CN109431483A - A kind of wearable heart rate monitoring system - Google Patents

Abstract

The invention discloses a wearable heart rate monitoring system, comprising a detecting end, a server end and a mobile terminal; the detecting end adopts a wearable fabric, and the wearable fabric is provided with a wireless communication device, a knitted flexible sensor and a GPS positioning device; The knitted flexible sensor is disposed on an inner side of the wearable fabric for detecting a heart rate signal of the human body and transmitting the signal to the wireless communication device; the GPS positioning device is fixedly disposed on the wearable fabric for detecting a position signal of the human body, And sending to the wireless communication device; the server end includes a base station and a cloud server; the base station is configured to detect a detection end in a nearby range, and the heart rate data detected by the detection end is sent to the cloud server through the base station; the mobile terminal is handheld The device has a communication software for connecting to the cloud server in the handheld device, and the mobile terminal reads the heart rate data stored by the cloud server through the communication software, and displays the same through the display screen.

Description

A kind of wearable heart rate monitoring system

Technical field

The present invention relates to intelligence weaving wearable device fields, specifically, being related specifically to a kind of wearable heart rate prison Control system.

Background technique

For intelligent wearable device as emerging human body signal monitoring device, it can not only perceive external environment or internal shape The variation of state, and by feedback mechanism, it can react in real time to this variation, so that abiotic clothes be made to become to have Feel and perception.

In daily life, intensity, property, metabolism, oxygen consumption, lactic acid build when heart rate data can embody movement and The body datas such as fatigue recovery, and the crowd with heart class disease can also be accomplished to monitor in real time, and play early warning Effect.

Present some heart rate acquisition devices, although the heart rate information of human body can be acquired, what is be unable to fully utilizes this A little information carry out the Analysis Service of various complexity to these data, propose the motion analysis of profession, suggest, can not also facilitate people System check former or present detailed data record.

Summary of the invention

It is an object of the invention to aiming at the shortcomings in the prior art, provide a kind of wearable heart rate monitoring system, with solution Certainly problems of the prior art.

Technical problem solved by the invention can be realized using following technical scheme:

A kind of wearable heart rate monitoring system, including test side, with the server end of the test side communication connection and For checking the mobile terminal of detection data；

The test side uses wearable fabric comprising underwear, heart rate band and bracelet；It is set on the wearable fabric The knitting flexible sensor and GPS positioning device for having wireless communication apparatus and being connect with the wireless communication apparatus；

The medial surface of wearable fabric is arranged in the knitting flexible sensor, is used to detect the heart rate signal of human body, And it is sent to wireless communication apparatus；GPS positioning device is fixed on wearable fabric, is used to detect the position letter of human body Number, and it is sent to wireless communication apparatus；

The wireless communication apparatus includes shell, in shell be equipped with wireless communications chips and be the wireless telecommunications The data input pin of the lithium battery pack of chip energy supply, the wireless communications chips is equipped with first port, second port and third Port is used to connect first sensor region, second sensor region and GPS positioning device, the data of wireless communications chips Output end is connect with a voice prompting device and liquid crystal display respectively；

The knitting flexible sensor includes first sensor region, second sensor region and is used to be isolated first The non-sensor region of sensor region and second sensor region；The first sensor region and second sensor region The veil in the bright and beautiful packet ammonia yarn of wire gauze use, first sensor region and second sensor region uses silver-plated polyamide fibre yarn；It is described The wire gauze in non-sensor region adds bullet yarn using polyamide fibre using bright and beautiful packet ammonia yarn, the veil in non-sensor region；

The knitting flexible sensor (3) uses jacquard weave plating structure, and wire gauze is bright and beautiful packet ammonia yarn, and veil is silver-plated polyamide fibre Yarn and bright and beautiful packet ammonia yarn；Silver-plated polyamide fibre yarn and bright and beautiful packet ammonia yarn are in first sensor region (31) and second sensor region (32) intermediate non-sensor region swaps: in first sensor region (31) and second sensor region (32), plating Silver-colored Polyamide Yarns is veil, and polyamide fibre adds bullet yarn to be that flotation line is formed in envers；In non-sensor region, polyamide fibre adds bullet yarn For veil, silver-plated Polyamide Yarns is the flotation line that flotation line can cut the back side in envers formation Hough compass；

After knitting flexible sensor (3) knitting forming, back side flotation line, which has, cuts trace influence beauty, so continuing to knit Make a part of plating structure, after by rig, flotation line trace is placed on to double-deck inside；

The knitting flexible sensor is equal to the equivalent resistance being formed in parallel by n row, each described equivalent Resistance is connected in series by several conductive coils；

