CN207650600U - The drive system of electric shoe polishing machine - Google Patents
The drive system of electric shoe polishing machine Download PDFInfo
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- CN207650600U CN207650600U CN201721749714.8U CN201721749714U CN207650600U CN 207650600 U CN207650600 U CN 207650600U CN 201721749714 U CN201721749714 U CN 201721749714U CN 207650600 U CN207650600 U CN 207650600U
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Abstract
The utility model is related to a kind of drive system of electric shoe polishing machine, including power management module and the main control module and output module that are connect with the power management module, the main control module are connect with the output module;For at least the main control module being given to power, a battery is connect the power management module with the power management module;The main control module includes singlechip control chip U3 and the control button and output port that are connect with the singlechip control chip U3;The output module includes hairbrush control circuit and fuel-displaced control circuit.The operation for the low and high level control output module that the drive system of the electric shoe polishing machine is exported using the singlechip control chip of main control module, the shoe-cleaning machine can control polishing-shoes hairbrush and carry shoe polish polishing-shoes together simultaneously, and polishing-shoes is convenient, and manufacturing cost is low;The driving system circuit is novel in design, and output voltage electric current is stablized, and loss is small.
Description
Technical field
The utility model is related to electric shoe polishing machine actuation techniques fields, and in particular, to the drive system of electric shoe polishing machine.
Background technology
With the rapid development of society, the continuous improvement of living standard, people are also higher and higher to the requirement for wearing appearance clothes.
Leather shoes shining had not only embodied the mental attitude of people, but also the quality accomplishment of reflection people;Everybody wear shoes, wear shoes just be unable to do without wiping, because
This life of this shoe-cleaning machine product becomes demand.
With modern's work and the accelerating rhythm of life, existing trend often does the fuselage of shoe-cleaning machine as far as possible
It is small easy to carry, however often people have no time time waste one to hold shoe brush crowded oil on the other hand, artificial polishing-shoes is cumbersome and time consuming,
It makes troubles to user.
Therefore, a kind of drive system of electric shoe polishing machine need to be provided, drive system realizes that collection shoes shoe polishing machine is electronic
It is fuel-displaced, so as to solve the deficiencies in the prior art.
Utility model content
A kind of drive system of electric shoe polishing machine that in order to overcome the deficiencies of the prior art, the utility model provides, this is
The cleaning of system collection polishing-shoes, one of polishing, integrated level are high.
The technical solution of the utility model is as follows:
A kind of drive system of electric shoe polishing machine, including power management module and connect with the power management module
Main control module and output module, the main control module are connect with the output module;The power management module is at least giving
The main control module power supply, a battery are connect with the power management module;The main control module includes singlechip control chip
U3 and the control button and output port being connect with the singlechip control chip U3;The output module includes hairbrush control electricity
Road and fuel-displaced control circuit.
Preferably, the power management module includes protecting circuit and charge-discharge control circuit, the battery and the guarantor
The electrode input end BAT+ of protection circuit is connected with negative input BAT-, the charge-discharge control circuit and the protection circuit
Electrode input end BAT+ connections.
Preferably, the protection circuit include the first protection chip U2, the second protection chip Q1, electrode input end BAT+ and
Negative input BAT-, the first protection chip U2 are connected with the second protection chip Q1, the electrode input end BAT+
It is connect with the first protection chip U2, the electrode input end BAT- protects chip U2 and described second with described first respectively
Protect chip Q1 connections.Wherein, the electrode input end BAT+ is connect with the pin 5 of the first protection chip U2, and described the
The pin 1 and 3 of one protection chip U2 is connect with the pin 4 and 6 of the second protection chip Q1, the first protection chip U2's
The pin 1 of pin 6 and the second protection chip Q1 are connect with the negative input BAT-, the first protection chip U2's
One 3rd resistor R3 ground connection of the series connection of pin 2, the pin 3 of the second protection chip Q1 are grounded.
