阅读说明：本技术 一种防打鼾头枕 (Anti-snoring headrest ) 是由 刘春梅 于 2019-12-27 设计创作，主要内容包括：本发明提供一种防打鼾头枕,包括主体,设置于主体上的上下可移动的极小模块,设置于极小模块上的压力传感器,设置在主体两侧的第一声音传感器、第二声音传感器,设置于主体内部的微处理器,微处理器包括中心控制器,动力控制系统,存储模块、信号处理模块,数据处理模块。本发明通过多个极小模块的上下移动来调整人的睡姿,可以实现精确、舒缓调节人的睡眠的姿势,以防止打鼾。本发明的防打鼾头枕两侧还可以进一步增加现有技术中已有的多种传感器,这些传感器采集的数据进一步进入信号处理模块、数据存储模块,以及数据处理模块,通过一定的计算和数据分析,生成睡眠分析报告,进而实现睡眠质检的检测。(The invention provides an anti-snoring headrest, which comprises a main body, an up-and-down movable tiny module arranged on the main body, a pressure sensor arranged on the tiny module, a first sound sensor and a second sound sensor arranged on two sides of the main body, and a microprocessor arranged in the main body, wherein the microprocessor comprises a central controller, a power control system, a storage module, a signal processing module and a data processing module. The invention adjusts the sleeping posture of the person by the up-and-down movement of the plurality of tiny modules, and can realize the accurate and gentle adjustment of the sleeping posture of the person so as to prevent snoring. The anti-snoring headrest can be additionally provided with various sensors in the prior art on two sides, the data acquired by the sensors further enter the signal processing module, the data storage module and the data processing module, and a sleep analysis report is generated through certain calculation and data analysis, so that the detection of the sleep quality inspection is realized.)

1. The utility model provides an anti-snoring headrest, includes the main part, sets up mobilizable minimum module from top to bottom in the main part, sets up the pressure sensor in minimum module, sets up first sound transducer, the second sound transducer in the main part both sides, sets up in the inside microprocessor of main part, and microprocessor includes central controller, power control system, storage module, signal processing module, data processing module.

2. The headrest of claim 1, wherein: the signal processing module is connected with the sound sensor, the pressure sensor and the data processing module and used for collecting signals of the sound sensor and the pressure sensor and transmitting the signals to the data processing module.

3. The headrest of claim 1, wherein: the data processing module is further connected with the storage module and the central controller and respectively transmits data to the central controller and the existence module.

4. The headrest of claim 1, wherein: the central controller is further connected with the power control system to give instructions to the power controller.

5. The headrest of claim 1, wherein: the power control system is connected with the up-down movable tiny modules so as to control the up-down movement of each tiny module.

6. The headrest of claim 1, wherein: the pressure sensor comprises a base insulating layer, a flexible electrode layer, a pressure sensing electrode layer and a pressure sensing material layer.

7. The headrest of claim 1, wherein: the up-down movable tiny module has elasticity and the size is less than 2cm multiplied by 2 cm; the up-down movement distance of the up-down movable tiny module is less than 15 cm.

8. The headrest according to claim 7, characterized in that: the tiny modules that move up and down are multiple and closely adjacent, spread over the entire area of the headrest, or occupy the main active area of the pillow that is in contact with the person.

9. The headrest according to claim 7, characterized in that: the storage module stores sound, pressure information and transmission information every time and further returns to the data processing module, and the data processing module analyzes the stored information for multiple times to determine the optimal moving scheme of the minimum module.

10. A headrest according to one of claims 1 to 9, characterized in that: the two sides of the main body are further provided with a PPG sensor, a temperature sensor, an acceleration sensor and a carbon dioxide sensor, the PPG sensor is used for acquiring heart rate signals of a human body, the temperature sensor is used for acquiring body temperature, the acceleration sensor is used for acquiring respiratory frequency, and the carbon dioxide sensor is used for acquiring respiratory conditions; the pressure sensor is further used for collecting the times of body movement.

Technical Field

The invention relates to a bedding capable of preventing snoring, in particular to a snoring-prevention headrest.

Background

Snoring, commonly known as "snore", is not a good sleep, but is caused by unsmooth breathing during sleep, if breathing is not smooth, oxygen is not supplied enough, and organs of a body become tired in the whole sleep time. Causing fatigue in the daytime and memory loss.

The scholars study the sleep condition of the snorers and find that: the long-term snorers or people with serious snoring are often accompanied with sleep apnea syndrome, and apnea occurs in the whole sleep process, so that oxygen in blood is reduced. When people snore, people are in an intermittent anoxic state, and paroxysmal hypoxia at night can cause the spasm of the whole respiratory tract, so that asthma can be caused or aggravated due to the disorder of vegetative nerve functions. In the past, the lung changes, which results in pulmonary heart disease.

