CN111265201A - Intelligent sphygmomanometer, intelligent sphygmomanometer system and blood pressure measuring method - Google Patents

Abstract

The invention discloses an intelligent sphygmomanometer, an intelligent sphygmomanometer system and a blood pressure measuring method, wherein the intelligent sphygmomanometer comprises: a sphygmomanometer body; the inside controller of setting at the sphygmomanometer body, the controller includes: the microprocessor is respectively and electrically connected with the blood pressure measuring module, the data processing module, the wireless communication module, the voice playing module, the storage module, the data sending module and the comparison module; the liquid crystal display, the operation control key and the external data interface are arranged outside the sphygmomanometer body. According to the intelligent sphygmomanometer, the intelligent sphygmomanometer system and the blood pressure measuring method, the measured result is played through the voice playing module after measurement, and when the blood pressure value is not in a normal range, a user can be automatically reminded of realizing human-computer interaction.

Description

Intelligent sphygmomanometer, intelligent sphygmomanometer system and blood pressure measuring method

Technical Field

The invention relates to the technical field of sphygmomanometers, in particular to an intelligent sphygmomanometer, an intelligent sphygmomanometer system and a blood pressure measuring method.

Background

The rapid development of modern society leads to the increasingly worsened environment, and unhealthy life habits and unscientific eating habits lead to the increasing appearance of human diseases. Among them, hypertension, which is the first invisible killer name of human, has gradually risen to the top few of the ranking lists for human disease damage, and harms human health for a long time, so that sufferers suffering from hypertension are not willing to suffer from pain, and how to measure and monitor hypertension conveniently and effectively is how to effectively prevent and treat hypertension, which becomes the first problem of people's hypertension resistance. Blood pressure is an important physiological parameter for reflecting the cardiovascular system and the heart state, and is also an important content of home medical monitoring. Blood pressure measurement is the main means of understanding blood pressure levels, diagnosing hypertension, guiding therapy, assessing the efficacy of blood pressure reduction, and observing disease changes.

Blood flows in blood vessels like water flows in flat and smooth riverways, and is usually silent, but when blood or water forms vortex through narrow pipelines, the blood or water can make a sound, and a sphygmomanometer for measuring the blood pressure of a human body is designed according to the principle. The method for measuring the blood pressure comprises the following steps: inflating and pressurizing a cuff wound on an upper arm by using a balloon, wherein the pressure acts on a brachial artery through soft tissue; when the pressure is higher than the systolic pressure, the balloon is deflated slowly, the pressure in the cuff is reduced, when the pressure in the cuff is equal to or slightly lower than the systolic pressure, blood can burst the blocked blood vessels to form vortex along with the systolic ejection of blood, the stethoscope begins to hear the pulsating sound, and the pressure value indicated by the pressure detector is equal to the systolic pressure. Continuously and slowly deflating to gradually reduce the pressure in the cuff, and when the pressure in the cuff is lower than the systolic pressure but higher than the diastolic pressure, the heart can hear a sound once per contraction; when the cuff pressure is reduced to be equal to or slightly lower than the diastolic pressure, the blood flow is again unblocked, and the sound emitted along with the heartbeat is suddenly weakened or disappears, and the pressure value indicated by the pressure detector corresponds to the diastolic pressure.

The blood pressure measuring devices in the prior art are generally standard mercury sphygmomanometers and electronic sphygmomanometers, and after the sphygmomanometers generally measure, a user holds data to find a doctor to determine whether the blood pressure is normal or not, and cannot know whether the data is normal or not immediately, so that the use is very inconvenient, and the data measured by the blood pressure measuring devices each time are manually recorded by the user, and the devices cannot store the data.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention aims to solve the technical problem that the defects in the prior art are overcome, and an intelligent sphygmomanometer, an intelligent sphygmomanometer system and a blood pressure measuring method are provided.