Preferably, the charge-discharge control circuit is used to control the electric discharge of the battery or charges to the battery,
The charge-discharge control circuit includes charge and discharge control chip U1 and the charge power supply that is connect with the charge and discharge control chip U1
Input terminal CHG, state display lamp D1 and power output end, the electrode input end BAT+ and charge and discharge control chip U1's
Pin 2 connects.Wherein, the charge power supply input terminal CHG is connect with the pin 6 of the charge and discharge control chip U1, described to fill
The pin 1 of control of discharge chip U1 is connect with the power output end, and the pin 7 and 8 of the charge and discharge control chip U1 is distinguished
It is connected in series with Light-emitting diode LED ground connection, the pin 4 of the charge and discharge control chip U1 is grounded.
Preferably, the pin of one the 4th resistance R4 and the singlechip control chip U3 of the electrode input end BAT+ series connection
1 connection, the pin 2,3 and 4 of the singlechip control chip U3 are connect with the control button, the singlechip control chip U3
Pin 5,6 and 7 connect with the output port.
Preferably, the control button includes key switch SW1 and power switch SW2, one end of the key switch SW1
It is connect with the pin 4 of the singlechip control chip U3, the key switch SW1 ground connection of the other end;The power switch SW2
Pin 2 and 4 connect respectively with the pin of the singlechip control chip U3 3 and 2, the pin 3 of the power switch SW2 connects
Ground.
Preferably, the output port includes output connecting pin T-LAOD, output connecting pin DIS-EN and output connecting pin
DIS-EN2;The pin 5 of the singlechip control chip U3 is connect with the output connecting pin DIS-EN2, the microcontroller control
The pin 6 of chip U3 is connect with the output connecting pin DIS-EN, pin 7 and the output of the singlechip control chip U3
Connecting pin T-LAOD connections.
Preferably, the hairbrush control circuit is connect with the electrode input end BAT+, and the hairbrush control circuit includes
6th resistance R6, third metal-oxide-semiconductor Q3, the tenth resistance R10 and motor MD1;The output connecting pin DIS-EN and the 6th electricity
R6 connections are hindered, the 6th resistance R6 is connect with the grid of the third metal-oxide-semiconductor Q3, the drain electrode of the third metal-oxide-semiconductor Q3 and institute
State motor MD1 connections, the one eleventh resistor R11 ground connection of source series of the third metal-oxide-semiconductor Q3, the motor MD1 with it is described
Electrode input end BAT+ connections, the motor MD1 are connect with a polishing-shoes brush head;Described in the output connecting pin T-LAOD series connection
Tenth resistance R10 is connect with the source electrode of the third metal-oxide-semiconductor Q3.
Preferably, the motor MD1 parallel connections one second diode D2 and the 8th capacitance C8.
Preferably, the fuel-displaced control circuit is connect with the electrode input end BAT+, and the fuel-displaced control circuit includes
Second metal-oxide-semiconductor Q2 and oil pump MD2;The output connecting pin DIS-EN2 is connect with the grid of the second metal-oxide-semiconductor Q2, and described
The drain electrode of three metal-oxide-semiconductor Q3 is connect with the oil pump MD2, the 9th resistance R9 ground connection of source series 1 of the second metal-oxide-semiconductor Q2, institute
It states oil pump MD2 to connect with the electrode input end BAT+, the oil pump MD2 is connect with a flowline.
Preferably, the oil pump MD2 parallel connections one third diode D3 and the 9th capacitance C9.
The beneficial effects of the utility model are:Compared with prior art, the drive system of the electric shoe polishing machine uses master control
The operation of the low and high level control output module of the singlechip control chip output of module, the shoe-cleaning machine can control polishing-shoes simultaneously
Hairbrush carries shoe polish polishing-shoes together, and polishing-shoes is convenient, and manufacturing cost is low;The driving system circuit is novel in design, output voltage electric current
Stablize, loss is small.
Description of the drawings:
Fig. 1 is the frame diagram of the drive system of electric shoe polishing machine described in the utility model.
Fig. 2 is the circuit diagram of the drive system of electric shoe polishing machine described in the utility model.
Fig. 3 is that the drive system of electric shoe polishing machine described in the utility model protects the circuit diagram of circuit.
Fig. 4 is the circuit diagram of the drive system charge-discharge control circuit of electric shoe polishing machine described in the utility model.
Fig. 5 is the circuit diagram of the drive system main control module of electric shoe polishing machine described in the utility model.
