CN214751455U - Multi-parameter mobile phone remote monitoring system - Google Patents

Abstract

The utility model discloses a multi-parameter cell-phone remote monitering system, include: monitor terminal, server and cell-phone terminal, monitor terminal is used for passing through server remote transmission with the data of monitoring extremely cell-phone terminal through with blood pressure detecting element and electrocardio detecting element integration on a monitoring facilities, has reduced the volume, and it is more convenient to detect to install at the wrist, more conveniently carry the detection at any time, in addition the utility model discloses set up three kinds of blood pressure measuring's control channel, can detect through timing relay periodicity timing, also can detect through initiative, can also detect by heart rate detection data start blood pressure, the mode is more nimble to can also see monitor terminal's parameter through cell-phone terminal is long-range, more intelligent and humanized.

Description

Multi-parameter mobile phone remote monitoring system

Technical Field

The utility model relates to a healthy technical field that detects specifically is a multi-parameter cell-phone remote monitering system.

Background

Along with economic development, people work more and more busy and work pressure is higher and higher, diseases such as hypertension, premature beat of the heart, arrhythmia and the like not only appear in the old but also are more and more common in young people, the diseases can cause sudden death and the like, damage is very large, and therefore parameters such as heart rate and blood pressure can be monitored at any time to greatly help people to pay attention to own physical conditions.

At present, an air bag is tied on the arm or the wrist of a blood pressure monitoring device for detection, an electrode plate is attached to the chest of the blood pressure monitoring device for detection in the electrocardio monitoring mode, the two devices cannot be combined together for monitoring, and even if the abnormality of the old people is monitored, the old people cannot be independently treated.

Therefore, the application provides a multi-parameter mobile phone remote monitoring system, which not only can monitor parameters such as heart rate and blood pressure on an integrated device, but also can remotely send the monitored parameters to a mobile phone terminal, and is more intelligent.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-parameter cell-phone remote monitering system aims at solving above-mentioned technical problem.

The utility model discloses a realize like this:

a multi-parameter mobile phone remote monitoring system comprises: the monitoring terminal is used for remotely transmitting monitored data to the mobile phone terminal through the server;

the monitoring terminal comprises a shell and wrist bands arranged on two sides of the shell, the wrist bands on two sides are bound and connected through nylon thread gluing, a main control processor and a wireless communication unit are integrally installed in the shell, the monitoring terminal further comprises a blood pressure detection unit and an electrocardio detection unit, the blood pressure detection unit comprises an air pump, a pressure release valve, a pressure sensor, an air pipe and a blood pressure signal processing circuit, the air bag is arranged in the wrist band, the air pump is communicated with the air bag through the air pipe, the pressure release valve is installed at any position of the air bag and used for releasing air in the air bag, the pressure sensor is installed on one side surface of the wrist band, which faces the wrist, the air pump and the blood pressure signal processing circuit are integrated in the shell, and the pressure release valve and the air pump are respectively and electrically connected with the main control processor; the pressure sensor is connected with the main control processor through the blood pressure signal processing circuit;

the electrocardio detection unit comprises a light reflection sensor and an electrocardio signal processing circuit, the light reflection sensor is arranged on one side of the shell close to the wrist, the light reflection sensor sends the collected photoelectric signal to the electrocardio signal processing circuit, and the electrocardio signal processing unit is connected with the main control processor;

the main control processor is in wireless communication connection with the server through the wireless communication unit.

Optionally, an air pump control unit is disposed between the air pump and the master processor.

Optionally, the air pump control unit includes three control channels connected in parallel, the first control channel includes a timing relay and a first relay connected in series, the first relay is connected to the air pump, the timing relay is connected to the main control processor, the second control channel includes a second relay, and the third control channel includes a trigger relay.

Optionally, the blood pressure signal processing circuit at least includes a first a/D conversion chip, a first operational amplifier circuit and a first filter circuit, which are connected in series in sequence, the first a/D conversion chip is connected to the pressure sensor, and the first filter circuit is connected to the main control processor.

Optionally, the electrocardiograph signal processing circuit at least includes a second a/D conversion chip, a second operational amplifier circuit, and a second filter circuit, the second a/D conversion chip is connected to the light reflection sensor, and the second filter circuit is connected to the main control processor.

Optionally, a liquid crystal touch display screen is installed on one side of the shell principle wrist and connected with the main control processor.

Optionally, monitor terminal still includes voice broadcast ware, buzzer siren and signal warning light, voice broadcast ware, buzzer siren and signal warning light embedding are installed in the casing, and respectively with the output of master control treater is connected.