The technical scheme adopted by the invention for solving the technical problem is as follows:

an intelligent sphygmomanometer comprising: a sphygmomanometer body;

the inside controller of setting at the sphygmomanometer body, the controller includes: the microprocessor is respectively and electrically connected with the blood pressure measuring module, the data processing module, the storage module, the comparison module, the voice playing module, the wireless communication module and the data sending module;

the liquid crystal display, the operation control key and the external data interface are arranged outside the sphygmomanometer body;

the blood pressure measuring module is used for measuring the blood pressure of a user and sending the measured blood pressure information to the microprocessor;

the microprocessor is used for receiving the user blood pressure information measured by the blood pressure measuring module;

the data processing module is used for processing the data of the user blood pressure information received by the microprocessor;

the storage module is used for storing the measured blood pressure information, and a first blood pressure value and a second blood pressure value which are stored in advance;

the comparison module is used for comparing the measured blood pressure information with a first blood pressure value and a second blood pressure value which are preset in the storage module, and judging whether the blood pressure value of the current user is within the first blood pressure value and the second blood pressure value;

the voice playing module is used for playing the blood pressure data of the user and playing the judgment result of the comparison module.

Preferably, the blood pressure measuring module comprises a cuff, an air pump, a deflation valve and a pressure sensor;

the pressure sensor is arranged in the cuff, an air pipe is connected between the cuff and the inflating pump, and an air release valve is arranged on the air pipe.

Preferably, the liquid crystal display is used for displaying the current measurement time, the high pressure value, the low pressure value and the pulse per minute value.

Preferably, the operation control key is arranged at the bottom of the liquid crystal display;

the operation control keys comprise a power-on and power-off key, and a first user key and a second user key which are respectively arranged on the left side and the right side of the power-on and power-off key.

An intelligent sphygmomanometer system comprises the intelligent sphygmomanometer;

the cloud platform server is communicated with the wireless communication module and used for receiving the data measured by the blood pressure measuring module;

and the internet terminal is communicated with the cloud platform server and is used for binding the hospital and the social health for the user.

A blood pressure measuring method comprises the following steps:

receiving a measurement instruction triggered by a user;

measuring a blood pressure value of a user through a blood pressure measuring module;

displaying the measured blood pressure value on a liquid crystal display;

comparing the measured blood pressure value with a first blood pressure value and a second blood pressure value which are preset in a storage module through a comparison module;

and judging whether the current blood pressure value and the heart rate value of the current user are in the range of the first blood pressure value and the second blood pressure value, and playing the judgment result through the voice playing module.

Preferably, after the step of receiving the measurement instruction triggered by the user and before the step of measuring the blood pressure value of the user by the blood pressure measurement module, the method further includes:

the first blood pressure value and the second blood pressure value are preset in the storage module.

Preferably, the step of measuring the blood pressure value of the user by the blood pressure measuring module specifically includes:

the inflator pump responds to the trigger instruction to inflate;

when a pulse signal is monitored, the air release valve deflates;

in the air release process of the air release valve, the pressure sensor acquires a pulse signal of a user;

the data processing module carries out data processing on the acquired pulse signals and calculates the blood pressure value.

Preferably, after the step of displaying the measured blood pressure value on the liquid crystal display, before the step of comparing the measured blood pressure value with the first blood pressure value and the second blood pressure value preset in the storage module by the comparison module, the method further comprises:

sending the measured blood pressure value to a cloud platform server, wherein a medical institution bound with a doctor by a user is stored in the cloud platform;

preferably, before the step of receiving the user-triggered measurement instruction, the method further includes:

binding a medical institution for the user to see a doctor through an internet terminal;

after the step of judging whether the current blood pressure value and the heart rate value of the current user are in the normal range and playing the judgment result through the voice playing module, the method further comprises the following steps:

in the preset time, when the measured blood pressure values are not within the range of the first blood pressure value and the second blood pressure value which are preset in the storage module, the medical institution bound with the doctor by the user sends out the doctor reminding through the cloud platform server;

the intelligent sphygmomanometer receives the visit reminder and sends the visit reminder through the voice playing module.

