CN210204729U - Sleep monitoring data acquisition device and sleep monitoring device - Google Patents

Abstract

The utility model discloses a sleep monitor data acquisition device and sleep monitor device. This sleep monitor data acquisition device includes data collection station, data repeater and be used for fixing data repeater at human chest, fix data collection station fixed establishment on the human body, fixed establishment includes first bandage and second bandage, the hasp is passed through at first bandage both ends and is connected, second bandage one end and first bandage middle part fixed connection, the second bandage other end and first bandage one end fixed connection, be equipped with the first placing bag that is used for placing data collection station on the first bandage, be equipped with the second placing bag that is used for placing data repeater on the second bandage. The utility model discloses clear up numerous data transmission line of quantity, avoid data transmission line to twine each other, the dismouting of being convenient for, when the patient stands up in the sleep in-process and changes the position, data repeater, data collection station change the same change position along with the position to make data transmission line be difficult for droing.

Description

Sleep monitoring data acquisition device and sleep monitoring device

Technical Field

The utility model relates to a sleep monitor technical field especially relates to a sleep monitor data acquisition device and sleep monitor device.

Background

Sleep monitoring that professional monitoring agencies go on such as hospital, need be respectively to patient's brain electricity through a plurality of sensors, eye movement, oronasal air current, snore, the position, chest type is breathed, abdominal type is breathed, the electrocardio, blood oxygen etc. monitor, these data carry out data transmission with external monitoring facilities through tens transmission lines, because the transmission line is many and the human each position of sensor distribution, thereby lead to very mixed and disorderly that the transmission line arranged, intertwine each other, the dismouting of being inconvenient for, in addition, because monitoring facilities sets up at the bedside, when the patient stands up in the sleep in-process and changes the position, lead to the data transmission line to drop easily.

Disclosure of Invention

The utility model provides a solve above-mentioned technical problem, provide a sleep monitor data acquisition device and sleep monitor device, it clears up numerous data transmission line of quantity, avoids data transmission line to twine each other, and the dismouting of being convenient for, when the patient stands up in the sleep process and changes the position, data repeater, data collection station change the position along with the position together to make the data transmission line be difficult for droing.

In order to solve the problem, the utility model discloses a following technical scheme realizes:

the utility model discloses a sleep monitor data acquisition device, including data collection station, data repeater and be used for fixing data repeater at human chest, fix data collection station fixed establishment on the human body, fixed establishment includes first bandage and second bandage, the hasp connection is passed through at first bandage both ends, second bandage one end and first bandage middle part fixed connection, the second bandage other end and first bandage one end fixed connection, be equipped with the first placing bag that is used for placing data collection station on the first bandage, be equipped with the second placing bag that is used for placing data repeater on the second bandage, data collection station and data repeater pass through the data connection line and connect.

In this scheme, walk around patient's waist fastening with first bandage, patient's shoulder is walked around to the second bandage, puts into first placing bag with data collection station, puts into the second placing bag with data repeater. The data repeater is fixed on the chest of a patient through the second bandage, and the sensors positioned on the head and the chest of the human body are very close to the data repeater, so that data transmission lines for connecting the data repeater on the sensors are very short, the data repeater is not easy to mutually wind, and the data repeater is very convenient to disassemble and assemble.

Data collection station is fixed at patient's waist by first bandage, and data repeater is fixed at patient's chest by the second bandage, and when the patient stood up in the sleep process and changed the position, data repeater, data collection station all changed the position along with the position change together to make data transmission line be difficult for droing, and data repeater, data collection station's relative position also can not change, thereby make the data connecting wire be difficult for droing.

Preferably, the first placing bag is detachably connected with the first bandage through the hook-and-loop fastener assembly, and the second placing bag is detachably connected with the second bandage through the hook-and-loop fastener assembly.

