CN101964563A - Photic drive motor and driving method thereof - Google Patents

Abstract

The invention discloses a photic drive motor and a driving method thereof. The optical drive motor comprises a rotor, a stator, an eccentric column, a bearing and a photoinduced bending deformation unit, wherein the eccentric column is fixed on the stator of the motor, and two ends of the photoinduced bending deformation unit are respectively bonded to the eccentric column and the motor rotor. In the driving method, the photoinduced bending deformation unit in a free state is irradiated with ultraviolet light, and an irradiated part deforms to result in that a torque for driving the motor rotor to rotate clockwise is generated in the photoinduced bending deformation unit; a photoinduced deforming material film in a bending state is irradiated with invisible light, the bending of the film recovers gradually to result in that a torque for driving the motor rotor to rotate clockwise is generated in the photoinduced bending deformation unit; and thus, the clockwise rotational movement of the motor is realized. The invention has the advantages of simple structure, unlimited dimension, rapidness, environmental protection and low energy consumption, can be used for directly applying light energy in the rotational movement, without additional energy converting and power transmitting devices, and can be operated remotely.

Description

A kind of optical drive motor and driving method thereof

Technical field

The invention belongs to material and field of mechanical technique, be specifically related to a kind of method of utilizing direct motor that drives of light and CD-ROM drive motor rotation.

Background technology

Along with the continuous progress of mechanical system research, more and more higher: directly driving, large driving force, big displacement, quick response etc. to the requirement of motor.At many special dimensions, the motor (or claiming motor) that needs to adopt special property is as power source and motor.Existing motor technologies mainly contains electromagnetic induction machines, electrostatic motor, supersonic motor, piezoelectric ceramic impact type CD-ROM drive motor or mechanism etc., and pluses and minuses are separately all arranged.Electromagnetic induction machines moment is big, speed is fast, but coil loss is big and can't break away from cable control is arranged; Electrostatic motor directly utilizes electrostatic force to drive rotor, and shortcoming is that moment is less, and friction and noise between stator and rotor are bigger, often needs motor is immersed in the fluid to turn round.Supersonic motor is the new special motor that developed recently gets up, and has carried out the research of surface acoustic wave motor afterwards both at home and abroad again.Be noted that above-mentioned motor or motor owing to need auxiliary equipment such as lead, electromagnetic conversion device, heater element, be unfavorable for Long-distance Control and carrying.

As everyone knows, light has fast, accurately, clean environment firendly, the performance of a series of excellences such as reserves are abundant, it is the best energy-provision way of MEMS.Luminous energy is converted into mechanical energy, realizes utilizing the direct CD-ROM drive motor of light, will greatly promote the fast development of MEMS.

Summary of the invention

The object of the present invention is to provide a kind of optical drive motor and driving method thereof, make this motor can be applicable to the space narrow and small, can't power, harsh field such as high-intensity magnetic field, and overcome the defective that some environment down can't the application apparatus implementation.

For achieving the above object, solution of the present invention is:

A kind of optical drive motor, it comprises stator, rotor, it also comprises biasing post, bearing and photic flexural deformation unit, biasing post is fixed on the stator, rotor and stator link by bearing, bearing inner race is fixed on the biasing post, and two ends, photic flexural deformation unit are connected with bearing on the biasing post with rotor respectively.By the photic flexural deformation unit of UV-irradiation free state, the photic flexural deformation unit that radiation of visible light is in case of bending, the rotation of the rotation torque CD-ROM drive motor of generation.

Described photic flexural deformation unit is four, is evenly distributed on circumference, and connected bearing also is four, and photic flexural deformation unit is corresponding with bearing to be connected successively.The bonding optimal way of photic flexural deformation unit and biasing post is for being connected with the bearing outer ring installed on the biasing post.

Described photic flexural deformation unit is photic crooked film, and film has the photo-deformable material layer.

It is a kind of in macromolecular material or metal or their composite material that described stator, rotor and biasing post adopt material, the macromolecular material of preferred printing opacity light weight high rigidity, more preferably polymethyl methacrylate.

Described photic crooked film is one deck, and the material of employing is the photo-deformable material; Perhaps described photic crooked film is two-layer, and the outer material that adopts is the photo-deformable material, and the material that internal layer adopts is a flexible high molecular material.

Described photo-deformable material is photic crooked liquid crystal high polymer material.

Described flexible high molecular material is a kind of in polyethylene or polypropylene or natural rubber or the composite high-molecular material that is made of them, the preferably polyethylene material.

Described photic flexural deformation unit and rotor and bearing bond by binding agent.

Bond by binding agent between the internal layer of described photic crooked film and the skin.

