CN220757396U - Small-size breathing heartbeat monitoring device - Google Patents

Abstract

The utility model discloses a small-sized respiratory heartbeat monitoring device, which comprises: the device comprises a main shell, a rechargeable battery, a singlechip, an inertial sensor, a microphone and a wireless communication assembly; the main housing comprises: the main sealing cover plate, the reset key cover plate, the charging port cover plate, the detection box body, the vibrating diaphragm and the rubber ring; the main sealing cover plate is fixedly connected with the detection box body to form a closed shell; the charging port cover plate and the reset key cover plate are arranged on the side face of the detection box body; the sound receiving detection head is arranged on the detection box body, and the rubber ring is used for fixing the vibrating diaphragm to the top end of the sound receiving detection head; the middle part of the radio detection head is provided with an opening corresponding to the microphone; the rechargeable battery, the singlechip, the inertial sensor, the microphone and the wireless communication assembly are fixedly arranged in the detection box body. The utility model has the advantages of simple structure, light weight and convenience, can be quickly and reliably fixed in front of the chest of a user through the binding belt, and can well integrate the advantages of sound and inertia signals to monitor the respiratory heartbeat.

Description

Small-size breathing heartbeat monitoring device

Technical Field

The utility model belongs to the technical field of health monitoring, and particularly relates to a small respiratory heartbeat monitoring device.

Background

Respiration and heartbeat are two important physiological indexes, and the health condition of a human body can be better known by extracting and analyzing the two indexes. For example, by monitoring and analyzing respiration and heartbeat information while the user is sleeping, the user's sleep quality may be assessed, thereby providing an effective reference for improving the user's sleep quality.

In the current smart wearable devices on the market, there is a lack of a device that can monitor the heartbeat and respiration of a user simultaneously. Although the popular smart watches, smart bracelets and the like are portable, the breathing state of the user cannot be monitored. In the current medical system, medical staff mainly uses a sleep monitor to evaluate the sleep quality of a user, however, the sleep monitor needs to paste a plurality of electrodes on the user to perform sleep monitoring, which is complex and expensive to use.

Therefore, based on the above-mentioned considerations, it is necessary to provide a small respiratory heartbeat monitoring device, which continuously monitors respiratory heartbeats of a user in a more convenient wearing manner at a lower cost, so as to evaluate sleep quality of the user.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a small respiratory heartbeat monitoring device so as to realize simultaneous monitoring of heartbeat and respiration by using the same equipment, and solve the problems of high cost and complicated wearing of the existing sleep monitoring system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model relates to a small respiratory heartbeat monitoring device, which comprises: the device comprises a main shell, a rechargeable battery, a singlechip, an inertial sensor, a microphone and a wireless communication assembly; wherein,

the main housing comprises: the main sealing cover plate, the reset key cover plate, the charging port cover plate, the detection box body, the vibrating diaphragm and the rubber ring; the main sealing cover plate is fixedly connected with the detection box body to form a closed shell; the charging port cover plate and the reset key cover plate are arranged on the side face of the detection box body; the sound receiving detection head is arranged on the detection box body, and the rubber ring is used for fixing the vibrating diaphragm to the top end of the sound receiving detection head; the middle part of the radio detection head is provided with an opening corresponding to the microphone; the rechargeable battery, the singlechip, the inertial sensor, the microphone and the wireless communication component are fixedly arranged in the detection box body, and the singlechip is respectively and electrically connected with the inertial sensor, the microphone, the wireless communication component and the rechargeable battery.

Further, the radio detecting head is an oblate radio detecting head.

Further, the top surface of radio reception detecting head is equipped with first sunken, and the top surface middle part is equipped with the opening that corresponds to the microphone, and the edge of radio reception detecting head is equipped with the second recess, the rubber ring card is located second recess department and is fixed in the top of radio reception detecting head with the vibrating diaphragm, and first sunken vibrating diaphragm and opening are connected respectively, and sound is conducted to microphone department through first sunken and opening after the vibrating diaphragm is amplified.

