WO2019095365A1 - 用于电动清洁护理器具的光敏压力报警装置 - Google Patents
用于电动清洁护理器具的光敏压力报警装置 Download PDFInfo
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- WO2019095365A1 WO2019095365A1 PCT/CN2017/111857 CN2017111857W WO2019095365A1 WO 2019095365 A1 WO2019095365 A1 WO 2019095365A1 CN 2017111857 W CN2017111857 W CN 2017111857W WO 2019095365 A1 WO2019095365 A1 WO 2019095365A1
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- Prior art keywords
- light
- elastic member
- light source
- photosensitive unit
- handle
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- 238000004140 cleaning Methods 0.000 title claims abstract description 165
- 230000009471 action Effects 0.000 claims abstract description 10
- 238000001514 detection method Methods 0.000 claims abstract description 8
- 230000005540 biological transmission Effects 0.000 claims description 10
- 241001416181 Axis axis Species 0.000 claims description 8
- 238000005286 illumination Methods 0.000 claims 1
- 230000008859 change Effects 0.000 abstract description 13
- 230000003287 optical effect Effects 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 27
- 230000008569 process Effects 0.000 description 26
- 230000033001 locomotion Effects 0.000 description 14
- 230000005855 radiation Effects 0.000 description 12
- 230000004907 flux Effects 0.000 description 9
- 230000008878 coupling Effects 0.000 description 5
- 238000010168 coupling process Methods 0.000 description 5
- 238000005859 coupling reaction Methods 0.000 description 5
- 238000006243 chemical reaction Methods 0.000 description 3
- 230000010363 phase shift Effects 0.000 description 3
- 230000005355 Hall effect Effects 0.000 description 2
- 230000005489 elastic deformation Effects 0.000 description 2
- 230000036316 preload Effects 0.000 description 2
- 230000004044 response Effects 0.000 description 2
- 230000035945 sensitivity Effects 0.000 description 2
- 230000003213 activating effect Effects 0.000 description 1
- 230000001680 brushing effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
Images
Classifications
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- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B15/00—Other brushes; Brushes with additional arrangements
- A46B15/0002—Arrangements for enhancing monitoring or controlling the brushing process
- A46B15/0004—Arrangements for enhancing monitoring or controlling the brushing process with a controlling means
- A46B15/0012—Arrangements for enhancing monitoring or controlling the brushing process with a controlling means with a pressure controlling device
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B15/00—Other brushes; Brushes with additional arrangements
- A46B15/0002—Arrangements for enhancing monitoring or controlling the brushing process
- A46B15/0038—Arrangements for enhancing monitoring or controlling the brushing process with signalling means
- A46B15/0044—Arrangements for enhancing monitoring or controlling the brushing process with signalling means with light signalling means
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C17/00—Devices for cleaning, polishing, rinsing or drying teeth, teeth cavities or prostheses; Saliva removers; Dental appliances for receiving spittle
- A61C17/16—Power-driven cleaning or polishing devices
- A61C17/22—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like
- A61C17/221—Control arrangements therefor
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C17/00—Devices for cleaning, polishing, rinsing or drying teeth, teeth cavities or prostheses; Saliva removers; Dental appliances for receiving spittle
- A61C17/16—Power-driven cleaning or polishing devices
- A61C17/22—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like
- A61C17/24—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like rotating continuously
- A61C17/26—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like rotating continuously driven by electric motor
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01L—MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE
- G01L1/00—Measuring force or stress, in general
- G01L1/24—Measuring force or stress, in general by measuring variations of optical properties of material when it is stressed, e.g. by photoelastic stress analysis using infrared, visible light, ultraviolet
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B2200/00—Brushes characterized by their functions, uses or applications
- A46B2200/10—For human or animal care
- A46B2200/1066—Toothbrush for cleaning the teeth or dentures
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C17/00—Devices for cleaning, polishing, rinsing or drying teeth, teeth cavities or prostheses; Saliva removers; Dental appliances for receiving spittle
- A61C17/16—Power-driven cleaning or polishing devices
- A61C17/22—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like
- A61C17/225—Handles or details thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C2204/00—Features not otherwise provided for
Definitions
- the present invention relates to a pressure alarm device for an electric cleaning care appliance, particularly for an electric toothbrush, and more particularly to a photosensitive pressure alarm device for an electric cleaning care appliance.
- the existing electric cleaning care appliances are roughly divided into two types: the first type of electric cleaning care appliances adopts a driver including a micro motor and a gear train, so that the head drive shaft is driven by the motor. Movement of the handle drive shaft (hereinafter referred to as transmission type electric cleaning care appliance); the second type of electric cleaning care appliance employs a driver including a transducer, a drive coil, and a drive coil core disposed in the drive coil. The electric energy input is converted into mechanical energy (hereinafter referred to as a resonance type electric cleaning care appliance).
- a pressure alarm device for an electric cleaning care appliance disclosed in the Chinese invention patent entitled CN102813558B, which utilizes the characteristics of a DC permanent magnet micromotor having different operating currents under different loads, the voltage sensor Measuring the voltage value in the use state and the voltage value of the initial state in which the brush head is rotated but the bristles are not in contact with the tooth to be cleaned, and the difference between the two voltage values is obtained when the user applies the brush head.
- the detecting module detects that the voltage difference on the voltage sensor is greater than the set value, and the IC sends a signal indicating that the corresponding indicating component for reflecting the pressure in the module gives an indication to remind the user to apply to the brush head.
- the power is too big.
- the Chinese Patent Application Publication No. 104619212A discloses a resonantly driven electric toothbrush having a Hall effect sensor having pressure sensing capability. Wherein the magnet is positioned to move with movement of the brush head assembly, the Hall effect sensor being mounted within a magnetic field generated by the magnet, the magnetic field response having a phase shift relative to the phase of the drive signal, the processor being utilized to determine during the brushing operation The phase shift of the Hall sensor output caused by the brush element and the phase shift value associated with the load in the appliance The stored information produces a signal indicative of the load.
- the object of the present invention is to provide a photosensitive pressure alarm device for an electric cleaning care appliance, which can make up for the deficiencies of the existing cleaning care appliance alarm device and improve the accuracy of pressure detection and alarm.
- the cleaning care implement provided by the present invention includes a handle housing, a drive assembly, a cleaning assembly including a cleaning element, and a photosensitive pressure alarm device.
- the photosensitive pressure alarm device includes a light sensing portion composed of at least one light source and at least one photosensitive unit, a light reflecting surface facing the light source and the photosensitive unit, a detecting circuit, and an alarm portion.
- the light source and the photosensitive unit are disposed on the same side of the movable member movable relative to the handle housing or stationary relative to the handle housing, the light reflecting surface being disposed on the side facing the light source and the photosensitive unit
- the stationary component or the movable component is substantially opposite to the light source and the photosensitive unit.
- Interaction is applied to the cleaning member against the external force generated in the direction approximately along the axis of the cleaning element in the longitudinal direction of the external force F 1 and the elastic member built in the handle along or parallel to the elastic force of the elastic member F 1 F 2 in the And causing the light source and the photosensitive unit or the light reflecting surface disposed on the movable member movable relative to the handle housing to move along with the movable member, and the incident angle and the reflection angle of the light emitted by the light source on the light reflecting surface occur.
