Medical transport case

By integrating temperature sensors, positioning modules, and main control modules into the medical transport box, real-time monitoring of the temperature inside the box and the transport trajectory is achieved, solving the problem of real-time monitoring that cannot be achieved in existing technologies and improving safety and reliability.

CN224376242UActive Publication Date: 2026-06-19SHENZHEN HONGSHU TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN HONGSHU TECH
Filing Date
2025-08-06
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing medical transport boxes cannot monitor the internal temperature and movement trajectory in real time during transport, resulting in poor reliability and safety.

Method used

Employing temperature sensors, positioning modules, and main control modules, the system transmits temperature and position feedback signals to a cloud server via a communication module, enabling real-time monitoring of the temperature inside the medical transport box and its transport trajectory.

Benefits of technology

It improves the safety and reliability of medical transport boxes, enabling real-time monitoring of the internal temperature and transport trajectory, which facilitates subsequent quality management and problem investigation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a medical transfer box, which comprises a communication module, a box body, a body for heat preservation and a cover plate, the body is provided with a containing cavity for placing a transferred object and a taking window, the taking window is communicated with the containing cavity through one side wall of the body, at least one temperature monitoring site is preset in the containing cavity, the cover plate is rotationally arranged on the body and rotates between a first position and a second position, a temperature sensor is arranged on each temperature monitoring site, a positioning module and a main control module are arranged, the main control module is connected with a cloud server through the communication module, the main control module is used for receiving temperature feedback signals and position feedback signals and transmitting the signals to the cloud server, so that the position of the box body and the temperature of the containing cavity are monitored in real time. The technical scheme can realize real-time monitoring of the temperature in the containing cavity of the medical transfer box and the transfer track, and improves the safety and reliability of the medical transfer box.
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Description

Technical Field

[0001] This application relates to the field of transport box technology, specifically to a medical transport box. Background Technology

[0002] When transporting certain medical supplies, such as vaccines and blood products, it is necessary to use insulated transport boxes, especially for medical supplies that require low-temperature storage. Therefore, many medical transport boxes currently available have insulation functions.

[0003] While some medical transport boxes currently available have insulation features, they cannot provide real-time monitoring of the internal temperature and trajectory during transport, resulting in poor reliability and safety. Utility Model Content

[0004] This application provides a medical transport box to solve the problem that the medical transport box cannot be monitored in real time during the transport process, resulting in poor reliability and safety.

[0005] One embodiment provides a medical transport box, comprising:

[0006] Communication module;

[0007] A heat-insulating box includes a body and a cover. The body has a receiving chamber for placing the transported item and a retrieval window. The retrieval window penetrates one side wall of the body and communicates with the receiving chamber. The receiving chamber has at least one pre-set temperature monitoring point. The cover is rotatably mounted on the body and rotates between a first position and a second position. When the cover is in the first position, the cover closes the retrieval window. When the cover is in the second position, the retrieval window is opened so that the transported item can be taken out from the receiving chamber.

[0008] A temperature sensor is used to monitor the temperature inside the receiving cavity and output a temperature feedback signal. The temperature sensor is provided at each of the temperature monitoring points.

[0009] The positioning module is used to monitor the position of the housing and output a position feedback signal;

[0010] The main control module is used to connect to the cloud server through the communication module. The main control module is also used to receive the temperature feedback signal and the position feedback signal and transmit them to the cloud server to monitor the position of the box and the temperature inside the containment chamber in real time.

[0011] A power supply module is provided, wherein the voltage output terminal of the power supply module is connected to the main control module, the communication module and the temperature sensor, and the power supply module is used to supply power to the main control module, the communication module and the temperature sensor.

[0012] In one embodiment, the medical transport box further includes: a display component disposed on a side wall of the main body, wherein the main control module controls the display component to display temperature information represented by the temperature feedback signal and position information represented by the position feedback signal;

[0013] The voltage output terminal of the power supply module is also connected to the display component and is used to supply power to the display component.

