WO2016029869A1 - Sleep quality detection device - Google Patents

Sleep quality detection device Download PDF

Info

Publication number
WO2016029869A1
WO2016029869A1 PCT/CN2015/088339 CN2015088339W WO2016029869A1 WO 2016029869 A1 WO2016029869 A1 WO 2016029869A1 CN 2015088339 W CN2015088339 W CN 2015088339W WO 2016029869 A1 WO2016029869 A1 WO 2016029869A1
Authority
WO
WIPO (PCT)
Prior art keywords
user
detecting device
sleep quality
respiratory
quality detecting
Prior art date
Application number
PCT/CN2015/088339
Other languages
French (fr)
Chinese (zh)
Inventor
陈仲竹
黄振宁
Original Assignee
莱镁医疗器材股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 莱镁医疗器材股份有限公司 filed Critical 莱镁医疗器材股份有限公司
Priority to CN201580044601.5A priority Critical patent/CN106659429B/en
Publication of WO2016029869A1 publication Critical patent/WO2016029869A1/en

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/08Detecting, measuring or recording devices for evaluating the respiratory organs

Definitions

  • the present invention relates to a sleep detecting device, and more particularly to a device suitable for detecting sleep quality at home.
  • Obstructive Sleep Apnea is a symptom of respiratory muscle relaxation and collapse during sleep, obstructing the respiratory tract, making breathing unsatisfactory or stopping.
  • the patient will interrupt sleep because of the suspension of breathing, resulting in poor sleep quality, which may affect the mental state during the day, and even cause traffic accidents.
  • medicine has confirmed that if OSA patients have not received treatment for a long time, it will cause a cardiovascular burden, which will lead to other problems such as hypertension, stroke, heart failure, arrhythmia, diabetes, etc., showing that the health effects of OSA cannot be ignored.
  • PSG Polysomnography
  • EEG brain wave
  • EEG eye movement
  • EMG electromyography
  • ECG electrocardiogram
  • SaO2Saturation blood oxygen saturation
  • pulse pulse
  • nose and mouth Nasal-Oral Air Flow Thorocic Abdominal Effort, etc.
  • the sleep examination performed at the medical site may result in poor quality of sleep on the night of the examination due to factors such as replacement of the sleeping environment and adhesion of the inspection line, or the examination report may not be accurate. Therefore, solving the problem of needing to change the sleeping environment through sleep detection, but still achieving the purpose of sleep detection has become a current demand.
  • a typical PSG test records signals for at least 12 channels and requires a minimum of 22 wires to be attached to the patient's body. The number of these detection channels can be adjusted as required by the sleep therapist. These connections are collected from a central processing unit from the detection channel that records the patient's PSG signal, and then connected to a computer system to record, store, and display the results of the test.
  • the computer display can continuously display signals from multiple detected channels simultaneously.
  • a sleep test has been developed, and the patient can detect the sleep quality at home according to the instructions of the sleep therapist and the screening test tool.
  • the sleep detection tool mainly includes a respiratory airflow detecting device and a blood oxygen saturation concentration detecting device.
  • the patient can use the test tools at home to detect the quality of sleep by themselves and return the test device to the sleep therapist for one to several days, and then the sleep therapist accesses/analyzes the test result from the test device to further diagnose the patient's sleep disorder or disease.
  • the known PSG detection as described above The device needs to stick multiple wires in the patient's body, which causes many inconveniences for the patient.
  • the movement of the body during the patient's sleep may also cause some of the connections to fall off and the sleep test cannot be performed smoothly.
  • the present invention provides a sleep quality detecting apparatus including a respiratory flu detector for detecting a nasal respiratory airflow and an oral respiratory airflow of a user; when the user breathes When the airflow is through the nasal cavity, the respiratory flu detector detects nasal respiratory airflow, and when the user's respiratory airflow passes through the oral cavity, the respiratory flu detector detects oral respiratory airflow; and a circuit board is used to process the detection
  • the incoming respiratory airflow signal stores the respiratory airflow signal and the processing result.
  • the respiratory flu detector and the circuit board are integrated into a single device to prevent multiple electrical connections from being attached to the user's body to improve the comfort and accuracy of sleep detection.
  • the respiratory flu detector includes: a sensor disposed between the user's mouth and mouth and capturing the user's instantaneous respiratory airflow signal; a first attachment a member for attaching to a cheek side of the user, the first attaching member for accommodating the circuit board and the power supply battery for power supply; and a second attaching member for attaching On the other side of the user's cheek, the second attachment member is provided with a switch for turning on/off the respiratory flu detector.
  • the sensor, the first attaching member and the second attaching member are integrated into a single device, and the respiratory flu detector is fixed to the user's face through the first attaching member and the second attaching member.
  • the respiratory flu detector comprises:
  • a sensor for setting between the user's mouth and mouth and capturing the user's instantaneous respiratory airflow signal
  • an earloop component including a first end and a second end, wherein the first end The sensor and the second end are arranged to place the circuit board and the power supply battery for power supply.
  • the ear hook member extends from the first end along the side contour of the user's face to the ear portion, and the second end of the ear hook member is suspended against the ear portion to breathe the breath
  • the detector is fixed to the face of the user.
  • the respiratory flu detector comprises:
  • a body for attaching between the nose and mouth of the user having a left ear strap and a right ear strap, the left and right ear straps respectively attached to the user's face left, The right side is extended and attached to the rear of the left and right ears; wherein the inside of the body is for receiving the circuit board; and a sensor is disposed on the body for capturing the user Breathing airflow signal.
  • the respiratory flu detector comprises:
  • a clip-on sensor having a first side end and a second side end, the first side end is provided with a sensor for capturing the user's instant breathing airflow signal and the second side end is for receiving the Circuit board.
  • the pinch sensor is used to clamp the nose of the user such that the first side end and the second side end are joined to each other to clamp the nose.
  • the respiratory flu detector comprises:
  • a mouthpiece having a tooth receiving body and a hollow tubular member extending outwardly from a front end of the mouthpiece, the tooth receiving body being configured to fit the user's teeth to fix the mouthpiece In the user's mouth and the hollow tube protrudes out of the user's mouth and communicates with the mouth; a first sensor is disposed outside the hollow tube member near the user's nose and is used to detect the user's a nasal respiratory airflow; and a second sensor disposed inside the hollow tubular member for detecting the oral respiratory flow of the user.
  • the respiratory flu detector comprises:
  • a tongue-and-shoulder body for containing the user's mouth; and a sensor disposed on the tongue-mounting body to capture the user's instantaneous respiratory airflow signal.
  • the aforementioned sensor may be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing.
  • the circuit board includes: a signal collecting unit for converting the detected respiratory airflow signal into a digital signal; and a processor unit for processing the digital signal and generating a respiratory flow a resistance index; and a storage unit for storing the digital signal and the respiratory resistance index.
  • the circuit board further includes a communication interface unit for transmitting the storage data of the storage unit to an external device.
  • the sleep quality detecting apparatus of the present invention further comprises at least one of a blood oxygen saturation sensor and an electrocardiogram detecting device.
  • the blood oxygen saturation sensor may be fixed to the body part of the user in any one of the following ways: a finger attached to the user, a lower surface of the tongue attached to the user, and a finger attached to the user.
  • the electrocardiogram detecting device of the present invention is attached to a chest of a user, and the electrocardiogram detecting device includes a detecting electrode, a circuit board, and a switch.
  • the detecting electrode is configured to detect the heartbeat signal of the user
  • the circuit board is configured to process the detected heartbeat signal and the storage processing result
  • the switch is configured to turn on/off the electrocardiogram detecting device.
  • the electrocardiogram detecting device of the present invention comprises a chest attachment component and a peritoneal attachment component, the chest attachment component being provided with a first detection electrode and a circuit board for processing detection of The signal is stored and the processing result is stored.
  • the abdominal attachment component is provided with a second detecting electrode, and the chest and abdomen movement state of the user is detected by the first and second detecting electrodes.
  • FIG. 1 is a front perspective view showing a first embodiment of a sleep quality detecting apparatus of the present invention.
  • Fig. 2 is a rear perspective view showing the first embodiment of the sleep quality detecting device of the present invention.
  • Fig. 3 is a view showing the state of use of the first embodiment of the sleep quality detecting apparatus of the present invention.
  • FIG. 4 is a functional block diagram of a first embodiment of the sleep quality detecting apparatus of the present invention.
  • Fig. 5 is a perspective view showing a second embodiment of the sleep quality detecting device of the present invention.
  • 6A to 6D are schematic views showing the state of use of the second embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles.
  • Fig. 7 is a perspective view showing a third embodiment of the sleep quality detecting device of the present invention.
  • Fig. 8 is a view showing the state of use of the third embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 9 is a perspective view showing a fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • FIGS. 10A to 10B are perspective views of a fourth embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles.
  • Fig. 10C is a schematic view showing the back cover 402b of the fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 10D is a schematic view of a front cover 402a of a fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • FIG. 11 is a schematic view showing a fourth embodiment of the sleep quality detecting device of the present invention further including a state of use of the blood oxygen saturation sensor and the electrocardiogram detecting device.
  • Figure 12 is a perspective view showing a fifth embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 13 is a longitudinal cross-sectional view of Figure 12 .
  • Figure 14 is a schematic illustration of a sixth embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 15 is a schematic illustration of a use of the blood oxygen saturation sensor of the present invention.
  • Figure 16 is a front perspective view showing a specific embodiment of the electrocardiogram detecting apparatus of the present invention.
  • Fig. 17 is a view showing the state of use of the electrocardiogram detecting device of Fig. 16.
  • Figure 18 is a front perspective view showing another embodiment of the electrocardiogram detecting apparatus of the present invention.
  • Fig. 19 is a perspective view showing the back side of the electrocardiogram detecting device of Fig. 18.
  • Fig. 20 is a view showing the state of use of the electrocardiogram detecting device of Fig. 18.
  • the sleep quality detecting apparatus 100 of the present invention includes a respiratory flu detector 101 and a circuit board 102.
  • the respiratory flu detector 101 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector 101 detects nasal respiratory airflow, but when the user For example, when the nose is blocked and the mouth is breathing so that the respiratory airflow is through the oral cavity, the respiratory flu detector 101 detects the oral respiratory airflow.
  • the circuit board 102 is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result.
  • the respiratory flu detector 101 includes a sensor 1010, a first attaching component 1012, and a second attaching component 1013.
  • the sensor 1010 is configured to pick up the user's instantaneous respiratory airflow signal between the user's nasal mouth, and two ventilation catheters 1011a and 1011b are formed in the vicinity of the sensor 1010.
  • the ventilation ducts 1011a and 1011b are configured to be inserted into the user's nostrils such that the nostril breathing airflow communicates with the sensor 1010 through the ventilation ducts 1011a and 1011b.
  • the sensor 1010 detects the respiratory airflow of the user's mouth when the user is unable to breathe through the nose, such as when the nose is blocked, and the mouth is breathing to breathe through the oral cavity.
  • the first attaching member 1012 is attached to the cheek side of the user.
  • the first attaching member 1012 houses the circuit board 102 (not shown) and a power supply battery for the sleep quality detecting device 100. Power supply 103.
  • the second attaching member 1013 is for attaching to the other side of the user's cheek, and the second attaching member 1013 is provided with a switch 1014 for turning on/off the respiratory flu detector 101.
  • the second attaching component 1013 can further be provided with an indicator 1015, such as a light display, to display the operational status of the sleep quality detecting apparatus 100.
  • the respiratory flu detector 101 is fixed to the user's face by the first attaching member 1012 and the second attaching member 1013. As shown in FIGS. 1 and 2, the sensor 1010, the first attaching member 1012, and the second attaching member 1013 are integrated into a single device. In other words, in the first embodiment, the respiratory flu detector 101 is integrated with the circuit board 102 into a single device, and all electrical connections are not exposed. Referring to FIG. 3, the sleep quality detecting device 100 can prevent a plurality of electrical connecting lines from being attached to the user's body during use, thereby improving the comfort and convenience of the user and avoiding sleep quality of the user. The adverse effects can improve the accuracy of sleep test results.