- the change causes the light-receiving area of the photosensitive unit capable of receiving light from the light source to change, thereby causing a change in the electrical performance of the photosensitive unit.
- the light source may be a stable light source that actively emits light
- the photosensitive unit may be an electronic device whose resistance value or conductive property changes significantly after light irradiation.
- the light source is a light emitting diode (LED) and the photosensitive unit is a photoresistor.
- the drive assembly includes a micro motor, a gear box, a drive shaft, and the drive assembly can be integrally rotated about a rotation axis axis L 3 of the brush head interface member;
- the handle housing includes a handle upper case and a handle lower case
- the elastic member is disposed in the lower shell of the handle for resetting; the upper end of the elastic member directly or indirectly couples the lower handle of the handle portion, the upper end of the elastic member is unchanged with respect to the handle housing, and the lower end of the elastic member is coupled to the micro motor.
- the elastic member When there is no external force on the cleaning element, the elastic member is pre-tightened, and the pre-tightening force F 3 of the elastic member acts on the micro motor to maintain the micro motor and the lower case of the handle in a relatively fixed position; when the cleaning element is applied with an external force F 1 , the micro-motor motion tends towards or away from the upper end of the resilient member, the lower end of the elastic member to produce the external force F 1 acting in deformation with respect to the handle housing.
- the light source and the photosensitive unit are disposed on the side of the circuit board facing the gear box, the circuit board is fixed to the motor frame, and the light reflecting surface is disposed on the gear box; and vice versa.
- the elastic force generated by the elastic member acts to the rotational axis axis L 3 of the brush head interface member by a distance greater than 0.35 times the distance from the external force F 1 acting point to the rotational axis axis L 3 of the brush head interface member.
- the photosensitive pressure alarm device of the present invention further includes a recess provided on the gear case, the recess including a light reflecting surface, a concave side of the gear case, and a concave top surface of the gear case.
- the recessed side of the gearbox and the recessed top of the gearbox form a light sensing shield.
- the light source is disposed next to the photosensitive unit, and the light source and/or the photosensitive unit partially or completely enters the light sensing shielding portion, and the light source, the photosensitive unit, and the light reflecting surface maintain a gap with each other, the gap being greater than 0.1 mm. .
- the drive assembly includes a driver bracket fixed by a handle housing, a drive shaft, two transducer drive arms symmetrically distributed along a longitudinal axis L 5 of the drive shaft, and an elastic member mount Elastic members respectively fixed to the upper ends of the two transducer drive arms in the direction of the cleaning element, and two permanent magnets opposite to each other in the direction of the magnetic lines of force of the two transducer drive arms away from the cleaning elements are disposed in two Drive coil between permanent magnets.
- the driving shaft, the transducer driving arm, the permanent magnet are movable parts, the light source and the photosensitive unit are disposed on the circuit board in the stationary component, and the light reflecting surface is disposed on the transducer driving arm in the movable component, and the light source emits Light is reflected by the light reflecting surface to the photosensitive unit.
- the elastic member is a sheet-shaped member, and the elastic members are symmetrically distributed along the longitudinal axis L 5 of the driving shaft, and the elastic member is along the elastic member from the elastic member fixing member to the length of the corresponding transducer driving arm and the elastic member is elastic along the elastic member.
- the width of the piece parallel to the longitudinal axis L 5 of the drive shaft is greater than 5 times the thickness of the elastic member.
- the elasticity of the elastic member perpendicular to the longitudinal axis L 5 of the drive shaft and perpendicular to the longitudinal direction of the elastic member is much smaller than the stiffness coefficient of the elastic member along the longitudinal axis L 5 of the drive shaft.
- the elastic member has a stiffness coefficient perpendicular to the longitudinal axis L 5 of the drive shaft and perpendicular to the longitudinal direction of the elastic member, which is much smaller than the elastic member stiffness coefficient of the elastic member along the length of the cleaning member, the distance being less than 10 More than double.
- the cleaning care implement is of the transmission type and includes a handle housing, a drive assembly, and a cleaning assembly including the cleaning elements.
- the drive assembly comprises a miniature motor, a gearbox, a drive shaft, the drive assembly may be integrally about the axis of rotation L 3 of the head rotating member interfaces;
- the handle housing includes a lower handle housing and a handle housing, an elastic member disposed in the handle housing The upper end of the elastic member is directly or indirectly coupled to the lower handle of the handle portion, the upper end of the elastic member is unchanged with respect to the handle housing, and the lower end of the elastic member is coupled to the micro motor.
- the elastic member When there is no external force on the cleaning element, the elastic member is pre-tightened, and the pre-tightening force F 3 of the elastic member acts on the micro motor to maintain the micro motor and the lower case of the handle in a relatively fixed position; when the cleaning element is applied with an external force F 1 , the micro-motor motion tends towards or away from the upper end of the resilient member, the lower end of the elastic member to produce the external force F 1 acting in deformation with respect to the handle housing.
- the light source is disposed on the movable board that is stationary with respect to the lower case of the handle or on the movable part that moves relative to the lower case of the handle under the action of the external force F 1 and the elastic force F 2 of the elastic member, and the photosensitive unit is disposed to move relative to the lower case of the handle.
- Light from the light source is directly incident on the photosensitive unit on the movable member or on the circuit board that is stationary with respect to the lower case of the handle.
- the accuracy of the pressure alarm device of the present invention can be improved by 20 times.
- Figure 1 is a front elevational view of the electric cleaning appliance
- Figure 2 is a front elevational view of the internal components of the handle
- Figure 3 is a side cross-sectional view of the electric cleaning appliance when the cleaning element is not subjected to an external force
- Figure 4 is a side cross-sectional view of the electric cleaning appliance when the cleaning element is subjected to an external force
- Figure 5 is a schematic view of the parts of the middle portion of the handle when the cleaning element is not subjected to an external force
- Figure 6 is a schematic view of the upper case of the handle
- Figure 7 is a schematic view of a gear box and a light source and a photosensitive unit
- Figure 8 is a schematic view of a gear box and a motor frame
- Figure 9 is a schematic view of another perspective shown in Figure 5.
- Figure 10 is a schematic view showing the parts of the middle portion of the handle when the cleaning element is subjected to an external force
- Figure 11 is a detection circuit of the voltage value of the photosensitive cell
- 12a, 12b, and 12c are schematic views respectively showing different configurations of the photosensitive unit and the light source in the light sensing portion;
- Figure 13 is an exploded perspective view of the second type of electric cleaning care appliance
- 14 and 15 are schematic views showing a combination of parts in a second type of cleaning care implement.
- 3, 203 are cleaning components disposed on the first and second types of cleaning care appliances, respectively
- 150, 223, 224 are elastic members disposed on the first and second types of cleaning care appliances, respectively
- 173,175,576 is the light emitted by the light source
- 174,176 is the reflected light
- 141, 541, 241 are light reflecting surfaces provided on the first and second types of cleaning care appliances, respectively
- 577 is the initial light receiving surface of the photosensitive unit
- 578 is the process of receiving the photosensitive unit
- 190,220 are the drive shafts for the first and second types of cleaning care appliances, respectively
- 225, 226 are permanent magnets
- 230, 330 are cleaning elements disposed on the first and second types of cleaning care appliances, respectively
- 331 is the cleaning component carrier
- L 1, L 5 are the longitudinal axes of the drive shafts of the first and second types of cleaning care appliances, respectively
- L 2 is the axis of rotation of the cleaning element carrier, which is approximately parallel to the axis of the cleaning element along the length
- L 3 is the axis of rotation of the brush head interface
- L 4 is the axis along the length of the cleaning element
- F 1 is a pressure or a partial pressure applied to the cleaning element in a direction approximately parallel or parallel to the axis along the length of the cleaning element, and is collectively referred to as an external force in this specification.
