CN211832816U - Physiotherapy electronic cigarette - Google Patents

Abstract

The embodiment of the application discloses physiotherapy electron cigarette. The technical scheme that this application embodiment provided controls atomizing control module's work through main control module to make atomizing module take place the material to smog and heat the atomizing, satisfy the basic demand of user to the electron cigarette, and provide the electric current of contact electrode through EMS pulse module control power module, make the EMS pulse of the little electric current of contact electrode output high frequency, the user's mood is releived through little electric current, reach the physiotherapy effect, satisfy the physiotherapy demand of user to the electron cigarette.

Description

Physiotherapy electronic cigarette

Technical Field

The embodiment of the application relates to an electronic cigarette, in particular to a physiotherapy electronic cigarette.

Background

Present electron cigarette generally includes cigarette bullet and tobacco rod, is provided with the atomizing device that is used for storing the oil storage chamber of tobacco tar and atomizing tobacco tar in the cigarette bullet, and atomizing device includes the heater strip usually, is provided with power and the MCU that is used for the power supply in the tobacco rod, and MCU controls the break-make between power and the atomizing device to the atomizing of control tobacco tar.

The electron cigarette mainly is that direct atomizing device is controlled by MCU to heat the atomizing to the tobacco juice, and MCU fails in time to adjust the temperature of atomizing tobacco tar among the atomizing device, and atomizing temperature can constantly rise along with the temperature of heating member to influence atomizing device's atomization effect and electron cigarette's taste.

When the electronic cigarette is used at present, the function is too single, and more use requirements of users cannot be met.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a physiotherapy electron cigarette to satisfy the user to the demand of EMS pulse physiotherapy.

In a first aspect, the present application provides a physiotherapy electronic cigarette, including a tobacco rod and a smoke generator;

the cigarette rod is provided with a main control module, an atomization control module, an EMS pulse module, a contact electrode and a power supply module for supplying power, and the cigarette generator is provided with an atomization module for atomizing a smoke generating substance;

the main control module is coupled with the atomization control module and the EMS pulse module, the atomization control module is coupled between the atomization module and the power supply module, and the atomization control module is controlled by the main control module so as to control the power supply of the power supply module to the atomization module;

the contact electrode is arranged on the outer surface of the cigarette rod, the EMS pulse module is coupled between the contact electrode and the power supply module, and the EMS pulse module is controlled by the main control module, so that the power supply module controls the power supply of the contact electrode to enable the contact electrode (6) to transmit EMS electric pulses.

Further, the contact electrode (6) includes a first electrode (61) and a second electrode (62), and the EMS pulse module (5) includes a first transistor Q1, a second transistor Q2, a third transistor Q3, a fourth transistor Q4, a fifth transistor Q5, and a sixth transistor Q6;

emitters of a first triode Q1 and a second triode Q2 are connected to an output end of the power supply module (7), collectors of the first triode Q1 and the second triode Q2 are respectively connected with a first electrode (61) and a second electrode (62), a base of the first triode Q1 is connected to an output end of the power supply module (7), an output end of the power supply module (7) is connected to a collector of a fifth triode Q5, a base of a second triode Q2 is connected to an output end of the power supply module (7), an output end of the power supply module (7) is connected to a collector of a sixth triode Q6, emitters of the fifth triode Q5 and the sixth triode Q6 are grounded, and bases of the fifth triode Q5 and the sixth triode Q6 are respectively connected to the main control module (3);

the collectors of the third triode Q3 and the fourth triode Q4 are respectively connected with the collectors of the first triode Q1 and the second triode Q2, the bases of the third triode Q3 and the fourth triode Q4 are respectively connected with the main control module (3), and the emitting electrodes of the third triode Q3 and the fourth triode Q4 are grounded.

Further, a voltage control module is connected between the output end of the power supply module and the EMS pulse module, and the voltage control module is controlled by the main control module, so that the voltage provided by the power supply module to the EMS pulse module is controlled.