Preferably, the data acquisition unit comprises a first shell, the first shell is provided with a first data input interface for connecting the oronasal airflow sensor, a second data input interface for connecting a data connecting line, a third data input interface for connecting the blood oxygen sensor, a fourth data input interface for connecting the chest respiration detection module, a fifth data input interface for connecting the abdominal respiration detection module, and a sixth data input interface for connecting the leg movement sensor, the first shell is internally provided with a controller, a storage module and a wireless communication module, and the controller is respectively electrically connected with the first data input interface, the second data input interface, the third data input interface, the fourth data input interface, the fifth data input interface, the sixth data input interface, the storage module and the wireless communication module.

The storage module is used for storing the data collected by the data collector, so that doctors can conveniently look up the data. The wireless communication module is used for wirelessly communicating with the mobile terminal or the PC terminal and sending the acquired data to the mobile terminal or the PC terminal for monitoring and diagnosis by doctors. The first data input interface, the fourth data input interface and the fifth data input interface all adopt key interfaces, the second data input interface adopts an EXG interface, and the third data input interface and the sixth data input interface all adopt Remo connectors.

Preferably, the first shell is provided with a luer connector, the first shell is internally provided with an air pressure sensor, the luer connector is connected with the air pressure sensor, and the air pressure sensor is electrically connected with the controller. Luer connector is used for being connected with nasal oxygen tube, and nasal oxygen tube sets up in patient's nostril below, and the gas that the patient expired gets into pressure sensor through nasal oxygen tube, and pressure sensor detects patient's breathing output's pressure to will detect data transmission to the controller.

Preferably, an ambient light sensor is further disposed on the first housing, and the ambient light sensor is electrically connected to the controller. The ambient light sensor detects ambient light change conditions in the sleeping process of the patient, the on-off operation of a sleeping room of the patient is judged, the doctor can conveniently determine the sleeping starting time of the patient and the sleeping time of the patient, and the traditional complicated manual procedures of registering by the patient or the doctor and the like are avoided.

Preferably, a triaxial accelerometer is further arranged in the first shell and electrically connected with the controller. The controller judges the body position of the patient in the sleep monitoring process according to the detection data of the triaxial accelerometer. By analyzing the sleep abnormality in different body positions, doctors are assisted to make constructive suggestions on the sleeping postures of patients.

Preferably, the data repeater includes a second housing, the second housing is provided with a microphone, a data output interface for connecting the data connection line, and a plurality of data input sockets, the data output interface includes a first output terminal and a plurality of second output terminals, the first output terminal is electrically connected to the microphone, the second output terminals are in one-to-one correspondence with the data input sockets, and each second output terminal is electrically connected to the corresponding data input socket.

The plurality of data input sockets are respectively used for accessing data transmission lines of the sensors arranged on the head and the chest of the patient. The data transponder on the chest of the patient is close to the nose of the person, so the snoring sound of the patient can be collected by the microphone on the data transponder, and a device for collecting the snoring sound of the patient does not need to be arranged separately. The data repeater collects data output by the sensors arranged on the head and the chest of the patient and data collected by the microphone to each output terminal of the data output interface, and then forwards the data to the sleep monitoring equipment through a data line, and only one data line is used for data transmission between the data repeater and the sleep monitoring equipment, so that the circuit is simple, fresh, safe and reliable.

Preferably, the microphone is arranged on the left side surface of the second shell, and the data output interface is arranged on the bottom surface of the second shell.

Preferably, the number of the data input sockets is 16, wherein 14 data input sockets are arranged on the top surface of the second shell, and the other 2 data input sockets are arranged on the left side surface of the second shell. The 14 data input jacks on the top surface of the second shell are used for connecting data transmission lines of a sensor on the head of a human body, and the 2 data input jacks on the left side surface of the second shell are used for connecting data transmission lines of a sensor on the chest of the human body.

