CN213721929U - Household wireless heart rate and body temperature measuring and recording system - Google Patents

Abstract

The utility model discloses a wireless rhythm of heart body temperature measurement record system of domestic formula, including remote display equipment, handheld device, host computer, mobile terminal and cloud platform, wherein: the handheld device is used for collecting vital sign data of body temperature, heart rate and blood oxygen saturation of a human body, collecting environmental data of temperature, humidity, illumination intensity and dust concentration in the current environment, and then transmitting the data to the cloud platform and the remote display device; the cloud platform is in wireless connection with the handheld device and is used for receiving the vital sign data and the environmental data sent by the handheld device and then forwarding the vital sign data and the environmental data to at least one upper computer and at least one mobile terminal through the Internet; the upper computer is connected with the cloud platform through the internet; and the mobile terminal and the remote display equipment are respectively connected with the cloud platform. The utility model discloses can realize the real-time measurement and the collection of people's health rhythm of the heart, oxyhemoglobin saturation and body temperature, solve the problem of traditional medical equipment function singleness.

Description

Household wireless heart rate and body temperature measuring and recording system

Technical Field

The utility model relates to an intelligence medical treatment check out test set technical field especially relates to a wireless rhythm of the heart body temperature measurement record system of domestic formula.

Background

In recent years, with the combination of artificial intelligence technology and the medical health field, the medical industry in China keeps steadily increasing, and the number of medical institutions in diagnosis and treatment peaks in recent years. When a patient enters a hospital, body temperature detection and heart rate monitoring are generally performed firstly, so that the number of people who queue for registration is increased gradually, and even some people miss gold rescue time. In addition, with the development of the aging society in China, more and more old people are inconvenient to go out, and children and women are not around. Heart rate and body temperature are the first steps in detecting vital signs.

However, the conventional medical equipment is large in size, inconvenient to carry and high in cost, the measurement is real-time local measurement, a nurse or a guardian needs to perform patrol records, a historical database cannot be automatically formed, comprehensive analysis on the illness state of a patient is not facilitated, and family members cannot acquire vital sign parameters of the patient in real time.

In addition, the existing medical equipment is long in use time, the amount of information to be recorded is large, and analysis and judgment cannot be made for individuals.

In addition, the conventional medical equipment cannot track and analyze information when an instrument is used for measurement, and cannot better detect the physical condition through single measurement and use.

Meanwhile, the traditional heart rate and body temperature measuring mode has higher operation requirements on users and increases the workload of medical care personnel.

However, there is an urgent need to develop a technology capable of solving the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wireless rhythm of heart body temperature measurement record system of domestic formula to the technical defect that prior art exists.

Therefore, the utility model provides a wireless rhythm of heart body temperature measurement record system of domestic formula, it includes remote display equipment, handheld device, host computer, mobile terminal and cloud platform, wherein:

the handheld device is used for collecting vital sign data of body temperature, heart rate and blood oxygen saturation of a human body, collecting environmental data of temperature, humidity, illumination intensity and dust concentration in the current environment, and then transmitting the collected vital sign data and the collected environmental data to the cloud platform and the remote display device;

the cloud platform is in wireless connection with the handheld device and is used for receiving the vital sign data and the environmental data sent by the handheld device and then forwarding the vital sign data and the environmental data to at least one upper computer and at least one mobile terminal through the Internet;

the upper computer is connected with the cloud platform through the Internet and used for receiving the vital sign data and the environment data sent by the cloud platform and then recording and storing the vital sign data and the environment data in real time;

the mobile terminal is connected with the cloud platform through the Internet and used for receiving the vital sign data and the environmental data sent by the cloud platform and then recording and storing the vital sign data and the environmental data in real time;

and the remote display equipment is connected with the handheld equipment and used for reading and displaying the vital sign data and the environmental data acquired by the handheld equipment in real time according to the data viewing instruction input by the user.

The remote display equipment specifically comprises a remote display equipment loudspeaker sounding hole, a remote display equipment left side rear cover screw driver, a remote display equipment shell, a capacitive touch screen, a remote display equipment right side rear cover screw driver, a first charging hole, a first power switch hole, a first electric quantity indicator light hole position, a rear cover bottom clamping block, a rear cover right side clamping block and a rear cover left side clamping block;

the loudspeaker sound emitting hole is positioned in the center of the left side face of the shell of the remote display equipment;

the remote display equipment left side rear cover screwdriver is positioned below the left side of the remote display equipment shell;

the remote display equipment right rear cover screwdriver is positioned below the right side of the remote display equipment shell;

the two rear cover bottom clamping blocks are positioned at the lower end of the front side of the remote display equipment shell;

a rear cover right side fixture block is positioned at the lower end of the right side of the remote display equipment shell;

a rear cover left side fixture block is positioned at the lower end of the left side of the remote display equipment shell;

the first charging hole, the first power switch hole and the first electric quantity indicator light hole are arranged on the right side face of the shell of the remote display device in parallel;

the capacitive touch screen is mounted on a top surface of the remote display device housing.

Wherein, the speaker sound emission hole of the remote display device is a circular hole matrix with 4cm aperture.

The bottom of the remote display equipment shell is provided with a remote display equipment rear cover;

the top of the rear cover of the remote display equipment is provided with notches for clamping at the positions corresponding to a rear cover bottom clamping block, a rear cover right side clamping block and a rear cover left side clamping block on the shell of the remote display equipment respectively.

Wherein, lid bottle opener behind remote display equipment left side and lid bottle opener behind remote display equipment right side are covered behind the remote display equipment, are trapezoidal arch.

The remote display equipment comprises a first power management module and a first embedded controller;

the first power management module is connected with the first DC round hole power plug;

the first power supply management module is used for carrying out filtering and voltage stabilizing processing on an input power supply, is connected with a first lithium battery on the remote display equipment and is used for controlling the charging and discharging of the first lithium battery;

the first power management module is used for boosting the output voltage of the first lithium battery and outputting the boosted output voltage to the first embedded controller;

the first embedded controller is respectively connected with the first wireless communication module and the MAX232 chip;

the first wireless communication module is used for wirelessly receiving or sending data, specifically for wirelessly receiving data sent by a second wireless communication module in the handheld device and then forwarding the data to the first embedded controller;

and the MAX232 chip is used for receiving the TTL signal sent by the first embedded controller, converting the TTL signal into an RS232 signal and sending the RS232 signal to a capacitive touch screen wiring port on the capacitive touch screen.