- F 2 is the elastic force of the elastic member produced by the elastic member
- F 3 is the elastic member preload force generated by the elastic member
- R is a photoresistor
- R 0 is the initial photoresistor value
- R 1 is the process photoresistor value
- R 2 and R 4 are fixed resistors
- ⁇ 1 is the initial incident angle of the reflecting surface of the light on the light reflecting surface
- ⁇ 2 is the incident angle of the reflecting surface of the light on the light reflecting surface
- ⁇ 3 is the initial acceptance angle of the light receiving surface of the light on the initial light receiving surface of the photosensitive unit
- ⁇ 4 is the incident angle of the light receiving surface of the light on the light receiving surface of the photosensitive cell process
- LED is a light emitting diode
- I/O1 is the input/output detection port I/O of the MCU
- an electric toothbrush is exemplified below, the present invention is not limited thereto.
- the present invention is also applicable to electric razors, electric cleansers, electric showers, and the like for personal electric cleaning care appliances.
- the electric cleaning care implement e.g., a toothbrush
- the electric cleaning care implement includes a cleaning assembly 3 and a handle 1.
- the handle 1 includes a handle housing consisting of a handle upper case 101 and a handle lower case 102, the handle housing having a power supply portion 180 for providing power to various portions of the cleaning care implement for controlling various modes of operation of the cleaning care implement and cleaning a control portion of the care appliance for activating or deactivating a trigger portion of the operation of the cleaning care implement, converting the input electrical energy into a mechanical energy output drive assembly, and detecting application to the cleaning member (eg, the bristles of the electric toothbrush in this embodiment) The light sensing portion of the external force F 1 on 330 and the detection circuit.
- a handle housing consisting of a handle upper case 101 and a handle lower case 102
- the handle housing having a power supply portion 180 for providing power to various portions of the cleaning care implement for controlling various modes of operation of the cleaning care implement and cleaning a control portion of the care appliance for activating or deactivating a trigger portion of the operation of the cleaning care implement, converting the input electrical energy into a mechanical energy output drive assembly, and detecting application to the
- the cleaning assembly 3 includes a cleaning assembly housing 310, a cleaning assembly coupling 320, a cleaning member carrier (e.g., a brush tray for an electric toothbrush in this embodiment) 331 and a cleaning member 330.
- the cleaning assembly 3 is detachably coupled to the handle 1, in the present embodiment, the cleaning assembly coupling 320 in the cleaning assembly 3 and the drive shaft 190 in the handle 1 are coupled in a non-rotatable manner.
- the cleaning assembly housing 310 in the cleaning assembly 3 and the brush head interface member 110 in the handle 1 are coupled in a non-rotatable manner.
- Cleaning assembly along the drive shaft 3 may be the longitudinal axis L of the drive shaft 1 to move relative to the head 190 and the interface 110 to achieve the cleaning assembly 3 is detachably coupled to the handle 1.
- This embodiment only shows a manner in which the cleaning assembly is detachably coupled to the handle, and of course, the invention is not limited to the coupling.
- the driving assembly in this embodiment includes a micro motor 161, a gear box 140, a bottom cover 130 for the head interface, a head interface 110, a drive shaft 190, and a gearbox 140.
- Micro-motor 161, gearbox 140 is located in the gear and link mechanism, a drive shaft 190 coupled to each other to each other, to realize a drive shaft 190 about its longitudinal axis of rotation of the drive shaft reciprocally L 1 is driven by the micro-motor 161, so as to drive the cleaning member 330 reciprocally rotates about the rotational axis L 2 of the cleaning element carrier 331.
- the brush head interface member 110, the bottom cover 130 for the brush head interface member, and the gear box 140 are fixed by the gear box fastener 120.
- the micro motor 161 and the gear box 140 are fixed by the motor fastener 163, and the brush head interface member is fixed.
- the rotating shaft 112 is coupled to the brush head interface member 110.
- the handle upper case 101 is provided with two recesses 104 on the handle upper case for receiving the rotating shaft 112 of the brush head interface member, and the recess 104 on the handle upper case constrains the brush head interface.
- the rotation axis 112 of the piece moves in the direction of the cleaning element along the longitudinal axis L 1 of the drive shaft.
- the handle casing 102 is fixed to the motor bracket 160, motor mount 160 has a concave opening for accommodating the micro-motor 161 along the drive shaft at the front end L 1 toward the direction of the longitudinal axis of the cleaning element, the female opening without interference can accommodate a variety of The micro motor 161 in the positional state.
- motor mount 160 includes a L 1 along the drive shaft toward the direction of the longitudinal axis of the cleaning element front end surface of the motor bracket 162, the gearbox 140 includes a L 1 along the drive shaft away from the longitudinal axis of the cleaning element gearbox The bottom end surface 142.
- the contact holder 160 is fixed to the motor housing 102 at the handle, the front end surface of the motor frame 162 and the bottom end face of the gear box 142, motor bracket 160 along the longitudinal axis L 1 direction of the drive shaft supporting the gear case 140.
- Moving motor mount 160 gear box 140 constraint, the bottom cover for the head of an interface member 130, the head 110 interfaces, the interface member of the head rotation axis 112 along the drive shaft and the like away from the longitudinal axis L 1 of the cleaning element, the handle housing
- the upper recess 104 constrains the movement of the rotating shaft 112 of the brush head interface member along the longitudinal axis L 1 of the drive shaft near the cleaning element, while the rotating shaft 112 of the brush head interface member, the brush head interface member 110, and the bottom of the brush head interface member
- the cover 130, the gear case 140, and the micromotor 161 are fixed, and there is a gap between the recess 104 on the upper casing of the handle and the rotating shaft 112 of the head interface for relative rotation.
- the front end face 162 of the motor frame and the bottom end face 142 of the gear case are partial cylindrical faces with the axis of rotation axis L 3 of the brush head interface member as an axis, so that the drive assembly is recessed by the recess 104 and the motor on the handle upper case.
- the frame 160 is constrained, and the driving assembly is reciprocally rotatable about the rotation axis axis L 3 of the brush head interface member by the engagement of the front end face 162 of the motor frame and the bottom end surface 142 of the gear case, and the drive assembly is restricted to be along the longitudinal axis L 1 of the drive shaft.
- mobile cleaning assembly 3 L 3 is coupled to reciprocating rotational drive assembly, cleaning the head component 3 may also be an interface member about the axis of rotation.
- the handle 1, specifically, the elastic member 150 for resetting is disposed in the lower handle 102 of the handle.
- the elastic member 150 may be a spring of any structure.
- the elastic member 150 is a column type. spring.
- the elastic member 150 passes through the motor frame 160, and the motor frame 160 houses a portion of the elastic member.
