CN104224312B - Wearable Portable novel armarium based on mobile terminal - Google Patents

Abstract

The present invention provides a kind of wearable Portable novel armarium based on mobile terminal.The present invention is based on the wearable Portable novel armarium of mobile terminal, including communication module, processing module, transmitter module；Communication module, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Audio control signal be mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that medical profession service end is fed back according to state of an illness information, generate according to medical scheme information；Processing module, is converted into the first control instruction signal for audio control signal communication module received, and the first control instruction signal is sent to transmitter module；Transmitter module, for according to the first control instruction signal, being generated and transmitted by radiofrequency signal and/or laser beam, so that user to be treated.The embodiment of the present invention achieves the portable wearable armarium based on the communication of mobile terminal earphone audio interface.

Description

Wearable Portable novel armarium based on mobile terminal

Technical field

The present invention relates to communication technology, particularly relate to a kind of wearable Portable novel armarium based on mobile terminal.

Background technology

Along with the progress of the development of society, communication technology, mobile terminal has become the means of communication that people are important, passes through mobile terminal, it is possible to the process information of highly efficient rate under computer, the network even auxiliary of other people.And occur in that the increasing equipment recording people's health data, carry out the Intelligent bracelet of sign monitoring, intelligence jewelry etc. as all kinds of, with mobile terminal with the use of, it is possible to by the healthy living of above-mentioned data-guiding people.

But, prior art does not have medical function based on mobile terminal, it is possible to produce the armarium of medical effect.

Summary of the invention

The present invention provides a kind of wearable Portable novel armarium based on mobile terminal.

The present invention provides a kind of wearable Portable novel armarium based on mobile terminal, including:

Communication module, processing module, transmitter module；

Wherein, described communication module, it is connected with the earphone audio interface of mobile terminal, described processing module is connected with described communication module, and described transmitter module is connected with described processing module；

Described communication module, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；

Described processing module, for the audio control signal that described communication module receives is converted into the first control instruction signal, and is sent to described transmitter module by described first control instruction signal；

Described transmitter module, for according to described first control instruction signal, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated.

Alternatively, also include: the vibration module being connected with described processing module；

Described processing module, is additionally operable to described first control instruction signal is sent to vibration module；

Described vibration module, for according to described first control instruction signal, producing vibration, so that described user to be treated.

Alternatively, described communication module, including:

Receive unit, comparing unit and demodulating unit；

Described reception unit, for receiving audio control signal from the earphone audio interface of described mobile terminal；

Described comparing unit, for being compared with reference voltage signal by described audio control signal, if the amplitude of described audio control signal is higher than the amplitude of described reference voltage signal, exports high-voltage signal；If the amplitude of described audio control signal is lower than the amplitude of described reference voltage signal, export low-voltage signal；

Described demodulating unit, for the signal that described comparing unit exports is demodulated to digital signal, is sent to described processing module；

Accordingly, described processing module, specifically for being converted into the first control instruction signal by the digital signal that described demodulating unit sends.

Alternatively, described reception unit, it is additionally operable to:

When described equipment runs, receiving the communication synchronization code that described mobile terminal is launched by earphone audio interface, described communication synchronization code is used for indicating described equipment to enter audio control signal and receives pattern, receives described audio control signal.

Alternatively, also include:

The D/A converter module being connected with described processing module, is converted into analogue signal for the first control instruction signal described processing module exported；

With the conditioning circuit module that described D/A converter module is connected, be used for doing signal condition, described analogue signal be amplified filtering and be amplified filtered second control instruction signal；

Accordingly, described transmitter module, it is connected with described conditioning circuit module, specifically for according to the filtered second control instruction signal of described amplification, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated.

Alternatively, described vibration module, it is connected with described conditioning circuit module, specifically for according to the filtered second control instruction signal of described amplification, producing vibration, so that described user to be treated.

Alternatively, described transmitter module includes:

Emission of radio frequency signals antenna and/or laser head；

Described emission of radio frequency signals antenna, is used for being generated and transmitted by radiofrequency signal；

Described laser head, is used for being generated and transmitted by laser beam.

Alternatively, also include: the display module being connected with described processing module, for showing the information of described first control instruction signal that described processing module exports.

Alternatively, also include:

Regulated power supply, is connected with described communication module, described processing module, described transmitter module respectively, for powering to described equipment.