Further, the detection box body is of rectangular design, and the bottom surface of the detection box body is of an open type design.

Further, a first sealing groove and a plurality of first screw holes are formed in the edge position of the bottom surface of the detection box body; the top of the main sealing cover plate is provided with a second sealing groove and a plurality of second screw holes, and the second screw holes are matched with the first screw holes through screws and are used for fixing the sealing cover plate at the bottom of the detection box body; the second seal groove is matched with the first seal groove to realize the airtight sound insulation of the box body.

Further, a charging port and a singlechip reset transmission button are arranged on the side part of the detection box body, the charging port corresponds to the charging port of the rechargeable battery, and the singlechip reset transmission button is in rigid contact with a reset key of the singlechip so as to reset the singlechip.

Further, a first rotating shaft is arranged on the reset key cover plate, and the first rotating shaft is embedded into a third groove arranged on the main sealing cover plate, so that the reset key cover plate rigidly rotates on the main sealing cover plate; the charging port cover plate is provided with a second rotating shaft, and the second rotating shaft is embedded into a fourth groove formed in the main sealing cover plate, so that the charging port cover plate rigidly rotates on the main sealing cover plate; the third groove is positioned near the reset transmission button of the singlechip; the fourth groove is located near the charging port.

Further, a plurality of embedded grooves are formed in the main sealing cover plate and are located near the reset transmission button of the single chip microcomputer and the charging port, and the reset key cover plate and the charging port cover plate are matched with the embedded grooves through protrusions of the main sealing cover plate to seal openings at the reset transmission button of the single chip microcomputer and the charging port.

Further, a fifth groove is formed in the reset key cover plate, and a sixth groove is formed in the charging port cover plate.

Further, the two ends of the main sealing cover plate are provided with binding band penetrating openings, and the monitoring device is fixed in front of the chest of a user after being matched with the binding bands.

Further, the singlechip selects an ESP32.

The utility model has the beneficial effects that:

1. the chest strap is simple in structure, light and convenient, and can be quickly and reliably fixed in front of the chest of a user through the strap.

2. The hardware of the utility model adopts commercial general elements, and has low cost and lower power consumption.

3. The utility model can well integrate the advantages of sound and inertia signals to monitor the respiratory heartbeat. The inertial sensor and the microphone are sealed in the airtight sound insulation shell, so that external environment noise can be weakened, the microphone is used for collecting heartbeat sound amplified by the vibrating diaphragm, and the inertial sensor is used for collecting heartbeat and respiratory inertial signals in a contact manner; the stable respiration and heartbeat information can be obtained by fusing the signals of the sound mode and the inertia mode.

Drawings

FIG. 1 is an exploded view of the device of the present utility model.

Fig. 2 is a schematic view of the overall structure of the device of the present utility model.

Fig. 3a is a schematic view of a first view structure of a detection case according to the present utility model.

Fig. 3b is a schematic view of a second view structure of the detection case according to the present utility model.

Fig. 4a is a schematic view of a first view structure of a main seal cover plate according to the present utility model.

Fig. 4b is a schematic view of a second view structure of the main seal cover plate according to the present utility model.

Fig. 5a is a schematic view of a first view structure of a charging port cover plate and a reset key cover plate according to the present utility model.

Fig. 5b is a schematic view of a second view structure of the charging port cover plate and the reset key cover plate according to the present utility model.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model.

Referring to fig. 1-5 b, a small respiratory heartbeat monitoring device of the present utility model includes: the device comprises a main shell, a rechargeable battery 2, a singlechip 3, an inertial sensor 4, a microphone 5 and a wireless communication component 6; wherein,

the main housing comprises: the main sealing cover plate 1, the reset key cover plate 7, the charging port cover plate 8, the detection box body 9, the vibrating diaphragm 10 and the rubber ring 11; the main sealing cover plate 1 is fixedly connected with the detection box body 9 to form a closed shell; the charging port cover plate 8 and the reset key cover plate 7 are arranged on the side face of the detection box body 9; the detection box body 9 is provided with a radio detection head 40, and the rubber ring 11 is used for fixing the vibrating diaphragm 10 at the top end of the radio detection head 40; the middle part of the radio detecting head 40 is provided with an opening corresponding to the microphone 5; the rechargeable battery 2, the singlechip 3, the inertial sensor 4, the microphone 5 and the wireless communication component 6 are fixedly arranged in the detection box 9, and the singlechip 3 is respectively and electrically connected with the inertial sensor 4, the microphone 5, the wireless communication component 6 and the rechargeable battery 2.