Compared with the prior art, the embodiment of the application mainly has the following beneficial effects:

according to the intelligent sphygmomanometer, the intelligent sphygmomanometer system and the blood pressure measuring method, when the blood pressure meter is used, the voice playing module is used for playing the blood pressure value of the current user and whether the blood pressure value is within a normal range, the use convenience is effectively improved, the man-machine interaction function is realized, meanwhile, after the user binds personal information with a medical institution at the internet terminal, the user can communicate with the cloud platform service end through the internet terminal, the medical institution can timely send a diagnosis reminding to the user, in addition, doctor and patient communication information can be continuously captured in the inquiry process of the doctor, the doctor is helped to make a more comprehensive and accurate inquiry, and the working efficiency of the doctor can be improved through the intelligent sphygmomanometer.

Drawings

In order to illustrate the solution of the present application more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

FIG. 1 is a block diagram of a preferred embodiment of an intelligent blood pressure monitor according to the present invention.

FIG. 2 is a block diagram of a blood pressure measurement module in a preferred embodiment of the present invention.

FIG. 3 is a block diagram of the operation control buttons in the preferred embodiment of the intelligent blood pressure monitor of the present invention.

FIG. 4 is a block diagram of a preferred embodiment of an intelligent blood pressure monitor system according to the present invention.

FIG. 5 is a flowchart illustrating a blood pressure measurement method according to a preferred embodiment of the present invention.

FIG. 6 is a flow chart of another preferred embodiment of a blood pressure measurement method according to the present invention.

FIG. 7 is a schematic view of a measurement flow of a blood pressure measurement module according to a preferred embodiment of the blood pressure measurement method of the present invention.

FIG. 8 is a flowchart illustrating a blood pressure measurement method according to another preferred embodiment of the present invention.

FIG. 9 is a flow chart of a blood pressure measurement method according to still another preferred embodiment of the present invention.

Reference numerals:

100-a sphygmomanometer body, 200-a controller, 300-a cloud platform server, 400-an internet terminal, 101-a liquid crystal display, 102-an operation control key, 103-an external data interface, 201-a microprocessor, 202-a blood pressure measuring module, 203-a data processing module, 204-a wireless communication module, 205-a voice playing module, 206-a storage module, 207-a data sending module, 208-a comparison module, 212-a cuff, 222-an inflator pump, 232-a deflation valve, 242-a pressure sensor, 112-a power-on and power-off key, 122-a first user key and 132-a second user key.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

An embodiment of the present invention provides an intelligent sphygmomanometer, as shown in fig. 1, including: a sphygmomanometer body 100; a controller 200 provided inside the sphygmomanometer body 100, the controller 200 including: the blood pressure measuring device comprises a microprocessor 201, a blood pressure measuring module 202, a data processing module 203, a wireless communication module 204, a voice playing module 205, a storage module 206, a data sending module 207 and a comparison module 208 which are respectively electrically connected with the microprocessor 201; a liquid crystal display 101, an operation control key 102 and an external data interface 103 which are arranged outside the sphygmomanometer body 100; the blood pressure measurement 202 module is used for measuring the blood pressure of the user and sending the measured blood pressure information to the microprocessor 201; the microprocessor 201 is used for receiving the user blood pressure information measured by the blood pressure measuring module 202; the data processing module 203 is used for processing the user blood pressure information received by the microprocessor 201; the storage module 206 is configured to store the measured blood pressure information, and a first blood pressure value and a second blood pressure value that are stored in advance; the comparing module 208 is configured to compare the measured blood pressure information with a first blood pressure value and a second blood pressure value preset in the storage module 206, and determine whether the blood pressure value of the current user is within the first blood pressure value and the second blood pressure value; the voice playing module 205 is configured to play the blood pressure data of the user and play the judgment result of the comparing module.