The cross section of the conductive coil is hexagon, and conductive coil includes two circle arc Ra, two loop pillar Rb and two Contact resistance Rc；Two adjacent lead loop share any one in above-mentioned six resistance；Between two column circle Rb Circle arc Ra serve as sinker loop, the circle arc Ra between two contact resistance Rc serves as needle loop；

The server end includes several base stations and the cloud server that connect with the base station communication；The base station For detecting the test side in environs, and wireless telecommunications being established with it and are connect, the heart rate data that test side detects passes through Wireless communications chips are sent to base station, and base station carries out after once storing backup heart rate data, then heart rate data is sent to cloud Server is held, cloud server is used to carry out secondary storage to heart rate data to back up, and for mobile terminal enquiry；

The mobile terminal is handheld device comprising smart phone, IPAD and tablet computer；It is set in the hand-held The standby interior communication software being equipped with for connecting with the cloud server, mobile terminal read cloud server by communication software The heart rate data of storage, and shown by display screen.

Compared with prior art, the beneficial effects of the present invention are:

It is combined by the way that flexible sensor, GPS positioning device will be knitted with cloud server, data is reacted to mobile phone On APP, the changes in heart rate of people can recorde, while data can also be stored, can analyze heart rate of the user within certain time, it is right The heart rate situation of user makes timely assessment, while can also position the position of user in real time.

Traditional flexible sensor is all to be connected by connection structure and heart rate with main body, is easy to fall off when in use, And comfort when wearing is influenced, the present invention is woven together with heart rate band main body by that will be knitted flexible sensor, is realized Integration.

Detailed description of the invention

Fig. 1 is the schematic diagram of wearable fabric of the present invention.

Fig. 2 is the schematic diagram of wireless communication apparatus and knitting flexible sensor of the present invention.

Fig. 3 is the schematic diagram of conductive coil of the present invention.

Fig. 4 is the schematic diagram of hexagon resistance of the present invention.

Fig. 5 is the data transmission scheme of wearable heart rate monitoring system of the present invention.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to Specific embodiment, the present invention is further explained.

Referring to Fig. 1 to Fig. 5, a kind of wearable heart rate monitoring system of the present invention, including test side and the detection The server end that end communication connects and the mobile terminal for checking detection data；

The test side uses wearable fabric (1) comprising underwear, heart rate band and bracelet；In the wearable fabric (1) be equipped with wireless communication apparatus (2) and the knitting flexible sensor (3) that is connect with the wireless communication apparatus (2) and GPS positioning device (4)；

Knitting flexible sensor (3) setting is used to detect the heart rate of human body in the medial surface of wearable fabric (1) Signal, and it is sent to wireless communication apparatus (2)；GPS positioning device (4) is fixed on wearable fabric (1), is used to examine The position signal of human body is surveyed, and is sent to wireless communication apparatus (2)；

The wireless communication apparatus (2) includes shell (21), be equipped in the shell (21) wireless communications chips (22) and For the lithium battery pack (23) of the wireless communications chips (22) energy supply, the data input pin of the wireless communications chips (22) is set There are first port, second port and third port, is used to connect first sensor region (31), second sensor region (32) With GPS positioning device (4), the data output end of wireless communications chips (22) respectively with a voice prompting device (24) and liquid crystal display Shield (25) connection；

The knitting flexible sensor (3) includes first sensor region (31), second sensor region (32), Yi Jiyong In the non-sensor region of isolation first sensor region (31) and second sensor region (32)；The first sensor region (31) and the wire gauze of second sensor region (32) is using bright and beautiful packet ammonia yarn, first sensor region (31) and second sensor area The veil in domain (32) uses silver-plated polyamide fibre yarn；The wire gauze in the non-sensor region is using bright and beautiful packet ammonia yarn, non-sensor area The veil in domain adds bullet yarn using polyamide fibre.

The knitting flexible sensor (3) is equal to the equivalent resistance being formed in parallel by n row, each described etc. Effect resistance is connected in series by several conductive coils (34)；

The cross section of the conductive coil (34) is hexagon, and conductive coil (34) includes two circle arcs (Ra), two circles Column (Rb) and two contact resistances (Rc)；Two adjacent lead loop (34) share any one in above-mentioned six resistance； Circle arc (Ra) between two column circles (Rb) serves as sinker loop, the circle arc (Ra) being located between two contact resistances (Rc) Serve as needle loop；

The server end includes several base stations and the cloud server that connect with the base station communication；The base station For detecting the test side in environs, and wireless telecommunications being established with it and are connect, the heart rate data that test side detects passes through Wireless communications chips (22) are sent to base station, and base station carries out after once storing backup heart rate data, then heart rate data is sent To cloud server, cloud server is used to carry out secondary storage to heart rate data to back up, and for mobile terminal enquiry；

The mobile terminal is handheld device comprising smart phone, IPAD and tablet computer；It is set in the hand-held The standby interior communication software being equipped with for connecting with the cloud server, mobile terminal read cloud server by communication software The heart rate data of storage, and shown by display screen.

