CN105769137A - Wireless transmission pulse-taking method and system - Google Patents

Abstract

The invention discloses a wireless transmission pulse-taking method and system which are suitable for a pulse-taking instrument. The method comprises the steps that firstly, a connection request instruction sent by an intelligent device is received, and wireless connection with the intelligent device is established; secondly, when a collection starting instruction sent by the intelligent device is received, first feedback information is sent to the intelligent device, and collection operation begins to be executed; thirdly, pulse information of a user is collected, and the collected pulse information is sent to the intelligent device; fourthly, when a collection stopping instruction sent by the intelligent device is received, second feedback information is sent to the intelligent device, and collection operation is stopped; fifthly, the intelligent device saves and analyzes the pulse information, and a pulse graph is obtained. By means of the technical scheme, the method and the system have the advantages that the pulse-taking instrument is small in size and convenient to carry, the pulse-taking instrument is connected with the intelligent device in a wireless mode, operation is easy, and the pulse graph of the user to be detected is displayed through a display screen of the intelligent device visually and is beneficial for follow-up analysis.

Description

A kind of pulse-taking method and system being wirelessly transferred

Technical field

The present invention relates to pulse-taking method, particularly relate to a kind of pulse-taking method and system being wirelessly transferred.

Background technology

Along with development and the multi-disciplinary cross-synthesis of modern science and technology use, particularly biomechanics, physical mechanics, biotechnology, computer science etc. merge with the continuous of Chinese medicine modernization, and the application of pulse-taking instrument is more and more extensive.

Traditional Chinese pulse-diagnosis instrument is based on theory of Chinese medical science, analyzes a kind of instrument of human body entirety physiological and pathological information by gathering the information of beat pulse.Sensor, as the core component of pulse-taking instrument, namely simulates the feeling the pulse of Chinese physician, converts pulse feeling pressure and pulse pulsatile pressure to can be convenient for measuring physical quantity, in order to the pulse information recorded is analyzed and researched further.

At present, existing pulse-tracing collection equipment not only volume is relatively big, and inconvenient to carry.Pulse-tracing collection equipment mainly uses wired mode, namely connects computer by the connecting line such as USB and carries out data acquisition and transmission and data analysis further.But, wired mode can be subject to the restriction of the environment such as place, if data wire breaks down, then can directly affect the effectiveness of pulse-tracing collection.

Summary of the invention

For the problems referred to above that existing technology exists, now provide the technical scheme of a kind of pulse-taking method and system being wirelessly transferred, specific as follows:

A kind of pulse-taking method being wirelessly transferred, it is adaptable to pulse-taking instrument, wherein, including:

Step S1, described pulse-taking instrument receives the connection request instruction of smart machine transmission and sets up wireless connections with described smart machine；

Step S2, when receiving the startup acquisition instructions that described smart machine sends, described pulse-taking instrument sends the first feedback information to described smart machine, and starts to perform acquisition operations；

Step S3, the pulse information of user is acquired by described pulse-taking instrument, and sends the described pulse information collected to described smart machine；

Step S4, when receiving the stopping acquisition instructions that described smart machine sends, described pulse-taking instrument sends the second feedback information to described smart machine, and stops described acquisition operations；

Step S5, described smart machine preserves and analyzes described pulse information, obtains the arteries and veins figure that described pulse information is corresponding.

Preferably, in described pulse-taking instrument, a predetermined threshold value is set:

The method that then electricity of described pulse-taking instrument is monitored by described smart machine specifically includes:

Step B1, sets up wireless connections between described smart machine and described pulse-taking instrument；

Step B2, described pulse-taking instrument continues to monitor battery electric quantity, and sends one the 3rd feedback information when described battery electric quantity is lower than described predetermined threshold value to described smart machine；

Step B3, when receiving described three feedback information, described smart machine prompting user be charged the battery of described pulse-taking instrument or change the battery of described pulse-taking instrument.

Preferably, the described wireless connections set up between described pulse-taking instrument with described smart machine are that bluetooth is connected.

