CN210121138U - Data acquisition device for acquiring sleep monitoring data - Google Patents

Abstract

The utility model discloses a data acquisition device for gathering sleep monitor data. The data acquisition device comprises a data acquisition unit and a fixing mechanism for fixing the data acquisition unit on a human body, wherein the data acquisition unit comprises a shell, a plurality of data input interfaces are arranged on the shell, a controller, a storage module and a wireless communication module are arranged in the shell, and the controller is respectively electrically connected with the data input interfaces, the storage module and the wireless communication module. The utility model discloses fix data collection station on one's body the patient, when the patient stands up in the sleep process and changes the position, data collection station changes the same change position along with the position to make data transmission line be difficult for droing, can also be with the data wireless transmission who gathers to doctor's intelligent terminal in addition.

Description

Data acquisition device for acquiring sleep monitoring data

Technical Field

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

Background

The sleep monitoring that professional monitoring agencies go on such as hospital, need monitor patient's brain electricity, eye movements, oronasal air current, snore, position, chest type are breathed, abdominal respiration, electrocardio, blood oxygen etc. respectively through a plurality of sensors, and these data carry out data transmission through many data transmission lines and external monitoring facilities, because monitoring facilities sets up at the bedside, and the sensor distributes in each position of human body, when the patient stands up in the sleep process and changes the position, lead to data transmission line to drop easily.

Disclosure of Invention

The utility model discloses a solve above-mentioned technical problem, provide a data acquisition device for gathering sleep monitor data, it fixes data collection station on one's body the patient, when the patient stands up in the sleep process and changes the position, data collection station changes the same relocation along with the position to make the data transmission line be difficult for droing, can also be with the data wireless transmission who gathers to doctor's intelligent terminal in addition.

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

the utility model discloses a data acquisition device for gathering sleep monitor data, including data collection station with be used for fixing the fixed establishment on the human body with data collection station, data collection station includes the casing, be equipped with a plurality of data input interfaces on the casing, be equipped with controller, storage module and wireless communication module in the casing, the controller is connected with data input interface, storage module and wireless communication module electricity respectively.

In this scheme, data collection station passes through fixed establishment to be fixed on one's body the patient, and when the patient stood up in the sleep process and changed the position, data collection station changed the position along with the position change together to make the difficult drop of data transmission line. The data input interfaces are respectively used for accessing data transmission lines of different sensors. The storage module is used for storing data output by the sensor, so that the doctor 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.

Preferably, the fixing mechanism comprises a binding band, two ends of the binding band are connected through a lock catch, and a placing bag used for placing the data acquisition unit is arranged on the binding band. The bandage is tied on the waist of the patient, and the data acquisition unit is arranged in the placing bag and fixed. The placing bag is provided with a through hole corresponding to the data input interface of the data acquisition unit for the data transmission line to pass through.

Preferably, the shell is provided with a luer connector, the 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 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 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 shell is further provided with a storage battery, a USB interface and a power management module, and the power management module is electrically connected with the storage battery, the USB interface and the controller respectively. The USB interface is used for charging and data transmission, and the power management module is used for managing charging and discharging of the storage battery.

Preferably, the shell is further provided with a battery compartment, the battery compartment is provided with a containing cavity for containing a storage battery, the front end of the battery compartment is open, a battery compartment cover is arranged at the opening, connecting terminals are symmetrically arranged at the left end and the right end of the rear side of the containing cavity, each connecting terminal comprises a first electrode plate for contacting with the positive electrode of the storage battery and a second electrode plate for contacting with the negative electrode of the storage battery, and the rear side of the containing cavity is further provided with an elastic assembly for ejecting the storage battery towards the opening direction.

Two connecting terminal symmetries set up and holding the chamber rear side, no matter the electrode on the battery can both contact with a connecting terminal on left side or right side, make the anodal and the contact of first electrode slice of battery, the negative pole and the contact of second electrode slice of battery to can switch on, the user need not to confirm the position of electrode on the battery again when inserting the battery, brought the facility for the user. When the storage battery is taken out, the cover of the battery bin is opened, and the storage battery is outwards popped out to form a part under the action of the elastic component, so that a user can take out the storage battery conveniently.

Preferably, the opening is provided with a baffle plate, a rotating mechanism for driving the baffle plate to rotate into/out of the opening is arranged below the opening, and the bottom of the opening is provided with a first notch for the baffle plate to rotate into/out of the opening.