  • the sleep quality detecting device 100 does not need to use an exposed electrical connection line. It is possible to prevent the electrical connection line from falling off due to the user's motion during the detection of sleep, and thus the normal operation of the sleep quality detecting apparatus 100 can be ensured. In addition, the present invention can avoid the potential danger caused by the entanglement of electrical connections during sleep.
  • the sensor 1010 can be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing.
  • the circuit board 102 such as a printed circuit board, may include a signal conditioning unit 1020, a signal collection unit 1022, a processor unit 1024, a storage unit 1026, and a communication interface unit. 1028.
  • the signal conditioning unit 1020 is coupled to the sensor 1010 for amplifying the detected respiratory airflow signal and filtering unwanted noise.
  • the signal collecting unit 1022 is configured to convert the respiratory airflow signal into a digital signal.
  • the processor unit 1024 is configured to process the digital signal and generate a respiratory flow resistance index.
  • the storage unit 1026 is configured to store the digital signal and the respiratory resistance index.
  • the communication interface unit 1028 is used for communication between the user and the outside world, for example, an external communication system can access the stored data of the storage unit 1026 via the communication interface unit 1028 for the sleep therapist to analyze the detected sleep data and Perform a sleep diagnosis.
  • Fig. 5 is a perspective view showing a second embodiment of the sleep quality detecting device of the present invention.
  • the sleep quality detecting device 200 includes a respiratory flu detector 201 and a circuit board (not shown).
  • the respiratory flu detector 201 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector 201 detects nasal respiratory airflow, but when the user For example, when the nose is blocked and the mouth is breathing so that the respiratory airflow is through the oral cavity, the respiratory flu detector 201 detects the oral respiratory airflow.
  • the circuit board is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result.
  • the respiratory flu detector 201 includes a sensor 202 and an ear hook component 203.
  • the earloop component 203 has a first end 2032 and a second end 2034.
  • the sensor 202 is received at the first end 2032 of the earloop component 203 and is configured to capture the user's instant respiratory airflow signal between the user's nose and mouth.
  • Two ventilation ducts 2033a and 2033b are formed adjacent to the sensor 202.
  • the ventilation ducts 2033a and 2033b are configured to be inserted into the user's nostrils such that the nostril breathing airflow communicates with the sensor 202 through the ventilation ducts 2033a and 2033b.
  • the sensor 202 detects the respiratory airflow of the user's mouth when the user is unable to breathe through the nose, such as when the nose is clogged and the mouth is breathing so that the respiratory airflow is through the oral cavity.
  • the sensor 202 can be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing.
  • the second end 2034 of the earloop component 203 houses the circuit board (not shown) and a power supply battery for supplying power to the sleeper quality detecting device 200. As shown in FIG. 6A to FIG.
  • the earloop member 203 extends from the first end 2032 along the side contour of the user's face to the ear, and the second end 2034 of the earloop component 203 is suspended. Hanging against the ear to fix the respiratory flu detector 201 to the User face.
  • the second end 2034 of the earloop component 203 can further be provided with a switch 2036 to control the opening or closing of the sleep quality detecting device 200.
  • the circuit board of the second embodiment can be implemented by the circuit board 102 of FIG. 4 and will not be repeated here.
  • the respiratory flu detector 201 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed.
  • the sleep quality detecting device 200 of the second embodiment also has the sleep of the first embodiment. Many advantages of the quality detecting device 100.
  • Fig. 7 is a perspective view showing a third embodiment of the sleep quality detecting device of the present invention.
  • the sleep quality detecting device 300 includes a respiratory flu detector and a circuit board (not shown).
  • the respiratory flu detector is for detecting a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector detects nasal respiratory airflow, but when the user is obstructed by, for example, a nose
  • the respiratory flu detector detects oral respiratory airflow when the mouth is breathing and the breathing airflow is through the mouth.
  • the circuit board is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result.
  • the respiratory flu detector is a clip-on sensor 301 having a first side end 302 and a second side end 303.
  • the first side end 302 is provided with a sensor 304 for capturing the user's nasal cavity. Breathing airflow signal.
  • the sensor 304 detects the breathing airflow of the user's mouth.
  • the second side end 303 houses the circuit board, and a switch 305 is disposed at the second side end 303 for controlling the opening or closing of the sleep quality detecting device 300. As shown in FIG.
  • the pinch sensor 301 is configured to clamp the nose of the user such that the first side end 302 and the second side end 303 are joined to each other to clamp the nose, thereby the sleep quality detecting device 300.
  • the sensor 304 and the circuit board of the third embodiment may adopt the implementation manners of the first and second embodiments, and are not repeated herein.
  • the respiratory flu detector 301 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed.
  • the sleep quality detecting device 300 of the third embodiment also has the first and second embodiments. The advantages of the sleep quality detection device.
  • Figure 9 is a perspective view showing a fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • 10A to 10B are perspective views of a fourth embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles.
  • Fig. 10C is a schematic view showing the back cover 402b of the fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 10D is a schematic view of a front cover 402a of a fourth embodiment of the sleep quality detecting apparatus of the present invention.
  • the sleep quality detecting device 400 includes a respiratory flu detector 401 and a circuit board (not shown).
  • the respiratory flu detector 401 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of a user.
  • the respiratory flu detector 401 detects nasal respiratory airflow when the user breathes in the nasal cavity, but the respiratory flu detector 401 detects oral respiratory airflow when the user, for example, is blocked by the nose and changed to oral breathing.
  • the circuit board is configured to process the detected respiratory airflow signal and store the respiratory gas Streaming signals and processing results.
  • the respiratory flu detector 401 includes a body 402 and a sensor 403. As shown in FIG. 9 and FIG. 11 , the body 402 is affixed between the nose and mouth of the user.
  • the body has a left ear strap 4010 and a right ear strap 4012 .
  • the left and right ear straps 4010 are examples of the respiratory flu detector 401 .
  • the 4012 is attached to the left and right sides of the user's face and extends to the left and right ear rear portions to fix the sleep quality detecting device 400 to the user's face.
  • the circuit board (not shown) is housed inside the body 402.
  • a battery holder (not shown) may be disposed inside the body 402 to place a battery for use as a power supply.
  • the sensor 403 is received in the body 402 and used to capture the user's instantaneous respiratory airflow signal.
  • the inside of the body 402 has a hollow chamber through which the user's nasal respiratory airflow can communicate with the sensor 403, so that the sensor 403 can capture the user's immediate nasal respiratory airflow signal.
  • the respiratory flu detector 403 detects the oral respiratory airflow.
  • the sensor 403 and the circuit board of the fourth embodiment may adopt the implementation manners of the first to third embodiments, and are not repeated herein.
  • the respiratory flu detector 401 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed.
  • the sleep quality detecting device 400 of the fourth embodiment also has the first to third embodiments. The advantages of the sleep quality detection device.
  • the sleep quality detecting apparatus of the present invention may further include an oxygen saturation sensor 500 and an electrocardiogram detecting apparatus 600.
  • the sleep quality detecting device of the present invention can simultaneously detect the respiratory airflow, blood oxygen saturation and heartbeat signals of the user during sleep to detect changes in blood oxygen concentration caused by the breathing state of the user during sleep, and By detecting the heartbeat signal of the user, it is further diagnosed whether the user has a cardiovascular or cardiac disease.
  • the sleep quality detecting devices of the first to third embodiments of the present invention can be used in combination with an oxygen saturation sensor and an electrocardiogram detecting device.
  • the blood oxygen saturation sensor used in the present invention may be a pinch-type oxygen saturation sensor 400 (FIG. 11) or a sock type oxygen saturation sensor 803 ( Figure 15).
  • the sock type oximetry sensor 803 can be in contact with the user's toe by wearing the user's foot. Additionally, in some embodiments of the invention, the sock oximetry sensor 803 can be used in conjunction with the pressure sensor 806 in conjunction with the accelerometer 804.
  • the accelerometer 804 can detect a change in the state of the limb during sleep of the user to further determine whether the detected signal is a pseudo noise caused by the user's limb motion.
  • the pressure sensor 806 can be used to detect a limb motion during sleep of the user to determine whether the detected signal is a false signal.
  • the oximetry sensor of the present invention can also be placed under the tongue in contact with the sublingual surface of the user to detect the blood oxygen concentration of the user.
  • Fig. 16 is a view showing an embodiment of an electrocardiogram detecting apparatus of the present invention.
  • the body of the electrocardiogram detecting device 900 includes a middle portion 901, a left side portion 902, and a right side portion 903.
  • the intermediate portion 901 internally houses a circuit board (not shown), and the switch 904 and the indicator 905 may be disposed on the upper surface of the intermediate portion 901.
  • the switch 904 controls the
  • the electrocardiogram detecting device 900 is turned on or off, and the indicator 905, such as a lamp number display, can display the operating state of the electrocardiogram detecting device 900.
  • Two detecting electrodes are respectively disposed on the lower surfaces of the left side portion 902 and the right side portion 903 and are electrically connected to a circuit board housed inside the intermediate portion 901. Referring to FIG. 17, the lower surface of the electrocardiogram detecting device 900 is attached to the chest of the user, and the detecting electrode detects the heartbeat signal of the user, and the circuit board processes the detected heartbeat signal and stores the processing result.
  • the electrocardiogram detecting device 110 includes a chest attaching member 112 and a peritoneal attaching member 114.
  • the chest attaching member 112 is provided with a first detecting electrode 1122 and a circuit board (not shown).
  • the circuit board is configured to process the detected signal and store the processing result.
  • the abdominal cavity attaching component 114 is provided with a second detecting electrode 1142, and the first and second detecting electrodes 1122, 1142 are used to detect the chest and abdomen motion state of the user.
  • the chest attachment member 112 is further provided with a power supply battery 1124, a switch 1126, and an indicator 1128.
  • the power supply battery 1124 is used as a power supply source and the switch 1126 is used to turn on/off the electrocardiogram detecting device 110.
  • the indicator 1128 such as a light display, can display the operational status of the electrocardiographic detection device 110.
  • FIG 12 is a perspective view showing a fifth embodiment of the sleep quality detecting apparatus of the present invention.
  • Figure 13 is a longitudinal cross-sectional view of the sleep quality detecting device of Figure 12 .
  • the sleep quality detecting device includes a respiratory flu detector 700.
  • the respiratory flu detector 700 includes a mouthpiece 701, a first sensor 703, and a second sensor 704.
  • the mouthpiece 701 has a tooth receiving body, and a hollow tubular member 702 extends outwardly from the front end of the mouthpiece 701.
  • the configuration of the dental receptacle is adapted to the user's teeth to secure the mouthpiece 701 within the user's mouth and the hollow tubular member 702 protrudes out of the user's mouth and communicates with the oral cavity.
  • the first sensor 703 is disposed on the outer surface of the top of the hollow tube 702 to be close to the nose of the user and used to detect the nasal airflow of the user.
  • the second sensor 704 is disposed inside the hollow tube 702 and is used to detect the oral respiratory flow of the user.
  • the section of the hollow tubular member 702 adjacent to the mouthpiece 701 may be a flexible tubular structure 702a to adjust the positions of the first sensor 703 and the second sensor 704.
  • the blood oxygen saturation sensor of the present invention can be directly disposed under the tongue to contact the lower surface of the user's tongue to detect the blood oxygen concentration of the user and can be used with the respiratory gas detector. 700 used together.
  • FIG 14 is a perspective view showing a sixth embodiment of the sleep quality detecting apparatus of the present invention.
  • the sleep quality detecting device is a respiratory flu detector 800 comprising a tongue-and-groove body and a sensor 802.
  • the tongue placement body is included in the mouth of the user, and the sensor 802 is disposed on the tongue placement body to capture the user's instantaneous respiratory airflow signal.
  • the sensor 802 is configured to detect a nasal airflow of the user Or oral breathing airflow.
  • the sensor 802 detects the nasal respiratory airflow when the user's respiratory airflow passes through the nasal cavity, but the sensor 802 detects when the user, for example, the nose is blocked and the mouth is breathed so that the respiratory airflow is through the oral cavity. Oral breathing airflow.
  • the blood oxygen saturation sensor and the electrocardiogram detecting device of the present invention may be combined with the sleep quality detecting device of the present invention alone or in combination.