Optionally, the wireless communication unit is a WIFI chip.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a with blood pressure test unit and electrocardio detecting element integration on a monitoring facilities, reduced the volume, it is more convenient to detect to install at the wrist, conveniently carry the detection at any time more, in addition the utility model discloses set up three kinds of blood pressure measuring's control channel, can pass through the periodic timing detection of timing relay, also can be through the initiative detection, can also detect by heart rate detection data start blood pressure, the mode is more nimble to can also see monitor terminal's parameter through mobile phone terminal is long-range, more intelligent and humanized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a multi-parameter handset remote monitoring system according to an embodiment of the present application;

fig. 2 is a schematic circuit diagram of a monitoring terminal of a multi-parameter mobile phone remote monitoring system according to an embodiment of the present application;

fig. 3 is an appearance schematic diagram of a monitoring terminal of a multi-parameter mobile phone remote monitoring system according to an embodiment of the present application.

100, monitoring a terminal; 200. a server; 300. a mobile phone terminal; 101. a pressure sensor; 102. a blood pressure signal processing circuit; 103. a light reflection sensor; 104. an electrocardiosignal processing circuit; 105. a master processor; 106. a wireless communication unit; 107. a timing relay; 108. a first relay; 109. a second relay; 110. triggering a relay; 111. an air pump; 112. a pressure relief valve; 120. a housing; 130. a wrist band.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1, fig. 2 and fig. 3, a multi-parameter mobile phone remote monitoring system includes: the monitoring system comprises a monitoring terminal 100, a server 200 and a mobile phone terminal 300, wherein the monitoring terminal 100 is used for remotely transmitting monitored data to the mobile phone terminal 300 through the server 200.

By transmitting the monitored parameters such as electrocardio and blood pressure to the mobile phone terminal 300, children and children of the old can know the body state parameters of parents in time conveniently, and can send reminding information to the monitoring terminal 100 and play the reminding information through the voice player of the monitoring terminal 100, so that interaction is realized.

The monitoring terminal 100 comprises a casing 120 and wristbands 130 arranged at two sides of the casing 120, wherein the wristbands 130 at two sides are bound and connected through velcro, the housing 120 has a main control processor 105 and a wireless communication unit 106 integrally mounted therein, the monitoring terminal 100 further comprises a blood pressure detection unit and an electrocardiogram detection unit, the blood pressure detection unit comprises an air pump 111, a pressure release valve 112, a pressure sensor 101, an air pipe and a blood pressure signal processing circuit 102, an air bag is arranged in the wrist strap 130, the air pump 111 is communicated with the air bag through the air pipe, the pressure relief valve 112 is arranged at any position of the air bag, for discharging the gas inside the air bag, the pressure sensor 101 is installed on the surface of the wrist band 130 facing the wrist, the air pump 111 and the blood pressure signal processing circuit 102 are integrated inside the housing 120, the pressure relief valve 112 and the air pump 111 are respectively electrically connected with the main control processor 105; the pressure sensor 101 is connected to the main control processor 105 through the blood pressure signal processing circuit 102.

The principle of blood pressure monitoring is as follows:

blood pressure is typically represented by systolic pressure (highest blood pressure) and diastolic pressure (lowest blood pressure), such as 120/80mmHg, and cuff 130 is pressurized by air pump 111 sufficiently to cut off arterial blood flow and then deflated by pressure relief valve 112. During deflation, the pressure value detected at the moment when blood is flowing, called the systolic pressure, continues to deflate until no sound is heard of blood flow, since blood can flow freely in the arterial vessel. When the pressure at the moment when the sound disappears becomes the diastolic pressure, the pressure sensor 101 transmits the highest pressure and the lowest pressure to the blood pressure signal processing circuit 102.

The electrocardio detection unit comprises a light reflection sensor 103 and an electrocardio signal processing circuit 104, the light reflection sensor 103 is arranged on one side of the shell 120 close to the wrist, the light reflection sensor 103 sends the collected photoelectric signal to the electrocardio signal processing circuit 104, and the electrocardio signal processing unit is connected with the main control processor 105.

In this embodiment, the light reflection sensor 103 includes an emitting end and a receiving end, the emitting end emits green light, the receiving end receives light reflected by body tissue, and the heart rate is measured by sensing the change of the blood vessel volume when the blood pressure flows.

The master processor 105 is in wireless communication with the server 200 through the wireless communication unit 106.

Optionally, an air pump 111 control unit is disposed between the air pump 111 and the main control processor 105.

Optionally, the air pump 111 control unit includes three parallel control channels, the first control channel includes a timing relay 107 and a first relay 108 connected in series, the first relay 108 is connected to the air pump 111, the timing relay 107 is connected to the main control processor 105, the second control channel includes a second relay 109, and the third control channel includes a trigger relay 110.

