CN110327127A - Electric toothbrush prevents spatter control system and electric toothbrush - Google Patents

Abstract

The present invention provides a kind of electric toothbrushes to prevent spatter control system and electric toothbrush, is related to the technical field of living electric apparatus control, including governor circuit and circuit for controlling motor；Governor circuit is connected with circuit for controlling motor；After governor circuit is to detect electric toothbrush starting, timing increases the duty ratio of pwm signal, and the pwm signal after increase is sent to circuit for controlling motor；Circuit for controlling motor is to connect motor, according to pwm signal, driving motor vibration.Alleviate unlatching moment inertia existing in the prior art causes toothpaste or toothpaste to steep the technical issues of face is splashed very much greatly.

Description

Electric toothbrush prevents spatter control system and electric toothbrush

Technical field

The present invention relates to living electric apparatus control technology fields, prevent spatter control system more particularly, to a kind of electric toothbrush And electric toothbrush.

Background technique

Currently, people also increasingly pay attention to oral hygiene as quality of life is higher and higher, electric toothbrush is used and is also got over Come more universal.Divide from principle, electric tooth is brushed with two major classes: rotation and vibration.The toothbrush principle for rotating class is simple, is exactly electronic Machine drives round brush head rotation, reinforces friction effect while executing common brushing action.The interior of oscillatory type has One electrically driven (operated) vibrating motor can allow brush head to generate the swing in high frequency perpendicular to brush handle direction.

However, in use, first smear toothpaste regardless of electric toothbrush is rotary or oscillatory type and be then turned on, or Midway of brushing teeth first suspend and takes out toothbrush afterwards and gargle, and then opens and then brushes teeth again, since unlatching moment inertia is too big, having can It can lead to the toothpaste smeared or toothpaste bubble face is fallen or spattering problem, great inconvenience is brought when can brush teeth to consumer.

Summary of the invention

The purpose of the present invention is to provide electric toothbrushes to prevent spatter control system and electric toothbrush, to alleviate existing skill Unlatching moment inertia present in art is too big and toothpaste or toothpaste is caused to steep the technical issues of face is splashed.

A kind of electric toothbrush provided by the invention prevents spatter control system, comprising: governor circuit and motor control electricity Road；The governor circuit is connected with the circuit for controlling motor；

After the governor circuit is to detect electric toothbrush starting, timing increases the duty ratio of pwm signal, and will increase Pwm signal afterwards is sent to the circuit for controlling motor；

The circuit for controlling motor, according to the pwm signal, drives the motor oscillating to connect motor.

Further, the system also includes:

Key control circuit, the first end of the key control circuit are connected with the governor circuit；

The key control circuit is to receive user key-press information, after receiving user key-press information, changes key The level signal of control circuit and governor circuit junction；

When the level signal of the governor circuit to detect change, the electric toothbrush starting is determined.

Further, the system also includes battery system, the battery system respectively with the governor circuit, described Circuit for controlling motor is connected with the second end of the key control circuit；

After the key control circuit receives user key-press information, controlling the battery system is the governor circuit It powers with the circuit for controlling motor, so that the governor circuit and circuit for controlling motor work.

Further, the battery system includes: battery and booting cell voltage conversion circuit；

The second end of the key control circuit is arranged between the battery and the booting cell voltage conversion circuit；

After the key control circuit receives user key-press information, the battery and the booting cell voltage is connected Conversion circuit, so that the voltage that the battery is sent is converted to operating voltage by the booting cell voltage conversion circuit, with institute Stating operating voltage is that the governor circuit and the circuit for controlling motor are powered.

Further, the booting cell voltage conversion circuit includes: the first control switch and controller；

The control terminal of first control switch is connected with the second end of the key control circuit；First control is opened The first end of pass is connected with the battery；The second end of first control switch is connected with the controller；

After the key control circuit receives user key-press information, control first control switch first end and The second end of first control switch is connected, and the battery is connected with the booting cell voltage conversion circuit；

The controller in the first end of first control switch and the second end of first control switch to lead When logical, the voltage that the battery is sent is converted into operating voltage.

Further, the battery system further include: discharging management circuit, the discharging management circuit and the battery phase Even, to protect the battery.

Further, the system also includes latching circuits；

The latching circuit is connected with the governor circuit with the battery system respectively；

After the key control circuit receives user key-press information, the governor circuit to send enabling signal to The latching circuit；

The latching circuit to after receiving the enabling signal, be connected the booting cell voltage conversion circuit and The battery, so that the booting cell voltage conversion circuit is powered to the governor circuit and the circuit for controlling motor.

