CN213216904U

CN213216904U - Intelligent sleep system

Info

Publication number: CN213216904U
Application number: CN202020546675.7U
Authority: CN
Inventors: 李艺然; 余廖祎; 肖紫嫣; 龚慧江; 倪汉铭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-01-19
Filing date: 2020-04-14
Publication date: 2021-05-18
Anticipated expiration: 2030-04-14

Abstract

The utility model relates to a sleep monitor technical field especially relates to an intelligence sleep system. Intelligence sleep system, including mattress, controller, first pump, second pump, microphone, the mattress includes mechanics sensing monitoring layer, the gasbag body, supporting layer, and mechanics sensing monitoring layer is located gasbag body top, and the supporting layer top sets up the gasbag body, and the gasbag body is split into a plurality of gasbag units by the diaphragm, has placed the adjustment gasbag in every gasbag unit, and the bottom of adjustment gasbag is fixed to be provided with the magnetic block, is provided with the mobile location mechanism in the supporting layer, the last fixed electro-magnet that is provided with of mobile location mechanism. The sleeping posture and the snoring sound of the human body are monitored, the sleeping posture and the snoring sound information of the human body are obtained, whether an oxygen drop event occurs or not is judged, the adjusting air bag is inflated and deflated, the human body is pressed to drive the human body to adjust the sleeping posture, and the sleeping quality of the human body is improved.

Description

Intelligent sleep system

Technical Field

The utility model relates to a sleep monitor technical field especially relates to an intelligence sleep system.

Background

Sleep is an important physiological phenomenon. In life, the quality of sleep at ordinary times can have direct and obvious influence on the daily life of people. This is why the detection of physiological information related to sleep has been the focus of many scientific studies. Among physiological information during sleep, respiration and heartbeat are most closely related to the health condition of a human body, and are important indexes reflecting the degree of physical health. By observing the respiratory and heartbeat conditions during sleep, disease diagnosis and prevention can be achieved.

During sleep, one of the most obvious sleeping states is snoring. Not only does this influence the sleep of the surrounding people, but also has great hidden trouble of diseases. Apnea is a severe snoring condition characterized by sudden cessation of snoring and subsequent apnea in the patient during sleep. During this period, the patient often has the act of twisting his body in order to breathe. Such a state of stopping breathing for a long time is likely to cause various diseases such as hypertension and diabetes. Snoring symptoms severely affect the quality of sleep of people.

Disclosure of Invention

The utility model aims to solve the technical problem that the sleep quality of people during sleep is effectively monitored, the posture of the snorer at night when the snorer is adjusted to improve the sleep quality of the snorer.

The utility model provides a technical scheme is:

an intelligent sleeping system comprises a mattress, a controller, a first inflator pump, a second inflator pump and a microphone, and is characterized in that the mattress comprises a mechanical sensing monitoring layer, an airbag body and a supporting layer, the mechanical sensing monitoring layer is positioned above the airbag body, the airbag body is arranged above the supporting layer, the airbag body is divided into a plurality of airbag units by a diaphragm, the airbag units are connected with the first inflator pump through air pipes, control valves corresponding to the airbag units are arranged on the air pipes connected with the airbag units, adjusting airbags are placed in each airbag unit, the adjusting airbags are communicated with the second inflator pump through hoses, electric control valves corresponding to the adjusting airbags are arranged on the air pipes connected with the adjusting airbags, the height of the adjusting airbags after being filled with air is larger than that of the airbag units, magnetic blocks are fixedly arranged at the bottom of the adjusting airbags, and a mobile positioning mechanism is arranged in the supporting layer, an electromagnet is fixedly arranged on the movable positioning mechanism, and the position of the original point of the adjusting air bag is arranged in each air bag unit;

the first inflator pump, the second inflator pump, the microphone, the electromagnet, the control valve and the electric control valve are all connected with the controller, and the power supply provides driving power for the first inflator pump, the second inflator pump, the microphone and the electromagnet through the controller;

the mechanical sensing monitoring layer acquires pressure area and pressure value of a human body pressed on the mattress, the pressure sensor sends the information to the controller, the controller is connected with the computer, and the computer analyzes the pressure area and the pressure value to obtain a human body sleeping posture diagram;

the controller acquires a sound signal of snoring when the human body sleeps through the microphone, and transmits the sound signal to the computer;

