Intelligent micro-hydrogen-oxygen pressure sleep assisting cabin

By integrating hydrogen supply, oxygen supply, and sleep aid modules into the micro-pressure oxygen chamber, intelligent adjustment and remote monitoring of the chamber environment are achieved, solving the problem that existing micro-pressure oxygen chambers do not have hydrogen supply and sleep aid functions, thus improving the user's rest quality and health level.

CN224320835UActive Publication Date: 2026-06-05BEIJING RUIYUAN FUFENG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING RUIYUAN FUFENG TECH CO LTD
Filing Date
2025-03-14
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing micro-pressure oxygen chambers do not have hydrogen supply and sleep aid functions, and cannot meet users' health and auxiliary medical needs.

Method used

A smart micro-pressure hydrogen-oxygen sleep aid chamber was designed, integrating hydrogen supply, oxygen supply, sleep aid, intelligent environmental regulation and remote monitoring functions. It includes a sealed chamber, a pressurization module, a hydrogen supply module, an oxygen supply module, a sleep aid module and an intelligent control module, to achieve precise control of the chamber environment and real-time monitoring of human physiological parameters.

Benefits of technology

It provides a micro-pressure oxygen chamber with hydrogen supply, oxygen supply, sleep aid, and intelligent environmental regulation, which improves the user's rest quality and health level, and meets the user's health care and auxiliary medical needs.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses an intelligent micro -pressure hydrogen oxygen sleep -aiding cabin, including sealed cabin body, hatch, pressure increasing module, hydrogen supply module, oxygen supply module, sleep -aiding module, intelligent control module, the sealed cabin body realizes the support and gas seal of cabin equipment, the hatch realizes personnel access and the sealing after hatch closing, the pressure increasing module is for the cabin pressurization, the hydrogen supply module provides hydrogen for the cabin, the oxygen supply module provides oxygen for the cabin, the sleep -aiding module provides sleep -aiding environment, the intelligent control module realizes touch control, voice control, human physiological parameter remote real -time monitoring, cabin gas parameter remote real -time monitoring and control to and the above parameter are uploaded to the background server or cloud server. The utility model can increase user experience.
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Description

Technical Field

[0001] This utility model relates to the field of micro-pressure oxygen chamber technology, and in particular, to an intelligent micro-pressure hydrogen-oxygen sleep aid chamber. Background Technology

[0002] The micro-pressure oxygen chamber provides a micro-pressure environment and continuously supplies oxygen to the chamber. Under this environment, the proportion of dissolved oxygen in the blood and body fluids increases, promoting oxygen supply to hypoxic tissues and improving cellular metabolism. It is suitable for people seeking beauty, wellness, stress relief, and adjunctive medical treatment.

[0003] The intelligent micro-pressure hydrogen-oxygen sleep aid chamber adds hydrogen and a sleep-aid module to the basic micro-pressure oxygen chamber. Hydrogen enhances antioxidant capacity, while the sleep-aid module promotes rest. This intelligent micro-pressure hydrogen-oxygen sleep aid chamber is more effective in relieving fatigue from daily life and work, achieving health maintenance and adjunctive medical care, and improving people's overall health and quality of life. Utility Model Content

[0004] The technical problem this patent aims to solve is: in order to address the fact that existing micro-pressure oxygen chambers do not have the functions of hydrogen inhalation and sleep aid, this patent provides an intelligent micro-pressure hydrogen-oxygen sleep aid chamber with functions such as hydrogen supply, oxygen supply, sleep aid, intelligent adjustment of the chamber environment, and remote monitoring.

[0005] The technical solution adopted by this patent to solve its technical problem is:

[0006] An intelligent micro-pressure hydrogen-oxygen sleep aid chamber includes a sealed chamber, a door, a pressurization module, a hydrogen supply module, an oxygen supply module, a sleep aid module, and an intelligent control module. The sealed chamber supports the equipment inside and provides gas sealing. The door allows personnel to enter and exit and provides a seal when closed. The pressurization module pressurizes the chamber. The hydrogen supply module provides hydrogen and oxygen. The sleep aid module provides a sleep-aiding environment. The intelligent control module enables touch control, voice control, remote real-time monitoring of human physiological parameters, and remote real-time monitoring and control of gas parameters inside the chamber, and uploads these parameters to a backend server or cloud server.

