CN210250526U - Wearable heart-lung monitor with multi-device interaction interface - Google Patents

Abstract

The utility model provides a wearing formula cardiopulmonary monitor with mutual interface of many equipment, include: the wearable carrier, the electrocardio-electrode, the cardiopulmonary sound monitor, the power supply and the host display; the electrocardio-electrode is connected with the host display through a data cable; the cardiopulmonary sound monitor is connected with the host display through a data cable; the power supply is connected with the host computer display; the electrocardio-electrode, the cardiopulmonary sound monitor and the power supply are all arranged in the wearable carrier, and the host display is arranged on the surface layer of the wearable carrier; the host display is also provided with a plurality of equipment interaction interfaces; the utility model discloses a set up electrocardioelectrode and cardiopulmonary sound detector on wearing formula equipment, gather cardiopulmonary data, can't accomplish the technical problem who gathers accurate cardiopulmonary data in real time among the solution prior art, realize gathering accurate cardiopulmonary data in real time to improve cardiovascular disease's prevalence.

Description

Wearable heart-lung monitor with multi-device interaction interface

Technical Field

The utility model relates to a cardiopulmonary data acquisition technical field especially relates to a wearing formula cardiopulmonary monitor with mutual interface of multi-device.

Background

The prevalence rate of cardiovascular diseases in China is in a continuously rising stage, and 2016 reports of cardiovascular disease survey show that the prevalence rate of cardiovascular diseases in China is as high as 2.9 hundred million, and the morbidity and mortality rate are higher than those of tumors and other diseases. Due to aging factors of the population in China, although the death rate of age-normalized cardiovascular diseases is reduced, the absolute number of the death rate of the cardiovascular diseases is still rapidly increased, and the death rate of the cardiovascular diseases is increased by 46% in 2013 compared with 1990, wherein the death rate of ischemic heart diseases is increased by 90.9%. Since 2004, the hospitalization cost of cardiovascular diseases has been much higher than that of GDP, and the cardiovascular diseases have high morbidity, high mortality and high disease burden, which seriously threatens the health of people in China. In order to improve the prevalence rate of cardiovascular diseases, accurate cardiopulmonary data of a patient must be acquired, but the acquisition of cardiopulmonary data at the present stage is limited to large medical instruments in hospitals, and accurate cardiopulmonary data cannot be acquired in real time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wearing formula cardiopulmonary monitor with mutual interface of multi-device to solve the technical problem that can't accomplish to gather accurate cardiopulmonary data in real time among the prior art, thereby set up electrocardio electrode and cardiopulmonary sound detector on wearing formula equipment, gather cardiopulmonary data, and then realize gathering accurate cardiopulmonary data in real time, in order to improve cardiovascular disease's prevalence.

In order to solve the technical problem, the embodiment of the utility model provides a wearing formula cardiopulmonary monitor with mutual interface of multi-device, include: the wearable carrier, the electrocardio-electrode, the cardiopulmonary sound monitor, the power supply and the host display;

the electrocardio-electrode is connected with the host display through a data cable; the cardiopulmonary sound monitor is connected with the host display through a data cable; the power supply is connected with the host computer display;

the electrocardio-electrode, the cardiopulmonary sound monitor and the power supply are all arranged in the wearable carrier, and the host display is arranged on the surface layer of the wearable carrier; the host display is also provided with a plurality of device interaction interfaces.

Preferably, the electrocardio-electrodes comprise a plurality of back electrocardio-electrodes and a plurality of abdomen electrocardio-electrodes, the back electrocardio-electrodes are arranged at the back position of the wearable carrier, and the abdomen electrocardio-electrodes are arranged at the abdomen position of the wearable carrier.

Preferably, the number of the back electrocardio-electrodes is at least 3; the number of the abdomen electrocardio-electrodes is at least 2.

Preferably, the cardiopulmonary sound monitors include a first cardiopulmonary sound monitor and a second cardiopulmonary sound monitor, and the first cardiopulmonary sound monitor and the second cardiopulmonary sound monitor are respectively disposed at a left chest position and a right chest position of the wearable carrier.