Alternatively, also include:

The switch reseting module being connected with described processing module, is used for restarting described equipment.

The present invention is based on the wearable Portable novel armarium of mobile terminal, including communication module, processing module, transmitter module；Wherein, described communication module, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；Described processing module, for the audio control signal that described communication module receives is converted into the first control instruction signal, and is sent to described transmitter module by described first control instruction signal；Described transmitter module, for according to described first control instruction signal, it is generated and transmitted by radiofrequency signal and/or laser beam, so that described user is treated, the embodiment of the present invention achieves the portable medical device that the earphone audio interface based on mobile terminal communicates, and adopts modularized design, simple in construction, it is easy to assemble and debugging, it would be preferable to support remote online medical treatment.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the present invention structural representation based on the wearable Portable novel armarium embodiment one of mobile terminal；

Fig. 2 is the line treatment flow chart of present device embodiment one；

Fig. 3 is the present invention structural representation based on the wearable Portable novel armarium embodiment two of mobile terminal；

Fig. 4 is that the 2FSK using the audio control signal of two kinds of frequencies to demodulate in present device embodiment two encodes schematic diagram；

Fig. 5 is the present invention structural representation two based on the wearable Portable novel armarium embodiment two of mobile terminal；

Fig. 6 is the present invention structural representation three based on the wearable Portable novel armarium embodiment two of mobile terminal；

Fig. 7 is the present invention circuit diagram based on the wearable Portable novel armarium embodiment of mobile terminal；

Fig. 8 is the present invention based on the emission of radio frequency signals antenna of the wearable Portable novel armarium embodiment of mobile terminal and laser probe front view.

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is 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 not making creative work premise, broadly fall into the scope of protection of the invention.

Fig. 1 is the present invention structural representation based on the wearable Portable novel armarium embodiment one of mobile terminal, and Fig. 2 is the line treatment flow chart of present device embodiment one, and as shown in Figure 1, 2, the equipment of the present embodiment may include that

Communication module 101, processing module 102, transmitter module 103；

Wherein, described communication module 101, it is connected with the earphone audio interface of mobile terminal, described processing module 102 is connected with described communication module 101, and described transmitter module 103 is connected with described processing module 102；

Described communication module 101, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；

Described processing module 102, for the audio control signal that described communication module 101 receives is converted into the first control instruction signal, and is sent to described transmitter module 103 by described first control instruction signal；

Described transmitter module 103, for according to described first control instruction signal, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated.

Specifically, basic overwhelming majority mobile terminal all has earphone audio interface, wherein general with the earphone audio interface of 3.5mm.In general, its communication frequency can reach about 20KHz, and signal amplitude is up to about 2V.The mobile audio interface of 3.5mm contains four core print seats, respectively: ground, L channel, R channel and microphone (MIC).Exactly analogue signal (such as people's one's voice in speech) is loaded directly on electromagnetic wave when being communicated by earphone audio interface so that electromagnetic a certain characteristic changes along with the change of sound source.Then drive module (such as electret or moving-coil) that sound is converted output again through it.Characteristic according to audio signal, applies it and communicates and signal can be simulated modulation or digital modulation, and application sound channel and microphone (MIC) carry out two-way communication.

As in figure 2 it is shown, user such as patient first can download the software of special exploitation in the terminal, and equipment is connected with mobile terminal by the earphone audio interface of mobile terminal.When use carries out medical treatment, patient first sends my state of an illness information by mobile terminal to service terminal, such as medical history, disease place photo, allergies etc..Then by the specialist in medical profession service end the state of an illness of patient carried out on-line analysis and formulate corresponding therapeutic scheme, therapeutic scheme is written as corresponding program again and is sent to the mobile terminal of patient, mobile terminal is communicated with the communication module 101 of equipment by earphone audio interface, receives the audio control signal that mobile terminal sends；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；The audio control signal that described communication module 101 receives is converted into digital controlled signal i.e. the first control instruction signal and drives the transmitter module 103 of equipment to produce the radiofrequency signal of characteristic frequency, amplitude by processing module 102, and/or, described patient is treated by the laser beam etc. of corresponding amplitude.

