CN115281629A - Household sleep parameter monitoring equipment convenient to operate - Google Patents

Abstract

The invention discloses a household sleep parameter monitoring device convenient to operate, which comprises a sleep heart rate and respiration monitoring component for monitoring the heart rate and the respiration of a human body during sleep, a turn-over detection component for detecting turn-over of the human body during sleep, an adjusting component for driving the sleep heart rate and respiration monitoring component to be away from the human body after detecting the turn-over of the human body and for putting the sleep heart rate and respiration monitoring component into a proper position for secondary detection after the turn-over of the human body is completed.

Description

Household sleep parameter monitoring equipment convenient to operate

Technical Field

The invention relates to the technical field of human body monitoring, in particular to a household sleep parameter monitoring device convenient to operate.

Background

With the continuous improvement of the life quality of people, people pay more and more attention to the self health condition, and monitoring various physiological parameters of a human body plays an important role in controlling the self health condition in real time. For example, a common blood glucose meter or a blood pressure meter, the device is convenient to use and can be used at home. The heart rate and the breathing condition of the human body during sleeping are also important physiological parameters of the human body, but the prior art cannot simply detect the heart rate and the breathing parameter of the human body during sleeping.

In the prior art, when monitoring the sleep heart rate and the respiration monitoring parameters of a human body, most of the parameters need to be monitored by medical equipment of a hospital or a physical examination mechanism, and professional medical personnel are needed to record and analyze the detection result. For example, polysomnography is capable of monitoring physiological signals for over 10 channels including electrocardiogram, electromyogram, ophthalmogram, thoracic and abdominal respiratory tone, nasal and oral ventilation, postural movement, blood oxygen saturation and penile cavernous muscle volume in addition to electroencephalogram.

Therefore, the existing sleep parameter monitoring equipment is complex in operation, high in professional performance, not suitable for household use and inconvenient for people to know physiological parameters of the people in real time, various detection parts exist on the monitoring equipment, and when the detection parts are installed on the human body, discomfort can be brought to the human body, so that the accuracy of monitoring the sleep of the human body is influenced.

Disclosure of Invention

The invention aims to provide a household sleep parameter monitoring device convenient to operate, and aims to solve the problems that various detection parts exist on the conventional sleep parameter monitoring device, when the detection parts are installed on a human body, discomfort can be brought to the human body, so that the accuracy of human body sleep monitoring is influenced, and meanwhile, connecting wires are also arranged on the detection parts, and when the human body turns over, the connecting wires can be wound on the human body, so that the influence on the human body sleep is brought, and the accuracy of the human body sleep monitoring is also influenced.

In order to achieve the purpose, the invention adopts the following technical scheme:

an easy-to-operate home sleep parameter monitoring device comprising:

the sleep heart rate and respiration monitoring component is used for monitoring the heart rate and the respiration of a human body during sleep;

the turning-over detection component is used for detecting the turning-over of a human body during sleeping;

the evacuation component is connected with the sleep heart rate and respiration monitoring component and is used for driving the sleep heart rate and respiration monitoring component to be away from the human body after detecting that the human body turns over so as to avoid obstructing the turning over of the human body and avoid the sleep heart rate and respiration monitoring component being pressed by the turned-over human body;

and the adjusting component is connected with the sleep heart rate and respiration monitoring component and is used for putting the sleep heart rate and respiration monitoring component into a proper position for secondary detection after the human body turns over.

Optionally, the sleep heart rate and respiration monitoring component includes a data acquisition device for acquiring heart rate and respiration information of a human body in a sleep state and a data processing system for analyzing and processing data acquired by the data acquisition device;

the data acquisition equipment comprises a respiration rate monitoring module, the respiration rate monitoring module comprises a detection box, an air quantity sensor is arranged in the detection box, the detection box is connected with an air inlet pipeline, the tail end of the air inlet pipeline is connected with an air inlet cover, and the air inlet cover is arranged in front of the mouth and the nose of a human body.