- the elastic member upper end 151 of the elastic member 150 is coupled to the handle lower case 102, and the elastic member upper end 151 of the elastic member 150 is not changed in position relative to the handle housing.
- Resilient member the resilient member lower end 152 coupled to the micro-motor 161 150 when the cleaning element is applied to the external force F 1, the micro-motor 161 motion tends to close the resilient member upper end 151, the resilient member lower end of the elastic member 150 is 152 generates external force F 1 is
- the elastic member 150 is in a compressed state or a compression-extended state with respect to the deformation of the handle housing.
- the elastic member 150 pre-tightening force F 3 acts on the micro-motor 161 to maintain the micro-motor 161 and the handle lower casing 102 in a relatively fixed position.
- the elastic member 150 when the cleaning member 330 is not subjected to an external force, the elastic member 150 is in a pre-compressed state, the micro motor 161 is in an initial position, and the driving assembly and the cleaning assembly 3 are also in an initial position.
- the elastic member is a small-sized elastic member, so the elastic member cannot withstand a large force, otherwise the elastic member is easy to yield and fatigue.
- Point of force F 1 to the axis of rotation L of the head from the mouthpiece 3 is referred to as the moment arm of force F 1, the elastic force of the elastic member 150 generated to a point a distance L 3, the axis of rotation of said brush head member interfaces It is a flexible arm.
- the resilient arm member is greater than 0.35 times the moment arm of force F 1 avoids the above disadvantages.
- the resilient arm member is greater than 0.35 times the moment arm of the force F 1.
- Preload the elastic member is pre-compressed state, the elastic deformation of the handle member relative to the housing to produce, the elastic member 150 is compressed as a state or a compressed state exacerbated external force F 1 in the.
- the elastic member may also be arranged to rotate 180 degrees about the longitudinal axis L 1 of the drive shaft.
- the pretensioned state of the elastic member is a pre-stretched state, and the elastic member is produced by the external force F 1 relative to the handle housing.
- the elastic member 150 is in a stretched state or a stretched state.
- the light sensing portion includes a light source 172 and a photosensitive unit 171, and the light emitted by the light source 172 is at least partially reflected and irradiated onto the photosensitive unit 171.
- the light source 172 can be an active light emitting electronic device, such as a light emitting diode (LED).
- the photosensitive unit 171 can be an electronic device with a significant change in resistance value or conductive property after light irradiation, such as a photoresistor or a photodiode or a phototransistor. As shown in FIGS. 9-10, the light source 172 and the photosensitive unit 171 are disposed on the side of the wiring board 170 facing the gear case 140, and the wiring board 170 is fixed to the motor frame 160.
- the gear case 140 is provided with a light reflecting surface 141. Light emitted by the light source 172 is reflected at least partially through the light reflecting surface 141 onto the photosensitive unit 171.
- the photosensitive unit 171 is a photoresistor R.
- the area of the light emitted from the light source 172 reflected by the light reflecting surface 141 onto the light receiving surface 177 of the photosensitive unit is referred to as the light receiving area of the photosensitive unit, and the light emitted from the light source 172 is reflected by the light reflecting surface 141 to the photosensitive unit.
- the light beam on the light receiving surface 177 is called a light receiving surface light beam, and the light radiation energy per unit time of the light receiving surface light beam is the light radiation flux of the light receiving surface.
- the light radiation of the light receiving surface on the photosensitive resistor R is known. The larger the flux, the smaller the resistance value of the photoresistor R. The smaller the light radiant flux of the light receiving surface on the photoresistor R, the larger the resistance value of the photoresistor R.
- the resistance change on the photoresistor R is only affected by the light radiation flux from the light-receiving surface of the light source 172 received on the photoresistor R, and therefore, It is possible to increase the sensitivity of the resistance value of the photoresistor R to the rotation angle of the gear box 140 about the axis of rotation L 3 of the brush head interface member, that is, to increase the sensitivity of the resistance value of the photoresistor R as a function of the external force F 1 , in this example, A shield portion is provided around the light sensing portion. As shown in FIG.
- the light source 172 is disposed next to the photosensitive unit 171, and the gear case 140 is provided with a gear box recess formed by the light reflecting surface 141, the concave side surface 143 of the gear case, and the concave top surface 144 of the gear case.
- the recessed side 143 of the gearbox and the recessed top surface 144 of the gearbox form a light sensing shield.
- the light reflecting surface 141 is substantially opposite to the light source 172 and the photosensitive unit 171, and the concave side surface 143 of the gear box and the concave top surface 144 of the gear box are distributed on three sides of the light source 172 and the photosensitive unit 171.
- the light reflecting surface 141 there is a motion gap between the light reflecting surface 141, the concave side surface 143 of the gear case, the concave top surface 144 of the gear case, and the light source 172 and the photosensitive unit 171.
- the light source 172 and/or the photosensitive unit 171 partially or completely enter the light sensing shielding portion, and the light source 172, the photosensitive unit 171, and the light reflecting surface 141 maintain a gap with each other, and the gap may be greater than 0.1 mm.
- FIG. 3 and 9 show the state of the light source 172, the photosensitive unit 171, and the gear box recess when the cleaning member 330 has no external force and the drive assembly is in the initial position.
- FIG. 10 illustrates the application of an external force F 1 and the micro-motor 161 by the elastic force of the elastic member F 2 acting on the cleaning element 330 the light source 172, the state, the photosensitive unit 171 and the gear box recess.
- the light source 172 and the photosensitive unit 171 can be any stable light-emitting component and any light-sensitive component.
- the photosensitive unit 171 can be a photoresistor R, and the light source 172 can be an LED.
- the photoresistor 171 receives the light from the light source 172, its corresponding resistance value is R 0 , and R 0 is referred to as the initial photoresistor value corresponding to the photoresistor 171 when the driving assembly is in the initial position.
- the incident angle and the reflected angle of the light 173 emitted from the light source 172 on the light reflecting surface 141 are ⁇ 1 and ⁇ 1, respectively, with respect to the light path 173 emitted from the light source 172 reflected by the light reflecting surface 141 to the light path of the photosensitive unit 171, and ⁇ 1 is called
- ⁇ 1 is called the initial reflecting angle of the reflecting surface
- the light receiving area of the light reflecting surface 141 reflected by the light source 172 on the light receiving surface 177 of the photosensitive unit is called the initial light receiving area of the photosensitive unit, and the light source 172 is emitted.
- the light beam reflected by the light reflecting surface 141 on the light receiving surface 177 of the photosensitive unit is referred to as an initial light receiving surface light beam, and the light radiation energy per unit time of the initial light receiving surface light beam is referred to as the light radiation flux of the initial light receiving surface.
- the external force F on the cleaning element 3301, the drive assembly and cleaning assembly 3 about the axis of rotation of the head member interfaces L 3 rotates clockwise, the elastic member 150 is further compressed, and the elastic member 150 generates an elastic member elastic force F 2 for resisting the clockwise rotation of the driving member, when the elastic member elastic force F 2 is opposite to the rotational axis axis L of the brush head interface member.