Further, the latching circuit includes the second control switch；

The control terminal of second control switch is connected with the governor circuit；The first end of second control switch with The control terminal of first control switch is connected；The second end of second control switch is grounded；

After second control switch is to receive the enabling signal, the first end of second control switch is connected With the second end of second control switch, the booting cell voltage conversion circuit and the battery is connected.

Further, the system also includes battery voltage detection circuit and display control circuits；

One end of the battery voltage detection circuit is connected with the second end of first control switch；The cell voltage Detection circuit is connected with the governor circuit；The governor circuit is connected with the display control circuit；

Voltage of the battery voltage detection circuit to detect the battery；

The governor circuit generates charge condition to the voltage according to the battery, is sent to the display control electricity Road；

The display control circuit is to show charge condition.

A kind of electric toothbrush provided by the invention, comprising: electric toothbrush ontology and according to any one of above-described embodiment Electric toothbrush prevent spatter control system, the electric toothbrush prevents spatter control system to be arranged in the electric toothbrush ontology On.

Electric toothbrush provided by the invention prevents spatter control system and electric toothbrush, can by governor circuit and Circuit for controlling motor, governor circuit are connected with circuit for controlling motor, after governor circuit is to detect electric toothbrush starting, timing Increase the duty ratio of pwm signal, and the pwm signal after increase is sent to circuit for controlling motor, circuit for controlling motor connection electricity Machine, according to pwm signal, driving motor vibration in this way can be smaller by the setting of the duty ratio of initial p WM signal, and according to the time The duty ratio that timing increases pwm signal can be alleviated in the prior art so that the Vibration Condition of electric toothbrush becomes larger from small Existing unlatching moment inertia is too big and toothpaste or toothpaste is caused to steep the technical issues of face is splashed.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of structure chart that electric toothbrush provided in an embodiment of the present invention prevents spatter control system；

Fig. 2 is the course of work flow chart that electric toothbrush provided in an embodiment of the present invention prevents spatter control system；

Fig. 3 is another structure chart that electric toothbrush provided in an embodiment of the present invention prevents spatter control system；

Fig. 4 is the circuit structure diagram that electric toothbrush provided in an embodiment of the present invention prevents spatter control system.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with embodiment, it is clear that described reality Applying example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, the common skill in this field Art personnel every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

Currently, since electric toothbrush unlatching moment inertia is too big, it is possible to the toothpaste smeared or toothpaste bubble face be caused to fall Or spattering problem, great inconvenience is brought when can brush teeth to consumer, is based on this, electric toothbrush provided by the invention prevents from splashing Control system and electric toothbrush, can be by governor circuit and circuit for controlling motor, governor circuit and circuit for controlling motor It is connected, after governor circuit is to detect electric toothbrush starting, timing increases the duty ratio of pwm signal, and by the PWM after increase Signal is sent to circuit for controlling motor, and circuit for controlling motor connects motor, and according to pwm signal, driving motor vibration in this way can be with The duty ratio setting of initial p WM signal is smaller, and according to the duty ratio of time timing increase pwm signal, so that electric toothbrush Vibration Condition become larger from small, it is too big and lead to toothpaste or tooth that unlatching moment inertia existing in the prior art can be alleviated Cream steeps the technical issues of face is splashed, and improves the experience sense of user.

As shown in connection with fig. 1, a kind of electric toothbrush provided by the invention prevents spatter control system, comprising: governor circuit 110, circuit for controlling motor 120；The governor circuit 110 is connected with the circuit for controlling motor 120；

