CN102309319B - Wireless heart rate monitoring system - Google Patents

Abstract

The invention discloses a wireless heart rate monitoring system, which comprises a wireless heart rate device, a wireless transceiver and a processor, wherein the wireless heart rate device is connected with the processor through the wireless transceiver and is used for acquiring and storing heart rate data and sending the heart rate data to the wireless transceiver; the wireless transceiver is connected with the processor, is used for sending the heart rate data to the processor and comprises a control module, a first wireless transceiver module, a second wireless transceiver module and a third wireless transceiver module; the first wireless transceiver module is connected with the control module and is used for receiving instant heart rate data; the second wireless transceiver module is used for receiving the stored heart rate data; the third wireless transceiver module is used for sending the heart rate data to the processor; and the processor receives and analyzes the heart rate data. The wireless heart rate monitoring system has a wide monitoring range; and each wireless heart rate device has an independent code and has the functions of storing the heart rate data, and uploading the instant heart rate data and storing the heart rate data at the same time, so the loss of the heart rate data of a user is avoided.

Description

Wireless heart rate monitoring system

Technical field

The present invention relates to a kind of wireless heart rate monitoring system.

Background technology

Along with growth in the living standard, people more and more pay attention to the health status of health, and increasing people enters into gymnasium, carries out every sports.At present, people start continuous intensification to the understanding of sports, gradually recognize the importance of science motion, and generally believe and should select quantity of motion according to the physical condition of self.But most people does not have the data base of own physical condition, the situation of Real-Time Monitoring self physiological function at the volley, therefore, most people is short in understanding to physical condition.In addition, how the people who keeps fit through sport for needs, arrange scientific and reasonable motion to seem particularly important according to s own situation.If can monitor at the volley the heart rate data of health, according to changes in heart rate, come scientific arrangement exercise intensity and quantity of motion, that is for a fat-reducing very large help beyond doubt.Now, general gymnasium also just simply provides body-building apparatus, and the experience of training by health instructs services client, and this is obviously still inadequate, gymnasium also needs, by providing the health data of client's health to carry out further perfect service, to guarantee the motion of client's health science.

At present in some developed countries, gymnasium starts employing wireless rhythm of the heart equipment, main employing carried out the transmission of heart rate data with the harvester of the wireless transmitter module based on 5.3KHz frequency, and the receiving system of heart rate data is mainly also some body-building apparatus with wireless receiving function, wrist-watch etc.But there are the following problems for these rhythm of the heart equipment: monitoring range is little; In transmitting procedure, there is conflict in the heart rate data that each heart rate acquisition device gathers; The function that harvester is not stored heart rate data, when the heart rate data gathering cannot be uploaded, heart rate data is lost.

Summary of the invention

The embodiment of the present invention provides a kind of wireless heart rate monitoring system, little for solving the monitoring range that current wireless heart rate monitoring system exists, in transmitting procedure, there is the problem of conflict in the heart rate data that each heart rate acquisition device gathers, also for solving when the heart rate data of heart rate acquisition device collection cannot be uploaded, the problem that heart rate data is lost.

A kind of wireless heart rate monitoring system comprises wireless heart rate device, wireless transceiver and datatron;

Wireless heart rate device connects datatron by wireless transceiver;

Wireless heart rate device is for collection and store heart rate data, and sends heart rate data to wireless transceiver;

Wireless transceiver connects datatron, for sending heart rate data to datatron;

Wireless transceiver comprises control module, the first radio receiving transmitting module being connected with control module, the second radio receiving transmitting module and the 3rd transceiver module, the first radio receiving transmitting module is used for receiving instant heart rate data, the second radio receiving transmitting module is for receiving the heart rate data of storage, and the 3rd transceiver module is for sending heart rate data to datatron;

Datatron receives and analyzes heart rate data.

Wireless heart rate device comprises: pectoral girdle, be located at main frame and electrode on pectoral girdle.

Main frame comprises:

Signal Collection and amplify module, signal processing module, main control module, memory module and transceiver module;

The input connection electrode of Signal Collection and amplify module, for amplifying heart rate signal;

The outfan of Signal Collection and amplify module connects signal processing module, for exporting heart rate signal to signal processing module;

Signal processing module connects transceiver module, for heart rate signal is processed into heart rate data, and to transceiver module output heart rate data;

Main control module connects transceiver module, for controlling the transmission of heart rate data;

Main control module is also subscriber-coded for arranging, to distinguish the heart rate data of different user;

Main control module also connects signal processing module, the storage of the heart rate data of exporting for control signal processing module;

Memory module connects main control module, for storing heart rate data;

Transceiver module is for sending heart rate data to wireless transceiver.