A kind of pulse-taking system being wirelessly transferred, wherein, described pulse-taking system includes:

Link block, for receiving the connection request instruction of smart machine transmission and setting up wireless connections with described smart machine；

First feedback module, for when receiving the startup acquisition instructions that described smart machine sends, sending the first feedback information to described smart machine, and start to perform acquisition operations；

Acquisition module, for the pulse information of user is acquired, and sends the described pulse information collected to described smart machine；

Second feedback module, for when receiving the stopping acquisition instructions that described smart machine sends, sending the second feedback information to described smart machine, and stop described acquisition operations；

First communication module, connect described link block, described first feedback module, described acquisition module and described second feedback module, for receiving described connection request instruction, described startup acquisition instructions and the described stopping acquisition instructions that described smart machine sends, and send described first feedback information and described second feedback information to described smart machine.

Preferably, described pulse-taking system also includes:

Electric power detection module, connects described first communication module, for continuing to monitor battery electric quantity, and sends one the 3rd feedback information when described battery electric quantity is lower than described predetermined threshold value to described smart machine.

Preferably, described pulse-taking system also includes described smart machine, and described smart machine includes:

Second communication module, connect described first communication module, for sending described connection request instruction, described startup acquisition instructions and described stopping acquisition instructions to described first communication module, and receive described first feedback information and described second feedback information that described first communication module sends.

Pulse-taking application module, connects described second communication module, is used for preserving and analyze described pulse information, obtains the arteries and veins figure that described pulse information is corresponding.

Preferably, described smart machine also includes:

Reminding module, connects described second communication module, and for when receiving described three feedback information, the battery of described pulse-taking instrument is charged or changes the battery of described pulse-taking instrument by prompting user.

The beneficial effect of technique scheme: providing a kind of pulse-taking method and system being wirelessly transferred, pulse-taking instrument build is small and exquisite, easy to carry, smart machine is connected by radio connection, simple to operate, the pulse chart of detected person is shown by the display screen of smart machine, directly perceived and be easy to subsequent analysis.

Accompanying drawing explanation

Fig. 1 is in the preferred embodiment of the present invention, a kind of pulse-taking method flow schematic diagram being wirelessly transferred；

Fig. 2 is in the preferred embodiment of the present invention, on the basis of Fig. 1, and the schematic flow sheet step by step of a kind of pulse-taking method being wirelessly transferred；

Fig. 3 is in the preferred embodiment of the present invention, a kind of pulse-taking system structure schematic diagram being wirelessly transferred.

In accompanying drawing: 1. the pulse-taking system being wirelessly transferred；2. pulse-taking instrument；21. link block；22. the first feedback module；23. acquisition module；24. the second feedback module；25. electric power detection module；26. first communication module；3. smart machine；31. second communication module；32. pulse-taking application module；33. reminding module

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the premise not making creative work, broadly fall into the scope of protection of the invention.

It should be noted that when not conflicting, the embodiment in the present invention and the feature in embodiment can be mutually combined.

Below in conjunction with the drawings and specific embodiments, the invention will be further described, but not as limiting to the invention.

In the preferred embodiment of the present invention, based on the above-mentioned problems in the prior art, it is provided that a kind of pulse-taking method being wirelessly transferred, it is adaptable to pulse-taking instrument 2, its flow process such as Fig. 1, specifically include:

A kind of pulse-taking method being wirelessly transferred, it is adaptable to pulse-taking instrument 2, wherein, including:

Step S1, pulse-taking instrument 2 receives the connection request instruction of smart machine 3 transmission and sets up wireless connections with smart machine 3；

Step S2, when receiving the startup acquisition instructions that smart machine 3 sends, pulse-taking instrument 2 sends the first feedback information to smart machine 3, and starts to perform acquisition operations；

Step S3, the pulse information of user is acquired by pulse-taking instrument 2, and sends the pulse information collected to smart machine 3；

Step S4, when receiving the stopping acquisition instructions that smart machine 3 sends, pulse-taking instrument 2 sends the second feedback information to smart machine 3, and stops acquisition operations；

Step S5, smart machine 3 preserves and analyzes pulse information, obtains the arteries and veins figure that pulse information is corresponding.

In above-mentioned preferred embodiment, first, send connection request instruction by smart machine 3 to pulse-taking instrument 2, set up wireless connections when pulse-taking instrument 2 receives with smart machine 3；Then, send startup acquisition instructions by smart machine 3 to pulse-taking instrument 2, send when pulse-taking instrument 2 receives and send the first feedback information to smart machine 3, and start acquisition operations；Subsequently, by pulse-taking instrument 2, the pulse information of user is acquired, and the pulse information collected is sent to smart machine 3；Finally, send stopping acquisition instructions by smart machine 3 to pulse-taking instrument 2, send the second feedback information when pulse-taking instrument 2 receives to smart machine 3, and stop acquisition operations.