Preferably, a vest belt is further arranged on the wearable carrier and used for fastening.

Preferably, the vest strap is a cloth strap.

Preferably, the vest belt is further provided with a vest elastic belt, and the vest elastic belt is used for adjusting the width and the tightness.

Preferably, the power supply is a lithium battery pack.

Preferably, the system further comprises a wireless communication module and a controller, wherein the controller is respectively connected with the wireless communication module and the host display.

Preferably, the wireless communication module comprises a bluetooth module and a wireless module.

Compared with the prior art, the embodiment of the utility model provides a have following beneficial effect:

the utility model discloses a set up electrocardioelectrode and cardiopulmonary sound detector on wearing formula equipment, gather cardiopulmonary data, can't accomplish the technical problem who gathers accurate cardiopulmonary data in real time among the solution prior art, realize gathering accurate cardiopulmonary data in real time to improve cardiovascular disease's prevalence.

Drawings

FIG. 1: is the embodiment of the utility model provides a wearing formula cardiopulmonary detector structure sketch map.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, a preferred embodiment of the present invention provides a wearable cardiopulmonary monitor with a multi-device interaction interface, comprising: the wearable carrier, the electrocardio-electrode, the cardiopulmonary sound monitor, the power supply and the host display;

the electrocardio-electrode is connected with the host display through a data cable; the cardiopulmonary sound monitor is connected with the host display through a data cable; the power supply is connected with the host computer display;

the electrocardio-electrode, the cardiopulmonary sound monitor and the power supply are all arranged in the wearable carrier, and the host display is arranged on the surface layer of the wearable carrier; the host display is also provided with a plurality of device interaction interfaces.

The electrocardio-electrode adopts a flexible sensor electrode and is responsible for collecting twelve-lead electrocardiosignals and chest impedance signals, an ADC (Analog-to-Digital Converter) chip with low power consumption and special for ECG collection is also arranged in the electrocardio-electrode, the chip integrates a filtering module, has the characteristics of high precision, low power consumption, high integration level and the like, simultaneously has a chest impedance signal collection interface, simplifies the system design, and the collected data is transmitted to a host display by a data cable for display. The heart and lung sound monitor adopts an MEMS (Micro-Electro-Mechanical System) sensor technology, is processed by a special pickup cavity and an amplifying and filtering circuit, collects sound signals of lung respiration of a patient with high fidelity, converts the sound signals into digital signals through ADC (analog to digital converter), and transmits the data to a host display for displaying by a data cable. Simultaneously, the cardiopulmonary sound monitor still gathers blood oxygen signal, adopts present advanced photoelectric sensor, and the blood oxygen concentration information of human skin is directly gathered, can gather the heart rate signal simultaneously, and the signal is converted into digital signal through built-in low pass filter of cardiopulmonary sound monitor and analog-to-digital conversion module, and the host computer display is shown through data cable transmission. The power is used for providing the power function to whole wearing formula heart-lung monitor that has many equipment interaction interface. The operation interactive interface adopts a small-size TFT (thin Film transistor) touch screen, and can actually see electrocardiogram data and set operation parameters.

In this embodiment, the electrocardiograph electrodes include a plurality of back electrocardiograph electrodes and a plurality of abdomen electrocardiograph electrodes, the back electrocardiograph electrodes are disposed at the back position of the wearable carrier, and the abdomen electrocardiograph electrodes are disposed at the abdomen position of the wearable carrier. The back electrocardio-electrode is arranged at the back position of the wearable carrier, and the abdomen electrocardio-electrode is arranged at the abdomen position of the wearable carrier, so that data can be acquired more accurately.

In this embodiment, the number of the back electrocardiograph electrodes is at least 3; the number of the abdomen electrocardio-electrodes is at least 2.

In this embodiment, the cardiopulmonary sound monitors include a first cardiopulmonary sound monitor and a second cardiopulmonary sound monitor, and the first cardiopulmonary sound monitor and the second cardiopulmonary sound monitor are respectively disposed at a left chest position and a right chest position of the wearable carrier. More accurate cardiopulmonary data can be acquired by arranging the cardiopulmonary sound monitors at the left and right chest positions.