After the storage battery is inserted into the accommodating cavity, the blocking piece is rotated to the opening to fix the storage battery and prevent the storage battery from being popped up by the elastic component. When the storage battery needs to be taken out, the blocking piece is rotated to the lower side of the opening, the storage battery loses the blocking piece to block, and the storage battery pops out under the action of the elastic assembly.

Preferably, the battery compartment cover comprises a cover frame positioned on the front side of the opening and a cover body matched with the cover frame, the upper beam of the cover frame is higher than the top surface of the battery compartment, a gap is formed between the upper beam of the cover frame and the top surface of the battery compartment, a baffle is arranged at the gap, a card inserting hole for a storage card to pass through is formed in the baffle, the storage module comprises a storage card slot and a storage card placed in the storage card slot, and the storage card slot is positioned on the rear side of the card inserting hole.

The entrance of the memory card slot is aligned with the card insertion hole, and the memory card enters and exits the memory card slot through the card insertion hole. When a user needs to plug and pull the storage card, the battery compartment cover needs to be opened, the card inserting hole and the accommodating cavity share one cover body, and the storage card slot does not need to be additionally provided with a cover plate.

Preferably, the number of the data input interfaces is 6, and the data input interfaces comprise a first data input interface for connecting an oral-nasal airflow sensor, a second data input interface for connecting a cardio-cerebral-electric detection module, a third data input interface for connecting a blood oxygen sensor, a fourth data input interface for connecting a chest respiration detection module, a fifth data input interface for connecting an abdominal respiration detection module, and a sixth data input interface for connecting a leg movement sensor.

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 shell is further provided with a key and an indicator light, and the controller is electrically connected with the key and the indicator light respectively.

The utility model has the advantages that: fix data collection station on one's body the patient, when the patient stands up in the sleep process and changes the position, data collection station changes the position along with the position together to make data transmission line be difficult for droing, can also be with the data wireless transmission who gathers to doctor's intelligent terminal in addition.

Drawings

FIG. 1 is a schematic structural view of an 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 view of a battery compartment;

fig. 6 is a schematic view of the internal structure of the battery case;

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

FIG. 8 is a circuit schematic of a memory module;

fig. 9 is a circuit schematic of the power management module.

In the figure: 1. a housing, 2, a controller, 3, a storage module, 4, a wireless communication module, 5, a strap, 6, a placing bag, 7, a luer connector, 8, an air pressure sensor, 9, an ambient light sensor, 10, a three-axis accelerometer, 11, a storage battery, 12, a USB interface, 13, a power management module, 14, a battery compartment, 15, a containing cavity, 16, a connecting terminal, 17, a first electrode sheet, 18, a second electrode sheet, 19, a third electrode sheet, 20, an elastic component, 21, a baffle, 22, a rotating mechanism, 23, a first notch, 24, a cover frame, 25, a cover body, 26, a baffle, 27, a card insertion hole, 28, a first data input interface, 29, a second data input interface, 30, a third data input interface, 31, a fourth data input interface, 32, a fifth data input interface, 33, a sixth data input interface, 34, a key, 35, an indicator light, 36. and a data acquisition device.

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): a data acquisition device for acquiring sleep monitoring data according to the present embodiment, as shown in fig. 1, fig. 2, fig. 3, and fig. 4, includes a data acquisition unit 36 and a fixing mechanism for fixing the data acquisition unit 36 on a human body, where the data acquisition unit 36 includes a housing 1, and the housing 1 is provided with an ambient light sensor 9, a luer connector 7, a key 34, an indicator light 35, a first data input interface 28 for connecting an oronasal airflow sensor, a second data input interface 29 for connecting with a cardiac electricity detection module, a third data input interface 30 for connecting with a blood oxygen sensor, a fourth data input interface 31 for connecting with a chest respiration detection module, a fifth data input interface 32 for connecting with a abdominal respiration detection module, a sixth data input interface 33 for connecting with a leg movement sensor, and a controller 2, a storage module 3, and a wireless communication module 4 are arranged in the housing 1, The controller 2 is respectively electrically connected with the ambient light sensor 9, the key 34, the indicator light 35, the first data input interface 28, the second data input interface 29, the third data input interface 30, the fourth data input interface 31, the fifth data input interface 32, the sixth data input interface 33, the storage module 3, the wireless communication module 4, the air pressure sensor 8 and the three-axis accelerometer 10.

