阅读说明：本技术 一种基于驻极体薄膜的静电电动机 (Electrostatic motor based on electret film ) 是由 樊占奎 陈钢进 于 2020-12-07 设计创作，主要内容包括：本发明涉及一种基于驻极体薄膜的静电电动机,包括定子、转子和旋转轴；定子上方设有第一电刷和第二电刷,定子上表面黏贴有朝上一面的正负极相反的第一驻极体薄膜和第二驻极体薄膜；转子中轴位置设有换向器,换向器包括两个换向器铜片及设在两个换向器铜片之间的绝缘部分,转子下表面设有与换向器铜片一一对应的半圆形金属电极,半圆形金属电极分别通过长方形金属条连接至与之对应的换向器铜片,半圆形金属电极与定子之间存在空气间隙；第一电刷和第二电刷均与换向器接触,旋转轴穿过转子中心。本发明在带动外部负载工作时无发热现象,有效降低电机功耗,便于电机微型化,解决了现有静电电动机输出力矩小、需要复杂调控电压等问题。(The invention relates to an electrostatic motor based on an electret film, which comprises a stator, a rotor and a rotating shaft, wherein the rotor is arranged on the stator; a first electric brush and a second electric brush are arranged above the stator, and a first electret film and a second electret film which are opposite in positive and negative are adhered to the upper surface of the stator and face upwards; a commutator is arranged at the middle shaft position of the rotor, the commutator comprises two commutator copper sheets and an insulating part arranged between the two commutator copper sheets, semicircular metal electrodes which correspond to the commutator copper sheets one by one are arranged on the lower surface of the rotor, the semicircular metal electrodes are respectively connected to the commutator copper sheets corresponding to the semicircular metal electrodes through rectangular metal strips, and an air gap is formed between the semicircular metal electrodes and the stator; the first brush and the second brush are both in contact with the commutator, and the rotating shaft passes through the center of the rotor. The invention has no heating phenomenon when driving external load to work, effectively reduces the power consumption of the motor, is convenient for the miniaturization of the motor and solves the problems that the existing electrostatic motor has small output torque and needs complex voltage regulation and control, and the like.)

1. An electrostatic motor based on an electret film, characterized in that: it includes stator, rotor and rotating shaft; a first brush used for being connected with a direct-current high-voltage negative electrode and a second brush used for being connected with a direct-current high-voltage positive electrode are arranged above the stator, a first electret film and a second electret film are adhered to the upper surface of the stator, the positive and negative electrodes of the upward surfaces of the first electret film and the second electret film are opposite, a gap is reserved between the first electret film and the second electret film, and the first brush and the second brush are not in contact with the first electret film and the second electret film; the commutator is arranged at the middle shaft position of the rotor and comprises two commutator copper sheets and an insulating part arranged between the two commutator copper sheets, rectangular metal strips which correspond to the two commutator copper sheets one by one are arranged on the upper surface of the rotor, two semicircular electrodes are arranged on the lower surface of the rotor, a gap is formed between the two semicircular electrodes, the two semicircular electrodes correspond to the two commutator copper sheets one by one respectively, the semicircular electrodes which correspond to each other are connected with the commutator copper sheets through the rectangular metal strips, and an air gap is formed between the semicircular electrodes and the first electret film and between the semicircular electrodes and the second electret film; the first electric brush and the second electric brush are both contacted with the commutator; the rotating shaft passes through the center of the rotor and is connected with the rotor.

2. The electret film-based electrostatic motor of claim 1, wherein: the first electret film and the second electret film are the same in area and are symmetrically attached to the left half part and the right half part of the upper surface of the stator respectively.

3. The electret film-based electrostatic motor of claim 1, wherein: one end of the rectangular metal strip is connected with the commutator copper sheet, and the other end of the rectangular metal strip is connected with the semicircular electrode corresponding to the commutator copper sheet.

4. The electret film-based electrostatic motor of claim 1, wherein: the left and right sides of stator all be equipped with the stand, be equipped with the convex body on the stand, first brush and second brush ligature respectively on two convex bodies.