- L 3 is formed is formed with an external force moment F 1 relative to the head of the mouthpiece, the opposite direction, the cleaning assembly and the drive assembly 3 in the equilibrium position, the position of the equilibrium position is referred to as the drive assembly process. 10
- the elastic force of the elastic member F 2 No 330 of the cleaning condition and the external force member and the elastic member 150 generates an elastic member urging force F of the condition 3, the latter
- the light reflecting surface 141 is closer to the photoresistor R, and the reflected light rays 173, 175 emitted by the light source 171 are reflected by the light reflecting surface 141 onto the photosensitive unit 172 are 174, 176.
- the photoresistor R receives the light from the light source 172, its corresponding resistance value is R 1 , and R 1 is the process photoresistor value corresponding to the photoresistor R when the driving component is in the process position of the driving component.
- the incident angle and the reflected angle of the light 173 emitted from the light source 172 on the light reflecting surface 141 are ⁇ 2, respectively, with respect to the light path of the light source 172 emitted from the light reflecting surface 141 to the photosensitive unit 171.
- ⁇ 2 is the incident angle of the reflective surface process
- ⁇ 2 is the reflection angle of the reflective surface process
- the light-receiving area of the light emitted by the light source 172 reflected by the light reflecting surface 141 onto the light-receiving surface 177 of the photosensitive unit is the process receiving area of the photosensitive unit
- the light source The light beam emitted from 172 is reflected by the light reflecting surface 141 to the light receiving surface 177 of the photosensitive unit as a process light receiving surface beam
- the light radiant energy per unit time of the light receiving surface beam is the light radiant flux of the process receiving surface.
- Figure 10 shows the drive assembly in the process position.
- Figure 9 shows the case where the drive assembly is in the initial position. Comparing Fig. 9 and Fig. 10, that is, the contrast driving assembly is in the initial position and the process position, the initial incident angle ⁇ 1 of the reflecting surface and the initial reflecting angle ⁇ 1 of the reflecting surface are respectively larger than the incident angle ⁇ 2 of the reflecting surface process and the reflecting angle ⁇ 2 of the reflecting surface, respectively, thereby the photosensitive unit
- the initial light receiving area is larger than the process light receiving area of the photosensitive unit.
- the light source is a stable light-emitting unit
- the voltage on the light source is a stable voltage
- the current flowing through the light source remains unchanged
- the light emitted by the light source has a stable light radiation flux
- the initial light-receiving area of the photosensitive unit is large
- the photosensitive unit receives the light from the photosensitive unit.
- the light radiation emitted by the light source is large, the light receiving area of the photosensitive unit is small, and the photosensitive unit receives a small amount of light radiation from the light source, and accordingly the initial photosensitive resistance value R 0 is smaller than the process photoresistor value R 1 .
- Fig. 11 shows a detecting circuit for detecting a detected voltage change caused by a change in a photoresistor value.
- the upper limit of the external force F 1 received on the cleaning element 330 is set. If the external force F 1 is greater than or equal to the upper limit value, the electric care cleaning appliance can output excessive pressure by sounding and/or illuminating and/or vibrating. Information, this upper limit is called the alarm force threshold.
- V DD is a voltage source with stable voltage value.
- the external force F 1 is applied unidirectionally in increments of 20 gram from the zero to the preset alarm force threshold, since the V DD is stable.
- the MCU can pre-store the correspondence between the voltage values on different photoresistors R and different external forces F 1 .
- the I/O1 detects the corresponding voltage value on the photoresistor R, and the MCU can calculate the external force F 1 applied by the current user according to the pre-stored pressure and voltage value table.
- the MCU can display the external force F 1 applied by the user, and can also indicate the pressure in the alarm part by sound and/or light and/or vibration when the external force F 1 applied by the user to the cleaning element 330 reaches or exceeds the alarm force threshold. Big.
- the present invention creatively reflects light from a light source to a photosensitive unit 171 via a reflecting surface disposed on a driving assembly movable relative to the handle housing, and the applied external force F 1 and elastic member elastic force F 2 act together to drive
- the assembly generates movement relative to the handle upper case 101 and the handle lower case 102.
- the movement of the drive assembly causes the angle of incidence and the angle of reflection of the light emitted by the light source 172 on the light reflecting surface 141 to change, thereby enabling reception from the light source 172.
- the light receiving area of the photosensitive unit of the light changes, resulting in a change in the electrical performance of the photosensitive unit 171.
- the resistance value on the photoresistor R changes, and the photosensitive resistor R can be detected at the I/O port of the MCU.
- the voltage changes to achieve the identification of the external force F 1 , and the alarm portion can emit a sound and/or light and/or vibration reminder information when the external force F 1 exceeds or reaches the alarm force threshold.
- the light source 172 and the photosensitive unit 171 is fixed to the circuit board 170, light source 172 emitted by the light reflective surface of the box recesses gear 141 is reflected to the light sensing unit 171, 141 force F 1 and the elastic member reflecting surface in The elastic force F 2 acts to reciprocally rotate about the axis of rotation L 3 of the head joint.
- Figures 12a-12b illustrate a second embodiment of the present invention suitable for use in a transmission type cleaning care implement.
- the component of the handle 1 that is fixed relative to the lower handle housing 102 is defined as a stationary component; the component of the handle 1 that is movable relative to the lower handle housing 102 is a movable component.
- the light source 572 is provided on the circuit board 102 under the stationary handle housing 170, light sensing unit 571 is provided in the movable member and the elastic force F 1 F 2 interacts elastic force relative to the housing 102 with respect to the lower handle On the movable part.
- the photosensitive cells 571 is provided on the stationary housing 102 board 170, light source 572 may be disposed in the housing for movement of the lower handle 102 may be in the external force F 1 and F 2 the elastic force of the elastic member interacts at a lower phase relative to the handle Light from the light source 572 is directly incident on the photosensitive unit 571 on the moving member.
- the operation of Fig. 12a and Fig. 12b is similar, and the analysis is carried out by taking Fig. 12a as an example.
- the light source 572 is provided on the circuit board 102 under the stationary handle housing 170, light sensing unit 571 is provided in the movable member and the elastic force F 1 F 2 interacts elastic force relative to the housing 102 with respect to the lower handle
- the initial light receiving unit receiving time sensitive photosensitive cells on the surface 571, 578 is a photosensitive member unit 571 around the head at the interface force F 1 and F 2 the elastic force of the elastic member interacting rotation
- the process of the photosensitive unit after the rotation of the shaft axis L 3 is the light receiving surface.
- the initial light receiving surface 577 of the photosensitive unit is lower than the light source 572, and the emitted light 576 of the light source 572 is directly irradiated onto the initial light receiving surface 577 of the photosensitive unit.
- the process receiving surface of the photosensitive unit is closer to the light source 572, and the light 576 emitted by the light source 572 cannot be directly directed.
- the process to the photosensitive unit is on the light receiving surface 578.
- the incident angle of the light ray 576 emitted from the light source 572 on the initial light receiving surface 577 of the photosensitive unit is the initial light receiving surface angle ⁇ 3
- the incident angle of the light ray 576 emitted from the light source 572 on the process receiving surface 578 of the photosensitive unit is the incident angle of the incident light receiving surface.
- the incident light-incident angle ⁇ 4 is greater than the initial light-receiving surface angle ⁇ 3.