Optionally, the turning-over detection component includes a fixing plate disposed above the bed, a supporting frame is disposed on an edge of the fixing plate, the detection box is disposed on the fixing plate, a camera is disposed on the fixing plate, and the camera is connected to the data processing system;

the evacuation component comprises an evacuation cylinder and an evacuation cylinder controller, the evacuation cylinder is installed on the fixed plate, the output end of the evacuation cylinder is vertically downward and is connected with a mounting plate, the evacuation cylinder controller is connected with the evacuation cylinder and controls the evacuation cylinder to act, and the evacuation cylinder controller is also connected with the data processing system.

Optionally, the adjusting component includes an arc-shaped adjusting guide rail arranged at the lower end of the mounting plate, a displacement slide seat is slidably arranged on the arc-shaped adjusting guide rail, an extension cylinder and an extension cylinder controller are arranged on the displacement slide seat, the output end of the extension cylinder is connected with the air inlet cover, the extension cylinder controller is connected with the extension cylinder and controls the movement of the extension cylinder, and the extension cylinder controller is further connected with the data processing system;

the arc-shaped adjusting guide rail is provided with an arc-shaped rack, the displacement sliding seat is provided with a displacement motor and a motor controller, an output shaft of the displacement motor is connected with a motor gear, the motor gear is meshed with the arc-shaped rack, the motor controller is connected with the displacement motor and controls the displacement motor to act, and the motor controller is further connected with the data processing system.

Optionally, the data acquisition device further includes a heart rate monitoring module and a respiratory rate monitoring module, the heart rate monitoring module is configured to acquire human heart rate information in a sleep state, and the respiratory rate monitoring module is configured to acquire human respiratory rate information in the sleep state;

the data acquisition equipment further comprises a fixed patch, the fixed patch is attached to clothes on the abdomen of a human body, a microprocessor and a wireless transmission module are arranged on the fixed patch, and the microprocessor is connected with the data processing system through the wireless transmission module;

the heart rate monitoring module comprises a heart rate monitoring sensor, and the heart rate monitoring sensor is connected with the microprocessor;

the respiratory frequency monitoring module comprises a displacement sensor, and the displacement sensor is connected with the microprocessor;

and the air volume sensor is connected with the data processing system.

Optionally, the displacement sensor is configured to collect a fluctuation situation of an abdomen of a human body during sleep, and the microprocessor transmits, to the data processing system, the abdomen fluctuation data transmitted by the displacement sensor and transmits, to the data processing system, a human heart rate transmitted by the heart rate monitoring sensor through the wireless transmission module;

the data processing system is used for analyzing and processing the data collected by the heart rate monitoring module, the respiratory rate monitoring module and the respiratory volume monitoring module and judging the breathing condition of the human body according to the fluctuation data of the abdomen;

when the human abdomen regularly fluctuates in small amplitude, the sleeping respiratory frequency of the human body is normal;

when the abdomen of the human body is irregular and fluctuates in small amplitude, the sleeping respiratory frequency of the human body is abnormal;

when the abdomen of the human body irregularly fluctuates greatly, the human body turns over.

Optionally, when a human body turns over, the data processing system controls the output end of the evacuation cylinder to retract through the evacuation cylinder controller, and drives the sleep heart rate respiration monitoring component to be far away from the human body;

the data processing system also comprises an image processing module, wherein the image processing module is used for analyzing and processing the image transmitted by the camera and judging the position of the mouth and the nose of the human body;

when a human body turns over, the camera works to collect images of the human body during sleeping and transmit image data to the data processing system, the data processing system judges whether the human body turns over, the mouth and nose positions of the human body after the turning over are determined, and after the turning over of the human body is determined, the data processing system drives the air inlet cover to move to the mouth and nose positions through the evacuation cylinder controller, the extension cylinder controller and the motor controller according to the mouth and nose positions of the human body and collects respiration volume data again.

Optionally, the data processing system includes:

the data receiving module is connected with the wireless transmission module and used for receiving the abdomen fluctuation data sent by the wireless transmission module;

the data processing module is connected with the data receiving module, the data receiving module transmits the received abdominal fluctuation data to the data processing module, the data processing module is used for converting the received abdominal fluctuation data into breathing information, meanwhile, the data processing module is used for comparing and analyzing the processed breathing information with preset breathing information, judging whether the breathing information is in a normal range or not, and if the breathing information is abnormal, sending an alarm control signal;

the display is used for displaying the processed heart rate data and the processed respiratory data on a display screen for a user to check at any time;

the alarm is used for giving an alarm if the heart rate or the breathing data is abnormal;

the memory is used for storing the processed heart rate and respiration data, so that the heart rate and respiration data can be conveniently checked in the future;

the output of the microprocessor is respectively connected with the display and the alarm, and the microprocessor is also connected with the memory.