the computer analyzes the acquired sound signals and the human body sleeping posture diagram, judges whether an oxygen drop event occurs,

when the oxygen drop event of the human body is judged, the computer judges the sleep posture adjustment position of the human body and sends a signal to the controller, the controller controls the mobile positioning mechanism to move to shift the adjustment air bag in the air bag unit to be adjusted according to the signal sent by the computer, the controller simultaneously energizes the electromagnet to be shifted, the shifted electromagnet moves from the original position to the set position, the electromagnet attracts the magnetic block and drives the adjustment air bag to move to the set position after being energized, the controller controls the second inflator pump to start and inflate the adjustment air bag, and the top of the adjustment air bag is pushed against the top of the air bag unit after the adjustment air bag finishes inflation and presses the human body to adjust the sleep posture;

the computer dynamically monitors whether the oxygen drop event occurs in the human body through the mechanics sensing monitoring layer and the microphone, drives the adjusting air bags in different air bag units to press the human body and drives the human body to adjust the sleeping posture until the oxygen drop event of the human body disappears,

after the human body oxygen drop event disappears, the computer sends a signal to the controller, the controller deflates the adjusting air bag in the air bag unit needing to be reset through the electric control valve, the controller starts the first inflator pump to inflate the air bag unit where the adjusting air bag is located to set pressure, the controller controls the mobile positioning mechanism to reset the adjusting air bag according to the signal sent by the computer after the pressure in the adjusting air bag is reduced, and the controller controls the electromagnet to be powered off after the adjusting air bag returns to the original position.

Specifically, the controller deflates the airbag unit where the adjusting airbag is located through the control valve according to the inflation speed of the second inflator to the adjusting airbag and controls the deflation speed.

Specifically, the mechanical sensing monitoring layer is made of a piezoelectric film sensor.

Specifically, the bottom surface in the air bag unit and the bottom surface of the adjusting air bag are both smooth surfaces.

Specifically, the side wall of the bag body of the adjusting air bag is made of elastic deformation materials in the vertical direction.

Specifically, the mobile positioning mechanism comprises a transverse shifting mechanism and a longitudinal shifting mechanism, and the controller controls the transverse shifting mechanism and the longitudinal shifting mechanism to shift.

Specifically, the transverse shifting mechanism comprises a transverse driving mechanism and a transverse guide rail, the longitudinal shifting mechanism is arranged on the transverse guide rail in a sliding mode, and the transverse driving mechanism drives the longitudinal shifting mechanism to move.

Specifically, the longitudinal displacement mechanism comprises a longitudinal guide rail and a longitudinal driving mechanism, the electromagnet is arranged on the longitudinal guide rail in a sliding mode, and the longitudinal driving mechanism drives the electromagnet to move.

The utility model discloses a sound to human sleep posture and snoring production is monitored, acquires human sleep appearance and snore sound signal, judges whether the human oxygen event that falls appears, fills the gassing to the adjustment gasbag in the gasbag unit through the controller, falls the event to oxygen and intervenes, oppresses the human body and orders about human adjustment sleep posture, promotes human sleep quality.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the mattress.

1 mechanics sensing monitoring layer 2 gasbag body 3 adjustment gasbag 4 horizontal slide rail 5 vertical slide rail

6 electromagnet 7 magnetic block 8 baffle.

Detailed Description

The intelligent sleeping system comprises a mattress, a controller, a first inflation pump, a second inflation pump and a microphone. The mattress comprises a mechanical sensing monitoring layer 1, an air bag body 2 and a supporting layer. The mechanics sensing monitoring layer 1 is located the gasbag body 2 top, and the gasbag body 2 is set up to the supporting layer top.

The air bag body 2 is divided into a plurality of air bag units by a diaphragm, the air bag units are connected with a first inflator pump through air pipes, and control valves corresponding to the air bag units are arranged on the air pipes connected with the air bag units. Each air bag unit is provided with a corresponding control valve, and the air bag units can be deflated or inflated through the control valves.

An adjusting air bag 3 is arranged in each air bag unit, the adjusting air bag 3 is communicated with a second inflator pump through a hose, and an electric control valve corresponding to the adjusting air bag 3 is arranged on an air pipe connected with the adjusting air bag 3. Each adjusting air bag 3 is provided with an electric control valve correspondingly, and the adjusting air bags 3 can be deflated or inflated through the electric control valves.