Described binding agent is a kind of in polyacrylate binding agent or polyurethanes binding agent or epoxy resin binding agent or the rubber-like binding agent, is preferably the epoxy resin binding agent.

A kind of driving method of above-mentioned optical drive motor,

Photic flexural deformation unit to free state applies UV-irradiation, and irradiated part surface shrinks to incident direction, bends, the trend that makes the direction rotation that oriented this unit radial length of motor rotor reduces; For example, cause photic flexural deformation unit motor rotor to be produced the torque that turns clockwise;

Photic flexural deformation unit to case of bending applies radiation of visible light, and crooked deformation recovers gradually, the trend that makes the direction rotation that oriented this unit radial length of motor rotor increases; For example, cause photic flexural deformation unit motor rotor to be produced the torque that turns clockwise.

Change ultraviolet light and visible light radiation direction, can change the direction of rotation of motor, realize the motion that is rotated counterclockwise of motor rotor.

The method that the driving said motor that the present invention proposes rotatablely moves, utilize the photic flexural deformation film of UV-irradiation free state, the photic flexural deformation film of radiation of visible light case of bending produces the moment of torsion that takes the motor rotor rotation to, drives this motor rotation.

Wherein, the photic flexural deformation unit of described free state is subjected to UV-irradiation, shrinks to the ultraviolet light incident direction, bends, the trend that makes the direction rotation that oriented this unit radial length of motor rotor reduces.

Wherein, the photic flexural deformation unit of described case of bending is subjected to radiation of visible light, and crooked photo-deformable material can be replied and is original flattened state, the trend that makes the direction rotation that oriented this unit radial length of motor rotor increases.

Wherein, reasonably illumination causes four photo-deformable materials that motor rotor is produced the moment that turns clockwise, and realizes the motor clockwise rotation; Change ultraviolet light and visible light radiation direction, can realize that motor is rotated counterclockwise motion.

Optical drive motor provided by the invention rotatablely moves and method of driving, has following advantage and effect for present technology:

(1) to be different from be traditional motor to the optical drive motor among the present invention, can directly by the photo-deformable distortion of materials luminous energy be converted into the required mechanical energy of motor rotation;

(2) compare with existing other type of drive, optical drive is fast, environmental protection, energy consumption be little, but and have not available characteristics of other type of drive such as remote operation;

(3) optical drive motor part quantity is few, can adjust motor dimension according to different needs, adapts to the needs of different rotating speeds and moment of torsion, has high flexibility.

Description of drawings

Fig. 1 is the structural representation and the driving method schematic diagram thereof of optical drive motor in the embodiment of the invention.

Fig. 2 is an optical drive motor perspective view in the embodiment of the invention.

Embodiment

The present invention is further illustrated below in conjunction with the accompanying drawing illustrated embodiment.

Shown in Fig. 1-2, the schematic diagram for optical drive motor embodiment of the present invention the present invention includes motor stator 1, photic flexural deformation unit 2, bearing 3, rotor 4, biasing post 5.Photic flexural deformation unit 2 is made up of 4 photic flexural deformation films, and every film is single layer structure, is made of the photo-deformable material fully.Simultaneously, the two ends of every film are bonded and fixed at respectively on biasing post 5 and the rotor 4.In order to prevent that motor from causing photic flexural deformation unit 2 to be wrapped on the biasing post 5 in the process that rotatablely moves, the bonding between flexural deformation unit 2 and the biasing post need adopt bearing 3 to carry out transition.That is: the inner ring of bearing 3 is fixed on the biasing post 5, and flexural deformation unit 2 is bonded in the outer ring of bearing 3.Biasing post 5 is cemented on the motor stator 1.

In addition, four photic flexural deformation films that constitute photic flexural deformation of the present invention unit 2 also can be taked double-decker, outer field material is made of the photo-deformable material, the material of internal layer is made of flexible high molecular material, outer field area can bond by binding agent between skin and the internal layer smaller or equal to the internal layer area.Its operation principle is identical during with single layer structure.

The light source that the present invention adopts is a ultraviolet light, and concrete color ultraviolet wavelength is 365nm in the present embodiment, and light intensity does not have specific requirement; Motor stator 1, rotor 4, biasing post 5 select for use macromolecular material, metal or their composite material to make, and preferentially select the macromolecular material of printing opacity light weight high rigidity for use, and what select for use in the present embodiment is polymethyl methacrylate; Photic flexural deformation unit 2 is made of the photo-deformable material, preferentially selects photic crooked liquid crystal high polymer material for use, selects photic crooked liquid crystal high polymer material in the present embodiment for use, and thickness is 40～60 microns; Binding agent is selected a kind of in polyacrylate binding agent, polyurethanes binding agent, epoxy resin binding agent, the rubber-like binding agent for use, preferentially selects the epoxy resin binding agent for use, and what specifically select for use in the present embodiment is epoxy resin.