Wherein, handheld device, including handheld device top cap bottle opener, handheld device top cap draw-in groove, OLED display screen, finger clamp data cable, second electric quantity pilot lamp hole site, the second hole site that charges, second switch hole site, finger clamp, handheld device shell, handheld device reset button hole site, networking button hole site, cancellation emergency call button hole site and emergency call button hole site, wherein:

a handheld device top cover is arranged at the top of the handheld device shell;

a plurality of handheld equipment top cover screwdrivers are arranged on the peripheral edge of the handheld equipment top cover;

a plurality of handheld equipment top cover clamping grooves are formed in the periphery of the handheld equipment top cover;

a top cover clamping block is arranged at the top of the shell of the handheld device at the position corresponding to each top cover clamping groove of the handheld device;

the top cover clamping block is clamped with the top cover clamping groove of the handheld device.

The OLED display screen is positioned in the center of the top cover of the handheld device;

the finger clamp data cable penetrates through a reserved interface on the top cover of the handheld device and then is connected with the finger clamp;

the second electric quantity indicator light hole site, the second charging hole site and the second power switch hole site are positioned on the right side surface of the shell of the handheld device;

the handheld device reset key hole site, the networking key hole site, the emergency call cancel key hole site and the emergency call key hole site are located at the left end of the front face of the shell of the handheld device.

The right side of the OLED display screen is provided with a round hole, and a temperature and humidity sensor, a photoresistor and a dust sensor are arranged in the round hole;

the finger clip is internally provided with a heart rate blood oxygen sensor and a body temperature sensor.

The handheld device comprises a second power management module and a second embedded controller;

the finger clip is internally provided with a heart rate and blood pressure sensor and a body temperature sensor, and is used for reading heart rate, blood oxygen and body temperature parameters of a patient in real time and then sending the parameters to the second embedded controller;

the second embedded controller is connected with an OLED display screen wiring terminal arranged on the OLED display screen;

the OLED display screen is used for receiving and displaying the data sent by the second embedded controller;

the second wireless communication module wiring terminal is connected with the second embedded controller and used for wirelessly transmitting the data obtained by the second embedded controller to the first wireless communication module in the remote display equipment in a short distance through the second wireless communication module;

the WIFI module is connected with the second embedded controller and used for transmitting data obtained by the second embedded controller to the cloud platform;

the second embedded controller is connected with the environment variable sensor;

the environment variable sensor comprises a temperature and humidity sensor, a dust concentration sensor and a photoresistor, and is used for reading the temperature, the humidity, the dust concentration and the illumination intensity in the current environment in real time and sending the temperature, the humidity, the dust concentration and the illumination intensity to the second embedded controller.

By above the utility model provides a technical scheme is visible, compares with prior art, the utility model provides a wireless rhythm of heart body temperature measurement record system of domestic formula, it can realize the real-time measurement and the collection of people's health rhythm of heart, oxyhemoglobin saturation and body temperature, has solved the problem of traditional medical equipment function singleness, has great practical meaning.

In addition, the utility model discloses an use thing networking application technology to improve the device, carry out state monitoring to patient, replaced traditional manpower inspection, reduced the consumption of manpower to more scientific, accurate inspection and processing are carried out to patient's state, and can carry out data record, form the chart, the historical vital sign parameter of direct observation patient, also more be favorable to doctor's diagnosis and treatment;

additionally, the utility model discloses an equipment low cost, and conveniently carry, it is compatible strong, can know vital sign information anytime and anywhere, reduced medical institution's operating pressure, reduce patient waiting time of lining up, make personally can carry out the self-test through being in vital sign information such as to the rhythm of the heart, body temperature.

Drawings

Fig. 1a is a block diagram of the overall structure of a household wireless heart rate and body temperature measuring and recording system provided by the present invention;

FIG. 1b is a block diagram of the working principle of a household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 2 is a left perspective view of a remote display device in the household wireless heart rate and body temperature measurement recording system provided by the present invention;

fig. 3 is a perspective right view of a remote display device in the household wireless heart rate and body temperature measurement recording system provided by the present invention;

fig. 4a is an effect diagram of a printed circuit board of a remote display device in a household wireless heart rate and body temperature measuring and recording system provided by the utility model;

fig. 4b is a block diagram of a circuit of a remote display device in the household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 5 is a schematic view of a handheld device in a household wireless heart rate and body temperature measurement recording system provided by the present invention;

fig. 6a is an effect diagram of a printed circuit board of a handheld device in a household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 6b is a block diagram of a circuit of a handheld device in a household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 7 is a schematic circuit diagram of a handheld device in a household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 8 is a schematic circuit diagram of a remote display device in a household wireless heart rate and body temperature measuring and recording system provided by the utility model;

FIG. 9 is an effect diagram of the main window of the upper computer software in the household wireless heart rate and body temperature measuring and recording system provided by the present invention;

fig. 10 is a window effect diagram of the history curve of the upper computer software in the household wireless heart rate and body temperature measuring and recording system.

In the figure, 1 is a speaker sound emitting hole of the remote display device, 2 is a left rear cover screw driver of the remote display device, 3 is a housing of the remote display device, 4 is a capacitive touch screen, and 5 is a right rear cover screw driver of the remote display device;

6. the battery pack comprises a first charging hole, 7, a first power switch hole, 8, a first electric quantity indicator light hole position, 9, a clamping groove at the bottom of a rear cover, and 10, a clamping groove at the right side of the rear cover;

11. the circuit comprises a back cover, a clamping groove on the left side of the back cover, 12, a first ceramic capacitor, 13, a reset capacitor, 14, a controller reset key and 15, a first pull-up resistor;

16. the system comprises a first wireless communication module, 17, a controller GND wiring pin, 18, a controller RXD wiring pin, 19, a controller TXD wiring pin and 20, a first power management module;

21. the first two-gear toggle switch comprises a DC round hole power plug 22, a first embedded controller 23, a MAX232 chip 24, a capacitive touch screen wiring port 25;

26. a handheld device top cover opener, 27, a handheld device top cover clamping groove, 28, an OLED display screen, 29, a finger clamp data cable, 30, a second electric quantity indicator hole site;

31. a second charging hole site, 32, a second power switch hole site, 33, a finger clip, 34, a handheld device shell, 35, a handheld device reset key hole site;

36. networking key hole sites, 37, emergency call key hole sites, 38, emergency call key hole sites, 39, second controller GND wiring pins, 40, second controller RXD wiring pins;

41. a second controller TXD wiring pin header, 42, a second ceramic capacitor, 43, a second pull-up resistor, 44, a second lithium battery, 45, a second power management module;

46, a DC round hole power plug, 47, a second two-gear toggle switch, 48, a WIFI module, 49, an environment variable sensor wiring terminal and 50, an OLED display screen wiring terminal;

51. a handheld device reset key, 52. networking key, 53. cancel emergency call key, 54. emergency call key, 55. buzzer;

56. the battery pack comprises a resistor, 57 finger clamp connecting terminals, 58 wireless communication module connecting terminals, 59 triodes, 60 second embedded controllers and 61 lithium battery boxes;

100. handheld device top cover, 300 remote display device back cover.