Abstract

A sleep quality detection device (100), comprising a breathing airflow sensor (101) and a circuit board (102), wherein the breathing airflow sensor (101) is used for detecting either a nasal breathing airflow or an oral breathing airflow of a user; and the circuit board (102) is used for processing a detected breathing airflow signal and storing the breathing airflow signal and a processing result. The breathing airflow sensor (101) and the circuit board (102) are integrated into a single device, so that there is no need for a plurality of electrical connection wires to be attached to the body of the user, thereby improving the degree of comfort and the accuracy of sleep detection, and avoiding a potential risk caused by the winding of the electrical connection wires during sleep.

Description

睡眠品质检测装置Sleep quality detecting device 技术领域Technical field
本发明是有关于一种睡眠检测装置,特别是有关于一种适合居家检测睡眠品质的装置。The present invention relates to a sleep detecting device, and more particularly to a device suitable for detecting sleep quality at home.
背景技术Background technique
阻塞型睡眠呼吸中止症(Obstructive Sleep Apnea,简称OSA)是睡眠时呼吸道肌肉松弛塌陷,阻塞呼吸道,使得呼吸不顺或是呼吸中止的一种症状。患者会因为呼吸中止而中断睡眠,使得睡眠品质不佳,连带影响白天精神状况,严重的甚至造成交通意外。目前医学已证实,若OSA患者长期没有接受治疗,将会造成心血管负担,进而导致高血压、中风、心脏衰竭、心律不整、糖尿病等其他问题产生,可见OSA带来的健康影响不容忽视。Obstructive Sleep Apnea (OSA) is a symptom of respiratory muscle relaxation and collapse during sleep, obstructing the respiratory tract, making breathing unsatisfactory or stopping. The patient will interrupt sleep because of the suspension of breathing, resulting in poor sleep quality, which may affect the mental state during the day, and even cause traffic accidents. At present, medicine has confirmed that if OSA patients have not received treatment for a long time, it will cause a cardiovascular burden, which will lead to other problems such as hypertension, stroke, heart failure, arrhythmia, diabetes, etc., showing that the health effects of OSA cannot be ignored.
“睡眠多项生理检查(Polysomnography,PSG)”是目前睡眠医学研究、诊断睡眠生理、睡眠障碍及与睡眠有关疾病经常被使用的标准工具。常规的睡眠多项生理检测频道包括脑波图(EEG)、眼动图(EOG)、肌电图(EMG)、心电图(ECG)、血氧饱和度(SaO2Saturation)、脉搏(Pulse)、口鼻呼吸气流(Nasal-Oral Air Flow)、胸腹呼吸动作(Thoracic Abdominal Effort)等。"Polysomnography (PSG)" is a standard tool currently used in sleep medical research, diagnosis of sleep physiology, sleep disorders, and sleep-related diseases. Conventional sleep multiple physiological detection channels include brain wave (EEG), eye movement (EOG), electromyography (EMG), electrocardiogram (ECG), blood oxygen saturation (SaO2Saturation), pulse (pulse), nose and mouth Nasal-Oral Air Flow, Thorocic Abdominal Effort, etc.
目前在医疗场所执行的睡眠检查因睡眠环境更换、检查线粘贴等因素,可能造成检查当晚睡眠品质不佳,或根本无法入睡而导致检查报告不甚准确。因此,通过睡眠检测解决需要更换睡眠环境的问题但仍可达到睡眠检测目的成为目前的一项需求。一般的PSG检测记录至少12个频道的信号并需要最少22条连线附接在患者的身体,这些检测频道数目可依睡眠治疗师的要求而调整。这些连线从记录患者PSG信号的检测频道汇集于一中央处理器盒,接着连接至计算机系统以记录、储存及显示检测结果。在睡眠期间,计算机显示器可同时持续显示多个检测频道的信号。基于提高患者睡眠舒适度及检测结果的准确度与降低睡眠检查费用的考量,目前发展出一种睡眠检测,患者可依照睡眠治疗师的指示与筛选的检测工具在家自行检测睡眠品质。睡眠检测工具主要包括呼吸气流检测装置及血氧饱和浓度检测装置。患者可在家中使用这些检测工具自行检测睡眠品质一到数天后将检测装置返还睡眠治疗师,再由睡眠治疗师从检测装置存取/分析检测结果,以进一步诊断患者是否有睡眠方面的障碍或疾病。此外,如上述已知的PSG检测 装置需要在患者身体粘贴多条连线,造成患者诸多不方便。患者睡眠期间身体的动作也可能导致有些连线的脱落而无法顺利进行睡眠检测。At present, the sleep examination performed at the medical site may result in poor quality of sleep on the night of the examination due to factors such as replacement of the sleeping environment and adhesion of the inspection line, or the examination report may not be accurate. Therefore, solving the problem of needing to change the sleeping environment through sleep detection, but still achieving the purpose of sleep detection has become a current demand. A typical PSG test records signals for at least 12 channels and requires a minimum of 22 wires to be attached to the patient's body. The number of these detection channels can be adjusted as required by the sleep therapist. These connections are collected from a central processing unit from the detection channel that records the patient's PSG signal, and then connected to a computer system to record, store, and display the results of the test. During sleep, the computer display can continuously display signals from multiple detected channels simultaneously. Based on the improvement of the patient's sleep comfort and the accuracy of the test results and the reduction of the cost of sleep examination, a sleep test has been developed, and the patient can detect the sleep quality at home according to the instructions of the sleep therapist and the screening test tool. The sleep detection tool mainly includes a respiratory airflow detecting device and a blood oxygen saturation concentration detecting device. The patient can use the test tools at home to detect the quality of sleep by themselves and return the test device to the sleep therapist for one to several days, and then the sleep therapist accesses/analyzes the test result from the test device to further diagnose the patient's sleep disorder or disease. In addition, the known PSG detection as described above The device needs to stick multiple wires in the patient's body, which causes many inconveniences for the patient. The movement of the body during the patient's sleep may also cause some of the connections to fall off and the sleep test cannot be performed smoothly.
发明内容Summary of the invention
本发明的目的在于提供一种可减少使用者身上检测连线数目并且容易使用/操作的睡眠品质检测装置,以提高睡眠检测的舒适度及准确性。It is an object of the present invention to provide a sleep quality detecting device that can reduce the number of detected connections on a user and is easy to use/operate to improve the comfort and accuracy of sleep detection.
基于上述目的,在一方面,本发明提供一种睡眠品质检测装置,其包括一呼吸气流感测器,用以检测使用者的鼻腔呼吸气流及口腔呼吸气流任一者;当该使用者的呼吸气流是通过鼻腔时,该呼吸气流感测器检测鼻腔呼吸气流,当该使用者的呼吸气流是通过口腔时,该呼吸气流感测器检测口腔呼吸气流;以及一电路板,是用以处理检测到的呼吸气流信号并储存该呼吸气流信号及处理结果。在本发明的一些实施态样中,该呼吸气流感测器及电路板整合成为一个单一装置,可避免在使用者身体附着多条电气连线,以提高睡眠检测的舒适度及准确性。Based on the above object, in one aspect, the present invention provides a sleep quality detecting apparatus including a respiratory flu detector for detecting a nasal respiratory airflow and an oral respiratory airflow of a user; when the user breathes When the airflow is through the nasal cavity, the respiratory flu detector detects nasal respiratory airflow, and when the user's respiratory airflow passes through the oral cavity, the respiratory flu detector detects oral respiratory airflow; and a circuit board is used to process the detection The incoming respiratory airflow signal stores the respiratory airflow signal and the processing result. In some embodiments of the present invention, the respiratory flu detector and the circuit board are integrated into a single device to prevent multiple electrical connections from being attached to the user's body to improve the comfort and accuracy of sleep detection.
在本发明的一实施态样中,该呼吸气流感测器包含:一感测器,用以设置于该使用者口鼻之间并撷取该使用者即时呼吸气流信号;一第一贴附部件,用以贴附于该使用者的脸颊一侧,该第一贴附部件内部供容置该电路板及供电电池以供做电力供应源;及一第二贴附部件,用以贴附于该使用者的脸颊另一侧,该第二贴附部件设置开关,用以开启/关闭该呼吸气流感测器。该感测器、第一贴附部件及第二贴附部件整合成为一个单一装置,并且该呼吸气流感测器通过该第一贴附部件及第二贴附部件固定于该使用者脸部。In an embodiment of the present invention, the respiratory flu detector includes: a sensor disposed between the user's mouth and mouth and capturing the user's instantaneous respiratory airflow signal; a first attachment a member for attaching to a cheek side of the user, the first attaching member for accommodating the circuit board and the power supply battery for power supply; and a second attaching member for attaching On the other side of the user's cheek, the second attachment member is provided with a switch for turning on/off the respiratory flu detector. The sensor, the first attaching member and the second attaching member are integrated into a single device, and the respiratory flu detector is fixed to the user's face through the first attaching member and the second attaching member.
在本发明的一实施态样中,该呼吸气流感测器包含:In an embodiment of the invention, the respiratory flu detector comprises:
一感测器,用以设置于该使用者口鼻之间并撷取该使用者即时呼吸气流信号;及一耳挂部件,其包含一第一端及一第二端,其中该第一端容置该感测器及该第二端内容置该电路板及供电电池以供做电力供应源。该耳挂部件从该第一端顺着该使用者脸部一侧轮廓延伸至耳部,而使该耳挂部件的该第二端吊挂抵靠于该耳部,以将该呼吸气流感测器固定于该使用者脸部。a sensor for setting between the user's mouth and mouth and capturing the user's instantaneous respiratory airflow signal; and an earloop component including a first end and a second end, wherein the first end The sensor and the second end are arranged to place the circuit board and the power supply battery for power supply. The ear hook member extends from the first end along the side contour of the user's face to the ear portion, and the second end of the ear hook member is suspended against the ear portion to breathe the breath The detector is fixed to the face of the user.
在本发明的一实施态样中,该呼吸气流感测器包含:In an embodiment of the invention, the respiratory flu detector comprises:
一本体,用以贴附设置于该使用者口鼻之间,该本体具有一左侧耳带及一右侧耳带,该左、右侧耳带分别贴附于该使用者脸部左、右侧边并延伸贴附至左、右耳后部;其中该本体内部供容置该电路板;及一感测器,容置于该本体并用以撷取该使用者即时 呼吸气流信号。a body for attaching between the nose and mouth of the user, the body having a left ear strap and a right ear strap, the left and right ear straps respectively attached to the user's face left, The right side is extended and attached to the rear of the left and right ears; wherein the inside of the body is for receiving the circuit board; and a sensor is disposed on the body for capturing the user Breathing airflow signal.
在本发明的一实施态样中,该呼吸气流感测器包含:In an embodiment of the invention, the respiratory flu detector comprises:
一夹鼻感测器,其具有一第一侧端及一第二侧端,该第一侧端设置一感测器以撷取该使用者即时呼吸气流信号以及该第二侧端容置该电路板。该夹鼻感测器用以夹住该使用者鼻部,以使其第一侧端及第二侧端连合夹住鼻部。a clip-on sensor having a first side end and a second side end, the first side end is provided with a sensor for capturing the user's instant breathing airflow signal and the second side end is for receiving the Circuit board. The pinch sensor is used to clamp the nose of the user such that the first side end and the second side end are joined to each other to clamp the nose.
在本发明的一实施态样中,该呼吸气流感测器包含:In an embodiment of the invention, the respiratory flu detector comprises:
一嘴件(mouthpiece),具有一牙齿容置体及一中空管件从该嘴件前端向外延伸,该牙齿容置体的构形与该使用者的牙齿相适配,以将该嘴件固定于该使用者口腔内并且该中空管件凸出于该使用者嘴巴外面并连通于口腔;一第一感测器,设置于该中空管件外部靠近该使用者鼻部,并用以检测该使用者的鼻腔呼吸气流;及一第二感测器,设置于该中空管件内部并用以检测该使用者的口腔呼吸气流。a mouthpiece having a tooth receiving body and a hollow tubular member extending outwardly from a front end of the mouthpiece, the tooth receiving body being configured to fit the user's teeth to fix the mouthpiece In the user's mouth and the hollow tube protrudes out of the user's mouth and communicates with the mouth; a first sensor is disposed outside the hollow tube member near the user's nose and is used to detect the user's a nasal respiratory airflow; and a second sensor disposed inside the hollow tubular member for detecting the oral respiratory flow of the user.
在本发明的一实施态样中,该呼吸气流感测器包含:In an embodiment of the invention, the respiratory flu detector comprises:
一舌面置放件本体,供含衔于该使用者口腔;及一感测器,设置于该舌面置放件本体,以撷取该使用者即时呼吸气流信号。a tongue-and-shoulder body for containing the user's mouth; and a sensor disposed on the tongue-mounting body to capture the user's instantaneous respiratory airflow signal.
在本发明的一些实施态样中,前述感测器可以是热敏电阻感测器、压力感测器、气流感测器、呼吸速度感测器或前述的组合。In some embodiments of the invention, the aforementioned sensor may be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing.
在本发明的一些实施态样中,该电路板包括:一信号收集单元,用以将检测到的呼吸气流信号转换成一数字信号;一处理器单元,用以处理该数字信号并产生一呼吸流阻指数;及一存储单元,用以储存该数字信号及呼吸流阻指数。在本发明的一些实施态样中,该电路板更包含一通信接口单元,用以传输该存储单元的储存数据至一外接装置。In some embodiments of the present invention, the circuit board includes: a signal collecting unit for converting the detected respiratory airflow signal into a digital signal; and a processor unit for processing the digital signal and generating a respiratory flow a resistance index; and a storage unit for storing the digital signal and the respiratory resistance index. In some embodiments of the present invention, the circuit board further includes a communication interface unit for transmitting the storage data of the storage unit to an external device.