Fig. 6 is the circuit diagram of the drive system output module of electric shoe polishing machine described in the utility model.
Specific implementation mode
In order to make the goal of the invention of the utility model, technical solution and technique effect are more clearly understood, with reference to tool
Body embodiment is described further the utility model.It should be understood that specific embodiment described herein, be only used for explaining
The utility model is not used to limit the utility model.
It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element
Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ",
" right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.
Unless otherwise defined, all of technologies and scientific terms used here by the article is led with the technology for belonging to the utility model
The normally understood meaning of technical staff in domain is identical.Terminology used in the description of the utility model herein only be
The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet
Include any and all combinations of one or more relevant Listed Items.
Referring to Figures 1 and 2, the drive system of the electric shoe polishing machine of the utility model, including power management module 100 and
The main control module 200 and output module 300 being connect with the power management module 100;The main control module 200 and the output
Module 300 connects.
With reference to Fig. 2, Fig. 3 and Fig. 4, the power management module 100 is at least giving the main control module 200 to power;One
Battery is connect with the power management module 100, and the power management module 100 includes protection circuit 110 and charge and discharge control
Circuit 120, the battery is connect with the electrode input end BAT+ and negative input BAT- of the protection circuit 110, described to fill
Charge/discharge control circuit 120 is connect with the electrode input end BAT+ of the protection circuit 110.In the present embodiment, the battery is lithium
Battery.
With reference to Fig. 2 and Fig. 3, in order to provide stable supply voltage, there are two protections for the setting of protection circuit 110 of the system
The battery is protected in chip-in series connection.The protection circuit 110 includes the first protection chip U2, the second protection chip
Q1, electrode input end BAT+ and negative input BAT-, the first protection chip U2 are connected with the second protection chip Q1,
The electrode input end BAT+ is connect with the first protection chip U2, and the electrode input end BAT- is protected with described first respectively
Shield chip U2 is connected with the second protection chip Q1.In the present embodiment, the electrode input end BAT+ is protected with described first
The pin 5 for protecting chip U2 connects, the pin 1 of the first protection chip U2 and 3 protect chip Q1 with described second pin 4 and
6 connections, the pin 1 and the negative input of the pin 6 of the first protection chip U2 and the second protection chip Q1
BAT- connections, the one 3rd resistor R3 ground connection of the series connection of pin 2 of the first protection chip U2, the second protection chip Q1's draws
Foot 3 is grounded.Wherein, the model of the first protection chip U2 is preferably
The model of DW01, the second protection chip Q1 are preferably FS8205.
With reference to Fig. 2 and Fig. 4, the charge-discharge control circuit 120 is used to control the electric discharge of the battery or to the battery
It charges, the charge-discharge control circuit 120 includes charge and discharge control chip U1 and connects with the charge and discharge control chip U1
Charge power supply input terminal CHG, state display lamp D1 and the power output end 121 connect, the electrode input end BAT+ are filled with described
The pin 2 of control of discharge chip U1 connects.In embodiment, the charge power supply input terminal CHG and the charge and discharge control core
The pin 6 of piece U1 connects, and the pin 1 of the charge and discharge control chip U1 is connect with the power output end 121, the charge and discharge
The pin 7 of control chip U1 and 8 is connected in series with Light-emitting diode LED ground connection respectively, and the charge and discharge control chip U1's draws
Foot 4 is grounded.Wherein, the state display lamp D1 includes two Light-emitting diode LED;The model of the charge and discharge control chip U1
Preferably HM5920.When the charge power supply input terminal CHG input powers, the charge and discharge control chip U1 gives the battery
Charging;When the battery is powered from the electrode input end BAT+ to the charge and discharge control chip U1, the charge and discharge is automatically controlled
Coremaking piece U1 controls the battery and is exported from the power output end 121.
With reference to Fig. 2 and Fig. 5, the main control module 200 includes singlechip control chip U3 and controls core with the microcontroller
The control button 210 and output port 220 of piece U3 connections, electrode input end BAT+ one the 4th resistance R4 of series connection and the list
The pin 1 that piece machine controls chip U3 connects, and pin 2,3 and 4 and the control button 210 of the singlechip control chip U3 connect
It connects, the pin 5,6 and 7 of the singlechip control chip U3 is connect with the output port 220.Wherein, the microcontroller control
The model of chip U3 is preferably XY272A.