It should be pointed out that present invention knitting flexible sensor (3) uses jacquard weave plating structure, wire gauze is bright and beautiful packet ammonia yarn Line, veil are silver-plated polyamide fibre yarn and bright and beautiful packet ammonia yarn；Two kinds of veils are in rectangular conductive region (first sensor region and second Sensor region) and two panels conductive fabric intermediate connection zones (non-sensor region) between swap: within the scope of conductive region, Silver-plated Polyamide Yarns is veil, and polyamide fibre adds bullet yarn to be that flotation line is formed in envers；Two panels conductive fabric intermediate connection zones model In enclosing, polyamide fibre, which adds, plays yarn as veil, and silver-plated Polyamide Yarns, which forms Hough compass in envers for flotation line, can cut the back side Flotation line.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (1)

A wearable heart rate monitoring system, comprising: a detecting end, a server end communicatively connected to the detecting end, and a mobile terminal for viewing detection data; The detecting end adopts a wearable fabric (1), which comprises an underwear, a heart rate belt and a wristband; a wireless communication device (2) is arranged on the wearable fabric (1), and the wireless communication device (2) ) a connected knitted flexible sensor (3) and a GPS positioning device (4); The knitted flexible sensor (3) is disposed on an inner side of the wearable fabric (1) for detecting a heart rate signal of the human body and transmitting the signal to the wireless communication device (2); the GPS positioning device (4) is fixedly disposed on the wearable a fabric (1) for detecting a position signal of a human body and transmitting it to a wireless communication device (2); The wireless communication device (2) includes a housing (21), a wireless communication chip (22) is disposed in the housing (21), and a lithium battery assembly (23) for powering the wireless communication chip (22) The data input end of the wireless communication chip (22) is provided with a first port, a second port and a third port for connecting the first sensor area (31), the second sensor area (32) and the GPS positioning device (4) The data output end of the wireless communication chip (22) is respectively connected to a voice prompter (24) and a liquid crystal display (25); The knitted flexible sensor (3) includes a first sensor area (31), a second sensor area (32), and a non-sensor area for isolating the first sensor area (31) and the second sensor area (32); The ground yarn of the first sensor area (31) and the second sensor area (32) is a nylon ammonia yarn, and the veil of the first sensor area (31) and the second sensor area (32) is a silver-plated nylon yarn; The ground yarn of the non-sensor area adopts a nylon ammonia yarn, and the non-sensor area of the veil adopts a nylon elastic yarn; The knitted flexible sensor (3) adopts a jacquard weave structure, the ground yarn is a nylon-coated yarn, the veil is a silver-plated nylon yarn and a nylon-coated yarn; the silver-plated nylon yarn and the nylon-coated ammonia yarn are in the first The non-sensor area between the sensor area (31) and the second sensor area (32) is exchanged: in the first sensor area (31) and the second sensor area (32), the silver-plated nylon yarn is a veil, and the nylon is stretched. The yarn is formed by the floating line on the back of the fabric; in the non-sensor area, the nylon-reinforced yarn is a veil, and the silver-plated nylon yarn is a floating line. The Hafro disk is formed on the back of the fabric to cut the floating line on the back; After the knitted flexible sensor (3) is knitted and formed, the back floating line has a cutting trace to affect the appearance, so that a part of the added yarn structure is continuously woven, and then the fabric is folded in half, and the floating trace is placed on the inner side of the double layer; The knitted flexible sensor (3) is equivalent to an equivalent resistance formed by paralleling n courses, each of the equivalent resistances being formed by connecting a plurality of conductive coils (34) in series; The conductive coil (34) has a hexagonal cross section, and the conductive coil (34) includes two coils (Ra), two coils (Rb) and two contact resistors (Rc); two adjacent ones The wire coil (34) shares any one of the above six resistors; the coil arc (Ra) between the two collars (Rb) is used as a sinker arc, a loop arc between the two contact resistors (Rc) (Ra) used as a needle arc; The server end includes a plurality of base stations and a cloud server connected to the base station; the base station is configured to detect a detection end in a nearby range, and establish a wireless communication connection with the heart rate data detected by the detection end through the wireless communication chip. (22) transmitting to the base station, the base station performs a storage backup on the heart rate data, and then sends the heart rate data to the cloud server, where the cloud server is used for secondary storage backup of the heart rate data, and is used by the mobile terminal for querying; The mobile terminal is a handheld device, which includes a smart phone, an IPAD, and a tablet computer; a communication software for connecting to the cloud server is disposed in the handheld device, and the mobile terminal reads the cloud server storage through the communication software. Heart rate data is displayed on the display.