When transceiver module and wireless transceiver disconnection, main control module is inputted memory module by heart rate data.When transceiver module is connected with wireless transceiver, main control module sends to wireless transceiver by the heart rate data of memory module storage and instant heart rate data by transceiver module.

Preferably, transceiver module is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement.

Preferably, the first radio receiving transmitting module is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement; The second radio receiving transmitting module is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement.

The 3rd transceiver module comprises at least one in WIFI module and wire transmission module.

Datatron comprises processing host, and processing host connects the wire transmission module of wireless transceiver by data wire, the heart rate data sending for receiving wireless transceiver.

Datatron also comprises the wireless router being connected with processing host, and wireless router is WIFI router, the heart rate data that WIFI router sends for receiving the WIFI module of wireless transceiver.

The advantage of the embodiment of the present invention is:

This wireless heart rate monitoring system can be used a plurality of wireless transceivers to carry out relay forwarding, and monitoring range is large;

Each wireless heart rate device all has coding separately, can not cause the heart rate data of the collection chaotic problem of conflicting;

When user is outside monitoring range, wireless heart rate device storage user's heart rate data, in the time of in coming back to monitoring range, wireless heart rate device is not only uploaded instant heart rate data, also upload the heart rate data of storage simultaneously, can not cause the loss of heart rate data, guarantee the integrity of the heart rate data that user gathers.

Accompanying drawing explanation

Fig. 1 is embodiment of the present invention wireless heart rate monitoring system structural representation;

Fig. 2 is embodiment of the present invention wireless transceiver configuration schematic diagram;

Fig. 3 is embodiment of the present invention wireless heart rate pectoral girdle structural representation;

Fig. 4 is embodiment of the present invention wireless heart rate pectoral girdle circuit module schematic diagram;

Fig. 5 is embodiment of the present invention processor structure schematic diagram.

The specific embodiment

The embodiment of the present invention provides a kind of wireless heart rate monitoring system, is below elaborated.

As shown in Figure 1, a kind of wireless heart rate monitoring system, comprises wireless heart rate device 101, wireless transceiver 102 and datatron 103.Wireless heart rate device 101 connects datatron 103 by wireless transceiver 102, for gathering and storage heart rate data, and sends heart rate data to wireless transceiver 102.Wireless transceiver 102 connects datatron 103, for sending heart rate data to datatron 103.Datatron 103 receives and analyzes heart rate data by wireless transceiver 102.

As shown in Figure 2, wireless transceiver 102 comprises control module 201, the first radio receiving transmitting module 202, the second radio receiving transmitting module 203 and the 3rd transceiver module 204 that are connected with control module 201, the first 202 of radio receiving transmitting modules are for receiving instant heart rate data, the second radio receiving transmitting module 203 is for receiving the heart rate data of storage, the 3rd transceiver module 204 is for sending heart rate data to datatron, and this heart rate data comprises the instant heart rate data of the first radio receiving transmitting module 202 receptions and the heart rate data of the storage that the second radio receiving transmitting module 203 receives.The 3rd transceiver module 204 comprises at least one in WIFI module and wire transmission module, and wire transmission module can be serial data transmission module.

Below wireless heart rate device is described in detail.

As shown in Figure 3, wireless heart rate device comprises: pectoral girdle 301, be located at main frame 302 and electrode on pectoral girdle 301, electrode comprises the first electrode 303 and the second electrode 304, electrode is close to user's chest, for gathering user's heartbeat, produce fine potential change signal, for gathering heart rate signal.This wireless heart rate device may also be referred to as wireless heart rate pectoral girdle.

As shown in Figure 4, main frame comprises: Signal Collection and amplify module 402, signal processing module 403, main control module 404, memory module 405 and transceiver module 406.

The input connection electrode 401 of Signal Collection and amplify module 402, for amplifying heart rate signal; The outfan of Signal Collection and amplify module 402 connects signal processing module 403, for exporting heart rate signals to signal processing module 403; Signal processing module 403 connects transceiver module 406, and for heart rate signal is processed into heart rate data, and to transceiver module 406 these heart rate datas of output, this heart rate data is digital signal.

Main control module 404 connects transceiver module 406, for controlling the transmission of heart rate data; Main control module 404 is also subscriber-coded for arranging, to distinguish the heart rate data of different user; Concrete, can be by independently subscriber-coded to main control module burning, make heart rate data that each wireless heart rate device uploads to wireless transceiver all with subscriber-coded information, avoid each heart rate data conflict.Main control module 404 also connects signal processing module 403, the storage of the heart rate data of exporting for control signal processing module 403.