Wherein, the radio detecting head 40 is an oblate radio detecting head.

Wherein, the top surface of radio reception detecting head 40 is equipped with first sunken 12, and the top surface middle part is equipped with the opening 13 that corresponds to the microphone, and the edge of radio reception detecting head 40 is equipped with second recess 14, the rubber ring 11 card is located second recess 14 departments and is fixed in the top of radio reception detecting head 40 with vibrating diaphragm 10, and vibrating diaphragm 10 and opening 13 have been reserved for the vibrating diaphragm to first sunken 12, and the sound is conducted to microphone department through first sunken 12 and opening 13 after vibrating diaphragm 10 is enlarged.

Wherein, the detection box 9 is rectangular in design, and the bottom surface is open-type in design.

Wherein, the edge of the bottom surface of the detection box body 9 is provided with a first sealing groove 21 and a plurality of first screw holes 20; the top of the main sealing cover plate 1 is provided with a second sealing groove 23 and a plurality of second screw holes 30, and the second screw holes 30 are matched with the first screw holes 20 through screws and are used for fixing the sealing cover plate 1 at the bottom of the detection box body 9; the second seal groove 23 cooperates with the first seal groove 21 to realize sealing and sound insulation of the case.

The side part of the detection box body 9 is provided with a charging port 22 and a singlechip reset transmission button 16, the charging port 22 corresponds to the charging port of the rechargeable battery 2, and the singlechip reset transmission button 16 is in rigid contact with a reset key of the singlechip 3 so as to reset the singlechip 3.

Wherein, the reset key cover plate 7 is provided with a first rotating shaft 32, and the first rotating shaft 32 is embedded into a third groove 25 arranged on the main sealing cover plate 1, so that the reset key cover plate 7 rigidly rotates on the main sealing cover plate; the charging port cover plate 8 is provided with a second rotating shaft 36, and the second rotating shaft 36 is embedded into a fourth groove 27 formed in the main sealing cover plate 1, so that the charging port cover plate 8 rigidly rotates on the main sealing cover plate 1; the third groove 25 is positioned near the reset transmission button 16 of the singlechip; the fourth recess 27 is located near the charging port 22.

The main sealing cover plate 1 is provided with embedded grooves 15, 17, 18 and 19 near the singlechip reset transmission button 16 and the charging port 22, and the reset key cover plate 7 and the charging port cover plate 8 are matched with the embedded grooves through own bulges 33, 35, 37 and 39 to realize the sealing of openings at the charging port 22 and the singlechip reset transmission button 16 so as to ensure the airtight sound insulation of the main shell.

The reset key cover plate 7 is provided with a fifth groove 34, and the charging port cover plate 8 is provided with a sixth groove 38 for opening the reset key cover plate and the charging port cover plate.

The two ends of the main sealing cover plate 1 are provided with binding band penetrating openings 24, and the monitoring device is fixed in front of the chest of a user after being matched with the binding bands.

Wherein, ESP32 is selected as the singlechip 3.

The device is fixed in front of the chest of a user through the binding band penetrating opening 24 of the main sealing cover plate 1 by using the binding band, so that the vibrating diaphragm 10 in the device is attached to the left chest of the user, and sound and inertial sensor data are collected; during operation, the inertial sensor 4 collects thoracic cavity fluctuation data, the microphone 5 collects heartbeat sound data, the heartbeat sound data is buffered and processed by the singlechip 3, and then the wireless communication assembly 6 is sent to the intelligent terminal, and the intelligent terminal can further perform fusion processing on sound and inertial signals to obtain more accurate respiration and heartbeat data.