Detailed Description

In order to make the technical means of the present invention easier to understand, the present application will be further described in detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant application and are not limiting of the application. It should be noted that, for convenience of description, only the portions related to the present application are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

It should be noted that in the description of the present application, the terms of direction or positional relationship indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application.

In addition, it should be noted that, in the description of the present application, unless otherwise explicitly specified and limited, the term "mounted" and the like should be interpreted broadly, and may be, for example, either fixedly mounted or detachably mounted.

The specific meaning of the above terms in the present application can be understood by those skilled in the art as the case may be.

Referring to fig. 1 to 10, the utility model provides a wireless rhythm of heart body temperature measurement record system of domestic formula, including remote display equipment, handheld device, host computer (including an at least computer), mobile terminal (for example cell-phone) and cloud platform, wherein:

the handheld device is used for collecting vital sign data of body temperature, heart rate and blood oxygen saturation of a human body and environmental data of temperature, humidity, illumination intensity and dust concentration in the current environment, and then transmitting the collected vital sign data and the environmental data to a cloud platform (the cloud platform comprises a plurality of computer servers) and a remote display device (through a WIFI module or other wireless communication modules);

the cloud platform is in wireless connection with the handheld device and is used for receiving the vital sign data and the environmental data sent by the handheld device and then forwarding the vital sign data and the environmental data to at least one upper computer and at least one mobile terminal (such as a mobile phone) through the Internet;

the upper computer is connected with the cloud platform (through the Internet) and is used for receiving the vital sign data and the environment data sent by the cloud platform and then recording and storing the vital sign data and the environment data in real time;

the mobile terminal is connected with the cloud platform (through the Internet) and used for receiving the vital sign data and the environmental data sent by the cloud platform and then recording and storing the vital sign data and the environmental data in real time;

and the remote display equipment is connected with the handheld equipment (for example, through a wireless communication module) and is used for reading and displaying the vital sign data and the environmental data acquired by the handheld equipment in real time according to a data viewing instruction input by a user.

In the present invention, it should be noted that, in a specific implementation, the handheld device may send the emergency call alarm through the emergency call key.

In specific implementation, for the handheld device, all data are collected and packaged by taking the embedded controller as a core, and then the data are transmitted to the cloud platform according to a TCP/IP protocol through the WIFI module.

In the invention, it is to be noted that, in the implementation, the cloud platform specifically sends data to software installed on an upper computer and APP installed on mobile terminals such as mobile phones through the internet, the software of the upper computer and the cloud platform are provided with JSON text databases, historical data received by the cloud platform can be recorded to form a special database of a patient, and big data comprehensive historical analysis can be performed on the illness state of the patient through the historical data of the special database of the patient;

for the invention, the handheld device can transmit data to the remote display device within 1Km through the wireless communication module, and the data can be checked and the emergency signal can be alarmed through the touch screen of the remote display device; in addition, through APP and upper computer installed software on mobile terminals such as cell phones, the remote check of data can be realized. Because the utility model discloses in contain the lithium cell, just the utility model discloses small in size can realize that portable messenger carries.

In the present invention, in the concrete implementation, referring to fig. 2 and fig. 3, the remote display device specifically includes a speaker sounding hole 1 of the remote display device, a left rear cover screw driver 2 (screw driver is a bump) of the remote display device, a housing 3 of the remote display device, a capacitive touch screen 4 (for example, a 7-inch capacitive touch screen), a right rear cover screw driver 5 of the remote display device, a first charging hole 6, a first power switch hole 7, a first power indicator hole site 8, a rear cover bottom fixture block 9, a rear cover right fixture block 10, and a rear cover left fixture block 11;

the loudspeaker sound emitting hole 1 is positioned in the center of the left side face of the remote display equipment shell 3;

the remote display device left rear cover opener 2 is located below the left side of the remote display device housing 3;

the remote display device right rear cover opener 5 is positioned below the right side of the remote display device housing 3;

the two rear cover bottom clamping blocks 9 are positioned at the lower end of the front side of the remote display equipment shell 3;

a rear cover right side fixture block 10 is positioned at the lower end of the right side of the remote display device shell 3;

a rear cover left side clamping block 11 is positioned at the lower end of the left side of the remote display equipment shell 3;

the first charging hole 6, the first power switch hole 7 and the first electric quantity indicator light hole site 8 are arranged on the right side face of the remote display equipment shell 3 in parallel;

the capacitive touch screen 4 is mounted on the top surface of the remote display device housing 3.

The utility model discloses in, in the concrete realization, remote display equipment speaker phonation hole 1 is the circular hole matrix in a 4cm aperture to arrange in one side of remote display equipment shell 3.

In the utility model, in the concrete implementation, the bottom of the remote display device shell 3 is provided with a remote display device rear cover 300;

the remote display device shell 3 and the remote display device rear cover 300 positioned at the bottom of the remote display device shell 3 are made of 0.3mm black opaque acrylic plates and are fixed by being adhered by strong glue.

In particular, a rear cover bottom fixture block 9, a rear cover right side fixture block 10 and a rear cover left side fixture block 11 on the remote display device shell 3 are rectangular bulges;

the top of lid 300 behind the remote display equipment, with the corresponding position of back lid bottom fixture block 9 on the remote display equipment shell 3, back lid right side fixture block 10 and back lid left side fixture block 11, be provided with the breach that is used for the joint respectively, through pressing, the breach and the corresponding fixture block looks joint can be installed on remote display equipment shell 3 with the lid behind the remote display equipment.

In the concrete implementation, lid bottle opener 2 behind remote display equipment left side and lid bottle opener 5 behind remote display equipment right side are located lid 300 behind the remote display equipment, are the trapezoidal arch of a part on lid 300 behind the remote display equipment, and lid bottle opener 2 behind lid bottle opener 2 or lid bottle opener 5 behind the remote display equipment right side are outwards broken off with the fingers and thumb behind remote display equipment left side, can make lid 300 separation behind remote display equipment shell 3 and the remote display equipment.

