CN105796098A - Wearable device and method for measuring muscle action potential - Google Patents

Abstract

The invention discloses a wearable device for measuring muscle action potential. The wearable device comprises a measurement module, a processing module and a display module, wherein the measurement module is used for measuring the muscle action potential of a user through at least two measuring points on the wearable device, the processing module is used for generating an electromyogram according to the measured muscle action potential of the user, the display module is used for displaying the electromyogram on a screen of the wearable device, and thus the user can know the own physical condition. The invention further discloses a method for measuring the muscle action potential. The user can know the own muscle changing situation through the wearable device, know whether own muscles, nerves and the like are in a normal state or not through the measured electromyogram, and better know the own physical condition.

Description

Measure wearable device and the method thereof of muscle action potential

Technical field

The present invention relates to technical field of intelligent equipment, particularly relate to a kind of wearable device measuring muscle action potential and method thereof.

Background technology

Electromyogram is that applying electronic instrument record muscle is static or electrical activity when shrinking, and electrical stimulation check neural, muscle excited and the method for conduction function.If user wants to carry out electromyography it is necessary to go to hospital, and, the multiplex needle electrode of electromyography of hospital and electrical stimulation technology, checking process has certain misery and damage, therefore, unless necessary, can not be abused this and check.Therefore, user can not understand the situation of self muscle, nerve etc. in daily life by electromyogram.

Summary of the invention

Present invention is primarily targeted at a kind of wearable device measuring muscle action potential of offer and method thereof, it is intended to realize being measured by wearable device the muscle action potential of user, it is thus achieved that corresponding electromyogram, allow user be best understood from the health of self.

For achieving the above object, a kind of wearable device measuring muscle action potential provided by the invention, this wearable device includes:

Measurement module, for being measured the muscle action potential of user by the test point on described wearable device, wherein, described test point at least two；

Processing module, generates electromyogram for the muscle action potential according to measured user；

Display module, for showing described electromyogram on the screen of described wearable device, understands the health of self for user.

Preferably, described processing module includes:

First processing unit, for determining the functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself according to measured muscle action potential；

Second processing unit, generates electromyogram for the functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself.

Preferably, described processing module also includes:

Contrast unit, for contrasting measured muscle action potential with the safe muscle action potential prestored；

3rd processing unit, if for measured muscle action potential not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

Preferably, the wearable device of described measurement muscle action potential also includes:

Output module, if being additionally operable to measured muscle action potential within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, exports information, to point out wearable device user.

Preferably, the wearable device of described measurement muscle action potential also includes:

Analysis module, for analyzing muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and exports described strategy and/or described strategy is sent to described mobile terminal.

Additionally, for achieving the above object, the present invention also provides for a kind of method measuring muscle action potential, and described method includes:

The muscle action potential of user is measured by the test point on wearable device, wherein, described test point at least two；

Muscle action potential according to measured user generates electromyogram；

The screen of described wearable device shows described electromyogram, understands the health of self for user.

Preferably, the Electromyographic step of muscle action potential generation of the user measured by described basis includes:

The functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself is determined according to measured muscle action potential；

Functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself generates electromyogram.

Preferably, the Electromyographic step of muscle action potential generation of the user measured by described basis includes:

Measured muscle action potential is contrasted with the safe muscle action potential prestored；

If measured muscle action potential is not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

Preferably, described measured muscle action potential and the safe muscle action potential prestored are carried out the step contrasted after, also include:

If measured muscle action potential is within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, export information, to point out wearable device user.

Preferably, if described measured muscle action potential is within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, export information, with point out wearable device user step after, also include:

Analyze muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and export described strategy and/or described strategy is sent to described mobile terminal.

The present invention measures the muscle action potential of user by the measurement module in wearable device, by processing module, measured muscle action potential is processed, obtain the electromyogram of correspondence, and by display module by electromyography showed on the screen of wearable device, understand the health of self for user.Achieve user and can pass through the situation of change of wearable device self muscle of understanding, recognize whether the muscle of oneself, nerve etc. are in normal condition by measured electromyogram, allow user be best understood from the health of self.