在本发明的一些实施态样中,本发明的睡眠品质检测装置进一步包含血氧饱和度感测器及心电图检测装置至少其中之一。前述血氧饱和度感测器可以下任一种方式固定于使用者身体部位:夹持于该使用者的一指头、贴附于使用者的舌头下表面及贴附于使用者一指头。In some embodiments of the present invention, the sleep quality detecting apparatus of the present invention further comprises at least one of a blood oxygen saturation sensor and an electrocardiogram detecting device. The blood oxygen saturation sensor may be fixed to the body part of the user in any one of the following ways: a finger attached to the user, a lower surface of the tongue attached to the user, and a finger attached to the user.
在本发明的一些实施态样中,本发明的心电图检测装置用以贴附于使用者的胸腔,该心电图检测装置包含检测电极、电路板及开关。前述检测电极用以检测该使用者心跳信号,该电路板用以处理检测到的心跳信号及储存处理结果,该开关用以开启/关闭该心电图检测装置。In some embodiments of the present invention, the electrocardiogram detecting device of the present invention is attached to a chest of a user, and the electrocardiogram detecting device includes a detecting electrode, a circuit board, and a switch. The detecting electrode is configured to detect the heartbeat signal of the user, the circuit board is configured to process the detected heartbeat signal and the storage processing result, and the switch is configured to turn on/off the electrocardiogram detecting device.
在本发明的一些实施态样中,本发明的心电图检测装置包含一胸腔贴附部件及一腹腔贴附部件,该胸腔贴附部件设置有一第一检测电极及电路板,该电路板供处理检测的 信号并储存处理结果,该腹腔贴附部件设置有一第二检测电极,通过该第一、二检测电极检测该使用者胸腹运动状态。In some embodiments of the present invention, the electrocardiogram detecting device of the present invention comprises a chest attachment component and a peritoneal attachment component, the chest attachment component being provided with a first detection electrode and a circuit board for processing detection of The signal is stored and the processing result is stored. The abdominal attachment component is provided with a second detecting electrode, and the chest and abdomen movement state of the user is detected by the first and second detecting electrodes.
附图说明DRAWINGS
本发明的新颖特征已特别陈述于权利要求书中。本发明的特征及优点通过下文具体实施例的详细描述将会趋于明了,其中对应图式如下:The novel features of the invention are set forth with particularity in the claims. The features and advantages of the present invention will be apparent from the following detailed description of the embodiments illustrated herein.
图1是本发明睡眠品质检测装置的第一具体实施例的正面立体示意图。BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front perspective view showing a first embodiment of a sleep quality detecting apparatus of the present invention.
图2是本发明睡眠品质检测装置的第一具体实施例的背面立体示意图。Fig. 2 is a rear perspective view showing the first embodiment of the sleep quality detecting device of the present invention.
图3是本发明睡眠品质检测装置的第一具体实施例的使用状态示意图。Fig. 3 is a view showing the state of use of the first embodiment of the sleep quality detecting apparatus of the present invention.
图4是本发明睡眠品质检测装置的第一具体实施例的功能方块示意图。4 is a functional block diagram of a first embodiment of the sleep quality detecting apparatus of the present invention.
图5是本发明睡眠品质检测装置的第二具体实施例的立体示意图。Fig. 5 is a perspective view showing a second embodiment of the sleep quality detecting device of the present invention.
图6A至图6D是本发明睡眠品质检测装置的第二具体实施例从不同角度观看的使用状态示意图。6A to 6D are schematic views showing the state of use of the second embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles.
图7是本发明睡眠品质检测装置的第三具体实施例的立体示意图。Fig. 7 is a perspective view showing a third embodiment of the sleep quality detecting device of the present invention.
图8是本发明睡眠品质检测装置的第三具体实施例的使用状态示意图。Fig. 8 is a view showing the state of use of the third embodiment of the sleep quality detecting apparatus of the present invention.
图9是本发明睡眠品质检测装置的第四具体实施例的立体示意图。Figure 9 is a perspective view showing a fourth embodiment of the sleep quality detecting apparatus of the present invention.
图10A至图10B是本发明睡眠品质检测装置的第四具体实施例从不同角度观看的立体示意图。10A to 10B are perspective views of a fourth embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles.
图10C是本发明睡眠品质检测装置的第四具体实施例的背面盖体402b示意图。Fig. 10C is a schematic view showing the back cover 402b of the fourth embodiment of the sleep quality detecting apparatus of the present invention.
图10D是本发明睡眠品质检测装置的第四具体实施例的正面盖体402a示意图。Figure 10D is a schematic view of a front cover 402a of a fourth embodiment of the sleep quality detecting apparatus of the present invention.
图11是本发明睡眠品质检测装置的第四具体实施例进一步包含血氧饱和度感测器及心电图检测装置的使用状态示意图。11 is a schematic view showing a fourth embodiment of the sleep quality detecting device of the present invention further including a state of use of the blood oxygen saturation sensor and the electrocardiogram detecting device.
图12是本发明睡眠品质检测装置的第五具体实施例的立体示意图。Figure 12 is a perspective view showing a fifth embodiment of the sleep quality detecting apparatus of the present invention.
图13是图12的纵向剖面示意图。Figure 13 is a longitudinal cross-sectional view of Figure 12 .
图14是本发明睡眠品质检测装置的第六具体实施例的示意图。Figure 14 is a schematic illustration of a sixth embodiment of the sleep quality detecting apparatus of the present invention.
图15是本发明血氧饱和度感测器的一使用态样示意图。Figure 15 is a schematic illustration of a use of the blood oxygen saturation sensor of the present invention.
图16是本发明心电图检测装置的一具体实施例的正面立体示意图。Figure 16 is a front perspective view showing a specific embodiment of the electrocardiogram detecting apparatus of the present invention.
图17是图16的心电图检测装置的使用状态示意图。Fig. 17 is a view showing the state of use of the electrocardiogram detecting device of Fig. 16.
图18是本发明心电图检测装置的另一具体实施例的正面立体示意图。Figure 18 is a front perspective view showing another embodiment of the electrocardiogram detecting apparatus of the present invention.
图19是图18的心电图检测装置的背面立体示意图。 Fig. 19 is a perspective view showing the back side of the electrocardiogram detecting device of Fig. 18.
图20是图18的心电图检测装置的使用状态示意图。Fig. 20 is a view showing the state of use of the electrocardiogram detecting device of Fig. 18.
附图标记Reference numeral
100          睡眠品质检测装置100 sleep quality testing device
101          呼吸气流感测器101 breathing gas flu detector
102          电路板102 circuit board
103          电源供应器103 power supply
110          心电图检测装置110 ECG detection device
112          胸腔贴附部件112 chest attachment parts
114          腹腔贴附部件114 abdominal attachment parts
200          睡眠品质检测装置200 sleep quality testing device
202          感测器202 sensor
203          耳挂部件203 ear hook parts
300          睡眠品质检测装置300 sleep quality testing device
301          夹鼻感测器301 pin nose sensor
302          第一侧端302 first side
303          第二侧端303 second side
304          感测器304 sensor
305          开关305 switch
400          睡眠品质检测装置400 sleep quality testing device
401          呼吸气流感测器401 breathing gas flu detector
402          本体402 ontology
402a         正面盖体402a front cover
402b         背面盖体402b back cover
500          血氧饱和度感测器500 oximetry sensor
600          心电图检测装置600 ECG detection device
700          呼吸气流感测器700 breathing gas flu detector
701          嘴件701 mouthpiece
702          中空管件702 hollow pipe fittings
702a         蛇管结构702a coil structure
703          第一感测器 703 first sensor
704          该第二感测器704 the second sensor
800          呼吸气流感测器800 breathing gas flu detector
802          感测器802 sensor
803          袜型血氧饱和度感测器803 Socks Oxygen Saturation Sensor
804          加速计804 accelerometer
806          压力感测器806 pressure sensor
900          心电图检测装置900 ECG detection device
901          中间部分901 middle part
902          左侧部分902 left part
903          右侧部分903 right part
904          开关904 switch
905          指示器905 indicator
1010         感测器1010 sensor
1011a,1011b  通气导管1011a, 1011b ventilation catheter
1012         第一贴附部件1012 First attachment part
1013         第二贴附部件1013 Second attachment part
1014         开关1014 switch
1015         指示器1015 indicator
1020         信号调节单元1020 signal conditioning unit
1022         信号收集单元1022 signal collection unit
1024         处理器单元1024 processor unit
1026         存储单元1026 storage unit
1028         通信接口单元1028 communication interface unit
2032         第一端2032 first end
2033a,2033b  通气导管2033a, 2033b ventilation catheter
2034         第二端2034 second end
2036         开关2036 switch
4010         左侧耳带4010 left ear strap
4012         右侧耳带4012 right ear strap
1122         第一检测电极 1122 first detection electrode
1124          供电电池1124 power supply battery
1126          开关1126 switch
1128          指示器1128 indicator
1142          第二检测电极1142 second detection electrode
具体实施方式Detailed ways
图1是本发明睡眠品质检测装置第一具体实施例的正面立体示意图,图2是本发明睡眠品质检测装置第一具体实施例的背面立体示意图。在第一具体实施例中,本发明的睡眠品质检测装置100包括一呼吸气流感测器101及一电路板102。该呼吸气流感测器101用以检测使用者的鼻腔呼吸气流或口腔呼吸气流;当该使用者的呼吸气流是通过鼻腔时,该呼吸气流感测器101检测鼻腔呼吸气流,但当该使用者例如鼻子阻塞改以嘴巴呼吸而使其呼吸气流是通过口腔时,该呼吸气流感测器101检测口腔呼吸气流。该电路板102用以处理检测到的呼吸气流信号并储存该呼吸气流信号及处理结果。该呼吸气流感测器101包含一感测器1010、一第一贴附部件1012及一第二贴附部件1013。该感测器1010用以附着于该使用者的鼻口之间撷取该使用者即时呼吸气流信号,并且两支通气导管1011a及1011b形成于该感测器1010附近。前述通气导管1011a及1011b用以插入该使用者鼻孔,以使鼻孔呼吸气流通过前述通气导管1011a及1011b连通于该感测器1010。当该使用者无法以鼻子呼吸时,例如鼻子阻塞,改以嘴巴呼吸而使其呼吸气流通过口腔时,该感测器1010会检测该使用者口腔的呼吸气流。该第一贴附部件1012贴附于该使用者的脸颊一侧,该第一贴附部件1012内部容置该电路板102(未示出)及供电电池以供做该睡眠品质检测装置100的电源供应器103。该第二贴附部件1013用以贴附于该使用者的脸颊另一侧,该第二贴附部件1013设置一开关1014,用以开启/关闭该呼吸气流感测器101。该第二贴附部件1013更可设置一指示器1015,例如一灯号显示器,以显示该睡眠品质检测装置100的运作状态。在第一具体实施例中,该呼吸气流感测器101通过该第一贴附部件1012及第二贴附部件1013固定于该使用者脸部。如图1及图2所示,该感测器1010、第一贴附部件1012及该第二贴附部件1013整合成为一个单一装置。换句话说,在第一具体实施例,该呼吸气流感测器101与电路板102整合成为一个单一装置,所有电气连接线不外露。请见图3,该睡眠品质检测装置100在使用状态可避免在该使用者身体贴附多条电气连接线,进而可以增进该使用者的舒适感及方便性,可避免对该使用者睡眠品质的不利影响,可提高睡眠检测结果的准确性。再者,该睡眠品质检测装置100不需使用外露的电气连接线 可以防止在检测睡眠期间因该使用者动作造成电气连接线的脱落,因而可以确保该睡眠品质检测装置100的正常运作。此外,本发明可以避免睡眠中电气连线缠绕所造成的潜在危险。1 is a front perspective view of a first embodiment of a sleep quality detecting device of the present invention, and FIG. 2 is a rear perspective view of a first embodiment of the sleep quality detecting device of the present invention. In the first embodiment, the sleep quality detecting apparatus 100 of the present invention includes a respiratory flu detector 101 and a circuit board 102. The respiratory flu detector 101 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector 101 detects nasal respiratory airflow, but when the user For example, when the nose is blocked and the mouth is breathing so that the respiratory airflow is through the oral cavity, the respiratory flu detector 101 detects the oral respiratory airflow. The circuit board 102 is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result. The respiratory flu detector 101 includes a sensor 1010, a first attaching component 1012, and a second attaching component 1013. The sensor 1010 is configured to pick up the user's instantaneous respiratory airflow signal between the user's nasal mouth, and two ventilation catheters 1011a and 1011b are formed in the vicinity of the sensor 1010. The ventilation ducts 1011a and 1011b are configured to be inserted into the user's nostrils such that the nostril breathing airflow communicates with the sensor 1010 through the ventilation ducts 1011a and 1011b. The sensor 1010 detects the respiratory airflow of the user's mouth when the user is unable to breathe through the nose, such as when the nose is blocked, and the mouth is breathing to breathe through the oral cavity. The first attaching member 1012 is attached to the cheek side of the user. The first attaching member 1012 houses the circuit board 102 (not shown) and a power supply battery for the sleep quality detecting device 100. Power supply 103. The second attaching member 1013 is for attaching to the other side of the user's cheek, and the second attaching member 1013 is provided with a switch 1014 for turning on/off the respiratory flu detector 101. The second attaching component 1013 can further be provided with an indicator 1015, such as a light display, to display the operational status of the sleep quality detecting apparatus 100. In the first embodiment, the respiratory flu detector 101 is fixed to the user's face by the first attaching member 1012 and the second attaching member 1013. As shown in FIGS. 1 and 2, the sensor 1010, the first attaching member 1012, and the second attaching member 1013 are integrated into a single device. In other words, in the first embodiment, the respiratory flu detector 101 is integrated with the circuit board 102 into a single device, and all electrical connections are not exposed. Referring to FIG. 3, the sleep quality detecting device 100 can prevent a plurality of electrical connecting lines from being attached to the user's body during use, thereby improving the comfort and convenience of the user and avoiding sleep quality of the user. The adverse effects can improve the accuracy of sleep test results. Furthermore, the sleep quality detecting device 100 does not need to use an exposed electrical connection line. It is possible to prevent the electrical connection line from falling off due to the user's motion during the detection of sleep, and thus the normal operation of the sleep quality detecting apparatus 100 can be ensured. In addition, the present invention can avoid the potential danger caused by the entanglement of electrical connections during sleep.