The utility model discloses in, in specifically realizing, see that fig. 4a is shown, printed circuit board has in the remote display equipment, be provided with first ceramic electric capacity 12 on the printed circuit board of remote display equipment, electric capacity 13 resets, the controller resets button 14, first pull-up resistance 15 (specifically 4.7K pull-up resistance), first wireless communication module 16, first controller GND wiring pin header 17, first controller RXD wiring pin header 18, first controller TXD wiring pin header 19, first power management module 20, first two grades of toggle switch 21, first DC round hole power plug 22, first embedded controller 23, MAX232 chip 24 and capacitive touch screen wiring port 25, wherein:

the first power management module 20 is located in the upper right corner of the printed circuit board of the remote display device;

the first two-gear toggle switch 21 is positioned in the middle position of the right side of the printed circuit board of the remote display device;

the DC round hole power plug 22 is located at the lower right corner of the printed circuit board of the remote display device;

the wireless communication module 16 is located at an upper-middle position of the printed circuit board of the remote display device;

the wireless communication module 16 is welded on the printed circuit board (specifically, the wireless communication module is welded and supported on the printed circuit board through a 4-pin 2.54 pin header);

the circuit board of the wireless communication module 16 and the printed circuit board of the remote display device have a preset distance;

the controller GND wiring pin header 17, the controller RXD wiring pin header 18 and the controller TXD wiring pin header 19 are 3-pin 2.54 bent pin headers, are welded on a printed circuit board of the remote display equipment and are positioned below the wireless communication module 16;

the first embedded controller 23 is located at a central position of the printed circuit board of the remote display device;

the capacitive touch screen connection port 25 is in the middle left of the printed circuit board of the remote display device.

Referring to fig. 4b, the remote display device includes a first power management module 20 and a first embedded controller 23;

wherein, first power management module 20 is connected with first DC round hole power plug (being first interface that charges) 22, and first power management module 20 is used for handling filtering steady voltage with the power of input and handles, and first power management module 20 is connected with the first lithium cell on the remote display equipment for control charging and discharging of first lithium cell, and first power management module 20 is used for stepping up the output voltage of first lithium cell and exports for first embedded controller 23, specifically is: the 3.7V output voltage of the first lithium battery can be boosted and stabilized to a 5V voltage and then output to the first embedded controller 23.

It should be noted that the first power management module 20 may be connected to the first embedded controller 23 through a discharge circuit (specifically, including the first two-stage toggle switch 21).

The controller reset key 14 is connected to the first embedded controller 23 for restarting the handheld device. The first debugging interface consists of a first controller GND wiring pin header 17, a first controller RXD wiring pin header 18 and a first controller TXD wiring pin header 19, and is connected with a first embedded controller 23 and mainly used for enabling a worker to read the running condition of equipment;

it should be noted that the controller reset key 14 is implemented by an existing conventional reset circuit (including the reset capacitor 13 and the first pull-up resistor 15) to restart the handheld device. The reset circuit is a conventional circuit, and is not described herein.

The first embedded controller 23 is respectively connected with the first wireless communication module 16 and the MAX232 chip 24;

the first wireless communication module 16 is configured to receive or send data wirelessly, and in particular, is configured to receive data sent by a second wireless communication module in the handheld device wirelessly, and then forward the data to the first embedded controller 23 (i.e., perform data communication with the first embedded controller 23).

The MAX232 chip (i.e., the TTL to 232 module, which includes the first ceramic capacitor 12 therein) 24 is configured to receive a TTL signal sent by the first embedded controller 23, convert the TTL signal into an RS232 signal, and send the RS232 signal to the capacitive touch screen connection port 25 on the capacitive touch screen 4.

And the capacitive touch screen wiring port 25 is configured to transmit the RS232 signal to the MAX232 chip (i.e., TTL to 232 module) 24, and convert the RS232 signal into a TTL signal by the MAX232 chip (i.e., TTL to 232 module) 24 and transmit the TTL signal to the first embedded controller 23.

The utility model discloses in, specifically realize, see that fig. 5 is shown, handheld device, including handheld device top cap bottle opener 26, handheld device top cap draw-in groove 27, OLED display screen 28, finger clamp data cable 29, second power indicator hole site 30, the second hole site of charging 31, second switch hole site 32, finger clamp 33, handheld device shell 34, handheld device reset button hole site 35, networking button hole site 36, cancel emergency call button hole site 37 and emergency call button hole site 38, wherein:

a handheld device top cover 100 is arranged on the top of the handheld device shell 34;

a plurality of handheld device top cover drivers 26 are arranged on the periphery of the handheld device top cover 100;

it should be noted that the handheld device top cover opener 26 is used for facilitating the separation of the handheld device top cover 100 from the handheld device housing 34;

a plurality of handheld device top cover clamping grooves 27 are formed around the handheld device top cover 100;

a top cover clamping block (namely a rectangular bulge) is arranged at the top of the handheld device shell 34 at the position corresponding to each handheld device top cover clamping groove 27;

the top cover fixture block is clamped with the handheld device top cover clamping groove 27.

The utility model discloses in, specifically realize, to the hand-held device, hand-held device shell 34 and hand-held device top cap 100 are made by 0.3mm black opaque ya keli board to paste fixedly through powerful glue.

In the concrete realization, handheld device top cap draw-in groove 27 is the cuboid breach on handheld device top cap 100, and the position that handheld device shell 34 corresponds with it has the cuboid arch (be the top cap fixture block), can be through the mode of pressing, makes handheld device top cap draw-in groove 27 and handheld device shell 34's cuboid arch (be the top cap fixture block) carry out the physics and combine. The handheld device top cover opener 26 is a part of a trapezoidal protrusion of the handheld device top cover, and the handheld device housing 34 and the handheld device top cover 100 can be separated by breaking the handheld device top cover opener 26 outward.

In particular, the OLED display 28 is located at the top center of the top cover 100 of the handheld device.

In particular, after passing through a reserved interface on the top cover 100 of the handheld device, the finger clamp data cable 29 is connected with the finger clamp 33;

note that the other end of the finger clip data cable 29 is specifically connected to the finger clip connection terminal 57 in the circuit board of fig. 6.

In a specific implementation, the second electric quantity indicator light hole site 30, the second charging hole site 31 and the second power switch hole site 32 are located on the right side surface of the handheld device shell 34;

a handheld device reset key hole location 35, a networking key hole location 36, a cancel emergency call key hole location 37, and an emergency call key hole location 38 are located at the front left end of the handheld device housing 34.