[0014] In one embodiment, the device further includes an electronically controlled lock for locking the cover plate. The electronically controlled lock is disposed on the housing. The working states of the electronically controlled lock include an open state and a locked state. When the cover plate is in the first position and the electronically controlled lock is in the locked state, the cover plate is locked in the first position. When the electronically controlled lock is in the open state, the cover plate is in the open state.

[0015] The main control module is also used to control the electric lock in response to external commands, so that the electric lock is in an open state or a locked state.

[0016] In one embodiment, the display component is divided into color-changing regions, the color-changing regions having a first color and a second color;

[0017] When the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the color change area is the first color; when the temperature information represented by the temperature feedback signal is less than the temperature threshold, the color change area is the second color.

[0018] In one embodiment, the medical transport box further includes a screen wake-up module connected to the main control module, the screen wake-up module being used to wake up the display component.

[0019] In one embodiment, the medical conversion box further includes: a voice prompt module connected to the main control module, the voice prompt module being used to receive a first level signal and to provide voice prompts in response to the first level signal;

[0020] When the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the main control module outputs the first level signal to the voice prompt module;

[0021] The voltage output terminal of the power supply module is also connected to the voice prompt module and is used to supply power to the voice prompt module.

[0022] In one embodiment, the body includes a first sidewall, a second sidewall opposite to the first sidewall, and a third sidewall connecting the first sidewall and the second sidewall; the temperature monitoring points are respectively provided on the first sidewall, the second sidewall, and the third sidewall.

[0023] In one embodiment, the power supply module has a battery pack and a power switch. The power switch includes a first terminal and a second terminal. When the power switch is in the open state, the first terminal and the second terminal of the power switch are in a conductive state. When the power switch is in the off state, the first terminal and the second terminal of the power switch are in a disconnected state. The voltage output terminal of the battery pack is connected to the first terminal of the power switch, and the second terminal of the power switch is the voltage output terminal of the power supply module.

[0024] In one embodiment, the medical transport box further includes a charging interface module, which is connected to the battery pack and is used to connect to a charging source when the battery pack needs to be charged.

[0025] In one embodiment, the positioning module is a positioning unit in a multimode antenna, and the communication module is a communication unit in a multimode antenna.

[0026] According to the medical transport box of the above embodiment, since the temperature feedback signal output by the temperature sensor is transmitted to the main control module and the position feedback signal output by the positioning module is transmitted to the main control module, the main control module transmits the temperature feedback signal and the position feedback signal to the cloud server through the communication module, thereby realizing real-time monitoring of the temperature and transport trajectory inside the containment chamber of the medical transport box, which improves the safety and reliability of the medical transport box. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of a medical transport box in one embodiment;

[0028] Figure 2 This is a structural diagram of a medical transport box in one embodiment.

[0029] Reference numerals: 10, housing; 101, main body; 1011, first side wall; 1012, third side wall; 1013, receiving chamber; 102, cover plate; 20, temperature sensor; 30, multimode antenna; 301, positioning module; 302, communication module; 40, main control module; 50, power supply module; 501, battery pack; 502, power switch; 60, display component; 601, screen wake-up module; 70, electric lock; 80, voice prompt module; 90, charging interface module. Detailed Implementation

[0030] The present application will now be described in further detail with reference to the accompanying drawings and specific embodiments. Similar elements in different embodiments are referred to by related similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of the present application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to the present application are not shown or described in the specification. This is to avoid obscuring the core parts of the present application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.

[0031] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments, and the operational steps involved in each embodiment can also be rearranged or adjusted in a manner that is obvious to those skilled in the art. Therefore, the specification and drawings are only for clearly describing a particular embodiment and do not imply that they represent the necessary components and / or order.

[0032] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).