Radiofrequency signal (RadioFrequency is called for short RF) is the ac high frequency electromagnetic wave between audio frequency and infrared spectrum, and its frequency range is very wide, from hundreds of KHz to hundreds of MHz.Tissue is electric conductor, when having radio-frequency current when human body is by tissue, owing to radio-frequency current is existed resistance by it, in-house hydrone moment is made to produce quick oscillation, thus producing a kind of motion or vibration tempestuously back and forth along direction of an electric field in-between the electrodes, size because of various ions, quality, electric charge and translational speed are all not quite similar, mutual friction or the dielectric friction with surrounding in vibration processes, produce heat energy and act on target tissue, molecular motion produces heat, heat energy optionally acts on corium deep layer and fibre diaphragm, cause collagen contraction and new collagen deposition, so that skin tensioning, the effect of instant smoothing wrinkle occurs, have stimulated collagen regeneration simultaneously, make dermal layer of the skin thickening, thus can reach to reduce for a long time the purpose of wrinkle.Local temperature raises, and accelerates corium and hypodermic blood circulation, promoting tissue metabolism, thus having whitening, improving the effect of skin quality, thus reaching therapeutic purposes.

It addition, when high frequency electric is by tissue, heat energy may act on skin corium tissue, stimulating collagen fiber at once to shrink, tissue produces a series of physical and chemical effect after being heated, strengthen metabolism, make fibrocyte produce new collagen fiber, recover skin elasticity and again become full smooth.Improving the skin corium collagen protein synthesis after microcirculation to accelerate simultaneously, by collagen fiber new for hypertrophy constantly, make the thickness of skin corium and density increase, tissue line is fine and close.Radiofrequency signal treatment can be used for Acne Scar reduction, fat melting body shaping, the lifting of the lax skin of whole body, and plays removal facial wrinkles, improves the effects such as the skin of face shallow pigmentation of table.

Radio frequency smoothing wrinkle is little with skin pigment relation, because the heat effect that radio frequency produces depends primarily on Skin Resistance.This feature makes radio frequency have advantage when for deep colour of skin crowd.Radio frequency can be heated to corium deep layer or even subcutaneous fat, not only promotes the synthesis of collagen fiber, the fibre diaphragm between corium and subcutaneous tissue also can be made to shrink, can effectively rescue cutis laxa.The wrinkle type that radio frequency smoothing wrinkle is suitable for has: neck surface wrinkle, including crows-feet, forehead stricture of vagina etc.；Wrinkle that weight-reducing causes and orange peel tissue；Abdominal distension stricture of vagina (includes striae gravidarum).

At present, the rf frequency being successfully applied to radiofrequency signal smoothing wrinkle clinically has: the quasi-monopolar radio frequency source of 6MHz, 486kHz bipolar radio frequency source, single, double pole hybrid radio frequency source 40.68MHz.

Selective photothermolysis solution according to laser is theoretical, the laser of specific wavelength can be absorbed by its target coloring matter, when laser pulse width is suitable to the thermal relaxation time in tissue, the heat effect of laser only can act on target tissue, and the destruction of target tissue only can be caused or not the damage of normal structure.It addition, the heat effect of laser can activate fibrocyte, induce the formation of new collagen.Inflammatory reaction, the release cells factor, the formation of stimulation collagen can also be passed through.And optical maser wavelength used can penetrate epidermis, directly act on the collagen protein of corium.Its side effect and application risk are smaller, and patient can the normal operation life for the treatment of limit, limit.

At present, the LASER Light Source being used clinically for atraumatic laser smoothing wrinkle has: 532nm, 1064nm potassium phosphate titanium (KTP) laser, 585nm, 595nm pulsed dye (PDL) laser, 980nm, 1450nm quasiconductor (LD) laser, 1064nm, 1320nm neodymium-doped yttrium-aluminum garnet (Nd:YAG) laser, 1540 Erbium doped fiber laser, 2940nm er-doped yttrium-aluminium-garnet (Er:YAG) laser.

And, radio-frequency technique can also be combined with laser technology and use the purpose reaching potentiation: as intense pulse laser (IPL) is combined with radio frequency, the iraser (IR) of 700～2000nm is combined with radio frequency, owing to the pulse duration of radiofrequency signal is longer than laser, target tissue target can be preheated by laser, make its can preferential absorption radio-frequency current, effectively improve therapeutic effect.

