WO2020048503A1 - 一种直线执行器、口腔清洗器及其控制方法 - Google Patents
一种直线执行器、口腔清洗器及其控制方法 Download PDFInfo
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- WO2020048503A1 WO2020048503A1 PCT/CN2019/104464 CN2019104464W WO2020048503A1 WO 2020048503 A1 WO2020048503 A1 WO 2020048503A1 CN 2019104464 W CN2019104464 W CN 2019104464W WO 2020048503 A1 WO2020048503 A1 WO 2020048503A1
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- WIPO (PCT)
- Prior art keywords
- armature
- coil
- stator
- coupler
- linear actuator
- Prior art date
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Classifications
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- 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
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C15/00—Devices for cleaning between the teeth
-
- 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
- A61C17/02—Rinsing or air-blowing devices, e.g. using fluid jets or comprising liquid medication
-
- 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
- A61C17/224—Electrical recharging arrangements
-
- 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
- A61C17/32—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like reciprocating or oscillating
- A61C17/34—Power-driven cleaning or polishing devices with brushes, cushions, cups, or the like reciprocating or oscillating driven by electric motor
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K41/00—Propulsion systems in which a rigid body is moved along a path due to dynamo-electric interaction between the body and a magnetic field travelling along the path
- H02K41/02—Linear motors; Sectional motors
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K41/00—Propulsion systems in which a rigid body is moved along a path due to dynamo-electric interaction between the body and a magnetic field travelling along the path
- H02K41/02—Linear motors; Sectional motors
- H02K41/03—Synchronous motors; Motors moving step by step; Reluctance motors
- H02K41/031—Synchronous motors; Motors moving step by step; Reluctance motors of the permanent magnet type
Definitions
- the invention belongs to the field of consumer electronics, in particular to personal oral hygiene electronic equipment, and particularly relates to a linear actuator and an oral cleaner.
- Personal oral cleaning tools tend to be electronic and intelligent. Products such as electric toothbrushes and water floss are being accepted by more and more people. Most of the internal power of these products comes from ordinary DC motors and electromagnetic high-frequency oscillators. .
- the existing driving technologies include reciprocating linear motion, twisting, or small rotations.
- the driving force includes ordinary rotary motors, swings or twists generated by linear actuators, twists generated by swing motors, and ordinary rotary motors.
- the existing driving device is a common rotary motor.
- a crank link mechanism converts the rotary motion into a linear motion and then drives a plunger pump.
- the plunger pump pressurizes the working fluid, such as tap water.
- the rear high-speed spray achieves the function of cleaning the toothbrush.
- the crank link mechanism converts rotary motion into linear motion. In addition to the unpleasant vibration caused by the unbalanced inertial force, it also generates a large noise, which affects the usability of the product.
- the crank link mechanism can only output a fixed motion stroke, and in actual use, the user's requirements for cleaning often need to adjust both the frequency of the motion and the intensity of the pulse force. Therefore, the variable stroke is an important technology Specifications, and the DC motor structure is difficult to achieve this technical indicator.
- the present invention is directed to the above problems, and an object of the present invention is to provide a linear actuator and a plurality of oral cleaner technical solutions.
- the actuator can directly provide a linear motion to drive a cleaning mechanism such as a toothbrush head, and can further generate a working fluid with pulsating pressure. Driven by a cleaning mechanism such as a toothbrush head or directly sprayed to form a high-speed jet to form a hydraulic dental floss. At the same time, it can flexibly adjust the frequency and amplitude of movement, so that various different oral cleaning technology solutions can be derived, with low vibration and low noise.
- the first aspect is a linear actuator, which includes a stator capable of providing a transverse magnetic field, an armature containing a coil, a housing, and a coupler.
- the coil is placed around the stator in a manner that can cut magnetic lines of force, resulting in The armature moves in the longitudinal direction.
- the housing and the coupler are combined into a body and form an enclosed body space.
- the stator and the armature are both confined in the enclosed body space.
- the coupler is connected to the armature and is connected to the armature.
- the stator includes a longitudinally-magnetized permanent magnet or a longitudinally-excited iron core, which can provide a transverse magnetic field in the vicinity of its magnetic poles; the coils of the armature are arranged around the magnetic poles, and when a current passes through the coils, according to LORENTZ The right hand method will produce a longitudinal force that causes the armature to move;
- the armature cooperates with the stator clearance, and can slide freely in a form with almost no mechanical resistance within a certain range in the longitudinal direction.
- Lubricating grease or other high-molecular lubricants can be placed in the matching clearance;
- the coupler may include a driving member connected to the armature.
- the driving member and the linear body can be sealed at least in the following ways without affecting the mechanical movement.
- a preferred method is to include a first sealing ring on each side.
- An annular closed diaphragm with a second sealing ring, the first sealing ring and the coupler are connected in a water-tight manner, and the second sealing ring is connected to the main body in a water-tight manner, so as to realize the sealing isolation between the internal space of the main body and the external space.
- the diaphragm can be made of polymer materials such as rubber; other alternatives include: filling the sealing area at the intersection between the driver and the coupler, such as rubber, graphite, and Teflon, which can be hollow rectangular cross-section rings, It can also be an O-ring.
- the stator includes longitudinally-magnetized cylindrical magnets, allowing two or more cylindrical magnets to be closely arranged in the stator in a manner that the magnetic poles of the same name are docked, and either one of the magnetic poles at both ends of the stator or two adjacent magnetic poles of the same name are docked therebetween.
- the armature includes a coil skeleton and coils wound around the coil skeleton and arranged along the interval of the skeleton.
- the coils are generally arranged across independent magnetic poles.
- the number of coils is not more than the total number of independent magnetic poles and is preferentially arranged at non-end independent magnetic poles. Maintain a certain gap between them to cooperate with each other without mechanical resistance;
- the armature is locked on one or more linear guide rails, and there is no contact relative movement between the armature and the stator.
- Coils and cylindrical magnets are designed to:
- the working length C of the coil is less than the adjacent largest independent magnetic pole distance M and greater than the movement stroke D, that is, D ⁇ C ⁇ M;
- the above-mentioned cylindrical magnet may include permanent magnets, such as neodymium-iron-boron, iron-cobalt-nickel, etc., which may be solid cylinders or hollow or axisymmetric cylinders;
- the locking member may be a thin-walled housing that surrounds the cylindrical magnets. It can also be a bar or tube that crosses the cross section of the cylindrical magnet.
- the material of the lock key can be stainless steel, aluminum alloy or plastic;
- Both ends of the stator can be fixed to the body of the linear actuator at the same time, or one end can be fixed to the body and the other end is free;
- the coil skeleton includes a columnar space that can accommodate at least part of the stator.
- the columnar space can be fully open at one end or fully open at both ends.
- the coupler can preferentially choose to connect the armature from the non-open end so that the action point and direction of the output pulse force F It roughly coincides with the center position of the stator, thereby reducing the frictional force of the movement.
- the material of the coil skeleton can be selected from plastic or metal oxide or non-magnetic metal;
- the coil skeleton includes partitions between the coils to ensure the space between the coils.
- the working length C of the coil refers to the length of the coil that is excited by the transverse magnetic field of the corresponding independent magnetic pole within the range of the movement stroke of the coil.
- the actual geometric length, but the optimal design is based on the working length of the coil equal to the actual geometric length of the coil;
- the first way is to have the same number of coils and independent magnetic poles to obtain the best magnetic field utilization
- the second way is to have the independent magnetic poles ratio to the number of coils One more, according to the restriction of preferential selection of non-end independent magnetic poles.
- One of the independent magnetic poles located on the end face of the stator lacks a matching coil, which usually occurs at one end of the body, which can reduce the longitudinal size of the coil
- the third way is There are more than one independent magnetic pole than the number of coils. According to the preference of non-end independent magnetic poles, two independent magnetic poles on the stator end face lack matching coils.
- the number of coils is usually not less than two.
- the stator is fixed at both ends, and the coupler outputs lateral movement, such as driving the brush at a frequency close to or reaching the ultrasonic wave.
- Another possible application is to use a coil to stimulate the phase change Achieve longer trips;
- the stators of the above schemes, the cylindrical magnets, the armature, and the coils therein may have axisymmetric or non-axisymmetric geometric features.
- the non-axisymmetric design can prevent the armature from rotating relative to the stator.
- each cylindrical magnet has the same length, the coils at the independent poles at both ends of the stator (if present) have the same length, and the other coils (if at all) have the same length, and the coils at the independent poles at both ends of the stator have the same length Less than the length of other coils;
- Another preferred design is: all coils are connected in series, and the winding directions of two adjacent coils are opposite.
- the cylindrical magnet includes a permanent magnet and a soft magnetic material arranged at both ends, thereby forming an independent magnetic pole soft magnet having a length Y at the independent magnetic poles, and the length Y of the independent magnetic pole soft magnet is selected in such a manner that the motion stroke
- the soft magnet can be pure iron, silicon steel, low carbon steel, and ferritic stainless steel.
- the independent magnetic pole soft magnet can make the distribution of magnetic field lines more concentrated in the independent magnetic pole. When the length of the independent magnetic soft magnet is large enough, it can lock all Through the magnetic lines of force of the magnetic poles, the sum of the movement stroke D and the length Y of the independent magnetic pole soft magnet is approximately equal to the coil working length C.
- a preferred solution to achieve this goal is to select the conditions where the length of each cylindrical magnet is equal and the two ends
- the length of an independent magnetic pole soft magnet is approximately 1/2 of the length of other independent magnetic pole soft magnets, and is approximately 1/4 of the length of a columnar magnet M, that is, approximately M / 4; a soft magnet can be shared between two magnets as a magnetic pole material.