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

(1) According to the invention, the heart rate monitoring sensor and the displacement sensor are arranged to monitor the heart rate and the breath of a human body during sleeping, the two sensors are concentrated on the fixed patch, and the fixed patch is attached to clothes on the abdomen, so that the condition that monitoring equipment brings discomfort to the human body is avoided, the monitoring precision is ensured, meanwhile, the heart rate monitoring sensor and the displacement sensor upload monitoring data in a wireless transmission manner, and the problem that a connecting wire is wound when a user turns over is avoided;

(2) The turning-over detection component, the evacuation component and the adjustment component are combined with the sleep heart rate respiration monitoring component, the sleep heart rate respiration monitoring component can be used for judging the turning-over condition of a human body by combining a camera in the turning-over detection component according to the change of the respiration frequency, after the turning-over of the human body is detected, the evacuation component drives the sleep heart rate respiration monitoring component to be away from the human body so as to avoid hindering the turning-over of the human body and avoid the sleep heart rate respiration monitoring component from being pressed by the turned-over human body, and after the turning-over of the human body is completed, the adjustment component and the evacuation component place the sleep heart rate respiration monitoring component in a proper position for secondary detection.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

The structure, proportion, size and the like shown in the drawings are only used for matching with the content disclosed in the specification, so that the person skilled in the art can understand and read the description, and the description is not used for limiting the limit condition of the implementation of the invention, so the method has no technical essence, and any structural modification, proportion relation change or size adjustment still falls within the scope of the technical content disclosed by the invention without affecting the effect and the achievable purpose of the invention.

FIG. 1 provides an overall schematic view of an embodiment of the present invention;

FIG. 2 is a block diagram of a structure provided by an embodiment of the present invention;

FIG. 3 is a schematic view of the internal structure of the patch of the present invention;

FIG. 4 is a schematic structural diagram of a detection box according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a middle arc-shaped adjustment guide rail according to an embodiment of the present invention.

Illustration of the drawings: 1. a sleep heart rate respiration monitoring component; 2. a turn-over detection unit; 3. evacuating the component; 4. an adjustment member;

11. a data acquisition device; 12. a data processing system;

111. a detection box; 112. an air volume sensor; 113. an air inlet pipeline; 114. an air inlet cover; 115. fixing the patch; 116. a microprocessor; 117. a heart rate monitoring sensor; 118. a displacement sensor;

201. a fixing plate; 202. a support frame; 203. a camera;

301. withdrawing the air cylinder; 302. withdrawing the cylinder controller; 303. mounting a plate;

401. an arc-shaped adjusting guide rail; 402. a displacement slide; 403. extending out of the cylinder; 404. extending the cylinder controller; 405. an arc-shaped rack; 406. a displacement motor; 407. a motor controller; 408. a motor gear.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. It should be noted that when one component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Referring to fig. 1 to 5, fig. 1 is a schematic view of an entire device according to an embodiment of the present invention, fig. 2 is a block diagram of a structure according to an embodiment of the present invention, fig. 3 is a schematic view of an internal structure of a middle fixing patch according to an embodiment of the present invention, fig. 4 is a schematic view of a structure of a middle detection box according to an embodiment of the present invention, and fig. 5 is a schematic view of a structure of a middle arc-shaped adjustment guide rail according to an embodiment of the present invention.

As shown in fig. 1 to 5, the present invention provides a household sleep parameter monitoring device which is convenient to operate, and comprises a sleep heart rate and respiration monitoring component 1, wherein the sleep heart rate and respiration monitoring component 1 is used for monitoring the heart rate and respiration of a human body during sleep. The sleep heart rate respiration monitoring part 1 comprises a data acquisition device 11 for acquiring human heart rate and respiration information in a sleep state and a data processing system 12 for analyzing and processing data acquired by the data acquisition device 11.