In specific implementation, the first blood pressure value range is 60-90mmhg, namely the range of the diastolic pressure of the human body, the second blood pressure value range is 90-140mmhg, namely the range of the systolic pressure of the human body, and the blood pressure value in the range is the standard healthy blood pressure range. For example, when the blood pressure value measured by the user is 80 (low pressure)/125 (high pressure), and the blood pressure value measured by the user is within the range of the first blood pressure value and the second blood pressure value, the blood pressure value of the user is within the normal range, at this time, the liquid crystal display 101 displays the blood pressure value, and the voice playing module 205 plays the prompt words such as the blood pressure value and the blood pressure normal; if the blood pressure value measured by the user is 95 (low pressure)/135 (high pressure), the blood pressure value measured by the user is not in the range of the first blood pressure value (60-90), at this time, the liquid crystal display 101 displays the blood pressure value, and simultaneously, the voice playing module 205 plays the prompting words of the blood pressure value, abnormal blood pressure and the like; if the blood pressure value measured by the user is 80 (low pressure)/150 (high pressure), the blood pressure value measured by the user is not in the range of the second blood pressure value (90-140), at this time, the liquid crystal display 101 displays the blood pressure value, and the voice playing module 205 plays the prompts such as the blood pressure value and abnormal blood pressure.

The external data interface 103 is a charging interface, and certainly, a power supply such as a lithium battery for supplying power to the controller 200 is arranged on the inner page of the sphygmomanometer.

Of course, the range of blood pressure is also age-related, and in the normal blood pressure range, the older the blood pressure is higher than the younger blood pressure, so that it is necessary to input age information of the user when using the blood pressure monitor.

In a further preferred embodiment of the present invention, as shown in fig. 2, the blood pressure measuring module 202 comprises a cuff 212, an inflator 222, a deflation valve 232 and a pressure sensor 242;

the pressure sensor is arranged in the cuff, an air pipe is connected between the cuff 212 and the inflating pump 222, and an air release valve 232 is arranged on the air pipe.

In a further preferred embodiment of the present invention, the LCD 101 is used for displaying the current measurement time, the high voltage value, the low voltage value and the pulse per minute value. The time is set at the uppermost of the liquid crystal display 101, the lower side of the time is a high voltage value, the lower side of the high voltage value is a low voltage value, and the lower side of the low voltage value is a minute pulse value.

The pulse value per minute is also provided with a screen for displaying the name, sex and age of the user.

As shown in fig. 3, in a further preferred embodiment of the present invention, the operation control key 102 is disposed at the bottom of the liquid crystal display 101;

the operation control keys 102 include an on/off key 112, and a first user key 122 and a second user key 132 respectively disposed on left and right sides of the on/off key 112.

The power on/off button 112 is used for turning on and off the intelligent sphygmomanometer, and the first user button 122 and the second user button 132 are respectively used for measuring blood pressure values of two different users. A key for inputting age is further provided to the right side of the second user key 132.

An intelligent sphygmomanometer system, as shown in fig. 4, comprising: a sphygmomanometer body 100; a controller 200 provided inside the sphygmomanometer body 100, the controller 200 including: the blood pressure measuring device comprises a microprocessor 201, a blood pressure measuring module 202, a data processing module 203, a wireless communication module 204, a voice playing module 205, a storage module 206, a data sending module 207 and a comparison module 208 which are respectively electrically connected with the microprocessor 201; a liquid crystal display 101, an operation control key 102 and an external data interface 103 which are arranged outside the sphygmomanometer body 100; the blood pressure measurement 202 module is used for measuring the blood pressure of the user and sending the measured blood pressure information to the microprocessor 201; the microprocessor 20 is configured to receive the blood pressure information of the user measured by the blood pressure measuring module 202; the data processing module 203 is used for processing the user blood pressure information received by the microprocessor 201; the storage module 206 is configured to store the measured blood pressure information, and a first blood pressure value and a second blood pressure value that are stored in advance; the comparing module 208 is configured to compare the measured blood pressure information with a first blood pressure value and a second blood pressure value preset in the storage module 206, and determine whether the blood pressure value of the current user is within the first blood pressure value and the second blood pressure value; the voice playing module 205 is configured to play the blood pressure data of the user and play the judgment result of the comparing module; the cloud platform server 300 is communicated with the wireless communication module 204 and used for receiving the data measured by the blood pressure measuring module 202; and an internet terminal 400 for user binding of hospitals and societies, which communicates with the cloud platform server 300.