图4是本发明睡眠品质检测装置100的功能方块示意图。在本发明一些实施态样中,该感测器1010可以是热敏电阻感测器、压力感测器、气流感测器、呼吸速度感测器或前述的组合。在本发明的一实施态样中,该电路板102,例如印刷电路板,其可以包含一信号调节单元1020、一信号收集单元1022、一处理器单元1024、一存储单元1026及一通信接口单元1028。该信号调节单元1020耦合至该感测器1010,用以放大检测的呼吸气流信号及过滤不要的噪声。该信号收集单元1022用以将该呼吸气流信号转换成一数字信号。该处理器单元1024用以处理该数字信号并产生一呼吸流阻指数。该存储单元1026用以储存该数字信号及呼吸流阻指数。该通信接口单元1028用于使用者与外界之间的通信,例如一外接通信系统可以经由该通信接口单元1028存取该存储单元1026的储存数据,以供睡眠治疗师分析检测到的睡眠数据并进行睡眠诊断。4 is a functional block diagram of the sleep quality detecting apparatus 100 of the present invention. In some embodiments of the invention, the sensor 1010 can be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing. In an embodiment of the invention, the circuit board 102, such as a printed circuit board, may include a signal conditioning unit 1020, a signal collection unit 1022, a processor unit 1024, a storage unit 1026, and a communication interface unit. 1028. The signal conditioning unit 1020 is coupled to the sensor 1010 for amplifying the detected respiratory airflow signal and filtering unwanted noise. The signal collecting unit 1022 is configured to convert the respiratory airflow signal into a digital signal. The processor unit 1024 is configured to process the digital signal and generate a respiratory flow resistance index. The storage unit 1026 is configured to store the digital signal and the respiratory resistance index. The communication interface unit 1028 is used for communication between the user and the outside world, for example, an external communication system can access the stored data of the storage unit 1026 via the communication interface unit 1028 for the sleep therapist to analyze the detected sleep data and Perform a sleep diagnosis.
图5是本发明睡眠品质检测装置第二具体实施例的立体示意图。在第二具体实施例中,该睡眠品质检测装置200包括一呼吸气流感测器201及一电路板(未示出)。该呼吸气流感测器201用以检测使用者的鼻腔呼吸气流或口腔呼吸气流;当该使用者的呼吸气流是通过鼻腔时,该呼吸气流感测器201检测鼻腔呼吸气流,但当该使用者例如鼻子阻塞改以嘴巴呼吸而使其呼吸气流是通过口腔时,该呼吸气流感测器201检测口腔呼吸气流。该电路板用以处理检测到的呼吸气流信号并储存该呼吸气流信号及处理结果。该呼吸气流感测器201包含一感测器202及一耳挂部件203。该耳挂部件203具有一第一端2032及一第二端2034。该感测器202容置于该耳挂部件203的第一端2032并且用以设置于该使用者口鼻之间撷取该使用者即时呼吸气流信号。两支通气导管2033a及2033b形成于该感测器202附近。前述通气导管2033a及2033b用以插入该使用者鼻孔,以使鼻孔呼吸气流通过前述通气导管2033a及2033b连通于该感测器202。当该使用者无法以鼻子呼吸时,例如鼻子阻塞,改以嘴巴呼吸而使其呼吸气流是通过口腔时,该感测器202会检测该使用者口腔的呼吸气流。在本发明一些实施态样中,该感测器202可以是热敏电阻感测器、压力感测器、气流感测器、呼吸速度感测器或前述的组合。该耳挂部件203的第二端2034内容置该电路板(未示出)及供电电池以供做该睡眠器品质检测装置200的电源供应源。请见图6A至图6D所示,该耳挂部件203从该第一端2032顺着该使用者脸部一侧轮廓延伸至耳部,而使该耳挂部件203的该第二端2034吊挂抵靠于该耳部,以将该呼吸气流感测器201固定于该 使用者脸部。该耳挂部件203的第二端2034更可设置一开关2036,以控制该睡眠品质检测装置200的开启或关闭。第二具体实施例的电路板可以采用图4的电路板102实施态样,在此不再重述。Fig. 5 is a perspective view showing a second embodiment of the sleep quality detecting device of the present invention. In a second embodiment, the sleep quality detecting device 200 includes a respiratory flu detector 201 and a circuit board (not shown). The respiratory flu detector 201 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector 201 detects nasal respiratory airflow, but when the user For example, when the nose is blocked and the mouth is breathing so that the respiratory airflow is through the oral cavity, the respiratory flu detector 201 detects the oral respiratory airflow. The circuit board is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result. The respiratory flu detector 201 includes a sensor 202 and an ear hook component 203. The earloop component 203 has a first end 2032 and a second end 2034. The sensor 202 is received at the first end 2032 of the earloop component 203 and is configured to capture the user's instant respiratory airflow signal between the user's nose and mouth. Two ventilation ducts 2033a and 2033b are formed adjacent to the sensor 202. The ventilation ducts 2033a and 2033b are configured to be inserted into the user's nostrils such that the nostril breathing airflow communicates with the sensor 202 through the ventilation ducts 2033a and 2033b. The sensor 202 detects the respiratory airflow of the user's mouth when the user is unable to breathe through the nose, such as when the nose is clogged and the mouth is breathing so that the respiratory airflow is through the oral cavity. In some embodiments of the invention, the sensor 202 can be a thermistor sensor, a pressure sensor, a gas flu detector, a respiratory rate sensor, or a combination of the foregoing. The second end 2034 of the earloop component 203 houses the circuit board (not shown) and a power supply battery for supplying power to the sleeper quality detecting device 200. As shown in FIG. 6A to FIG. 6D, the earloop member 203 extends from the first end 2032 along the side contour of the user's face to the ear, and the second end 2034 of the earloop component 203 is suspended. Hanging against the ear to fix the respiratory flu detector 201 to the User face. The second end 2034 of the earloop component 203 can further be provided with a switch 2036 to control the opening or closing of the sleep quality detecting device 200. The circuit board of the second embodiment can be implemented by the circuit board 102 of FIG. 4 and will not be repeated here.
参图5所示,该呼吸气流感测器201与电路板整合成为一个单一装置,所有电气连接线不外露,第二具体实施例的该睡眠品质检测装置200同样具备第一具体实施例的睡眠品质检测装置100的诸多优点。As shown in FIG. 5, the respiratory flu detector 201 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed. The sleep quality detecting device 200 of the second embodiment also has the sleep of the first embodiment. Many advantages of the quality detecting device 100.
图7是本发明睡眠品质检测装置第三具体实施例的立体示意图。在第三具体实施例中,该睡眠品质检测装置300包括一呼吸气流感测器及一电路板(未示出)。该呼吸气流感测器用以检测使用者的鼻腔呼吸气流或口腔呼吸气流;当该使用者的呼吸气流是通过鼻腔时,该呼吸气流感测器检测鼻腔呼吸气流,但当该使用者例如鼻子阻塞改以嘴巴呼吸而使其呼吸气流是通过口腔时,该呼吸气流感测器检测口腔呼吸气流。该电路板用以处理检测到的呼吸气流信号并储存该呼吸气流信号及处理结果。该呼吸气流感测器为一夹鼻感测器301,具有一第一侧端302及一第二侧端303,该第一侧端302设置一感测器304以撷取该使用者鼻腔即时呼吸气流信号。但当该使用者无法以鼻子呼吸时,例如鼻子阻塞,改以口腔呼吸时,该感测器304会检测该使用者口腔的呼吸气流。该第二侧端303内部容置该电路板,以及一开关305设置于该第二侧端303,用以控制该睡眠品质检测装置300的开启或关闭。请见图8,该夹鼻感测器301用以夹住该使用者鼻部,以使其第一侧端302及第二侧端303连合夹住鼻子,进而将该睡眠品质检测装置300固定在鼻部。第三具体实施例的感测器304及电路板可以采用第一、二具体实施例的实施态样,在此不再重述。Fig. 7 is a perspective view showing a third embodiment of the sleep quality detecting device of the present invention. In a third embodiment, the sleep quality detecting device 300 includes a respiratory flu detector and a circuit board (not shown). The respiratory flu detector is for detecting a nasal respiratory airflow or an oral respiratory airflow of the user; when the respiratory airflow of the user passes through the nasal cavity, the respiratory flu detector detects nasal respiratory airflow, but when the user is obstructed by, for example, a nose The respiratory flu detector detects oral respiratory airflow when the mouth is breathing and the breathing airflow is through the mouth. The circuit board is configured to process the detected respiratory airflow signal and store the respiratory airflow signal and the processing result. The respiratory flu detector is a clip-on sensor 301 having a first side end 302 and a second side end 303. The first side end 302 is provided with a sensor 304 for capturing the user's nasal cavity. Breathing airflow signal. However, when the user is unable to breathe through the nose, such as when the nose is blocked and the mouth is breathing, the sensor 304 detects the breathing airflow of the user's mouth. The second side end 303 houses the circuit board, and a switch 305 is disposed at the second side end 303 for controlling the opening or closing of the sleep quality detecting device 300. As shown in FIG. 8 , the pinch sensor 301 is configured to clamp the nose of the user such that the first side end 302 and the second side end 303 are joined to each other to clamp the nose, thereby the sleep quality detecting device 300. Fixed to the nose. The sensor 304 and the circuit board of the third embodiment may adopt the implementation manners of the first and second embodiments, and are not repeated herein.
参图8所示,该呼吸气流感测器301与电路板整合成为一个单一装置,所有电气连接线不外露,第三具体实施例的该睡眠品质检测装置300同样具备第一及二具体实施例的睡眠品质检测装置的诸多优点。As shown in FIG. 8, the respiratory flu detector 301 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed. The sleep quality detecting device 300 of the third embodiment also has the first and second embodiments. The advantages of the sleep quality detection device.
图9是本发明睡眠品质检测装置第四具体实施例的立体示意图。图10A至图10B是本发明睡眠品质检测装置的第四具体实施例从不同角度观看的立体示意图。图10C是本发明睡眠品质检测装置的第四具体实施例的背面盖体402b示意图。图10D是本发明睡眠品质检测装置的第四具体实施例的正面盖体402a示意图。在第四具体实施例中,该睡眠品质检测装置400包括一呼吸气流感测器401及一电路板(未示出)。该呼吸气流感测器401用以检测使用者的鼻腔呼吸气流或口腔呼吸气流。当该使用者以鼻腔呼吸时,该呼吸气流感测器401检测鼻腔呼吸气流,但当该使用者例如鼻子阻塞改以口腔呼吸时,该呼吸气流感测器401检测口腔呼吸气流。该电路板用以处理检测到的呼吸气流信号并储存该呼吸气 流信号及处理结果。该呼吸气流感测器401包含一本体402及一感测器403。请见图9及图11,该本体402用以贴附设置于该使用者口鼻之间,该本体具有一左侧耳带4010及一右侧耳带4012,该左、右侧耳带4010、4012分别贴附于该使用者脸部左、右侧边并延伸贴附至左、右耳后部,以将该睡眠品质检测装置400固定在该使用者脸部。该电路板(未示出)容置在该本体402内部。另外,该本体402内部可设置电池座(未示出),以放置电池,供做电源供应器。该感测器403容置于该本体402并用以撷取该使用者即时呼吸气流信号。该本体402内部具有一中空容室,该使用者的鼻腔呼吸气流可经由该中空容室相通于该感测器403,以使该感测器403撷取该使用者即时鼻腔呼吸气流信号。但当该使用者例如鼻子阻塞改以口腔呼吸时,该呼吸气流感测器403检测口腔呼吸气流。第四具体实施例的感测器403及电路板可以采用第一至三具体实施例的实施态样,在此不再重述。Figure 9 is a perspective view showing a fourth embodiment of the sleep quality detecting apparatus of the present invention. 10A to 10B are perspective views of a fourth embodiment of the sleep quality detecting apparatus of the present invention viewed from different angles. Fig. 10C is a schematic view showing the back cover 402b of the fourth embodiment of the sleep quality detecting apparatus of the present invention. Figure 10D is a schematic view of a front cover 402a of a fourth embodiment of the sleep quality detecting apparatus of the present invention. In the fourth embodiment, the sleep quality detecting device 400 includes a respiratory flu detector 401 and a circuit board (not shown). The respiratory flu detector 401 is configured to detect a nasal respiratory airflow or an oral respiratory airflow of a user. The respiratory flu detector 401 detects nasal respiratory airflow when the user breathes in the nasal cavity, but the respiratory flu detector 401 detects oral respiratory airflow when the user, for example, is blocked by the nose and changed to oral breathing. The circuit board is configured to process the detected respiratory airflow signal and store the respiratory gas Streaming signals and processing results. The respiratory flu detector 401 includes a body 402 and a sensor 403. As shown in FIG. 9 and FIG. 11 , the body 402 is affixed between the nose and mouth of the user. The body has a left ear strap 4010 and a right ear strap 4012 . The left and right ear straps 4010 . The 4012 is attached to the left and right sides of the user's face and extends to the left and right ear rear portions to fix the sleep quality detecting device 400 to the user's face. The circuit board (not shown) is housed inside the body 402. In addition, a battery holder (not shown) may be disposed inside the body 402 to place a battery for use as a power supply. The sensor 403 is received in the body 402 and used to capture the user's instantaneous respiratory airflow signal. The inside of the body 402 has a hollow chamber through which the user's nasal respiratory airflow can communicate with the sensor 403, so that the sensor 403 can capture the user's immediate nasal respiratory airflow signal. However, when the user, for example, the nose is blocked and the mouth is breathing, the respiratory flu detector 403 detects the oral respiratory airflow. The sensor 403 and the circuit board of the fourth embodiment may adopt the implementation manners of the first to third embodiments, and are not repeated herein.
