CN213551752U - Electronic sphygmomanometer based on wireless transmission - Google Patents

Abstract

The utility model provides a based on wireless transmission electrosphygmomanometer, the sphygmomanometer includes: the heart-lung sound signal processing device comprises an air sleeve, wherein an air bag is arranged in the air sleeve, a high-sensitivity microphone is further arranged in the air sleeve and used for collecting the heart-lung sound signals of a user, and an audio amplifier is further arranged on the high-sensitivity microphone to amplify the heart-lung sound signals; the sphygmomanometer body includes: the air port of the electric air pump is connected with the air pipe, and the electric air pump is connected with the controller; the sphygmomanometer body further comprises a communication module, a storage module and a prompt module which are coupled with the controller; the storage module is used for pre-storing a preset value so that the controller can compare the measured blood pressure index with the preset value, if the blood pressure index does not reach the standard, the communication module provides the blood pressure index to the mobile terminal or the cloud server, and meanwhile, the prompting module sends out prompting information.

Description

Electronic sphygmomanometer based on wireless transmission

Technical Field

The utility model relates to an everyday object the field especially relates to a based on wireless transmission electrosphygmomanometer.

Background

In modern life, people have increasingly physical conditions with the increasing age, and hypertension becomes a problem of most people with larger age, so that the blood pressure measurement becomes daily action of life, but many people need to go to a hospital to measure the blood pressure, and the operation of a sphygmomanometer and reading is not carried out if the people do not go to the hospital to measure the blood pressure, so that inconvenience is brought to the people.

Therefore, there is a need to design a new electronic sphygmomanometer based on wireless transmission and a system thereof, so as to overcome the above drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a based on wireless transmission electronic sphygmomanometer, it can simultaneous measurement user's cardiopulmonary sound signal and blood pressure index to according to the prompt message that blood pressure index generated the correspondence.

In order to achieve the above object, the utility model provides a based on wireless transmission electrosphygmomanometer the sphygmomanometer includes: the heart-lung sound signal processing device comprises an air sleeve, wherein an air bag is arranged in the air sleeve, a high-sensitivity microphone is further arranged in the air sleeve and used for collecting the heart-lung sound signals of a user, and an audio amplifier is further arranged on the high-sensitivity microphone to amplify the heart-lung sound signals; the sphygmomanometer body is connected through the trachea gasbag, the sphygmomanometer body includes: the air port of the electric air pump is connected with the air pipe, and the electric air pump is connected with the controller; the sphygmomanometer body further comprises a communication module, a storage module and a prompt module which are coupled with the controller; the storage module is used for pre-storing a preset value so that the controller can compare the measured blood pressure index with the preset value, if the blood pressure index does not reach the standard, the communication module provides the blood pressure index to the mobile terminal or the cloud server, and meanwhile, the prompting module sends out prompting information.

Preferably, the top surface of the blood pressure meter body shell is further provided with a liquid crystal display screen, and the liquid crystal display screen is coupled to the controller and used for displaying the cardiopulmonary sound signals and the blood pressure index.

Preferably, the communication module is a wireless communication module or a GSM/GPRS communication module.

Preferably, the sphygmomanometer body further comprises a battery management module.

Preferably, the battery management module comprises a lithium battery pack.

Preferably, the sphygmomanometer body further comprises a timing module, and the timing module is used for being matched with the storage module to store the cardiopulmonary sound signal and the blood pressure index.

Preferably, the storage module is a FLASH memory.

Preferably, the prompting module is a voice broadcasting module and is used for prompting the user that the blood pressure index measurement does not reach the standard.

Preferably, the sphygmomanometer body is further provided with a fingerprint identification module, and the fingerprint identification module is coupled to the controller and used for identifying the user identity.

Preferably, the sphygmomanometer body further comprises an analog-to-digital converter, wherein the analog-to-digital converter is connected to the audio amplifier and the controller and is used for providing the cardiopulmonary sound signal to the controller.