The utility model discloses a sleep monitor device, including foretell sleep monitor data acquisition device, still include brain electricity collection module, eye movement electricity collection module, lower jaw flesh electricity collection module, electrocardio collection module, oronasal air flow sensor, nasal oxygen pipe, blood oxygen sensor, chest respiration detection module, abdomen respiration detection module, leg movement sensor, brain electricity collection module, eye movement electricity collection module, lower jaw flesh electricity collection module, electrocardio collection module are connected with data repeater through data transmission line respectively, oronasal air flow sensor, nasal oxygen pipe, blood oxygen sensor, chest respiration detection module, abdomen respiration detection module, leg movement sensor are connected with data collection station through data transmission line respectively.

The utility model has the advantages that: (1) collect the data transmission line who arranges the sensor at patient's head, chest through data repeater, gather patient's sound of snoring simultaneously through the miaow head to data collection station is cleared up numerous transmission lines with collecting data, avoids the transmission line to twine each other, the dismouting of being convenient for. (2) The data repeater and the data acquisition unit are fixed on the body of a patient, and when the patient turns over and changes the body position in the sleeping process, the data repeater and the data acquisition unit synchronously change the position along with the change of the body position, so that the data transmission line is not easy to fall off.

Drawings

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

FIG. 2 is a schematic diagram of a data collector;

FIG. 3 is a schematic diagram of a back structure of a data collector;

FIG. 4 is a schematic circuit diagram of a data collector;

fig. 5 is a schematic structural diagram of a data repeater;

FIG. 6 is a schematic diagram of the bottom structure of the headend;

fig. 7 is a circuit schematic of a wireless communication module;

fig. 8 is a circuit schematic of a memory module.

In the figure: 1. the data acquisition device comprises a data acquisition device, 2, a data repeater, 3, a first binding band, 4, a second binding band, 5, a first placing bag, 6, a second placing bag, 7, a first shell, 8, a first data input interface, 9, a second data input interface, 10, a third data input interface, 11, a fourth data input interface, 12, a fifth data input interface, 13, a sixth data input interface, 14, a controller, 15, a storage module, 16, a wireless communication module, 17, a luer connector, 18, an air pressure sensor, 19, an ambient light sensor, 20, a three-axis accelerometer, 21, a second shell, 22, a microphone, 23, a data output interface, 24, a data input socket, 25, an indicator light, 26 and a key.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b): the sleep monitoring data acquisition device of this embodiment, as shown in fig. 1, including data collection station 1, data repeater 2 and be used for fixing data repeater 2 at human chest, fix data collection station 1 at the human fixed establishment, fixed establishment includes first bandage 3 and second bandage 4, first bandage 3 both ends are passed through the hasp and are connected, 4 one ends of second bandage and 3 middle part fixed connection of first bandage, the 4 other ends of second bandage and 3 one end fixed connection of first bandage, be equipped with the first placing bag 5 that is used for placing data collection station 1 on the first bandage 3, be equipped with the second placing bag 6 that is used for placing data repeater 2 on the second bandage 4, data collection station 1 and data repeater 2 pass through the data connecting wire and connect.

First placing bag 5 can be dismantled with first bandage 3 through the magic subsides subassembly and be connected, and 6 bags are placed to the second and can be dismantled with second bandage 4 through the magic subsides subassembly and be connected.

In this scheme, during the use, walk around patient's waist straining with first bandage, patient's shoulder is walked around to the second bandage, puts into first placing bag internal fixation with data collection station, puts into the second with data repeater and places the bag internal fixation, and first bandage, second bandage all are elastic bandage. The data repeater is fixed on the chest of a patient through the second bandage, and the sensors positioned on the head and the chest of the human body are very close to the data repeater, so that data transmission lines for connecting the data repeater on the sensors are very short, the data repeater is not easy to mutually wind, and the data repeater is very convenient to disassemble and assemble.

Data collection station is fixed at patient's waist by first bandage, and data repeater is fixed at patient's chest by the second bandage, and when the patient stood up in the sleep process and changed the position, data repeater, data collection station all changed the position along with the position change together to make data transmission line be difficult for droing, and data repeater, data collection station's relative position also can not change, thereby make the data connecting wire be difficult for droing.

