CN116763070A - Medical storage system - Google Patents

Abstract

The application relates to a medical storage system. The medical storage system comprises: the system comprises a controller, at least one storage cabinet and a human-computer interaction area; each storage cabinet comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet is switched to be in a forbidden open state; the controller is used for controlling the opening of the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door. When the locker in the medical storage system is used for storing articles, the controller can control the outdoor cabinet door of the locker to be forbidden to be opened, and when the outdoor family members of patients take out articles, the indoor cabinet door of the locker can be controlled to be forbidden to be opened, and after the outdoor cabinet door is opened, the corresponding indoor cabinet door can be controlled to be always forbidden to be in an opened state, so that an aseptic and airtight environment can be formed indoors in the process of using the locker.

Description

Medical storage system

Technical Field

The application relates to the technical field of medical treatment, in particular to a medical storage system.

Background

An aseptic storage table is arranged in the operating room for various medical works in the operating room.

In general, in the operation process of a patient, medical staff in an operating room can store articles of the patient on a temporary sterile storage table, for example, medical records, image data of patient conditions, medicines of the patient, slippers, clothes of the patient and the like, and after the operation is finished, the family members of the patient take the articles of the patient away.

However, due to the medical history, the image data for recording the condition of the patient, the medicines and the clothes, it is very important for the patient that if the articles are simply placed on the aseptic storage table at will, the articles of the patient are easy to lose.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a medical storage system.

A medical storage system, the medical storage system comprising:

the medical storage system comprises: the system comprises a controller, at least one storage cabinet and a human-computer interaction area; each storage cabinet comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet is switched to be in a forbidden open state;

the controller is used for controlling the opening of the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door; the opening instruction is triggered by a user through a man-machine interaction area.

In one embodiment, the human-computer interaction area comprises an indoor interaction area and an outdoor interaction area; the opening command of the indoor cabinet door is triggered through the indoor interaction area, and the opening command of the outdoor cabinet door is triggered through the outdoor interaction area.

In one embodiment, the man-machine interaction area is a sensing area, and the opening instruction is generated after the sensing area senses the storage right certificate of the user.

In one embodiment, the user comprises an indoor user; the controller is also used for receiving an opening instruction triggered by an indoor user in the sensing area and detecting an article storage state corresponding to the storage right certificate;

if the article storage state is an article storage state, or the article storage state is an article storage state and the outdoor cabinet door of the locker where the stored article is located is opened, determining a target locker from the locker in the idle state;

if the article storage state is the stored article state and the outdoor cabinet door of the locker where the stored article is located is not opened, determining the locker where the stored article is located as a target locker;

and controlling the indoor cabinet door of the target locker to be opened.

In one embodiment, each locker is provided with a linkage assembly; and the controller is also used for controlling the interlocking component to open the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door.

In one embodiment, the medical storage system further comprises a display, each locker corresponds to at least one display, and the display is used for prompting the articles of the corresponding locker to store information and instruct alarm.

In one embodiment, the display is a display screen, and the display screens are arranged on the outer surface of the indoor cabinet body and the outer surface of the outdoor cabinet body of each storage cabinet.

In one embodiment, a display includes a backlight; if the articles are stored in the locker and the patient to which the articles belong is in an operation state, the backlight screen of the display is in an on state; if the operation of the patient to which the article belongs is finished, the backlight screen of the display is in an on and flickering state.

In one embodiment, at least one storage box is arranged in each storage cabinet, the storage boxes are of a multi-layer structure, and each layer of the storage boxes is used for storing different types of articles.

In one embodiment, the material of the receiving box is a high temperature resistant material.

In one embodiment, the material of the cabinet body and the cabinet inner frame of the locker is sterile.

Above-mentioned medical storing system, this medical storing system includes: the system comprises a controller, at least one storage cabinet and a human-computer interaction area; each storage cabinet comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet is switched to be in a forbidden open state; the controller is used for controlling the opening of the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door. When the locker in the medical storage system is used for storing articles, the controller can control the outdoor cabinet door of the locker to be forbidden to be opened, and when the outdoor family members of patients take out articles, the indoor cabinet door of the locker can be controlled to be forbidden to be opened, and after the outdoor cabinet door is opened, the corresponding indoor cabinet door can be controlled to be always forbidden to be in an opened state, so that an aseptic and airtight environment can be formed indoors in the process of using the locker.

Drawings

FIG. 1 is an overall block diagram of a medical storage system according to one embodiment;

FIG. 2 is a front view of a medical storage system in a room and a front view of the system in a room, according to one embodiment;

FIG. 3 is a front view of an alternate embodiment of a medical storage system in a room and a side view of the room;

FIG. 4 is a top view of a cartridge according to another embodiment;

FIG. 5a is a front view of a cartridge according to one embodiment;

FIG. 5b is a side view of a cartridge in one embodiment;

FIG. 5c is a schematic illustration of a top plan view of the bottom structural surface within the locker in one embodiment;

FIG. 6 is a flow chart of a method of medical storage in one embodiment;

fig. 7 is an internal structural diagram of a controller in one embodiment.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated. In the description of the present application, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the present application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

The medical storage system provided by the embodiment of the application can be in a structure shown in fig. 1, can be an intelligent device for storing articles in a sterile manner, can be suitable for a sterile laboratory and a sterile operating room, and is not limited by the embodiment of the application in a specific application scene.