Compared with the prior art, the utility model provides a can simultaneous measurement user's cardiopulmonary sound signal and blood pressure index based on wireless transmission electronic sphygmomanometer. The utility model discloses the user operation of being convenient for can be when the blood pressure index is not up to standard, simultaneously through suggestion module and communication module to the user is indicateed to effectively arouse user's attention, convenience of customers oneself or its family make the reply strategy.

Drawings

Fig. 1 is a schematic structural view of the electronic sphygmomanometer based on wireless transmission provided by the present invention;

fig. 2 is a block diagram of the electronic sphygmomanometer based on wireless transmission according to the present invention.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Certain terms are used throughout the description and following claims to refer to particular components. As one of ordinary skill in the art will appreciate, manufacturers may refer to a component by different names. The present specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic sphygmomanometer 1 based on wireless transmission according to the present invention; fig. 2 is a block diagram of the electronic sphygmomanometer 1 based on wireless transmission according to the present invention.

As shown in fig. 1 and 2, the utility model provides an electronic sphygmomanometer 1 based on wireless transmission this sphygmomanometer includes: the air sleeve 10 is internally provided with an air bag, the air sleeve 10 is internally provided with a high-sensitivity microphone 100, the high-sensitivity microphone 100 is used for collecting cardiopulmonary sound signals of a user, and the high-sensitivity microphone 100 is further provided with an audio amplifier 101 for amplifying the cardiopulmonary sound signals; the sphygmomanometer body 20 is connected to the air bag through the air tube, and the sphygmomanometer body 20 includes: the air pump 200 is connected with the controller, the air port of the electric air pump 200 is connected with the air pipe, and the electric air pump 200 is connected with the controller; the sphygmomanometer body 20 further comprises a communication module 700, a storage module 300 and a prompt module 800 coupled with the controller; the storage module 300 is used to pre-store a preset value for the controller to compare the measured blood pressure index with the preset value, and if the blood pressure index does not reach the standard, the communication module 700 provides the blood pressure index to the mobile terminal or the cloud server, and meanwhile, the prompt module 800 sends a prompt message.

In specific implementation, the cardiopulmonary sound signals are collected by a high-sensitivity microphone 100, amplified by a dedicated audio amplifier 101, and collected by a high-speed ADC (analog-to-digital converter 102) to ensure the precision and definition of cardiopulmonary sound, and the high-speed ADC communicates with a processing chip 500500 through an I2C bus. In addition, the collection of blood pressure index and cardiopulmonary sound signal is synchronized by the controller to after the data packing that will gather, send the communication module 700 that is coupled with the controller through serial data bus, through communication module 700 in order to realize the data interaction with mobile terminal or high in the clouds server, simultaneously, blood pressure index and cardiopulmonary sound signal can be shown by liquid crystal display 600 on sphygmomanometer body 20 casing top surface in real time, and liquid crystal display 600 links to each other through parallel data bus with the controller.

Specifically, the controller starts the electric air pump 200 to increase the pressure of the air cuff 10 to a certain value, then the controller controls the electric air pump 200 to gradually deflate at a speed of 4-5mmHg, in the process, the audio detection module arranged in the air cuff 10 receives two pulse signals, the audio detection module sends a relevant signal to the pressure sensing module every time the audio detection module receives one pulse signal, at the moment, the pressure sensing module arranged in the air cuff 10 transmits the measured pressure data to the controller, and the controller calculates the systolic pressure, the average pressure and the diastolic pressure of the measurer according to the pressure data.

In an embodiment, the sphygmomanometer body 20 further includes a battery management module formed by a lithium battery pack, and the communication module 700 may be the wireless communication module 700 or the GSM/GPRS communication module 700, so that when the blood pressure index does not reach the standard, the measured blood pressure index can be immediately sent to the mobile terminal or the cloud server, and the APP associated with the mobile terminal or the cloud server is stored and prompts the user.

Specifically, the wireless communication module can be a bluetooth module or a Wifi module, but the utility model discloses do not use this as the limit.

In an embodiment, the storage module 300 is a FLASH memory, and preferably, the sphygmomanometer body 20 further includes a timer module 301, which is a time chip and is used for performing data recording in cooperation with the storage module 300.