Specifically, data acquisition equipment 11 includes heart rate monitoring module and respiratory rate monitoring module among this embodiment, heart rate monitoring module is used for gathering human heart rate information under the sleep state, respiratory rate monitoring module is used for gathering human respiratory rate information under the sleep state, data acquisition equipment 11 still includes fixed paster 115, fixed paster 115 is attached on human belly clothing, be provided with microprocessor 116 and wireless transmission module on the fixed paster 115, microprocessor 116 links to each other with data processing system 12 through wireless transmission module, heart rate monitoring module includes heart rate monitoring sensor 117, heart rate monitoring sensor 117 links to each other with microprocessor 116, respiratory rate monitoring module includes displacement sensor 118, displacement sensor 118 links to each other with microprocessor 116. Wherein, heart rate and breathing when monitoring human sleep through setting up heart rate monitor sensor 117 and displacement sensor 118, two sensors are concentrated on fixed paster 115, and fixed paster 115 is attached on the belly clothing, avoids monitoring facilities to bring uncomfortable sense for the human body to guarantee the monitoring precision, heart rate monitor sensor 117 and displacement sensor 118 simultaneously. Monitoring data are uploaded in a wireless transmission mode, so that the problem that a connecting wire is wound when a user turns over is avoided;

the displacement sensor 118 is used for collecting the fluctuation of the abdomen of the human body during sleeping, and the microprocessor 116 transmits the fluctuation data of the abdomen transmitted by the displacement sensor 118 to the data processing system 12 and transmits the human body heart rate transmitted by the heart rate monitoring sensor 117 to the data processing system 12 through the wireless transmission module.

Further, in this embodiment, the data processing system 12 includes a data receiving module, a data processing module, a display, an alarm and a memory, wherein the data receiving module is connected to the wireless transmission module and configured to receive the abdomen fluctuation data sent by the wireless transmission module, the data processing module is connected to the data receiving module, the data receiving module transmits the received abdomen fluctuation data to the data processing module, the data processing module is configured to convert the received abdomen fluctuation data into respiration information, and the data processing module is configured to compare and analyze the processed respiration information with preset respiration information and determine whether the processed abdomen fluctuation data is in a normal range, if the processed abdomen fluctuation data is abnormal, the data processing module sends an alarm control signal, the display is configured to display the processed heart rate data and the processed respiration data on a display screen for a user to check at any time, the alarm is configured to send an alarm, the memory is configured to store the processed heart rate data and the processed respiration data, which is convenient for checking after the day, an output of the microprocessor 116 is respectively connected to the display and the alarm, and the microprocessor 116 is further connected to the memory.

In this embodiment, the data processing system 12 is configured to analyze and process the data collected by the heart rate monitoring module and the respiratory rate monitoring module, and determine the respiratory condition of the human body according to the fluctuation data of the abdomen, where the respiratory rate of the human body is normal when the human body abdomen regularly fluctuates with a small amplitude, and the respiratory rate of the human body is abnormal when the human body abdomen irregularly fluctuates with a small amplitude.

It should be noted that, in the embodiment, the heart rate monitoring sensor 117 and the displacement sensor 118 are both installed on the fixing patch 115, the fixing patch 115 is attached to the clothes, and the heart rate monitoring sensor 117 and the displacement sensor 118 are connected to the data processing system 12 through the wireless transmission module without a connection line, so that the problem of winding of the connection line when the user turns over can be avoided.

Heart rate and breathing when monitoring human sleep through setting up heart rate monitor sensor 117 and displacement sensor 118 in this embodiment, two displacement sensor 118 are concentrated on fixed paster 115, and fixed paster 115 is attached on the belly clothing, avoid monitoring facilities to bring the discomfort for the human body, thereby guarantee the monitoring precision, heart rate monitor sensor 117 and displacement sensor 118 upload the monitoring data through wireless transmission's mode simultaneously, the winding problem of connecting wire when avoiding the user to stand up.

Through the setting, this embodiment can monitor user's sleep rhythm of the heart and breathing, but can't carry out effective monitoring to user's respiratory volume, and respiratory volume is the respiratory important data of user sleep.