Accompanying drawing explanation

Fig. 1 is the high-level schematic functional block diagram that the present invention measures the preferred embodiment of the wearable device of muscle action potential；

Fig. 2 is the first refinement high-level schematic functional block diagram of processing module in the embodiment of the present invention；

Fig. 3 is the second refinement high-level schematic functional block diagram of processing module in the embodiment of the present invention；

Fig. 4 is the schematic flow sheet that the present invention measures the method first embodiment of muscle action potential；

Fig. 5 is the Electromyographic a kind of schematic flow sheet of muscle action potential generation in the embodiment of the present invention according to measured user；

Fig. 6 is the schematic flow sheet that the present invention measures the second embodiment of the method for muscle action potential.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

The present invention provides a kind of wearable device measuring muscle action potential.

It is the high-level schematic functional block diagram that the present invention measures the preferred embodiment of the wearable device of muscle action potential with reference to Fig. 1, Fig. 1.

In the present embodiment, the wearable device of described measurement muscle action potential includes:

Measurement module 10, for being measured the muscle action potential of user by the test point on described wearable device, wherein, described test point at least two；

For improving Consumer's Experience and detecting the situation of user's muscle in real time, the present invention is applied in wearable device, when being embodied as, it is also possible to be applied in other equipment according to core concept of the present invention.

Described wearable device is provided with at least two test point, each test point is both provided with an electrode slice.In the present embodiment, the number of the test point on described wearable device is two.When described wearable device is worn by user, the loop formed between two test points on described wearable device, two test points on described wearable device measure the muscle action potential between two test points.Described action potential refers to the potential change process of the expanded cloth produced on the basis of resting potential when excitable cell is upset.Described action potential is made up of spike potential (general name of immediate depolarization upstroke and rapid repolarization decent) and after-potential (potential change slowly, including negative after-potential and positive after potential).

Muscle, under normal quiescent condition, is nagative potential in cell membrane, is positive potential outside film；During muscle contraction, permeability of cell membrane increases, and a large amount of cations are transferred in cell, are contrary potential state when making cell membrane inside and outside with tranquillization.Then shrinking and carry out generation potential difference between compressor fiber, well muscle fiber spreads, and the nagative potential of this diffusion is called action potential.

It should be noted that, the size of described wearable device can control, user can by as described in wearable device be worn on hand, it is also possible to being worn on foot by described wearable device or on neck, user can regulate the size of described wearable device as the case may be.

Processing module 20, generates electromyogram for the muscle action potential according to measured user；

Described wearable device has prestored human muscle's muscle action potential under different conditions, the muscle action potential of measured user is contrasted by described wearable device with the human muscle prestored muscle action potential under different conditions, generates corresponding electromyogram.

Further, reference Fig. 2, Fig. 2 is the first refinement high-level schematic functional block diagram of processing module in the embodiment of the present invention.

Described processing module 20 includes:

First processing unit 21, for determining the functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself according to measured muscle action potential；

Second processing unit 22, generates electromyogram for the functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself.

Described wearable device determines the functional status of muscle peripheral nerve, neuron, neuromuscular junction box muscle itself according to measured muscle action potential, and the functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself generates electromyogram.It should be noted that, described wearable device can pass through the change of the unit current potential of the muscle action potential of the user of measurement, and change when muscle contraction and expansion, determine whether muscle is affected by infringement, and determine the nerve around muscle, neuron, neuromuscular junction and muscle itself whether pathological changes etc..

Further, the people containing certain medical knowledge is needed to understand owing to electromyogram comprises information, so, described user can arrange described wearable device and generate two kinds of electromyograms, and the first is the electromyogram comprising information in greater detail, and the doctor that described electromyogram can be given specialty for described user checks, the second is fairly simple electromyogram, this electromyogram only can inform the user that whether measured muscle is healthy, if is in fatigue state etc., simply judges for user.

Display module 30, for showing described electromyogram on the screen of described wearable device, understands the health of self for user.

When described wearable device generates described electromyogram, described wearable device shows described electromyogram in its screen, understands the health of self according to described electromyogram for user.Further, described user can select to export the first electromyogram or output the second electromyogram.Described user can also be arranged when described wearable device generates described electromyogram, described electromyogram is sent to the mobile terminal being connected with described wearable device, checks described electromyogram for user in the terminal, and store described electromyogram.It should be noted that described mobile terminal includes but not limited to smart mobile phone, iPad etc..

