Emergency medication kit system

The emergency medicine kit system addresses the inefficiencies of traditional kits by integrating a transparent display, RFID tags, and control module for intuitive guidance and management, ensuring accurate and timely use of supplies and enhancing rescue efficiency.

JP3256343UActive Publication Date: 2026-06-25黄卓韜 +1

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Utility models
Current Assignee / Owner
黄卓韜
Filing Date
2026-04-27
Publication Date
2026-06-25

AI Technical Summary

Technical Problem

Existing emergency medicine kits suffer from lack of integration, with traditional paper instructions, and lack of smart management of items, leading to delayed treatment, incorrect usage, and potential use of expired supplies.

Method used

An emergency medicine kit system with a transparent display, touch panel, RFID tags, and control module that provides intuitive guidance, item management, and automatic disinfection, ensuring timely and accurate use of supplies.

Benefits of technology

Enhances user understanding of emergency procedures, ensures accurate and timely use of supplies, and improves rescue efficiency by providing real-time information and location services.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention provides an emergency medicine box system including a medicine box body and a control module. [Solution] The medicine box body 1 is equipped with a transparent display 2, the transparent display is equipped with a touch panel module, and inside there are multiple grids 3 for arranging first aid supplies, and the control module includes a control main board, a touch panel module, an RFID reading module and an information processing unit. By installing a transparent display and displaying a first aid teaching interface, users can intuitively learn how to use first aid supplies and first aid measures for different injury situations, and this visualized teaching method helps to increase citizens' understanding and acquisition of first aid knowledge, thereby helping to disseminate first aid knowledge more effectively.
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Description

Technical Field

[0001] The present invention relates to the technical field of emergency equipment, specifically to an emergency medicine kit system.

Background Art

[0002] In today's society, the importance of first aid knowledge and equipment has become prominent. However, there are many deficiencies in the general first aid kits currently available on the market. On the one hand, the teaching method of general first aid kits is often traditional, mainly relying on paper instructions, and the teaching content is not intuitive and easy to understand. When facing an emergency situation, it is difficult for users to quickly and accurately grasp the first aid methods, which may delay the optimal treatment timing for the injured. On the other hand, general first aid kits lack smart means in terms of item management and cannot flexibly arrange items according to different usage scenarios and needs. In the actual usage process, it may be difficult for users to find or take items. Also, the management of first aid supplies is not smart. For example, the expiration date of supplies cannot be timely presented, and users may use expired first aid supplies without knowing, which not only affects the first aid effect but also may cause secondary injuries to the injured. Moreover, it is also impossible to detect whether the supplies are placed in the correct position. If the supplies are placed incorrectly, users cannot quickly find the items they need during an emergency, which may further affect the first aid efficiency.

[0003] Therefore, in order to meet the first aid needs in an emergency, it is necessary to develop a more smart, convenient and efficient first aid kit.

Summary of the Invention

Problems to be Solved by the Invention

[0004] In order to solve the problems existing in the prior art, the present invention provides an emergency medicine kit system for solving the problems mentioned in the background art.

Means for Solving the Problems

[0005] The emergency medicine box system according to the present invention is an emergency medicine box system including a medicine box body (1) and a control module, wherein the medicine box body (1) is provided with a transparent display (2), the transparent display (2) is provided with a touch panel, the inside of the medicine box body (1) is provided with a plurality of rectangular storage spaces (3) for arranging emergency supplies (4), and the control module is It includes a control main board, a transparent display (2) and a touch panel connected to the control main board, The touch panel and transparent display are provided with a touch display area corresponding to each rectangular storage space, and each touch display area displays information about the first-aid supplies (4) in the rectangular storage space. The touch panel is characterized by responding to user touch operations, displaying corresponding emergency guidance on a transparent display, and displaying instructions on how to use the corresponding emergency supplies in a touch display area that shows a rectangular storage space where the emergency supplies necessary for the emergency guidance are located.

[0006] Preferably, the first-aid supplies (4) are provided with RFID tags (5) on which first-aid supplies information is written, and each of the rectangular storage spaces (3) inside the medicine box body (1) is provided with an RFID reading module, and the RFID reading module connected to the control main board reads the RFID tags (5) provided on the first-aid supplies (4) and records the information in the system.