[0033] In medical cold chain transportation, the storage temperature of biological specimens, medicines, and vaccines directly affects their effectiveness. Currently, medical institutions such as hospitals, community health centers, and disease control centers typically use polypropylene insulated boxes (thermal conductivity ≥0.23W / mK, data source: GB / T 2546-2020 "Polypropylene (PP) Resin" Clause 6.3) for transport. These transport boxes are independent units with an internal volume between 8-40L and include ice trays. According to sampling data from the China Pharmaceutical Commerce Association's "China Pharmaceutical Cold Chain Logistics Operation Specifications" (2021 Edition) (Report No.: CMEA-2021-LC-001), the temperature exceedance rate of traditional medical transport boxes during 8 hours of transportation was 10.3% (sample size n-237, confidence interval 95%). The main reasons are insufficient insulation performance of the boxes and the lack of temperature monitoring for early warning.

[0034] Based on this, this application provides a medical transport box, which may include a communication module 302, a box body 10, a temperature sensor 20, a positioning module 301, a main control module 40, and a power supply module 50.

[0035] The housing 10 includes a body 101 for heat preservation and a cover 102. The body 101 is provided with a receiving chamber 1013 for placing the transported item and a retrieval window. The retrieval window penetrates one side wall of the body 101 and communicates with the receiving chamber 1013. The receiving chamber 1013 has at least one pre-set temperature monitoring point. The cover 102 is rotatably mounted on the body 101 and rotates between a first position and a second position. When the cover 102 is in the first position, the cover 102 closes the retrieval window. When the cover 102 is in the second position, the retrieval window is opened so that the transported item can be taken out of the receiving chamber 1013. In this embodiment, the housing 10 may be configured as, but is not limited to, a square housing 10, and the housing 10 may have, but is not limited to, a square receiving chamber 1013. During transport, the transported item is placed in the receiving chamber 1013. A retrieval window can be opened on the upper wall of the housing 10. The retrieval window penetrates the upper wall of the housing 10 and communicates with the receiving chamber 1013. A cover plate 102 is provided at the position of the retrieval window. The cover plate 102 can rotate between a first position and a second position. When retrieving an item, the cover plate 102 can be moved to the second position. At this time, the item to be transported can be taken out from the receiving chamber 1013 through the retrieval window. When the cover plate 102 is rotated to the first position, the cover plate 102 closes on the retrieval window.

[0036] Temperature sensor 20 is used to monitor the temperature inside the containment chamber 1013 and output a temperature feedback signal. Temperature sensor 20 is provided at each temperature monitoring point.

[0037] The positioning module 301 is used to monitor the position of the housing 10 and output a position feedback signal.

[0038] The main control module 40 is used to connect to the cloud server through the communication module 302. The main control module 40 is also used to receive temperature feedback signals and position feedback signals and transmit them to the cloud server to monitor the position of the enclosure 10 and the temperature inside the containment chamber 1013 in real time.

[0039] The power supply module 50 has its voltage output terminal connected to the main control module 40, the communication module 302, and the temperature sensor 20. The power supply module 50 is used to supply power to the main control module 40, the communication module 302, and the temperature sensor 20.

[0040] In this embodiment, the housing 10 is made of polypropylene material, meaning that the body 101 and the cover 102 can be made of polypropylene material. The receiving chamber 1013 is provided with PU foam as an insulation layer, which can effectively reduce heat exchange and maintain a low-temperature environment within the receiving chamber 1013.

[0041] The temperature feedback signal output by the temperature sensor 20 is transmitted to the main control module 40. The main control module 40 transmits the temperature information represented by the temperature feedback signal to the cloud server for storage through the communication module 302. Similarly, the position feedback signal output by the positioning module 301 is transmitted to the main control module 40. The main control module 40 transmits the position information represented by the position feedback signal to the cloud server for storage through the communication module 302. This enables real-time monitoring of the temperature and transport trajectory within the containment chamber 1013 of the medical transport box, improving the safety and reliability of the medical transport box.

[0042] In some embodiments, embedded IoT technology can be used to accurately monitor and manage the environmental conditions inside the medical transport box, and to trace the temperature and location information of the medical transport box after transport. Specifically, the temperature and location information of the medical transport box stored in a cloud server can be retrieved, facilitating subsequent quality management and troubleshooting in case of problems during transport. The embedded IoT technology can be implemented on a main control board equipped with an industrial-grade ARM Cortex-M7 core microcontroller, supporting multiple protocols such as MQTT / CoAP, facilitating communication with other devices and enabling remote monitoring.