The shell 1 is also provided with a storage battery 11, a USB interface 12 and a power management module 13, and the power management module 13 is electrically connected with the storage battery 11, the USB interface 12 and the controller 2 respectively.

The fixing mechanism comprises a binding band 5, the two ends of the binding band 5 are connected through a lock catch, and a placing bag 6 used for placing the data acquisition unit is arranged on the binding band 5.

The first data input interface 28, the fourth data input interface 31 and the fifth data input interface 32 all adopt key interfaces, the second data input interface 29 adopts an EXG interface, and the third data input interface 30 and the sixth data input interface 33 all adopt Raymond connectors.

The wireless communication module is a Bluetooth module, and a circuit diagram is shown in FIG. 7; the storage module adopts an SD memory card, and a circuit diagram is shown in FIG. 8; the circuit diagram of the power management module is shown in fig. 9. 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.

In this scheme, tie up the bandage at patient's waist, data collection station places the bag in and fixes. Through holes are arranged on the placing bag at positions corresponding 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.

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. The data input interfaces are respectively used for accessing data transmission lines of different sensors. When the patient turns over and changes the body position in the sleeping process, the data acquisition unit changes the position along with the change of the body position, so that the data transmission line and the nasal oxygen cannula are not easy to fall off.

The storage module is used for storing data output by the sensor, so that the doctor 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 USB interface is used for charging and data transmission, and the power management module is used for managing charging and discharging of the storage battery.

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, a battery compartment 14 is further arranged on the housing 1, the battery compartment 14 is provided with a containing cavity 15 for containing the storage battery 11, the front side of the battery compartment 14 is open, a battery compartment cover is arranged at the opening, two connecting terminals 16 are arranged on the rear side of the containing cavity 15, and an elastic assembly 20 for popping the storage battery 11 towards the opening direction is arranged on the rear side of the containing cavity 20, the elastic assembly 20 is positioned in the middle of the rear side of the containing cavity 15, the two connecting terminals 16 are symmetrically arranged on the left side and the right side of the elastic assembly 20, each connecting terminal 16 comprises a first electrode sheet 17 for contacting with the positive electrode of the storage battery, a second electrode sheet 18 for contacting with the negative electrode of the storage battery, a third electrode sheet 19 for contacting with the temperature data output electrode of.

The opening is provided with a baffle 21, a rotating mechanism 22 for driving the baffle 21 to rotate into/out of the opening is arranged below the opening, and the bottom of the opening is provided with a first notch 23 for the baffle 21 to rotate into/out of the opening.

The battery compartment cover comprises a cover frame 24 positioned on the front side of the opening and a cover body 25 matched with the cover frame 24, the upper beam of the cover frame 24 is higher than the top surface of the battery compartment 14, a gap is formed between the upper beam of the cover frame 24 and the top surface of the battery compartment 14, a baffle 26 is arranged at the gap, a card insertion hole 27 for a storage card to pass through is formed in the baffle 26, the storage module 3 comprises a storage card slot and a storage card placed in the storage card slot, and the storage card slot is positioned on the rear side of the card insertion hole 27. The memory card is an SD card.

Two connecting terminal symmetries set up and hold the chamber rear side, no matter the electrode on the battery can both contact with a connecting terminal on left side or right side, make the anodal and the contact of first electrode slice of battery, the negative pole and the contact of second electrode slice of battery to can switch on, the temperature data output electrode and the contact of third electrode of battery, thereby make data collection station can read the battery temperature data of battery output. When the user inserts the storage battery, the orientation of the upper electrode of the storage battery does not need to be determined firstly, and convenience is brought to the user. When the storage battery is taken out, the cover of the battery bin is opened, and the storage battery is outwards popped out to form a part under the action of the elastic component, so that a user can take out the storage battery conveniently.

After the storage battery is inserted into the accommodating cavity, the blocking piece is rotated to the opening to fix the storage battery and prevent the storage battery from being popped up by the elastic component. When the storage battery needs to be taken out, the blocking piece is rotated to the lower side of the opening, the storage battery loses the blocking piece to block, and the storage battery pops out under the action of the elastic assembly.