Memory module 405 connects main control module 404, for storing heart rate data.

Transceiver module 406 is for sending heart rate data to wireless transceiver.

When transceiver module 406 and wireless transceiver disconnection, main control module 404 control signal processing modules 403, input memory module 405 by heart rate data.When transceiver module 406 is connected with wireless transceiver, main control module 404 sends to wireless transceiver by the heart rate data of instant heart rate data and memory module 405 storages by transceiver module 406.

Below introduce in detail datatron.

Datatron comprises processing host, and processing host connects the 3rd transceiver module of wireless transceiver by data wire, and the 3rd transceiver module is wire transmission module, the heart rate data that this processing host sends for receiving wireless transceiver.For example, processing host is by serial data bus (USB, Universal Serial Bus) connect the 3rd transceiver module of wireless transceiver, the 3rd transceiver module can be serial data transmission module, and processing host receives the heart rate data of wireless transceiver by USB line.

Preferably, transceiver module 406 is the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement.Accordingly, the first radio receiving transmitting module in wireless transceiver is the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement; The second radio receiving transmitting module is the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement.

Below in conjunction with application example, the present invention will be further described.

If wear the signal transmitting and receiving scope that the user of wireless heart rate pectoral girdle leaves wireless transceiver, the first radio receiving transmitting module in transceiver module in wireless heart rate pectoral girdle and wireless transceiver and the second radio receiving transmitting module disconnection, the main frame of wireless heart rate pectoral girdle is stored in the instant heart rate data now gathering in memory module.When user comes back to the signal transmitting and receiving scope of wireless transceiver, the transceiver module of wireless heart rate pectoral girdle and wireless transceiver the first radio receiving transmitting module re-establish and be connected with the second radio receiving transmitting module, the main frame of wireless heart rate pectoral girdle directly sends to wireless transceiver the first radio receiving transmitting module by the instant heart rate data gathering, meanwhile, also the heart rate data of storing in memory module is sent to wireless transceiver the second radio receiving transmitting module.Because wireless transceiver has two radio receiving transmitting modules, can receive at one time fast the heart rate data of instant heart rate data and storage.The heart rate data that wireless transceiver receives is input to by usb data line in the processing host of datatron, and processing host receives and analyze heart rate data.

Wireless heart rate pectoral girdle in wireless heart rate monitoring system of the present invention has the function of storage heart rate data, this is that existing wireless heart rate monitoring system is not available, it guaranteed the heart rate data that gathers all can completely preserve, can be transferred to timely datatron analyzing and processing simultaneously, avoid leaving because of user the network monitoring range of monitoring system, cause the heart rate data of collection to lose.

Due to being limited in scope that the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement covers, in large-area application places, single wireless transceiver can not completely cover, and at this moment can adopt a plurality of wireless transceivers, and these wireless transceivers contain WIFI module.

Preferably, the first radio receiving transmitting module is the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement;

Preferably, the second radio receiving transmitting module is the radio-frequency (RF) receiving and transmission module of the 2.4GHz frequency based on ANT+ agreement;

Preferably, the 3rd radio receiving transmitting module is WIFI module.

As shown in Figure 5, datatron comprises processing host 501 and the wireless router 502 being connected with processing host, and wireless router 502 is WIFI router, the heart rate data that WIFI router sends for receiving the WIFI module of described wireless transceiver.

The present embodiment is by the 3rd radio receiving transmitting module in wireless transceiver, and WIFI module, connects with the WIFI router in datatron, and transmit the heart rate data that wireless transceiver receives.Datatron, by WIFI router, obtains the heart rate data of all users in monitoring range.

Obviously, wireless heart rate monitoring system of the present invention can expand by a plurality of wireless transceivers are set the regional extent of monitoring.

Transceiver module in above wireless heart rate pectoral girdle main frame can also be bluetooth module.Accordingly, the first radio receiving transmitting module in wireless transceiver is bluetooth module, and the second radio receiving transmitting module is bluetooth module.Other parts of system can, referring to the explanation of above-described embodiment, repeat no more here.