The structure and the working principle of each part in the medical storage system are described below by taking the application of the medical storage system to an operating room as an example.

Referring to a schematic structural diagram of a medical storage system shown in fig. 1, a medical storage system provided in an embodiment of the present application includes: a controller 11, at least one locker 12 and a human-computer interaction area 13; each storage cabinet 12 comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet 12 cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet 12 is switched to a forbidden open state;

The controller 11 is used for controlling the opening of the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door; the opening command is triggered by the user through the man-machine interaction area 13.

Fig. 1 is a schematic illustration of a medical storage system comprising a controller 11, a locker 12 and a man-machine interaction area 13, wherein the locker 12 is a front profile structure. In fig. 1, the man-machine interaction area is arranged on the outer surface of the storage cabinet 12, and the controller 11 is connected with the storage cabinet 12 in a separated arrangement mode.

The controller 11 in the medical storage system is in communication connection with each locker 12 and the human-computer interaction area 13; the connection mode can be wired connection or wireless connection. The wireless connection mode can be Bluetooth, mobile data, wifi and the like.

Optionally, the stowage bin 12 in the medical storage system is for storing items; other structures in the medical storage system are used to assist in the operation of the stowage bin 12.

Specifically, the controller 11 may be disposed at any position outside the cabinet 12, or may be disposed at any position inside the cabinet 12. For example, the controller 11 may be disposed at any location within the cabinet of the cabinet 12, or the controller 11 may be disposed at any location on the interior wall of the cabinet 12. The controller 11 and the storage cabinet 12 may be connected in a separate manner or may be connected in an integrated manner, which is not limited to this embodiment. In this embodiment, the controller 11 may also be replaced by a central control route, and both functions the same.

Optionally, the number of the lockers 12 in the medical storage system may be one or more, and the lockers 12 may be a single-layer structure or a multi-layer structure. Each layer of the cabinet 12 may have a symmetrical structure or an asymmetrical structure, which is not limited to this embodiment. Each storage cabinet 12 comprises an indoor cabinet door and an outdoor cabinet door, and the indoor cabinet door and the outdoor cabinet door of each storage cabinet 12 can have the same structure or different structures. Alternatively, each locker 12 may be bi-directionally openable.

Wherein, the controller 11 can control the open and close states of the indoor cabinet doors and the outdoor cabinet doors of the plurality of storage cabinets 12; however, at the same time, the controller 11 may control the open/close states of the indoor doors or the outdoor doors of at most one locker 12, that is, the open/close states of the indoor doors or the outdoor doors of a plurality of lockers 12 may not be simultaneously controlled. Alternatively, the open and closed states may include an open state and a closed state. In order to form a sterile environment in the application environment of the storage cabinet 12, when the open/close state of any one of the indoor cabinet door and the outdoor cabinet door is controlled to be the open state, the open/close state of the other cabinet door is controlled to be the closed state, that is, the closed state, for each storage cabinet 12.

In this embodiment, the user may include an indoor user and an outdoor user. Indoor users can be medical staff, and outdoor users can be medical staff or family members of patients. However, to avoid secondary handoffs of items, the outside user is typically the patient's family.

In practical application, when indoor medical staff needs to store articles from indoor, the controller 11 can control the opening and closing state of the indoor cabinet door of one of the storage cabinets 12 to be in an open state, and control the opening and closing state of the corresponding outdoor cabinet door to be in a forbidden open state; when the outdoor family members need to take out articles from the outdoor, the controller 11 can control the open/close state of the outdoor cabinet door corresponding to the locker 12 to be in an open state, and control the open/close state of the indoor cabinet door corresponding to the locker to be in a state of always prohibiting the open. Wherein, only after the locker 12 is cleaned and disinfected comprehensively, when the locker 12 enters the next use state again, the indoor cabinet door can be released from the always forbidden opening state.

It should be noted that the materials of the cabinet body, the indoor cabinet door and the outdoor cabinet door of the cabinet 12 may be the same or different. The cabinet body, the indoor cabinet door and the outdoor cabinet door of the locker 12 may be made of an antibacterial, corrosion-resistant and relatively hard material, such as gallium, silver, titanium alloy, etc. Alternatively, the weight of the stowage bin 12 may be set to be greater than or equal to the weight of the stowage bin 12 not to roll over when storing items of greater weight. The volume of the storage cabinet 12 can be set arbitrarily, and the embodiment is not limited. The locker 12 may store articles such as clothing, documents, images, ornaments, medicines, etc. of the patient in the room.