Further, the voltage control module includes first MOS transistor Q7, first inductance L1, first diode D1 and first polarity electric capacity C1, and first MOS transistor Q7's grid connect in main control module, drain-source process first inductance L1 connect in power module's positive terminal, the source electrode connect in power module's negative pole end, first diode D1's positive pole end and negative pole end connect respectively in first MOS transistor Q7's drain-source electrode and the EMS pulse module, first polarity electric capacity C1's positive pole end connect in first diode D1's negative pole end, the negative pole end connect in the source electrode of EMS pulse module.

Further, the smoke generator for can dismantle connect in the cigarette bullet of tobacco rod, the smog emergence material is the tobacco tar, be provided with the oil storage chamber that is used for storing the tobacco tar in the cigarette bullet, the atomizing module includes the heater strip, heater strip one end ground connection, the other end connect in atomizing control module.

Further, the atomizing control module includes second MOS pipe Q8, and the grid of second MOS pipe Q8 connect in main control module, the drain electrode connect in power module, the source electrode connect in the heater strip.

Further, be provided with control button on the tobacco rod, control button connect in main control module, main control module is according to control button's output control the work of EMS pulse mould.

Further, a holding detection module is arranged on the cigarette rod and used for detecting the holding condition on the cigarette rod and outputting holding data, the holding detection module is connected to the main control module, and the main control module controls the work of the EMS pulse module according to the holding data output by the holding detection module.

Further, the first electrode is arranged to surround the second electrode or the second electrode is arranged to surround the first electrode.

Furthermore, the contact electrode is annularly arranged on the outer surface of the cigarette rod in a wrapping mode.

This application embodiment controls atomizing control module's work through main control module to make atomizing module take place the material to smog and heat the atomizing, satisfy the user to the basic demand of electron cigarette, and provide the electric current of contact electrode through EMS pulse module control power module, make the EMS pulse of the little electric current of contact electrode output high frequency, through the mood of the little electric current user of releiving, reach the physiotherapy effect, satisfy the physiotherapy demand of user to the electron cigarette.

Drawings

Fig. 1 is a block diagram of a physiotherapy electronic cigarette provided in an embodiment of the present application;

FIG. 2 is a schematic circuit diagram of an electronic cigarette for physiotherapy provided in an embodiment of the present application;

FIG. 3 is a schematic circuit diagram of a voltage control module according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a contact electrode layout provided in an embodiment of the present application;

fig. 5 is a schematic diagram of another arrangement of contact electrodes provided in the embodiments of the present application.

Reference numerals: 1. a tobacco rod; 2. a smoke cartridge; 3. a main control module; 4. an atomization control module; 5. an EMS pulse module; 6. a contact electrode; 61. a first electrode; 62. a second electrode; 7. a power supply module; 8. an atomization module; 9. a voltage control module; 10. and a control button.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings.

In the description of the embodiments of the present application, unless explicitly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Example 1: fig. 1 shows a block diagram of a physical therapy electronic cigarette provided by an embodiment of the present application, and the electronic cigarette includes a cigarette rod 1 and a smoke generator 2. Wherein smoke generator 2 can be the cigarette bullet of being connected with can dismantling with tobacco rod 1, is provided with the oil storage chamber (not shown in the figure) that is used for storing the tobacco tar in the cigarette bullet, and the tobacco tar is the smog emergence material this moment for smoke generator 2 can change after the complete use, and tobacco rod 1 can continue to use, reduces the waste of resource. In addition, the smoke generator 2 can also be a heating device (such as a heating wire, micropore metal or grid metal) installed on the cigarette rod 1, the heating device is the atomization module 8 in the smoke generator 2 at the moment, a tobacco shred cavity used for containing tobacco shreds is arranged on the cigarette rod 1, the tobacco shreds are smoke generating substances at the moment, the heating device is arranged at the tobacco shred cavity, the heating device can be powered and heated through the accessible, the tobacco shreds are heated and combusted, and smoke is generated. The present embodiment will be described taking a cartridge as the smoke generator 2 as an example.