In this embodiment, a vest strap is further provided on the wearable carrier, and the vest strap is used for fastening.

In this embodiment, the vest straps are cloth straps. The cloth belt can make the use of the user more comfortable.

In this embodiment, the vest band is further provided with a vest elastic band, and the vest elastic band is used for adjusting the width and the tightness. The length of the vest belt is set by stretching the vest elastic belt, so that the width and the tightness of the wearable carrier are adjusted, and the comfort is improved.

In this embodiment, the power source is a lithium battery pack. The density of lithium battery group is high, has adopted large capacity lithium cell, guarantees that the terminal can last more than 48 hours.

In this embodiment, the system further comprises a wireless communication module and a controller, wherein the controller is connected with the wireless communication module and the host display respectively. The controller obtains the data in the host display and sends the data to the user terminal through the wireless communication module, so that a user can check various data on the mobile phone, and the intelligent mobile phone is more intelligent.

In this embodiment, the wireless communication module includes a bluetooth module and a wireless module. The wireless module is suitable for a WIFI network, an NB-IOT network, a 3G/4G network and the like, data are sent out through the networks, and when the wireless module is not provided with the network, the data can be transmitted out through the Bluetooth module, so that a user can use the wireless module more conveniently.

The utility model discloses a set up electrocardioelectrode and cardiopulmonary sound detector on wearing formula equipment, gather cardiopulmonary data, can't accomplish the technical problem who gathers accurate cardiopulmonary data in real time among the solution prior art, realize gathering accurate cardiopulmonary data in real time to improve cardiovascular disease's prevalence.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the scope of the present invention. It should be understood that any modification, equivalent replacement, or improvement made by those skilled in the art without departing from the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a wearing formula heart lung monitor with mutual interface of multi-device which characterized in that includes: the wearable carrier, the electrocardio-electrode, the cardiopulmonary sound monitor, the power supply and the host display;

the electrocardio-electrode is connected with the host display through a data cable; the cardiopulmonary sound monitor is connected with the host display through a data cable; the power supply is connected with the host computer display;

the electrocardio-electrode, the cardiopulmonary sound monitor and the power supply are all arranged in the wearable carrier, and the host display is arranged on the surface layer of the wearable carrier; the host display is also provided with a plurality of device interaction interfaces.

2. The wearable cardiopulmonary monitor of claim 1 with a multi-device interaction interface, wherein the electrocardiograph electrodes comprise a plurality of back electrocardiograph electrodes disposed at a back location of the wearable carrier and a plurality of abdomen electrocardiograph electrodes disposed at an abdomen location of the wearable carrier.

3. The wearable cardiorespiratory monitor with multi-device interaction interface of claim 2, wherein the number of the back electrocardio-electrodes is at least 3; the number of the abdomen electrocardio-electrodes is at least 2.

4. The wearable cardiopulmonary monitor of claim 1 with a multi-device interactive interface, wherein the cardiopulmonary sound monitor comprises a first cardiopulmonary sound monitor and a second cardiopulmonary sound monitor, the first and second cardiopulmonary sound monitors disposed at left and right chest locations, respectively, of the wearable carrier.

5. The wearable cardiopulmonary monitor of claim 1 with a multi-device interaction interface, further comprising a vest strap disposed on the wearable carrier, the vest strap for fastening.

6. The wearable cardiopulmonary monitor of claim 5 with a multi-device interaction interface, wherein the vest strap is a cloth strap.

7. The wearable cardiopulmonary monitor of claim 5 with a multi-device interaction interface, wherein the vest strap further comprises a vest elastic strap for adjusting the length of the vest elastic strap.

8. The wearable cardiopulmonary monitor of claim 1 with a multi-device interaction interface, wherein the power source is a lithium battery pack.

9. The wearable cardiopulmonary monitor of claim 1 further comprising a wireless communication module and a controller, the controller being connected to the wireless communication module and the host display, respectively.

10. The wearable cardiopulmonary monitor of claim 9 with a multi-device interaction interface, wherein the wireless communication module comprises a bluetooth module and a wireless module.

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