The cabinet body of the cabinet 12 in the embodiment of the present application is a hollow structure, may be a solid structure, and includes a cuboid, a cylinder, and the like. The color of the cabinet body of the cabinet 12 may be any color, for example, red, black, brown, etc., and the shape and color of the cabinet body of the cabinet 12 are not limited in the embodiments of the present application.

It will be appreciated that the number of man-machine interaction areas 13 in the medical storage system may be one or more, and that the man-machine interaction areas 13 may be located at any location on the outer surface of the locker 12. When the man-machine interaction area 13 is one, the man-machine interaction area 13 can be a double-sided man-machine interaction area, and indoor medical staff and outdoor family members of patients can trigger an opening instruction of an indoor cabinet door or an outdoor cabinet door of the storage cabinet 12 through the same man-machine interaction area 13. The shape of the human-computer interaction area 13 may be square, rectangular, circular, oval, etc.

In practical applications, when the man-machine interaction area 12 in the medical storage system is one, the man-machine interaction area 12 may be embedded in a wall body disposed beside the corresponding locker 12.

The man-machine interaction area 13 may be an information acquisition area, such as a scanning area or an information input area. In a practical structure, the human-computer interaction area 13 may be provided with a sensor and/or an information collector and other information receiving modules corresponding to the corresponding positions in the cabinet body of the cabinet 12, where the information receiving modules are used for triggering an opening instruction of an indoor cabinet door or an outdoor cabinet door of the cabinet 12 by medical staff and family members of patients. The information receiving module such as a sensor and/or an information collector in the medical storage system can be in communication connection with the controller 11; the connection mode can be wired connection or wireless connection. Alternatively, the information receiving module and the controller 11 may be integrally provided.

Alternatively, the sensor may be a touch sensor, an electrical sensor, a magnetic sensor, an optoelectronic sensor, and/or a charge sensor, among others. For example, where the sensor is a touch screen, the touch screen may collect information entered by the healthcare worker and the patient's family members on the touch screen. When the sensor is a photoelectric sensor, an optical signal input window can be arranged at the corresponding position of the sensor; the photoelectric sensor can collect optical signals input by medical staff and family members of patients in the optical signal input window.

Alternatively, the information collector may be a camera or a recording device, etc. Alternatively, the camera may collect photographs, cards, pieces of information, etc. of medical staff and family members of the patient placed around the human-computer interaction area 13, and send the collected information to the controller 11. The recording device can collect voice information input by medical staff and family members of patients and send the collected voice information to the controller 11.

In this embodiment, the information collected by the sensor and/or the information collector includes the locker identification information of the target locker 12 to be opened and the cabinet door identification information of the corresponding target cabinet door. The sensor and/or the information collector only collect corresponding information, so that the medical staff can input an opening instruction of the indoor cabinet door of the locker 12 or the family members of the patient can input an opening instruction of the outdoor cabinet door of the locker 12.

It should be noted that, if the man-machine interaction area 13 is a scanning area, the corresponding information receiving module may be a scanning device. Alternatively, the scanning device may be a bar code scanning device, a two-dimensional code scanning device, or the like. Under the condition, indoor medical staff or outdoor family members of patients can place the storage right certificate in a scanning area, and the scanning device can acquire locker identification information of the locker 12 to be opened and locker door identification information of the corresponding locker door, which correspond to the storage right certificate. Correspondingly, the storage right certificate can be a bar code or a two-dimensional code and the like.

Typically, the patient needs to be transferred from the operating room to the ward after the operation is completed, and in order for the patient's family to conveniently and quickly remove the patient's items and to maintain as sterile a closed environment as possible within the operating room, the patient's family may directly remove the patient's items from the operating room outside the locker 12. Based on this, the description will be given with respect to an example in which two human-computer interaction areas 13 are included in the medical storage system. In one embodiment, the man-machine interaction area 13 in the medical storage system comprises an indoor interaction area and an outdoor interaction area; the opening command of the indoor cabinet door is triggered through the indoor interaction area, and the opening command of the outdoor cabinet door is triggered through the outdoor interaction area.

Optionally, the man-machine interaction area 13 includes an indoor interaction area and an outdoor interaction area. The indoor interaction area can be arranged at any position on the outer surface of the indoor cabinet door; the outdoor interaction area may be disposed at any position of the outer surface of the outdoor interaction area.

The shapes and sizes of the indoor interaction area and the outdoor interaction area may be the same or different, which is not limited in this embodiment. Meanwhile, the information receiving modules correspondingly arranged in the indoor interaction area and the outdoor interaction area can be the same or different.

Further, the controller 11 may control to open the corresponding indoor cabinet door or the corresponding outdoor cabinet door corresponding to the locker 12 according to the locker identification information of the locker 12 to be opened and the cabinet door identification information of the corresponding cabinet door acquired by the sensor and/or the information collector.