5. The electret film-based electrostatic motor of claim 4, wherein: the first electric brush and the second electric brush form tips at the parts close to the commutator in a bending mode, and the tips of the first electric brush and the second electric brush are in contact with the commutator.

6. The electret film-based electrostatic motor of claim 4, wherein: the top of stand be equipped with the top crossbeam, be equipped with the upper rotating shaft supporter on the top crossbeam, the stator in be equipped with down the pivot supporter, rotation axis upper end pass the upper rotating shaft supporter, the lower extreme extends to the lower pivot support internally.

7. The electret film-based electrostatic motor of claim 6, wherein: the upper rotating shaft supporting body is provided with a cylindrical hole, the upper surface of the lower rotating shaft supporting body is provided with a corresponding conical groove, the upper end and the lower end of the rotating shaft are provided with sharp needles, and the lower end sharp needles are inserted into the conical grooves.

8. The electret film-based electrostatic motor of claim 7, wherein: the rectangular metal strips are arranged along the diameter of the upper surface of the rotor.

9. The electret film-based electrostatic motor of claim 1, wherein: the two commutator copper sheets and the insulating part form a circular ring-shaped cylinder.

Technical Field

The invention belongs to the technical field of electrostatic motors, and particularly relates to an electret film-based electrostatic motor for converting electric energy into mechanical energy for pushing a rotor to rotate.

Background

In the current industrial environment, the used motor is mainly an electromagnetic motor, and the working principle is the same, and after a rotor coil of the electromagnetic motor is electrified in a constant magnetic field, the received ampere force acts as the driving force of the rotation of the rotor. This type of motor generates heat in the coils during operation, causing additional energy losses. This type of motor needs an additional constant magnetic field during operation, which is not conducive to miniaturization.

In 1742, Andrew Gordan developed electric bells and electric bounces using the principle of repelling charges of the same sign and attracting charges of different sign, which was the earliest example using electrostatic actuation. In the 70 s of the 20 th century, Gubkin and Jefimenko invented electret motors by using electrets, and the motors invented by both people use electrets as the rotating rotors of the motors and metal electrodes generating high-voltage electric fields as the stators of the motors. However, the motor proposed by Gubkin needs to apply voltages to two ends of the stator, which are changed alternately with the rotation position of the rotor, and the motor has higher requirements on driving voltages in the rotation process.

The existing variable capacitance electrostatic motor needs two opposite metal electrodes as a stator and a rotor, for example, a laminated capacitor motor disclosed in chinese patent CN110829879A, includes a coil and a first rotating shaft fixedly connected to an output shaft, the coil is provided with four current hall sensors, a plurality of layers of capacitor transmission components are sleeved outside the first rotating shaft, the coil is connected to a first insulating bipolar transistor group in a bridge manner, a second insulating bipolar transistor group, a third insulating bipolar transistor group and a fourth insulating bipolar transistor group in a bridge manner, and the four current hall sensors are respectively connected to the first insulating bipolar transistor group, the second insulating bipolar transistor group, the third insulating bipolar transistor group and the fourth insulating bipolar transistor group. The existing variable capacitance type electrostatic motor needs complex voltage regulation and control in the rotating process, the rotating speed of the motor can be influenced by the frequency and the waveform of the regulated voltage, the rotating speed of the motor is generally low, and the control on a rotor is easily lost near the limit rotating speed of the motor. The existing electrostatic motor has small output torque and does not have the capacity of driving an external load to work.

The existing dielectric relaxation type electrostatic motor has higher requirements on the manufacturing process of materials, and the motor of the type can be influenced by environmental factors (temperature and humidity) in the rotating process and cannot keep good stability.