The present embodiment measures the muscle action potential of user by wearable device, by measured muscle action potential is processed, obtains the electromyogram of correspondence, and by electromyography showed on the screen of wearable device, understands the health of self for user.Achieve user and can pass through the situation of change of wearable device self muscle of understanding, recognize whether the muscle of oneself, nerve etc. are in normal condition by measured electromyogram, allow user be best understood from the health of self.

With reference to the second refinement high-level schematic functional block diagram that Fig. 3, Fig. 3 are processing module in the embodiment of the present invention, based on first embodiment, the second embodiment that the present invention measures the wearable device of muscle action potential is proposed.

In the present embodiment, described processing module 20 also includes:

Contrast unit 23, for contrasting measured muscle action potential with the safe muscle action potential prestored；

3rd processing unit 24, if for measured muscle action potential not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

When described wearable device measures the muscle action potential of user, measured muscle action potential is contrasted by described wearable device with the safe muscle action potential prestored, judge that measured muscle action potential is whether within the scope of the safe muscle action potential prestored, described in the safe muscle action potential that prestores be the safe muscle movement prestored.If measured muscle action potential is not within the scope of the safe muscle action potential prestored, described wearable device then generates corresponding electromyogram according to the described not muscle action potential within the scope of the safe muscle action potential prestored, and checks muscle damaged condition, reason etc. for user according to described electromyogram.When the muscle action potential measured by described wearable device is not within the scope of the safe muscle action potential prestored, described wearable device sends a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user, the muscle measured by described wearable device is in unhealthy condition.When described mobile terminal receives the warning information that described wearable device sends, pointing out described mobile phone users with the prompting mode such as auditory tone cues or warning light, the muscle measured by described wearable device is in unhealthy condition.Further, described wearable device can also export described warning information, and to point out described wearable device user, the muscle measured by described wearable device is in unhealthy condition.When measured muscle movement is within the scope of the safe muscle action potential prestored, described wearable device does not send a warning message to described mobile terminal.

It should be noted that described wearable device user and described mobile phone users can be same user, it is also possible to for different users.When as described in wearable device user be old man time, it is possible to the mobile terminal that the children of described wearable device Yu this old man use is attached.When this old man is in an emergency, its children can know in time, and takes countermeasure, it is prevented that when emergency occurs in old man, it is impossible to find in time.

Further, the wearable device of described measurement muscle action potential also includes:

Output module, if being additionally operable to measured muscle action potential within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, exports information, to point out wearable device user.

Further, when described wearable device determines that measured muscle action potential is when the safe muscle action potential scope that it prestores, described wearable device judges that measured muscle action potential is whether within the scope of muscle fatigue action potential further.If measured muscle action potential is within the scope of muscle fatigue action potential, described wearable device generates corresponding electromyogram according to the muscle action potential within the scope of muscle fatigue action potential.When the muscle that described wearable device is measured is in fatigue state, described wearable device output information, to point out described wearable device user's muscle to be in fatigue state, it should suitably have a rest, to alleviate muscle fatigue state.Described wearable device is sent to described mobile terminal it is also possible that state information, with prompting mobile terminal user.

Further, the wearable device of described measurement muscle action potential also includes:

Analysis module, for analyzing muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and exports described strategy and/or described strategy is sent to described mobile terminal.

Further, when according to measured muscle action potential, described wearable device determines that described muscle is in fatigue state, described wearable device analyzes the reason of muscle fatigue, the strategy of the muscle fatigue that is eased according to the muscle action potential of described measurement.Wherein, in the data base of described wearable device, storage has the strategy of the alleviation muscle fatigue of different muscle fatigue degree.When described wearable device obtain described alleviation muscle fatigue tactful time, export the strategy of described alleviation muscle fatigue, and/or the strategy of described alleviation muscle fatigue is sent to described mobile terminal, in described wearable device and/or described mobile terminal, the strategy of described alleviation muscle fatigue is checked for user, operate accordingly according to described alleviation muscle fatigue strategy execution, alleviate the degree of fatigue of muscle.As carried out suitable rest, or carry out the degree of fatigue moved to alleviate muscle accordingly.