In addition, in some scenarios, in order to conveniently and quickly open the cabinet door of the locker 12, the human-computer interaction area 13 in the medical storage system is a sensing area, and the opening instruction is generated after the sensing area senses the storage right credential of the user.

In this case, the information receiving module provided at the corresponding position of the sensing area may be a magnetic card reader. Indoor medical staff and outdoor patient family members can place the storage right voucher in the induction area, and the magnetic card reader can acquire locker identification information of the locker 12 to be opened and locker door identification information of the corresponding locker door corresponding to the storage right voucher.

Optionally, the storage right certificate may be a right certificate such as a contactless IC card or a radio frequency card. Before storing the article, the personal information of the patient to which the article to be stored belongs can be input into the article storage right certificate through the user terminal. In the process of storing the articles, the information of the articles to be stored can be input into the storage right certificate through the user terminal.

In this embodiment, if the information receiving module is a barcode scanning device, the corresponding sensing area may be referred to as a barcode reading area; if the information receiving module is a magnetic card reader, the corresponding sensing area may be referred to as a card swiping area.

In addition, after the patient family members take out the stored articles from the locker 12 outdoors, the information of the stored articles entered in the storage right voucher can be cleared through the user terminal. The user terminal can be a terminal device such as a mobile phone, a personal computer, a tablet computer and the like. Wherein, the storage right voucher and the patient are in one-to-one correspondence.

In practical application, in order to form a sterile closed environment in a room, a corresponding interlocking component needs to be arranged for the storage cabinet 12 to control the opening and closing states of the indoor cabinet door and the outdoor cabinet door, so that the situation that the indoor cabinet door and the outdoor cabinet door can be opened at will is avoided. One and two interlocking assemblies are provided in each locker 12 as will be described. In one embodiment, each locker 12 is provided with a linkage assembly; the controller 11 is further configured to control the interlocking component to open the corresponding cabinet door according to an opening instruction of the indoor cabinet door or the outdoor cabinet door.

Alternatively, the number of interlocking components in each locker 12 may be one or two. If a linkage assembly is provided in each storage cabinet 12, the linkage assembly can simultaneously control the open and closed states of the indoor cabinet door and the outdoor cabinet door in the storage cabinet 12. If two interlocking components are arranged in each storage cabinet 12, one interlocking component is connected with the indoor cabinet door, the other interlocking component is connected with the outdoor cabinet door, and each interlocking component can respectively control the opening and closing states of the indoor cabinet door or the outdoor cabinet door which are correspondingly connected. Alternatively, the interlocking components may be electrically controlled locks, padlocks, electronic locks, mortice door locks, combination locks, and the like. In this embodiment, the interlocking component may be an electric magnetic control lock.

Wherein, after medical staff stores articles in the locker 12, the indoor cabinet door can be manually closed; after the patient's family removes the items from the locker 12, the outdoor cabinet door can be manually closed.

In this embodiment, the medical storage system includes a controller, at least one locker, and a human-machine interaction area; each storage cabinet comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet is switched to be in a forbidden open state; when the article is stored in the locker in the medical storage system, the controller can control the outdoor cabinet door of the locker to be forbidden to be opened, and when the outdoor family members of patients take out the article, the indoor cabinet door of the locker can be controlled to be forbidden to be opened, and after the outdoor cabinet door is opened, the corresponding indoor cabinet door can be controlled to be always forbidden to be opened, so that an aseptic and airtight environment can be formed indoors in the process of using the locker, the cleanliness of the indoor environment can be kept, and the aseptic use effect can be achieved; meanwhile, the storage cabinet can store articles of patients in the room; in addition, the locker can also fixedly store articles of patients, so that the condition that articles are lost after operation caused by random placement of the articles in the operation process is prevented, and serious loss to the patients is reduced.

In the course of patient surgery, in order to create a sterile, closed environment within the room and to avoid loss of items such as clothing, accessories, files, etc. of the patient, it is necessary to store these items within the operating room.

Thus, in one embodiment, the user comprises an indoor user; the controller 11 is further configured to receive an opening instruction triggered by the indoor user in the sensing area, and detect an article storage state corresponding to the storage right credential;

if the article storage state is an article storage state, or if the article storage state is an article storage state and the outdoor cabinet door of the locker 12 where the stored article is located is opened, determining the target locker 12 from the lockers 12 in the idle state; if the article storage state is the stored article state and the outdoor cabinet door of the locker 12 where the stored article is located is not opened, determining that the locker 12 where the stored article is located is the target locker 12; the indoor cabinet door of the target locker 12 is controlled to be opened.

Specifically, each time after the locker 12 stores an article, the controller 11 may store information of the stored article, locker identification information of the locker 12 corresponding to the stored article, cabinet door identification information corresponding to the cabinet door, and the like, and personal information of a patient to whom the stored article belongs.