In the preferred embodiment of the present invention, in pulse-taking instrument 2, set a predetermined threshold value:

The method that then electricity of pulse-taking instrument 2 is monitored by smart machine 3 specifically includes:

Step B1, sets up wireless connections between smart machine 3 and pulse-taking instrument 3；

Step B2, pulse-taking instrument 3 continues to monitor battery electric quantity, and sends one the 3rd feedback information when battery electric quantity is lower than predetermined threshold value to smart machine 3；

Step B3, when receiving three feedback informations, smart machine 3 is pointed out user that the battery of pulse-taking instrument 2 is charged or changes the battery of pulse-taking instrument 2.

In above-mentioned preferred embodiment, first, it is determined that between pulse-taking instrument 2 and smart machine 3, have built up wireless connections；It is then detected that the battery electric quantity of pulse-taking instrument 2, and judge that whether battery electric quantity is lower than predetermined threshold value, if battery electric quantity is lower than predetermined threshold value, then send the 3rd feedback information to smart machine 3, inform that the electricity of smart machine 3 now pulse-taking instrument 2 is not enough；Finally, when smart machine 3 receives three feedback informations, pulse-taking instrument 2 is charged or changes battery by prompting user.

In the preferred embodiment of the present invention, the wireless connections set up between pulse-taking instrument 2 with smart machine 3 are that bluetooth is connected.Bluetooth can realize the short-range data exchange between pulse-taking instrument 2 and smart machine 3.

A kind of pulse-taking system 1 being wirelessly transferred, wherein, pulse-taking system 1 includes:

Link block 21, for receiving the connection request instruction of smart machine 3 transmission and setting up wireless connections with smart machine 3；

First feedback module 22, for when receiving the startup acquisition instructions that smart machine 3 sends, sending the first feedback information to smart machine 3, and start to perform acquisition operations；

Acquisition module 23, for the pulse information of user is acquired, and sends the pulse information collected to smart machine 3；

Second feedback module 24, for when receiving the stopping acquisition instructions that smart machine 3 sends, sending the second feedback information to smart machine 3, and stop acquisition operations；

First communication module 26, it is connected to link block the 21, first feedback module 22, acquisition module 23 and the second feedback module 24, for receiving connection request instruction, startup acquisition instructions and the stopping acquisition instructions that smart machine 3 sends, and send the first feedback information and the second feedback information to smart machine 3.

In the preferred embodiment of the present invention, pulse-taking system 1 also includes:

Electric power detection module 25, connects first communication module 26, for continuing to monitor battery electric quantity, and sends one the 3rd feedback information when battery electric quantity is lower than predetermined threshold value to smart machine 3.

In the preferred embodiment of the present invention, pulse-taking system 1 also includes smart machine 3, and smart machine 3 includes:

Second communication module 31, connects first communication module 26, for sending connection request instruction to first communication module 26, start acquisition instructions and stopping acquisition instructions, and receives the first feedback information and the second feedback information that first communication module 26 sends.

Pulse-taking application module 32, connects second communication module 31, is used for preserving and analyzing pulse information, obtains the arteries and veins figure that pulse information is corresponding.

In the preferred embodiment of the present invention, smart machine 3 also includes:

Reminding module 33, connects second communication module 31, and for when receiving three feedback informations, the battery of pulse-taking instrument 2 is charged or changes the battery of pulse-taking instrument 2 by prompting user.

Pulse-taking instrument 2 is being set up after bluetooth is connected with smart machine 3, will provide for a Communication Service Interface, UUID (the UniversallyUniqueIdentifier of this communication service, general unique identifier) for 0xFF70, this service also includes the eigenvalue that two names are called CMD and DATA, wherein, the UUID of CMD is the UUID of 0xFF71, DATA is 0xFF72.Eigenvalue CMD, for only to write attribute, is used for receiving startup acquisition instructions and stopping acquisition instructions, thus carrying out starting acquisition operations and stopping acquisition operations, starting acquisition instructions is 0x20,0x32 and 0x00, and stopping acquisition instructions is 0x20,0x33 and 0x00；Eigenvalue DATA is notification properties, and for sending the first feedback information to smart machine 3, the second feedback information and pulse information, the first feedback information is 0x20 and 0x32, and the second feedback information is 0x20 and 0x33.It is the service of 0x18F0 that pulse-taking instrument also will provide for a UUID, the interface of its offer one reading battery electric quantity, and includes the eigenvalue of a BATT by name, and the UUID of BATT is 0x2A19.BATT is provided simultaneously with read only attribute and notification properties, for sending the 3rd feedback information to smart machine 3,3rd feedback information is the current voltage value of battery, magnitude of voltage represents with the form of percentage ratio, such as specify to be expressed as 100% more than 3.0V, it is expressed as 0%, then 2.85V is then expressed as 85% less than 2.0V.