After the governor circuit 110 is to detect electric toothbrush starting, timing increases the duty ratio of pwm signal, and will Pwm signal after increase is sent to the circuit for controlling motor 120；Wherein, the duty ratio that timing increases pwm signal is understood that Increase the duty ratio of the same ratio of pwm signal for identical time interval, for example, when initial duty cycle is 2%, each minute Increase the 10% of pwm signal, after increasing for the first time, be the 12% of pwm signal, is the 22% of pwm signal after second increases (initial duty cycle+first time 10%+ secondary 10%) is 32% (initial duty of pwm signal after third time increases The 10% of 10%+ third time more secondary than the 10%+ of+first time), and so on.Or, it can be understood as according to incremental Time interval increases the duty ratio of the same ratio of pwm signal, for example, the time continues 1 minute, duty ratio when increasing for the first time It is 12%, when increasing for the second time, the time continues 1 point 10 seconds, duty ratio 22%, and the third time increase time continues 1 point 20 seconds, accounts for Sky ratio is 32%, and so on.Or, it can be understood as increase the same ratio of pwm signal according to the time interval successively decreased Duty ratio, for example, the time continues 1 minute, duty ratio 12% when increasing for the first time, when increasing for the second time, the time continues 40 Second, duty ratio 22%, the third time increase time is for 20 seconds, duty ratio 32%, and so on.Or, it can be understood as Increase the duty ratio of the increasing proportion of pwm signal according to incremental time interval, for example, the time continues 1 point when increasing for the first time Clock, duty ratio were 12% (initial duty cycle+first time 10%), and when increasing for the second time, the time continues 1 point 10 seconds, duty ratio For 32% (it is 20% that second of initial duty cycle+first time 10%+, which increases ratio), the third time increase time continues 1 point 30 Second, duty ratio is that 62% (second of increase ratio of initial duty cycle+first time 10%+ is that 20%+ third time increase ratio is 30%), and so on.Similar, increase the duty ratio of the ratio of successively decreasing of pwm signal according to incremental time interval.Alternatively, can To be interpreted as increasing according to the time interval successively decreased the duty ratio of the increasing proportion of pwm signal, for example, when increasing for the first time, when Between continue 1 minute, duty ratio 12%, second when increasing, and the time continues 40 seconds, duty ratio 32%, when third time increases Between for 20 seconds, duty ratio 62%, and so on；Similar, increase the decline ratio of pwm signal according to the time interval successively decreased The duty ratio of example.

Certainly, time interval, duty ratio ratio can also be controlled according to irregular rule, in this regard, the present invention is simultaneously Specific control is not done.

The circuit for controlling motor 120, according to the pwm signal, drives the motor 100 to shake to connect motor 100 It is dynamic.

As shown in connection with fig. 2, the course of work of the governor circuit 110 can be with are as follows: and S11: judging whether electric toothbrush is switched on, If so, thening follow the steps S12, start timer, and determine that the initial duty cycle of pwm signal works, wherein initially accounts for It is empty than can be smaller, such as 2%, so that the vibration of the motor of electric toothbrush is smaller, and step S13 judges timer In time whether meet the predetermined time, if so, then follow the steps S14, on the basis of initial duty cycle, increase PWM letter Number duty ratio.Step S15 stops the duty ratio for increasing pwm signal when the duty ratio of pwm signal reaches threshold value.In this way, can To be worked with the corresponding duty ratio of the threshold value of current pwm signal, until user closes electric toothbrush.

In some embodiments, as shown in connection with fig. 4, circuit for controlling motor 120 includes: controller U3, resistance R11, resistance R12, motor M, the end VCC of controller U3 and the end nSLEEP of controller U3 are all connected with the operating voltage output end of battery system (port of mark+5), so that battery system 140 is controller U3 power supply, the end IN1 of controller U3 and the end IN2 of controller U3 The port of the PWM1 and PWM2 of governor circuit 110 are connect with resistance R12 by resistance R11 respectively, so that governor circuit 110 passes through The port of PWM1 and PWM2 sends pwm signal to circuit for controlling motor.The port VM (mark BAT+) connection battery of controller U3 BAT+, controller U3 are that motor M is powered according to pwm signal and cell voltage.

In some embodiments, as shown in connection with fig. 3, the mode for starting electric toothbrush can be with are as follows: the system also includes:

Key control circuit 130, the first end of the key control circuit 130 are connected with the governor circuit 110；

The key control circuit 130 is to receive user key-press information, and after receiving user key-press information, change is pressed The level signal of key control circuit 130 and 110 junction of governor circuit；

When the level signal of the governor circuit 110 to detect change, the electric toothbrush starting is determined.

In actual application, electric toothbrush further includes electronic display, has starting key in the electronic display, The starting key includes, when user does not have key, the level signal of electricity being connect with governor circuit in key control circuit 130 For high point, after user key-press, it is low spot position that key control circuit, which changes with the level signal of 110 tie point of governor circuit, When the governor circuit 110 detects this change this to low potential by high potential, the electric toothbrush starting is determined.

Except of course that the mode of the above-mentioned determination electric toothbrush starting, can also use speech recognition, be known using voice The unlatching of other technical controlling electric toothbrush.