- the light-receiving area of the photosensitive unit of light 576 of 572 changes. Specifically, the light-receiving area on the initial light-receiving surface 577 of the photosensitive cell is larger than the light-receiving area on the process light-receiving surface 578 of the photosensitive cell.
- the light source 572 is a stable light source, and the light emitted therefrom has a stable light radiation flux, so that the amount of light radiation received on the initial light receiving surface 577 of the relatively large photosensitive unit is larger than the process light receiving surface of the relatively small photosensitive unit.
- the resistance of the photoresistor corresponding to the process receiving surface 578 of the photosensitive cell is much larger than the resistance of the photoresistor corresponding to the initial light receiving surface 577 of the photosensitive cell, so that it can pass through the photoresistor
- the change in voltage value reflects the change in external force F 1 .
- FIG. 12a is only an example, and there are many variations, for example, the process light receiving surface 578 of the photosensitive cell is compared with the initial light receiving surface of the photosensitive cell away from the light source 572 and the like.
- Fig. 12C shows a third embodiment of the invention, which is also applicable to a first type of electric cleaning care appliance, i.e., a transmission type electric cleaning care implement.
- the light source 572, the photosensitive unit 571 are disposed on the movable drive assembly, and the light reflecting surface 241 is disposed on a circuit board that is stationary relative to the handle housing.
- the light source 572 and the photosensitive unit 571 are movable relative to the handle lower case 102 under the action of the external force F 1 and the elastic member elastic force F 2 , and the light emitted by the light source 572 passes through a stationary circuit board or other stationary relative to the handle lower case 102.
- the component is reflected to the photosensitive unit 571.
- the light sources 172, 572 and the photosensitive cells 171, 571 are on the same side and are simultaneously disposed on the movable member or the stationary member, and the photosensitive unit 171, 571 is provided with a light receiving surface 177 of the photosensitive unit (Fig. 9) or 577 (Fig. 12c), a light reflecting surface 141, 541, a light reflecting surface 141, 541 is disposed on a stationary member (such as a wiring board) or a movable member on the side facing the light source 172, 572 and the photosensitive unit 171, 571.
- a stationary member such as a wiring board
- the light emitted by the light source 172, 572 can be reflected onto the photosensitive cells 171, 571, and the movable member can move relative to the lower handle 102 of the handle by the external force F 1 and the elastic force F 2 of the elastic member.
- the present invention creatively provides the photosensitive unit and the light source simultaneously and ipsilaterally on the movable member or the stationary member, and the light reflecting surfaces 141, 541 are disposed on the side facing the light source 172, 572 and the photosensitive unit 171, 571.
- the light source 572 and the photosensitive unit 571 are respectively distributed on the movable member or the stationary member, and the light from the light source 572 is directly irradiated onto the light receiving surface of the photosensitive unit.
- the light-receiving surface of the photosensitive unit on the movable member when there is no external force on the cleaning member 330 is referred to as the initial light-receiving surface of the photosensitive unit; the external force F 1 and the elastic member F 2 are combined.
- the light receiving surface of the photosensitive unit on the movable member is referred to as the process light receiving surface of the photosensitive unit.
- the photosensitive unit may be disposed on the light receiving surface of the movable member, the light source 572 is provided on the stationary member, when the external force F 1 is increased scratch way, the process of the photosensitive element from the photosensitive element receiving surface 578
- the initial light receiving surface 577 starts to unidirectionally approach the light source or even over the light source, or starts from the initial light receiving surface 577 of the photosensitive unit and is away from the light source; or the light source 572 can be disposed on the movable member to receive the light receiving surface of the photosensitive unit is provided on the stationary member, a light source to direct light emitted from the light receiving surface of the photosensitive element, when the external force F 1 is increased scratch way, the light source 572 receiving the photosensitive cells unidirectional trend across the surface of the photosensitive element and the light receiving surface Or one way away from the light receiving surface of the photosensitive unit.
- the present apparatus since the current path of the optical sensing portion circuit is separated from the current path of the power device (such as a micro DC motor), only the external force F 1 can cause the movable member to move relative to the handle housing, thereby effectively avoiding the pair of power devices.
- disturbance light sensing portion of the electric signal detection circuit, and the force F perpendicular to the direction of the external force. 1 (such as electric toothbrush bristle and friction of the tooth surface) can not move the movable member, thus the present apparatus can accurately identify the external force F 1. Improve the identification of pressure, thus improving the accuracy of pressure detection and alarm.
- the power unit includes a drive coil (motor stator portion) and a spring assembly driven by the drive coil, and a magnet is disposed in the spring assembly.
- the direction of the magnetic field lines inside the magnet is substantially parallel to the direction of the magnetic lines of force generated by the driving coil, and the magnet faces the driving coil to achieve higher efficiency conversion of electromagnetic energy into mechanical energy.
- the magnet drives the spring assembly to move in response to the electromagnetic force generated by the alternating current of the drive coil.
- the magnet In order to realize the pressure alarm, under the action of an external force applied to the cleaning element, it is often desirable that the magnet has a sufficiently large displacement in a direction perpendicular to the magnetic field lines inside the magnet, but the drive coil itself does not move with the external force, and thus is applied to Under the external force of the cleaning element, the angle between the direction of the magnetic field inside the magnet and the direction of the magnetic field line generated by the driving coil will increase as the external force increases, which may reduce the efficiency of converting electromagnetic energy into mechanical energy, form additional electromagnetic harmonics and extra Harmonic noise and vibration on the handle housing.
- the cleaning component 203 can be The drive shaft 220 is detachably coupled, and the cleaning assembly 203 is non-rotatable relative to the drive shaft 220.
- the cleaning assembly 203 is distributed with a cleaning element 230 having an axis L 4 along the length direction.
- a ball bearing 290 is disposed in the direction of the driving shaft 220 away from the cleaning element 230.
- the ball bearing 290 is fixed by the driver brackets 221, 222.
- 222 drive bracket 201 is fixed to the handle housing, a drive shaft 220 and the transducers 235 and 236 fixedly connected to an arm driven in the direction of the longitudinal axis L 5 of the drive shaft 290 away from the ball, two transducers drive the driving arm in The shaft longitudinal axis L 5 is symmetrically distributed, and the upper ends of the two transducer driving arms adjacent to the cleaning element 230 respectively fix the elastic members 223 and 224, and the other ends of the elastic members 223 and 224 are fixed to the elastic member fixing member 237, and the elastic the longitudinal axis of the drive shaft member 223, 224 are symmetrically distributed along the L 5, the elastic member fixing member 237 is fastened drive bracket 221, 222, 221, 222 drive bracket 201 is secured handle housing.
- the elastic members 223, 224 are sheet-shaped members, and the direction of the elastic member 223, 224 from the elastic member fixing member 237 to the corresponding transducer driving arms 235, 236 is the longitudinal direction of the elastic member, and is parallel along the elastic members 223, 224.
- the direction of the longitudinal axis L 5 of the drive shaft is the width direction of the elastic member, and the other direction of the elastic members 223, 224 is the thickness direction of the elastic member.
- the longitudinal direction of the elastic members 223, 224 and the thickness direction of the elastic members are perpendicular to the longitudinal axis L 5 of the drive shaft.
- Two permanent magnets 225, 226 with opposite internal magnetic lines of force are arranged below the two transducer drive arms 235, 236 away from the cleaning element 230.