Disclosure of Invention

The invention aims to solve the technical problem of providing an electrostatic motor based on an electret film, and aims to solve the problems that a traditional motor is not beneficial to miniaturization and microminiaturization, has high requirement on driving voltage, is sensitive to environmental factors, is difficult to ensure stability, cannot drive an external load to work and the like.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

the invention relates to an electrostatic motor based on an electret film, which comprises a stator, a rotor and a rotating shaft, wherein the rotor is arranged on the stator; a first brush used for being connected with a direct-current high-voltage negative electrode and a second brush used for being connected with a direct-current high-voltage positive electrode are arranged above the stator, a first electret film and a second electret film are adhered to the upper surface of the stator, the positive and negative electrodes of the upward surfaces of the first electret film and the second electret film are opposite, a gap is reserved between the first electret film and the second electret film, and the first brush and the second brush are not in contact with the first electret film and the second electret film; the commutator is arranged at the middle shaft position of the rotor and comprises two commutator copper sheets and an insulating part arranged between the two commutator copper sheets, rectangular metal strips which correspond to the two commutator copper sheets one by one are arranged on the upper surface of the rotor, two semicircular electrodes are arranged on the lower surface of the rotor, a gap is formed between the two semicircular electrodes, the two semicircular electrodes correspond to the two commutator copper sheets one by one respectively, the semicircular electrodes which correspond to each other are connected with the commutator copper sheets through the rectangular metal strips, and an air gap is formed between the semicircular electrodes and the first electret film and between the semicircular electrodes and the second electret film; the first electric brush and the second electric brush are both contacted with the commutator; the rotating shaft passes through the center of the rotor and is connected with the rotor.

Preferably, the first electret film and the second electret film have the same area and are symmetrically attached to the left half part and the right half part of the upper surface of the stator respectively.

Preferably, one end of the rectangular metal strip is connected with the commutator copper sheet, and the other end of the rectangular metal strip is connected with the semicircular electrode corresponding to the commutator copper sheet.

Preferably, the left and right sides of stator all be equipped with the stand, be equipped with the convex body on the stand, first brush and second brush ligature respectively on two convex bodies.

Preferably, the first brush and the second brush are bent to form tips at the portions close to the commutator, and the tips of the first brush and the second brush are in contact with the commutator, so that the friction force generated between the first brush and the second brush in the rotation process is reduced as much as possible under the condition of good contact with the commutator.

Preferably, the top of stand be equipped with the top crossbeam, be equipped with the upper rotating shaft supporter on the top crossbeam, the stator in be equipped with down the pivot supporter, the rotation axis upper end pass the upper rotating shaft supporter, the lower extreme extends to in the lower pivot supporter. The upper end of the rotating shaft penetrates through the upper rotating shaft supporting body to drive an external load to work.

Preferably, the upper rotating shaft supporting body is provided with a cylindrical hole, the upper surface of the lower rotating shaft supporting body is provided with a corresponding conical groove, the upper end and the lower end of the rotating shaft are provided with sharp needles, and the lower sharp needles are inserted into the conical groove to ensure the rotating stability of the rotating shaft and the rotor.

Preferably, said rectangular metal strips are arranged along the diameter of the upper surface of the rotor.

Preferably, the two commutator copper sheets and the insulating part form a circular ring-shaped column.

The stator and the rotor are made of white common resin, and the lower rotating shaft supporting body and the rotating shaft are made of stainless steel metal materials.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

1. the invention adopts the electret electrostatic induction driving principle, the electret film is pasted on the upper surface of the stator, the commutator is arranged at the middle shaft position of the rotor, the rectangular metal strip is arranged on the upper surface of the rotor, the two semicircular electrodes are arranged on the lower surface of the rotor, a gap exists between the two semicircular electrodes, an air gap exists between the semicircular electrodes and the electret film, and the two semicircular electrodes are communicated with the corresponding commutator copper sheet through the rectangular metal strip.

2. The upper surface of the stator is adhered with a first electret film and a second electret film, the rotor is provided with two commutator copper sheets and two semicircular electrodes which are in one-to-one correspondence with the two commutator copper sheets, the corresponding commutator copper sheets and the semicircular electrodes are connected through rectangular metal strips, two electric brushes are respectively contacted with the commutator, the normal work of the motor can be ensured by using direct-current high-voltage power supply, the motor does not need to apply voltage which is changed alternately along with the change of the rotation position of the rotor to the two ends of the stator, and the problem that the existing electrostatic motor needs to regulate and control the voltage in a complex way is solved.

3. The invention adopts the electrostatic field change between the electret film and the metal electrode on the lower surface of the rotor to generate the driving force, and uses the rotating shaft to lead out the power generated by the motor to drive the external load to work, thereby solving the problem that the traditional electrostatic motor can not drive the external load to work.