[0007] The sealed chamber is an assembled structure, including wall panels, wall panel sealing strips, and door sealing strips. The wall panels are welded together from skin and stiffening plates to ensure airtightness. Sealing grooves are opened on the wall panels, and wall panel sealing strips are installed in the sealing grooves. The wall panels are connected by bolts to form a sealed chamber. The door sealing strips are arranged around the entrance and exit of the sealed chamber. After the door is closed and locked, the door sealing strips are pressed together to achieve sealing inside the chamber.

[0008] The hatch includes a hinge and a door body, with the door body connected to the sealed cabin via the hinge.

[0009] The pressurization module includes an air compressor, an air transmission pipe, and an air valve. The air compressor is connected to the air transmission pipe, and the air transmission pipe is connected to the air valve. The air valve passes through the side wall of the sealed chamber and is fixedly connected to the sealed chamber. The air flow rate is adjusted by controlling the air valve.

[0010] The hydrogen supply module includes a hydrogen production device, a hydrogen transmission pipe, and a hydrogen valve. The hydrogen production device is a hydrogen generator or a hydrogen tank, which is connected to the hydrogen transmission pipe. The hydrogen transmission pipe is connected to the hydrogen valve, which passes through the side wall of the sealed chamber and is fixedly connected to the sealed chamber. The flow rate of hydrogen is adjusted by controlling the hydrogen valve.

[0011] The oxygen supply module includes an oxygen generator, an oxygen transmission pipe, and an oxygen valve. The oxygen generator is an oxygen concentrator or an oxygen tank and is connected to the oxygen transmission pipe. The oxygen transmission pipe is connected to the oxygen valve, which passes through the side wall of the sealed chamber and is fixedly connected to the sealed chamber. The oxygen flow rate is adjusted by controlling the oxygen valve.

[0012] The sleep aid module includes a speaker and a multi-functional chair. The speaker supports music playback, and the multi-functional chair has multiple functions such as seat angle adjustment, massage mode adjustment, gentle rocking, and seat heating to create a sleep-inducing atmosphere and environment.

[0013] The intelligent control module includes an environmental monitoring system, a constant temperature and humidity control device, an automatic pressure relief valve, an air purification device, a smart bracelet, and a human-machine interface. The environmental monitoring system includes a data acquisition system, a pressure sensor, a temperature sensor, a humidity sensor, an oxygen concentration sensor, and a hydrogen concentration sensor, enabling real-time monitoring and collection of environmental parameters within the cabin. The constant temperature and humidity control device can adjust the temperature and humidity within the cabin. The automatic pressure relief valve can automatically adjust the pressure within the cabin. The air purification device purifies and disinfects the air within the cabin. The smart bracelet monitors and collects human physiological parameters in real time. The human-machine interface displays the environmental parameters within the cabin in real time and can be operated through both voice and touch interaction to adjust the environmental parameters and the working mode of the sleep aid module. The human physiological and environmental parameters collected by the intelligent control module can be uploaded to a backend server or a cloud server.

[0014] The beneficial effects of this utility model are:

[0015] To address the issue that existing micro-pressure oxygen chambers lack hydrogen inhalation and sleep aid functions, this paper provides an intelligent micro-pressure hydrogen-oxygen sleep aid chamber with functions such as hydrogen supply, oxygen supply, sleep aid, intelligent adjustment of the chamber environment, and remote monitoring. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of this utility model, the drawings used in the following description are briefly introduced. The drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0017] Figure 1 This is a frontal isometric schematic diagram of an intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to this utility model;

[0018] Figure 2 This is a front isometric sectional view of an intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to this utility model;

[0019] Figure 3 This utility model relates to an intelligent micro-pressure hydrogen-oxygen sleep aid capsule. Figure 2 Enlarged diagram of point A in the diagram;

[0020] Figure 4 This is a reverse isometric schematic diagram of an intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to this utility model;

[0021] Figure 5 This is a partial reverse isometric view of an intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to this utility model;

[0022] Figure 6 This utility model presents a side cross-sectional view of an intelligent micro-pressure hydrogen-oxygen sleep aid cabin;