- a drive coil 227 is arranged between the two permanent magnets 225, 226, and the permanent magnet 225
- the internal magnetic line direction of 226 is approximately perpendicular to the direction of the internal magnetic lines generated by the driving coil 227.
- the internal magnetic lines generated by the driving coil 227 are perpendicular to the longitudinal axis L 5 of the driving shaft, and the internal magnetic lines of the permanent magnets 225, 226 are perpendicular to the longitudinal axis L 5 of the driving shaft.
- 225, 226 of the internal magnetic field lines of the permanent magnet is approximately parallel to the longitudinal direction of the elastic member.
- the drive coil 227 is fastened by the drive coil brackets 228, 229, and the drive coil brackets 228, 229 are fastened by the handle housing 201.
- the permanent magnets 225, 226 are subjected to the alternating electromagnetic force to drive the driving shaft 220 to reciprocate around the longitudinal axis L 5 of the driving shaft, and the driving shaft 220 drives the cleaning assembly 203 to reciprocate around the longitudinal axis L 5 of the driving shaft.
- the permanent magnets 225, 226 are subjected to an alternating electromagnetic force that is approximately parallel to an external force applied to the cleaning element 230 along the longitudinal axis L4 of the cleaning element.
- the elastic members 223, 224 are perpendicular to the longitudinal axis L 5 of the drive shaft and perpendicular to the elastic member.
- the stiffness coefficient of the elastic member in the longitudinal direction is much smaller than the stiffness coefficient of the elastic member along the longitudinal axis L 5 of the drive shaft, and the elastic members 223, 224 are elastic members perpendicular to the longitudinal axis L 5 of the drive shaft and perpendicular to the longitudinal direction of the elastic member.
- the stiffness factor is much smaller than the stiffness factor of the elastic member along the length of the elastic member.
- the permanent magnets 225, 226 are subjected to an alternating electromagnetic force from the drive coil approximately parallel to the thickness direction of the elastic member and approximately parallel to an external force applied along the longitudinal axis L4 of the cleaning member 230 on the cleaning member 230, the elastic members 223, 224
- the elastic member stiffness coefficient in the direction along the axis L 4 along or parallel to the longitudinal direction of the cleaning member is much smaller than the elastic member stiffness coefficient of the elastic member in the direction perpendicular to the longitudinal direction axis L 4 of the cleaning member 230.
- the description is much less than 10 times or more.
- the drive shaft 220, the transducer drive arms 235, 236, the permanent magnets 225, 226 constitute a movable member.
- the movable member moves relative to the handle housing 201 under the combined action of the external force along the longitudinal direction axis L 4 of the cleaning member 230 and the elastic force of the elastic member.
- the movable member is wound around the center of the ball bearing as an external force pair.
- the direction of the moment formed by the center of the rolling bearing is used as a fulcrum.
- the structure in which the elastic members 223 and 224 are symmetrically distributed along the longitudinal axis L 5 of the driving shaft is skillfully utilized; the elastic members 223 and 224 are elastic members perpendicular to the longitudinal axis L 5 of the driving shaft and perpendicular to the longitudinal direction of the elastic member.
- the stiffness coefficient is much smaller than the stiffness coefficient of the elastic member along the longitudinal axis L 5 of the drive shaft, and the elastic stiffness coefficient of the elastic members 223, 224 in the direction along the axis L 4 of the longitudinal direction of the cleaning member Far less than the characteristic of the elastic member's stiffness coefficient in the direction perpendicular to the longitudinal axis L 4 of the cleaning element; the alternating electromagnetic force received by the permanent magnets 225, 226 is approximately parallel to the length of the cleaning element applied to the cleaning element.
- the characteristics of the external force of the direction axis L 4 ; the elastic members 223, 224 can also serve as the return spring of the movable member, without the need to add an additional return spring and the like, effectively saving material cost and labor cost, and realizing miniaturization of the electric toothbrush.
- a light reflecting surface 241 is disposed on the transducer transmission arms 235, 236 of the movable member, and a light source 272 and a photosensitive unit 271 are disposed on the circuit board in the stationary member, and the light emitted from the light source is reflected by the light reflecting surface 241 to the photosensitive unit 271.
- the analysis of the relationship between the external force on the cleaning member and the external force on the cleaning member is similar to the analysis in the first embodiment, and will not be described herein.
- the stationary component is stationary relative to the handle housing.
- the structure in which the elastic members 223 and 224 are symmetrically distributed along the longitudinal axis L 5 of the driving shaft is skillfully utilized; the elastic member has a stiffness coefficient perpendicular to the longitudinal axis L 5 of the driving shaft and perpendicular to the longitudinal direction of the elastic member.
- the elastic member of the elastic member in the direction along the axis L4 of the longitudinal direction of the cleaning member is much smaller than the elastic member is perpendicular to the cleaning
- the characteristics of the elastic member stiffness coefficient in the direction of the element length direction axis L4, and the alternating electromagnetic force received by the permanent magnets 225, 226 are approximately parallel to the external force applied to the cleaning member along the longitudinal axis L 4 of the cleaning member.
- the permanent magnets 225, 226 tend to move in opposite directions of the external force when an external force is applied on the cleaning member in the direction of the longitudinal axis L4 of the cleaning member
- the direction of the internal magnetic lines of the permanent magnets 225, 226 is still approximately perpendicular to the direction of the internal magnetic lines generated by the driving coil 227, that is, the angle between the two is constant.
- the width of the driving coil is larger than the range of motion of the magnet, so in the present embodiment, even if the driving coil is fixed with respect to the handle housing, and the permanent magnets 225, 226 move relative to the driving coil, the external force is generated for the permanent magnets 225, 226.
- the motion still does not affect the efficiency of the conversion of electromagnetic energy into mechanical energy, and does not generate additional electromagnetic harmonics, thereby effectively avoiding additional harmonic noise and vibration on the handle casing.
- the driving assembly including the micro motor 161 can be integrally rotated around the rotation axis axis L 3 of the brush head interface member by the external force F 1 , that is, the motor
- the stator portion can also rotate integrally with the axis of rotation axis L 3 of the brush head interface member under the action of the external force F 1 , thereby overcoming the defects of the existing transmission type dynamic cleaning care appliance; for the resonance type electric cleaning care appliance
- the external force exerts on the movement of the permanent magnets 225, 226 does not affect the efficiency of the conversion of electromagnetic energy into mechanical energy, and does not generate additional electromagnetic harmonics, thereby effectively avoiding additional harmonic noise and vibration on the handle casing.
- the test proves that the photosensitive pressure alarm device of the present invention can greatly improve the accuracy of the pressure alarm.
- the actual pressure alarm test of the extracted test sample shows that the accuracy of the pressure alarm device of the present invention can be improved by 20 times compared with the existing pressure alarm device.