- the outer yoke is made of soft magnetic material, such as iron, silicon steel or ferritic stainless steel;
- the outer yoke is fixed to the body of the linear actuator, and is arranged in parallel with the stator bus bar on the premise that it does not affect the movement of the armature.
- outer yoke is fixed to the armature and moves synchronously with the armature
- the solution is conducive to reducing the magnetic gap between the stator and the outer yoke, to improving the utilization rate of the magnetic field, and to dissipating heat and the arrangement of the electrodes.
- a preferential implementation scheme is that the battery is a Rechargeable batteries are provided with a charging device in a sealed body space.
- the coil of the armature is connected to the control unit through one or a pair of spring-shaped leads.
- the body includes a waterproof and breathable device, and through the waterproof and breathable device, the internal space of the body realizes gas exchange with the outside world;
- the waterproof and breathable device may include a waterproof and breathable film, and a Teflon (PTFE) breathable film (PTFE) or a microporous metal sheet may be selected to facilitate heat dissipation or sound wave transmission;
- PTFE Teflon
- PTFE breathable film
- microporous metal sheet may be selected to facilitate heat dissipation or sound wave transmission;
- the waterproof and breathable device may also include an open one-way valve, or a combination of a one-way valve and a waterproof and breathable membrane may be used.
- it further includes an energy storage device, the power of the energy storage device is coupled with the power of the armature, so that the movement energy of the armature is stored in one direction of the armature movement, and the other direction of the armature movement is stored. Release stored energy;
- the energy storage device includes a booster spring; the booster spring acting between the body and the armature, the booster spring helps to increase the power output of the armature in one direction, especially for asymmetric loads, such as Plunger pump, which helps to increase the power density of linear actuators;
- the boosting direction of the booster spring can be selected in one of two directions or bidirectionally. If the booster spring acts in the returning direction, it can either assist in the returning direction or help the coupler return.
- the connection structure with the armature can also simplify the connection structure between the coupler and the downstream load.
- the first aspect of the second aspect is an oral cleaning device including a linear actuator and a toothbrush head.
- the linear actuator includes a stator capable of providing a transverse magnetic field, an armature including a coil, and a housing.
- the housing and the coupler are combined into a body and form an enclosed body space.
- the stator and the armature are both confined in the enclosed body space.
- One end of the coupler is connected to the armature and the other end is connected to the toothbrush head so that the bristles Oscillated motion driven by a coupler.
- the toothbrush head includes a power disc rotatable about a fixed axis, and the coupler is connected to the power disc so that the power disc is oscillated around the fixed axis under the driving of the coupler.
- the toothbrush head includes a bristle carrier carrying bristles, and the bristle carrier is dynamically coupled with the power disk in a convenient replacement manner so as to oscillate under the driving of the power disk.
- the second aspect of the second aspect includes a linear actuator, a plunger pump, and a nozzle rod.
- the linear actuator includes a stator capable of providing a transverse magnetic field, an armature including a coil, a housing, and a coupling.
- the housing, the coupler and the coupler are combined into a body and form an enclosed body space.
- the stator and the armature are all confined in the enclosed body space.
- One end of the coupler is connected to the armature and the other end is connected to the movement of the plunger pump.
- the plunger pump can pressurize a working liquid to form a pulse liquid under the driving of an armature.
- the nozzle rod includes an axially penetrating liquid flow channel and a spray hole at the end of the flow channel.
- the plug pump and the nozzle rod are connected hydraulically, and the pulse liquid is sent to the nozzle rod and a pulse jet is formed through the nozzle hole;
- the moving part of the plunger pump can be a plunger, or a sleeve, the sleeve and the plunger form a working volume.
- the working fluid enters the working volume through a liquid inlet valve, and leaves the working volume through a liquid outlet valve.
- the liquid valve and the liquid outlet valve respectively include a movable liquid inlet valve and a liquid outlet valve.
- a preferred solution is to include a booster spring, which acts between the armature and the linear body, and uses the energy stored when the armature is retracted to enhance the energy required by the plunger pump to pressurize the working fluid.
- the toothbrush head is attached to the body in a manner that can be easily disassembled, so that the function can be switched between brushing teeth and washing teeth with water.
- the working principle and basic structure of the wireless charger are the same as or similar to the currently widely used wireless terminal chargers, including a wireless transmitting device separated from the body and a wireless receiving device arranged in the body space.
- the preferred solution is to meet QI charging standard.
- the oral cleaning device includes an audio player, including an audio player module, and a wireless communication module capable of communicating with a computer terminal.
- the computer terminal includes a smart phone, an Internet of Things terminal, various types of computers, and intelligent voice assistants. Terminal Equipment;
- the audio playback module includes a speaker and a memory, and a microprocessor for controlling playback.
- the microprocessor is connected to a communication module, such as Bluetooth (BLUETOOTH), WIFI, GPRS, and 5G IoT NB-IOT, LTE and other modules, directly or indirectly.
- BLUETOOTH Bluetooth
- WIFI Wireless Fidelity
- GPRS Wireless Fidelity
- 5G IoT NB-IOT Long Term Evolution
- LTE Long Term Evolution
- a computer terminal such as a mobile phone or a home smart audio assistant (GOOGL HOME);
- the wireless charger includes an audio playback module.
- the mouthwash cleaning device may include other communication or signal sending modules, such as NFC or a universal radio frequency ID device, so as to facilitate sending or receiving work instructions to nearby related devices.
- other communication or signal sending modules such as NFC or a universal radio frequency ID device, so as to facilitate sending or receiving work instructions to nearby related devices.
- the oral cleaning device includes an illumination light source
- the light source may be a weak light source used at night in the bathroom, or a point light source for temporary lighting.
- the point light source includes a manually operated switch and has a similar illuminance as an ordinary flashlight;
- faint light source is arranged inside the wireless charger package
- the faint light source can be turned off or on according to the brightness of the ambient light.
- the third aspect that is, a method for controlling an oral cleaning device, is realized by an oral cleaning device including a linear actuator and a plunger pump, including the following steps:
- FIG. 1 is a schematic structural diagram of a first embodiment of a linear actuator provided by the present invention.
- FIG. 2 is a schematic structural diagram of a second embodiment of a linear actuator provided by the present invention.
- FIG. 2A is a schematic illustration of the physical description of the coil working length of the second embodiment of the linear actuator provided by the present invention.
- FIG. 3 is a schematic structural diagram of a third embodiment of a linear actuator provided by the present invention.
- FIG. 3A is a physical description diagram of a coil working length of a third embodiment of the linear actuator provided by the present invention.
- FIG. 4 is a schematic structural diagram of a fourth embodiment of a linear actuator provided by the present invention.
- FIG. 5 is a schematic cross-sectional view of a first embodiment of the oral cleaning device provided by the present invention.
- FIG. 5A is a schematic exploded view of the first embodiment of the oral cleaning device provided by the present invention.
- FIG. 5B shows a dynamic coupling interface between the toothbrush head and the linear actuator of the first embodiment of the oral cleaning device provided by the present invention.
- FIG. 5C is a rear cross-sectional view of a housing of the first embodiment of the oral cleaning device provided by the present invention, and illustrates a coupler power transmission mechanism.
- FIG. 6 is a first application elevation view of the second embodiment of the oral cleaning device provided by the present invention.
- FIG. 6A is a second application elevation view of the second embodiment of the oral cleaning device provided by the present invention.
- FIG. 6A is a schematic cross-sectional view of a second embodiment of the oral cleaning device provided by the present invention.
- FIG. 6C is a schematic exploded view of a second embodiment of the oral cleaning device provided by the present invention.
- FIG. 6D is a schematic exploded view of the structure of a toothbrush head assembly according to the second embodiment of the oral cleaning device provided by the present invention.
- FIG. 7 is a schematic cross-sectional view of a third embodiment of the oral cleaning device provided by the present invention.
- FIG. 7A is a schematic exploded view of a third embodiment of the oral cleaning device provided by the present invention.
- FIG. 8 is a logic block diagram of a first embodiment of a method for controlling an oral cleaning device according to the present invention.
- FIG. 1 is a schematic structural diagram of a first embodiment of a linear actuator provided by the present invention.
- FIG. 1 it includes a stator 12, an armature 14, a coupler 16, a body wall 18, and a seal 20; wherein the stator 12 includes a cylindrical magnet 100, and the cylindrical magnet 100 includes a first independent magnetic pole 102a and a second Independent magnetic poles 102b, fasteners 104, and stator base 124; the armature 14 includes a coil bobbin 106 and a coil 108 composed of a first coil 108a and a second coil 108b; the coupler 16 includes a driving member 112, which can be used as the coil bobbin 106 The extension part is integrated with the coil bobbin 106, or the two are mechanically connected as independent parts.
- the sealing member 20 includes a ring-shaped diaphragm 128, and a first sealing ring 130 and a second sealing ring 132 arranged on both sides.
- the cylindrical magnet 100 of the stator 12 and the stator base 124 have substantially the same middle hole and cross-sectional profile, and the fastener 104 passes through the hole to fix the cylindrical magnet 100 on the stator base 124 by riveting or threading.
- the fastener 104 may be made of non-magnetic stainless steel.
- One end of the flange can be preformed, and the other end is extruded during the installation of the stator 12.
- the rear end can also be replaced by a nut.