The receiving terminal in order to meet with the radio frequency reception function based on 5.3KHz frequency also can obtain heart rate data from wireless heart rate pectoral girdle, wireless heart rate pectoral girdle can increase the radio receiving transmitting module based on 5.3KHz frequency, should can connect signal processing module by the radio receiving transmitting module based on 5.3KHz frequency, receive the heart rate data of signal processing module output.For example, the wireless heart rate pectoral girdle having based on 5.3KHz frequency radio-frequency enabled can be connected use with mobile phone, wrist-watch, MP3, MP4 and the body-building apparatus etc. with this 5.3KHz frequency radio-frequency enabled.

Datatron in the present invention, after obtaining user's heart rate data, can pass through analysis software user's health status, forms user's statement-of-health, then by the Internet network, statement-of-health is sent to user's E-mail address.Certainly user also can log on system, checks the health and fitness information of oneself.Processing host can also be installed related software, by display device, shows user's heart rate, consumes calorie, maximum heart rate percentage ratio, movement time, and the interactive match of user movement integration, rank etc. are set.

Wireless heart rate pectoral girdle in the present invention is simple in structure, be applicable to very much wearing of body-building personnel, and system ovelay range of the present invention is large, can be located in gymnasium, can hold many people uses simultaneously, the giant-screen that user can be connected by datatron with coach is seen user's heart rate data, the at any time changes in heart rate of monitor user '.

A kind of the wireless heart rate monitoring system above embodiment of the present invention being provided is described in detail, applied specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment is just for helping to understand system of the present invention and core concept thereof; , for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention meanwhile.

Claims (6)

1. a wireless heart rate monitoring system, is characterized in that: comprise wireless heart rate device, wireless transceiver and datatron;

Described wireless heart rate device connects datatron by wireless transceiver;

Described wireless heart rate device is for collection and store heart rate data, and sends heart rate data to described wireless transceiver;

Described wireless transceiver connects described datatron, for sending heart rate data to described datatron;

Described wireless transceiver comprises control module, the first radio receiving transmitting module being connected with control module, the second radio receiving transmitting module and the 3rd transceiver module, described the first radio receiving transmitting module is used for receiving instant heart rate data, described the second radio receiving transmitting module is for receiving the heart rate data of storage, and described the 3rd transceiver module is for sending heart rate data to described datatron;

Described datatron receives and analyzes heart rate data;

Described wireless heart rate device comprises: pectoral girdle, be located at main frame and electrode on pectoral girdle, described wireless heart rate device is wireless heart rate breast band;

Described main frame comprises:

The transceiver module of Signal Collection and amplify module, signal processing module, main control module, memory module and described main frame;

The input of described Signal Collection and amplify module connects described electrode, for amplifying heart rate signal;

The outfan of described Signal Collection and amplify module connects described signal processing module, for exporting heart rate signal to described signal processing module;

Described signal processing module connects the transceiver module of described main frame, for heart rate signal is processed into heart rate data, and exports heart rate data to the transceiver module of described main frame;

Described main control module connects the transceiver module of described main frame, for controlling the transmission of heart rate data;

Described main control module is also subscriber-coded for arranging, to distinguish the heart rate data of different user;

Described main control module also connects described signal processing module, for controlling the storage of the heart rate data of described signal processing module output;

Described memory module connects described main control module, for storing heart rate data;

The transceiver module of described main frame is for sending heart rate data to described wireless transceiver;

When the transceiver module of described main frame and described wireless transceiver disconnection, described main control module is inputted memory module by heart rate data; When the transceiver module of described main frame is connected with described wireless transceiver, the heart rate data that described main control module is stored described memory module and instant heart rate data send to described wireless transceiver by the transceiver module of described main frame.

2. a kind of wireless heart rate monitoring system according to claim 1, is characterized in that, the transceiver module of described main frame is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement.

3. a kind of wireless heart rate monitoring system according to claim 1, is characterized in that, described the first radio receiving transmitting module is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement; Described the second radio receiving transmitting module is radio-frequency (RF) receiving and transmission module or the bluetooth module of the 2.4GHz frequency based on ANT+ agreement.

4. a kind of wireless heart rate monitoring system according to claim 1, is characterized in that, described the 3rd transceiver module comprises at least one in WIFI module and wire transmission module.

5. according to a kind of wireless heart rate monitoring system described in claim 1 to 4 any one, it is characterized in that, described datatron comprises processing host, and described processing host connects the wire transmission module of described wireless transceiver by data wire, the heart rate data sending for receiving described wireless transceiver.

6. a kind of wireless heart rate monitoring system according to claim 5, it is characterized in that, described datatron also comprises the wireless router being connected with processing host, described wireless router is WIFI router, the heart rate data that described WIFI router sends for receiving the WIFI module of described wireless transceiver.

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