[0043] In some embodiments, the medical transport box further includes a display component 60, which is disposed on a side wall of the main body 101. The main control module 40 controls the display component 60 to display temperature information represented by a temperature feedback signal and position information represented by a position feedback signal. The voltage output terminal of the power supply module 50 is also connected to the display component 60 and is used to supply power to the display component 60.

[0044] In this embodiment, the display component 60 is disposed on the side wall of the main body 101, and the user can intuitively observe the information displayed by the display component 60. Specifically, after receiving the temperature feedback signal, the main control module 40 can control the display component 60 to display the temperature information represented by the temperature feedback signal, that is, the on-site user can obtain the current temperature inside the main body 101 based on the temperature information displayed on the display component 60.

[0045] Similarly, after receiving the position feedback signal, the main control module 40 can control the display component 60 to display the position information represented by the position feedback signal. That is, the on-site user can obtain the current position of the cabinet 10 based on the position information displayed on the display component 60.

[0046] In this embodiment, the display component 60 may be a liquid crystal display screen with touch functionality.

[0047] In some embodiments, the medical transport box further includes an electrically controlled lock 70, which is used to lock the cover 102. The electrically controlled lock 70 is disposed on the box body 10. The working states of the electrically controlled lock 70 include an open state and a locked state. When the cover 102 is in a first position and the electrically controlled lock 70 is in the locked state, the cover 102 is locked in the first position. When the electrically controlled lock 70 is in the open state, the cover 102 is in the open state. The main control module 40 is also used to control the electrically controlled lock 70 in response to external commands, so that the electrically controlled lock 70 is in the open state or the locked state.

[0048] In some embodiments, the electric lock 70 can be controlled by setting a password, which can improve convenience and security.

[0049] In one embodiment, when the medical transport box is needed, an opening password can be sent to the user via SMS through a cloud server. The user can enter the opening password on the LCD screen, and the LCD screen transmits the received opening password to the main control module 40. The main control module 40 further transmits the opening password to the cloud server for comparison. If the comparison is successful, the cloud server can send a control unlocking command to the main control module 40, causing the main control module 40 to power on the electric lock 70. At this time, the electric lock 70 is in the open state, and the cover plate 102 can rotate between the first position and the second position.

[0050] In another embodiment, a virtual retrieval button can be displayed on the LCD screen. An opening password can be pre-set for the medical transport box. After the medical transport box arrives at its destination, the receiving personnel can click the retrieval button on the LCD screen. A password input interface will pop up on the LCD screen, where the receiving personnel can enter the pre-set opening password. When the entered password matches the preset password, the main control module 40 controls the electric lock 70 to power on. At this time, the electric lock 70 is in the open state, and the cover plate 102 can rotate between a first position and a second position.

[0051] Of course, in environments without network signal, the electric lock 70 can also be controlled via Bluetooth authorization to unlock the box. The specific process will not be described in detail here.

[0052] In some embodiments, the display component 60 is divided into color-changing regions, which have a first color and a second color; when the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the color-changing region is the first color, and when the temperature information represented by the temperature feedback signal is less than the temperature threshold, the color-changing region is the second color.

[0053] In this embodiment, the main control module 40 has a preset temperature threshold, which can be set according to the transported item. For example, when the transported item is a vaccine, a corresponding temperature threshold can be set. As another example, when the transported item is a blood product, a corresponding temperature threshold can be set.

[0054] When the temperature information is less than or equal to the temperature threshold, it indicates that the current temperature environment meets the storage temperature requirements of the transported item. At this time, the main control module 40 can control the color change area of ​​the LCD screen to display the first color. When the temperature information is greater than the temperature threshold, it indicates that the current temperature environment does not meet the storage temperature requirements of the transported item. At this time, the main control module 40 can control the color change area of ​​the LCD screen to display the second color. On-site personnel can judge whether the current temperature environment inside the container 10 meets the requirements based on the color displayed in the color change area.