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Abstract
Description
Claims (12)
- 一种用于电动清洁护理器具的光敏压力报警装置,所述清洁护理器具包括手柄外壳、驱动组件、包括清洁元件的清洁组件,其中,所述光敏压力报警装置包括由至少一个光源(172,272,572)和至少一个光敏单元(171,271,571)构成的光传感部分、面对所述光源(172,272,572)和光敏单元(171,271,571)的光线反射面(141,241,541)、检测电路及报警部分,所述光源(172,272,572)和光敏单元(171,271,571)设置在相对于手柄外壳可移动的可动部件或相对于手柄外壳不动的静止部件上且处于同侧,所述光线反射面(141,241,541)设置在面对光源(172,272,572)和光敏单元(171,271,571)那侧的静止部件或可动部件上,大致正对光源(172,272,572)和光敏单元(171,271,571),在施加于清洁元件(230,330)上、方向为近似沿着或平行于清洁元件沿长度方向的轴线的外力(F1)和内置于手柄中的弹性件(150,223、224)产生的抵抗外力(F1)的弹性件弹性力(F2)的共同作用下,使设置在相对于手柄外壳可移动的可动部件上的光源(172,272,572)和光敏单元(171,271,571)或者光线反射面(141,241,541)随所述可动部件移动,通过光源(172,272,572)发出的光线在光线反射面(141,241,541)上的入射角和反射角发生变化,使得能接收到来自光源(172,272,572)的光线的光敏单元的受光面积发生变化,进而导致光敏单元(171,271,571)的电气性能发生变化。
- 如权利要求1所述的光敏压力报警装置,其中,所述光源(172,272,572)为主动发光的稳定光源,所述光敏单元(171,271,571)为光照射后电阻值或导电性能显著变化的电子器件。
- 如权利要求2所述的光敏压力报警装置,其中,所述光源(172,272,572)为LED,所述光敏单元(171,271,571)为光敏电阻。
- 如权利要求1至3中任一项所述的光敏压力报警装置,其中,所述驱动组件包括微型电机、齿轮箱、驱动轴,该驱动组件可以整体地绕刷头接口件的旋转轴轴线(L3)旋转;所述手柄外壳包括手柄上壳(101)和手柄下壳(102),所述弹性件(150)设置在手柄下壳(102)中,起复位作用,弹性件上端(151)直接或间接地联接手柄部分的手柄下壳(102),弹性件上 端(151)相对于手柄外壳位置不变,弹性件下端(152)联接微型电机(161),清洁元件(330)上无外力作用时,弹性件(150)呈预紧状态,弹性件(150)的预紧力(F3)作用在微型电机(161)上,使微型电机(161)和手柄下壳(102)保持相对固定的位置,当清洁元件被施加外力(F1)时,微型电机(161)运动趋向靠近或远离弹性件上端(151),在外力(F1)作用下弹性件下端(152)产生相对于手柄外壳的形变,所述光源(172)和光敏单元(171)设置在线路板(170)朝向齿轮箱(140)的那一侧上,线路板(170)固定在电机架(160)上,所述光线反射面(141)设置在齿轮箱(140)上。
- 如权利要求4所述的光敏压力报警装置,其中,所述弹性件(150)产生的弹性力作用点到刷头接口件的旋转轴轴线(L3)的距离大于外力(F1)作用点到刷头接口件的旋转轴轴线(L3)的距离的0.35倍。
- 如权利要求4所述的光敏压力报警装置,其中,该装置还包括设置在齿轮箱上的凹部,此凹部包括光线反射面(141)、齿轮箱的凹部侧面(143)、齿轮箱的凹部顶面(144),所述齿轮箱的凹部侧面(143)和齿轮箱的凹部顶面(144)构成光传感屏蔽部分。
- 如权利要求6所述的光敏压力报警装置,其中,所述光源(172)紧挨光敏单元(171)设置,光源(172)和/或光敏单元(171)部分或全部地进入所述光传感屏蔽部分,光源(172)、光敏单元(171)和光线反射面(141)彼此保持间隙,该间隙大于0.1mm。
- 如权利要求1至3中任一项所述的光敏压力报警装置,其中,所述光源(572)和光敏单元(571)设置在可移动的驱动器组件上,所述光线反射面(541)设置在相对于手柄外壳静止不动的线路板上。
- 如权利要求1至3中任一项所述的光敏压力报警装置,其中,所述驱动组件包括被手柄外壳固定的驱动器支架(221、222)、驱动轴(220)、沿驱动轴(220)的纵向轴线(L5)对称分布的两个换能器驱动臂、通过弹性件固定件(237)分别固联于两个换能器驱动臂上靠近清洁元件(230)方向的上端的弹性件(223、224)、设置在两个换能器驱动臂(235、236)远离清洁元件(230)下方的两个内部磁力线方向相反的永磁体(225、226),设置在两个永磁体(225、226)之间的驱动线圈(227),驱动轴(220)、换能器驱动臂(235、236)、永磁体(225、226)为可动部件,所述光源(272)和光敏单元(271)设置在静止部件中的线路板上,光线反射面(241)设置 在可动部件中的换能器驱动臂(235、236)上,光源(272)发射的光线经光线反射面(241)反射到光敏单元(271)。
- 如权利要求9所述的光敏压力报警装置,其中,所述弹性件(223、224)为片形件,弹性件(223、224)沿驱动轴纵向轴线(L5)对称分布,弹性件(223、224)沿着弹性件(223、224)从弹性件固定件(237)指向对应的换能器驱动臂(235、236)方向的长度和弹性件沿着弹性件(223、224)平行于驱动轴纵向轴线(L5)方向的宽度大于弹性件(223、224)的厚度5倍以上。
- 如权利要求10所述的光敏压力报警装置,其中,所述弹性件(223、224)在垂直于驱动轴纵向轴线(L5)以及垂直于弹性件长度方向的弹性件劲度系数远小于弹性件沿着驱动轴纵向轴线(L5)方向的劲度系数,且弹性件(223、224)在垂直于驱动轴纵向轴线(L5)以及垂直于弹性件长度方向的弹性件劲度系数远小于弹性件沿着清洁元件长度方向上的弹性件劲度系数,所述远小于为小于10倍以上。
- 一种用于电动清洁护理器具的光敏压力报警装置,所述清洁护理器具包括手柄外壳、驱动组件、包括清洁元件的清洁组件,其中,所述驱动组件包括微型电机、齿轮箱、驱动轴,该驱动组件可以整体地绕刷头接口件的旋转轴轴线(L3)旋转;所述手柄外壳包括手柄上壳(101)和手柄下壳(102),所述弹性件(150)设置在手柄下壳(102)中,起复位作用,弹性件上端(151)直接或间接地联接手柄部分的手柄下壳(102),弹性件上端(151)相对于手柄外壳位置不变,弹性件下端(152)联接微型电机(161),清洁元件(330)上无外力作用时,弹性件(150)呈预紧状态,弹性件(150)的预紧力(F3)作用在微型电机(161)上,使微型电机(161)和手柄下壳(102)保持相对固定的位置,当清洁元件被施加外力(F1)时,微型电机(161)运动趋向靠近或远离弹性件上端(151),在外力(F1)作用下弹性件下端(152)产生相对于手柄外壳的形变,所述光源(572)设置在相对于手柄下壳(102)静止的线路板(170)或在外力(F1)和弹性件弹性力(F2)共同作用下相对于手柄下壳(102)移动的可动部件上,所述光敏单元(571)布置在相对于手柄下壳(102)移动的可动部件上或相对于手柄下壳(102)静止的线路板(170)上,由光源(572)发出的光线直接照射到光敏单元(571)上。
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