The present utility model has been described in terms of the preferred embodiments thereof, and it should be understood by those skilled in the art that various modifications can be made without departing from the principles of the utility model, and such modifications should also be considered as being within the scope of the utility model.

Claims (10)

1. A small respiratory heartbeat monitoring device, comprising: the device comprises a main shell, a rechargeable battery, a singlechip, an inertial sensor, a microphone and a wireless communication assembly;

the main housing comprises: the main sealing cover plate, the reset key cover plate, the charging port cover plate, the detection box body, the vibrating diaphragm and the rubber ring; the main sealing cover plate is fixedly connected with the detection box body to form a closed shell; the charging port cover plate and the reset key cover plate are arranged on the side face of the detection box body; the sound receiving detection head is arranged on the detection box body, and the rubber ring is used for fixing the vibrating diaphragm to the top end of the sound receiving detection head; the middle part of the radio detection head is provided with an opening corresponding to the microphone; the rechargeable battery, the singlechip, the inertial sensor, the microphone and the wireless communication component are fixedly arranged in the detection box body, and the singlechip is respectively and electrically connected with the inertial sensor, the microphone, the wireless communication component and the rechargeable battery.

2. The small respiratory heartbeat monitoring device of claim 1 wherein the acoustic detector head is an oblong acoustic detector head.

3. The small respiratory heartbeat monitoring device of claim 1 wherein the top surface of the acoustic pick-up head is provided with a first recess, the middle of the top surface is provided with an opening corresponding to the microphone, the edge of the acoustic pick-up head is provided with a second groove, the rubber ring is clamped at the second groove to fix the vibrating diaphragm at the top end of the acoustic pick-up head, and the first recess is respectively connected with the vibrating diaphragm and the opening.

4. The small respiratory heartbeat monitoring device of claim 1 wherein the detection housing is of rectangular design and the bottom surface is of open design.

5. The small respiratory heartbeat monitoring device of claim 1 wherein the bottom edge of the detection box is provided with a first seal groove and a plurality of first screw holes; the top of the main sealing cover plate is provided with a second sealing groove and a plurality of second screw holes, and the second screw holes are matched with the first screw holes through screws and are used for fixing the sealing cover plate at the bottom of the detection box body; the second seal groove is matched with the first seal groove to realize the airtight sound insulation of the box body.

6. The small-sized respiratory heartbeat monitoring device according to claim 1, wherein a charging port and a singlechip reset transmission button are arranged on the side part of the detection box body, the charging port corresponds to the charging port of the rechargeable battery, and the singlechip reset transmission button is in rigid contact with a reset key of the singlechip so as to reset the singlechip.

7. The small respiratory heartbeat monitoring device of claim 1 wherein the reset key cover plate is provided with a first rotating shaft which is embedded into a third groove provided on the main sealing cover plate so that the reset key cover plate rigidly rotates on the main sealing cover plate; the charging port cover plate is provided with a second rotating shaft, and the second rotating shaft is embedded into a fourth groove formed in the main sealing cover plate, so that the charging port cover plate rigidly rotates on the main sealing cover plate; the third groove is positioned near the reset transmission button of the singlechip; the fourth groove is located near the charging port.

8. The small-sized respiratory heartbeat monitoring device according to claim 1, wherein a plurality of embedded grooves are formed in the main sealing cover plate and located near the reset transmission button of the single chip microcomputer and the charging port, and the reset key cover plate and the charging port cover plate are matched with the embedded grooves through protrusions of the main sealing cover plate to seal openings at the reset transmission button of the single chip microcomputer and the charging port.

9. The small respiratory heartbeat monitoring device of claim 1 wherein the reset key cover plate is provided with a fifth recess and the charging port cover plate is provided with a sixth recess.

10. The small respiratory heartbeat monitoring device of claim 1 wherein the main seal cover plate has strap openings at both ends thereof for engaging straps to secure the device to the chest of the user.