- the surface of the cylindrical magnet 100 can be Surface treatment technology such as plating is used for rust prevention or wear reduction.
- the cylindrical magnet 100 is made of a permanent magnet material such as Nv-Fe-B.
- the cylindrical magnet 100 may be fixed to the stator base 124 by other methods such as gluing.
- the stator 12 includes a cylindrical magnet 100 and two independent magnetic poles 102a and 102b formed by the cylindrical magnet 100.
- the independent magnetic poles 102a and 102b are S pole and N pole, respectively.
- the stator 12 may also include a plurality of coaxially arranged cylindrical magnets 100. When multiple magnets are arranged, adjacent magnetic poles of the same name need to be adjacent, and two adjacent magnetic poles of the same name may jointly form an independent magnetic pole.
- the coil bobbin 106 of the armature 14 is substantially a hollow columnar body with at least one end open, and includes a series of coil spacers 110 distributed along the axially outer side, and the coil 108 is fixed between the coil spacers 110.
- the first coil 108a is located near the first independent magnetic pole 102a in the axial direction
- the second coil 108b is located near the second independent magnetic pole 102b in the axial direction.
- the number of coils 108 may also be one or more than two, and the number of coils 108 is less than or equal to the number of independent magnetic poles 102.
- the coil bobbin 106 can be molded or machined. It can be made of plastic or aluminum alloy and anodized on the surface.
- the first coil 108a and the second coil 108b are wound on the coil bobbin 106 in opposite directions. Two coils can be wound in series at one time, and the outer periphery of the coil can be covered with a protective layer by processes such as overmolding.
- the internal space of the stator 12 and the armature 14 is selected from a cylindrical geometric mechanism, which may have an axisymmetric or non-axisymmetric cross section, and the non-axisymmetric cross section may be used to prevent the armature from rotating.
- the body wall 18 includes a first wall 116, a second wall 118, and a body external port 126.
- the connection between the first wall 116 and the second wall 118 can be by mechanical means, such as thread, buckle, and welding. The connection or compression can be used.
- the seal between the first wall 116 and the second wall 118 can be filled with common rubber materials, or Processes such as welding ensure its tightness, and the implementation of the connection method will be further explained in other application examples, namely, oral cleaning devices.
- the stator base 124 is integrated with the first wall 116 or fixed to each other by a mechanical connection.
- the first wall 116 and the second wall 118 may be manufactured by injection molding, stretching, or other machining methods, respectively.
- the seal 20 is arranged across the body external port 126 so that the body wall 18, the coupler 16 and the seal 20 together form a closed body space 122.
- the stator 12 and the armature 14 are arranged in the body space 122.
- the driving part 112 of the coupler 16 and the coil bobbin 106 can be integrally processed using the same material, or they can be separate parts and then fixed together by welding or injection molding.
- the driving member 112 includes a first sealing guide groove 114 in which the first sealing ring 130 can be placed; a sealing support 134 is arranged in the body space 122, and the sealing support 134 and the second wall 118 together form a first sealing ring 132 in which the second sealing ring 132 can be placed; Two sealed guide grooves 120.
- the annular diaphragm 128 and the first seal ring 130 and the second seal ring 132 of the seal 20 can be formed by ordinary rubber vulcanization, or by injection molding of other polymer materials, and can also be made of rubber cloth composite materials. It is installed in the annular space provided by the first sealed guide groove 114 and the second sealed guide groove 120 in an elastically modified manner.
- the annular diaphragm 128 may include a pre-made corrugation to reduce the resistance to the movement of the coupler 16 and provide good elastic deformation. To extend life.
- the first coil 108a and the second coil 108b are arranged across the first independent magnetic pole 102a and the second independent magnetic pole 102b, respectively, and two opposite radial magnetic field directions are formed near the two independent magnetic poles according to the N and S magnetic poles shown in the figure.
- the respective coils flow in the direction shown in the figure, that is, the cross section drawn on the side of "X" represents the direction of the current leaving the observer, orthogonal to the radial magnetic field concentrated near the independent magnetic pole.
- the first coil 108a The direction in which the second coil 108b pushes the coil bobbin 106 is the same, forming the output resultant force F. If the current is reversed, the force F is also reversed.
- the seal 20 deforms with the movement of the driving member 112, and the seal 20 is always within the elastic deformation range of the material, and the coupler 16 passes through the external port 126 of the body in a water-tight manner and outputs a reciprocating motion.
- FIG. 2 is a schematic structural diagram of a second embodiment of a linear actuator provided by the present invention.
- FIG. 2 it includes a stator 12, an armature 14, a coupler 16, a body wall 18, and a seal 20.
- the stator 12 includes a set of no less than three cylindrical magnets 100 of the same name with adjacent poles, a stator base 124 and a protective end face 125, wherein the cylindrical magnet 100 includes a first cylindrical magnet 100a and a second cylindrical magnet at both ends. 100b, all the cylindrical magnets 100 form a series of independent magnetic poles 102 including a first independent magnetic pole 102a and a second independent magnetic pole 102b at both ends.
- Each cylindrical magnet 100 may be an equal-length or non-equal-length cylinder.
- the body may be formed by axially magnetizing a permanent magnet material such as neodymium iron boron.
- the cylindrical magnet 100, the stator base 124, and the protective end face 125 have substantially the same center hole and cross-sectional profile.
- the cross-sectional profile may be an axisymmetric circle or other shapes that are not drawn back.
- the fasteners 104 pass through all the cylindrical magnets 100, and protect the end faces 125 and the center hole of the stator base 124 to fix the stator base 124 to the stator base 124.
- the stator base 124 may be integrated with the first wall 116 or may be mechanically connected. .
- the protective end surface 125 is used to protect the relatively fragile cylindrical magnet 100 from being damaged by force.
- the fastener 104 may be made of non-magnetic stainless steel. One end of the flange can be preformed, and the other end is extruded during the installation of the stator 12. The rear end can also be replaced by a nut.
- the surface of the cylindrical magnet 100 can be Surface treatment technology such as plating is used for rust prevention or wear reduction.
- the armature 12 includes a coil bobbin 106 and a coil 108, each coil 108 corresponding to an independent magnetic pole 102, including a first coil 108a corresponding to a first independent magnetic pole 102a, and a second coil 108b corresponding to a second independent magnetic pole 102b.
- the length of the coil 108 can be related to the size of the corresponding independent magnetic pole and the adjacent cylindrical magnet.
- the first coil 108a and the second coil 108b are equal in length and shorter than the length of other coils.
- the winding directions of the adjacent coils are opposite. Each coil is connected in series, and the winding can be completed on the same coil bobbin 106 at one time.
- the coil bobbin 106 is substantially a hollow columnar body with at least one end open.
- the coil bobbin 106 includes a series of coil spacers 110 distributed along the outside in the axial direction.
- the coil 108 is fixed between the coil spacers 110.
- the coil bobbin can be reinforced plastic or aluminum alloy machined parts.
- a partition space 111 can be arranged inside the coil partition 110.
- One function is to reduce the weight of the coil bobbin 106, and the other function can store lubricating materials to reduce the coil bobbin. The friction between 106 and the stator 12.
- the coupler 16 includes a driving member 112.
- the driving member 112 has a smooth surface.
- the sealing member 20 may be a simple O-ring or other structural member that helps reduce the axial movement resistance of the driving member 112.
- the sealing member 20 is sealed with water. Way clings to the driver 112.
- the body wall 18 includes a first wall 116, a second wall 118, and a body external port 126.
- the connection between the first wall 116 and the second wall 118 can be by mechanical means, such as thread, buckle, and welding. The connection or compression can be used.
- the seal between the first wall 116 and the second wall 118 can be filled with common rubber materials, or Welding and other processes ensure its tightness.
- the stator base 124 is integrated with the first wall 116 or fixed to each other by a mechanical connection.
- the first wall 116 and the second wall 118 may be manufactured by injection molding, stretching, or other machining methods, respectively.
- the seal 20 is arranged across the body external port 126 so that the body wall 18, the coupler 16 and the seal 20 together form a closed body space 122.
- the stator 12 and the armature 14 are arranged in the body space 122.
- FIG. 2a is a physical description of the coil working length of the second embodiment of the linear actuator provided by the present invention.
- the radial magnetic field strength The distributions near the first and second independent magnetic poles 102a and 102b and near the independent magnetic poles 102 are P12a, P12b, and P12, respectively.
- the peak values of one positive magnetic field and two negative magnetic fields are Bmax and B1max respectively, corresponding to independent
- the coil 108 of the magnetic pole 102 works under the excitation of the radial magnetic field P12.
- the coils 108 are arranged across the corresponding independent magnetic poles 102, and the radial magnetic fields are alternately changed in the vicinity of the independent magnetic poles 102 according to the directions of the N and S magnetic poles shown in the figure.
- the current flows in the respective coils in the direction shown in the figure.
- the cross section on one side represents the direction of the current leaving the observer, which is orthogonal to the radial magnetic field concentrated near the independent magnetic pole.
- each coil 108 pushes the coil skeleton 106 in the same direction to form the output resultant force F. If the current is reversed Then, the force F is also reversed.
- the sealing member 20 is fixed in the space in the second sealing guide groove 12 and contacts the smooth surface of the driving member 112 in a sliding seal manner, so that the coupler 16 can be A sealed manner passes through the external port 126 of the body and performs a reciprocating motion.
- FIG. 3 is a schematic structural diagram of a third embodiment of a linear actuator provided by the present invention.
- stator 12 As shown in FIG. 3, the stator 12, the armature 14, the coupler 16, the body wall 18, and the seal 20 are included.