In this embodiment, the locker identification information and the cabinet door identification information may be represented by numerals, letters and/or special symbols, which are not limited thereto.

The indoor medical staff can place the storage right certificate in the sensing area of the locker 12, and the information receiving module corresponding to the sensing area can collect personal information of the patient to which the articles to be stored which are recorded in the storage right certificate belong and send the information to the controller 11.

In practice, all of the patient's items may need to be stored multiple times in the same or different lockers 12. Each time of storage needs to open an indoor cabinet door of one of the storage cabinets 12 through the storage right certificates, specifically, the controller 11 can compare personal information acquired in real time according to the information receiving module with the pre-stored personal information, and determine the storage state of the article corresponding to the current storage right certificate according to the comparison result. Further, the controller 11 may control the opening of the indoor cabinet door of one of the lockers 12 according to the article storage status.

It should be noted that, if the comparison result is the same, the controller 11 may determine that the article storage state corresponding to the storage right credential is the stored article state; otherwise, it may be determined that the item storage state corresponding to the storage right voucher is an item non-storage state.

Optionally, the item storage status corresponding to the storage rights credential may characterize whether other items of the patient corresponding to the storage rights credential have been stored within the locker 12. The stored item status may be understood as other items of the patient for which the storage right voucher has been stored in one or more lockers 12. The non-stored item status may be understood as items of the patient corresponding to the storage right voucher are not stored in any of the lockers 12.

It will be appreciated that if the controller 11 determines that the article storage status is not the article storage status, any one of the lockers 12 may be selected as the target locker from all the lockers 12, and the target locker is controlled to be opened so as to store the articles of the patient.

Alternatively, if the controller 11 determines that the article storage status is a stored article status and the outdoor cabinet door of the locker 12 where the stored article is located is opened, the target locker may be determined from the lockers 12 in the idle state. In this case, it is indicated that the indoor door of the locker 12 cannot be opened indoors to maintain an indoor sterile environment as long as the articles of the patient are stored in the locker 12 and the outdoor door of the corresponding locker 12 is opened.

Optionally, if the controller 11 determines that the article storage status is a stored article status, and the outdoor cabinet door of the locker 12 where the stored article is located is not opened, it determines that the locker 12 where the stored article is located is the target locker, and may control the opening of the indoor cabinet door of the target locker. In this case, it indicates that the articles of the patient are stored in the locker 12, and the outdoor cabinet door of the corresponding locker 12 is not opened, at this time, the operating room is a sterile environment, and the outdoor air or bacteria does not enter the locker 12, so that the locker 12 where the stored articles are located can be opened when the other articles of the patient are stored again.

In addition, hospitals to which the operating rooms belong all have corresponding information management systems. The information management system may output information such as the status of the operation and/or the progress of the operation, information on the stored items in the locker 12, personal information on the patient to whom the stored items belong, and profile information on the patient.

Optionally, the information management system may be communicatively coupled to the controller 11 in the medical storage system. The controller 11 can send all acquired information to the information management system for storage and output; the information management system may also send updated information to the controller 11 to allow the controller 11 to control the operational status of other structures in the medical storage system.

In this embodiment, when the locker in the medical storage system is used for storing articles each time, the controller can detect the article storage state corresponding to the storage right certificate, and further determine the target locker according to the article storage state, the locker of the articles of the same patient, the opened state of the outdoor cabinet door of the locker and the idle state of the locker, so as to store the articles of the patient again, thereby avoiding the outdoor air or bacteria from entering the indoor environment and always keeping the indoor sterile environment.

In some scenes, after the operation of the patient is finished, in order to prompt family members of the patient to take away articles of the patient in time, the condition of forgetting is avoided. Thus, in one embodiment, the medical storage system further comprises a display, at least one display for each locker 12, the display for prompting storage of information and indication alarms for the articles corresponding to the locker 12.

Specifically, the display and the controller 11 may be communicatively connected; the connection mode can be wired connection or wireless connection.

Wherein the shape, color and size of the display can be arbitrarily set. Alternatively, the display may be a voice player, a video player, and/or an indicator light, among others.

Alternatively, the display on each locker 12 may be one or more. However, each locker 12 has a corresponding outdoor display; the indoor display may or may not be provided. The outdoor display is arranged outdoors, and the indoor display is arranged indoors. The setting position of the display can be set arbitrarily, so long as the indoor medical staff and the outdoor family members can see and hear the display.

It should be noted that, the information output by each display may be used to prompt the storage information of the articles corresponding to the locker 12, and may also be used as an indication alarm. The item storage information may include locker identification information of the locker 12 in which the item is stored and information of all the stored items. The information of the articles can be attribute information such as names, quantity, color, appearance, size and the like of the articles.

In order to enable indoor medical staff and indoor family members of patients to acquire information of stored articles, and enable outdoor family members of patients to acquire indication alarms timely and intuitively after operation is finished, based on the information, corresponding displays can be installed indoors and outdoors. In one embodiment, the display is a display screen, and the display screen is disposed on the outer surface of the indoor cabinet and the outer surface of the outdoor cabinet of each storage cabinet 12.

