CN211270718U - Multifunctional electronic sphygmomanometer - Google Patents

Abstract

The utility model relates to a multi-functional electronic sphygmomanometer, include: the air pump, the main control board and the monitoring device; the air pump is electrically connected with the main control panel and is communicated with the arm band through an air pipe to measure the blood pressure of the user; the monitoring device is used for monitoring the environment in the area where the user is located and the behavior state of the user; the main control board is used for sending the measured blood pressure value of the user, the environment information of the area where the user is located and the behavior state information of the user to the receiving platform; and the receiving platform sends the blood pressure value, the environment information and the behavior state information to the mobile terminal. The utility model has the advantages that: the environment information in the area where the user is located and the behavior state information of the user are monitored and uploaded to the mobile terminal in real time, so that a relevant guardian can acquire the condition of the user in real time, and the user does not need to send alarm information after finding out relevant environment abnormal information and physical abnormality, thereby eliminating the hysteresis of alarming and providing convenience for the user.

Description

Multifunctional electronic sphygmomanometer

Technical Field

The utility model belongs to the technical field of the electrosphygmomanometer, concretely relates to multi-functional electrosphygmomanometer.

Background

With the continuous improvement of living standard of people, people also pay more and more attention to the health condition of people, and the sphygmomanometer is an indispensable medical instrument at home for old people or hypertensive patients in the home. With the progress of science and technology, the electronic sphygmomanometer has the advantages of convenience in detection, accuracy in measurement, multiple reminding modes, convenience in carrying and the like, and gradually replaces the traditional mercury column sphygmomanometer to become the first choice of people.

Generally, most of people who use the sphygmomanometer and are inconvenient to move, such as old people, hypertensive chronic patients and the like, emergency situations such as sudden stroke, cerebral hemorrhage, myocardial infarction, falling, fire and the like easily occur, and in consideration of the requirements, although some electronic sphygmomanometers also have an SOS key alarm function at present, help can be called for and alarm through keys when the emergency situations occur, the help calling mode can alarm in time when a user has the mobility capacity, and for people who lose mobility or have no mobility capacity due to the emergency situations such as falling, the alarm and help can not be called for in time when the emergency situations occur, so that serious accidents and even casualties of people are caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the discovery emergency that prior art exists lags, reports to the police inconvenient, the utility model provides a multifunctional electronic sphygmomanometer, it has real-time supervision and uploads, makes monitoring personnel can in time handle emergency and guaranteed characteristics such as user's safety.

The utility model discloses the technical scheme who adopts does:

a multi-functional electronic sphygmomanometer comprising: the air pump, the main control board and the monitoring device;

the air pump is electrically connected with the main control panel and is communicated with the arm band through an air pipe to measure the blood pressure of the user;

the monitoring device is used for monitoring the environment in the area where the user is located and the behavior state of the user;

the main control board is used for sending the measured blood pressure value of the user, the environment information of the area where the user is located and the behavior state information of the user to the receiving platform;

and the receiving platform sends the blood pressure value, the environment information and the behavior state information to a mobile terminal.

Further, the main control board includes: the device comprises a processor, a measurement module, a communication module and a monitoring information receiving module; the measuring module is electrically connected with the air pump to acquire the blood pressure value of the user; the monitoring information receiving module is used for receiving the environmental information and the behavior state information, and the processor is used for sending the blood pressure value, the environmental information and the behavior state information to the receiving platform through the communication module.

Further, the communication module adopts a 4G communication network to realize data transmission with the receiving platform.

Further, the monitoring information receiving module is a 315MHz/433MHz wireless receiving module.

Further, the monitoring device includes: the bracelet is used for acquiring the behavior state information of the user, and the environment monitoring module is used for acquiring the environment information.

Further, the environmental monitoring module includes: the door sensor is used for detecting door magnetic information; the smoke sensor is used for detecting smoke information in real time; the human body induction sensor is used for detecting human body infrared information in real time; and the gas sensor is used for detecting gas leakage information.

Further, be equipped with the gyroscope sensor on the bracelet and be used for monitoring user's action.

Further, the main control board further comprises: and the alarm module is connected with the processor and used for sending alarm information to a user.

Further, the multi-functional electronic sphygmomanometer further comprises: and the emergency key is connected with the processor and used for sending emergency alarm information to the receiving platform.

Further, the multi-functional electronic sphygmomanometer further comprises: and the display screen is connected with the processor and is used for displaying the blood pressure measurement result and the data information of the processor.