[0023] Figure 7 This utility model relates to an intelligent micro-pressure hydrogen-oxygen sleep aid capsule. Figure 5 Enlarged diagram of point B in the image;

[0024] Figure 8 This is a reverse cross-sectional schematic diagram of an intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to this utility model;

[0025] The diagram is labeled as follows: 1. Sealed chamber; 1-1. Wall panel; 1-2. Wall panel sealing strip; 1-3. Door sealing strip; 2. Door; 2-1. Hinge; 2-2. Door body; 3. Pressurization module; 3-1. Air compressor; 3-2. Air transmission pipe; 3-3. Air valve; 4. Hydrogen supply module; 4-1. Hydrogen generator; 4-2. Hydrogen transmission pipe; 4-3. Hydrogen valve; 5. Oxygen supply module; 5-1. Oxygen generator; 5-2. Oxygen transmission pipe; 5-3. Oxygen valve; 6. Sleep aid module 6-1. Audio system; 6-2. Multifunctional seat; 7. Intelligent control module; 7-1. Environmental monitoring system; 7-1-1. Data acquisition system; 7-1-2. Air pressure sensor; 7-1-3. Temperature sensor; 7-1-4. Humidity sensor; 7-1-5. Oxygen concentration sensor; 7-1.6. Hydrogen concentration sensor; 7-2. Constant temperature and humidity control device; 7-3. Automatic pressure relief valve; 7-4. Air purification device; 7-5. Smart bracelet; 7-6. Human-machine interface. Detailed Implementation

[0026] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the present invention in a schematic manner. Therefore, they only show the components relevant to the present invention, and the directions and references are only used to assist in the description of the features in the drawings. Therefore, the following specific embodiments are not intended to be restrictive, and the scope of the claimed subject matter is defined solely by the appended claims and their equivalents.

[0027] Example 1

[0028] As attached Figure 1 To be continued Figure 8 The intelligent micro-pressure hydrogen-oxygen sleep aid chamber shown includes a sealed chamber 1, a door 2, a pressurization module 3, a hydrogen supply module 4, an oxygen supply module 5, a sleep aid module 6, and an intelligent control module 7. The sealed chamber 1 provides support for the equipment inside the chamber and ensures gas sealing. The door 2 allows personnel to enter and exit and provides a seal when the door is closed. The pressurization module 3 pressurizes the chamber. The hydrogen supply module 4 provides hydrogen to the chamber. The oxygen supply module 5 provides oxygen to the chamber. The sleep aid module 6 provides a sleep-aiding environment. The intelligent control module 7 enables touch control, voice control, remote real-time monitoring of human physiological parameters, and remote real-time monitoring and control of gas parameters inside the chamber, and uploads these parameters to a backend server or cloud server.

[0029] When using the intelligent micro-pressure hydrogen-oxygen chamber, first open door 2, enter the chamber, close door 2, and tighten the door sealing strips 1-3 to ensure a good seal inside the chamber. Then, turn on the air purification device 7-4 to improve air quality and disinfect the air inside. Operate the human-machine interface 7-6 via voice or touch control to control the operation of equipment inside and outside the chamber. Set the working time of the intelligent micro-pressure hydrogen-oxygen sleep aid chamber, as well as environmental parameters such as chamber pressure, hydrogen or oxygen concentration, temperature, and humidity. Correspondingly, the pressurization module 3, hydrogen supply module 4, or oxygen supply module 5 will activate. Block 5, the constant temperature and humidity control device 7-2 starts working. When the user needs to sleep, the human-machine interface 7-6 turns on the speaker 6-1 to play music and adjust the volume. The user sits on the multi-functional seat 6-2 and adjusts its angle. The user can also choose to use the massage mode, gentle rocking, and seat heating function of the multi-functional seat 6-2 for effective relaxation. If the humidity in the cabin suddenly increases, the intelligent control module 7 will lower the preset humidity of the constant temperature and humidity control device 7-2 to reduce the humidity in the cabin as quickly as possible. Simultaneously, the user will be alerted via the speaker 6-1 and the smart bracelet 7 will be activated. -5 Real-time monitoring of the user's heart rate, blood oxygen, and other physiological parameters, sharing data with the intelligent control module 7. When the system detects that the user has fallen asleep, the intelligent control module 7 controls the sound of the speaker 6-1 to gradually decrease, and the working amplitude of the multi-functional seat 6-2 to gradually decrease. During the user's sleep, the intelligent control module 7 continues to monitor and regulate the cabin environment parameters in real time, such as air pressure, hydrogen concentration, oxygen concentration, temperature, and humidity. When the timer ends, the pressurization module 3, hydrogen supply module 4 or oxygen supply module 5, and sleep aid module 6 stop working, and at the same time, the automatic venting valve 7-3 starts working to release air. When the air pressure inside the cabin returns to normal, the automatic vent valve 7-3 closes. At this time, the user can open the cabin door 2 and exit the intelligent micro-pressure hydrogen-oxygen sleep aid cabin. The air purification device 7-4 continues to work, purifying and disinfecting the air inside the cabin. After a period of time, the air purification device 7-4 automatically shuts off. The environmental parameter settings, seat posture settings, and human physiological parameters will be saved to the backend server or cloud server. The next time you use it, you can apply the environmental parameter settings and seat posture settings with one click on the human-machine interface 7-6 to avoid repeated input.