The entrance of the memory card slot is aligned with the card insertion hole, and the memory card enters and exits the memory card slot through the card insertion hole. When a user needs to plug and pull the storage card, the battery compartment cover needs to be opened, the card inserting hole and the accommodating cavity share one cover body, the storage card slot does not need to be additionally provided with a cover plate, the structure is simplified, and the cost is saved.

Claims (10)

1. The utility model provides a data acquisition device for gathering sleep monitor data, its characterized in that, include data collection station (36) and be used for fixing the fixed establishment on the human body with data collection station (36), data collection station (36) include casing (1), be equipped with a plurality of data input interface on casing (1), be equipped with controller (2), storage module (3) and wireless communication module (4) in casing (1), controller (2) are connected with data input interface, storage module (3) and wireless communication module (4) electricity respectively.

2. The data acquisition device for acquiring sleep monitoring data according to claim 1, wherein the fixing mechanism comprises a binding band (5), two ends of the binding band (5) are connected through a lock catch, and a placing bag (6) for placing the data acquisition unit (36) is arranged on the binding band (5).

3. The data acquisition device for acquiring sleep monitoring data according to claim 1, wherein the housing (1) is provided with a luer connector (7), the housing (1) is provided with an air pressure sensor (8), the luer connector (7) is connected with the air pressure sensor (8), and the air pressure sensor (8) is electrically connected with the controller (2).

4. A data collection device for collecting sleep monitor data according to claim 1, 2 or 3, wherein an ambient light sensor (9) is further provided on the housing (1), and the ambient light sensor (9) is electrically connected to the controller (2).

5. A data collection device for collecting sleep monitoring data as claimed in claim 1, 2 or 3, wherein a three-axis accelerometer (10) is further provided in the housing (1), the three-axis accelerometer (10) being electrically connected to the controller (2).

6. The data acquisition device for acquiring sleep monitoring data according to claim 1, 2 or 3, wherein the housing (1) is further provided with a storage battery (11), a USB interface (12) and a power management module (13), and the power management module (13) is electrically connected with the storage battery (11), the USB interface (12) and the controller (2) respectively.

7. The data acquisition device for acquiring sleep monitoring data according to claim 6, wherein a battery compartment (14) is further arranged on the housing (1), the battery compartment (14) is provided with a containing cavity (15) for containing the storage battery (11), the front end of the battery compartment (14) is open, a battery compartment cover is arranged at the opening, connecting terminals (16) are symmetrically arranged at the left end and the right end of the rear side of the containing cavity (15), each connecting terminal (16) comprises a first electrode plate (17) for contacting with the positive electrode of the storage battery and a second electrode plate (18) for contacting with the negative electrode of the storage battery, and an elastic assembly (20) for ejecting the storage battery (11) towards the opening direction is further arranged at the rear side of the containing cavity (15).

8. The data acquisition device for acquiring sleep monitoring data according to claim 7, wherein the opening is provided with a baffle (21), a rotating mechanism (22) for driving the baffle (21) to rotate into/out of the opening is arranged below the opening, and a first notch (23) for the baffle (21) to rotate into/out of the opening is arranged at the bottom of the opening.

9. The data acquisition device for acquiring sleep monitoring data according to claim 7, wherein the battery compartment cover comprises a cover frame (24) located at the front side of the opening and a cover body (25) matched with the cover frame (24), the upper beam of the cover frame (24) is higher than the top surface of the battery compartment (14), a gap is formed between the upper beam of the cover frame (24) and the top surface of the battery compartment (14), a baffle plate (26) is arranged at the gap, a card insertion hole (27) for a memory card to pass through is formed in the baffle plate (26), the memory module (3) comprises a memory card slot and a memory card placed in the memory card slot, and the memory card slot is located at the rear side of the card insertion hole (27).

10. A data acquisition device for acquiring sleep monitor data according to claim 1, 2 or 3, wherein the number of the data input interfaces is 6, and the data input interfaces include a first data input interface (28) for connecting with an oronasal airflow sensor, a second data input interface (29) for connecting with a cardio-cerebral electrical detection module, a third data input interface (30) for connecting with a blood oxygen sensor, a fourth data input interface (31) for connecting with a chest respiration detection module, a fifth data input interface (32) for connecting with a abdominal respiration detection module, and a sixth data input interface (33) for connecting with a leg movement sensor.

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