参图9所示,该呼吸气流感测器401与电路板整合成为一个单一装置,所有电气连接线不外露,第四具体实施例的该睡眠品质检测装置400同样具备第一至三具体实施例的睡眠品质检测装置的诸多优点。As shown in FIG. 9, the respiratory flu detector 401 is integrated with the circuit board into a single device, and all electrical connection lines are not exposed. The sleep quality detecting device 400 of the fourth embodiment also has the first to third embodiments. The advantages of the sleep quality detection device.
在一方面,请参见图11的举例说明,本发明的睡眠品质检测装置更可包含一血氧饱和度感测器500及一心电图检测装置600。换句话说,本发明的睡眠品质检测装置可以同时检测使用者在睡眠期间的呼吸气流、血氧饱和度与心跳信号,以检测该使用者在睡眠期间因呼吸状态造成的血氧浓度变化,并通过检测该使用者的心跳信号,以进一步诊断该使用者是否罹患有心血管方面或心脏方面的疾病。本发明前述第一至三具体实施例的睡眠品质检测装置皆可结合血氧饱和度感测器及心电图检测装置一起使用。In one aspect, referring to the illustration of FIG. 11, the sleep quality detecting apparatus of the present invention may further include an oxygen saturation sensor 500 and an electrocardiogram detecting apparatus 600. In other words, the sleep quality detecting device of the present invention can simultaneously detect the respiratory airflow, blood oxygen saturation and heartbeat signals of the user during sleep to detect changes in blood oxygen concentration caused by the breathing state of the user during sleep, and By detecting the heartbeat signal of the user, it is further diagnosed whether the user has a cardiovascular or cardiac disease. The sleep quality detecting devices of the first to third embodiments of the present invention can be used in combination with an oxygen saturation sensor and an electrocardiogram detecting device.
在本发明的一些实施态样中,本发明使用的血氧饱和度感测器可以是夹指头型血氧饱和度感测器400(图11)或者袜型血氧饱和度感测器803(图15)。该袜型血氧饱和度感测器803可通过穿戴在使用者脚掌而接触于该使用者脚指头。另外,在本发明一些实施态样中,该袜型血氧饱和度感测器803可结合加速计804与压力感测器806一起使用。该加速计804可以检测该使用者睡眠期间肢体状态的改变,以进一步判断检测的信号是否为该使用者肢体动作造成的伪信号(pseudo noise)。压力感测器806可用以检测使用者睡眠期间的肢体动作藉以判断所检测的信号是否为伪信号。在一些实施态样中,本发明的血氧饱和度感测器也可以放置于舌下与使用者的舌下表面接触藉以检测使用者的血氧浓度。In some embodiments of the present invention, the blood oxygen saturation sensor used in the present invention may be a pinch-type oxygen saturation sensor 400 (FIG. 11) or a sock type oxygen saturation sensor 803 ( Figure 15). The sock type oximetry sensor 803 can be in contact with the user's toe by wearing the user's foot. Additionally, in some embodiments of the invention, the sock oximetry sensor 803 can be used in conjunction with the pressure sensor 806 in conjunction with the accelerometer 804. The accelerometer 804 can detect a change in the state of the limb during sleep of the user to further determine whether the detected signal is a pseudo noise caused by the user's limb motion. The pressure sensor 806 can be used to detect a limb motion during sleep of the user to determine whether the detected signal is a false signal. In some embodiments, the oximetry sensor of the present invention can also be placed under the tongue in contact with the sublingual surface of the user to detect the blood oxygen concentration of the user.
图16为本发明心电图检测装置的一实施态样。在此实施态样中,该心电图检测装置900的本体包含中间部分901、左侧部分902及右侧部分903。该中间部分901内部容置电路板(未示),并且开关904及指示器905可设置于中间部分901的上表面。该开关904控制该 心电图检测装置900的开启或关闭,该指示器905,例如灯号显示器,可以显示该心电图检测装置900的运作状态。两支检测电极(未示出)分别设置于该左侧部分902及右侧部分903的下表面并且与该中间部分901内部容置的电路板电气连接。请见图17,该心电图检测装置900的下表面贴附于使用者的胸腔,前述检测电极检测该使用者心跳信号,该电路板处理检测到的心跳信号及储存处理结果。Fig. 16 is a view showing an embodiment of an electrocardiogram detecting apparatus of the present invention. In this embodiment, the body of the electrocardiogram detecting device 900 includes a middle portion 901, a left side portion 902, and a right side portion 903. The intermediate portion 901 internally houses a circuit board (not shown), and the switch 904 and the indicator 905 may be disposed on the upper surface of the intermediate portion 901. The switch 904 controls the The electrocardiogram detecting device 900 is turned on or off, and the indicator 905, such as a lamp number display, can display the operating state of the electrocardiogram detecting device 900. Two detecting electrodes (not shown) are respectively disposed on the lower surfaces of the left side portion 902 and the right side portion 903 and are electrically connected to a circuit board housed inside the intermediate portion 901. Referring to FIG. 17, the lower surface of the electrocardiogram detecting device 900 is attached to the chest of the user, and the detecting electrode detects the heartbeat signal of the user, and the circuit board processes the detected heartbeat signal and stores the processing result.
图18为本发明心电图检测装置的另一实施态样的正面立体示意图,图19为图18的心电图检测装置的背面立体示意图。图20为图18的心电图检测装置的使用状态示意图。在此实施态样中,该心电图检测装置110包含一胸腔贴附部件112及一腹腔贴附部件114,该胸腔贴附部件112设置有一第一检测电极1122及电路板(未示出),该电路板供处理检测的信号并储存处理结果,该腹腔贴附部件114设置有一第二检测电极1142,通过该第一、二检测电极1122、1142检测该使用者胸腹运动状态。该胸腔贴附部件112更设置有供电电池1124、开关1126及指示器1128。该供电电池1124供做电力供应源及该开关1126用以开启/关闭该心电图检测装置110。该指示器1128,例如灯号显示器,可显示该心电图检测装置110的运作状态。18 is a front perspective view showing another embodiment of the electrocardiogram detecting apparatus of the present invention, and FIG. 19 is a perspective view showing the back side of the electrocardiogram detecting apparatus of FIG. 18. Fig. 20 is a view showing the state of use of the electrocardiogram detecting device of Fig. 18. In this embodiment, the electrocardiogram detecting device 110 includes a chest attaching member 112 and a peritoneal attaching member 114. The chest attaching member 112 is provided with a first detecting electrode 1122 and a circuit board (not shown). The circuit board is configured to process the detected signal and store the processing result. The abdominal cavity attaching component 114 is provided with a second detecting electrode 1142, and the first and second detecting electrodes 1122, 1142 are used to detect the chest and abdomen motion state of the user. The chest attachment member 112 is further provided with a power supply battery 1124, a switch 1126, and an indicator 1128. The power supply battery 1124 is used as a power supply source and the switch 1126 is used to turn on/off the electrocardiogram detecting device 110. The indicator 1128, such as a light display, can display the operational status of the electrocardiographic detection device 110.
图12是本发明睡眠品质检测装置第五具体实施例的立体示意图。图13是图12的睡眠品质检测装置的纵向剖面图。在第五具体实施例中,该睡眠品质检测装置包括一呼吸气流感测器700。该呼吸气流感测器700包含一嘴件701、一第一感测器703及一第二感测器704。该嘴件701具有一牙齿容置体,以及一中空管件702从该嘴件701前端向外延伸。该牙齿容置体的构形与使用者的牙齿相适配,以将该嘴件701固定于该使用者口腔内并且该中空管件702凸出于该使用者嘴巴外面并连通于口腔。该第一感测器703设置于该中空管件702顶部外表面以靠近使用者鼻部并用以检测该使用者的鼻腔呼吸气流。该第二感测器704设置于该中空管件702内部并用以检测该使用者的口腔呼吸气流。在本发明一实施态样中,该中空管件702靠近该嘴件701的区段可以是具有伸缩特性的蛇管结构702a,以调整该第一感测器703及第二感测器704位置。在本发明一实施例态样中,本发明的血氧饱和度感测器可直接设置于舌下与使用者舌下表面接触藉以检测使用者的血氧浓度并且可以与该呼吸气流感测器700一起使用。Figure 12 is a perspective view showing a fifth embodiment of the sleep quality detecting apparatus of the present invention. Figure 13 is a longitudinal cross-sectional view of the sleep quality detecting device of Figure 12 . In a fifth embodiment, the sleep quality detecting device includes a respiratory flu detector 700. The respiratory flu detector 700 includes a mouthpiece 701, a first sensor 703, and a second sensor 704. The mouthpiece 701 has a tooth receiving body, and a hollow tubular member 702 extends outwardly from the front end of the mouthpiece 701. The configuration of the dental receptacle is adapted to the user's teeth to secure the mouthpiece 701 within the user's mouth and the hollow tubular member 702 protrudes out of the user's mouth and communicates with the oral cavity. The first sensor 703 is disposed on the outer surface of the top of the hollow tube 702 to be close to the nose of the user and used to detect the nasal airflow of the user. The second sensor 704 is disposed inside the hollow tube 702 and is used to detect the oral respiratory flow of the user. In one embodiment of the present invention, the section of the hollow tubular member 702 adjacent to the mouthpiece 701 may be a flexible tubular structure 702a to adjust the positions of the first sensor 703 and the second sensor 704. In an aspect of the present invention, the blood oxygen saturation sensor of the present invention can be directly disposed under the tongue to contact the lower surface of the user's tongue to detect the blood oxygen concentration of the user and can be used with the respiratory gas detector. 700 used together.
图14是本发明睡眠品质检测装置第六具体实施例的立体示意图。在第六具体实施例中,该睡眠品质检测装置为一呼吸气流感测器800,包括一舌面置放件本体及一感测器802。该舌面置放件本体供含衔于该使用者口腔,以及该感测器802设置于该舌面置放件本体,以撷取该使用者即时呼吸气流信号。该感测器802用以检测使用者的鼻腔呼吸气流 或口腔呼吸气流。当该使用者的呼吸气流是通过鼻腔时,该感测器802检测鼻腔呼吸气流,但当该使用者例如鼻子阻塞改以嘴巴呼吸而使其呼吸气流是通过口腔时,该感测器802检测口腔呼吸气流。Figure 14 is a perspective view showing a sixth embodiment of the sleep quality detecting apparatus of the present invention. In a sixth embodiment, the sleep quality detecting device is a respiratory flu detector 800 comprising a tongue-and-groove body and a sensor 802. The tongue placement body is included in the mouth of the user, and the sensor 802 is disposed on the tongue placement body to capture the user's instantaneous respiratory airflow signal. The sensor 802 is configured to detect a nasal airflow of the user Or oral breathing airflow. The sensor 802 detects the nasal respiratory airflow when the user's respiratory airflow passes through the nasal cavity, but the sensor 802 detects when the user, for example, the nose is blocked and the mouth is breathed so that the respiratory airflow is through the oral cavity. Oral breathing airflow.
此外,在一方面,本发明的血氧饱和度感测器及心电图检测装置可以单独或合并结合于本发明的睡眠品质检测装置。Further, in one aspect, the blood oxygen saturation sensor and the electrocardiogram detecting device of the present invention may be combined with the sleep quality detecting device of the present invention alone or in combination.
本文在此显示及描述本发明较佳实施例,但本领域普通技术人员将容易明了这些实施例仅作为举例说明。在不脱离本发明所揭示的精神下,本领域普通技术人员将可进行各种修改、变更及代替。本发明在此描述的具体实施例的各种变化例皆可用以实施本发明。权利要求书定义本发明范围,并且权利要求书所载的方法及结构以及它们的均等手段皆应包含在本发明权利要求书内。 The preferred embodiments of the present invention are shown and described herein, but those of ordinary skill in the art Various modifications, changes and substitutions will occur to those skilled in the art without departing from the scope of the invention. Various variations of the specific embodiments of the invention described herein may be used to practice the invention. The scope of the invention is defined by the claims, and the methods and structures of the claims and their equivalents are intended to be included in the claims.