[0030] As attached Figure 1 Appendix Figure 3 Appendix Figure 7As shown, the sealed chamber 1 is an assembled structure, including wall panels 1-1, wall panel sealing strips 1-2, and door sealing strips 1-3. The wall panels 1-1 are welded together from skin and stiffening plates to ensure sealing. Sealing grooves are opened on the wall panels 1-1, and the wall panel sealing strips 1-2 are installed in the sealing grooves. The wall panels 1-1 are connected to each other by screws to form the sealed chamber 1-1. The door sealing strips 1-3 are arranged around the inlet and outlet of the sealed chamber 1. After the door 2 is closed and locked, the door sealing strips 1-3 are pressed together to achieve sealing inside the chamber. After the door 2 is closed, from the time the pressure inside the chamber is increased until the pressure inside the chamber returns to normal, the door 2 keeps pressing the door sealing strips 1-3 together.

[0031] As attached Figure 1 Appendix Figure 4 As shown, the pressurization module 3 includes an air compressor 3-1, an air transmission pipe 3-2, and an air valve 3-3. The air compressor 3-1 is connected to the air transmission pipe 3-2, and the air transmission pipe 3-2 is connected to the air valve 3-3. The air valve 3-3 passes through the side wall of the sealed chamber 1 and is fixedly connected to the sealed chamber 1. By controlling the air valve 3-3, the air flow rate is adjusted. The air compressed by the air compressor 3-1 is transmitted to the chamber through the air transmission pipe 3-2 and the air valve 3-3 to pressurize the chamber.

[0032] As attached Figure 1 Appendix Figure 5 As shown, the hydrogen supply module 4 includes a hydrogen production device 4-1, a hydrogen transmission pipe 4-2, and a hydrogen valve 4-3. The hydrogen production device 4-1 is a hydrogen generator or a hydrogen tank, connected to the hydrogen transmission pipe 4-2. The hydrogen transmission pipe 4-2 is connected to the hydrogen valve 4-3. The hydrogen valve 4-3 passes through the side wall of the sealed chamber 1 and is fixedly connected to the sealed chamber. By controlling the hydrogen valve 4-3, the flow rate of hydrogen is adjusted. The hydrogen produced by the hydrogen production device 4-1 is transmitted to the chamber through the hydrogen transmission pipe 4-2 and the hydrogen valve 4-3, continuously supplying hydrogen to the chamber. When the user selects the hydrogen supply module 4 to work, the oxygen supply module 5 cannot work.