The present embodiment is by contrasting the muscle action potential measured by wearable device with the safe muscle action potential prestored, if when measured muscle action potential is not within the scope of the described safe muscle action potential prestored, send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user, achieve user and can understand the health of self in real time, understand whether muscle measured by wearable device is in normal condition, whether it is in fatigue state, if described muscle is in abnormal condition or is in fatigue state, output information.Further, if described muscle is in fatigue state, the also strategy of exportable alleviation muscle fatigue, the healthy of self is better maintained for user.

The present invention further provides a kind of method measuring muscle action potential.

It is the schematic flow sheet that the present invention measures the method first embodiment of muscle action potential with reference to Fig. 4, Fig. 4.

In the present embodiment, the method for described measurement muscle action potential includes:

Step S10, measures the muscle action potential of user by the test point on wearable device, wherein, and described test point at least two；

For improving Consumer's Experience and detecting the situation of user's muscle in real time, the present invention is applied in wearable device, when being embodied as, it is also possible to be applied in other equipment according to core concept of the present invention.

Described wearable device is provided with at least two test point, each test point is both provided with an electrode slice.In the present embodiment, the number of the test point on described wearable device is two.When described wearable device is worn by user, the loop formed between two test points on described wearable device, two test points on described wearable device measure the muscle action potential between two test points.Described action potential refers to the potential change process of the expanded cloth produced on the basis of resting potential when excitable cell is upset.Described action potential is made up of spike potential (general name of immediate depolarization upstroke and rapid repolarization decent) and after-potential (potential change slowly, including negative after-potential and positive after potential).

Muscle, under normal quiescent condition, is nagative potential in cell membrane, is positive potential outside film；During muscle contraction, permeability of cell membrane increases, and a large amount of cations are transferred in cell, are contrary potential state when making cell membrane inside and outside with tranquillization.Then shrinking and carry out generation potential difference between compressor fiber, well muscle fiber spreads, and the nagative potential of this diffusion is called action potential.

It should be noted that, the size of described wearable device can control, user can by as described in wearable device be worn on hand, it is also possible to being worn on foot by described wearable device or on neck, user can regulate the size of described wearable device as the case may be.

Step S20, generates electromyogram according to the muscle action potential of measured user；

Described wearable device has prestored human muscle's muscle action potential under different conditions, the muscle action potential of measured user is contrasted by described wearable device with the human muscle prestored muscle action potential under different conditions, generates corresponding electromyogram.

Further, reference Fig. 5, Fig. 5 is the Electromyographic a kind of schematic flow sheet of muscle action potential generation in the embodiment of the present invention according to measured user.

Step S21, determines the functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself according to measured muscle action potential；

Step S22, generates electromyogram according to the functional status of described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself.

Described wearable device determines the functional status of muscle peripheral nerve, neuron, neuromuscular junction box muscle itself according to measured muscle action potential, and the functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself generates electromyogram.It should be noted that, described wearable device can pass through the change of the unit current potential of the muscle action potential of the user of measurement, and change when muscle contraction and expansion, determine whether muscle is affected by infringement, and determine the nerve around muscle, neuron, neuromuscular junction and muscle itself whether pathological changes etc..

Further, the people containing certain medical knowledge is needed to understand owing to electromyogram comprises information, so, described user can arrange described wearable device and generate two kinds of electromyograms, and the first is the electromyogram comprising information in greater detail, and the doctor that described electromyogram can be given specialty for described user checks, the second is fairly simple electromyogram, this electromyogram only can inform the user that whether measured muscle is healthy, if is in fatigue state etc., simply judges for user.

Step S30, shows described electromyogram on the screen of described wearable device, understands the health of self for user.

When described wearable device generates described electromyogram, described wearable device shows described electromyogram in its screen, understands the health of self according to described electromyogram for user.Further, described user can select to export the first electromyogram or output the second electromyogram.Described user can also be arranged when described wearable device generates described electromyogram, described electromyogram is sent to the mobile terminal being connected with described wearable device, checks described electromyogram for user in the terminal, and store described electromyogram.It should be noted that described mobile terminal includes but not limited to smart mobile phone, iPad etc..