In the present invention, referring to fig. 6a, in particular, a printed circuit board is provided in the handheld device, a second controller GND wiring pin 39, a second controller RXD wiring pin 40, a second controller TXD wiring pin 41, a second ceramic capacitor 42, a second pull-up resistor 43, a second lithium battery 44, a second power management module 45, a second DC round-hole power plug 46, a second two-stage toggle switch 47, a WIFI module 48, an environment variable sensor terminal 49, an OLED display terminal 50, a handheld device reset key 51, a networking key 52, a cancel emergency call key 53, an emergency call key 54, a buzzer 55, a resistor 56, a finger clamp terminal 57, a second wireless communication module terminal 58, a triode 59, a second embedded controller 60 and a lithium battery box 61 are provided on the printed circuit board of the handheld device, wherein:

a second power management module 45 located in the upper right corner of the printed circuit board of the handheld device;

the second DC round hole power plug 46 is located between the second power management module 45 and the second two-stage toggle switch 47;

the second two-gear toggle switch 47 is located in the middle position of the right side of the printed circuit board of the handheld device;

WIFI module 48 is located in the lower right corner of the printed circuit board of the handheld device;

the second lithium battery 44 is mounted in a lithium battery case 61;

the second embedded controller 60 is located in the middle left of the printed circuit board of the handheld device;

the buzzer 55 is positioned in front of the second embedded controller 60;

the second wireless communication module terminal 58 is positioned in front of the second embedded controller 60;

the handset reset key 51, networking key 52, cancel emergency call key 53 and emergency call key 54 are located at the front end of the handset's printed circuit board, respectively.

Referring to fig. 6b, the handheld device comprises a second power management module 45 and a second embedded controller 60;

the finger clip 33 contains a heart rate blood pressure sensor and a body temperature sensor, which are used for reading heart rate, blood oxygen and body temperature parameters of a patient in real time and then sending the parameters to the second embedded controller 60;

the OLED display screen connecting terminal 50 on the OLED display screen 28 is connected to the second embedded controller 60, and the OLED display screen is configured to receive and display data sent by the second embedded controller 60;

the second debugging interface consists of a second controller GND wiring pin header 39, a second controller RXD wiring pin header 40 and a second controller TXD wiring pin header 41, is connected with a second embedded controller 60, and is mainly used for reading the running condition of equipment by workers;

the second wireless communication module wiring terminal 58 is connected with the second embedded controller 60 and used for wirelessly transmitting the data obtained by the second embedded controller 60 to the first wireless communication module in the remote display equipment in a short distance through the second wireless communication module;

the WIFI module 48 is connected to the second embedded controller 60, and is configured to transmit data obtained by the second embedded controller 60 to the cloud platform;

a second embedded controller 60 connected to the environment variable sensor 49;

the environment variable sensor 49 comprises a temperature and humidity sensor, a dust concentration sensor and a photoresistor, and is used for reading the temperature, the humidity, the dust concentration and the illumination intensity in the current environment in real time and sending the temperature, the humidity, the dust concentration and the illumination intensity to the second embedded controller 60;

the networking button 52, the emergency call button 54 and the cancel emergency call button 53 are respectively connected with the second embedded controller 60, and are used for realizing the functions of network connection and emergency call through the buttons. The handheld device reset key 51 is connected to the second embedded controller 60 for restarting the handheld device.

It should be noted that the reset key 51 of the handheld device implements the restart of the handheld device through the existing conventional reset circuit (including the second ceramic capacitor 42 and the second pull-up resistor 43). The reset circuit is a conventional circuit, and is not described herein.

In the present invention, in the specific implementation, referring to fig. 7, the resistor 56 is a current limiting and pull-down resistor of the triode 59, and the triode 59 is used to drive the buzzer through the on-off state.

In the utility model discloses in, in the concrete realization, see that fig. 8 shows, first pull-up resistance 15 is connected with the one end that the controller resets button 14, and the other end and 3.3V internet access, the controller resets button 14 other end and GND internet access, and electric capacity 13 resets button 14 parallelly connected with the controller.

The utility model discloses in, second DC round hole power plug (the second interface that charges promptly) 46 is connected with second power management module 45, second power management module 45 is used for carrying out the filtering steady voltage with the power of input and handles, and second power management module 45 is connected with second lithium cell 44, be used for controlling charging and discharging of second lithium cell 44, and second power management module 45 can promote and stabilize to 5V voltage with the 3.7V output voltage of lithium cell 44, then export for the embedded controller 60 of second.

It should be noted that the second power management module 45 may be connected to the second embedded controller 60 through a discharging circuit (specifically, including the second two-stage toggle switch 47).

The utility model discloses in, on specifically realizing, the software interface of installation on the host computer can set up button, ward temperature button, ward humidity button, patient rhythm of the heart button, patient blood oxygen concentration button and patient's body temperature button including the serial ports. Clicking the buttons can pop up a child window, namely a historical curve serial port, so that a curve diagram is formed, multiple records can be observed, for example, as shown in fig. 9 and 10, and the software can be developed through programming.

The utility model discloses in, on specifically realizing, lid 300, handheld device shell 34, handheld device top cap 400 all have centrosymmetric nature behind remote display device shell 3, the remote display device.

The utility model discloses in, ON specifically realizing, first two grades of toggle switch 21 and second two grades of toggle switch 41 are the two gears toggle switch of side stand formula, are the OFF shelves left, are the ON shelves right.

In a specific implementation of the present invention, the first DC round hole power plug 22 and the second DC round hole power plug 46 are DC-005 power sockets.

In the present invention, in particular, the first ceramic capacitor 12, the second ceramic capacitor 42 and the reset capacitor 13 are 100nf ceramic capacitors;

in the present invention, in particular, the first pull-up resistor 15 and the second pull-up resistor 43 are metal film resistors with resistance values of 4.7K, and the resistor 56 is a metal film resistor with resistance values of 10K and 1K; the triode 59 is SS8050 in model and TO-92 packaged

The utility model discloses in, in the concrete realization, second lithium cell 44 is 18650 lithium cells, and lithium cell battery case is 18650 special battery cases of lithium cell.

The utility model discloses in, on specifically realizing, remote display device's power supply battery is located inside one side of remote display device shell 3, fixes at inboard acrylic plate through glue.

The utility model discloses in, on specifically realizing, the printed circuit board of remote display equipment and the printed circuit board of hand-held device have the mounting hole all around, can support the back for M3.0's screw and copper post, paste the copper post inside the shell through the hot melt adhesive.