As shown in connection with fig. 4, a kind of circuit structure diagram of key control circuit is shown；Key control circuit 130 includes pressing Key, resistance R9, resistance R10, diode D2, diode D3, capacitor C6, such as the first end (mark of the key control circuit 130 in figure Note KEY1) be connected with the KEY1 in governor circuit, KEY1 for key control circuit and governor circuit 110 junction, resistance R9, Resistance R10 is to operation element, such as key of protecting key control circuit 130.

As shown in connection with fig. 3, the system also includes battery system 140, the battery system 140 respectively with the master control Circuit 110, the circuit for controlling motor are connected with the second end of the key control circuit；

After the key control circuit receives user key-press information, controlling the battery system 140 is the master control Circuit 110 and the circuit for controlling motor 120 are powered, so that 120 work of the governor circuit 110 and the circuit for controlling motor Make.

Wherein, electric toothbrush of the invention prevent spatter control system can also using detachable battery system 140 into Row work.

In some embodiments, the battery system 140 includes: battery and booting cell voltage conversion circuit 142；

The key control circuit 130 second end (end nsleep of such as Fig. 4 mark) setting the battery with it is described It is switched between cell voltage conversion circuit 142；

After the key control circuit 130 receives user key-press information, the battery and the booting battery is connected Voltage conversion circuit 142, so that the voltage that the battery is sent is converted to work by the booting cell voltage conversion circuit 142 Voltage is that the governor circuit 110 and the circuit for controlling motor 120 are powered with the operating voltage.

As shown in connection with fig. 4, the booting cell voltage conversion circuit 142 includes: the first control switch Q1 and controller U1；

The control terminal (port nsleep) of the first control switch Q1 and the second end of the key control circuit 130 (nsleep) it is connected；The first end of the first control switch Q1 is connected with the battery；The of the first control switch Q1 Two ends are connected with the controller U1；

After the key control circuit receives user key-press information, control first control switch first end and The second end of first control switch is connected, and the battery and the booting cell voltage conversion circuit 142 is connected, institute State controller U1 to the first control switch Q1 first end and the first control switch Q1 second end conducting when, The voltage that the battery is sent is converted into operating voltage.After user key-press, the voltage of the port nsleep one is given, is turned it on First control switch Q1, so that governor circuit 110 and circuit for controlling motor 120 be made to work.

Wherein, the first control switch Q1 is field-effect tube, and the control terminal of the first control switch Q1 is field-effect tube Grid, the first end of the first control switch Q1 are the drain electrode of field-effect tube, and the second end of the first control switch Q1 is field-effect tube Source electrode.

In conjunction with shown in Fig. 4, it is grounded after the end the VIN connection capacitor C1 of controller U1, the end EN of controller U1 connects VIN End, the end VOUT of controller U1 are operating voltage output end (port of mark+5V), and the end VFB of controller U1 passes through resistance R1 The end VFB for operating voltage output end, controller U1 is grounded by resistance R2.

In switching battery voltage conversion circuit, further include resistance R1, resistance R2, resistance R16, resistance R17, diode D1, Inductance L1, capacitor C2, capacitor C3, wherein resistance R1, resistance R2, resistance R16, resistance R17 are the effect for protecting circuit, capacitor C2, capacitor C3 are the effect of energy storage filtering.

In conjunction with shown in Fig. 4, the port mark "+5V " of key control circuit 130 and switching battery voltage conversion circuit mark Infuse the port "+5V " be connected, can using switching battery voltage conversion circuit provide operating voltage can be by the port "+5V " as key Control circuit 130 is powered.

In order to protect battery, reduces the problems such as over-discharge, short circuit etc. occurs in battery and damage battery, in some embodiments, institute State battery system further include: discharging management circuit 141, the discharging management circuit 141 is connected with the battery, to protect State battery.

As shown in connection with fig. 4, discharging management circuit includes: controller U2, resistance R3, capacitor C4, wherein controller U2's Vdd terminal works as electric discharge by resistance R3 connection anode, the GND connection battery cathode of controller U2, the VM ground connection of controller U2 Management circuit detects that the voltage of battery discharge is more than after minimum cell voltage or discovery circuit short circuit etc. battery is improper When work, the end discharging management circuit VM is separated with ground, so that battery BAT can not work normally.