- the stator 12 includes a first cylindrical magnet 100a and a second cylindrical magnet 100b.
- the first cylindrical magnet 100a and the second cylindrical magnet 100b include a permanent magnet and soft magnets 136a-1 / 136a-2 and 136b- 1 / 136b-2, thereby forming the first independent magnetic pole 102a, the independent magnetic pole 102, the second independent magnetic pole 102b, the second independent magnetic pole 102b, the length Y1 of the soft magnet, and the independent magnetic pole 102, the length of the soft magnet Y,
- You can choose Y 2Y1
- the stator 12 also includes an outer yoke 138 made of soft magnetic material.
- the outer yoke 138 is coaxially arranged around the stator 12 and can be integrated with the
- two adjacent soft magnets such as 136a-1 and 136b-2, can be combined into a single integrated part.
- the armature 12 includes a coil bobbin 106, a first coil 108a and a second coil 108b, respectively corresponding to the independent magnetic pole 102 and the second independent magnetic pole 102b or their corresponding soft magnets 136a-1 / 136b-2 and 136b-1.
- the coil bobbin 106 is substantially a hollow columnar body with one end open, and includes three coil spacers 110 distributed along the outside in the axial direction.
- the coil 108 is fixed between the coil spacers 110.
- the body wall 18 includes a first wall 116, a second wall 118, and a body external port 126.
- the connection between the first wall 116 and the second wall 118 can be by mechanical means, such as thread, buckle, and welding. The connection or compression can be used.
- the seal between the first wall 116 and the second wall 118 can be filled with common rubber materials, or Welding and other processes ensure its tightness.
- the first wall 116 and the second wall 118 may be manufactured by injection molding, stretching, or other machining methods, respectively.
- the driving part 112 of the coupler 16 and the coil bobbin 106 can be integrally processed using the same material, or they can be separate parts and then fixed together by welding or injection molding.
- the first cylindrical magnet 100a, the second cylindrical magnet 100b, and the outer yoke 138 are fixed to the first wall 116 by a non-magnetic thin-walled member 140 and two rivet locking members 142a and 142b.
- the sealing member 20 includes an annular diaphragm 128, and a first sealing ring 130 and a second sealing ring 132 disposed on both sides, respectively.
- the driving member 112 includes a first sealing guide groove 114 in which the first sealing ring 130 can be placed; the outer yoke 138 and the second wall 118 together form a second sealing guide groove 120 in which the second sealing ring 132 can be placed.
- the seal 20 is arranged across the body external port 126 so that the body wall 18, the coupler 16 and the seal 20 together form a closed body space 122.
- the stator 12 and the armature 14 are arranged in the body space 122.
- FIG. 3a is the present invention
- the physical description of the coil working length of the fifth embodiment of the provided linear actuator is shown in the figure.
- the second independent magnetic pole 102b soft magnet 136b-1 and the independent magnetic pole 102 soft magnet 136a-1 / 136b-2, and the outer yoke 138 greatly narrows the magnetic field distribution in each area and enhances the peaks BmaX and B1maX of the forward and reverse magnetic fields.
- the length of the soft magnet at the independent pole position is reasonably designed, such as Y ⁇ 2Y1 and Y ⁇ M / 4 , The ideal goal of D + Y ⁇ C can be achieved.
- the coil 108 and the second coil 108b each span their respective independent magnetic poles 102 and second independent magnetic poles 102b.
- the magnetic field lines are concentrated in the soft magnets and the outer yoke 138 of the independent poles, and between each of the independent magnetic poles and the outer yoke 138.
- the current flows in the respective coils in the direction shown in the figure, that is, the cross section drawn on the side of "X" represents the direction of the current leaving the observer, which is orthogonal to the radial magnetic field concentrated near the independent magnetic poles.
- the directions of the independent magnetic poles indicated by N and S are in accordance with Lorentz's right-hand rule, the direction in which the coil 108 and the second coil 108b push the coil bobbin 106 is the same, forming an output resultant force F. If the current is reversed, the force F is also reversed. This During the process, the sealing member 20 deforms with the movement of the driving member 112, so that the coupler 16 can pass through the external connection port 126 of the body in a sealed manner and perform a reciprocating motion.
- FIG. 4 is a schematic structural diagram of a fourth embodiment of a linear actuator provided by the present invention.
- FIG. 4 it includes a stator 12, an armature 14, a coupler 16, a body wall 18, a seal 20, an internal skeleton 22, a control unit 24, and an energy storage 26.
- the stator 12 includes a cylindrical magnet 100.
- the cylindrical magnet 100 includes a first independent magnetic pole 102a and a second independent magnetic pole 102b, a fastener 104, and a stator base 124.
- the two ends of the cylindrical magnet 100 are respectively fixed with a first soft magnet 136a.
- the second soft magnet 136b is respectively fixed with a first soft magnet 136a.
- the armature 14 includes a coil bobbin 106 and a coil 108 composed of a first coil 108a and a second coil 108b.
- the coil bobbin 106 of the armature 14 is substantially a hollow columnar body with at least one end open, including a series of coil spacers 110 distributed axially on the outside, at least one spring-like lead 150a / 150b, at least one guide post 158a / 158b, and a coil. 108 is fixed between the coil spacers 110.
- the first coil 108a is located near the first soft magnet 136a in the axial direction
- the second coil 108b is located near the second soft magnet 136b in the axial direction.
- the number of coils 108 may also be one or more than two, and the number of coils 108 is less than or equal to the number of independent magnetic poles 102.
- the coil bobbin 106 can be molded or machined. It can be made of plastic or aluminum alloy and anodized on the surface.
- the first coil 108a and the second coil 108b are wound on the coil bobbin 106 in opposite directions.
- the coupler 16 includes a driving member 112 that can extend outward (or downward) through a hollow portion of the coil bobbin 106 as a part of the coil bobbin 106.
- a driving member 112 is coaxially arranged with the coil bobbin 106.
- the sealing member 20 includes an annular diaphragm 128, and a first sealing ring 130 and a second sealing ring 132 disposed on both sides, respectively.
- the main body wall 18 includes a first wall 116, a second wall 118, a third wall 144, a main body space 122 and a main body external port 126.
- the connection between the second wall 118 and the third wall 144 can be mechanically used, such as thread, buckle, and welding, and the connection or compression can be made. The seal between them can be filled with commonly used rubber materials, or Welding and other processes ensure its tightness.
- the first wall 116, the second wall 118, and the third wall 144 may be manufactured by injection molding, stretching, or other machining methods, respectively.
- the stator base 124 may be manufactured integrally with the first wall 116.
- the cylindrical magnet 100 of the stator 12 and the stator base 124 have substantially the same middle hole and cross-sectional profile, and the fastener 104 passes through the hole to fix the cylindrical magnet 100 on the stator base 124 by riveting or threading.
- the fastener 104 is a thin-walled structure and can be made of non-magnetic stainless steel. One end of the flange can be preformed, and the other end is extruded during the installation of the stator 12. The rear end can also be replaced by a nut.
- the surface of the cylindrical magnet 100 may be surface-treated by electroplating or other techniques to prevent rust.
- the cylindrical magnet 100 is made of a permanent magnet material such as Nv-Fe-B.
- the stator 12 includes a cylindrical magnet 100 and an independent magnetic pole 102 including two independent magnetic poles 102a and 102b.
- the independent magnetic poles 102a and 102b are S pole and N pole, respectively.
- the stator 12 may also include a plurality of coaxially arranged cylindrical magnets 100. When the plurality of magnets 100 are arranged, the magnetic poles of the same name need to be adjacent to each other, and two adjacent magnetic poles of the same name may jointly form an independent magnetic pole.
- the stator 12 also includes an outer yoke 138 made of a soft magnetic material.
- the outer yoke 138 is coaxially arranged around the stator 12, and a priority scheme is arranged between the first wall 116 and the inner skeleton 22, or the outer magnetic
- the yoke 138 and the internal skeleton 22 are integrally arranged in the body space 122.
- the driving part 112 of the coupler 16 and the coil bobbin 106 can be integrally processed using the same material, or they can be separate parts and then fixed together by welding or injection molding.
- the driving member 112 includes a first sealing guide groove 114 in which the first sealing ring 130 can be placed, and the first wall 116 and the second wall 118 together form a second sealing guide groove 120 in which the second sealing ring 132 can be placed.
- the annular diaphragm 128 and the first seal ring 130 and the second seal ring 132 of the seal 20 can be formed by ordinary rubber vulcanization, or by injection molding of other polymer materials, and can also be made of rubber cloth composite materials.
- An elastically deformed manner is installed in the annular space provided by the first seal guide groove 114 and the second seal guide groove 120.
- the seal 20 is arranged across the body external port 126 so that the body wall 18, the coupler 16 and the seal 20 together form a closed body space 122.
- the stator 12 and the armature 14 are arranged in the body space 122.
- the internal skeleton 22 includes a skeleton body 146 that can be fixed to the body wall 18, the control unit 24 can include a PCB board 152, a microprocessor 154 and its peripheral circuits 156, and the PCB board 152 can be fixed to the skeleton body 146.
- the two guide posts 158a / 158b of the coil bobbin 106 are inserted into the corresponding two guide holes (not labeled) on the inner skeleton body 146 to prevent the armature 14 from rotating.
- the control unit 24 is connected to the coil 108 through spring-like leads 150a / 150b to ensure the fatigue life of the leads.