In the present invention, in particular, the VIN + pins of the first battery power management module 20 of the handheld device and the second power management module 45 of the remote display device are physically connected to the positive pins of the first DC round-hole power plug 22 and the second DC round-hole power plug 46, respectively;

the VIN-pins of the first battery power management module 20 and the second power management module 45 are physically connected to the negative pins of the first DC round-hole power plug 22 and the second DC round-hole power plug 46, respectively;

battery positive electrodes BAT + ends of the first battery power management module 20 and the second battery power management module 45 are physically connected with positive electrodes of lithium batteries (specifically, a first lithium battery and a second lithium battery) on a circuit board where the battery positive electrodes BAT + ends are located, and a ground end GND is physically connected with a negative electrode of the lithium battery;

and the positive power output end VOUT + of the first battery power management module 20 and the second power management module 45 is respectively connected with the COM ends of the first two-gear toggle switch 21 and the second two-gear toggle switch 47, and the negative power output end VOUT-of the power is connected with a circuit GND network on a circuit where the power is located.

In a specific implementation, the other ends of the first two-stage toggle switch 21 and the second two-stage toggle switch 47 are connected to a circuit VCC network. The charging voltage of the first lithium battery and the second lithium battery is 5V.

The utility model discloses in, on specifically realizing, the VCC network is +5V circuit, and the GND network is the 0V circuit.

The utility model discloses in, on specifically realizing, first embedded controller 23 and second embedded controller 60 are STM32F103C8T6 minimum system module, and its input voltage is 5V, and inside contains the 3.3V steady voltage, can export 3.3V voltage, and the module contains a chip and resets and dabs the button.

In the present invention, in the specific implementation, referring to fig. 7 and fig. 8, the first wireless communication module 16 in the remote display device and the second wireless communication module in the handheld device specifically adopt the existing wireless communication module, for example, the existing wireless communication module may be a GT-38 wireless serial communication module.

In a specific implementation, the second wireless communication module connection terminal 58 can be inserted with a GT-38 wireless serial communication module, so that the GT-38 wireless serial communication module is connected to a circuit (refer to fig. 8) through the second wireless communication module connection terminal 58,

in a specific implementation, referring to fig. 7 and 8, a U2_ RX pin of the GT-38 wireless serial communication module is connected to a PA2 pin of the first embedded controller 23 or the second embedded controller 60, a U2_ TX pin thereof is connected to a PA3 pin of the first embedded controller 23 or the second embedded controller 60, a VCC pin is connected to a VCC network of a circuit where the VCC pin is located, and GND is connected to a GND network of the circuit where the GND is located.

The utility model discloses in, on specifically realizing, capacitive touch screen 4 is that the model is DC80480F070_6111_ 0C's capacitive touch screen, and it can carry out physical connection with remote display device's printed circuit board through special cable and 8Pin terminal (being capacitive touch screen wiring port 25), and communication protocol connects RS 232.

In the utility model discloses in, in the concrete realization, see that fig. 8 shows, MAX232 chip 24, its 1 foot is connected with 3 feet with 100nf electric capacity (being first ceramic capacitor 12), 4 feet and 5 feet are connected with 100nf electric capacity, 16 feet connect the VCC network, 16 feet and 2 feet are connected with 100nf electric capacity, 15 feet connect the GND network, 6 feet and 15 feet are connected with 100nf electric capacity, 11 feet connect the PB10 pin of embedded controller 23, 12 feet connect the PB11 pin of embedded controller 23, 13 feet connect 4 feet of capacitive touch screen wiring port 25, 14 feet connect 5 feet of capacitive touch screen wiring port 25.

In the utility model discloses in, in the concrete realization, see that fig. 8 shows, first pull-up resistance 15 is connected with the one end that the controller resets button 14, and the other end and 3.3V internet access, the controller resets button 14 other end and GND internet access, and electric capacity 13 resets button 14 parallelly connected with the controller.

The utility model discloses in, on the concrete realization, capacitive touch screen wiring port 25 is the horizontal paster of 8 pins of 2.0 intervals, and VCC network is connected to its 1 foot and 2 feet, and GND network is connected to 7 feet and 8 feet.

The utility model discloses in, on specifically realizing, controller GND wiring row needle 17, controller RXD wiring row needle 18 and controller TXD wiring row needle 19 are 2.54's three looper interface, and its controller GND wiring row needle 17 connects the GND network, and controller RXD wiring row needle 18 connects the PA10 of first embedded controller 23, and controller TXD wiring row needle 19 connects the PA9 of first embedded controller 23.

In the present invention, in the specific implementation, the controller reset button 14 is a direct-insertion type tact switch;

the hand-held device reset key 51, the networking key 52, the emergency call canceling key 53 and the emergency call key 54 are horizontal tact switches, and key handles of the horizontal tact switches extend out of the hand-held device shell 34 through the corresponding hand-held device reset key hole site 35, the corresponding networking key hole site 36, the corresponding emergency call canceling key hole site 37 and the corresponding emergency call key hole site 38.

The utility model discloses in, specifically realize, handheld device shell 34's top contains a 0.96 cun OLED screen 28, has the reservation interface on the handheld device top cap 100, and the accessible interface makes the screen insert handheld device.

The printed circuit board inside the handheld device is provided with an OLED display screen wiring terminal 50, an SCL pin of the OLED display screen wiring terminal is connected with a PA6 pin of the second embedded controller 60, an SDA pin of the OLED display screen wiring terminal is connected with a PA7 pin of the second embedded controller 60, a VCC pin of the OLED display screen wiring terminal is connected with a 3.3V network, and a GND pin of the OLED display screen wiring terminal is connected with a GND network. The OLED display screen terminal 50 is physically connected with the reserved top cover interface of the handheld device through a flat cable.

The utility model discloses in, on specifically realizing, to handheld device, open on OLED display screen 28 right side has a round hole, its inside temperature and humidity sensor, photo resistance and dust sensor that is provided with. The temperature and humidity sensor is DHT22 in model, and the data pin is connected with PB1 of the second embedded controller 60; the photoresistor is connected with the PA0 of the second embedded controller 60; the dust sensor model is CP2Y1014AUOF, and the data pin is connected to the PA1 of the second embedded controller 60.

In the specific implementation of the present invention, the finger clamp 33 is a traditional medical finger clamp, and the interior thereof contains a heart rate blood oxygen sensor and a body temperature sensor;

wherein, heart rate blood oxygen sensor and body temperature sensor pass through finger clip data cable 29, are connected with finger clip binding post 57 on the printed circuit board of handheld device.