Wherein, cigarette pole 1 and 2 accessible joints of cigarette generator, the connection can be dismantled to the mode of grafting or magnetism, accomplish the mutual removable connection between cigarette pole 1 and the cigarette generator 2, the connected mode of cigarette generator 2 and cigarette pole 1 adopts the mode of grafting in this embodiment, the shape of the tip of cigarette generator 2 and the mutual grafting of cigarette pole 1 matches each other, and the cross-section that is used for the tip of connecting of cigarette generator 2 and cigarette pole 1 is centrosymmetric shape (like oval shape), even make cigarette generator 2 or cigarette pole 1 revolve 180 degrees around the axle still can normally be connected with cigarette pole 1 or cigarette generator 2.

In other embodiments, if the smoke generator 2 is detachably connected with the tobacco rod 1 through a magnetic attraction manner, a plurality of magnets can be arranged between the smoke generator 2 and the tobacco rod 1 and arranged in a centrosymmetric manner, so that the smoke generator 2 or the tobacco rod 1 can still be normally attracted with the tobacco rod 1 or the smoke generator 2 after rotating around the shaft for 180 degrees.

Specifically, a main control module 3, an atomization control module 4, an EMS pulse module 5, a contact electrode 6, a voltage control module 9 and a power module 7 are arranged in the cigarette rod 1. Wherein, power module 7 is used for supplying power for whole electron cigarette. Further, the power module 7 may be a disposable storage battery, and a battery replacement port for replacing the storage battery is provided in the cigarette rod 1, or a rechargeable storage battery, and a charging port for connecting a charging power source and the storage battery is provided on the cigarette rod 1.

Be provided with atomizing chamber (not shown in the figure) and atomizing module 8 in the fog generator 2, the atomizing chamber is used for deriving the tobacco tar (the smog takes place the material) in the fog generator 2 to be provided with in the fog generator 2 of atomizing chamber together with atomizing chamber and external passageway, supply the tobacco tar after the user's suction atomizing. Wherein atomizing module 8 sets up in the atomizing intracavity for the tobacco tar of deriving heats, thereby makes the tobacco tar atomizing.

Generally, the atomization module 8 includes a heating wire, and two ends of the heating wire are disposed at a connection port of the smoke generator 2 and the smoke rod 1 through conductive terminals, it can be understood that the smoke rod 1 is disposed with conductive terminals for electrically connecting with the heating wire, and one of the conductive terminals is connected to the atomization control module 4, and the other conductive terminal is grounded, so that when the smoke generator 2 is connected to the smoke rod 1, one end of the heating wire is grounded, and the other end is connected to the atomization control module 4.

The main control module 3 includes a microcontroller (or other micro control chip) with a model TM57M5536C, and peripheral circuits thereof are in the prior art and are not described herein.

The main control module 3 is electrically connected to the atomization control module 4 and the EMS pulse module 5, and is powered by the power module 7, optionally, a voltage conversion and voltage stabilizing circuit may be provided between the power module 7 and the main control module 3, so as to stably supply power to the main control module 3.

Further, atomizing control module 4 electricity is connected between atomizing module 8 and power module 7, and atomizing control module 4 electricity is connected in host system to be controlled by host system 3 and control power module 7 and control the power supply of atomizing module 8.

Exemplarily, be provided with the miaow head in tobacco rod 1 or the fog generator 2 and carry out the smoking action and with detected signal transmission to main control module 3 with the detection user, main control module 3 is through controlling atomizing control module 4 when the miaow head detects the existence of smoking action to break-make between control power module 7 and the atomizing device, and then the work of control heater strip.