[0007] Preferably, a lighting device connected to the control main board is provided in the rectangular storage space (3) inside the medicine box body (1). In the touch display area, in response to user touch operations, the lighting device illuminates the corresponding rectangular storage space and displays the corresponding emergency supplies information. The control main board outputs control signals according to emergency guidance to control the lighting device, illuminating the rectangular storage compartments for necessary emergency supplies and changing their color and / or flashing to present the user with the procedure for using the necessary emergency supplies.

[0008] Preferably, the control module further includes an alarm unit, which is connected to the control main board via a provided wireless communication module and used for wireless communication with external communication equipment, and can transmit alarm information via the alarm unit if necessary.

[0009] Preferably, the medicine box body (1) is further provided with a location information acquisition module that acquires location information of the medicine box body (1), and the location information acquisition module is connected to the control main board and transmits the location information via a wireless communication module.

[0010] Preferably, an automatic disinfection system is further provided inside the medicine box body (1), and the automatic disinfection system is connected to a control main board inside the medicine box body (1). [Effects of the Invention]

[0011] This invention has the following beneficial effects. By installing a transparent display and showing an emergency teaching interface, users can intuitively learn how to use emergency supplies and emergency measures for different injury situations. This visualized teaching method enhances citizens' understanding and acquisition of emergency knowledge, thereby helping to more effectively disseminate emergency knowledge. The transparent display shows detailed information about emergency supplies, including name, image, overview, usage instructions, and expiration date. In addition, along with warning lights in the grid, users can clearly understand the purpose and usage procedure of each emergency supply, avoiding errors due to unfamiliarity with the supplies and increasing the accuracy and success rate of emergency situations. Using RFID technology, information and expiration dates of emergency supplies can be automatically identified and updated on the display in a timely manner. At the same time, warnings for drug replenishment and replacement can be provided, ensuring the effectiveness and completeness of emergency supplies in the drug box and increasing the level of intelligence in drug box management. The emergency medicine box system, equipped with alarm and positioning functions, allows users to quickly notify medical personnel of the injured person's location and precise position in case of an emergency. This enables medical personnel to arrive at the scene in a timely manner and provide rescue, saving valuable time for the injured person and improving the timeliness and convenience of emergency services. The automatic disinfection system can disinfect the inside of the medicine box regularly or after each use, effectively preventing bacterial growth, ensuring the hygienic safety of the emergency supplies inside the medicine box, and providing users with a clean emergency environment. [Brief explanation of the drawing]

[0012] [Figure 1] This is a schematic diagram of the structure of the medicine box body of the present invention. [Figure 2] This is a schematic diagram of the system framework of the present invention. [Figure 3] This is a flowchart of the system management method of the present invention. [Figure 4] This is a flowchart for the management method of drug replenishment and replacement warnings according to the present invention. [Figure 5] This is a flowchart for the management method of analyzing emergency supplies according to the present invention. [Modes for carrying out the invention]

[0013] In the following, in order to fully understand the purpose, method, and effects of this invention, the concept, specific structure, and resulting technical effects of this invention will be clearly and completely explained using examples and drawings. Where there are no conflicts, the examples and features described herein may be combined with each other.

[0014] Unless otherwise specified, when one feature is referred to as "fixed" or "connected" to another, it may be directly fixed or connected to the other feature, or it may be fixed or connected indirectly to the other feature. Also, the terms used in this invention, such as top, bottom, left, right, apex, and base, merely refer to the relative positional relationships of the various components of this invention as shown in the drawings.

[0015] Unless otherwise defined, all technical and scientific terms used herein are used in the same sense as those commonly understood by those skilled in the art. Terms used herein are not intended to limit the invention, but merely to describe specific embodiments. The terms "and / or" used herein include any combination of one or more related enumerated items.

[0016] In this disclosure, terms such as first, second, third, etc., may be used to describe various elements, but it should be understood that these elements should not be limited to these terms. These terms are merely used to distinguish elements of the same type. For example, without departing the scope of this disclosure, a first element may be called a second element, and similarly, a second element may be called a first element.

[0017] As shown in Figures 1 to 3, the emergency medicine box system according to the present invention mainly includes a medicine box body 1 and a control module, the medicine box body 1 is provided with a transparent display 2, and the transparent display 2 is provided with a touch panel module.