The reason for the snoring is that the throat, tongue and oral root muscle groups are loosened during sleeping due to snoring symptoms in the case of upper respiratory tract stenosis, such as obesity, tonsil hypertrophy, tongue root tenesmus, tongue root hypertrophy and the like. When people sleep and breathe, the drooping tissues can narrow the airway of people, and the snoring sound is generated due to vibration. Snoring is an independent risk factor for hypertension, and severe snorers are often associated with sleep apnea syndrome.

The pillow is one of the necessary products in the daily facing process of people, and the comfort level of the pillow is a key factor for guaranteeing the sleeping quality of people. Due to the difference between the body types of people, the pillow with fixed height can cause different users to be difficult to adapt, and snoring is caused to a certain extent; meanwhile, the user's posture cannot be adjusted in time during snoring. For the requirement, the height adjusting pillows in the market have various shapes, and the height of the pillow can be adjusted by an inflatable pillow, a water filling pillow and the like, but the snoring cannot be timely monitored and controlled in the sleeping process of a user. Also, the balloon structure is not adaptable.

Chinese patent application CN201820263979 discloses a snore relieving pillow structure, and it is through the setting of headrest particular structure for the pillow more accords with ergonomic back cushion state, can not only prevent that the cervical vertebra is unsettled but also have the effect that decompression is releived and the cervical vertebra is corrected, through this kind of setting, lets the oral cavity keep smooth and easy to the trachea in the neck, and the symptom of snoring of releiving. However, the pillow is a dynamic change process in the sleeping process, and the pillow cannot adjust the relationship between the pillow and the human body along with the dynamic change of the person, and meanwhile cannot monitor the sleeping condition in fact, and cannot fundamentally solve the snoring condition.

Chinese patent application No. CN201821237599 discloses a multi-airbag intelligent snore stopping pillow with a monitoring function. The pillow mainly comprises a plurality of air bag assemblies arranged in the pillow, and the shape of the pillow is adjusted by inflating and deflating the air bags, so that the sleeping posture of a sleeper is adjusted. However, the air bag needs to be inflated and deflated, noise can be generated, the head position cannot be accurately detected due to the fact that the pressure sensor is not arranged in the headrest, and meanwhile, the air bag cannot be adjusted accurately enough, and the function of relieving and adjusting the sleeping posture of the human body cannot be achieved.

Disclosure of Invention

The present invention is directed to overcome the above problems in the prior art, and to provide a pillow that can accurately detect the position of the head of a sleeper, and can adjust the sleeping posture of the sleeper, thereby preventing snoring.

In order to achieve the above object, the present invention provides an anti-snoring headrest, which includes a main body, a tiny module disposed on the main body and movable up and down, a pressure sensor disposed on the tiny module, a first sound sensor and a second sound sensor disposed on two sides of the main body, and a microprocessor disposed inside the main body, wherein the microprocessor includes a central controller, a power control system, a storage module, a signal processing module, and a data processing module.

The further signal processing module is connected with the sound sensor, the pressure sensor and the data processing module and used for collecting signals of the sound sensor and the pressure sensor and transmitting the signals to the data processing module.

The data processing module is further connected with the storage module and the central controller and respectively transmits the data to the central controller and the existence module.

The central controller is further connected to the power control system to command the power controller.

A power control system is connected to the up and down movable mini modules to control the up and down movement of each mini module.

The pressure sensor further comprises a base insulating layer, a flexible electrode layer, a pressure sensing electrode layer and a pressure sensing material layer.

Further very small modules that are movable up and down are flexible, preferably square, preferably less than 2cm x 2cm in size, and preferably less than 15cm in up and down movement distance.

Further up and down movable tiny modules are provided in plurality, and the tiny modules are closely adjacent, which can be spread over the whole area of the pillow, or occupy the main effective area of the pillow contacting with people.

The further storage module stores the signal collection data and the movement adjustment data each time, and further returns to the data processing module, and the data processing module analyzes the optimal adjustment scheme of the up-down movable module.

The anti-snoring headrest collects signals obtained by the sound sensor and the pressure sensor through the signal processing module, transmits the signals to the data processing module, and the data processing module further analyzes the data and transmits the data to the storage module and the central control system. The central controller determines the number and the position of the specific tiny modules needing to move up and down based on the information of the data processing modules, and the power control system controls the up and down movement of each tiny module. The sleeping posture of a person is adjusted through the movement of the plurality of tiny modules, and then snoring prevention is achieved.