Claims (20)

  1. 一种睡眠品质检测装置,其特征在于,所述睡眠品质检测装置包括:A sleep quality detecting device, wherein the sleep quality detecting device comprises:
    一呼吸气流感测器,用以检测使用者的鼻腔呼吸气流及口腔呼吸气流任一者;当所述使用者的呼吸气流是通过鼻腔时,所述呼吸气流感测器检测鼻腔呼吸气流,当所述使用者的呼吸气流是通过口腔时,所述呼吸气流感测器检测口腔呼吸气流;及a respiratory flu detector for detecting any of the user's nasal respiratory airflow and oral respiratory airflow; when the user's respiratory airflow is through the nasal cavity, the respiratory flu detector detects nasal respiratory airflow when The respiratory gas flu detector detects oral respiratory airflow when the user's respiratory airflow is through the oral cavity; and
    一电路板,用以处理检测到的呼吸气流信号并储存所述呼吸气流信号及处理结果。a circuit board for processing the detected respiratory airflow signal and storing the respiratory airflow signal and the processing result.
  2. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述电路板包括:The sleep quality detecting apparatus according to claim 1, wherein the circuit board comprises:
    一信号收集单元,用以将检测到的呼吸气流信号转换成一数字信号;a signal collecting unit for converting the detected respiratory airflow signal into a digital signal;
    一处理器单元,用以处理所述数字信号并产生一呼吸流阻指数;及a processor unit for processing the digital signal and generating a respiratory flow resistance index; and
    一存储单元,用以储存所述数字信号及呼吸流阻指数。a storage unit for storing the digital signal and the respiratory resistance index.
  3. 根据权利要求2所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一通信接口单元,用以传输所述存储单元的储存数据至一外接装置。The sleep quality detecting device according to claim 2, wherein the sleep quality detecting device further comprises a communication interface unit for transmitting the stored data of the storage unit to an external device.
  4. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一感测器,用以设置于所述使用者的口鼻之间并撷取所述使用者的即时呼吸气流信号;a sensor for setting between the nose and mouth of the user and capturing an instant respiratory airflow signal of the user;
    一第一贴附部件,用以贴附于所述使用者的脸颊一侧,所述第一贴附部件内部供容置所述电路板及供电电池以供做电力供应源;及a first attaching member for attaching to a side of the cheek of the user, the first attaching member for accommodating the circuit board and the power supply battery for power supply;
    一第二贴附部件,用以贴附于所述使用者的脸颊另一侧,所述第二贴附部件设置开关,用以开启/关闭所述呼吸气流感测器;a second attaching member for attaching to the other side of the user's cheek, the second attaching member providing a switch for turning on/off the respiratory flu detector;
    其中所述感测器、第一贴附部件及所述第二贴附部件整合为一个单一装置,并且所述呼吸气流感测器通过所述第一贴附部件及第二贴附部件固定于所述使用者的脸部。Wherein the sensor, the first attaching component and the second attaching component are integrated into a single device, and the respiratory flu detector is fixed to the first attaching component and the second attaching component by the first attaching component and the second attaching component The face of the user.
  5. 根据权利要求4所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一指示器设置于所述第一贴附部件及第二贴附部件任一者,以显示所述呼吸气流感测器状态。The sleep quality detecting device according to claim 4, wherein the sleep quality detecting device further comprises an indicator disposed on the first attaching member and the second attaching member to display the Breathing gas detector status.
  6. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一感测器,用以设置于所述使用者的口鼻之间并撷取所述使用者的即时呼吸气流信号;及 a sensor for setting between the mouth and nose of the user and extracting an instant respiratory airflow signal of the user; and
    一耳挂部件,所述耳挂部件包含一第一端及一第二端,其中所述第一端容置所述感测器及所述第二端内容置所述电路板及供电电池以供做电力供应源;其中所述耳挂部件从所述第一端顺着所述使用者的脸部一侧轮廓延伸至耳部,而使所述耳挂部件的所述第二端吊挂抵靠于所述耳部,以将所述呼吸气流感测器固定于所述使用者的脸部。An earhook component includes a first end and a second end, wherein the first end receives the sensor and the second end is configured to place the circuit board and the power supply battery Providing a power supply source; wherein the earloop member extends from the first end along a side contour of the user's face to the ear, and the second end of the earloop component is suspended Abutting the ear to secure the respiratory flu detector to the face of the user.
  7. 根据权利要求6所述的睡眠品质检测装置,其特征在于,所述耳挂部件的所述第二端更设置一开关,用以开启/关闭所述呼吸气流感测器。The sleep quality detecting device according to claim 6, wherein the second end of the earloop member is further provided with a switch for turning on/off the respiratory flu detector.
  8. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一本体,用以贴附设置于所述使用者的口鼻之间,所述本体具有一左侧耳带及一右侧耳带,所述左侧耳带、右侧耳带分别贴附于所述使用者的脸部左侧边、右侧边并延伸贴附至左耳后部、右耳后部;其中所述本体内部供容置所述电路板;及a body for attaching between the nose and mouth of the user, the body having a left ear strap and a right ear strap, the left ear strap and the right ear strap respectively attached to The left side and the right side of the face of the user are extended and attached to the rear of the left ear and the rear of the right ear; wherein the inside of the body is for accommodating the circuit board;
    一感测器,容置于所述本体并用以撷取所述使用者的即时呼吸气流信号。A sensor is disposed on the body and is configured to capture an instant respiratory airflow signal of the user.
  9. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一夹鼻感测器,所述夹鼻感测器具有一第一侧端及一第二侧端,所述第一侧端设置一感测器以撷取所述使用者的即时呼吸气流信号以及所述第二侧端容置所述电路板;其中所述夹鼻感测器用以夹住所述使用者的鼻部,以使所述夹鼻感测器的第一侧端及第二侧端连合夹住鼻部。a clip-on sensor having a first side end and a second side end, the first side end is provided with a sensor for capturing the user's instantaneous respiratory airflow signal and The second side end accommodates the circuit board; wherein the pinch nose sensor is for clamping the nose of the user, so that the first side end and the second side of the pinch nose sensor The end is joined to the nose.
  10. 根据权利要求9所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一开关设置于所述第二侧端,用以开启/关闭所述呼吸气流感测器。The sleep quality detecting device according to claim 9, wherein the sleep quality detecting device further comprises a switch disposed at the second side end for turning on/off the respiratory flu detector.
  11. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一嘴件,具有一牙齿容置体及一中空管件从所述嘴件前端向外延伸;其中所述牙齿容置体的构形与所述使用者的牙齿相适配,以将所述嘴件固定于所述使用者的口腔内并且所述中空管件凸出于所述使用者的口腔外面并连通于口腔;a mouthpiece having a tooth receiving body and a hollow tubular member extending outwardly from the front end of the mouthpiece; wherein the configuration of the tooth receiving body is adapted to the teeth of the user to a piece is fixed in the mouth of the user and the hollow tube protrudes out of the mouth of the user and communicates with the mouth;
    一第一感测器,设置于所述中空管件外部靠近所述使用者的鼻部,并用以检测所述使用者的鼻腔呼吸气流;及a first sensor disposed on the outside of the hollow tubular member near the nose of the user and configured to detect nasal airflow of the user; and
    一第二感测器,设置于所述中空管件内部并用以检测所述使用者的口腔呼吸气流。A second sensor is disposed inside the hollow tubular member and configured to detect the oral respiratory airflow of the user.
  12. 根据权利要求11所述的睡眠品质检测装置,其特征在于,所述中空管件具有一蛇管结构,以调整所述第一感测器、第二感测器的位置。 The sleep quality detecting device according to claim 11, wherein the hollow tubular member has a coil structure to adjust positions of the first sensor and the second sensor.
  13. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述呼吸气流感测器包含:The sleep quality detecting device according to claim 1, wherein the respiratory gas detector comprises:
    一舌面置放件本体,供含衔于所述使用者的口腔;及a tongue-receiving body for containing the mouth of the user; and
    一感测器,设置于所述舌面置放件本体,以撷取所述使用者的即时呼吸气流信号。A sensor is disposed on the tongue placement body to capture an instant respiratory airflow signal of the user.
  14. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一血氧饱和度感测器,用以设置于以下任一位置:夹持于所述使用者的一指头、贴附于使用者的舌头下表面及贴附于使用者一指头。The sleep quality detecting device according to claim 1, wherein the sleep quality detecting device further comprises an oxygen saturation sensor configured to be disposed at any of the following positions: being clamped to the user A finger, attached to the lower surface of the user's tongue and attached to the user's finger.
  15. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一心电图检测装置,用以贴附于所述使用者的胸腔,所述心电图检测装置包含检测电极、电路板及开关;其中所述检测电极用以检测所述使用者的心跳信号,所述电路板用以处理检测到的心跳信号及储存处理结果,所述开关用以开启/关闭所述心电图检测装置。The sleep quality detecting device according to claim 1, wherein the sleep quality detecting device further comprises an electrocardiogram detecting device for attaching to a chest of the user, wherein the electrocardiogram detecting device comprises a detecting electrode, a circuit board and a switch; wherein the detecting electrode is configured to detect a heartbeat signal of the user, the circuit board is configured to process the detected heartbeat signal, and the storage processing result is used, the switch is configured to turn on/off the electrocardiogram detection Device.
  16. 根据权利要求1所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一心电图检测装置,包含一胸腔贴附部件及一腹腔贴附部件,所述胸腔贴附部件设置有一第一检测电极及电路板,所述电路板供处理检测的信号并储存处理结果,所述腹腔贴附部件设置有一第二检测电极,通过所述第一检测电极、第二检测电极检测所述使用者的胸腹运动状态。The sleep quality detecting device according to claim 1, wherein the sleep quality detecting device further comprises an electrocardiogram detecting device comprising a chest attaching member and a peritoneal attaching member, wherein the chest attaching member is provided with a a first detecting electrode and a circuit board, wherein the circuit board is configured to process the detected signal and store the processing result, the abdominal cavity attaching part is provided with a second detecting electrode, and the first detecting electrode and the second detecting electrode detect the The chest and abdomen movement state of the user.
  17. 根据权利要求16所述的睡眠品质检测装置,其特征在于,所述胸腔贴附部件更设置有供电电池及开关,所述供电电池供做电力供应源及所述开关用以开启/关闭所述心电图检测装置。The sleep quality detecting device according to claim 16, wherein the chest attaching member is further provided with a power supply battery and a switch, wherein the power supply battery is used as a power supply source and the switch is used to turn on/off the ECG detection device.
  18. 根据权利要求14所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一心电图检测装置,用以贴附于所述使用者的胸腔,所述心电图检测装置包含检测电极、电路板及开关;其中所述检测电极用以检测所述使用者的心跳信号,所述电路板用以处理检测到的心跳信号及储存处理结果,所述开关用以开启/关闭所述心电图检测装置。The sleep quality detecting device according to claim 14, wherein the sleep quality detecting device further comprises an electrocardiogram detecting device for attaching to a chest of the user, wherein the electrocardiogram detecting device comprises a detecting electrode, a circuit board and a switch; wherein the detecting electrode is configured to detect a heartbeat signal of the user, the circuit board is configured to process the detected heartbeat signal, and the storage processing result is used, the switch is configured to turn on/off the electrocardiogram detection Device.
  19. 根据权利要求14所述的睡眠品质检测装置,其特征在于,所述睡眠品质检测装置更包含一心电图检测装置,包含一胸腔贴附部件及一腹腔贴附部件,所述胸腔贴附部件设置有一第一检测电极及电路板,所述电路板供处理检测的信号并储存处理结果,所述腹腔贴附部件设置有一第二检测电极,通过所述第一检测电极、第二检测电极检测所述使用者的胸腹运动状态。 The sleep quality detecting device according to claim 14, wherein the sleep quality detecting device further comprises an electrocardiogram detecting device comprising a chest attaching member and a peritoneal attaching member, wherein the chest attaching member is provided with a a first detecting electrode and a circuit board, wherein the circuit board is configured to process the detected signal and store the processing result, the abdominal cavity attaching part is provided with a second detecting electrode, and the first detecting electrode and the second detecting electrode detect the The chest and abdomen movement state of the user.
  20. 根据权利要求19所述的睡眠品质检测装置,其特征在于,所述胸腔贴附部件更设置有供电电池及开关,所述供电电池供做电力供应源及所述开关用以开启/关闭所述心电图检测装置。 The sleep quality detecting device according to claim 19, wherein the chest attachment member is further provided with a power supply battery and a switch, the power supply battery being used as a power supply source and the switch for turning on/off the ECG detection device.
PCT/CN2015/088339 2014-08-29 2015-08-28 Sleep quality detection device WO2016029869A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201580044601.5A CN106659429B (en) 2014-08-29 2015-08-28 Sleep quality detection device