Alternatively, the display is a display screen, which may be a cathode ray tube display screen, a liquid crystal display screen, a flat panel display screen, or the like. The progress of patient's operation can also be shown on the display screen to conveniently let indoor medical personnel and indoor patient family members know patient's operation progress in real time.

In this embodiment, each locker 12 includes two displays, one of which may be disposed at any location on the exterior surface of the indoor cabinet of the locker 12 and the other of which may be disposed at any location on the exterior surface of the outdoor cabinet of the locker 12.

The two displays on each locker 12 may be the same type, color, or size, or may be different.

Further, in order to save power consumption and improve brightness of the output prompting alarm information, so that the family members of the patient can observe the operation progress of the patient outdoors obviously, quickly and intuitively, and after the operation is finished, the articles of the family members of the patient are taken out of the storage cabinet 12 according to the prompting alarm, so that the condition that the articles of the patient are forgotten is avoided, and therefore, in one embodiment, the display comprises a backlight screen; if the articles are stored in the locker 12 and the patient to which the articles belong is in an operation state, the backlight screen of the display is in an on state; if the operation of the patient to which the article belongs is finished, the backlight screen of the display is in an on and flickering state.

It will be appreciated that the display may comprise a backlit display screen, i.e. a backlight screen. Optionally, information on the status of the procedure and/or the progress of the procedure may be displayed on the backlight. Optionally, the information of the operation state may be information related to the operation in operation or the operation end; the information of the progress of the operation may be represented by data or by a progress bar.

In practical application, if the controller 11 determines that the articles are stored in the storage cabinet 12 and the patient to which the articles belong is in an operation state, the backlight screen of the display can be controlled to be in an on state, namely, a normally-on and non-blinking state; if the controller 11 determines that the operation of the patient to which the article belongs is finished, the backlight screen of the display can be controlled to be in an on and blinking state, namely a normally-on and blinking state. After the patient's family members remove the patient's items from the locker 12 from the operating room, the controller 11 may control the backlight of the display to be in a turned-off state, i.e., a normally-dark state. The backlight of the display is not adjusted from a normally dark state to a normally bright non-blinking state until the next procedure is in progress.

Each locker in the medical storing system is provided with a corresponding display, and the controller can control the display to output display states and display information so as to enable family members of patients to intuitively and rapidly acquire operation conditions of the patients, and after the operation is finished, articles of the patients can be taken out of the locker in time, so that the problem that the patients forget to take the articles of the patients after the operation is avoided, and unnecessary losses to the patients are reduced.

Further, after the operation of each patient is finished, the locker 12 needs to be cleaned and sterilized comprehensively for the next operation, based on which, in order to clean and sterilize the inside of the locker 12 conveniently, a detachable structure can be arranged in the locker 12 to store articles. In one embodiment, at least one storage box is provided in each storage cabinet 12, the storage boxes are of a multi-layer structure, and each layer of the storage boxes is used for storing different types of articles.

In particular, a storage box may be provided in each locker 12. The number of receptacles in each locker 12 may be one or more. The storage case may have a single-layer structure. However, in order to sort and store the articles to be stored of the patient, the case that the articles are damaged when all the articles to be stored are mixed and stored is avoided, and the storage box in the embodiment may be provided with a multi-layer structure, and each layer structure is used for storing different types of articles.

In practical applications, the storage box may have a two-layer structure, i.e., an upper layer and a lower layer. One layer can store articles such as medical records, image data, medicines and the like of patients, and the other layer can store clothes of the patients.

Fig. 2 is a front view and a side view of the medical storage system schematically shown by taking a four-layer structure of the storage box, a card swiping area and a bar code reading area as examples. In fig. 2, the display screen, the controller 11 and the sensing area are all arranged above the storage cabinet 12, and the patient information label pasted by the medical staff is shown above the outer surface of the indoor cabinet body or the outdoor cabinet body of the storage cabinet 12. Optionally, the patient information tag includes information such as the patient number, the department of the department where the patient is located, the ward area of the patient, the time of admission, the time of day, and the like.

A-a and D-D in fig. 2 show a front view of the medical storage system in a room and a front view of the medical storage system in a room, respectively; viewed from different directions, the two front structures are symmetrical; C-C represents a side structural view of the medical storage system. B-B is the bottom surface of the medical storage system, and the corresponding bottom surface structure diagram is not shown in FIG. 2.

Taking an A-A surface of a medical storage system as an example, two sides of the A-A surface are respectively provided with a C-C surface, in fig. 2, an arrow A and an arrow D indicate that two sides of the C-C surface are respectively connected with the A-A surface and the D-D surface, an arrow C indicates that the A-A surface is connected with the C-C surface, and an arrow B indicates that a B-B surface is connected below the C-C surface, the A-A surface and the D-D surface.