In addition, various sensors in the prior art, such as a PPG sensor, a temperature sensor, an acceleration sensor, a carbon dioxide sensor and the like, can be further added to the two sides of the anti-snoring headrest. The PPG sensor is used for collecting heart rate signals of a human body, the temperature sensor is used for collecting body temperature, the acceleration sensor is used for collecting respiratory frequency, and the carbon dioxide sensor is used for collecting respiratory conditions. In addition, the pressure sensor in the headrest further realizes the collection of the times of physical movement. The data collected by the sensors further enter a data storage module and a data processing module, and a sleep analysis report is generated through certain calculation and data analysis, so that the detection of the sleep quality inspection is realized.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention relates to a pressure sensing device on a headrest, which can accurately or accurately control the sleeping position of a person, then a tiny module capable of moving up and down is arranged on the headrest, the specific position of the person is sensed through the pressure sensing device, then calculation is carried out through a control center, the tiny moving module which needs to move up and down is controlled, and the sleeping posture of the person is regulated and controlled through the movement of a plurality of tiny moving modules, so that the breathing condition is regulated, and further snoring is prevented. The pressure sensing device is arranged on the headrest, so that the contact position of a person on the headrest can be accurately determined, the sleeping posture of the person can be adjusted by moving the plurality of tiny modules up and down, and the sleeping posture of the person can be accurately and slowly adjusted to prevent snoring. In addition, the sensor that can gather body temperature, rhythm of the heart, number of movements, respiratory frequency, respiratory condition through the setting sends into signal processing module, data processing module with the data that the sensor was gathered, through certain calculation and data analysis, generates the sleep quality and examines the report, can realize the control and the analysis to the sleep quality.

Drawings

FIG. 1 is a front view of a headrest according to the present invention

FIG. 2 is a cross-sectional view of a controller of the present invention

FIG. 3 is a cross-sectional view of a controller incorporating various sensors in accordance with the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Refer to fig. 1, 2, 3. The utility model provides an anti-snoring headrest, includes main part 1, sets up mobilizable minimum module 2 about in main part 1, sets up pressure sensor 6 on minimum module, sets up first sound transducer 3, second sound transducer 4 in the main part both sides, sets up in main part 1 inside microprocessor 5, and microprocessor includes central controller, power control system, storage module, signal processing module, data processing module.

The further signal processing module is connected with the sound sensors (3, 4), the pressure sensor 6 and the data processing module and is used for collecting signals of the sound sensors and the pressure sensor and transmitting the signals to the data processing module.

The data processing module is further connected with the storage module and the central controller and respectively transmits the data to the central controller and the existence module.

The central controller is further connected to the power control system to command the power controller.

A power control system is connected to the up and down movable mini modules 2 to control the up and down movement of each mini module 2.

The pressure sensor 6 further includes a base insulating layer, a flexible electrode layer, a pressure-sensitive electrode layer, and a pressure-sensitive material layer.

The further extremely small modules 2, movable up and down, are elastic and square, with dimensions less than 2cm x 2cm, with a distance of movement between 0 and 15 cm.

Further up and down movable tiny modules 2 are provided in plurality, and a plurality of tiny modules 2 are closely adjacent, which can be spread over the whole area of the headrest, or can occupy the main effective area of the headrest contacting with people.

The further storage module stores the signal collection data and the movement adjustment data each time, and further returns to the data processing module, and the data processing module analyzes the optimal adjustment scheme of the up-down movable module.

Furthermore, PPG sensors 7, temperature sensors 8, acceleration sensors 9, carbon dioxide sensors 10, and the like may be provided on both sides of the main body of the headrest. PPG sensor 7 is used for gathering human heart rate signal, and temperature sensor 8 is used for gathering the body temperature, and acceleration sensor 9 is used for gathering respiratory frequency, and carbon dioxide sensor 10 is used for gathering respiratory condition. Meanwhile, the data collected by the pressure sensor 6 can further obtain the times of body movement. The data collected by the sensors further enter the signal processing module and the data storage module, and a sleep analysis report is generated through certain calculation and data analysis by the data processing module, so that the detection of the sleep quality inspection is realized.

The anti-snoring headrest collects signals obtained by the sound sensor and the pressure sensor 6 through the signal processing module, transmits the signals to the data processing module, and the data processing module further analyzes the data and transmits the data to the storage module and the central control system. The central controller determines the number and the position of the movement of the specific tiny modules 2 which need to move up and down based on the information of the data processing module, and controls the up and down movement amount of each tiny module 2 through the power control system. The sleeping posture of the person is adjusted through the movement of the plurality of the tiny modules 2, and then snoring prevention is achieved. Various sensors in the prior art, such as a PPG sensor, a temperature sensor, an acceleration sensor, a carbon dioxide sensor and the like, can be further added on two sides of the anti-snoring headrest. The PPG sensor is used for collecting heart rate signals of a human body, the temperature sensor is used for collecting body temperature, the acceleration sensor is used for collecting respiratory frequency, and the carbon dioxide sensor is used for collecting respiratory conditions. The data collected by the sensors further enter the signal processing module, the data storage module and the data processing module, and a sleep analysis report is generated through certain calculation and data analysis, so that the monitoring of the sleep quality inspection is realized.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.