Further, the contact electrode 6 is disposed on the outer surface of the cigarette rod 1, so that the user can contact the contact electrode 6 when using the electronic cigarette. Preferably, the contact electrodes 6 are provided as metallic conductive sheets, and are provided in two. The EMS pulse module 5 is coupled between the contact electrode 6 and the power supply module 7. Further, the voltage control module 9 is connected between the output terminal of the power module 7 and the input terminal of the EMS pulse module 5, and the control terminal thereof is electrically connected to and controlled by the main control module 3, so as to control the voltage provided by the power module 7 to the EMS pulse module to enable the contact electrode to emit EMS electrical pulses. When a user receives EMS electric pulses sent by the contact electrode, the EMS pulses can perform micro-stimulation on human nerves, transfer the attention of the user, relieve the emotion of the user, help the user to relax tension and be beneficial to the physical and psychological health of the human body.

The main control main module can control the EMS pulse module 5 to be connected with a passage between the power module 7 and the contact electrode 6 when detecting smoking action, and enables the contact electrode 6 to output high-frequency micro current as EMS pulse by controlling the current frequency output to the contact electrode 6, and the emotion of a user is relieved by micro current.

In other possible embodiments, a holding detection module may be disposed on the cigarette rod 1 for detecting a holding condition of the cigarette rod 1 and outputting holding data, the holding detection module is connected to the main control module, and the main control module controls the EMS pulse module to operate according to the holding data output by the holding detection module.

For example, a strain sensor can be arranged on the tobacco rod 1 to detect the deformation of the tobacco rod 1, when a user holds the tobacco rod 1, the tobacco rod 1 is deformed, the resistance value on the strain sensor is changed, and therefore the tobacco rod 1 is determined to be deformed under the action of external force, and the holding action of the user on the tobacco rod 1 is determined. The cigarette rod 1 may be provided with a proximity sensor, a temperature sensor, a capacitive sensor, and the like, so that when a user grips the cigarette rod 1, the corresponding sensor detects a human body, thereby determining the gripping action of the user on the cigarette rod 1. Further, the EMS pulse output can be started by detecting whether the user holds the electronic cigarette or not and when the user holds the electronic cigarette. In addition, the current magnitude or the frequency of the EMS pulse output by the EMS pulse module 5 can be determined according to the deformation magnitude of the cigarette rod 1 and the detected human body temperature.

In other embodiments, a start button for starting the EMS pulse output may be provided on the cigarette rod 1, and the start button is connected to the main control module 3, and when the start button is triggered, the main control module 3 controls the EMS pulse module 5 to output the EMS pulse. The user can select the opportunity of EMS pulse output according to self demand, satisfies self user demand.

Furthermore, the voltage output from the power module 7 to the EMS pulse module 5 can be changed by controlling the voltage control module 9 by the main control module 3, so as to control the current output from the contact electrode 6, thereby meeting different requirements of users.

Above-mentioned, control atomizing control module 4's work through main control module 3, thereby make atomizing module 8 to smoke emergence material heat the atomizing, satisfy the basic demand of user to the electron cigarette, and provide the electric current of contact electrode 6 through EMS pulse module 5 control power module 7, make contact electrode 6 output the little electric current of high frequency as the EMS pulse, through the mood of the user of alleviating of little electric current, reach the physiotherapy effect, satisfy the physiotherapy demand of user to the electron cigarette. Meanwhile, the user can control the EMS pulse module to output the EMS pulse according to the self use scene requirement. For example, the EMS pulse output of the electronic cigarette can be started in scenes of sleeping, resting, driving and the like, the attention of the user is transferred, the mood of the user is relieved, the over-stressed emotion of the user is relieved, and the physical and mental health of the user is facilitated.

Example 2: a physiotherapy electron cigarette, figure 2 provides the circuit structure schematic diagram of the physiotherapy electron cigarette that this application embodiment provided. As shown in fig. 2, based on embodiment 1, the contact electrode 6 includes a first electrode 61 and a second electrode 62, and the EMS pulse module 5 includes a first transistor Q1, a second transistor Q2, a third transistor Q3, a fourth transistor Q4, a fifth transistor Q5 and a sixth transistor Q6, wherein the first transistor Q1 and the second transistor Q2 are PNP transistors, and the third transistor Q3, the fourth transistor Q4, the fifth transistor Q5 and the sixth transistor Q6 are NPN transistors. It is understood that the transistor may be replaced by other switching devices with the same or similar functions, such as a MOS transistor.