In the specific implementation, the model of the heart rate blood oxygen sensor is MAX30100, the VCC pin is connected to the 3.3V network, the GND pin is connected to the GND network, the SCL pin is connected to the PA6 pin of the second embedded controller 60, and the SDA pin is connected to the PA7 pin of the second embedded controller 60;

in the specific implementation, the model of the body temperature sensor is MAX30205MTA, the VCC pin is connected to the 3.3V network, the GND pin is connected to the GND network, the SCL pin is connected to the PA6 pin of the second embedded controller 60, and the SDA pin is connected to the PA7 pin of the second embedded controller 60.

The utility model discloses in, specifically realize last, the 48 models of WIFI module be ESP8266, and its VCC pin connects the VCC network, and the GND pin connects the GND network, and the RXD pin connects the PB10 of the embedded controller 60 of second, and the TXD pin connects the PB11 of the embedded controller 60 of second.

The utility model discloses in, on specifically realizing, the operational environment of the software of installation on the host computer is Windows, and the operational environment of the APP of installation on the cell-phone is Android.

The utility model discloses in, on specifically realizing, first battery power management module 20 and second power management module 45 are the ordinary lithium cell charge-discharge management module that has now on the market, for example all can be for the integrative module of 2A 5V charge-discharge of TELESKY company production. And will not be described in detail herein.

In order to understand the technical solution of the present invention more clearly, the working principle of the present invention is explained below.

Need use at patient the utility model discloses the time, can dial first two grades of toggle switch 21 and second two grades of toggle switch 47 to ON shelves and start remote display equipment and handheld device, clip patient's ring finger with finger clip 33, press networking button 52 this moment, through the APP ON the mobile terminal such as supporting cell-phone, use AirLink's mode, even go into the internet to handheld device. At this moment, the body temperature, the heart rate, the blood oxygen saturation and the temperature, the humidity, the illumination intensity and the dust concentration of environment of patient can be seen to APP on mobile terminals such as software and cell phones on partial OLED display screen 28, remote display equipment, an upper computer. If the patient needs to make an emergency call to the family members, the emergency call button 54 can be pressed to notify the family members, at the moment, the APP on the mobile terminal such as a mobile phone receives the alarm notification, the remote display device plays an alarm, after the family members arrive, the emergency call button 54 is pressed to cancel, and the alarm can be released. The remote display equipment can select data display and view historical data through the touch screen; software installed on the upper computer can open corresponding historical curve sub-windows by clicking corresponding buttons to check historical data and curves.

If the device needs to be charged, a 5V round hole data line can be inserted into the first DC round hole power plug 22 and the second DC round hole power plug 46 through the first charging hole 6 and the second charging hole 31) to charge the corresponding device. The battery power may be viewed through first power indicator hole site 8 and second power indicator hole site 30. After the use, the first two-gear toggle switch 21 and the second two-gear toggle switch 47 are toggled to the OFF gear, the equipment is closed, and the equipment is stored.

It should be noted that the electronic components used in the present invention all adopt the existing products, and the connection relationship is also the conventional connection relationship in the field.

According to the technical scheme provided by the utility model, to the utility model discloses, be favorable to solving data all day collection, database formula record, big data comprehensive history analysis, the long-range data scheduling problem of looking over that exists among the prior art.

Compared with the prior art, the utility model provides a wireless rhythm of the heart body temperature measurement record system of domestic formula has following beneficial effect:

1. the utility model discloses based on wiFi and thing networking cloud platform, constitute real-time transmission's network system by high in the clouds and equipment end, avoided the unable pursuit of information, can track and analyze oneself historical information, be favorable to in time detecting the vital sign condition and provide effective data to the proposition of follow-up treatment scheme;

2. the utility model discloses a handheld device, gather human vital sign parameter (rhythm of the heart, the body temperature, oxyhemoglobin saturation etc.) and patient environment (indoor temperature), humidity, illumination intensity, dust concentration etc.) of locating, and send the data of gathering to the cloud ware through the wiFi technique, data are stored and are conveyed to in remote display equipment and cell-phone APP after calculating at the cloud ware, when taking place emergency, can in time convey information to on the family members APP, can report to the police to vital sign in real time, and can in time inform medical personnel and family members thereof, user's accessible cell-phone APP and computer PC software, real-time or historical data are looked over in the long-range.

To sum up, compare with prior art, the utility model provides a pair of wireless rhythm of heart body temperature measurement record system of domestic formula, it can realize the real-time measurement and the collection of people's health rhythm of heart, oxyhemoglobin saturation and body temperature, has solved the problem of traditional medical equipment function singleness, has great practical meaning.

In addition, the utility model discloses an use thing networking application technology to improve the device, carry out state monitoring to patient, replaced traditional manpower inspection, reduced the consumption of manpower to more scientific, accurate inspection and processing are carried out to patient's state, and can carry out data record, form the chart, the historical vital sign parameter of direct observation patient, also more be favorable to doctor's diagnosis and treatment;

additionally, the utility model discloses an equipment low cost, and conveniently carry, it is compatible strong, can know vital sign information anytime and anywhere, reduced medical institution's operating pressure, reduce patient waiting time of lining up, make personally can carry out the self-test through being in vital sign information such as to the rhythm of the heart, body temperature.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a wireless rhythm of heart body temperature measurement record system of domestic formula which characterized in that, includes remote display equipment, handheld device, host computer, mobile terminal and cloud platform, wherein:

the handheld device is used for collecting vital sign data of body temperature, heart rate and blood oxygen saturation of a human body, collecting environmental data of temperature, humidity, illumination intensity and dust concentration in the current environment, and then transmitting the collected vital sign data and the collected environmental data to the cloud platform and the remote display device;

the cloud platform is in wireless connection with the handheld device and is used for receiving the vital sign data and the environmental data sent by the handheld device and then forwarding the vital sign data and the environmental data to at least one upper computer and at least one mobile terminal through the Internet;

the upper computer is connected with the cloud platform through the Internet and used for receiving the vital sign data and the environment data sent by the cloud platform and then recording and storing the vital sign data and the environment data in real time;

the mobile terminal is connected with the cloud platform through the Internet and used for receiving the vital sign data and the environmental data sent by the cloud platform and then recording and storing the vital sign data and the environmental data in real time;

and the remote display equipment is connected with the handheld equipment and used for viewing data according to an instruction input by a user and reading and displaying the vital sign data and the environmental data acquired by the handheld equipment in real time.