The present embodiment measures the muscle action potential of user by wearable device, by measured muscle action potential is processed, obtains the electromyogram of correspondence, and by electromyography showed on the screen of wearable device, understands the health of self for user.Achieve user and can pass through the situation of change of wearable device self muscle of understanding, recognize whether the muscle of oneself, nerve etc. are in normal condition by measured electromyogram, allow user be best understood from the health of self.

It is the schematic flow sheet that the present invention measures the second embodiment of the method for muscle action potential with reference to Fig. 6, Fig. 6, proposes, based on first embodiment, the second embodiment that the present invention measures the method for muscle action potential.

In the present embodiment, described step S20 also includes:

Step S23, contrasts measured muscle action potential with the safe muscle action potential prestored；

Step S24, if measured muscle action potential is not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

When described wearable device measures the muscle action potential of user, measured muscle action potential is contrasted by described wearable device with the safe muscle action potential prestored, judge that measured muscle action potential is whether within the scope of the safe muscle action potential prestored, described in the safe muscle action potential that prestores be the safe muscle movement prestored.If measured muscle action potential is not within the scope of the safe muscle action potential prestored, described wearable device then generates corresponding electromyogram according to the described not muscle action potential within the scope of the safe muscle action potential prestored, and checks muscle damaged condition, reason etc. for user according to described electromyogram.When the muscle action potential measured by described wearable device is not within the scope of the safe muscle action potential prestored, described wearable device sends a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user, the muscle measured by described wearable device is in unhealthy condition.When described mobile terminal receives the warning information that described wearable device sends, pointing out described mobile phone users with the prompting mode such as auditory tone cues or warning light, the muscle measured by described wearable device is in unhealthy condition.Further, described wearable device can also export described warning information, and to point out described wearable device user, the muscle measured by described wearable device is in unhealthy condition.When measured muscle movement is within the scope of the safe muscle action potential prestored, described wearable device does not send a warning message to described mobile terminal.

It should be noted that described wearable device user and described mobile phone users can be same user, it is also possible to for different users.When as described in wearable device user be old man time, it is possible to the mobile terminal that the children of described wearable device Yu this old man use is attached.When this old man is in an emergency, its children can know in time, and takes countermeasure, it is prevented that when emergency occurs in old man, it is impossible to find in time.

Further, the method for described measurement muscle action potential also includes:

If measured muscle action potential is within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, export information, to point out wearable device user.

Further, when described wearable device determines that measured muscle action potential is when the safe muscle action potential scope that it prestores, described wearable device judges that measured muscle action potential is whether within the scope of muscle fatigue action potential further.If measured muscle action potential is within the scope of muscle fatigue action potential, described wearable device generates corresponding electromyogram according to the muscle action potential within the scope of muscle fatigue action potential.When the muscle that described wearable device is measured is in fatigue state, described wearable device output information, to point out described wearable device user's muscle to be in fatigue state, it should suitably have a rest, to alleviate muscle fatigue state.Described wearable device is sent to described mobile terminal it is also possible that state information, with prompting mobile terminal user.

Further, the method for described measurement muscle action potential also includes:

Analyze muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and export described strategy and/or described strategy is sent to described mobile terminal.

Further, when according to measured muscle action potential, described wearable device determines that described muscle is in fatigue state, described wearable device analyzes the reason of muscle fatigue, the strategy of the muscle fatigue that is eased according to the muscle action potential of described measurement.Wherein, in the data base of described wearable device, storage has the strategy of the alleviation muscle fatigue of different muscle fatigue degree.When described wearable device obtain described alleviation muscle fatigue tactful time, export the strategy of described alleviation muscle fatigue, and/or the strategy of described alleviation muscle fatigue is sent to described mobile terminal, in described wearable device and/or described mobile terminal, the strategy of described alleviation muscle fatigue is checked for user, operate accordingly according to described alleviation muscle fatigue strategy execution, alleviate the degree of fatigue of muscle.As carried out suitable rest, or carry out the degree of fatigue moved to alleviate muscle accordingly.