The emitters of the first transistor Q1 and the second transistor Q2 are connected to the output terminal of the voltage control module 9 (point d in the figure), the collectors of the first transistor Q1 and the second transistor Q2 are respectively connected to the first electrode 61 and the second electrode 62, the base of the first transistor Q1 is connected to the collector of the fifth transistor Q5, the collector of the fifth transistor Q5 is also electrically connected to the output terminal of the voltage control module 9, the base of the second transistor Q2 is connected to the collector of the sixth transistor Q6, the collector of the sixth transistor Q6 is also electrically connected to the output terminal of the voltage control module 9, the emitters of the fifth transistor Q5 and the sixth transistor Q6 are grounded, the bases of the fifth transistor Q5 and the sixth transistor Q6 are both connected to the signal output terminal of the main control module 3, and the main control module 3 controls the on/off of the fifth transistor Q5 and the sixth transistor Q6 by sending level signals.

The collector of the third triode Q3 is connected with the collector of the first triode Q1, the collector of the fourth triode Q4 is connected with the collector of the second triode Q2, the emitters of the third triode Q3 and the fourth triode Q4 are grounded, the bases of the third triode Q3 and the fourth triode Q4 are both connected with the signal output end of the main control module 3, and the main control module 3 controls the on/off of the third triode Q3 and the fourth triode Q4 by sending level signals.

It can be understood that, when the main control module 3 outputs a high level signal to the fifth transistor Q5 and the fourth transistor Q4 and transmits a low level signal to the sixth transistor Q6 and the third transistor Q3, the first transistor Q1 and the fourth transistor Q4 are turned on, the second transistor Q2 and the third transistor Q3 are turned off, and the current output by the power module 7 flows to the ground after passing through the voltage control module 9, the first transistor Q1, the contact electrode 6 and the fourth transistor Q4, and an EMS electrical pulse is emitted through the contact electrode 6.

When the main control module 3 outputs a low level signal to the fifth triode Q5 and the fourth triode Q4 and sends a high level signal to the sixth triode Q6 and the third triode Q3, the first triode Q1 and the fourth triode Q4 are turned off, the second triode Q2 and the third triode Q3 are turned on, and the current output by the power module 7 flows to the ground after passing through the voltage control module 9, the second triode Q2, the contact electrode 6 and the third triode Q3, and then the EMS electrical pulse is emitted through the contact electrode 6.

A control button 10 is provided on the tobacco rod 1 and the control button 10 is connected to the main control module 3 for selecting the frequency of the current output by the contact electrode 6. The current output, the current frequency and the magnitude of the contact electrode 6 can be controlled by controlling the waveform (such as a PWM wave) output by the main control module 3 to the bases of the third transistor Q3, the fourth transistor Q4, the fifth transistor Q5 and the sixth transistor Q6. Different output waveforms are preset in the main control module 3 and correspond to different gears of the control button 10, and the output waveforms are determined according to the gears corresponding to the control button 10, so that the output characteristics of the contact electrode 6 are adjusted, and the requirements of users in different use scenes are met.

Further, the atomization control module 4 is a second MOS tube Q8, a gate of the second MOS tube Q8 is connected to the main control module 3, a drain of the second MOS tube Q8 is connected to the positive output end of the power module 7, and a source of the second MOS tube Q8 is connected to the heating wire. The main control module 3 outputs the PWM wave of the specific frequency to the second MOS tube Q8, so as to control the on-off and the on-off frequency of the second MOS tube Q8, and control the power supply and the power supply size of the heating wire to the power module 7, thereby controlling the heating wire to heat and atomize the tobacco tar led into the atomization chamber.