2. The household wireless heart rate and body temperature measurement recording system according to claim 1, wherein the remote display device specifically comprises a remote display device speaker sound emitting hole (1), a remote display device left rear cover opener (2), a remote display device housing (3), a capacitive touch screen (4), a remote display device right rear cover opener (5), a first charging hole (6), a first power switch hole (7), a first power indicator hole site (8), a rear cover bottom fixture block (9), a rear cover right fixture block (10) and a rear cover left fixture block (11);

the loudspeaker sound emitting hole (1) is positioned in the center of the left side face of the remote display equipment shell (3);

the left rear cover screwdriver (2) of the remote display equipment is positioned below the left side of the shell (3) of the remote display equipment;

the right rear cover screwdriver (5) of the remote display equipment is positioned below the right side of the remote display equipment shell (3);

the two rear cover bottom clamping blocks (9) are positioned at the lower end of the front side of the remote display equipment shell (3);

a rear cover right side fixture block (10) is positioned at the lower end of the right side of the remote display equipment shell (3);

a rear cover left side fixture block (11) is positioned at the lower end of the left side of the remote display equipment shell (3);

the first charging hole (6), the first power switch hole (7) and the first electric quantity indicator light hole (8) are arranged on the right side face of the remote display equipment shell (3) in parallel;

the capacitive touch screen (4) is mounted on the top surface of the remote display device housing (3).

3. A home wireless heart rate and body temperature measurement recording system according to claim 2, characterized in that the remote display device speaker sound emitting hole (1) is a circular hole array with 4cm aperture.

4. The home-use wireless heart rate and body temperature measurement recording system according to claim 2, characterized in that a remote display device rear cover (300) is arranged at the bottom of the remote display device housing (3);

the top of the remote display equipment rear cover (300) is provided with notches for clamping at the positions corresponding to a rear cover bottom clamping block (9), a rear cover right side clamping block (10) and a rear cover left side clamping block (11) on the remote display equipment shell (3).

5. The home wireless heart rate and body temperature measurement recording system according to claim 4, wherein the remote display device left side rear cover opener (2) and the remote display device right side rear cover opener (5) are both trapezoidal protrusions on the remote display device rear cover (300).

6. The home-use wireless heart rate and body temperature measurement recording system according to claim 2, wherein the remote display device comprises a first power management module (20) and a first embedded controller (23);

the first power management module (20) is connected with a first DC round hole power plug (22);

the first power supply management module (20) is used for carrying out filtering and voltage stabilizing processing on an input power supply, and the first power supply management module (20) is connected with a first lithium battery on the remote display equipment and is used for controlling charging and discharging of the first lithium battery;

the first power management module (20) is used for boosting the output voltage of the first lithium battery and outputting the boosted output voltage to the first embedded controller (23);

the first embedded controller (23) is respectively connected with the first wireless communication module (16) and the MAX232 chip (24);

the first wireless communication module (16) is used for wirelessly receiving or sending data, specifically used for wirelessly receiving data sent by a second wireless communication module in the handheld device and then forwarding the data to the first embedded controller (23);

and the MAX232 chip (24) is used for receiving TTL signals sent by the first embedded controller (23), converting the TTL signals into RS232 signals and sending the RS232 signals to a capacitive touch screen wiring port (25) on the capacitive touch screen (4).

7. The home wireless heart rate and body temperature measurement recording system according to any one of claims 1 to 6, wherein the handheld device comprises a handheld device top cover opener (26), a handheld device top cover card slot (27), an OLED display screen (28), a finger clip data cable (29), a second power indicator hole site (30), a second charging hole site (31), a second power switch hole site (32), a finger clip (33), a handheld device housing (34), a handheld device reset key hole site (35), a networking key hole site (36), a cancel emergency call key hole site (37) and an emergency call key hole site (38), wherein:

a handheld device top cover (100) is arranged at the top of the handheld device shell (34);

a plurality of handheld device top cover drivers (26) are arranged on the peripheral edge of the handheld device top cover (100);

a plurality of handheld equipment top cover clamping grooves (27) are formed around the handheld equipment top cover (100);

a top cover clamping block is arranged at the top of the handheld device shell (34) at the position corresponding to each handheld device top cover clamping groove (27);

the top cover fixture block is clamped with the handheld device top cover clamping groove (27).

8. The home wireless heart rate and body temperature measurement recording system according to claim 7, wherein the OLED display screen (28) is located at a top center position of the handheld device top cover (100);

the finger clamp data cable (29) penetrates through a reserved interface on the top cover (100) of the handheld device and then is connected with the finger clamp (33);

the second electric quantity indicator light hole site (30), the second charging hole site (31) and the second power switch hole site (32) are positioned on the right side surface of the handheld device shell (34);

the handheld device reset key hole site (35), the networking key hole site (36), the emergency call cancel key hole site (37) and the emergency call key hole site (38) are located at the left end of the front face of the handheld device shell (34).

9. The household wireless heart rate and body temperature measuring and recording system according to claim 8, wherein a round hole is formed in the right side of the OLED display screen (28), and a temperature and humidity sensor, a photoresistor and a dust sensor are arranged in the round hole;

the finger clip (33) is internally provided with a heart rate blood oxygen sensor and a body temperature sensor.

10. The home-use wireless heart rate and body temperature measurement recording system of claim 7, wherein the handheld device comprises a second power management module (45) and a second embedded controller (60);

the finger clamp (33) is internally provided with a heart rate and blood pressure sensor and a body temperature sensor which are used for reading heart rate, blood oxygen and body temperature parameters of a patient in real time and then sending the parameters to the second embedded controller (60);

the second embedded controller (60) is connected with an OLED display screen wiring terminal (50) arranged on the OLED display screen (28);

the OLED display screen (28) is used for receiving and displaying data sent by the second embedded controller (60);

the second wireless communication module wiring terminal (58) is connected with the second embedded controller (60) and is used for wirelessly sending the data obtained by the second embedded controller (60) to the first wireless communication module in the remote display equipment in a short distance through the second wireless communication module;

the WIFI module (48) is connected with the second embedded controller (60) and used for transmitting data obtained by the second embedded controller (60) to the cloud platform;

a second embedded controller (60) connected to the environment variable sensor (49);

the environment variable sensor (49) comprises a temperature and humidity sensor, a dust concentration sensor and a photoresistor, is used for reading the temperature, the humidity, the dust concentration and the illumination intensity in the current environment in real time and sending the temperature, the humidity, the dust concentration and the illumination intensity to the second embedded controller (60).

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