The height of the air bag 3 after being filled with air is adjusted to be larger than that of the air bag unit.

The bottom of the adjusting air bag 3 is fixedly provided with a magnetic block 7, a mobile positioning mechanism is arranged in the supporting layer, an electromagnet 6 is fixedly arranged on the mobile positioning mechanism, and the position of the origin of the adjusting air bag 3 is arranged in each air bag unit. In this embodiment, the supporting layer is a frame structure, the upper part of the supporting layer is a partition plate 8, and the airbag body 2 is fixedly arranged on the partition plate 8.

The first inflator pump, the second inflator pump, the microphone, the electromagnet 6, the control valve and the electric control valve are all connected with the controller, and the power supply provides driving power for the first inflator pump, the second inflator pump, the microphone, the electromagnet 6, the control valve and the electric control valve through the controller.

The mechanical sensing monitoring layer 1 acquires pressure area and pressure value of a human body pressed on the mattress, the pressure sensor sends the information to the controller, the controller is connected with the computer, and the computer analyzes the pressure area and the pressure value to obtain a sleeping posture diagram of the human body.

The controller obtains the sound signal of snoring when the human body sleeps through the microphone, and the controller transmits the sound signal to the computer.

And analyzing the acquired sound signals and the human body sleeping posture diagram by the computer to judge whether an oxygen drop event occurs. The oxygen drop event is a drop in blood oxygen saturation of ≧ 4% and sustained for more than 10 seconds. When snoring occurs, the computer analyzes and judges whether a sudden breathing condition exists or not according to the breathing state variation of the abdomen and the chest in the sleeping posture diagram of the human body, and if the breathing state variation of the abdomen and the chest exceeds a set threshold in unit time, the occurrence of an oxygen drop event is judged.

When the oxygen drop event of the human body is judged, the computer judges the sleep posture adjustment position of the human body, and sends a signal to the controller, the controller controls the mobile positioning mechanism to move to shift the adjustment air bag 3 in the air bag unit to be adjusted according to the signal sent by the computer, the controller simultaneously energizes the electromagnet 6 to be shifted, the shifted electromagnet 6 moves to a set position from an original position, the electromagnet 6 attracts the magnetic block 7 magnetically after being energized and drives the adjustment air bag 3 to move to the set position, the controller controls the second inflator pump to start and inflate the adjustment air bag 3, and the top of the adjustment air bag 3 pushes the top of the air bag unit to be adjusted after the adjustment air bag 3 is inflated and presses the human body to adjust the sleep posture. The electromagnet 6 is continuously electrified to prevent the adjustment airbag 3 from sideslipping when the adjustment airbag 3 abuts against the top of the airbag unit after being inflated.

The computer dynamically monitors whether the oxygen drop event occurs in the human body through the mechanics sensing monitoring layer 1 and the microphone, drives the adjusting air bags 3 in different air bag units to press the human body and drives the human body to adjust the sleeping posture until the oxygen drop event of the human body disappears,

after the human body oxygen drop event disappears, the computer sends a signal to the controller, the controller deflates the adjusting air bag 3 in the air bag unit needing to be reset through the electric control valve, the controller starts the first inflator pump to inflate the air bag unit where the adjusting air bag 3 is located to set pressure, the controller controls the mobile positioning mechanism to reset the adjusting air bag 3 according to the signal sent by the computer after the pressure in the adjusting air bag 3 is reduced, and the controller controls the electromagnet 6 to be powered off after the adjusting air bag 3 returns to the original position.

The controller deflates the air bag unit where the adjusting air bag 3 is located through the control valve according to the inflating speed of the second inflating pump to the adjusting air bag 3 and controls the deflating speed.

The mechanical sensing monitoring layer 1 is made of a piezoelectric film sensor.

The bottom surface in the air bag unit and the bottom surface of the adjusting air bag 3 are both smooth surfaces.

The side wall of the bag body of the adjusting air bag 3 is made of elastic deformation material in the vertical direction.

The mobile positioning mechanism comprises a transverse shifting mechanism and a longitudinal shifting mechanism, and the controller controls the transverse shifting mechanism and the longitudinal shifting mechanism to shift. The mobile positioning mechanism is a common knowledge technology and is not described in detail.