After key triggering, in the short time, the first control switch can be made to be connected, however, if desired continuing to be connected State, as shown in connection with fig. 3, the system also includes latching circuits 150；

The latching circuit 150 is connected with the governor circuit 110 with the battery system 140 respectively.

After the key control circuit receives user key-press information, the governor circuit 110 is to send starting letter Number give the latching circuit 150；

The latching circuit 150 is after receiving the enabling signal, to be connected the booting cell voltage conversion electricity Road 142 and the battery, so that the booting cell voltage conversion circuit 142 gives the governor circuit 110 and the motor control Circuit 120 processed is powered.Since latching circuit is when being not turned on, the battery is not turned on booting cell voltage conversion circuit 142, Then the electricity of battery can be expended to avoid governor circuit 110 and circuit for controlling motor 120 when standby.

As shown in connection with fig. 4, a kind of circuit structure diagram of latching circuit is shown, latching circuit 150 includes that the second control is opened Q2 is closed, the control terminal (mark sleep) of the second control switch Q2 is connected with the governor circuit 110 (mark sleep)；Institute The first end (mark nsleep) for stating the second control switch Q2 (is marked with the control terminal of first control switch respectively Nsleep) it is connected with the key control circuit 130 (mark nsleep)；The second end of the second control switch Q2 is grounded.

After the second control switch Q2 is to receive the enabling signal, the of the second control switch Q2 is connected The second end of one end and the second control switch Q2, the booting cell voltage conversion circuit and the battery is connected.

In conjunction with shown in Fig. 4, the second control switch Q2 can be NPN type triode, and the base stage of the triode passes through resistance R4 connection governor circuit 110, the port nsleep of the collector connection key control circuit of the triode and battery system The emitter of the port nsleep, triode connects ground and resistance R5.When user's control key control circuit key, master control electricity After road 110 detects electric toothbrush starting, enabling signal is sent to the base stage of the triode, so that triode ON, when three When pole pipe is connected, is connected between battery system and governor circuit 110 and circuit for controlling motor 120, powers for it.

In order to enable user more connects the charge condition of electric toothbrush, in some embodiments, as shown in connection with fig. 3, institute State system further include: battery voltage detection circuit 160 and display control circuit 170；

Second end of the one end (port of mark VDD) of the battery voltage detection circuit 160 with the control switch Q1 It is connected；The other end (port of mark AD-V1) of the battery voltage detection circuit 160 is connected with the governor circuit 110；Institute Governor circuit 110 is stated to be connected with the display control circuit 170；

The battery voltage detection circuit 160 is to detect current voltage；For example, as shown in connection with fig. 4, the cell voltage One end (port of mark VDD) of detection circuit 160 is grounded, the battery voltage detection circuit by resistance R6 and resistance R7 160 one end (port of mark VDD) connects governor circuit 110 with resistance R8 by resistance R6, and connects capacitor C5 ground connection.

The governor circuit 110 is sent to the display control electricity to generate charge condition according to the current voltage Road 170.For example, as shown in connection with fig. 4, the electric discharge of battery can be calculated according to the current voltage of resistance R6, resistance R7 and detection Voltage.Since the discharge voltage of battery has threshold value, when being more than the discharge voltage of battery, the case where battery will appear over-discharge, So governor circuit 110 detects current cell voltage, judge current cell voltage whether be more than cell discharge voltage threshold Value then generates the charge condition not electric about battery if more than, if not above generating that there are also electricity about battery Charge condition.

The display control circuit 170 is to show charge condition.Show that charge condition can use light emitting diode, when When out of power, flashing can be carried out and shown, when there is electricity, can carry out growing bright display.

As shown in connection with fig. 4, other than electricity is shown, it can also include the display situation of each mode of electric toothbrush, shine The quantity of diode can be depending on the case where display, and in Fig. 4 for 5, one represents electricity and shows, other four tables Show the service condition of four modes.

In conjunction with shown in Fig. 4, the system also includes: multiple resistance, for example, resistance R1~resistance R15, the multiple electricity Resistance setting key control circuit, the latching circuit, the booting cell voltage conversion circuit, the discharging management circuit, On one or more of display control circuit, battery voltage detection circuit circuit.For example, the resistance R9 of key control circuit With resistance R10；The resistance R4 and resistance R5 of latching circuit；Resistance R1, the resistance R2, circuit of booting cell voltage conversion circuit R16, resistance R17；The resistance R3 of discharging management circuit；Resistance R13, resistance R14, the circuit R15 of display control circuit；Battery electricity Press the resistance R8 of detection circuit.