Optionally, an atomization adjusting button can be further arranged on the smoke rod 1, the main control module 3 detects a gear corresponding to the atomization adjusting button, the duty ratio of the output PWM wave is determined according to the detection result (the corresponding relation between the detection result and the duty ratio can be preset), the current provided by the power supply module 7 for the heating wire is adjusted by the vacant position, and the atomization degree of the oil smoke is adjusted.

Fig. 3 is a schematic diagram of a circuit structure of a voltage control module in an embodiment of the present application. As shown in fig. 3, for example, the voltage control module 9 includes a first MOS transistor Q7, a first inductor L1, a first diode D1 and a first polarity capacitor C1, a gate of the first MOS transistor Q7 is connected to the main control module 3, a drain of the first MOS transistor Q7 is connected to the positive terminal of the power module 7 through a first inductor L1, a source of the first MOS transistor Q7 is connected to the negative terminal of the power module 7, an anode terminal and a cathode terminal of the first diode D1 are respectively connected to the drain of the first MOS transistor Q7 and the pulse EMS module 5, a positive terminal of the first polarity capacitor C1 is connected to the cathode terminal of the first diode D1, and a cathode terminal of the first MOS transistor Q7 is connected to the source of the first polarity.

Fig. 4 is a schematic layout of a contact electrode provided in an embodiment of the present application, and as shown in fig. 4, the first electrode 61 is disposed to surround the second electrode 62, and in other embodiments, the second electrode 62 may also be disposed to surround the first electrode 61.

Fig. 5 is a schematic view of another arrangement of the contact electrode provided in the embodiment of the present application, and as shown in fig. 5, the contact electrode 6 is disposed in a ring shape and wraps the outer surface of the tobacco rod 1.

In other possible embodiments, the first electrode 61 and the second electrode 62 may be disposed on both sides of the cigarette rod 1.

Above-mentioned, control atomizing control module 4's work through main control module 3, thereby make atomizing module 8 heat the atomizing to the tobacco tar, satisfy the basic demand of user to the electron cigarette, and provide the electric current of contact electrode 6 through EMS pulse module 5 control power module 7, make contact electrode 6 output the little electric current of high frequency as the EMS pulse, through the mood of the user of alleviating of little electric current, reach the physiotherapy effect, satisfy the physiotherapy demand of user to the electron cigarette. And the output characteristics of the contact electrode 6 are adjusted by controlling the waveform output from the main control module 3 to the bases of the third triode Q3, the fourth triode Q4, the fifth triode Q5 and the sixth triode Q6, so that the requirements of users in different use scenes are met. Simultaneously, through the PWM ripples to second MOS pipe Q8 output specific frequency to power module 7 is controlled to the power supply and the power supply size of heater strip, thereby controls the heater strip and heats the atomizing to the tobacco tar of leading-in atomizing chamber, satisfies the different requirements of user to the atomizing tobacco tar of electron smog.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims (10)

1. A physiotherapy electronic cigarette is characterized by comprising a cigarette rod (1) and a smoke generator (2);

the cigarette rod (1) is provided with a main control module (3), an atomization control module (4), an EMS pulse module (5), a contact electrode (6) and a power supply module (7) for supplying power, and the cigarette generator (2) is provided with an atomization module (8) for atomizing a smoke generating substance;

the main control module (3) is coupled to the atomization control module (4) and the EMS pulse module (5), the atomization control module (4) is coupled between the atomization module (8) and the power supply module (7), and the atomization control module (4) is controlled by the main control module (3) so as to control the power supply of the atomization module (8) by the power supply module (7);

the contact electrode (6) is arranged on the outer surface of the cigarette rod (1), the EMS pulse module (5) is coupled between the contact electrode (6) and the power supply module (7), and the EMS pulse module (5) is controlled by the main control module (3), so that the power supply module (7) controls the power supply of the contact electrode (6) to enable the contact electrode (6) to emit EMS electric pulses.