Therefore, in this embodiment, the data acquisition device 11 further includes a respiration monitoring module, the respiration monitoring module includes a detection box 111, an air volume sensor 112 is disposed in the detection box 111, the detection box 111 is connected to an air inlet duct 113, an air inlet hood 114 is connected to the end of the air inlet duct 113, the air inlet hood 114 is disposed in front of the mouth and nose of the human body, and the air volume sensor 112 is directly connected to the data processing system 12 through a connection line.

Because the air inlet cover 114 is arranged in front of the mouth and the nose of the human body, when the user turns over, the position of the mouth and the nose of the human body changes, the position of the air inlet cover 114 needs to be adjusted again, and the user can touch the air inlet cover 114 in the turning-over process, the turning-over of the user can be influenced, the user can wake up, and meanwhile, the air inlet cover 114 can be pressed to be damaged, or the subsequent measurement can be influenced.

Therefore, in the present embodiment, the data processing system 12 is configured to analyze and process the data collected by the respiration monitoring module, and determine the breathing condition of the human body according to the fluctuation data of the abdomen: when the abdomen of the human body irregularly fluctuates greatly, the human body turns over.

Meanwhile, the monitoring system of the embodiment further comprises an evacuation component 3, when the data processing system 12 detects that the human body turns over, the evacuation component 3 drives the air inlet cover 114 to be away from the human body so as to avoid obstructing the turning over of the human body and avoid the sleep heart rate respiration monitoring component 1 being pressed by the turned-over human body. The evacuation member 3 includes an evacuation cylinder 301 mounted on the fixed plate 201, an evacuation cylinder controller 302 connected to the evacuation cylinder 301 and controlling the actuation thereof, the evacuation cylinder 301 having an output end directed vertically downward and connected to a mounting plate 303. In the above-described evacuation unit 3, the evacuation cylinder controller 302 is further connected to the data processing system 12, the air intake cover 114 is provided on the mounting plate 303, and when the data processing system 12 judges that the human body is turned over, the evacuation cylinder controller 302 controls the output end of the evacuation cylinder 301 to retract, thereby driving the mounting plate 303 to move upward and further moving the air intake cover 114 upward.

Further, the monitoring system of the embodiment further comprises a turn-over detection component 2, and the turn-over detection component 2 is used for detecting the position of the mouth and the nose of a human body after turning over. The turning-over detection component 2 comprises a fixing plate 201 arranged above the bed, a supporting frame 202 is arranged on the edge of the fixing plate 201, the detection box 111 is arranged on the fixing plate 201, a camera 203 is arranged on the fixing plate 201, the camera 203 is connected with the data processing system 12, the data processing system 12 further comprises an image processing module, and the image processing module is used for analyzing and processing images transmitted by the camera 203 and judging the position of the mouth and nose of a human body.

Still further, the monitoring system of this embodiment still includes adjusting part 4, and this adjusting part 4 links to each other with sleep heart rate respiration monitoring part 1 for after the human body is stood up, put sleep heart rate respiration monitoring part 1 in suitable position and detect once more. The adjusting component 4 comprises an arc-shaped adjusting guide rail 401 arranged at the lower end of the mounting plate 303, a displacement slide carriage 402 is arranged on the arc-shaped adjusting guide rail 401 in a sliding manner, an extending cylinder 403 and an extending cylinder controller 404 are arranged on the displacement slide carriage 402, the output end of the extending cylinder 403 is connected with the air inlet cover 114, the extending cylinder controller 404 is connected with the extending cylinder 403 and controls the action of the extending cylinder 403, the extending cylinder controller 404 is further connected with the data processing system 12, an arc-shaped rack 405 is arranged on the arc-shaped adjusting guide rail 401, a displacement motor 406 and a motor controller 407 are arranged on the displacement slide carriage 402, a motor gear 408 is connected to the output shaft of the displacement motor 406, the motor gear 408 is meshed with the arc-shaped rack 405, the motor controller 407 is connected with the displacement motor 406 and controls the action of the displacement motor, and the motor controller 407 is further connected with the data processing system 12.