[0018] The interior of the medicine cabinet body 1 is divided into a plurality of grids 3 with different sizes. Through a reasonable layout, the grids 3 are used to arrange various types and specifications of first-aid supplies 4 such as bandages, antiseptics, band-aids, and emergency medicines. Inside the grid 3, an arrangement frame is provided to ensure that the first-aid supplies 4 are stably arranged within the grid 3. Also, an LED lamp is provided inside the grid 3. The LED lamp is provided at the top of the grid 3 and can provide a good lighting effect on the premise of not affecting the storage of the first-aid supplies 4 and the user's retrieval.

[0019] The control module includes a control main board, a touch panel module, an RFID reading module, and an information processing unit.

[0020] The control main board integrates an information processing unit and an interface circuit connected to each module. The information processing unit plays a role in analyzing, processing, and calculating various data to realize various functions of the system. The interface circuit connects other modules within the control module to ensure stable and efficient data transmission and communication between them.

[0021] The touch panel module is closely connected to the control main board and is the main interface for the user to interact with the emergency medicine cabinet system.

[0022] When the user selects an emergency type interface, the touch panel module displays the name, image, and summary information of the emergency supplies 4 corresponding to each grid 3 in the medicine box in an intuitive and clear manner. By touching the corresponding area on the display, the user can quickly learn the type and basic information of the emergency supplies 4 in the medicine box. For example, if the user encounters someone with a sprained ankle in a gymnasium and selects "bandage" from the emergency supplies 4 type interface via the touch panel module, the LED lamp in the grid 3 corresponding to "bandage" will light up, allowing the user to observe the bandage situation inside the medicine box via the transparent display 2. At the same time, the transparent display 2 can display information such as how to use the bandage and precautions.

[0023] When a user selects the emergency teaching interface, the touch panel module provides a simulated human body model or schematic diagram of a body part. The user can then drag emergency supplies 4 to the corresponding body part using touch controls. At this time, the touch panel module transmits the user's operation signal to the control main board, where the information processing unit performs analysis based on pre-configured algorithms and information to generate detailed usage instructions for the emergency supplies 4 on the corresponding body part, and displays them via the touch panel module. The teaching content includes various formats such as text explanations, image displays, video presentations, and audio commentary to meet the learning needs of different users. For example, in a building lobby, if someone wants to learn cardiopulmonary resuscitation (CPR), they can drag "human simulation" and "AED (automated external defibrillator)" to the chest position of the human body on the transparent display 2's emergency teaching interface, and the transparent display 2 will display a teaching video showing detailed CPR procedure steps and how to use an AED. In emergency teaching scenarios, the LED lights change color / flashing pattern based on commands from the control mainboard to indicate the procedure for using emergency supplies 4. For example, in the above cardiopulmonary resuscitation teaching, if the AED needs to be used first, the LED light on grid 3 where the AED is located will flash red, instructing the user to use this equipment first. When performing extrachest compressions, the LED light on grid 3 where the "human simulation" is located will flash green at the correct compression frequency, guiding the user's operation.

[0024] When a user selects an injury status interface, the touch panel module lists various common body injury situations, such as head injuries, arm fractures, and leg abrasions. When the user selects a corresponding injury situation by touching the touch panel module, it transmits a selection signal to the control main board. The information processing unit on the control main board performs analysis based on pre-configured algorithms and information, generating and displaying the appropriate first aid methods and necessary first aid supplies 4 for this injury situation via the touch panel module. At the same time, it also provides relevant first aid precautions and emergency handling steps to help the user make appropriate judgments and take appropriate actions in an emergency. For example, in a department store, if a person has a cut on their arm and is bleeding, the user selects "cut" on the injury status interface of the transparent display 2, and then selects "arm" as the injured area. The transparent display 2 then displays first aid methods such as first washing the cut on the arm with disinfectant and then wrapping it with gauze, and the corresponding disinfectant and gauze LED lights in the gauze grid 3 illuminate.