With reference to Fig. 2 and Fig. 5, the control button 210 includes key switch SW1 and power switch SW2, the key switch
One end of SW1 is connect with the pin 4 of the singlechip control chip U3, the key switch SW1 ground connection of the other end;The electricity
The pin 2 of source switch SW2 and 4 is connect with the pin of the singlechip control chip U3 3 and 2 respectively, the power switch SW2's
Pin 3 is grounded.In this embodiment, when the pin 3 of the power switch SW2 is connect with the pin 1 of the power switch SW2, institute
The drive system for stating electric shoe polishing machine is closed, and the pin 3 of the power switch SW2 is with the power switch SW2's
Pin 2 or 4 connects, and the drive system of the electric shoe polishing machine starts.Wherein, the power switch SW2 is selecting switch.
With reference to Fig. 2 and Fig. 5, the output port 220 includes output connecting pin T-LAOD, output connecting pin DIS-EN and defeated
Go out connecting pin DIS-EN2;The pin 5 of the singlechip control chip U3 is connect with the output connecting pin DIS-EN2, the list
The pin 6 of piece machine control chip U3 is connect with the output connecting pin DIS-EN, the pin 7 of the singlechip control chip U3 and
The output connecting pin T-LAOD connections.In this embodiment, the key switch SW1, the singlechip control chip U3 are pressed
The level for controlling the output connecting pin DIS-EN2 outputs is the operation that high level controls the output module 300;When the electricity
When the pin 3 of source switch SW2 is connect with its pin 2 or 4, the singlechip control chip U3 controls the output connecting pin DIS-
EN output high level controls the operation of the output module 300.The pin 3 of the power switch SW2 is connect with its pin 2, should
Electric shoe polishing machine is output module 300 described in low rate start, and the pin 3 of the power switch SW2 is connect with its pin 4, the electricity
Dynamic shoe-cleaning machine is output module 300 described in high-speed starting,
With reference to Fig. 2 and Fig. 6, the output module 300 includes the hairbrush control electricity being connect with the electrode input end BAT+
Road 310 and fuel-displaced control circuit 320;The hairbrush control circuit 310 includes the 6th resistance R6, third metal-oxide-semiconductor Q3, the tenth resistance
R10 and motor MD1;The output connecting pin DIS-EN is connect with the 6th resistance R6, the 6th resistance R6 and described the
The grid of three metal-oxide-semiconductor Q3 connects, and the drain electrode of the third metal-oxide-semiconductor Q3 is connect with the motor MD1, the third metal-oxide-semiconductor Q3's
One eleventh resistor R11 ground connection of source series, the motor MD1 are connect with the electrode input end BAT+, the motor MD1 and
One polishing-shoes brush head connects;The output connecting pin T-LAOD connects the source of the tenth resistance R10 and the third metal-oxide-semiconductor Q3
Pole connects.Wherein, the tenth resistance R10 is sampling resistor, which is 3.3K, and the tenth resistance R10 is realized to institute
State the sampling of motor MD1 speed and currents.In the present embodiment, the pin 6 of the singlechip control chip U3 exports different-waveband
High level, the driving current that third metal-oxide-semiconductor Q3 conducting is delivered to the motor MD1 is different, the motor MD1 operations
Rotating speed difference carries out polishing-shoes to realize that high speed or low speed control the polishing-shoes brush head.The model of the third metal-oxide-semiconductor Q3 is excellent
It is selected as 8205.
With reference to Fig. 2 and Fig. 6, when starting and stopping, in order to protect the motor MD1 not damage, the motor MD1 parallel connections one
Second diode D2 and the 8th capacitance C8.