2. A therapeutic e-cigarette according to claim 1, wherein the contact electrode (6) comprises a first electrode (61) and a second electrode (62), the EMS pulse module (5) comprises a first transistor Q1, a second transistor Q2, a third transistor Q3, a fourth transistor Q4, a fifth transistor Q5 and a sixth transistor Q6;

emitters of a first triode Q1 and a second triode Q2 are connected to an output end of the power supply module (7), collectors of the first triode Q1 and the second triode Q2 are respectively connected with a first electrode (61) and a second electrode (62), a base of the first triode Q1 is connected to an output end of the power supply module (7), an output end of the power supply module (7) is connected to a collector of a fifth triode Q5, a base of a second triode Q2 is connected to an output end of the power supply module (7), an output end of the power supply module (7) is connected to a collector of a sixth triode Q6, emitters of the fifth triode Q5 and the sixth triode Q6 are grounded, and bases of the fifth triode Q5 and the sixth triode Q6 are respectively connected to the main control module (3);

the collectors of the third triode Q3 and the fourth triode Q4 are respectively connected with the collectors of the first triode Q1 and the second triode Q2, the bases of the third triode Q3 and the fourth triode Q4 are respectively connected with the main control module (3), and the emitting electrodes of the third triode Q3 and the fourth triode Q4 are grounded.

3. A physiotherapy electronic cigarette according to claim 1, wherein a voltage control module (9) is connected between the output of the power module (7) and the EMS pulse module (5), the voltage control module (9) being controlled by the main control module (3) to control the voltage provided by the power module (7) to the EMS pulse module.

4. A physiotherapy electronic cigarette according to claim 3, wherein said voltage control module (9) comprises a first MOS transistor Q7, a first inductor L1, a first diode D1 and a first polarity capacitor C1, the gate of the first MOS transistor Q7 is connected to said main control module (3), the drain is connected to the positive terminal of said power module (7) via a first inductor L1, the source is connected to the negative terminal of said power module (7), the anode and cathode terminals of the first diode D1 are connected to the drain of the first MOS transistor Q7 and said EMS pulse module (5), respectively, the positive terminal of the first polarity capacitor C1 is connected to the cathode terminal of the first diode D1, and the cathode terminal is connected to the source of said EMS pulse module (5).

5. A physiotherapy electronic cigarette according to claim 1, wherein the smoke generator (2) is a cartridge detachably connected to the tobacco rod (1), the smoke generating substance is tobacco tar, an oil storage chamber for storing the tobacco tar is arranged in the cartridge, the atomizing module (8) comprises a heating wire, one end of the heating wire is grounded, and the other end of the heating wire is connected to the atomizing control module (4).

6. A physiotherapy electronic cigarette according to claim 5, wherein the atomization control module (4) comprises a second MOS tube Q8, the grid of the second MOS tube Q8 is connected to the main control module (3), the drain is connected to the power supply module (7), and the source is connected to the heating wire.

7. A physiotherapy electronic cigarette according to claim 1, wherein the cigarette rod (1) is provided with a control button (10), the control button (10) is connected to the main control module (3), and the main control module (3) controls the EMS pulse module to work according to the output of the control button (10).

8. The physiotherapy electronic cigarette according to claim 1, wherein the cigarette rod (1) is provided with a holding detection module for detecting a holding condition on the cigarette rod (1) and outputting holding data, the holding detection module is connected to the main control module (3), and the main control module (3) controls the EMS pulse module (5) to operate according to the holding data output by the holding detection module.

9. A physiotherapeutic electronic cigarette according to claim 2, characterized in that the first electrode (61) is arranged around the second electrode (62) or the second electrode (62) is arranged around the first electrode (61).

10. A physiotherapy electronic cigarette according to any one of claims 1 to 8, wherein the contact electrode (6) is arranged in a ring shape to wrap the outer surface of the cigarette rod (1).

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