Through setting up three routes control channel, make blood pressure check's mode more nimble changeable, can directly manual control air pump 111 through second relay 109 open and close, also can carry out regularly periodic blood pressure check through timing relay 107 and first relay 108, can also be controlled by master control processor 105 through the heart rate signal that detects and trigger relay 110 automatic triggering and start air pump 111 and carry out blood pressure check. Here, the first relay 108 and the second relay 109 may be button relays, and the timing electric appliance may be activated only when the first relay 108 is turned on, and the timing relay 107 is controlled by the first relay.

Optionally, the blood pressure signal processing circuit 102 at least includes a first a/D conversion chip, a first operational amplifier circuit and a first filter circuit, which are connected in series in sequence, the first a/D conversion chip is connected to the pressure sensor 101, and the first filter circuit is connected to the main control processor 105.

Optionally, the electrocardiograph signal processing circuit 104 at least includes a second a/D conversion chip, a second operational amplifier circuit, and a second filter circuit, the second a/D conversion chip is connected to the light reflection sensor 103, and the second filter circuit is connected to the main control processor 105.

Optionally, a liquid crystal touch display screen is installed on one side of the wrist of the housing 120, and the liquid crystal touch display screen is connected with the main control processor 105. The detected electrocardio parameters and blood pressure parameters can be displayed through a touch display screen.

Optionally, monitor terminal 100 still includes voice broadcast ware, buzzer siren and signal warning light, voice broadcast ware, buzzer siren and signal warning light embedding are installed in casing 120, and respectively with main control processor 105's output is connected.

A voice prompt can be made by a voice player, for example, "your blood pressure is a bit high, please note". The buzzer alarm can give out a buzzer alarm prompt. The signal warning lamp can remind through stroboscopic or always on mode.

Optionally, the wireless communication unit 106 selects a WIFI chip.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A multi-parameter mobile phone remote monitoring system is characterized by comprising: the monitoring terminal is used for remotely transmitting monitored data to the mobile phone terminal through the server;

the monitoring terminal comprises a shell and wrist bands arranged on two sides of the shell, the wrist bands on two sides are bound and connected through nylon thread gluing, a main control processor and a wireless communication unit are integrally installed in the shell, the monitoring terminal further comprises a blood pressure detection unit and an electrocardio detection unit, the blood pressure detection unit comprises an air pump, a pressure release valve, a pressure sensor, an air pipe and a blood pressure signal processing circuit, the air bag is arranged in the wrist band, the air pump is communicated with the air bag through the air pipe, the pressure release valve is installed at any position of the air bag and used for releasing air in the air bag, the pressure sensor is installed on one side surface of the wrist band, which faces the wrist, the air pump and the blood pressure signal processing circuit are integrated in the shell, and the pressure release valve and the air pump are respectively and electrically connected with the main control processor; the pressure sensor is connected with the main control processor through the blood pressure signal processing circuit;

the electrocardio detection unit comprises a light reflection sensor and an electrocardio signal processing circuit, the light reflection sensor is arranged on one side of the shell close to the wrist, the light reflection sensor sends the collected photoelectric signal to the electrocardio signal processing circuit, and the electrocardio signal processing unit is connected with the main control processor;

the main control processor is in wireless communication connection with the server through the wireless communication unit.

2. The remote monitoring system of claim 1, wherein an air pump control unit is disposed between the air pump and the main processor.

3. The system of claim 2, wherein the air pump control unit comprises three parallel control channels, the first control channel comprises a timing relay and a first relay connected in series, the first relay is connected with the air pump, the timing relay is connected with the main processor, the second control channel comprises a second relay, and the third control channel comprises a trigger relay.

4. The multiparameter mobile phone remote monitoring system according to claim 1, wherein the blood pressure signal processing circuit at least comprises a first A/D conversion chip, a first operational amplifier circuit and a first filter circuit which are sequentially connected in series, the first A/D conversion chip is connected with the pressure sensor, and the first filter circuit is connected with the main control processor.

5. The remote monitoring system of claim 1, wherein the electrocardiographic signal processing circuit comprises at least a second a/D conversion chip, a second operational amplifier circuit and a second filter circuit, the second a/D conversion chip is connected to the light reflection sensor, and the second filter circuit is connected to the main processor.

6. The remote monitoring system for the multiparameter mobile phone of claim 1, wherein a liquid crystal touch display screen is installed on a side of the housing away from the wrist, and the liquid crystal touch display screen is connected with the main control processor.

7. The remote monitoring system for the multi-parameter mobile phone according to claim 1, wherein the monitoring terminal further comprises a voice broadcast device, a buzzer alarm and a signal warning lamp, and the voice broadcast device, the buzzer alarm and the signal warning lamp are embedded in the shell and are respectively connected with the output end of the main control processor.

8. The system of claim 1, wherein the wireless communication unit is a WIFI chip.

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