[0025] The RFID reading module is connected to the control main board and is installed in each grid 3 within the medicine box body 1. The RFID reading module employs radio frequency identification technology to quickly and accurately read the information on the RFID tags 5 attached to the first-aid supplies 4. The RFID tags 5 are passive tags, offering advantages such as small size, low cost, and long service life. Each RFID tag 5 records a unique identification code for the first-aid supplies 4 and detailed information about the supplies 4, such as name, specifications, model number, manufacturer, and expiration date. When the first-aid supplies 4 are placed in the medicine box grid 3, the RFID reading module automatically reads the information on the RFID tag 5 and transmits this information to the information processing unit on the control main board for processing. For example, in the case of an emergency medicine box placed inside a gymnasium, when the medicine box is opened and emergency supplies 4 are placed inside, the RFID reading module quickly reads the information on the RFID tags 5 on the emergency supplies 4 inside the medicine box, such as the names and expiration dates of bandages, disinfectants, etc., and also displays an emergency type interface on the transparent display 2, showing the name, image, and summary information of the emergency supplies 4 corresponding to each grid 3.

[0026] The information processing unit is tightly connected to the RFID reader module and the touch panel module, and serves as the data processing center for the entire control module. After receiving information about the first-aid supplies 4 read by the RFID reader module, the information processing unit analyzes, processes, and stores this information. Based on the processing results, it updates the content displayed on the touch panel module, ensuring that the user can know the latest status of the first-aid supplies 4 in the medicine box in a timely manner. The information processing unit provides appropriate warnings based on the usage status of the first-aid supplies 4. For example, after the first-aid supplies 4 are used, the information processing unit records their usage and determines whether replenishment is necessary based on pre-set rules.

[0027] As shown in Figure 5, the control main board is further equipped with a memory module, and the management method includes the steps of: when the information processing unit processes the information read by the RFID reading module, it transmits and stores the usage record of the first-aid supplies 4 in the memory module; and the steps of the information processing unit subsequently analyzing and optimizing the first-aid plan based on the analysis results and managing the first-aid supplies 4. For example, by analyzing the usage record of first-aid supplies 4 over a certain period, it may be discovered that bandages are frequently used in a particular office, and the amount of bandages stockpiled in the first-aid kit of that office can be appropriately increased.

[0028] The alarm unit is connected to the control main board via a wireless communication module. The alarm unit employs advanced wireless communication technology, enabling stable and reliable wireless communication with external communication devices. If the injured person's situation is urgent, the user can trigger the alarm unit via the alarm button on the touch panel module. The alarm unit immediately transmits alarm information, including the injured person's approximate condition and the location of the medicine box, to a pre-configured medical professional or emergency center. Simultaneously, the alarm unit emits additional audible and visual alarm signals to attract the attention of those nearby and gain more time for rescue.

[0029] Furthermore, a positioning module that interacts with the alarm unit is also provided. The positioning module is connected to the control main board and employs high-precision positioning technologies such as GPS positioning and Beidou positioning to acquire the location information of the medicine box unit 1 in real time. When the alarm unit is triggered, the positioning module transmits the location information of the medicine box unit 1 to medical personnel via a wireless communication module, allowing medical personnel to quickly and accurately locate the injured person's location and improve rescue efficiency.

[0030] As shown in Figure 4, the drug replenishment and replacement alert unit is connected to the control main board and is responsible for monitoring the usage status and expiration dates of the first-aid supplies 4 in the drug box. If the first-aid supplies 4 are used up and the stock runs low or expire, the drug replenishment and replacement alert unit can notify the person in charge to replace them in a timely manner. The notification method may include various forms such as voice alerts, light alerts, short message alerts, and email alerts to ensure that the person in charge receives the alert information in a timely manner and can take appropriate action. For example, in an office first-aid drug box, the RFID reading module rereads the information of the first-aid supplies 4 every week, and if it detects that a certain disinfectant will expire in one week, the information processing unit transmits this information to the transparent display 2 to display an alert and sends a command to the drug replenishment and replacement alert unit, which then notifies the office person in charge to replace the supplies in a timely manner via short message or email.

[0031] The automatic disinfection system may be an ultraviolet disinfection device or an alcohol spray device connected to the control main board inside the medicine box body 1. The automatic disinfection system can periodically disinfect the inside of the medicine box based on a preset time interval and can also automatically start the disinfection program after each use, effectively preventing bacterial growth, ensuring the hygienic safety of the first-aid supplies 4 inside the medicine box, and providing the user with a clean first-aid environment.