The utility model has the advantages that: based on the characteristics of wide application and high use frequency of the electronic sphygmomanometer, when the blood pressure of a user is measured conventionally, the environmental information in the area where the user is located and the behavior state information of the user are monitored and uploaded to the mobile terminal in real time, so that a relevant guardian can acquire the condition of the user in real time, and the user does not need to send alarm information after finding out relevant environmental abnormal information and body abnormal conditions, thereby eliminating the hysteresis of alarming and providing convenience for the user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a multi-function electronic sphygmomanometer provided in accordance with an exemplary embodiment;

FIG. 2 is another schematic diagram of a multi-function electronic sphygmomanometer provided in accordance with an exemplary embodiment;

FIG. 3 is an external block diagram of a multi-function electronic sphygmomanometer provided in accordance with an exemplary embodiment;

FIG. 4 is an internal block diagram of a multi-function electronic sphygmomanometer provided in accordance with an exemplary embodiment;

FIG. 5 is a circuit diagram of a processor of a multi-function electronic blood pressure meter provided in accordance with an exemplary embodiment;

FIG. 6 is a circuit diagram of a communication module of the multi-function electronic blood pressure meter provided in accordance with an exemplary embodiment;

FIG. 7 is a circuit diagram of a measurement module of a multi-function electronic blood pressure meter provided in accordance with an exemplary embodiment;

FIG. 8 is a circuit diagram of an alarm module of the multi-function electronic blood pressure meter provided in accordance with an exemplary embodiment.

FIG. 1-air pump; 2-a main control board; 21-a processor; 22-emergency key; 23-monitoring information receiving module; 24-a communication module; 25-a measurement module; 26-a display screen; 27-an alarm module; 3-a receiving platform; 4-a monitoring device; 41-bracelet; 42-an environmental monitoring module; 5-a mobile terminal; 6-measuring the key; 7-a housing; 8-power interface; 9-a trachea interface; 10-speaker port; 11-a battery; 12-a power interface board; 13-trachea; 14-a loudspeaker; 15-a monitoring antenna; 16-4G antenna.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of 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, an embodiment of the present invention provides a multifunctional electronic sphygmomanometer, including: the air pump 1, the main control board 2 and the monitoring device 4;

the air pump' is electrically connected with the main control board 2 and is communicated with the armband through an air pipe 13 to measure the blood pressure of the user;

the monitoring device 4 is used for monitoring the environment in the area where the user is located and the behavior state of the user;

the main control board 2 is used for sending the measured blood pressure value of the user, the regional environment information and the behavior state information of the user to the receiving platform 3;

the receiving platform 3 sends the blood pressure value, the environment information and the behavior state information to the mobile terminal 5.

Specifically, air pump 1 and main control board 2 integration accomplish the measurement of conventional blood pressure with trachea 13 and armlet cooperation in the inside of electrosphygmomanometer, and in addition and main control board 2 communication connection's monitoring devices 4 include that two parts constitute and can set up respectively on user's the indoor and user's health at user place, include to indoor environmental information: fire, gas, illegal invasion etc. are monitored, and monitoring devices 4 worn on the user's body can monitor whether the user falls down. The main control board 2 receives various signals sent by the monitoring device 4 in real time, and sends the signals to the receiving platform 3, and the receiving platform 3 sends the signals to the mobile terminal 5 of the guardian, so that the guardian can know the indoor conditions of the user and the conditions of the user in real time, and can find the signals in the first time when the conditions of fire, gas leakage, illegal invasion, fall down and the like occur, so that the user can be treated most properly, and the serious accident can not be caused by the fact that the user cannot be timely treated because the user is only dependent on the alarm signals sent by the user. Because the user is mostly old person or the inconvenient patient of action of the past years, hardly send alarm signal at the very first time through the emergency alarm function of electrosphygmomanometer when the accident takes place, the utility model discloses not can report automatically in the operation that needs the user, realize preventing falling down, all-round warning such as theftproof, fire prevention, provide more comprehensive quick protection for the user.

Referring to fig. 2, in another embodiment of the present invention, the main control board 2 includes: the processor 21, the measurement module 25, the communication module 24 and the monitoring information receiving module 23; the measuring module 25 is electrically connected with the air pump 1 to obtain the blood pressure value of the user; the monitoring information receiving module 23 is configured to receive the environmental information and the behavior state information, and the processor 21 is configured to send the blood pressure value, the environmental information and the behavior state information to the receiving platform 3 through the communication module 24.