With reference to Fig. 2 and Fig. 6, the fuel-displaced control circuit 320 includes the second metal-oxide-semiconductor Q2 and oil pump MD2;The output connection
End DIS-EN2 is connect with the grid of the second metal-oxide-semiconductor Q2, and the drain electrode of the third metal-oxide-semiconductor Q3 is connect with the oil pump MD2,
The 9th resistance R9 ground connection of source series 1 of the second metal-oxide-semiconductor Q2, the oil pump MD2 and electrode input end BAT+ connect
It connects, the oil pump MD2 is connect with a flowline.In the present embodiment, the pin 5 of the singlechip control chip U3 exports high electricity
Flat, the second metal-oxide-semiconductor Q2 conductings drive the oil pump MD2 work to which the flowline exports shoe polish.Second metal-oxide-semiconductor
The model of Q2 is preferably 2300.
With reference to Fig. 2 and Fig. 6, when starting and stopping, in order to protect the oil pump MD2 not damage, the oil pump MD2 parallel connections one
Third diode D3 and the 9th capacitance C9.
The operation principle of the drive system of the electric shoe polishing machine:
The power switch SW2 starts, and the pin 6 of the singlechip control chip U3 exports high level, the motor MD1
Start and controls the polishing-shoes brush head progress polishing-shoes.When the pin 1 and 3 of the power switch SW2 connects ground connection, then press institute
The pin 5 and 6 for stating key switch SW1, the singlechip control chip U3 exports high level, the motor MD1 and the oil pump
MD2 starts, and the flowline exports shoe polish and the polishing-shoes brush head carries shoe polish polishing-shoes together, easy to use.
The height that the drive system of the electric shoe polishing machine of the utility model is exported using the singlechip control chip of main control module
The operation of low level control output module, the shoe-cleaning machine can control polishing-shoes hairbrush and carry shoe polish polishing-shoes together, polishing-shoes side simultaneously
Just, manufacturing cost is low;The driving system circuit is novel in design, and output voltage electric current is stablized, and loss is small.
It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined
Assert that the specific implementation of the utility model is confined to these explanations.For the ordinary skill of the utility model technical field
For personnel, without departing from the concept of the premise utility, architectural form cans be flexible and changeable, and can be produced with subseries
Product.Several simple deduction or replace are only made, it is true by the claims submitted all to shall be regarded as belonging to the utility model
Fixed scope of patent protection.
Claims (10)
1. a kind of drive system of electric shoe polishing machine, which is characterized in that including power management module and with the power management
The main control module and output module of module connection, the main control module are connect with the output module;
For at least the main control module being given to power, a battery is connect the power management module with the power management module,
The power management module includes protection circuit and charge-discharge control circuit, and the anode of the battery and the protection circuit inputs
End BAT+ is connected with negative input BAT-, and the electrode input end BAT+ of the charge-discharge control circuit and the protection circuit connects
It connects;
The main control module include singlechip control chip U3 and with the singlechip control chip U3 control buttons connecting and
Output port;
The output module includes hairbrush control circuit and fuel-displaced control circuit.
2. the drive system of electric shoe polishing machine according to claim 1, which is characterized in that the electrode input end BAT+ strings
Join one the 4th resistance R4 to connect with the pin 1 of the singlechip control chip U3, the pin 2,3 of the singlechip control chip U3
It is connect with 4 with the control button, the pin 5,6 and 7 of the singlechip control chip U3 is connect with the output port.
3. the drive system of electric shoe polishing machine according to claim 1, which is characterized in that the output port includes output
Connecting pin T-LAOD, output connecting pin DIS-EN and output connecting pin DIS-EN2;The pin 5 of the singlechip control chip U3
It is connect with the output connecting pin DIS-EN2, the pin 6 of the singlechip control chip U3 and the output connecting pin DIS-EN
Connection, the pin 7 of the singlechip control chip U3 are connect with the output connecting pin T-LAOD.
4. the drive system of electric shoe polishing machine according to claim 3, which is characterized in that the hairbrush control circuit and institute
State electrode input end BAT+ connections, the hairbrush control circuit include the 6th resistance R6, third metal-oxide-semiconductor Q3, the tenth resistance R10 and
Motor MD1;The output connecting pin DIS-EN is connect with the 6th resistance R6, the 6th resistance R6 and the 3rd MOS
The grid of pipe Q3 connects, and the drain electrode of the third metal-oxide-semiconductor Q3 is connect with the motor MD1, the source electrode string of the third metal-oxide-semiconductor Q3
Join an eleventh resistor R11 ground connection, the motor MD1 is connect with the electrode input end BAT+, the motor MD1 and a polishing-shoes
Brush head connects;The connect source electrodes of the tenth resistance R10 and the third metal-oxide-semiconductor Q3 of the output connecting pin T-LAOD connect
It connects.