The hospital and the health society can access and read the data stored on the cloud platform server 300, communicate with the internet terminal 400 of the user, and can send information such as a visit reminder to the internet terminal 400. Of course, the internet terminal 400 can also be adapted to the intelligent sphygmomanometer and can perform wireless communication with the intelligent sphygmomanometer.

In specific implementation, the blood pressure value (including a low pressure value, a high pressure value, and a pulse value) of the user measured by the blood pressure measurement module 202 is uploaded to the cloud platform server 300 through the wireless communication module 204, when no wireless network exists, the data is stored in the storage module 206, 50 groups of data can be stored at one time, and after the wireless communication module 204 and the cloud platform server 300 are successfully networked, the data stored in the storage module 206 is uploaded to the cloud platform server 300. After the data are uploaded to the cloud platform server 300, medical institutions (including hospitals and societies) for the user to see a doctor are bound through the internet terminal 400, and when the measured blood pressure value and the heart rate value exceed values preset in a memory (normal values), the hospitals and societies send out a prompt for the user to see the doctor in time, so that the user can go to the hospital to check.

The internet terminal 400 may be any product capable of connecting to the internet, such as a mobile terminal like a mobile phone, and even some televisions and home computers with network functions.

A blood pressure measuring method, as shown in fig. 5, comprising the steps of:

s100, receiving a measurement instruction triggered by a user;

s200, measuring the blood pressure value of the user through a blood pressure measuring module;

s300, displaying the measured blood pressure value on a liquid crystal display;

s400, comparing the measured blood pressure value with a first blood pressure value and a second blood pressure value which are preset in a storage module through a comparison module;

s500, judging whether the current blood pressure value and the heart rate value of the current user are in the range of the first blood pressure value and the second blood pressure value, and playing the judgment result through a voice playing module.

In a further preferred embodiment of the present invention, as shown in fig. 6, after the step of S100 receiving the measurement instruction triggered by the user, and before the step of S200 measuring the blood pressure value of the user through the blood pressure measurement module, the method further includes:

s600, setting a first blood pressure value and a second blood pressure value in a storage module in advance.

In a further preferred embodiment of the present invention, as shown in fig. 7, the step S200 of measuring the blood pressure value of the user through the blood pressure measuring module specifically includes:

s201, the inflator pump responds to the trigger instruction to inflate;

s202, when a pulse signal is monitored, deflating the air release valve;

s203, in the air leakage process of the air release valve, the pressure sensor collects the pulse signals of the user;

and S204, the data processing module performs data processing on the acquired pulse signals and calculates a blood pressure value.

In a further preferred embodiment of the present invention, as shown in fig. 8, after the step of S300 displaying the measured blood pressure value on the liquid crystal display, and before the step of S400 comparing the measured blood pressure value with the first blood pressure value and the second blood pressure value preset in the storage module by the comparison module, the method further comprises:

s700, sending the measured blood pressure value to a cloud platform server side, wherein a medical institution bound with a doctor by a user is stored in the cloud platform;

in a further preferred embodiment of the present invention, as shown in fig. 9, before the step of S100 receiving the measurement instruction triggered by the user, the method further includes:

s800, binding a medical institution for the user to see a doctor through an Internet terminal;

the step S500 of determining whether the current blood pressure value and heart rate value of the current user are within a normal range, and playing the determination result through the voice playing module further includes:

s900, in a preset time, when the measured blood pressure values are not within the range of the first blood pressure value and the second blood pressure value which are preset in the storage module, the medical institution bound with the doctor by the user sends out a doctor reminding through the cloud platform server; the intelligent sphygmomanometer receives the visit reminder and sends the visit reminder through the voice playing module.