- the spring-shaped leads 150a / 150b can also be replaced with two ultra-soft wires to simplify the structure.
- An alternative solution is that a battery is arranged in the body space 122, especially a rechargeable battery.
- the microprocessor 154 may select an ordinary single chip microcomputer (MCU) or an oscillating circuit.
- the peripheral circuit 156 includes, but is not limited to, a driving circuit including a FET element, a switch, an indicator light, an MCU protection circuit, and an optional charging circuit.
- the microprocessor 154 together with the peripheral circuit 156 can form a unipolar or double-click voltage pulse, especially a PWM pulse, which can drive the armature 14 to move.
- the energy storage device 26 may be a simple booster spring 148 or other elastic or inertial unit.
- the accumulator 26 can store the energy of the armature 14 in the reverse stroke (that is, the opposite direction of Fe as shown), and the stored energy is released during the armature 14 feed stroke (that is, the direction of Fe as shown), thereby increasing its feed. The energy density of the stroke.
- the control unit 24 can output a PWM driving pulse of unipolar or bipolar voltage to both ends of the coil 108 of the armature 14 according to the start instruction.
- the first coil 108a and the second coil 108b respectively span the first independent magnetic pole 102a and the second independent magnetic pole.
- the magnetic field lines are concentrated in the soft magnets of two independent magnetic poles and the moving outer yoke 138, and within a narrow range between each independent magnetic pole and the moving outer yoke 138, near the two independent magnetic poles, as shown in the figure
- the N and S magnetic poles form two radial magnetic fields in opposite directions.
- the currents in the respective coils are as shown in the figure.
- Flow in the direction that is, the section on the side of "X” represents the direction of the current leaving the observer, orthogonal to the radial magnetic field concentrated near the independent magnetic poles.
- the first coil 108a and the second coil 108b push the coil.
- the direction of the skeleton 106 is the same, and the thrust of the booster spring 148 of the energy storage 26 is superimposed to form an enhanced output resultant force Fe. If the current is reversed, the electromagnetic force is reversed and the booster spring 148 cancels Part of the reverse force forms a smaller reverse output force Fe.
- the seal 20 deforms with the movement of the driving member 112, the seal 20 is always within the elastic deformation range of the material, and the coupling 20 is water-tight. It passes through the external connection port 126 of the body and outputs a reciprocating motion.
- the oral cleaning device includes a linear actuator 02 and a toothbrush head 28.
- the toothbrush head 28 is connected to the linear actuator 02 in a convenient replacement manner.
- a coupler 16 includes a power disc 202 with a key slot 206 and an attracting magnet 198; one of the basic features of the toothbrush head 28 is that it includes a key shaft 194 that can be closely fitted with the key slot 206 and a suction Soft magnet 196; through the two basic features, the toothbrush head 28 and the coupler 16 can achieve dynamic coupling, and the toothbrush head 28 can be easily removed and installed without any tools.
- linear actuator 02 For the specific structure of the linear actuator 02, refer to the first to fourth embodiments provided by the first aspect of the present invention, which includes a stator 12, an armature 14, a coupler 16, a body wall 18, a seal 20, and an internal skeleton. 22, control unit 24, and battery 174.
- the stator 12 includes a permanent magnet 100, a stator base 124, and an outer yoke 138.
- the permanent magnet 100 includes a first independent magnetic pole 102a and a second independent magnetic pole 102b formed by soft magnets fixed on both end faces.
- the individual magnetic poles 102a / 102b are fixed to each other and together on the stator base 124 by gluing or magnetic mechanical locking.
- the outer yoke 138 includes an end cover 139 arranged coaxially with the permanent magnet 100.
- the armature 14 includes a coil bobbin 106 and two coils 108a / 108b that are wound in opposite directions.
- the coil bobbin 106 has an axisymmetric cavity therein, and the geometry of the periphery of the stator 12 is similar to the cavity, so that the coil bobbin 106 can follow The stator moves freely in the axial direction.
- the coil bobbin 106 includes a guide shaft 107 that cooperates with the guide channel 125 located on the edge 127 of the stator base 124 to limit the rotation of the armature 14 relative to the stator 12.
- the coupler 16 includes a driving member 112, a connecting rod 204, a power disc 202, and an attracting magnet 198.
- the driving member 112 may be extended from the upper end of the coil bobbin 106, or one end may be embedded in the coil bobbin 106 as a metal insert.
- the other end of the driving member 112 includes a first pin hole 214;
- the connecting rod 204 includes a first A pin 210 and a second pin 212.
- the power disc 202 includes an eccentrically arranged second pin hole 208 and a rotating shaft 205 including a key slot hole 206.
- the first pin 210 and the first pin hole 214 and the second pin 212 and the second pin hole 208 can cooperate with each other without a gap, so that when the driving member 212 oscillates back and forth in the axial direction, through the connecting rod 204, the power disc 202 is driven to rotate around its own rotation axis.
- the toothbrush head 28 includes a bristle carrier 190, an attracting soft magnet 196, and a bristle 192 fixed on the bristle carrier 190.
- the bristle carrier 190 includes a key shaft 194.
- the suction soft magnet 196 is fixed on the bristle carrier 190.
- the suction soft magnet 196 can be ferritic stainless steel or other low carbon steel, and can be fixed by injection molding or elastic bayonet. .
- the above power transmission from the armature 14 to the toothbrush head 28 requires that there is no gap in each link, including the connection between the connecting rod 204 and the driving member 112 and the power disk 202, the key slot hole 206 of the power disk 202 and the bristle carrier.
- the connection between the 190 key shaft to ensure the effectiveness of power transmission.
- There are many ways to eliminate the gap one of which is to introduce an elastic pre-tensioning force in one direction of the movement, for example, to introduce an elastic member in the rotation direction of the power disk 202 so that the power disk 202 is always under a force in one rotation direction.
- the power coupling between the toothbrush head 28 and the power disc 202 can be tapered to eliminate transmission gap.
- the power transmission of the coupling member 16 may have various embodiments to replace the above-mentioned link mechanism. For example, a unidirectional contact transmission may replace the link transmission scheme.
- the body wall 18 includes a first wall 116, a second wall 118, a second seal 129, an operation key 170 passed through in a sealed form and fixed to the second wall 118, and an internal skeleton body 146.
- the first wall 116 includes an elastic rod 162 extending upward at the bottom, a third sealed guide groove 164 surrounding the bottom, and a hook 166 at the end of the elastic rod 162;
- the second wall 118 includes a hook groove 168 and a through channel 182
- Extension body 180, a power shell 186 with an open cavity 188, a back plate 200, and the open space 188 of the power shell 186 is generally a columnar space perpendicular to the through channel 182, one end of which includes a shaft hole 187 and the other end of which includes A stop 189 for positioning the back plate 200.
- the hook groove 168 is arranged at a position where the operation key 170 of the second wall 118 projects perpendicularly to the opposite inner wall, and its size does not exceed the range of the projection, so as to ensure the structural strength. At the same time, it has good mold processability.
- the attracting magnet 198 may be an ordinary permanent magnet, and is fixed by injection molding or fixed around the rotating shaft hole 187 of the power case 187.
- the extension body 180 includes a drain hole 184 connected to the through-channel 182, and timely discharges liquid that may enter the through-channel 182.
- the second seal 129 is placed in the third seal guide groove 164, and the first wall 116 is sealed by the second seal 129 and the inner wall surface of the second wall 118 to cooperate to achieve the seal, and the cooperation between the hook 166 and the hook groove 168, And the inner wall body 146 and the outer yoke 138 are pressed against the top of the second wall 118 to be locked with each other.
- the first sealing guide groove 114 is arranged around the junction extension of the coil bobbin 106 and the driving member 112.
- the outer yoke 138 and the top surface of the second wall 118 jointly form a second sealing guide groove 120.
- the coupling member 16 passes the seal member 16 and the first The cooperation between a seal guide groove 114 and the second seal guide groove 120 achieves a seal with the second wall 118.
- the first wall 116, the second wall 118, the seal 20, the second seal 129, and the coupling 16 together form a closed body space 122, and the driving member 112 can reciprocate with the external port 126 passing through the body.
- the control unit 24 includes a PCB board 152 and other electronic components arranged on the PCB board 152, including a touch switch 172, a microprocessor and peripheral circuits, etc.
- the touch switch 172 is adjacent to the operation key 170, and the operation can be operated by the operation key 170
- the switch 172 switches the power supply and switches the working mode.
- the PCB board 152 may be fixed on the internal skeleton body 146 through a mounting groove 149 or the like.
- the control unit 24 may provide a PWM pulse voltage for driving the armature 14.
- the controller 24 may also include a wireless communication module, including: BLUETOOTH or WIFI, memory, wireless charging receiving module, audio player and its driving module, etc.
- a wireless communication module including: BLUETOOTH or WIFI, memory, wireless charging receiving module, audio player and its driving module, etc.
- the functional indicator light it may also include a point light source with a brightness similar to a flashlight. , A dim light source with low brightness at night.
- a waterproof and breathable material can be arranged through the body wall 18 to transmit sound waves, and the waterproof and breathable material can be a metal sheet containing a large number of micro holes and the like.
- the battery 174 may be a rechargeable lithium battery or a replaceable alkaline battery.
- the battery 174 is mounted on the inner frame body 146 through a compression spring 176.
- the control unit 24 needs to include a charging control circuit. If a wireless charging device is further selected to charge the battery 174, a wireless energy receiver is required.
- the wireless energy receiver can usually be a planar coil and a planar magnetically permeable back. The plates are assembled and can be placed in the coil space 178 between the internal skeleton body 146 and the first wall 116.