Fig. 3 shows a front view and an outdoor side view of another medical storage system room in which the storage box has a three-layer structure. As can be seen from fig. 3 and 2, in the two medical storage systems, besides the number of layers and the structure of the storage boxes, the setting positions of the indoor display screen, the outdoor display screen, the patient information tag, the controller 11 and the sensing area are also different.

The shape of the storage box can be cube, cuboid, cylinder and other three-dimensional structures. The size of the storage box can be set arbitrarily, so long as the storage box can be nested in the storage cabinet 12. The color of the storage box can be transparent, white, red or blue, and can also be other colors, and the embodiment is not limited. Alternatively, the housing can be made of plastic. Fig. 4 is a top view of a plastic storage case. The storage case in the present embodiment is not limited to the structure in fig. 4.

Alternatively, the internal structure of the cabinet 12 may be detachably connected to the external structure of the storage box. The detachable connection mode can be screw connection, snap connection, hinge connection and the like. Alternatively, the storage box may be placed directly in the cabinet 12 without any connection.

However, in order to make the receiver fixed not by the round trip movement at medical personnel's storage article in-process, make things convenient for medical personnel's operation, the bottom of receiver in this embodiment can set up the recess, and can set up the tongue on the bottom structural surface in the locker 12 that is to be connected with the bottom of receiver. The groove at the bottom of the storage box can be connected with the convex groove in the storage cabinet 12 in a matching way so as to fix the storage box without being moved.

In this embodiment, the material of the storage box is a high temperature resistant material, which is repeatedly used for cleaning and sterilizing in a high temperature environment. Meanwhile, in order to make the locker 12 be applied in a sterile closed environment, the materials of the locker body and the locker inner frame of the locker 12 are sterile materials.

For convenient and quick cleaning and disinfection to the receiver, can set up two-way handle on the receiver, outwards handle and interior handle promptly. The outward handle is used for medical staff to use when storing articles to the receiver, and the inward handle is used for medical staff to use when taking out articles from the receiver.

Alternatively, the bidirectional handle may be a pull handle. The bidirectional handles may be brass handles, stainless steel handles, ceramic handles, wood handles, or the like, by material classification.

Wherein, in order to save the cost, the two-way handle on the receiver can set up to the groove structure. Fig. 5a is a front view of the plastic storage box of fig. 4 (including a handle with a groove structure), fig. 5b is a side view of the plastic storage box of fig. 4, and fig. 5c is a top view of the bottom structure of the storage cabinet 12 (including a groove matching the plastic storage box of fig. 4). In the present embodiment, only one of the arrangement structures is shown in the drawings, and the specific arrangement is not limited to the arrangement structure in the drawings.

Optionally, when there are multiple lockers 12 in the medical storage system, the size and structure of the storage boxes in each locker 12 may be the same, so as to be used alternatively.

The material of the storage case may be a high temperature resistant material. The high temperature resistant material may be polyetheretherketone, polytetrafluoroethylene, polybutylene adipamide, polyhexamethylene terephthalamide, and/or liquid crystalline polymers, among others.

In practical arrangements, to achieve a sterile effect during use of the cabinet 12, the cabinet body and the cabinet inner frame of the cabinet 12 may be of a sterile material, which may be stainless steel.

Generally, the internal layout of the operating room is compact, so that the space is saved, the walking path of medical staff is not blocked, the use of other equipment is not affected, the aesthetic property of nesting the storage cabinet 12 with the wall is reflected, and the storage cabinet 12 can be embedded and installed in the operating room wall. In order to completely encapsulate the wall body and ensure the tightness of the operating room, the thickness of the outer box body of the locker 12 can be equal to the thickness of the wall body of the operating room when the structural size is designed; the height of the outer box of the locker 12 can be less than or equal to the height of the wall of the operating room. Wherein, the outer box body of the storage cabinet 12 comprises a cabinet body and an inner cabinet frame of the storage cabinet 12.

Optionally, the edge size of the outer casing of the locker 12 may be adjusted accordingly to match the size of the opening in the wall of the operating room.

Storage boxes can be arranged in each storage cabinet 12 in the medical storage system, and different types of articles of patients can be stored in a classified mode through the storage boxes, so that the situation that articles are damaged when all articles to be stored are stored in a mixed mode is avoided, and unnecessary losses to the patients are reduced.