When the intelligent medical treatment system is specifically implemented, the internet terminal comprises terminals such as a computer or a mobile phone, various information (name, sex, age and the like) of a user is uploaded to medical institutions (including hospitals and societies) where the user frequently visits a doctor through APP programs or webpages on the internet terminals, after the user binds the medical institutions where the user visits the doctor through the internet terminal, blood pressure data measured by the measuring module is sent to the cloud platform service terminal through the wireless communication module, at the moment, the medical institutions can monitor the blood pressure values, the medical institutions monitor the blood pressure values of the user for a long time and do not stay in a normal range in a certain time period, and no record of visiting the medical institutions is given out, and the medical institutions can send prompt information for emergency treatment to the internet terminal.

Of course, when the medical institution monitors that the blood pressure value is not in the normal range for a long time, the medical institution may also give out early warning information to medical staff such as doctors, and the subsequent medical staff notifies the user to go to the hospital for examination by way of telephone or the like.

The blood pressure information (blood pressure value and pulse value) measured by the user can be uploaded to the cloud platform server, the uploading success rate reaches 99% under the condition of the network, the uploading success rate is high, 50 groups of memories can be stored without the network, the blood pressure information is uploaded together after the next success, the uploading speed is fast transferred for seconds, voice reply is given after the measurement is finished every time, and if the blood pressure of the user exceeds the range, voice reminding or doctor seeing reminding can be sent. If the medical institution does not receive the information of the doctor of the user and the blood pressure of the user still exceeds the range, the medical staff can return the visit to the user by the telephone, and the one-to-one doctor service can be enjoyed at home.

Of course, the measurement data of the user in the past can also be queried by operating the control key 102, specifically: by pressing the power on/off key 102 for a long time, the first user or the second user enters the storage module, and all information of the user can be inquired in the storage module, and current and latest data can be inquired, so that the use is very convenient.

For example, if the blood pressure value measured by the first user every day is abnormal, the sphygmomanometer will give an alarm to remind the first user to go to the medical institution for treatment in time, and when the measured blood pressure value slowly returns to normal after the first user is treated, the sphygmomanometer will send out an encouraging voice prompt, such as: today blood pressure is normal, please continue to maintain treatment. And the second user can be normal or abnormal in blood pressure value, and the blood pressure value is compared with the blood pressure value measured by the first user.

Medical treatment is closely related to everyone and is also a hot spot direction of global concern. In China, the intelligent sphygmomanometer can play an important scientific and technological support role in improving medical service quality, optimizing medical resource allocation, improving doctor-patient relationship and relieving medical supply contradiction.

In summary, the invention discloses an intelligent sphygmomanometer, an intelligent sphygmomanometer system and a blood pressure measuring method, when the sphygmomanometer is used, the blood pressure value of a current user and whether the blood pressure value is within a normal range are played through a voice playing module, the use convenience is effectively improved, the man-machine interaction function is realized, meanwhile, after a user binds personal information with a medical institution at an internet terminal, the user can communicate with a cloud platform service end through the internet terminal, the medical institution can timely send a diagnosis reminding to the user, in addition, in the inquiry process of a doctor, doctor-patient communication information can be continuously captured, the doctor is helped to carry out more comprehensive and accurate inquiry, and the working efficiency of the doctor can be improved through the intelligent sphygmomanometer.

It is to be understood that the above-described embodiments are merely illustrative of some, but not restrictive, of the broad invention, and that the appended drawings illustrate preferred embodiments of the invention and do not limit the scope of the invention. This application is capable of embodiments in many different forms and is provided for the purpose of enabling a thorough understanding of the disclosure of the application. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims (10)