- the installation of the cavity cleaning device can be realized according to the following procedure.
- stator 12 First fix the stator 12 to the stator base 124, then fix the control unit 24 to the internal skeleton body 146, then install the battery 174 in place, then install the armature 14 in place and connect the control unit 24 and the lead of the armature 14 before placing
- the outer yoke 138 surrounds the armature 14, and then the seal 20 is mounted on the first seal guide groove 114 to form a core pre-assembly.
- the power disc 202 is installed.
- the power disc 202 is first placed in the open space 188 so that the rotation shaft 205 enters the rotation shaft hole 187, and then the first pin 210 of the connecting rod 204 is installed in the first pin hole 214, and the second pin 212 is installed in the second pin hole 208.
- the back plate 200 is then placed in the stop 189 and fixed by welding, pressing, or connecting with an elastic mechanism, or gluing.
- the switch or mode switching information is input to the control unit 24 through the operation key 170. According to the input information, the control unit 24 outputs a PWM signal of alternating polarity reversal to the armature 14 to achieve the reciprocating motion of the armature 14. During the work period or the stop period, the control unit 24 can receive or send information through a wireless communication module, and drive an audio player.
- the driving member 112 oscillates back and forth, and drives the power disk 202 to rotate around its axis of rotation 205.
- the power disk 202 then drives the toothbrush head 28 to rotate.
- the toothbrush head 28 can realize high-frequency oscillation.
- the oral cleaning device 04 includes a linear actuator 02, a plunger pump 34, a nozzle rod 32, and a toothbrush head assembly 30.
- the toothbrush head assembly 30 can be installed on the body wall 18 or fixed relative to the body wall 18, and the oral cleaning device 04 can perform the function of an electric toothbrush; as shown in FIG.6A, the toothbrush head assembly 30 is separated from the body wall 18, the nozzle rod 32 is installed on the body wall 18 or fixed relative to the body wall 18, and the oral cleaning device 04 can perform a hydraulic floss function.
- the technical solution can achieve three independent goals, namely: A) an electric toothbrush, especially an electric toothbrush with replaceable toothbrush head, B) a water floss device, especially a replaceable nozzle rod Water dental floss device, C) An oral cleaning device, which includes a nozzle rod and a toothbrush head assembly that can be easily disassembled.
- the toothbrush head assembly can limit the nozzle rod after installation to achieve the function of an electric toothbrush. After the assembly is disassembled, the nozzle rod can intermittently spray fluid outward, thereby achieving the function of water floss.
- Engineering technicians can design at least three products with different functions according to the disclosed technical solution. The following are the details of the technical solution.
- the oral cleaning device 04 As shown in FIG. 6B, the oral cleaning device 04, with the seal 20 as the lower boundary, belongs to the linear actuator 02, and has the same structure as the linear actuator 02 in the first embodiment of the oral cleaning device provided by the second aspect of the present invention.
- the corresponding detail numbers are also completely the same, please refer to FIG.5-FIG.5B, which will not be repeated here.
- the plunger pump 34 includes a sleeve 228, a plunger 244, and a compression volume 248 defined by the sleeve 228 and the plunger 244.
- the sleeve 228, the plunger 244, and the compression volume all have axisymmetric geometric features.
- the sleeve 228 includes a liquid inlet channel 230 and a liquid outlet channel 232 to which the compression volume 248 can be connected, and the plunger 244 includes a plunger skirt 246 that expands during the compression process.
- the outlet 232 of the outlet channel is blocked by a outlet valve member 250.
- the outlet valve member 250 is a tongue-shaped soft diaphragm located in the middle of the ring 252 and fixedly connected on one side, and is attached to the outlet valve seat plane 234.
- the liquid inlet channel 230 is arranged near the end face of the plunger skirt 246 at the end of the expansion stroke, so that the external working fluid can enter the compression volume 248, and after the plunger 244 starts the compression stroke, once the plunger skirt 246 will enter the liquid passage The 230 is blocked, and the working fluid pressure in the compression volume 248 starts to rise. In this process, the plunger skirt 246 acts as a valve member of the liquid inlet valve. After the pressure of the working fluid rises, the liquid discharge valve 250 is pushed away and enters the high-pressure volume 268.
- the nozzle rod 32 includes a nozzle rod body 256 including an axially penetrating flow channel 258.
- the nozzle rod body 256 is a hollow long axis body.
- the nozzle rod body 256 bends and contracts at the end, and finally forms a spray hole 260 through the flow channel 258.
- a first protrusion 262, a second protrusion 264, and a third protrusion 266 are distributed along the nozzle shaft 256 in the axial direction.
- the first protrusion 262 includes a toothbrush rod seal guide groove 272 for placing the first seal ring 282 and a liquid return channel 276 longitudinally passing through the first protrusion 262.
- the second protrusion 262 includes a first volume seal guide groove 274 for A second sealing ring 280 is placed, and the nozzle stem 256 is press-fitted on the ring edge 252 of the outlet valve member 250 to form a high-pressure volume 268.
- a third guide 266 and a sleeve stop 236 form a sealing guide groove for placing a third Sealing ring 254.
- the open end of the sleeve 228 is a horn-shaped support body 226.
- the horn-shaped support body 226 includes a second volume sealing guide groove 240 for receiving a fourth sealing ring 278.
- the plunger 244 is connected to the driving member 112 of the coupling member 16, and can be hinged to eliminate the eccentricity error of the installation. It can also be a rigid connection or an integrated design.
- the driving member 112 is provided with a first sealing guide groove 114.
- the second wall 118 of the actuator body 18 includes an extension 216 and a top surface 220 and an upper exit 218.
- a second seal guide groove may be formed between the horn-shaped support 226 and the top surface of the yoke 138 outside the linear actuator to receive the second seal ring 132 of the seal 20, the extension 216 of the second wall 118, and the second protrusion. 264 forms a liquid storage volume 284.
- the liquid storage volume 284 is sealed up and down by a second sealing ring 280 and a fourth sealing ring 278, respectively.
- the extension 216 of the second wall 118 includes a working liquid filling port 222, and a working liquid filling port 222.
- a cover can be arranged to prevent the working fluid from flowing out or the ingress of contaminants during use.
- the above liquid inlet valve mechanism composed of the liquid inlet channel 230 and the plunger skirt 246 can be replaced by a common check valve, especially a check valve with a diaphragm valve can be used as a priority solution.
- the plunger pump 34 can be assembled as follows:
- the nozzle rod body 256 can be pushed in from the lower opening of the cavity of the second wall 118, and the first protrusion 262 and above are extended through the upper outlet.
- the second protrusion 264 is in two directions by the top surface 220 and the inner wall surface of the extension section 216. Limit.
- the outlet valve 250 and the third sealing ring 254 are installed from the upper opening of the sleeve 228, the fourth sealing ring 278 is installed into the second volume sealing guide groove 240, and the opening of the second wall 118 of the sleeve 228 is opened. Insert it until it is stopped by the end face of the nozzle rod body 256.
- the pre-installed core pre-installed parts including the pre-installed driving part 112 and piston 244 and the sealing part 20, are emptied from the second wall 118.
- the lower cavity opening is pushed in until the hook 166 fully enters the hook groove 168.
- the second seal ring 132 of the seal 20 is pressed by the horn-shaped support 226 and the outer magnet 138 to form a seal in both radial and axial directions.
- a limiting body with a certain rigidity can be arranged therein, or a rigid support member can be added to solve the second problem when an additional axial or radial seal is added. Direct pressure problems with the seal ring 132.
- the horn-shaped support 226 includes a micro-channel 242, and the extension 216 includes a micro-channel 224. After the installation is completed, the space formed by the seal 20 and the horn-shaped support 226 always passes through the micro-channel 242 and the micro-channel 224 to the outside world. Connect and drain any liquids that may be present.
- the toothbrush head assembly 30 please refer to FIG. 6C and FIG. 6D, including the long housing 286, the head housing 290 intersecting the long housing 286, the power disc 202, the toothbrush head 28, and the elastic connector 310. , Back plate 200.
- the internal cavity of the long casing 288 communicates with the internal cavity of the head casing 292, and the internal cavity of the head casing 292 includes a front outlet 294, the first protruding teeth 308 annular space 296, and the rear stop 298 are distributed in the circumferential direction;
- the disc 202 includes a blade 300 and a thrust shaft 302;
- the toothbrush head 28 includes a bristle carrier 190, a bristle 192, a transmission shaft 304, and the transmission shaft 304 includes a second protruding tooth 306 and a key shaft 194 distributed in a circumferential direction.
- the main body of the bristle carrier 190 is roughly It is a circular disk with one or more rows of bristle bristles arranged in the hoop direction.
- the bristles can be small nylon wires, which are fixed by copper or viscose.
- the elastic connector 310 can be made of highly elastic rubber or resin. It includes an extension shaft 312, a first toothed groove 314, and a second toothed groove 316.
- the large-sized body of the elastic connector 310 is filled in the annular space 296, and the first protruding tooth 308 is filled in the first toothed recess.
- the second protruding tooth 306 is filled in the second toothed groove 316, so that the toothbrush head 28 uses the elastic connector 310 as an intermediary to achieve a tight connection with the head housing 290, and its joint surface Can be glued or vulcanized or two Injection molding, etc. to ensure bonding strength, the tooth projection / recess fitting structure of a main toothed gear for carrying torque.