[0033] As attached Figure 1 Appendix Figure 5 As shown, the oxygen supply module 5 includes an oxygen generator 5-1, an oxygen transmission pipe 5-2, and an oxygen valve 5-3. The oxygen generator 5-1 is an oxygen generator or an oxygen tank, connected to the oxygen transmission pipe 5-2. The oxygen transmission pipe 5-2 is connected to the oxygen valve 5-3. The oxygen valve 5-3 passes through the side wall of the sealed chamber 1 and is fixedly connected to the sealed chamber 1. By controlling the oxygen valve 5-3, the oxygen flow rate is adjusted. The oxygen generated by the oxygen generator 5-1 is transmitted to the chamber through the oxygen transmission pipe 5-2 and the oxygen valve 5-3, continuously providing oxygen to the chamber. When the user selects the oxygen supply module 5 to work, the hydrogen supply module 4 cannot work.

[0034] As attached Figure 2As shown, the sleep aid module 6 includes a speaker 6-1 and a multi-functional chair 6-2. The speaker 6-1 supports music playback, and the multi-functional chair 6-2 has multiple functions such as seat angle adjustment, massage mode adjustment, gentle rocking, and seat heating to create a sleep-aiding atmosphere and environment. The speaker supports music selection and volume adjustment, and the multi-functional chair supports multiple postures such as sitting, lying down, and side lying, making it convenient for users to find a comfortable sleep state.

[0035] As attached Figure 4 Appendix Figure 6 Appendix Figure 8 As shown, the intelligent control module 7 includes an environmental monitoring system 7-1, a constant temperature and humidity regulating device 7-2, an automatic pressure relief valve 7-3, an air purification device 7-4, a smart bracelet 7-5, and a human-machine interface 7-6. The environmental monitoring system 7-1 includes a data acquisition system 7-1-1, a pressure sensor 7-1-2, a temperature sensor 7-1-3, a humidity sensor 7-1-4, an oxygen concentration sensor 7-1-5, and a hydrogen concentration sensor 7-1-6. During the user's sleep, the environmental monitoring system 7-1 automatically monitors the cabin's air pressure, temperature, humidity, hydrogen concentration, and oxygen concentration. The constant temperature and humidity regulating device 7-2 can adjust the cabin's temperature and humidity. The automatic pressure relief valve 7-3 can automatically adjust the cabin's pressure. If a sudden increase or decrease in air pressure occurs... The automatic venting valve 7-3 will automatically open or close. The air purification device 7-4 purifies and disinfects the air inside the cabin, ensuring a safe and comfortable environment. The smart bracelet 7-5 monitors and collects human physiological parameters in real time. The human-machine interface 7-6 displays the cabin environment parameters in real time. Users can operate the human-machine interface through voice and touch interaction to adjust the cabin environment and the working mode of the sleep aid module. During the operation of the intelligent micro-pressure hydrogen-oxygen sleep aid cabin, the human physiological and environmental parameters collected by the intelligent control module 7 can be uploaded to the backend server or cloud server. If the user feels uncomfortable during the pressurization process, they can operate the human-machine interface 7-6 to open the automatic venting valve 7-3 and shut down the pressurization module 3, hydrogen module 4, or oxygen module 5.

[0036] The above description is merely a preferred embodiment of the present invention and the technical principles employed. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described herein, and various obvious changes, readjustments, and substitutions can be made without departing from the protection scope of the present invention. Therefore, although the present invention has been described in detail through the above embodiments, the present invention is not limited to the above embodiments, and may include many other equivalent embodiments without departing from the concept of the present invention. The scope of the present invention is determined by the scope of the claims.

Claims

1. A smart micro-pressure hydrogen-oxygen sleep aid chamber, characterized in that, The system includes a sealed chamber (1), a door (2), a pressurization module (3), a hydrogen supply module (4), an oxygen supply module (5), a sleep aid module (6), and an intelligent control module (7). The sealed chamber (1) provides support for the equipment inside the chamber and seals the gas. The door (2) allows personnel to enter and exit and seals the chamber after it is closed. The pressurization module (3) pressurizes the chamber. The hydrogen supply module (4) provides hydrogen to the chamber. The oxygen supply module (5) provides oxygen to the chamber. The sleep aid module (6) provides a sleep-aiding environment. The intelligent control module (7) enables touch control, voice control, remote real-time monitoring of human physiological parameters, and remote real-time monitoring and control of gas parameters inside the chamber, and uploads these parameters to a backend server or cloud server.