The foregoing is only preferred embodiment of the present invention; not thereby restriction embodiments of the present invention and protection domain; to those skilled in the art; the equivalent replacement done by all utilizations description of the present invention and diagramatic content and the obtained scheme of apparent change should be can appreciate that, all should be included in protection scope of the present invention.

Claims (7)

1. the pulse-taking method that a kind is wirelessly transferred, it is adaptable to pulse-taking instrument, it is characterised in that including:

Step S1, described pulse-taking instrument receives the connection request instruction of smart machine transmission and sets up wireless connections with described smart machine；

Step S2, when receiving the startup acquisition instructions that described smart machine sends, described pulse-taking instrument sends the first feedback information to described smart machine, and starts to perform acquisition operations；

Step S3, the pulse information of user is acquired by described pulse-taking instrument, and sends the described pulse information collected to described smart machine；

Step S4, when receiving the stopping acquisition instructions that described smart machine sends, described pulse-taking instrument sends the second feedback information to described smart machine, and stops described acquisition operations；

Step S5, described smart machine preserves and analyzes described pulse information, obtains the arteries and veins figure that described pulse information is corresponding.

2. pulse-taking method as claimed in claim 1, it is characterised in that set a predetermined threshold value in described pulse-taking instrument:

The method that then electricity of described pulse-taking instrument is monitored by described smart machine specifically includes:

Step B1, sets up wireless connections between described smart machine and described pulse-taking instrument；

Step B2, described pulse-taking instrument continues to monitor battery electric quantity, and sends one the 3rd feedback information when described battery electric quantity is lower than described predetermined threshold value to described smart machine；

Step B3, when receiving described three feedback information, described smart machine prompting user be charged the battery of described pulse-taking instrument or change the battery of described pulse-taking instrument.

3. pulse-taking method as claimed in claim 1, it is characterised in that the described wireless connections set up between described pulse-taking instrument with described smart machine are that bluetooth is connected.

4. the pulse-taking system that a kind is wirelessly transferred, it is characterised in that described pulse-taking system includes:

Link block, for receiving the connection request instruction of smart machine transmission and setting up wireless connections with described smart machine；

First feedback module, for when receiving the startup acquisition instructions that described smart machine sends, sending the first feedback information to described smart machine, and start to perform acquisition operations；

Acquisition module, for the pulse information of user is acquired, and sends the described pulse information collected to described smart machine；

Second feedback module, for when receiving the stopping acquisition instructions that described smart machine sends, sending the second feedback information to described smart machine, and stop described acquisition operations；

First communication module, connect described link block, described first feedback module, described acquisition module and described second feedback module, for receiving described connection request instruction, described startup acquisition instructions and the described stopping acquisition instructions that described smart machine sends, and send described first feedback information and described second feedback information to described smart machine.

5. pulse-taking system as claimed in claim 4, it is characterised in that described pulse-taking system also includes:

Electric power detection module, connects described first communication module, for continuing to monitor battery electric quantity, and sends one the 3rd feedback information when described battery electric quantity is lower than described predetermined threshold value to described smart machine.

6. pulse-taking system as claimed in claim 4, it is characterised in that described pulse-taking system also includes described smart machine, and described smart machine includes:

Second communication module, connect described first communication module, for sending described connection request instruction, described startup acquisition instructions and described stopping acquisition instructions to described first communication module, and receive described first feedback information and described second feedback information that described first communication module sends.

Pulse-taking application module, connects described second communication module, is used for preserving and analyze described pulse information, obtains the arteries and veins figure that described pulse information is corresponding.

7. pulse-taking system as claimed in claim 6, it is characterised in that described smart machine also includes:

Reminding module, connects described second communication module, and for when receiving described three feedback information, the battery of described pulse-taking instrument is charged or changes the battery of described pulse-taking instrument by prompting user.