The transverse shifting mechanism comprises a transverse driving mechanism and a transverse guide rail, the longitudinal shifting mechanism is arranged on the transverse guide rail in a sliding mode, and the transverse driving mechanism drives the longitudinal shifting mechanism to move.

The longitudinal displacement mechanism comprises a longitudinal guide rail and a longitudinal driving mechanism, the electromagnet 6 is arranged on the longitudinal guide rail in a sliding mode, and the longitudinal driving mechanism drives the electromagnet 6 to move.

Through set up adjustment gasbag 3 in the gasbag unit to fill the adjustment of gassing to gasbag unit, adjustment gasbag 3 simultaneously, but greatly reduced leads to the fact the frightening phenomenon that the large tracts of land pressure of human body changes the production to gasbag unit adjustment alone, has improved human comfort level and can make the human body change the appearance of sleeping naturally in the condition of not frightening human sleep. By lifting the part of the upper surface of the air bag unit, the human body can not be trapped in the air bag along with the change of the air pressure of the air bag.

Finally, it should be noted that: the above examples are given for the purpose of clearly illustrating the present invention and are not intended to limit the scope of the present invention. Variations or modifications in different forms may occur to those skilled in the art upon reading the foregoing description. It is not necessary or necessary to exhaustively enumerate all embodiments herein, and obvious variations or modifications can be made without departing from the scope of the invention.

Claims

1. An intelligent sleeping system comprises a mattress, a controller, a first inflator pump, a second inflator pump and a microphone, and is characterized in that the mattress comprises a mechanical sensing monitoring layer (1), an air bag body (2) and a supporting layer, the mechanical sensing monitoring layer (1) is positioned above the air bag body (2), the air bag body (2) is arranged above the supporting layer, the air bag body (2) is divided into a plurality of air bag units by a membrane, the air bag units are connected with the first inflator pump through air pipes, control valves corresponding to the air bag units are arranged on the air pipes connected with the air bag units, adjusting air bags (3) are placed in each air bag unit, the adjusting air bags (3) are communicated with the second inflator pump through hoses, electric control valves corresponding to the adjusting air bags (3) are arranged on the air pipes connected with the adjusting air bags (3), and the height of the adjusting air bags (3) after being filled with air is larger than that of the air bag units, a magnetic block (7) is fixedly arranged at the bottom of the adjusting air bag (3), a mobile positioning mechanism is arranged in the supporting layer, an electromagnet (6) is fixedly arranged on the mobile positioning mechanism, and the original position of the adjusting air bag (3) is arranged in each air bag unit;

the first inflator pump, the second inflator pump, the microphone, the electromagnet (6), the control valve and the electric control valve are all connected with the controller, and the power supply provides driving power for the first inflator pump, the second inflator pump, the microphone and the electromagnet (6) through the controller;

the controller is connected with the computer.

2. The intelligent sleep system according to claim 1, wherein the mechanical sensing monitoring layer (1) is made of piezoelectric film sensors.

3. The intelligent sleeping system according to claim 1, wherein the bottom surface inside the air bag unit and the bottom surface of the adjusting air bag (3) are both smooth surfaces.

4. The intelligent sleeping system according to claim 1, wherein the side wall of the body of the adjusting airbag (3) is made of an elastic material which can be elastically deformed only in the up-down direction.

5. The intelligent sleeping system of claim 1, wherein the mobile positioning mechanism comprises a lateral shifting mechanism and a longitudinal shifting mechanism, and the controller controls the lateral shifting mechanism and the longitudinal shifting mechanism to shift.

6. The intelligent sleeping system of claim 5, wherein the transverse shifting mechanism comprises a transverse driving mechanism and a transverse guide rail, the longitudinal shifting mechanism is slidably disposed on the transverse guide rail, and the transverse driving mechanism drives the longitudinal shifting mechanism to move.

7. The intelligent sleeping system according to claim 6, wherein the longitudinal displacement mechanism comprises a longitudinal guide rail and a longitudinal driving mechanism, the electromagnet (6) is slidably arranged on the longitudinal guide rail, and the longitudinal driving mechanism drives the electromagnet (6) to move.

8. The intelligent sleeping system of claim 7, wherein an air pressure sensor is arranged in each air bag unit and connected with the controller.