- the power plate 202 is installed in place through the key slot hole 206 and the key shaft 194 without clearance, and then the back plate 200 and the head case 290 are welded, glued or mechanically It can be connected by means of clamping, etc., the power disc 202 can be axially limited by the thrust shaft 302.
- the above parts are preferably manufactured by injection molding using resin materials.
- the toothbrush head assembly 30 can be fixed to the body wall 18 or the nozzle rod 32 in an inconvenient manner for disassembly, and sealed by the first sealing ring 282.
- the oral cleaning device can be used as an electric toothbrush.
- the toothbrush head assembly 30 can also be closely fitted with the first protrusion 262 of the nozzle rod 32, sealed by the first sealing ring 282, and mounted on the actuator body 18 to implement the function of the electric toothbrush. After the implementation of the electric toothbrush, the toothbrush head is removed
- the assembly 30 exposes the nozzle rod 32 to perform the function of water floss, or vice versa to implement the function of water floss before performing the function of electric toothbrush.
- the second embodiment of the oral cleaning device may not include the toothbrush head assembly 30, and only the water floss function is implemented by using the nozzle rod 32.
- the nozzle rod body 256 is divided into a combination of two parts, bounded by the second protrusion 264, and the above is a detachable nozzle rod, which is used as a liquid discharge connector of the plunger pump 34 to detach the nozzle.
- the rod is connected to the liquid outlet connector by a bayonet locking or friction method, and a water-tight connection is achieved by the sealing material and the liquid outlet connector.
- the detachable nozzle rod-type water floss is mainly used to realize portable or multi-user functions.
- the toothbrush head assembly 30 which can be easily removed and washed is installed on the first protrusion 262; the working liquid is added to the storage volume 284 through the filling port 222; the linear actuator 02 is started by the operation key 170, and the armature 14 is passed through the driving member 112 of the coupler 16
- the plunger 244 is pushed back and forth. In the initial position of the plunger 244, the working fluid enters the compression volume 248 through the liquid inlet 230.
- the plunger 244 is pushed by the driving member 112 to start the compression stroke.
- This torque is transmitted to the bristle carrier 190 through the power shaft 304 to drive the bristles 192 to complete the working liquid It then returns to the liquid storage volume 284 through the internal cavity 288 of the elongated shell through the liquid return channel 276; at the same time, the elastic connector 310 provides a reverse torsional force to the power shaft 304.
- the bristles carrier 190 stops rotating; before and after this, the plunger 244 starts the retraction expansion stroke.
- the outlet valve member 250 Under the action of the pressure difference, the outlet valve member 250 abuts on the outlet valve seat plane 234, the outlet valve is closed and compressed The degree of vacuum begins to appear in the volume 248.
- the working fluid is intermittently sprayed through the nozzle holes 260 of the nozzle rod 32, which can be used to clean the dirt between the teeth, thereby achieving the function of water floss.
- a cover in order to prevent the contaminated liquid from entering the storage volume 284 through the liquid return channel 276, a cover can be arranged on the liquid return channel 276, and the cover is removed when the toothbrush head assembly 30 is installed to maintain the liquid return channel. 276 is in a smooth state.
- the working liquid used in the above working process may be tap water, or a liquid mixed with a certain drug function, or tap water mixed with functional substances such as auxiliary cleaning and whitening.
- the oral cleaning device 04 includes a linear actuator 02, a plunger pump 34, and a nozzle rod 32.
- an oral cleaning device can be implemented. It consists in generating a pulsed working liquid jet, which forms a so-called water dental floss, which is used to flush the dirt in the teeth. The following are the details of the technical solution.
- the linear actuator 02 refers to the first to fourth embodiments provided by the first aspect of the present invention, which includes a stator 12, an armature 14, a coupler 16, a body wall 18, and an energy storage 26.
- the stator 12 includes a permanent magnet 100, a stator base 124, and an outer yoke 138.
- the permanent magnet 100 includes a first independent magnetic pole 102a and a second independent magnetic pole 102b formed by soft magnets fixed on both end surfaces.
- a guide groove is arranged in the axial direction.
- the overall outer hub of the stator is roughly an axisymmetric cylinder with a central hole.
- the armature 14 includes a coil bobbin 106 and two coils 108a / 108b that are wound in opposite directions.
- the coil bobbin 106 has an axisymmetric cavity therein, and the geometry of the periphery of the stator 12 is similar to the cavity, so that the coil bobbin 106 can follow The stator moves freely in the axial direction.
- the cavity surface of the coil bobbin 106 is provided with a guide protrusion 109 in the axial direction.
- the guide groove 101 and the stator outer surface guide groove 101 can prevent the armature 14 from rotating. Way to cooperate.
- the coupler 16 extends from one end of the coil bobbin 106 and includes a hollow driving member 112 and a sleeve 228, a snap ring 326, and a first sealing guide groove 114 and a snap ring groove 325 are arranged on the inner surface of the driving member 112.
- the body wall 18 includes a first wall 116, a second wall 118, and a center wall 318, a liquid inlet wall 344, and a flexible wall 360, a seal 20, a second seal 129, a third seal 356, and a coupling between the body wall 18 and the body wall 18.
- the pieces 16 together constitute the body and form a closed body space 122.
- the central wall 318 includes a hinge ball head 320, a central through hole 322, a locking head 324, a locking step 336, a second sealing guide groove 120, and an outlet valve seat plane 236;
- the first wall 116 includes a nozzle mounting rod 330, Output runner 332, first stop 334, third sealed guide groove 164, positioning plane 338, armature stop 328, stator base 124;
- second wall 118 includes hook groove 168, liquid inlet joint 370, flexible wall 360
- the second fixed guide groove 368 the inner surface of which includes steps for fixing the outer yoke 138 and the first wall 116;
- the liquid inlet wall 344 includes the first fixed guide groove 346 of the flexible wall 360, and the liquid inlet valve seat plane 348;
- the wall 360 may be a corrugated tube or a length of hose, especially a hose that is pre-made into a spiral shape at one end, and includes a first sealing opening 362 arranged in the first fixed guide groove 3
- the second sealing port 364 of 368; the sealing member 20 has the same basic features as the other embodiments, and includes an annular diaphragm 128, a first sealing ring 130, and a second sealing ring 132.
- the first sealing ring 130 is arranged in the first sealing guide groove.
- the inside of 114 is fixed by a snap ring 326 through a snap ring groove 325.
- the body wall 18 further includes an upper cover 340 including an elastic hook 342 and an outlet 388 that allows the nozzle mounting lever 330 to pass through.
- the body wall 18 also includes a liquid inlet hose 390 connected to the liquid inlet joint 370.
- the inlet of the liquid inlet hose 390 is usually placed at the bottom of a water storage volume.
- the central wall 318 passes through the central hole of the stator 12, and is fixed to the stator seat 124 through the locking step 336 and the locking head 324. At the same time, the ring edge 252 of the outlet valve member 250 is pressed against the surface of the outlet valve seat.
- the locking head 324 may be a threaded structure, or may be another structure that is convenient for welding or gluing.
- the plunger accumulator 26 includes a booster spring 148, an upper spring seat 358 and a lower spring seat 366.
- the plunger pump 34 includes a sleeve 228, a plunger 244, a compression volume 248 defined by the sleeve 228 and the plunger 244, a liquid inlet valve including a liquid inlet valve member 350, and a liquid outlet valve including a liquid outlet valve member 250.
- the liquid outlet valve member 250 and the liquid inlet valve member 350 are respectively tongue-shaped soft diaphragms fixed on a middle side of the ring side 252/352.
- One end of the sleeve 228 is open to allow the piston 244 to come in and out freely, and the other end is provided with a liquid inlet channel 230.
- the liquid inlet valve 350 is arranged at the inlet of the liquid inlet 230, and its ring 352 is fixed to the liquid inlet wall 344 and the sleeve 228. Between the end faces, a third seal guide groove 354 is arranged on the outer surface of the sleeve 228; in a free state, the inlet valve seat plane 348 abutted by the inlet valve member 350 prevents the liquid in the compression volume from passing through the inlet channel 230 flows out, and the working fluid can pass through the inlet valve 350 into the compression volume 248 with almost no resistance through a slight pressure difference.
- the plunger 244 is a thin-walled part and includes a plunger skirt 246.
- hinge spherical surface 245 communicating with the conical surface.
- the hinge ball head 320 extends from the conical surface and can be squeezed into the hinge spherical surface 245 to achieve a clearance-free Free rotation; the outer surface of the plunger 244 cooperates with the inner surface of the sleeve 228, where the plunger skirt 246 can deform and fit on the inner surface of the sleeve 228 when the pressure of the compression volume 248 rises, to block liquid leakage.
- the liquid outlet valve member 250 abuts against the liquid outlet valve seat plane 236 in a free state to prevent liquid from flowing back into the compression volume 248.
- Step 1 Fix the stator 12 on the stator base 124 according to the method already described, install the plunger 244 on the central wall 318, install the second seal ring 132 of the seal 20 on the second seal guide groove 120, and then The snap ring 326 is pre-installed around the reseal 20; put the third seal 356 into the third seal guide groove 354, and affix the liquid inlet valve 350 to a specific area on the end face of the sleeve 228 (not shown); The installed components such as the stator 12 are put into the armature 14 assembly including the sleeve 244 and other parts. The snap ring 326 can be installed in place through the operating window on the driving member 112, and then the coils 108a / 108b of the armature 14 are installed. It is connected with the control unit (not shown) to form the actuator plunger pump assembly.