The equipment of the present embodiment includes: communication module, processing module, transmitter module；Wherein, described communication module, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；Described processing module, for the audio control signal that described communication module receives is converted into the first control instruction signal, and is sent to described transmitter module by described first control instruction signal；Described transmitter module, for according to described first control instruction signal, it is generated and transmitted by radiofrequency signal and/or laser beam, so that described user is treated, the embodiment of the present invention achieves the portable medical device that the earphone audio interface based on mobile terminal communicates, and adopts modularized design, simple in construction, it is easy to assemble and debugging, it would be preferable to support remote online medical treatment.

Fig. 3 is the present invention structural representation one based on the wearable Portable novel armarium embodiment two of mobile terminal, and Fig. 4 is that the 2FSK using the audio control signal of two kinds of frequencies to demodulate in present device embodiment two encodes schematic diagram.On the basis of the device structure of embodiment illustrated in fig. 1, the equipment of the present embodiment, as shown in Figure 3, it is also possible to including:

The vibration module 104 being connected with described processing module 102；

Described processing module 102, is additionally operable to described first control instruction signal is sent to vibration module 104；

Described vibration module 104, for according to described first control instruction signal, producing vibration, so that described user to be treated.

Specifically, vibration module 104 can produce characteristic frequency, described patient is carried out massage treatment by the vibration massage of amplitude.Vibration module 104 is, with mechanical vibration, the local of human body is carried out zest massage, utilizes electric power to make the vibration head of vibration module 104 vibrate, and human body is implemented massage.It has effect of dredging the meridian, QI and blood regulating, sedation-analgesia, blood circulation promoting, relieving fatigue, adjustment body function.In general, the motor of vibration module 104 is magneto miniature cocurrent electromotor, the operation principle of vibration module 104 is: the shaft coupling spring that rotates through of motor main shaft passes on eccentric, eccentric effect is for moving back and forth the convert rotational motion of motor, and vibration head is passed in reciprocating motion, owing to motor speed can reach 5000～10000 revs/min, therefore the vibration number of vibration module 104 can also reach 5000～10000 times per minute.Massage effect is obvious, noise is low, is conducive to relaxing muscles and tendons to promote blood circulation, allaying tiredness and disease preventing and treating.

Alternatively, as it is shown on figure 3, described communication module 101, including:

Receive unit 1010, comparing unit 1011 and demodulating unit 1012；

Described reception unit 1010, for receiving audio control signal from the earphone audio interface of described mobile terminal；

Described comparing unit 1011, for being compared with reference voltage signal by described audio control signal, if the amplitude of described audio control signal is higher than the amplitude of described reference voltage signal, exports high-voltage signal；If the amplitude of described audio control signal is lower than the amplitude of described reference voltage signal, export low-voltage signal；

Described demodulating unit 1012, for the signal that described comparing unit 1011 exports is demodulated to square-wave signal, is sent to described processing module 102；

Accordingly, described processing module 102, specifically for being converted into the first control instruction signal by the square-wave signal that described demodulating unit 1012 sends.

Specifically, the audio control signal of the different frequency that mobile terminal is spread out of by earphone audio interface is through comparing unit 1011, same reference voltage signal (is typically set to the meansigma methods of signal) to carry out doing difference, its output high-voltage signal when amplitude is higher than the amplitude of reference voltage signal, its output low-voltage signal when amplitude is lower than the amplitude of reference voltage signal.The audio control signal spread out of in demodulated device 1012 then earphone audio interface is just demodulated to the square-wave signal of standard, and described square-wave signal can be passed through to calculate the mode of pulsewidth by described processing module 102 just can demodulate corresponding digital signal.As shown in Figure 4, the 2FSK coding for using the audio control signal of two kinds of frequencies to demodulate.

Fig. 5 is the present invention structural representation two based on the wearable Portable novel armarium embodiment two of mobile terminal.

Alternatively, described reception unit 1010, is additionally operable to: when described equipment runs, receive the communication synchronization code that described mobile terminal is launched by earphone audio interface, described communication synchronization code is used for indicating described equipment to enter audio control signal and receives pattern, receives described audio control signal.

As it is shown in figure 5, the equipment of the present embodiment, also include:

The D/A converter module 105 being connected with described processing module 102, is converted into analogue signal for the first control instruction signal described processing module 102 exported；

Conditioning circuit module 106 with described D/A converter module 105 is connected, is used for doing signal condition, described analogue signal is amplified filtering and is amplified filtered second control instruction signal；

Accordingly, described transmitter module 103, it is connected with described conditioning circuit module 106, specifically for according to the filtered second control instruction signal of described amplification, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated.