A kind of electric toothbrush provided by the invention, comprising: electric toothbrush ontology and according to any one of above-described embodiment Electric toothbrush prevent spatter control system, the electric toothbrush prevents spatter control system to be arranged in the electric toothbrush ontology On.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (10)

1. a kind of electric toothbrush prevents spatter control system characterized by comprising governor circuit and circuit for controlling motor； The governor circuit is connected with the circuit for controlling motor；

After the governor circuit is to detect electric toothbrush starting, timing increases the duty ratio of pwm signal, and will be after increase Pwm signal is sent to the circuit for controlling motor；

The circuit for controlling motor, according to the pwm signal, drives the motor oscillating to connect motor.

2. electric toothbrush according to claim 1 prevents spatter control system, which is characterized in that the system also includes:

Key control circuit, the first end of the key control circuit are connected with the governor circuit；

The key control circuit is to receive user key-press information, after receiving user key-press information, changes and presses key control The level signal of circuit and governor circuit junction；

When the level signal of the governor circuit to detect change, the electric toothbrush starting is determined.

3. electric toothbrush according to claim 2 prevents spatter control system, which is characterized in that the system also includes: Battery system, the battery system respectively with the governor circuit, the circuit for controlling motor and the key control circuit Second end is connected；

After the key control circuit receives user key-press information, the battery system is controlled as the governor circuit and institute Circuit for controlling motor power supply is stated, so that the governor circuit and circuit for controlling motor work.

4. electric toothbrush according to claim 3 prevents spatter control system, which is characterized in that the battery system packet It includes: battery and booting cell voltage conversion circuit；

The second end of the key control circuit is arranged between the battery and the booting cell voltage conversion circuit；

After the key control circuit receives user key-press information, the battery is connected and the booting cell voltage is converted Circuit, so that the voltage that the battery is sent is converted to operating voltage by the booting cell voltage conversion circuit, with the work Making voltage is that the governor circuit and the circuit for controlling motor are powered.

5. electric toothbrush according to claim 4 prevents spatter control system, which is characterized in that the booting cell voltage Conversion circuit includes: the first control switch and controller；

The control terminal of first control switch is connected with the second end of the key control circuit；First control switch First end is connected with the battery；The second end of first control switch is connected with the controller；

After the key control circuit receives user key-press information, the first end of first control switch and described is controlled The second end of first control switch is connected, and the battery is connected with the booting cell voltage conversion circuit；

The controller to first control switch first end and first control switch second end conducting when, The voltage that the battery is sent is converted into operating voltage.

6. electric toothbrush according to claim 4 or 5 prevents spatter control system, which is characterized in that the battery system Further include: discharging management circuit, the discharging management circuit are connected with the battery, to protect the battery.

7. electric toothbrush according to claim 5 prevents spatter control system, which is characterized in that the system also includes: Latching circuit；

The latching circuit is connected with the governor circuit with the battery system respectively；

After the key control circuit receives user key-press information, the governor circuit is to send enabling signal to described Latching circuit；

The latching circuit to after receiving the enabling signal, be connected the booting cell voltage conversion circuit with it is described Battery, so that the booting cell voltage conversion circuit is powered to the governor circuit and the circuit for controlling motor.

8. electric toothbrush according to claim 7 prevents spatter control system, which is characterized in that

The latching circuit includes the second control switch；

The control terminal of second control switch is connected with the governor circuit；The first end of second control switch with it is described The control terminal of first control switch is connected；The second end of second control switch is grounded；

After second control switch is to receive the enabling signal, first end and the institute of second control switch is connected The second end of the second control switch is stated, the booting cell voltage conversion circuit and the battery is connected.

9. electric toothbrush according to claim 5 prevents spatter control system, which is characterized in that the system also includes: Battery voltage detection circuit and display control circuit；

One end of the battery voltage detection circuit is connected with the second end of first control switch；The battery voltage detection Circuit is connected with the governor circuit；The governor circuit is connected with the display control circuit；

Voltage of the battery voltage detection circuit to detect the battery；

The governor circuit generates charge condition, is sent to the display control circuit to the voltage according to the battery；

The display control circuit is to show charge condition.

10. a kind of electric toothbrush characterized by comprising electric toothbrush ontology and -9 described in any item according to claim 1 Electric toothbrush prevents spatter control system, and the electric toothbrush prevents spatter control system to be arranged in the electric toothbrush ontology On.