In an embodiment, the prompt module 800 in the sphygmomanometer body 20 is a voice broadcast module, coupled to the controller, for playing the cardiopulmonary sound signal and the blood pressure index by voice, or, when the controller determines that the blood pressure index and/or the cardiopulmonary sound signal do not conform to the preset value in the storage module 300, broadcasting to the user.

In an embodiment, the sphygmomanometer body 20 further includes a fingerprint identification module 400 coupled to the controller, the fingerprint identification module 400 is used for identifying the user identity, for example, the sphygmomanometer may store identity information of a plurality of users, the ages of different users are different, and the sphygmomanometer may generate a corresponding preset blood pressure index according to the ages when the identity information of different users is set. That is to say, after the user identity is identified by the fingerprint identification unit, the sphygmomanometer can generate different preset values according to the user identity, so as to judge whether the blood pressure index of the user reaches the standard.

To sum up, the utility model provides a can simultaneous measurement user's cardiopulmonary sound signal and blood pressure index based on wireless transmission electronic sphygmomanometer 1. The utility model discloses be convenient for user operation can be when the blood pressure index is not up to standard, simultaneously through suggestion module 800 and communication module 700 to the user is indicateed to effectively arouse user's attention, the answer strategy is made to convenience of customers oneself or its family.

The present invention has been described in relation to the above embodiments, which are only examples for implementing the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, all changes and modifications which do not depart from the spirit and scope of the present invention are deemed to fall within the scope of the present invention.

Claims (10)

1. An electronic sphygmomanometer based on wireless transmission, the sphygmomanometer comprising:

the heart-lung sound signal processing device comprises an air sleeve, wherein an air bag is arranged in the air sleeve, a high-sensitivity microphone is further arranged in the air sleeve and used for collecting the heart-lung sound signals of a user, and an audio amplifier is further arranged on the high-sensitivity microphone to amplify the heart-lung sound signals;

the sphygmomanometer body is connected through the trachea gasbag, the sphygmomanometer body includes: the air port of the electric air pump is connected with the air pipe, and the electric air pump is connected with the controller;

the sphygmomanometer body further comprises a communication module, a storage module and a prompt module which are coupled with the controller; the storage module is used for pre-storing a preset value so that the controller can compare the measured blood pressure index with the preset value, if the blood pressure index does not reach the standard, the communication module provides the blood pressure index to the mobile terminal or the cloud server, and meanwhile, the prompting module sends out prompting information.

2. The electronic sphygmomanometer based on wireless transmission according to claim 1, wherein the sphygmomanometer body further comprises a liquid crystal display coupled to the controller for displaying the cardiopulmonary sounding signal and the blood pressure index.

3. The electronic sphygmomanometer according to claim 1, wherein the communication module is a wireless communication module or a GSM/GPRS communication module.

4. The electronic sphygmomanometer according to claim 1, wherein the sphygmomanometer body further comprises a battery management module.

5. The wireless transmission based electronic blood pressure meter according to claim 4, wherein the battery management module comprises a lithium battery pack.

6. The electronic sphygmomanometer according to claim 1, wherein the sphygmomanometer body further comprises a timing module, and the timing module is configured to cooperate with the storage module to store the cardiopulmonary sounding signal and the blood pressure index.

7. The wireless transmission based electronic blood pressure meter according to claim 1, wherein the storage module is a FLASH memory.

8. The electronic sphygmomanometer based on wireless transmission according to claim 1, wherein the prompting module is a voice broadcasting module for prompting the user that the blood pressure index measurement does not reach the standard.

9. The electronic sphygmomanometer according to claim 1, wherein the sphygmomanometer body further comprises a fingerprint recognition module coupled to the controller, the fingerprint recognition module being configured to recognize a user identity.

10. The electronic sphygmomanometer based on wireless transmission according to claim 1, further comprising an analog-to-digital converter inside the sphygmomanometer body, wherein the analog-to-digital converter is connected to the audio amplifier and the controller for providing the cardiopulmonary sound signal to the controller.

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