5. the drive system of electric shoe polishing machine according to claim 4, which is characterized in that motor MD1 parallel connection 1 the
Two diode D2 and the 8th capacitance C8.
6. the drive system of electric shoe polishing machine according to claim 4, which is characterized in that the fuel-displaced control circuit and institute
Electrode input end BAT+ connections are stated, the fuel-displaced control circuit includes the second metal-oxide-semiconductor Q2 and oil pump MD2;The output connecting pin
DIS-EN2 is connect with the grid of the second metal-oxide-semiconductor Q2, and the drain electrode of the third metal-oxide-semiconductor Q3 is connect with the oil pump MD2, institute
The 9th resistance R9 ground connection of source series 1 of the second metal-oxide-semiconductor Q2 is stated, the oil pump MD2 is connect with the electrode input end BAT+,
The oil pump MD2 is connect with a flowline.
7. the drive system of electric shoe polishing machine according to claim 6, which is characterized in that oil pump MD2 parallel connection 1 the
Three diode D3 and the 9th capacitance C9.
8. the drive system of electric shoe polishing machine according to claim 1, which is characterized in that the control button includes button
Switch SW1 and power switch SW2, one end of the key switch SW1 are connect with the pin 4 of the singlechip control chip U3,
The key switch SW1 of the other end is grounded;The pin 2 of the power switch SW2 and 4 respectively with the singlechip control chip
The pin 3 and 2 of U3 connects, and the pin 3 of the power switch SW2 is grounded.
9. the drive system of electric shoe polishing machine according to claim 1, which is characterized in that the protection circuit includes first
Protect chip U2, the second protection chip Q1, electrode input end BAT+ and negative input BAT-, the first protection chip U2 and
The second protection chip Q1 connections, the electrode input end BAT+ are connect with the first protection chip U2, and the anode is defeated
Enter to hold BAT- to be connect respectively with the first protection chip U2 and the second protection chip Q1;The electrode input end BAT+ with
The pin 5 of the first protection chip U2 connects, and the pin 1 and 3 of the first protection chip U2 protects chip with described second
The pin 4 and 6 of Q1 connects, and the pin 1 of the pin 6 of the first protection chip U2 and the second protection chip Q1 are born with described
Pole input terminal BAT- connections, the one 3rd resistor R3 ground connection of the series connection of pin 2 of the first protection chip U2, the second protection core
The pin 3 of piece Q1 is grounded.
10. the drive system of electric shoe polishing machine according to claim 1, which is characterized in that the charge-discharge control circuit
Electric discharge for controlling the battery is charged to the battery, and the charge-discharge control circuit includes charge and discharge control core
Piece U1 and charge power supply input terminal CHG, state display lamp D1 and the power output end being connect with the charge and discharge control chip U1,
The electrode input end BAT+ is connect with the pin 2 of the charge and discharge control chip U1;The charge power supply input terminal CHG and institute
The pin 6 for stating charge and discharge control chip U1 connects, and pin 1 and the power output end of the charge and discharge control chip U1 connect
It connects, the pin 7 of the charge and discharge control chip U1 and 8 is connected in series with Light-emitting diode LED ground connection respectively, and the charge and discharge is automatically controlled
The pin 4 of coremaking piece U1 is grounded.
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CN201721749714.8U CN207650600U (en) | 2017-12-14 | 2017-12-14 | The drive system of electric shoe polishing machine |
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CN201721749714.8U CN207650600U (en) | 2017-12-14 | 2017-12-14 | The drive system of electric shoe polishing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109343399A (en) * | 2018-10-22 | 2019-02-15 | 浙江亚尚智能科技有限公司 | The motor control module of shaver control circuit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109343399A (en) * | 2018-10-22 | 2019-02-15 | 浙江亚尚智能科技有限公司 | The motor control module of shaver control circuit |
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