Specifically, the measurement module 6 is used as a driving circuit of the air pump 1 to control the functions of inflation, deflation, air pressure sensing and the like of the air pump under corresponding control signals of the processor 21 so as to measure the blood pressure of the user; the monitoring information receiving module 23 collects the data transmitted by the monitoring device 4 and sends the collected data to the processor 21; the communication module 24 sends the blood pressure value, the environmental information and the status information of the user received by the processor 21 to the receiving platform 3, and the receiving platform 3 sends the blood pressure value, the environmental information and the status information of the user to the mobile terminal 5 of the user, such as a smart phone, for the user to check. The receiving platform 3 used herein may be an existing data network with network transmission function based on a mobile operator, such as a remote server based on the prior art, a cloud technology, and the like.

As an implementation manner of the above embodiment, the communication module 24 may implement data transmission with the receiving platform by using a 4G communication network, and certainly may also adopt other communication systems with a data transmission function, such as 3G, etc., without limitation herein;

monitoring information receiving module 23 is 315MHz/433 MHz's wireless receiving module, this module antenna input has the frequency selection circuit, and do not rely on 1/4 wavelength antenna's frequency selection effect, control distance can cut short or even remove external antenna when being nearer, and the waveform of output is relatively cleaner, interference signal is transient needle pulse, so the interference killing feature is stronger, it is minimum to have module self radiation again, and the shielding effect of circuit module back net ground connection copper foil, can reduce self oscillatory leakage and external interference signal's invasion, can satisfy the transmission in indoor environment's data completely.

In combination with the implementation manner of the above embodiment, the monitoring device 4 includes: bracelet 41 and environmental monitoring module 42, bracelet 41 is used for acquireing user's behavioral state information, and environmental monitoring module 42 is used for acquireing environmental information.

Wherein, the environment monitoring module 42 includes: the door sensor is used for detecting door magnetic information; the smoke sensor is used for detecting smoke information in real time; the human body induction sensor is used for detecting human body infrared information in real time; and the gas sensor is used for detecting gas leakage information.

The bracelet 41 is provided with a gyroscope sensor for monitoring the behavior of the user.

It is specific, can monitor the condition such as conflagration, gas leakage, illegal invasion respectively through setting up at indoor various sensors, but in time notice guardian when the above-mentioned condition reoccurs, make emergency obtain appropriate processing to the gyroscope sensor in bracelet 41 worn through the user monitors user's the health motion condition, takes place to fall down etc. out of balance's motion state at the user, can send corresponding alarm signal in the very first time in order to guarantee user's life safety.

In order to further optimize this technical scheme, in some embodiments of the present invention, the main control board 2 further includes: the alarm module 27, the alarm module 27 and the processor 21 are connected for sending alarm information to the user;

the emergency key 22, the emergency key 22 is connected with the processor 21 for sending emergency alarm information to the receiving platform 3;

the display screen 26 is connected with the processor 21 and used for displaying the blood pressure measurement result and the data information of the processor 21;

a storage module for storing measurement records and monitoring thresholds in the processor 21; and

the power module provides required power for the normal work of each component in the electronic sphygmomanometer, is internally provided with a voltage conversion circuit and a battery charging circuit, and can be externally connected with a battery to realize a charging function.

Specifically, the alarm module 27 generates emergency situations such as: when fire disaster, gas leakage and other conditions occur, sound alarm information is sent to remind a user and surrounding people to carry out corresponding rescue, treatment and other work, so that the loss caused by emergency is reduced, and the safety of the people is ensured; meanwhile, in order to further ensure the timeliness of alarming, a user can trigger one-key alarming through an emergency key 22 arranged on the electronic sphygmomanometer and send alarming information to a guardian together with the receiving platform 3, and through the combination of the two alarming modes, the emergency situation can be further ensured to be processed in time when the emergency situation occurs, so that the loss is reduced, and the safety of personnel is ensured. A liquid crystal display screen can be adopted and is used for displaying information such as blood pressure measurement results, user groups, network states, power states, time and the like; the power module can adopt a rechargeable battery to form a basic energy storage unit, and can be repeatedly charged and discharged to meet the charging requirement of the electronic sphygmomanometer.

Certainly, the electronic sphygmomanometer is further provided with the measurement key 6, so that blood pressure measurement can be directly carried out after the electronic sphygmomanometer is pressed down, the measured value can automatically correspond to parents or other male and female users bound in the background according to different keys, namely different storage relations can be established for different users through the measurement key 6, so that the receiving platform 3 establishes corresponding statistical tables for different users, measurement data in a long time are formed, and data support is provided for the physical health condition of the users.