[0055] In this embodiment, the first color can be green, and the second color can be bright orange or red. Of course, the first and second colors can also be other colors, but the first and second colors are not the same color.

[0056] Therefore, when the temperature inside the containment chamber 1013 exceeds the safety threshold, the corresponding color can be displayed on the LCD screen to alert on-site personnel.

[0057] In some embodiments, the medical transport box further includes a screen wake-up module 601 for waking up the display component 60.

[0058] In this embodiment, the screen wake-up module 601 can be a physical button, which is located on one side wall of the main body 101, for example, on the same side wall as the LCD screen. When the LCD screen is not touched for a certain period of time, it will automatically turn off. If it needs to be turned on again while the LCD screen is off, the physical button can be pressed to wake up the LCD screen. For specific examples, refer to mobile phones and tablets equipped with a screen wake-up button; further details are omitted here.

[0059] In some embodiments, the medical conversion box further includes a voice prompt module 80, which is connected to the main control module 40. The voice prompt module 80 is used to receive a first level signal and to provide voice prompts in response to the first level signal. The voltage output terminal of the power supply module 50 is also connected to the voice prompt module 80 and is also used to supply power to the voice prompt module 80.

[0060] In this embodiment, when the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the main control module 40 can output a first-level signal to the voice prompt module 80, and the voice prompt module 80 responds to the first-level signal to provide a voice prompt. Specifically, when the main control module 40 outputs the first-level signal to the voice prompt module 80, the voice prompt module 80 can announce the temperature inside the containment chamber 1013 currently monitored by the temperature sensor 20, so as to issue a timely warning when the temperature inside the body 101 exceeds the temperature threshold, and the on-site personnel can determine whether to perform human intervention based on the announced temperature.

[0061] In some embodiments, during the transport of the medical transport box, the LCD screen periodically acquires and displays the temperature information within the containment chamber 1013, and transmits three key data points—location information (latitude and longitude), time information, and temperature information—to the cloud server's database, forming one of the key pieces of information for this transport. If the temperature exceeds the acceptable range, the LCD screen displays a second color accompanied by a voice prompt, and the main control module 40 simultaneously transmits this warning information to the cloud server. On-site personnel, based on the prompts on the LCD screen, need to perform corresponding emergency operations, while back-end monitoring personnel, based on the actual information such as temperature and location, determine whether intervention is necessary.

[0062] In some embodiments, the body 101 includes a first sidewall 1011, a second sidewall opposite to the first sidewall 1011, and a third sidewall 1012 connecting the first sidewall 1011 and the second sidewall; temperature monitoring points are respectively provided on the first sidewall 1011, the second sidewall and the third sidewall 1012.

[0063] In this embodiment, the body 101 can be a rectangular structure, and the receiving chamber 1013 can also be a rectangular structure. When setting the temperature monitoring point, it can be set on the side wall of the receiving chamber 1013. Specifically, a temperature monitoring point is set on each of the first side wall 1011, the second side wall, and the third side wall 1012 of the receiving chamber 1013, and a temperature sensor 20 is set on each temperature monitoring point.

[0064] The arrangement of multiple temperature sensors 20 on different side walls enables three-dimensional monitoring of the temperature in multiple locations within the containment chamber 1013, preventing undetected temperature imbalances within the containment chamber 1013. Furthermore, the temperature feedback signals from multiple temperature sensors 20 are all transmitted to the main control module 40, meaning that the main control module 40 can perform unified data acquisition and processing, enhancing its ability to perceive the environment within the containment chamber 1013.

[0065] In some embodiments, the power supply module 50 has a battery pack 501 and a power switch 502. The power switch 502 includes a first terminal and a second terminal. When the power switch 502 is in the open state, the first terminal and the second terminal of the power switch 502 are in the conducting state. When the power switch 502 is in the off state, the first terminal and the second terminal of the power switch 502 are in the disconnected state. The voltage output terminal of the battery pack 501 is connected to the first terminal of the power switch 502, and the second terminal of the power switch 502 is the voltage output terminal of the power supply module 50.