1. An intelligent sphygmomanometer comprising: the sphygmomanometer body, its characterized in that, intelligence sphygmomanometer still includes:

the inside controller of setting at the sphygmomanometer body, the controller includes: the microprocessor is respectively and electrically connected with the blood pressure measuring module, the data processing module, the storage module, the comparison module, the voice playing module, the wireless communication module and the data sending module;

the liquid crystal display, the operation control key and the external data interface are arranged outside the sphygmomanometer body;

the blood pressure measuring module is used for measuring the blood pressure of a user and sending the measured blood pressure information to the microprocessor;

the microprocessor is used for receiving the user blood pressure information measured by the blood pressure measuring module;

the data processing module is used for processing the data of the user blood pressure information received by the microprocessor;

the storage module is used for storing the measured blood pressure information, and a first blood pressure value and a second blood pressure value which are stored in advance;

the comparison module is used for comparing the measured blood pressure information with a first blood pressure value and a second blood pressure value which are preset in the storage module, and judging whether the blood pressure value of the current user is within the first blood pressure value and the second blood pressure value;

the voice playing module is used for playing the blood pressure data of the user and playing the judgment result of the comparison module.

2. The intelligent sphygmomanometer of claim 1, wherein the blood pressure measurement module comprises a cuff, an inflator, a deflation valve, and a pressure sensor;

the pressure sensor is arranged in the cuff, an air pipe is connected between the cuff and the inflating pump, and an air release valve is arranged on the air pipe.

3. The intelligent sphygmomanometer of claim 1, wherein the liquid crystal display is configured to display a current measurement time, a high pressure value, a low pressure value, and a pulse per minute value.

4. The intelligent sphygmomanometer according to claim 1, wherein the operation control key is disposed at a bottom of the liquid crystal display;

the operation control keys comprise a power-on and power-off key, and a first user key and a second user key which are respectively arranged on the left side and the right side of the power-on and power-off key.

5. An intelligent sphygmomanometer system comprising the intelligent sphygmomanometer according to any one of claims 1 to 5;

the cloud platform server is communicated with the wireless communication module and used for receiving the data measured by the blood pressure measuring module;

and the internet terminal is communicated with the cloud platform server and is used for binding the hospital and the social health for the user.

6. A blood pressure measuring method is characterized by comprising the following steps:

receiving a measurement instruction triggered by a user;

measuring a blood pressure value of a user through a blood pressure measuring module;

displaying the measured blood pressure value on a liquid crystal display;

comparing the measured blood pressure value with a first blood pressure value and a second blood pressure value which are preset in a storage module through a comparison module;

and judging whether the current blood pressure value and the heart rate value of the current user are in the range of the first blood pressure value and the second blood pressure value, and playing the judgment result through the voice playing module.

7. The method of measuring blood pressure according to claim 6, wherein after the step of receiving a user-triggered measurement instruction and before the step of measuring the blood pressure value of the user by the blood pressure measurement module, the method further comprises:

the first blood pressure value and the second blood pressure value are preset in the storage module.

8. The method for measuring blood pressure according to claim 6, wherein the step of measuring the blood pressure value of the user by the blood pressure measuring module specifically comprises:

the inflator pump responds to the trigger instruction to inflate;

when a pulse signal is monitored, the air release valve deflates;

in the air release process of the air release valve, the pressure sensor acquires a pulse signal of a user;

the data processing module carries out data processing on the acquired pulse signals and calculates the blood pressure value.

9. The method for measuring blood pressure according to claim 6, wherein after the step of displaying the measured blood pressure value on the liquid crystal display, and before the step of comparing the measured blood pressure value with the first blood pressure value and the second blood pressure value preset in the storage module by the comparison module, the method further comprises:

and sending the measured blood pressure value to a cloud platform server, wherein the cloud platform stores medical institutions bound by the user for treatment.

10. The method of measuring blood pressure according to claim 9, wherein the step of receiving a user-triggered measurement instruction is preceded by the step of:

binding a medical institution for the user to see a doctor through an internet terminal;

after the step of judging whether the current blood pressure value and the heart rate value of the current user are in the normal range and playing the judgment result through the voice playing module, the method further comprises the following steps:

in the preset time, when the measured blood pressure values are not within the range of the first blood pressure value and the second blood pressure value which are preset in the storage module, the medical institution bound with the doctor by the user sends out the doctor reminding through the cloud platform server;

the intelligent sphygmomanometer receives the visit reminder and sends the visit reminder through the voice playing module.

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