Referring to fig. 3 and 4, in another embodiment of the present invention, the housing 7 of the electronic sphygmomanometer is made of high strength ABS casing, and has a screw hole at the bottom for fixing the screw support, and a slot at a part of the area for fixing the fittings such as the hose, the antenna, the speaker, etc., and the display screen 26, the measurement button 6, and the emergency button 22 are fixed on the upper surface of the housing 7; the side surface of the shell 7 is provided with a power interface 8 which is matched with the shape of a power interface board 12 arranged in the shell, wherein the power interface board 12 adopts a Micro USB socket to charge a battery 11 arranged in the shell 7 and supply power to the main control board 2; the air pipe 13 is connected with the air pump 1 and the arm belt respectively from the air pipe interface 9; a loudspeaker port 10 is further arranged, a loudspeaker 14 connected with the alarm module of the main control board is arranged on the inner side of the shell 7 at the position corresponding to the loudspeaker port 10, an 433/315MHz monitoring antenna 15 is further integrated in the shell 7, and the monitoring information receiving module is connected to the main control board by adopting an SMA antenna interface; the 4G antenna 16 is a paper-pasted coil antenna, is pasted on the sphygmomanometer shell 7 and is connected to the communication module of the control mainboard through a circuit.

Referring to the circuit diagrams of the upper part of the main control board shown in fig. 5 to 8, the processor 21 adopts an HC32L136J8TA processor, which is an ultra-low power consumption processor with a wide voltage working range and can prolong the battery service life of the portable measurement system, has the characteristics of high integration, high interference resistance, high reliability and ultra-low power consumption, and is very suitable for the use of the sphygmomanometer measurement system; the communication module adopts an M26 communication module which is an industrial grade four-frequency-band GSM/GPRS wireless module, has an ultra-small size of 17.7mm 15.8mm 2.3mm and can meet the requirements of all M2M, wherein the communication module comprises the application of intelligent metering and simultaneously adopts a low power consumption technology, the current power consumption is further saved by 1.3mA under a sleep mode DRX (discontinuous reception) of 5, the electric energy is further saved, the service time of the electronic sphygmomanometer is prolonged, and a Bluetooth interface is also supported, when the electronic sphygmomanometer is used, a user can connect the electronic sphygmomanometer to a router with the Bluetooth interface and then send the electronic sphygmomanometer to a receiving platform arranged at a far end through the router so as to send the electronic sphygmomanometer to a smart phone of a guardian;

the measurement module 25 mainly adopts an ICL7106 processing chip, and ICL7106 processing is a high-performance, low-power consumption three-and-one A/D conversion circuit and has strong anti-jamming capability. The LCD can be directly driven by a measuring circuit consisting of an ICL7106 processing chip, a power supply circuit consists of an amplifier A1 and an amplifier A2 with built-in reference voltage, a1 forms a non-inverting amplifier, A2 forms a follower, the power supply circuit is used for amplifying the built-in reference voltage and then using the amplified voltage as the bias voltage of BPO1, a pre-processing circuit consists of four operational amplifiers A3-A6, and A3 forms an offset biasing circuit to compensate the circuit offset; a5 is used to form follower for buffer of output signal of pressure sensor A; a4 and A6 constitute an amplifier circuit, which amplifies the voltage signal output from the pressure sensor BPO1, and V in the circuit_INThe output voltage signal of the pressure sensor BPO1 is displayed on the LCD display module after being processed by the chip ICL7106, the circuit structure is simple, the number of components is small, and the BP01 type high-precision pressure sensor is adopted as a blood pressure detection element, so that the pressure sensor has the characteristics of high linearity, low noise and small external stress; meanwhile, the resistance sphygmomanometer can be internally calibrated and temperature compensated, so that the precision, the stability and the repeatability of the resistance sphygmomanometer are improved.

The alarm module 27 adopts a TR1894D voice chip as a main control chip to alarm by voice and send alarm information to a user.

The monitoring information receiving module 23 adopts receiving circuits (not shown in the figure) of various sensors formed by a CMT2210LC processing chip, and the CMT2210LC is an OOK radio frequency receiver with ultra-low power consumption, high performance and independent operation, and is suitable for ISM frequency band 315/433MHz wireless application. CMT2210LC is a true plug and play device that does not require register configuration or manual adjustment, and can operate at 315MHz or 433MHz by using 19.7008MHz or 27.1383MHz crystals. And the data rate range of 1-5 kbps is supported, and the method is very suitable for being paired with a low-end transmitter based on the MCU. When the chip works at 315MHz, the sensitivity of-109 dBm can be realized only by 3.3mA current; and the sensitivity of-109 dBm can be realized by only 3.8mA at the frequency point of 433 MHz. The radio frequency application with ultralow cost can be realized while the electric power is saved, the data signal transmission can be realized by arranging a signal sending circuit matched with the CMT2210LC processing chip on the existing door sensor, smoke sensor, human body induction sensor and gas sensor, and the radio frequency transmission device is very suitable for indoor transmission environment.