Based on the above embodiments, in order to facilitate understanding of those skilled in the art, the present embodiment describes the working principle of the medical storage system in terms of overall flow, and specifically includes:

When a patient in an operating room has a requirement for storing articles, medical staff places the storage right certificate in the sensing area and can trigger an opening instruction; further, the steps in the medical storage method shown in fig. 6 are performed by the medical storage system, such as:

s1, a controller receives an opening instruction, acquires information in a storage right certificate through an information receiving module and sends the acquired information to the controller;

s2, the controller analyzes the information sent by the information receiving module and determines the article storage state corresponding to the storage right certificate;

s3, if the controller determines that the article storage state is an article storage state, or determines that the article storage state is an article storage state and an outdoor cabinet door of a locker where the stored article is located is opened, determining a target locker from the lockers in the idle state;

s4, if the controller determines that the article storage state is the stored article state and the outdoor cabinet door of the locker where the stored article is located is not opened, determining that the locker where the stored article is located is a target locker;

s5, the controller controls the interlocking components of the indoor cabinet doors of the target storage cabinet to be opened so as to open the corresponding indoor cabinet doors;

S6, after the articles of the patient are stored in the target locker, the controller records the information of the stored articles, and sends the recorded information to the information management system for storage;

s7, displaying the stored article related information on display screens of the indoor cabinet door and the outdoor cabinet door, and controlling a backlight screen of the display screen to be in an open state;

s8, if the controller determines that the operation of the patient to which the object belongs is finished, the backlight screen of the display screen is in an on and flickering state;

and S9, after the family members of the patients take out the stored articles from the target locker, the controller deletes the recorded information of the stored articles and synchronizes the information to the information management system of the hospital.

The structures involved in the execution process in S1 to S9 are all structures in the medical storage system, and the implementation principle and the technical effect of each structure are described above and are not described herein.

In one embodiment, a controller 12 is provided, the controller 12 may be a server, and the internal structure thereof may be as shown in fig. 7. The controller 12 includes a processor, memory, and a network interface connected by a system bus. Wherein the processor of the controller 12 is configured to provide computing and control capabilities. The memory of the controller 12 includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the controller 12 is used to store information such as patient's item information, surgical progress, and locker item storage status. The network interface of the controller 12 is used to communicate with external endpoints via network connections. The computer program when executed by the processor is used for realizing a method for opening a cabinet door of the locker when medical staff stores articles of patients.

Those skilled in the art will appreciate that the structure shown in fig. 7 is a block diagram of only a portion of the structure associated with the inventive arrangements.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (10)

1. A medical storage system, the medical storage system comprising: the system comprises a controller, at least one storage cabinet and a human-computer interaction area; each storage cabinet comprises an indoor cabinet door and an outdoor cabinet door, the indoor cabinet door and the outdoor cabinet door of each storage cabinet cannot be simultaneously in an open state, and after the outdoor cabinet door is opened, the indoor cabinet door of the corresponding storage cabinet is switched to a forbidden open state;

The controller is used for controlling the opening of the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door; the opening instruction is triggered by the user through the man-machine interaction area.

2. The medical storage system of claim 1, wherein the human-machine interaction region comprises an indoor interaction region and an outdoor interaction region; the opening instruction of the indoor cabinet door is triggered through the indoor interaction area, and the opening instruction of the outdoor cabinet door is triggered through the outdoor interaction area.

3. The medical storage system according to claim 1 or 2, wherein the man-machine interaction area is an induction area, and the opening instruction is generated after the induction area induces the storage right credentials of the user.

4. A medical storage system according to claim 3, wherein the user comprises an indoor user; the controller is further used for receiving an opening instruction triggered by the indoor user in the sensing area and detecting an article storage state corresponding to the storage right certificate;

if the article storage state is an article storage state, or the article storage state is an article storage state and the outdoor cabinet door of the locker where the stored article is located is opened, determining a target locker from the lockers in the idle state;

If the article storage state is the stored article state and the outdoor cabinet door of the locker where the stored article is located is not opened, determining that the locker where the stored article is located is a target locker;

and controlling the indoor cabinet door of the target locker to be opened.

5. The medical storage system according to claim 1 or 2, wherein each of the lockers is provided with a linkage assembly; the controller is also used for controlling the interlocking component to open the corresponding cabinet door according to the opening instruction of the indoor cabinet door or the outdoor cabinet door.

6. The medical storage system according to claim 1 or 2, further comprising a display, wherein each locker corresponds to at least one display, and the display is used for prompting article storage information and indication alarm of the corresponding locker.

7. The medical storage system according to claim 6, wherein the display is a display screen, and the display screen is disposed on an outer surface of the indoor cabinet and an outer surface of the outdoor cabinet of each locker.

8. The medical storage system of claim 6, wherein the display comprises a backlight; if the articles are stored in the locker and the patient to which the articles belong is in an operation state, the backlight screen of the display is in an on state; if the operation of the patient to which the article belongs is finished, the backlight screen of the display is in an on and flickering state.

9. The medical storage system according to claim 1 or 2, wherein at least one storage box is arranged in each storage cabinet, the storage boxes are of a multi-layer structure, and each layer of the storage boxes is used for storing different types of articles;

the material of receiver is high temperature resistant material.

10. The medical storage system according to claim 1 or 2, wherein the material of the cabinet body and the cabinet inner frame of the locker is a sterile material.