The present embodiment is by contrasting the muscle action potential measured by wearable device with the safe muscle action potential prestored, if when measured muscle action potential is not within the scope of the described safe muscle action potential prestored, send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user, achieve user and can understand the health of self in real time, understand whether muscle measured by wearable device is in normal condition, whether it is in fatigue state, if described muscle is in abnormal condition or is in fatigue state, output information.Further, if described muscle is in fatigue state, the also strategy of exportable alleviation muscle fatigue, the healthy of self is better maintained for user.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.Through the above description of the embodiments, those skilled in the art is it can be understood that can add the mode of required general hardware platform by software to above-described embodiment method and realize, hardware can certainly be passed through, but in a lot of situation, the former is embodiment more preferably.Based on such understanding, the part that prior art is contributed by technical scheme substantially in other words can embody with the form of software product, this computer software product is stored in a storage medium (such as ROM/RAM, magnetic disc, CD), including some instructions with so that a station terminal equipment (can be mobile phone, computer, server, or the network equipment etc.) perform the method described in each embodiment of the present invention.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every equivalent structure utilizing description of the present invention and accompanying drawing content to make or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, all in like manner include in the scope of patent protection of the present invention.

Claims (10)

1. the wearable device measuring muscle action potential, it is characterised in that the wearable device of described measurement muscle action potential includes:

Measurement module, for being measured the muscle action potential of user by the test point on described wearable device, wherein, described test point at least two；

Processing module, generates electromyogram for the muscle action potential according to measured user；

Display module, for showing described electromyogram on the screen of described wearable device, understands the health of self for user.

2. the wearable device measuring muscle action potential as claimed in claim 1, it is characterised in that described processing module includes:

First processing unit, for determining the functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself according to measured muscle action potential；

Second processing unit, generates electromyogram for the functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself.

3. the wearable device measuring muscle action potential as claimed in claim 1, it is characterised in that described processing module also includes:

Contrast unit, for contrasting measured muscle action potential with the safe muscle action potential prestored；

3rd processing unit, if for measured muscle action potential not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

4. the wearable device measuring muscle action potential as claimed in claim 3, it is characterised in that the wearable device of described measurement muscle action potential also includes:

Output module, if being additionally operable to measured muscle action potential within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, exports information, to point out wearable device user.

5. the wearable device measuring muscle action potential as claimed in claim 4, it is characterised in that the wearable device of described measurement muscle action potential also includes:

Analysis module, for analyzing muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and exports described strategy and/or described strategy is sent to described mobile terminal.

6. the method measuring muscle action potential, it is characterised in that the method for described measurement muscle action potential includes:

The muscle action potential of user is measured by the test point on wearable device, wherein, described test point at least two；

Muscle action potential according to measured user generates electromyogram；

The screen of described wearable device shows described electromyogram, understands the health of self for user.

7. the method measuring muscle action potential as claimed in claim 6, it is characterised in that the muscle action potential of the user measured by described basis generates Electromyographic step and includes:

The functional status of muscle peripheral nerve, neuron, neuromuscular junction and muscle itself is determined according to measured muscle action potential；

Functional status according to described muscle peripheral nerve, neuron, neuromuscular junction and muscle itself generates electromyogram.

8. the method measuring muscle action potential as claimed in claim 6, it is characterised in that the muscle action potential of the user measured by described basis generates Electromyographic step and includes:

Measured muscle action potential is contrasted with the safe muscle action potential prestored；

If measured muscle action potential is not within the scope of the described safe muscle action potential prestored, then generate corresponding electromyogram according to described muscle action potential, and send a warning message to the mobile terminal being connected with described wearable device, with prompting mobile terminal user.

9. the as claimed in claim 8 method measuring muscle action potential, it is characterised in that described measured muscle action potential and the safe muscle action potential prestored are carried out the step contrasted after, also include:

If measured muscle action potential is within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, export information, to point out wearable device user.

10. the method measuring muscle action potential as claimed in claim 9, it is characterized in that, if described measured muscle action potential is within the scope of the safe muscle action potential prestored, but when being in muscle fatigue, output information, with point out wearable device user step after, also include:

Analyze muscle fatigue reason, the strategy of the muscle fatigue that is eased according to measured muscle action potential, and export described strategy and/or described strategy is sent to described mobile terminal.