[0066] In this embodiment, when the power supply module 50 outputs power, the power switch 502 is turned on. At this time, the first and second terminals of the power switch 502 are connected, and the output voltage of the battery pack 501 can be output through the first and second terminals to supply power to the outside. When power is not needed, the power switch 502 is turned off. At this time, the first and second terminals of the power switch 502 are disconnected, and the battery pack 501 stops outputting power to the outside. The power switch 502 saves power and supports longer transportation time.

[0067] Furthermore, when the power switch 502 is turned on, the main control module 40 is powered on and can communicate with the cloud server through the communication module 302. The unique IMEI code of the medical transport box to be transported is sent to the cloud server. The cloud server identifies the status of the medical transport box based on the IMEI code and simultaneously pushes a QR code associated with the status of the medical transport box to be displayed on the LCD screen. On-site personnel can scan the QR code with terminal devices (such as mobile phones, tablets, etc.) to obtain the status of the medical transport box. The status of the medical transport box includes whether it is currently empty or currently contains items. The current empty status means that the medical transport box does not contain any items; the current containing items status means that the medical transport box contains items.

[0068] When the medical transport box is currently empty, a new task can be initiated through a mini-program on the terminal device. The transport information will be transmitted to the medical transport box via the communication module 302 and displayed on the LCD screen. At the same time, the cloud server will send a set of opening passwords via SMS to the on-site personnel, who can then open the medical transport box using the passwords.

[0069] In the patent application document with publication number CN222388594U, entitled "A Cold Chain Transport Box with Real-Time Temperature Monitoring", it connects to a mobile phone via a wireless module and relies on a mobile app to send real-time temperature information to the background. This product relies on mobile phone signal and external power supply, and cannot be used independently. It is more suitable for use scenarios with power supply, such as real-time monitoring of vehicle compartments.

[0070] In some embodiments, the medical transport box further includes a charging interface module 90, which is connected to the battery pack 501 and is used to connect to a charging source when charging the battery pack 501.

[0071] In this embodiment, the charging interface module 90 can be, but is not limited to, a USB charging interface circuit. When the battery pack 501 needs charging, it can be connected to a charging source through the USB interface in the USB charging interface circuit. Of course, the charging interface module 90 can also be a TYPE-C charging interface circuit. When the battery pack 501 needs charging, it can be connected to a charging source through the TYPE-C interface in the TYPE-C charging interface circuit.

[0072] In some embodiments, the communication module 302 is a communication unit in the multimode antenna 30, and the positioning module 301 is a positioning unit in the multimode antenna 30.

[0073] In this embodiment, the multimode antenna 30 includes a 4G communication unit, Bluetooth, a GPS (Global Positioning System) positioning unit, a BeiDou positioning unit, and an LBS (Location Based Service) positioning unit. It can communicate with a cloud server via the 4G communication unit. When the multimode antenna 30 performs positioning, different positioning strategies are adopted under different network conditions. In unobstructed outdoor locations, the BeiDou or GPS positioning units are commonly used for positioning, resulting in more accurate location. In indoor or obstructed areas, the LBS positioning unit is used. Therefore, the multimode antenna 30 can implement different positioning strategies, making positioning more accurate and more secure.

[0074] In some embodiments, the main control module 40 is based on the ST32 series chip as the main chip and integrates an IoT (Internet of Things) module.

[0075] In summary, this application provides a medical transport box with the following beneficial effects:

[0076] The temperature feedback signal output by the temperature sensor 20 is transmitted to the main control module 40, and the position feedback signal output by the positioning module 301 is transmitted to the main control module 40. The main control module 40 transmits the temperature feedback signal and the position feedback signal to the cloud server for storage through the communication module 302, thereby realizing real-time monitoring of the temperature and transport trajectory within the containment chamber 1013 of the medical transport box, which improves the safety and reliability of the medical transport box.