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US201462043416P 2014-08-29 2014-08-29
US201462043418P 2014-08-29 2014-08-29
US62/043,416 2014-08-29
US62/043,418 2014-08-29

Publications (1)

Publication Number Publication Date
WO2016029869A1 true WO2016029869A1 (en) 2016-03-03

Family

ID=55398771

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2015/088339 WO2016029869A1 (en) 2014-08-29 2015-08-28 Sleep quality detection device

Country Status (3)

Country Link
CN (1) CN106659429B (en)
TW (2) TWI571239B (en)
WO (1) WO2016029869A1 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113951921A (en) * 2021-10-20 2022-01-21 重庆医科大学 Ultrasonic mouth respiration detection device and detection method

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6142950A (en) * 1998-12-10 2000-11-07 Individual Monitoring Systems, Inc. Non-tethered apnea screening device
CN101044981A (en) * 2006-03-28 2007-10-03 周常安 Apparatus for observing sleep breathing status
CN102341035A (en) * 2009-03-17 2012-02-01 高级头脑监控公司 A System For The Assessment Of Sleep Quality In Adults And Children
US20140128697A1 (en) * 2012-11-07 2014-05-08 Somnarus Inc. Methods for detection of respiratory effort and sleep apnea monitoring devices
CN103857337A (en) * 2011-10-12 2014-06-11 索尼公司 PSG test headgear and PSG test device

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6666830B1 (en) * 2000-08-17 2003-12-23 East River Ventures, Lp System and method for detecting the onset of an obstructive sleep apnea event
EP1681018A1 (en) * 2003-10-07 2006-07-19 Olympus Corporation Sleep aspiration state measurement device
TWI252438B (en) * 2004-06-16 2006-04-01 Southern Taiwan University Of Contactless suffocation monitor system
CN200987667Y (en) * 2006-09-29 2007-12-12 北京新兴阳升科技有限公司 Portable sleep monitor
CN100544669C (en) * 2007-11-22 2009-09-30 河南华南医电科技有限公司 A kind of sleeping respiration interference testing apparatus

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6142950A (en) * 1998-12-10 2000-11-07 Individual Monitoring Systems, Inc. Non-tethered apnea screening device
CN101044981A (en) * 2006-03-28 2007-10-03 周常安 Apparatus for observing sleep breathing status
CN102341035A (en) * 2009-03-17 2012-02-01 高级头脑监控公司 A System For The Assessment Of Sleep Quality In Adults And Children
CN103857337A (en) * 2011-10-12 2014-06-11 索尼公司 PSG test headgear and PSG test device
US20140128697A1 (en) * 2012-11-07 2014-05-08 Somnarus Inc. Methods for detection of respiratory effort and sleep apnea monitoring devices

Also Published As

Publication number Publication date
TW201611774A (en) 2016-04-01
TW201607506A (en) 2016-03-01
TWI571239B (en) 2017-02-21
CN106659429A (en) 2017-05-10
CN106659429B (en) 2020-05-29

Similar Documents

Publication Publication Date Title
US9801589B2 (en) Device and method for determining a comparison value of biodata and for recording biodata
AU2013341168B2 (en) Methods for detection of respiratory effort and sleep apnea monitoring devices
JP4751338B2 (en) New and specially configured nasal pulse oximeter
JP5475445B2 (en) Nasal and oral patient interface
JP5284082B2 (en) A device that diagnoses respiratory diseases and determines the degree of deterioration
JP4771638B2 (en) Biomask with integrated sensor
US20080319277A1 (en) Sleep disorder monitoring and diagnostic system
US7422014B1 (en) Airflow monitor and breathing device and method
US20090107501A1 (en) System and method of monitoring respiratory airflow and oxygen concentration
US20180110463A1 (en) Bio-impedence-based sleep breathing state signal acquisition device and monitoring system
TWI645835B (en) Breathing airflow detecting device, method and application thereof
JP2011522570A (en) Wireless capnography
US20180199846A1 (en) Signal processing unit of an emg measuring system
JP5596551B2 (en) Ventilator and / or anesthesia device
WO2016029869A1 (en) Sleep quality detection device
RU2447871C2 (en) Nasal and oral patient interface
JP2022136344A (en) Advanced respiratory monitor and system
CN209826731U (en) Sleep respiratory disorder detection device
CN219397187U (en) Seaming with end-of-call carbon dioxide collection function
CN108452410B (en) Monitoring system for oxygen therapy
CN209826693U (en) Monitoring devices of breathing and heartbeat in sleep
CN216417166U (en) Apnea detection device
WO2021196063A1 (en) Polysomnography-based system and method for monitoring sleep of pneumonia patient
CN211483071U (en) Disposable mask for detecting air flow of mouth and nose
RU2780934C1 (en) Apparatus for detecting and preventing life-threatening conditions caused by sleep apnoea

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 15835386

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 15835386

Country of ref document: EP

Kind code of ref document: A1