[0032] As shown in Figure 3, the management method of the emergency medicine box system of the present invention is as follows: Step 1 involves an RFID reader acquiring information on the first-aid supplies 4 inside the medicine box, an information processing unit performing analysis and transmitting the information to a transparent display 2 to display the type of emergency, the emergency teaching interface, and the injury status interface. Step 2 involves the user selecting a type of emergency service interface via the touch panel module of the transparent display 2, and then selecting an emergency item 4. The touch panel module transmits a selection signal to the control main board, which controls the LED lamp in the grid 3 corresponding to the emergency item 4 to light up. Simultaneously, the information processing unit acquires the purpose and usage information of the emergency item 4 and transmits and displays it on the transparent display 2. Step 3 involves the user selecting the emergency teaching interface on the touch panel module of the transparent display 2, the user dragging and selecting the emergency supplies 4 to the corresponding body part, the touch panel module transmitting the selection signal to the control main board, the information processing unit on the control main board performing analysis based on pre-configured algorithms and information, generating detailed usage instructions for the emergency supplies 4 on the corresponding body part, and displaying them on the transparent display 2. Step 4 includes the user selecting an injury situation interface on the touch panel module of the transparent display 2, and when the user selects a corresponding injury situation, the touch panel module transmits a selection signal to the control main board, and the information processing unit on the control main board performs analysis processing based on a pre-set algorithm and information to generate a first aid method and corresponding first aid supplies 4 for this injury situation and display them on the transparent display 2.

[0033] The foregoing describes only preferred embodiments of the present invention, and the present invention is not limited to the above embodiments. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this disclosure, as long as they achieve the technical effects of the present invention by the same means, should be included within the scope of protection of this disclosure. All such modifications should fall within the scope of protection of the present invention. Within the claims for registration of this utility model, the technical proposal and / or embodiments are subject to various modifications and changes. [Explanation of Symbols]

[0034] 1. Main body of the medicine box 2 Transparent Display 3 lattice 4. First-aid supplies 5. RFID tags.

Claims

1. An emergency medicine box system including a medicine box body (1) and a control module, wherein the medicine box body (1) is provided with a transparent display (2), the transparent display (2) is provided with a touch panel, the inside of the medicine box body (1) is provided with a plurality of rectangular storage spaces (3) for arranging emergency supplies (4), and the control module is, It includes a control main board, a transparent display (2) and a touch panel connected to the control main board, The touch panel and transparent display are provided with touch display areas corresponding to each rectangular storage space, and each touch display area displays information about the first-aid supplies (4) in the rectangular storage space. An emergency medicine box system characterized by a touch panel that responds to user touch operations, displays corresponding emergency guidance on a transparent display, and displays instructions for using the corresponding emergency supplies in a touch display area that shows a rectangular storage space where the emergency supplies necessary for the emergency guidance are located.

2. The emergency medicine box system according to claim 1, characterized in that the emergency supplies (4) are provided with RFID tags (5) on which emergency supplies information is written, each of the rectangular storage spaces (3) inside the medicine box body (1) is provided with an RFID reading module, and the RFID reading module connected to the control main board reads the RFID tags (5) provided on the emergency supplies (4) and records the information in the system.

3. A lighting device connected to the control main board is provided in the rectangular storage space (3) inside the medicine box body (1). In the touch display area, in response to user touch operations, the lighting device illuminates the corresponding rectangular storage space and displays the corresponding emergency supplies information. The emergency medicine box system according to claim 1, characterized in that the control main board outputs control signals in accordance with emergency guidance to control the lighting device, illuminating the rectangular storage space for necessary emergency supplies and changing the color and / or flashing to present the user with the procedure for using the necessary emergency supplies.

4. The control module further includes an alarm unit, which is connected to the control main board via a provided wireless communication module and used for wireless communication with an external communication device. The first-aid medicine box system according to claim 2, characterized in that alarm information can be transmitted via the alarm unit if necessary.

5. The emergency medicine box system according to claim 4, further comprising a location information acquisition module that acquires location information of the medicine box body (1), the location information acquisition module being connected to a control main board and transmitting location information via a wireless communication module.

6. The emergency medicine box system according to claim 1, characterized in that an automatic disinfection system is further provided inside the medicine box body (1), and the automatic disinfection system is connected to a control main board inside the medicine box body (1).