The power module on the main control board adopts MIC29302, the MIC29302 is a high-precision and low-leakage voltage stabilizing device, the output current of the device reaches 800mA, and the requirements of all components on the main control board 2 on the power supply can be met.

The storage module employs the AT24C16 for data storage.

Through the matching of the components of the main control boards and the receiving platform, the user can bind the electronic sphygmomanometer with the main control board 2 through the smart phone to start the alarm state. After the user measures the blood pressure, the measurement record is uploaded to the receiving platform 3, and the user can access the receiving platform through the smart phone to check the measurement record and check recent blood pressure statistical data; after the monitoring device triggers an alarm, the main control board 2 generates alarm information and uploads the alarm information to the receiving platform, real-time reminding is carried out through the smart phone, and a user can check alarm records; when an emergency occurs, a user of the electronic sphygmomanometer can automatically generate an alarm record and upload the alarm record to the receiving platform 3 by pressing the emergency button, real-time reminding is carried out through the smart phone of the user, and the user can check the alarm record through the smart phone. The alarm information receiving end provided by the embodiment is not limited to a smart phone of a user, but also can be an intelligent terminal with a data receiving function, such as a tablet personal computer.

The utility model discloses above-mentioned embodiment provides a multifunctional electronic sphygmomanometer, based on the electronic sphygmomanometer application is extensive, the characteristic that frequency of use is high, when carrying out conventional measurement to user's blood pressure, environmental information and user's behavioral state information to user place area within area monitor and upload to mobile terminal in real time and make relevant guardian can acquire user's the condition in real time, and needn't send alarm information again through the user after discovering relevant environmental anomaly information and appearance health abnormal, the hysteresis quality of warning has been eliminated, convenience is provided for the user.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the embodiments described herein are intended to embrace all such alterations, modifications and variations that fall within the scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim. Furthermore, any use of the term "or" in the specification of the claims is intended to mean a "non-exclusive or".

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A multifunctional electronic sphygmomanometer, comprising: the air pump, the main control board and the monitoring device;

the air pump is electrically connected with the main control panel and is communicated with the arm band through an air pipe to measure the blood pressure of the user;

the monitoring device is used for monitoring the environment in the area where the user is located and the behavior state of the user;

the main control board is used for sending the measured blood pressure value of the user, the environment information of the area where the user is located and the behavior state information of the user to the receiving platform;

and the receiving platform sends the blood pressure value, the environment information and the behavior state information to a mobile terminal.

2. The multifunctional electronic sphygmomanometer according to claim 1, wherein the main control board comprises: the device comprises a processor, a measurement module, a communication module and a monitoring information receiving module; the measuring module is electrically connected with the air pump to acquire the blood pressure value of the user; the monitoring information receiving module is used for receiving the environmental information and the behavior state information, and the processor is used for sending the blood pressure value, the environmental information and the behavior state information to the receiving platform through the communication module.

3. The multifunctional electronic sphygmomanometer according to claim 2, wherein the communication module implements data transmission with the receiving platform by using a 4G communication network.

4. The multifunctional electronic sphygmomanometer according to claim 2, wherein the monitoring information receiving module is a 315MHz/433MHz wireless receiving module.

5. The multi-functional electronic sphygmomanometer according to claim 2, wherein the monitoring device includes: the bracelet is used for acquiring the behavior state information of the user, and the environment monitoring module is used for acquiring the environment information.

6. The multi-functional electronic sphygmomanometer according to claim 5, wherein the environment monitoring module includes: the door sensor is used for detecting door magnetic information; the smoke sensor is used for detecting smoke information in real time; the human body induction sensor is used for detecting human body infrared information in real time; and the gas sensor is used for detecting gas leakage information.

7. The multifunctional electronic sphygmomanometer according to claim 5, wherein the bracelet is provided with a gyroscope sensor for monitoring a user's behavior.

8. The multi-functional electronic sphygmomanometer according to claim 2, wherein the main control board further includes: and the alarm module is connected with the processor and used for sending alarm information to a user.

9. The multi-functional electronic sphygmomanometer according to claim 2, further comprising: and the emergency key is connected with the processor and used for sending emergency alarm information to the receiving platform.

10. The multifunctional electronic sphygmomanometer according to any one of claims 2 to 9, further comprising: and the display screen is connected with the processor and is used for displaying the blood pressure measurement result and the data information of the processor.

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