- Step 2 First install the second sealing opening 364 of the flexible wall 360 into the second fixing guide groove 368, press the lower spring seat 366 thereon, and then install the first sealing opening 362 of the flexible wall 360 into the first fixing.
- the guide groove 346 connects the liquid inlet wall 344 with the flexible wall 360, places a booster spring 148, and then installs a spring seat 358.
- Step 3 First install the outer yoke 138 into the second wall 118 and limit it by the internal steps. Then load the pre-assembled actuator plunger pump assembly from the open port of the second wall 118 along the inner wall. Until it is limited by the outer yoke 138, it is determined that the liquid inlet end of the sleeve 228 has completely entered the internal space of the liquid inlet wall 344.
- Step 4 Install the upper cover 340 from the open end of the second wall 118 until the elastic hook 342 completely enters the hook groove 168. At this time, the pressure column 390 presses the top surface of the first wall 116 in an elastic manner.
- the nozzle rod 32 includes a nozzle rod body 256 with an elongated shaft penetrating through the flow channel 258 at the center.
- the nozzle rod body 256 bends and contracts at the end, and finally forms a spray hole 260 through the flow channel 258.
- the nozzle rod body 256 has a space 382 for accommodating the nozzle mounting rod 330, and a ring-shaped space 380 near the proximal entrance for receiving a mechanism that can be connected to the nozzle mounting rod 330.
- the connection mechanism includes an elastic holder 372, a The U-shaped circlip 374, a nozzle sealing ring 376, and the elastic retainer 372 include a U-shaped channel for placing the U-shaped circlip 374.
- the elastic retainer 372 has a gap in the circumferential direction so that it can deform and shrink in the radial direction.
- the nozzle sealing ring 376 and the U-shaped retaining spring 374 are also maintained at a certain position, and the U-shaped retaining spring 374 can be radially deformed to a certain extent.
- the groove 384 and the U-shaped retaining spring 374 are according to this
- the design of the method is as follows: in a free state, a part enters into the slot 384, so that the nozzle rod 32 and the nozzle mounting rod 330 are locked to a certain degree, and the nozzle rod 32 can be pulled out from the nozzle mounting rod 330 with an appropriate force.
- the direction of the nozzle is determined by the positioning plane 338;
- the water volume is filled with working liquid.
- the working liquid can be tap water.
- the water storage volume can be a component of one of the embodiments of the oral cleaning device. It is installed at the bottom of the second wall 118. Other clean water containers can also be used to feed the liquid.
- the inlet of the hose 390 is sufficient.
- the linear actuator 02 is activated by an operation key (not shown), and the armature 14 pushes the plunger 244 to reciprocate through the driving member 112 of the coupler 16.
- the working fluid passes through the liquid inlet valve 350 and enters the compression volume 248 through the liquid inlet 230 under the pressure difference.
- the plunger 244 is pushed by the driving member 112 to start the compression stroke.
- the work in the compression volume 248 The pressure of the liquid rises, and the liquid discharge valve member 250 is pushed open to enter the output flow path 332, and then sprayed from the spray hole 260 through the through flow path 258.
- the plunger 244 starts the retraction expansion stroke.
- the discharge valve member 250 abuts on the discharge valve seat plane 234, the discharge valve is closed, and a vacuum appears in the compression volume 248.
- the liquid inlet valve 350 is opened again, the working liquid enters the compression volume 248 from the liquid inlet hose 390, and the plunger pump 34 completes a complete working cycle.
- FIG. 8 is a logic block diagram of a first embodiment of a method for controlling an oral cleaning device according to the present invention.
- the armature drive frequency is determined according to the operation key information.
- the control unit contains a mathematical model or calculation formula to decompose the working mode into two parameters: frequency and drive pulse width;
- the reverse pulse width depends on the forward pulse width, which can be simply calculated proportionally or based on the current detected in real time. Value prediction, the purpose is to minimize the impact of the impact on the barrier to form noise when the return is completed;
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Abstract
Description
Claims (11)
- 一种直线执行器,其特征在于:包括一个可提供横向磁场的定子,一个包含线圈的电枢,一个壳体,一个耦合器;所述线圈以可切割磁力线的方式环绕定子置放从而导致电枢沿纵向运动,壳体和耦合器组合成一个本体并形成内部密闭的本体空间,定子和电枢均被限定在密闭的本体空间之中,耦合器与电枢连接,并在电枢的驱动下输出直线运动。
- 如权利要求1所述的直线执行器,其特征在于:定子包括纵向充磁的柱形磁体,允许两个及以上的柱形磁体在定子中按同名磁极对接的方式紧密排列,定子两端任意一个磁极或者其间两个相邻的同名磁极对接形成一个独立磁极;电枢包括线圈骨架和缠绕于线圈骨架并沿骨架间隔排列的线圈,线圈大致跨越独立磁极布置,线圈的数目不多于独立磁极的总数并优先布置于非两端的独立磁极,电枢与定子之间保持一定的间隙以无机械阻力的方式相互配合;线圈和柱形磁体的设计满足以下条件:线圈工作长度C小于相邻最大的独立磁极间距M且大于运动行程D,即D<C<M。
- 如权利要求2所述的直线执行器,其特征在于,柱形磁体包括永磁体以及布置于两端的软磁材料,从而在独立磁极处形成长度为Y的独立磁极软磁体,独立磁极软磁体的长度Y按照这样的方式选择:以致于运动行程D与独立磁极软磁体的长度Y之和逼近线圈工作长度C,即D+Y→C。
- 如权利要求1所述的直线执行器,其特征在于,包括一个储能器,储能器动力与电枢动力耦合,以致于在电枢运动的某个方向储存电枢的运动能量,在电枢运动的另一个方向释放所储存的能量。
- 一种口腔清洗装置,其特征在于:包括一个直线执行器,一个牙刷头;所述直线执行器包括一个可提供横向磁场的定子,一个包含线圈的电枢,一个壳体,一个耦合器;壳体和耦合器组合成一个本体并形成内部密闭的本体空间,定子和电枢均被限定在密闭的本体空间之中,耦合器一端与电枢连接,另一端与牙刷头连接以致于刷毛在耦合器的驱动下振荡运动。
- 如权利要求5所述的口腔清洗装置,其特征在于:所述牙刷头包括一个可绕固定轴旋转的转盘,所述耦合器与转盘连接以致于转盘在耦合器的驱动下绕固定轴转动式振荡。
- 如权利要求6所述的口腔清洗装置,其特征在于:所述牙刷头包括一个承载刷毛的毛刷盘,所述毛刷盘以方便更换的方式与转盘实现动力耦合从而在转盘的驱动下转动式振荡。
- 一种口腔清洗装置,其特征在于:包括一个直线执行器,一个柱塞泵,一个喷嘴杆;所述直线执行器包括一个可提供横向磁场的定子,一个包含线圈的电枢,一个壳体,一个耦合器;壳体和耦合器组合成一个本体并形成内部密闭的本体空间,定子和电枢均被限定在密闭的本体空间之中,耦合器一端与电枢连接,另一端连接柱塞泵的运动件,柱塞泵在电枢的驱动下可对一种工作液体加压从而形成脉冲液体;所述喷嘴杆包括一个轴向贯通的液体流道和一个位于所述 液体流道末端的喷孔,所述柱塞泵与喷嘴杆以液力方式连接,将脉冲液体输送到喷嘴杆并通过喷孔形成脉冲射流。
- 如权利要求8所述的口腔清洗装置,其特征在于:包括一个牙刷头总成;牙刷头总成包括一个可运动的毛刷头,一个与毛刷头动力耦合的动力盘,一个壳体;动力盘布置在壳体之中,动力盘在所述脉冲射流的推动下运动,从而驱动毛刷头运动。
- 如权利要求9所述的口腔清洗装置,其特征在于,所述牙刷头以可方便拆装的方式附着于本体,从而可实现刷牙与水力冲洗牙齿之间的功能切换。
- 一种口腔清洗装置控制方法,通过一种含直线执行器和柱塞泵的口腔清洗装置实现,其特征在于,包括以下步骤:根据选择,确定目标驱动PWM脉冲频率;根据选择,确定电枢目标行程;根据目标行程和检测到的电枢线圈电流,确定和控制PWM当前正向驱动脉冲宽度;根据目标脉冲频率、电枢目标行程和检测到的电枢线圈电流,确定和PWM当前反向驱动脉冲宽度。
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CN201811028560.2A CN109330726A (zh) | 2018-09-04 | 2018-09-04 | 一种直线执行器、口腔清洗器及其控制方法 |
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WO2023089092A1 (en) * | 2021-11-20 | 2023-05-25 | Koninklijke Philips N.V. | Drivetrain assemblies for generating power tapping motion using flexures |
WO2023088809A1 (en) * | 2021-11-20 | 2023-05-25 | Koninklijke Philips N.V. | Optimal parameters for sweeping and power tapping motions |
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CN109330726A (zh) * | 2018-09-04 | 2019-02-15 | 郗瑛琦 | 一种直线执行器、口腔清洗器及其控制方法 |
CN114159180A (zh) * | 2021-11-27 | 2022-03-11 | 宁波赛嘉电器有限公司 | 冲牙器工作机构 |
CN114583913A (zh) * | 2022-02-23 | 2022-06-03 | 合肥新沪屏蔽泵有限公司 | 一种电磁传动结构及冲牙器 |
EP4299046B1 (en) * | 2022-06-27 | 2024-04-17 | Shenzhen Huayi Transmission Technology Co., Ltd | Sucking and air blowing structure and massaging device |
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