2. The intelligent micro-pressure hydrogen-oxygen sleep aid cabin according to claim 1, characterized in that, The sealed chamber (1) is an assembled structure, including wall panels (1-1), wall panel sealing strips (1-2), and door sealing strips (1-3). The wall panels (1-1) are welded together from skin and stiffeners to ensure sealing. Sealing grooves are opened on the wall panels (1-1), and wall panel sealing strips (1-2) are installed in the sealing grooves. The wall panels (1-1) are connected by screws to form the sealed chamber (1). The door sealing strips (1-3) are arranged around the inlet and outlet of the sealed chamber (1). After the door (2) is closed and locked, the door sealing strips (1-3) are pressed together to achieve sealing inside the chamber.

3. The intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to claim 1, characterized in that, The hatch (2) includes a hinge (2-1) and a door body (2-2), and the door body (2-2) is connected to the sealed cabin (1) via the hinge (2-1).

4. The intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to claim 1, characterized in that, The booster module (3) includes an air compressor (3-1), an air transmission pipe (3-2), and an air valve (3-3). The air compressor (3-1) is connected to the air transmission pipe (3-2), and the air transmission pipe (3-2) is connected to the air valve (3-3). The air valve (3-3) passes through the side wall of the sealed chamber (1) and is fixedly connected to the sealed chamber (1). The air flow rate is adjusted by controlling the air valve (3-3).

5. The intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to claim 1, characterized in that, The hydrogen supply module (4) includes a hydrogen production device (4-1), a hydrogen transmission pipe (4-2), and a hydrogen valve (4-3). The hydrogen production device (4-1) is connected to the hydrogen transmission pipe (4-2), and the hydrogen transmission pipe (4-2) is connected to the hydrogen valve (4-3). The hydrogen valve (4-3) passes through the side wall of the sealed chamber (1) and is fixedly connected to the sealed chamber (1). The flow rate of hydrogen is adjusted by controlling the hydrogen valve (4-3).

6. The intelligent micro-pressure hydrogen-oxygen sleep aid cabin according to claim 1, characterized in that, The oxygen supply module (5) includes an oxygen generating device (5-1), an oxygen transmission pipe (5-2), and an oxygen valve (5-3). The oxygen generating device (5-1) is connected to the oxygen transmission pipe (5-2), and the oxygen transmission pipe (5-2) is connected to the oxygen valve (5-3). The oxygen valve (5-3) passes through the side wall of the sealed chamber (1) and is fixedly connected to the sealed chamber (1). The oxygen flow rate is adjusted by controlling the oxygen valve (5-3).

7. The intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to claim 1, characterized in that, The sleep aid module (6) includes a speaker (6-1) and a multi-functional seat (6-2). The speaker (6-1) supports music playback, and the multi-functional seat (6-2) has multiple functions such as seat angle adjustment, massage mode adjustment, gentle rocking, and seat heating to create a sleep-aiding atmosphere and environment.

8. The intelligent micro-pressure hydrogen-oxygen sleep aid chamber according to claim 1, characterized in that, The intelligent control module (7) includes an environmental monitoring system (7-1), a constant temperature and humidity regulating device (7-2), an automatic pressure relief valve (7-3), an air purification device (7-4), a smart bracelet (7-5), and a human-machine interface (7-6). The environmental monitoring system (7-1) includes a data acquisition system (7-1-1), a pressure sensor (7-1-2), a temperature sensor (7-1-3), a humidity sensor (7-1-4), an oxygen concentration sensor (7-1-5), and a hydrogen concentration sensor (7-1-6), realizing real-time monitoring and acquisition of cabin environmental parameters. The constant temperature and humidity regulating device (7-1) 7-2) The temperature and humidity inside the cabin can be adjusted. The automatic pressure relief valve (7-3) can automatically adjust the pressure inside the cabin. The air purification device (7-4) purifies and disinfects the air inside the cabin. The smart bracelet (7-5) monitors and collects human physiological parameters in real time. The human-machine interface (7-6) displays the environmental parameters inside the cabin in real time. The human-machine interface (7-6) can be operated through voice interaction and touch interaction to adjust the environmental parameters inside the cabin and the working mode of the sleep aid module (6). The human physiological parameters and environmental parameters collected by the intelligent control module (7) can be uploaded to the background server or cloud server.