises a data chip identification unit, wherein the server (100) is capable of retrieving medical staff information in the database for comparison based on the data chip identification information provided by the first detection module, and displaying sterile package information on the imaging module for a next operation selected by the medical staff when the two information are in agreement.

4. A system according to any one of claims 1 to 3, wherein the first detection module further comprises an image capturing unit, and the server (100) performs a next operation of displaying the sterile package information on the imaging module for selection by the healthcare worker based on agreement of the data chip identification information, the image information and the database information.

5. The system according to any one of claims 1 to 4, further comprising a token module for providing a password for the present delivery of information, said server (100) further comprising an encryption program, the token module being connected to said server (100), wherein said token module is capable of issuing a credential information representative of the present sterile package when the sterile package is delivered by the automatic sterile package delivery device (200) and being identifiable by said server (100) until said sterile package is returned.

6. The system according to any one of claims 1 to 5, wherein when the sterile package is returned to the system by the automatic sterile package delivery device (200), the server (100) is able to retrieve the borrowing information of the sterile package from the temporary database and destroy its corresponding borrowing instruction based on the credential information retrieved by the sterile package transmitted by the terminal.

7. The system of any of claims 1-6, wherein the automated sterile package delivery device (200) further comprises an imaging module electrically connected to the data control module, wherein the imaging module is capable of providing information to the healthcare worker regarding the type of sterile package and the type and amount of consumable materials within each type of sterile package.

8. The system according to any one of claims 1 to 7, wherein the information transmission module is capable of being a module having a wireless networking function, and the flag module is connected to the network transmission module through a wireless network interface provided by the information transmission module by a wireless network protocol.

9. The system according to any one of claims 1-8, wherein the server (100) comprises a history database, wherein the server (100) is capable of copying all information generated in the borrowing procedure of the healthcare worker into the history database while destroying the borrowing information.

10. A self-service dispensing method of sterile bags is characterized in that,

based on the first detection module, the server (100) acquires at least one piece of identification information of the medical staff and compares the identification information with corresponding information in the history database;

when the information is in conformity, the server (100) is capable of displaying the type of sterile package on the imaging module, wherein,

the server (100) can read medical staff information based on the first detection module to identify the working state and/or department of the medical staff, and correspondingly record the distribution instruction in one of a plurality of groups in the database according to the working state and/or department of the medical staff.