When a human body turns over, the camera 203 works to collect images of the human body during sleeping and transmit the image data to the data processing system 12, the data processing system 12 judges whether the human body turns over, and determines the position of the mouth and the nose of the human body after the human body turns over, and after the human body turns over is determined, the data processing system 12 drives the air inlet cover 114 to move to the mouth and the nose by withdrawing the air cylinder controller 302, the stretching air cylinder controller 404 and the motor controller 407 according to the position of the mouth and the nose of the human body and collects respiration data again. Wherein, through standing up detection part 2, withdraw part 3 and adjusting part 4, combine sleep rhythm of the heart breathing monitoring part 1, sleep rhythm of the heart breathing monitoring part 1 can judge the human condition of standing up according to breathing frequency change combination camera 203 among the detection part 2 of standing up, after detecting that the human body turns up, withdraw part 3 and drive sleep rhythm of the heart breathing monitoring part 1 and keep away from the human body, in order to avoid hindering the human body to stand up, and avoid sleep rhythm of the heart breathing monitoring part 1 to be pushed down by the human body after standing up, after the human body stands up and accomplishes, adjusting part 4 and withdraw part 3 and put sleep rhythm of the heart breathing monitoring part 1 into the suitable position and detect once more.

Meanwhile, the problems that the sleep parameter monitoring equipment in the prior art is complex in operation, high in specialty, not suitable for household use and inconvenient for people to know the physiological parameters of the sleep parameter monitoring equipment in real time can be solved through the arrangement.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. A home sleep parameter monitoring device that facilitates operation, comprising:

the sleep heart rate and respiration monitoring component (1) is used for monitoring the heart rate and respiration of a human body during sleep;

a turn-over detection component (2) for detecting the turn-over of the human body during sleeping;

the evacuation component (3) is connected with the sleep heart rate and respiration monitoring component (1) and is used for driving the sleep heart rate and respiration monitoring component (1) to be away from the human body after the human body is detected to turn over so as to avoid hindering the turning over of the human body and avoid the sleep heart rate and respiration monitoring component (1) being pressed by the turned-over human body;

and the adjusting component (4) is connected with the sleep heart rate and respiration monitoring component (1) and is used for putting the sleep heart rate and respiration monitoring component (1) into a proper position for secondary detection after the human body is turned over.

2. An operational domestic sleep parameter monitoring device according to claim 1, wherein: the sleep heart rate and respiration monitoring component (1) comprises a data acquisition device (11) for acquiring human heart rate and respiration information in a sleep state and a data processing system (12) for analyzing and processing data acquired by the data acquisition device (11);

data acquisition equipment (11) are including respiratory volume monitoring module, respiratory volume monitoring module includes detection case (111), be provided with air sensor (112) in detection case (111), detection case (111) are connected with intake stack (113), the end-to-end connection of intake stack (113) has intake cover (114), intake cover (114) set up in human mouth nose the place ahead.

3. An operational domestic sleep parameter monitoring device according to claim 2, wherein: the turning-over detection component (2) comprises a fixing plate (201) arranged above a bed, a supporting frame (202) is arranged at the edge of the fixing plate (201), the detection box (111) is arranged on the fixing plate (201), a camera (203) is arranged on the fixing plate (201), and the camera (203) is connected with the data processing system (12);

the evacuation component (3) comprises an evacuation cylinder (301) and an evacuation cylinder controller (302), the evacuation cylinder (301) is installed on the fixing plate (201), the output end of the evacuation cylinder (301) is vertically downward and is connected with a mounting plate (303), the evacuation cylinder controller (302) is connected with the evacuation cylinder (301) and controls the evacuation cylinder (301) to act, and the evacuation cylinder controller (302) is further connected with the data processing system (12).

4. A home sleep parameter monitoring device of convenient operation according to claim 3, wherein: the adjusting component (4) comprises an arc-shaped adjusting guide rail (401) arranged at the lower end of the mounting plate (303), a displacement sliding seat (402) is arranged on the arc-shaped adjusting guide rail (401) in a sliding manner, an extending cylinder (403) and an extending cylinder controller (404) are arranged on the displacement sliding seat (402), the output end of the extending cylinder (403) is connected with the air inlet cover (114), the extending cylinder controller (404) is connected with the extending cylinder (403) and controls the action of the extending cylinder, and the extending cylinder controller (404) is further connected with the data processing system (12);

an arc-shaped rack (405) is arranged on the arc-shaped adjusting guide rail (401), a displacement motor (406) and a motor controller (407) are arranged on the displacement sliding seat (402), a motor gear (408) is connected to an output shaft of the displacement motor (406), the motor gear (408) is meshed with the arc-shaped rack (405), the motor controller (407) is connected with the displacement motor (406) and controls the movement of the displacement motor, and the motor controller (407) is further connected with the data processing system (12).