Described vibration module 104, is connected with described conditioning circuit module 106, specifically for according to the filtered second control instruction signal of described amplification, producing vibration, so that described user to be treated.

Specifically, audio control signal passes to equipment by earphone audio interface to be become square-wave signal after comparing unit, demodulating unit and passes to processing module 102 (such as MCU), processing module 102 is after signal processing, produce digital controlled signal i.e. the first control instruction signal and carry out digital-to-analogue D/A conversion through D/A converter module 105, and carry out signal condition through conditioning circuit module 106, corresponding functional module just can be driven after amplifying filtering as controlled transmitter module and/or vibration module.

When whole equipment works, first its internal processing module 102 initializes, and subsequently into communication standby pattern, waits by the communication synchronization code transmitted in the earphone audio interface of mobile terminal.When there being communication synchronization code to transmit, enter audio control signal and receive pattern, when receiving audio control signal, described audio control signal is converted by processing module 102, corresponding functional module such as transmitter module and/or vibration module is driven, it is achieved corresponding function further according to the first control instruction signal after converting.

When processing module 102 transmits a signal to mobile terminal by the earphone audio interface of mobile terminal, the digital signal of its generation can be filtered by the decoding module in processing module 102, even if square-wave signal becomes audio signal, passes to mobile terminal.Specific software in mobile terminal just can realize mobile terminal with the two-way communication between equipment by demodulating.

Alternatively, described transmitter module 103 includes:

Emission of radio frequency signals antenna and/or laser head；

Described emission of radio frequency signals antenna, is used for being generated and transmitted by radiofrequency signal；

Described laser head, is used for being generated and transmitted by laser beam.

Specifically, described transmitter module 103 includes: is generated and transmitted by the emission of radio frequency signals antenna of radiofrequency signal and/or is generated and transmitted by the laser head of laser beam.

Fig. 6 is the present invention structural representation three based on the wearable Portable novel armarium embodiment two of mobile terminal.

Alternatively, the equipment of the present embodiment, as shown in Figure 6, it is also possible to including: the display module 107 being connected with described processing module 102, for showing the information of described first control instruction signal that described processing module exports.

Alternatively, also include:

Regulated power supply 108, is connected with described communication module 101, described processing module 102, described transmitter module 103 respectively, for powering to described equipment.

Alternatively, also include:

With the switch reseting module 109 that described processing module 102 is connected, be used for restarting described equipment.

The information of the described first control instruction signal of display module 107 display includes such as control instruction and controls data, such as produce much frequencies, how significantly radiofrequency signal etc., some expanded function interfaces being connected with described processing module 102 can also be reserved in a device.

Fig. 7 is the present invention circuit diagram based on the wearable Portable novel armarium embodiment of mobile terminal.Fig. 8 is the present invention based on the emission of radio frequency signals antenna of the wearable Portable novel armarium embodiment of mobile terminal and laser probe front view.As it is shown in fig. 7, in system hardware implements, it is possible to adopting P89C52 Series MCU as the control core of embedded system terminal namely as processing module, system power supply power supply mode is 5V lithium battery power supply.In order to extend the internal memory of system, using external for MCU a piece of in save as the EEPROMAT24C1024 of 128KB as exented memory.When MCU produces control signal, use MAX539 low-power consumption 12 Bits Serial D/A converter module to carry out D/A conversion, re-use after operation amplifier module carries out expansion stream conditioning as modulate circuit and can drive corresponding functional module.In order to facilitate Consumer's Experience, equipment additionally uses LCM12832ZK graphic dot matrix LCD module and carries out data display output as display module.

For emission of radio frequency signals antenna, adopting POS-50 VCO module as radio-frequency signal source, it can produce frequency and be up to the radiofrequency signal of 50MHz, and uses CA2832 power amplifier module as radiofrequency signal amplification module, to control its power.Use ArduinoKY-008 as laser head, regulate the laser power of generation by regulating its control voltage.For vibration module, use ASLONG-28 DC micromotor as vibrating motor.A whole set of hardware device can be integrated in a custom-designed portable shell, and emission of radio frequency signals antenna and laser head are contained in outer surface, in order to uses.Emission of radio frequency signals antenna designed by the present invention and laser probe outline drawing are as shown in Figure 8.