As shown in fig. 2, 3 and 4, the data collector 1 includes a first housing 7, the first housing 7 is provided with a luer 17, an ambient light sensor 19, a key 26, an indicator light 25, a first data input interface 8 for connecting an oronasal airflow sensor, a second data input interface 9 for connecting a data connection line, a third data input interface 10 for connecting an oximeter, a fourth data input interface 11 for connecting a chest respiration detection module, a fifth data input interface 12 for connecting an abdominal respiration detection module, and a sixth data input interface 13 for connecting a leg movement sensor, the first housing 7 is provided with a controller 14, a storage module 15, a wireless communication module 16, an air pressure sensor 18 and a three-axis accelerometer 20, the luer 17 is connected with the air pressure sensor 18, and the controller 14 is respectively connected with the ambient light sensor 19, the key 26, the luer 17 and the air pressure sensor 18, The indicator light 25, the first data input interface 8, the second data input interface 9, the third data input interface 10, the fourth data input interface 11, the fifth data input interface 12, the sixth data input interface 13, the storage module 15, the wireless communication module 16, the air pressure sensor 18 and the three-axis accelerometer 20 are electrically connected.

The first data input interface 8, the fourth data input interface 11 and the fifth data input interface 12 all adopt key interfaces, the second data input interface 9 adopts an EXG interface, and the third data input interface 10 and the sixth data input interface 13 all adopt Raymond connectors.

The wireless communication module is a Bluetooth module, and a circuit diagram is shown in FIG. 7; the memory module adopts an SD memory card, and a circuit diagram is shown in FIG. 8. The controller employs an STM32L496VET6 chip. The air pressure sensor adopts a DLHR-L30G sensor. The triaxial accelerometer uses an ADXL362 accelerometer. The ambient light sensor is an OPT3001 sensor.

Luer connector is used for being connected with nasal oxygen tube, and nasal oxygen tube sets up in patient's nostril below, and the gas that the patient expired gets into pressure sensor through nasal oxygen tube, and pressure sensor detects patient's breathing output's pressure to will detect data transmission to the controller. Through holes are arranged on the first placing bag and correspond to the keys, the indicator light, the ambient light sensor, the luer connector and the data input interface of the data acquisition unit, so that the electronic devices are exposed.

The storage module is used for storing the data collected by the data collector, so that doctors can conveniently look up the data. The wireless communication module is used for wirelessly communicating with the mobile terminal or the PC terminal and sending the acquired data to the mobile terminal or the PC terminal for monitoring and diagnosis by doctors.

The ambient light sensor detects ambient light change conditions in the sleeping process of the patient, the on-off operation of a sleeping room of the patient is judged, the doctor can conveniently determine the sleeping starting time of the patient and the sleeping time of the patient, and the traditional complicated manual procedures of registering by the patient or the doctor and the like are avoided.

The controller judges the body position of the patient in the sleep monitoring process according to the detection data of the triaxial accelerometer. By analyzing the sleep abnormality in different body positions, doctors are assisted to make constructive suggestions on the sleeping postures of patients.

As shown in fig. 5 and 6, the data repeater 2 includes a second housing 21, a microphone 22 is disposed on the second housing 21, a data output interface 23 and 16 data input sockets 24 for connecting data connection lines, the microphone 22 is disposed on the left side surface of the second housing 21, the data output interface 23 is disposed on the bottom surface of the second housing 21, 14 data input sockets 24 are disposed on the top surface of the second housing 21, and in addition, 2 data input sockets 24 are disposed on the left side surface of the second housing 21, the data output interface 23 includes a first output terminal and 16 second output terminals, the first output terminal is electrically connected to the microphone 22, the second output terminals are in one-to-one correspondence with the data input sockets 24, and each second output terminal is electrically connected to the corresponding data input socket 24.