[0077] The above-described specific examples are for illustrative purposes only and are not intended to limit the scope of this invention. Those skilled in the art can make various simple deductions, modifications, or substitutions based on the concept of this invention.

Claims

1. A medical transport case, characterized by, include: Communication module; A heat-insulating box includes a body and a cover. The body has a receiving chamber for placing the transported item and a retrieval window. The retrieval window penetrates one side wall of the body and communicates with the receiving chamber. The receiving chamber has at least one pre-set temperature monitoring point. The cover is rotatably mounted on the body and rotates between a first position and a second position. When the cover is in the first position, the cover closes the retrieval window. When the cover is in the second position, the retrieval window is opened so that the transported item can be taken out from the receiving chamber. A temperature sensor is used to monitor the temperature inside the receiving cavity and output a temperature feedback signal. The temperature sensor is provided at each of the temperature monitoring points. The positioning module is used to monitor the position of the housing and output a position feedback signal; The main control module is used to connect to the cloud server through the communication module. The main control module is also used to receive the temperature feedback signal and the position feedback signal and transmit them to the cloud server to monitor the position of the box and the temperature inside the containment chamber in real time. A power supply module is provided, wherein the voltage output terminal of the power supply module is connected to the main control module, the communication module and the temperature sensor, and the power supply module is used to supply power to the main control module, the communication module and the temperature sensor.

2. The medical transport box of claim 1, wherein, The medical transport box further includes a display component, which is disposed on one side wall of the main body. The main control module controls the display component to display the temperature information represented by the temperature feedback signal and the position information represented by the position feedback signal. The voltage output terminal of the power supply module is also connected to the display component and is used to supply power to the display component.

3. The medical transport box of claim 2, wherein, Also includes: An electric lock for locking the cover plate is provided on the housing. The working state of the electric lock includes an open state and a locked state. When the cover plate is in the first position and the electric lock is in the locked state, the cover plate is locked in the first position. When the electric lock is in the open state, the cover plate is in the open state. The main control module is also used to control the electric lock in response to external commands, so that the electric lock is in an open state or a locked state.

4. The medical transport box of claim 3, wherein, The display component is divided into color-changing areas, and the color-changing areas have a first color and a second color. When the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the color change area is the first color; when the temperature information represented by the temperature feedback signal is less than the temperature threshold, the color change area is the second color.

5. The medical transport box as described in claim 4, characterized in that, The medical transport box also includes a screen wake-up module connected to the main control module, which is used to wake up the display component.

6. The medical transport box as described in claim 4, characterized in that, The medical transport box also includes: a voice prompt module connected to the main control module, wherein the voice prompt module is used to receive a first level signal and respond to the first level signal to provide voice prompts; When the temperature information represented by the temperature feedback signal is greater than the temperature threshold, the main control module outputs the first level signal to the voice prompt module; The voltage output terminal of the power supply module is also connected to the voice prompt module and is used to supply power to the voice prompt module.

7. The medical transport box of claim 1, wherein, The body includes a first sidewall, a second sidewall opposite to the first sidewall, and a third sidewall connecting the first sidewall and the second sidewall; the temperature monitoring points are respectively provided on the first sidewall, the second sidewall, and the third sidewall.

8. The medical transport box of claim 1, wherein, The power supply module includes a battery pack and a power switch. The power switch has a first terminal and a second terminal. When the power switch is in the open state, the first terminal and the second terminal of the power switch are in a conductive state. When the power switch is in the off state, the first terminal and the second terminal of the power switch are in a disconnected state. The voltage output terminal of the battery pack is connected to the first terminal of the power switch, and the second terminal of the power switch is the voltage output terminal of the power supply module.

9. The medical transport box of claim 8, wherein, The medical transport box also includes a charging interface module, which is connected to the battery pack and is used to connect to a charging source when the battery pack needs to be charged.

10. The medical transport box of claim 1, wherein, The positioning module is a positioning unit in a multimode antenna, and the communication module is a communication unit in a multimode antenna.