5. An operational domestic sleep parameter monitoring device according to claim 4, wherein: the data acquisition equipment (11) further comprises a heart rate monitoring module and a respiratory rate monitoring module, wherein the heart rate monitoring module is used for acquiring human body heart rate information in a sleep state, and the respiratory rate monitoring module is used for acquiring human body respiratory rate information in the sleep state;

the data acquisition equipment (11) further comprises a fixing patch (115), the fixing patch (115) is attached to clothes on the abdomen of a human body, a microprocessor (116) and a wireless transmission module are arranged on the fixing patch (115), and the microprocessor (116) is connected with the data processing system (12) through the wireless transmission module;

the heart rate monitoring module comprises a heart rate monitoring sensor (117), and the heart rate monitoring sensor (117) is connected with the microprocessor (116);

the respiratory rate monitoring module comprises a displacement sensor (118), and the displacement sensor (118) is connected with the microprocessor (116);

the air volume sensor (112) is connected with the data processing system (12).

6. An operational domestic sleep parameter monitoring device according to claim 5, wherein: the displacement sensor (118) is used for collecting the fluctuation of the abdomen of the human body during sleeping, and the microprocessor (116) transmits the fluctuation data of the abdomen transmitted by the displacement sensor (118) to the data processing system (12) and transmits the human body heart rate transmitted by the heart rate monitoring sensor (117) to the data processing system (12) through the wireless transmission module;

the data processing system (12) is used for analyzing and processing the data collected by the heart rate monitoring module, the respiratory rate monitoring module and the respiratory volume monitoring module and judging the breathing condition of the human body according to the fluctuation data of the abdomen;

when the human abdomen regularly fluctuates in small amplitude, the sleeping respiratory frequency of the human body is normal;

when the abdomen of the human body is irregular and fluctuates in small amplitude, the sleeping respiratory frequency of the human body is abnormal;

when the abdomen of the human body irregularly fluctuates greatly, the human body turns over.

7. An operational domestic sleep parameter monitoring device according to claim 6, wherein: when a human body turns over, the data processing system (12) controls the output end of the evacuation cylinder (301) to retract through the evacuation cylinder controller (302) to drive the sleep heart rate respiration monitoring component (1) to be far away from the human body;

the data processing system (12) further comprises an image processing module, and the image processing module is used for analyzing and processing the image transmitted by the camera (203) and judging the position of the mouth and nose of the human body;

when a human body turns over, the camera (203) works, images of the human body during sleep are collected, the image data are transmitted to the data processing system (12), whether the human body turns over is judged by the data processing system (12), the mouth and nose positions of the human body after the turning over is determined, and after the completion of the turning over of the human body is determined, the data processing system (12) drives the air inlet cover (114) to move to the mouth and nose positions through the evacuation cylinder controller (302), the extension cylinder controller (404) and the motor controller (407) according to the mouth and nose positions of the human body, and respiratory volume data are collected again.

8. An operational domestic sleep parameter monitoring device according to claim 7, wherein: the data processing system (12) comprises:

the data receiving module is connected with the wireless transmission module and is used for receiving the abdomen fluctuation data sent by the wireless transmission module;

the data processing module is connected with the data receiving module, the data receiving module transmits the received abdominal fluctuation data to the data processing module, the data processing module is used for converting the received abdominal fluctuation data into respiratory information, meanwhile, the data processing module is used for comparing and analyzing the processed respiratory information with preset respiratory information, judging whether the processed respiratory information is in a normal range, and if the processed respiratory information is abnormal, sending an alarm control signal;

the display is used for displaying the processed heart rate data and the processed respiratory data on a display screen for a user to check at any time;

the alarm is used for giving an alarm if the heart rate or the breathing data is abnormal;

the memory is used for storing the processed heart rate and respiration data, so that the heart rate and respiration data can be conveniently checked in the future;

the output of the microprocessor (116) is respectively connected with the display and the alarm, and the microprocessor (116) is also connected with the memory.

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