Walk around patient's left shoulder with the second bandage, the second placing bag is located patient's left chest position, when the second placing bag was put into to the data repeater, make the miaow head towards the inboard, be located human head, the sensor of chest is very close apart from the data repeater, 14 data input sockets of second casing top surface are used for connecting the data transmission line of the sensor of human head, 2 data input sockets of second casing left surface are used for connecting the data transmission line of the sensor of human chest, so the data transmission line that is used for connecting the data repeater on these sensors is very short, be difficult to intertwine, and the dismouting is very convenient. Meanwhile, the data transponder positioned on the chest of the patient is close to the nose of the person, so the snoring sound of the patient can be collected by the microphone on the data transponder, and a device for collecting the snoring sound of the patient does not need to be separately arranged.

The data output interface is an EXG interface, and the first output terminal and the second output terminal are pins on the EXG interface. The data repeater collects data output by the sensors arranged on the head and the chest of the patient and data collected by the microphone to each output terminal of the data output interface, and then forwards the data to the sleep monitoring equipment through a data line, and only one data line is used for data transmission between the data repeater and the sleep monitoring equipment, so that the circuit is simple, fresh, safe and reliable.

The second placing bag is open at the top, and the second placing bag left side is equipped with the first through-hole that matches with the miaow head, and the second placing bag bottom is equipped with the second through-hole that matches with data output interface. The top opening is convenient for the data transmission line of the sensor of the human head to pass through, the first through hole is convenient for the microphone to collect the snoring sound of the patient, and the second through hole is convenient for the data connecting line connected with the data output interface to pass through.

The sleep monitoring device of this embodiment, including foretell sleep monitoring data acquisition device, still include brain electricity collection module, the electric collection module of eye movement, lower jaw flesh electricity collection module, electrocardio collection module, oronasal airflow sensor, nasal oxygen pipe, blood oxygen sensor, chest respiration detection module, abdomen respiration detection module, leg movement sensor, brain electricity collection module, the electric collection module of eye movement, lower jaw flesh electricity collection module, electrocardio collection module is connected with data repeater through data transmission line respectively, oronasal airflow sensor, nasal oxygen pipe, blood oxygen sensor, chest respiration detection module, abdomen respiration detection module, leg movement sensor is connected with data collection station through data transmission line respectively.

The electroencephalogram acquisition module comprises 10 detection electrodes, the eye movement electricity acquisition module comprises 2 detection electrodes, the mandible myoelectricity acquisition module comprises 2 detection electrodes, the electrocardio acquisition module comprises 2 detection electrodes, the placement positions of the detection electrodes on a human body are shown in a table I,

watch 1

The 14 data input sockets on the top surface of the second shell are respectively connected with the 10 detection electrodes of the electroencephalogram acquisition module, the 2 detection electrodes of the eye movement electric acquisition module, the 2 detection electrodes of the mandible myoelectricity acquisition module through data transmission lines, and the 2 data input sockets on the left side surface of the second shell are respectively connected with the 2 detection electrodes of the electrocardio acquisition module through data transmission lines.

The sleep monitoring device can collect electroencephalogram data, eye movement electric data, lower jaw electromyogram data, electrocardiogram data, oral and nasal airflow data, blood oxygen data, chest respiration data, abdomen respiration data, leg movement data, body position data, body movement data and snore data of a patient and provide the data for a terminal device of a doctor to analyze, so that a more accurate sleep detection result of the patient can be obtained.

Claims (10)

1. A sleep monitoring data acquisition device is characterized by comprising a data acquisition unit (1), a data transponder (2) and a fixing mechanism for fixing the data transponder (2) on the chest of a human body and fixing the data acquisition unit (1) on the human body, the fixing mechanism comprises a first binding belt (3) and a second binding belt (4), two ends of the first binding belt (3) are connected through a lock catch, one end of the second bandage (4) is fixedly connected with the middle part of the first bandage (3), the other end of the second bandage (4) is fixedly connected with one end of the first bandage (3), a first placing bag (5) for placing the data collector (1) is arranged on the first binding band (3), a second placing bag (6) for placing the data transponder (2) is arranged on the second bandage (4), the data collector (1) is connected with the data repeater (2) through a data connecting line.