The device integration of the embodiment of the present invention is high, and the chip of all uses and electronics element module part are all integrated on one piece of circuit board, and good portability, volume is little, lightweight, easy to carry；With low cost, what use is all the more commonly used electronics element module part and related chip, is beneficial to large-scale production；Adopt modularized design, simple in construction, it is simple to assemble and debugging；Two-way communication based on the earphone audio interface of mobile terminal, it would be preferable to support remote online medical treatment.

One of ordinary skill in the art will appreciate that: all or part of step realizing above-mentioned each embodiment of the method can be completed by the hardware that programmed instruction is relevant.Aforesaid program can be stored in a computer read/write memory medium.This program upon execution, performs to include the step of above-mentioned each embodiment of the method；And aforesaid storage medium includes: the various media that can store program code such as ROM, RAM, magnetic disc or CDs.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein some or all of technical characteristic is carried out equivalent replacement；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (9)

1. the wearable portable medical device based on mobile terminal, it is characterised in that including:

Communication module, processing module, transmitter module；

Wherein, described communication module, it is connected with the earphone audio interface of mobile terminal, described processing module is connected with described communication module, and described transmitter module is connected with described processing module；

Described communication module, for receiving the audio control signal that mobile terminal is sent by earphone audio interface；Described audio control signal be described mobile terminal after the state of an illness information of user being sent to medical profession service end and receives the medical scheme information that described medical profession service end is fed back according to described state of an illness information, generate according to described medical scheme information；

Described processing module, for the audio control signal that described communication module receives is converted into the first control instruction signal, and is sent to described transmitter module by described first control instruction signal；

Described transmitter module, for according to described first control instruction signal, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated；

Described communication module, including:

Receive unit, comparing unit and demodulating unit；

Described reception unit, for receiving audio control signal from the earphone audio interface of described mobile terminal；

Described comparing unit, for being compared with reference voltage signal by described audio control signal, if the amplitude of described audio control signal is higher than the amplitude of described reference voltage signal, exports high-voltage signal；If the amplitude of described audio control signal is lower than the amplitude of described reference voltage signal, export low-voltage signal；

Described demodulating unit, for the signal that described comparing unit exports is demodulated to digital signal, is sent to described processing module；

Accordingly, described processing module, specifically for being converted into the first control instruction signal by the digital signal that described demodulating unit sends.

2. equipment according to claim 1, it is characterised in that also include: the vibration module being connected with described processing module；

Described processing module, is additionally operable to described first control instruction signal is sent to vibration module；

Described vibration module, for according to described first control instruction signal, producing vibration, so that described user to be treated.

3. equipment according to claim 1, it is characterised in that described reception unit, is additionally operable to:

When described equipment runs, receiving the communication synchronization code that described mobile terminal is launched by earphone audio interface, described communication synchronization code is used for indicating described equipment to enter audio control signal and receives pattern, receives described audio control signal.

4. equipment according to claim 2, it is characterised in that also include:

The D/A converter module being connected with described processing module, is converted into analogue signal for the first control instruction signal described processing module exported；

With the conditioning circuit module that described D/A converter module is connected, be used for doing signal condition, described analogue signal be amplified filtering and be amplified filtered second control instruction signal；

Accordingly, described transmitter module, it is connected with described conditioning circuit module, specifically for according to the filtered second control instruction signal of described amplification, being generated and transmitted by radiofrequency signal and/or laser beam, so that described user to be treated.

5. equipment according to claim 4, it is characterised in that described vibration module, is connected with described conditioning circuit module, specifically for according to the filtered second control instruction signal of described amplification, producing vibration, so that described user to be treated.

6. equipment according to claim 1 and 2, it is characterised in that described transmitter module includes:

Emission of radio frequency signals antenna and/or laser head；

Described emission of radio frequency signals antenna, is used for being generated and transmitted by radiofrequency signal；

Described laser head, is used for being generated and transmitted by laser beam.

7. equipment according to claim 1 and 2, it is characterised in that also include: the display module being connected with described processing module, for showing the information of described first control instruction signal that described processing module exports.

8. equipment according to claim 1 and 2, it is characterised in that also include:

Regulated power supply, is connected with described communication module, described processing module, described transmitter module respectively, for powering to described equipment.

9. equipment according to claim 1 and 2, it is characterised in that also include:

The switch reseting module being connected with described processing module, is used for restarting described equipment.