The photo-deformable material can produce crooked deformation under the effect of light, this process is converted into mechanical energy with luminous energy, and the present invention has utilized these characteristics of photo-deformable material, adopts the photo-deformable material to realize the driving of motor in photic flexural deformation unit.

Realized rotating process for the optical drive motor by optical drive below:

The two ends of four photo-deformable material films are bonded in respectively on motor rotor and the stator biasing post bearing;

The photo-deformable material can be to the bending of light incident direction by the part of UV-irradiation, so shine the photo-deformable material film of free state along arrow 100 directions as shown in Figure 1 with ultraviolet light, this part photo-deformable material bends, and causes the photo-deformable material film motor rotor to be produced the torque that turns clockwise;

The photo-deformable material can be reverted to free flattened state by case of bending by the part of radiation of visible light, so along as shown in Figure 1 arrow 200 directions the photo-deformable material film of case of bending is applied radiation of visible light with visible light, crooked deformation recovers gradually, causes the photo-deformable material film motor rotor to be produced the torque that turns clockwise;

Cause the photo-deformable material film that motor rotor is produced the torque that turns clockwise, realize the clockwise rotation of motor rotor.

Can realize the function of photic flexural deformation unit 2 CD-ROM drive motor rotation by above-mentioned process.

The above-mentioned description to embodiment is can understand and apply the invention for ease of those skilled in the art.The person skilled in the art obviously can easily make various modifications to these embodiment, and needn't pass through performing creative labour being applied in the General Principle of this explanation among other embodiment.Therefore, the invention is not restricted to the embodiment here, those skilled in the art are according to announcement of the present invention, and not breaking away from the improvement that category of the present invention makes and revise all should be within protection scope of the present invention.

Claims (10)

1. optical drive motor, it comprises stator, rotor, it is characterized in that: it also comprises biasing post, bearing and photic flexural deformation unit, biasing post is fixed on the stator, rotor and stator link by bearing, bearing inner race is fixed on the biasing post, and two ends, photic flexural deformation unit are connected with bearing on the biasing post with rotor respectively.

2. optical drive motor as claimed in claim 1 is characterized in that: described photic flexural deformation unit is four, is evenly distributed on circumference, and connected bearing also is four, and photic flexural deformation unit is corresponding with bearing to be connected successively; Described photic flexural deformation unit and rotor and bearing bond by binding agent.

3. optical drive motor as claimed in claim 1 or 2 is characterized in that: described photic flexural deformation unit is photic crooked film, and film has the photo-deformable material layer.

4. CD-ROM drive motor as claimed in claim 1, it is characterized in that: it is a kind of in macromolecular material or metal or their composite material that described stator, rotor and biasing post adopt material, the macromolecular material of preferred printing opacity light weight high rigidity, more preferably polymethyl methacrylate.

5. CD-ROM drive motor as claimed in claim 3 is characterized in that: described photic crooked film is one deck, and the material of employing is the photo-deformable material; Perhaps described photic crooked film is two-layer, and the outer material that adopts is the photo-deformable material, and the material that internal layer adopts is a flexible high molecular material, bonds by binding agent between internal layer and the skin.

6. CD-ROM drive motor as claimed in claim 5 is characterized in that: described photo-deformable material is photic crooked liquid crystal high polymer material.

7. CD-ROM drive motor as claimed in claim 5 is characterized in that: described flexible high molecular material is a kind of in polyethylene or polypropylene or natural rubber or the composite high-molecular material that is made of them, the preferably polyethylene material.

8. as claim 2 or 5 described CD-ROM drive motor, it is characterized in that: described binding agent is a kind of in polyacrylate binding agent or polyurethanes binding agent or epoxy resin binding agent or the rubber-like binding agent, is preferably the epoxy resin binding agent.

9. the driving method of the described optical drive motor of claim 1 is characterized in that:

Photic flexural deformation unit to free state applies UV-irradiation, and irradiated part surface shrinks to incident direction, bends, the trend of the direction rotation that makes motor rotor have to reduce to this unit radial length;

Photic flexural deformation unit to case of bending applies radiation of visible light, and crooked deformation recovers gradually, makes motor rotor have the trend to the direction rotation of this unit radial length growth.

10. driving method as claimed in claim 9 is characterized in that: change ultraviolet light and visible light radiation direction, can change the direction of rotation of motor.

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