2. A sleep monitor data collection device according to claim 1, wherein the first placing bag (5) is detachably connected with the first strap (3) by a hook and loop fastener assembly, and the second placing bag (6) is detachably connected with the second strap (4) by a hook and loop fastener assembly.

3. The sleep monitoring data acquisition device according to claim 1, wherein the data acquisition unit (1) comprises a first casing (7), the first casing (7) is provided with a first data input interface (8) for connecting an oronasal airflow sensor, a second data input interface (9) for connecting a data connection line, a third data input interface (10) for connecting a blood oxygen sensor, a fourth data input interface (11) for connecting a chest respiration detection module, a fifth data input interface (12) for connecting an abdominal respiration detection module, and a sixth data input interface (13) for connecting a leg movement sensor, the first casing (7) is internally provided with a controller (14), a storage module (15) and a wireless communication module (16), and the controller (14) is respectively connected with the first data input interface (8), The second data input interface (9), the third data input interface (10), the fourth data input interface (11), the fifth data input interface (12), the sixth data input interface (13), the storage module (15) and the wireless communication module (16) are electrically connected.

4. A sleep monitor data collection device according to claim 3, wherein the first housing (7) is provided with a luer connector (17), the first housing (7) is provided with an air pressure sensor (18), the luer connector (17) is connected with the air pressure sensor (18), and the air pressure sensor (18) is electrically connected with the controller (14).

5. A sleep monitor data collection device according to claim 3, wherein the first housing (7) is further provided with an ambient light sensor (19), and the ambient light sensor (19) is electrically connected with the controller (14).

6. A sleep monitor data collection device according to claim 3, wherein a triaxial accelerometer (20) is further provided in the first housing (7), the triaxial accelerometer (20) being electrically connected to the controller (14).

7. A sleep monitor data collection device as claimed in claim 1, wherein the data repeater (2) includes a second housing (21), the second housing (21) is provided with a microphone (22), a data output interface (23) for connecting data connection lines, and a plurality of data input sockets (24), the data output interface (23) includes a first output terminal and a plurality of second output terminals, the first output terminal is electrically connected to the microphone (22), the second output terminals are in one-to-one correspondence with the data input sockets (24), and each second output terminal is electrically connected to the corresponding data input socket (24).

8. A sleep monitor data collection device as claimed in claim 7, characterized in that the microphone (22) is arranged at the left side of the second housing (21), and the data output interface (23) is arranged at the bottom of the second housing (21).

9. A sleep monitor data acquisition device as claimed in claim 7, wherein the number of data input sockets (24) is 16, of which 14 data input sockets (24) are arranged on the top surface of the second housing and the other 2 data input sockets (24) are arranged on the left side surface of the second housing (21).

10. A sleep monitoring device, comprising the sleep monitoring data acquisition device of any one of claims 1 to 9, further comprising an electroencephalogram acquisition module, an eye movement electricity acquisition module, a mandible myoelectricity acquisition module, an electrocardio acquisition module, an oronasal airflow sensor, a nasal oxygen tube, a blood oxygen sensor, a chest respiration detection module, an abdominal respiration detection module, and a leg movement sensor, wherein the electroencephalogram acquisition module, the eye movement electricity acquisition module, the mandible myoelectricity acquisition module, and the electrocardio acquisition module are respectively connected with a data repeater through data transmission lines, and the oronasal airflow sensor, the nasal oxygen tube, the blood oxygen sensor, the chest respiration detection module, the abdominal respiration detection module, and the leg movement sensor are respectively connected with the data acquisition unit through data transmission lines.

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