4. The electret material used by the invention can generate an electrostatic field for a long time, has good stability, and the rotating speed of the motor is stable when the motor works, thereby solving the problems that the dielectric relaxation type electrostatic motor is sensitive to the working environment and has unstable performance.

5. The invention has small required working current, can adjust the rotating speed by controlling the size of the power supply voltage and has simple operation.

6. The invention can change the rotation direction of the rotor by controlling the position relation between the electret film and the power supply brush.

Drawings

FIG. 1 is a perspective view of an electret film based electrostatic motor;

FIG. 2 is a front view of an electret film based electrostatic motor;

FIG. 3 is a cross-sectional view of an electret film based electrostatic motor;

FIG. 4 is a schematic view of an electret film based electrostatic motor rotating counterclockwise;

fig. 5 is a schematic view of an electret film based electrostatic motor rotating clockwise.

Reference numerals: 1-stator, 2-first brush, 3-second brush, 4-first electret film, 5-second electret film, 6-column, 7-rotor, 8-convex, 9-top beam, 10-commutator, 11-commutator copper sheet, 12-semicircular electrode, 13-insulating part, 14-rectangular metal strip, 15-tip, 21-rotation axis, 22-upper rotation axis support, 23-lower rotation axis support, 24-conical groove.

Detailed Description

For further understanding of the present invention, the present invention will be described in detail with reference to examples, which are provided for illustration of the present invention but are not intended to limit the scope of the present invention.

Referring to fig. 1 and 2, an electrostatic motor based on an electret film according to the present invention includes a stator 1, a rotor 7, and a rotation shaft 21.

The top of stator be equipped with be used for connecting the first brush 2 of direct current high voltage negative pole and be used for connecting the anodal second brush 3 of direct current high voltage, stator 1's upper surface is pasted and is had first electret film 4 and second electret film 5, first electret film 4 is the same with the area of second electret film 5, the left half and the right half of subsides on stator 1 upper surface of symmetry respectively, the positive negative pole of first electret film 4 and second electret film 5 one side up is opposite, and leave the clearance between first electret film 4 and the second electret film 5, first brush 2 and second brush 3 set up in all not contact with first electret film 4 and second electret film 5.

The left side and the right side of the stator 1 are both provided with upright posts 6, the upright posts 6 and the stator flat plate 1 adopt an integrated structure, the upright posts 6 on the two sides are both provided with convex bodies 8, and the first electric brush 2 and the second electric brush 3 are respectively bound on the two convex bodies 8; the top of the upright columns 6 on two sides is provided with a top cross beam 9, the top cross beam 9 is provided with an upper rotating shaft supporting body 22, and the stator flat plate 1 is internally provided with a lower rotating shaft supporting body 23. Referring to fig. 3, the upper rotary shaft support has a cylindrical hole at the center, and the lower rotary shaft support 23 has a corresponding conical recess 24 on the upper surface.

Referring to fig. 1 to 3, a commutator 10 is arranged at a middle shaft position of the rotor 7, the commutator 10 includes two commutator copper sheets 11 and an insulating portion arranged between the two commutator copper sheets, the two commutator copper sheets 11 and the insulating portion 13 form a circular cylinder, the upper surface of the rotor 7 is provided with two rectangular metal strips 14 corresponding to the commutator copper sheets 11 one by one, the lower surface of the rotor 7 is provided with two semicircular electrodes 12, one end of each rectangular metal strip 14 is connected with the corresponding commutator copper sheet 11, the other end is connected with the corresponding semicircular electrode 12, a gap exists between the two semicircular electrodes 12, and an air gap exists between the semicircular electrode 12 and the first and second electret films 4 and 5; the first brush 2 and the second brush 3 are respectively in contact with the commutator 10. The first brush 2 and the second brush 3 are bent to form tips 15 at the parts close to the commutator 10, and the tips 15 of the first brush 2 and the second brush 3 are in contact with the commutator 10, so that the friction force generated between the first brush 2 and the second brush 3 in the rotation process is reduced as much as possible under the condition of good contact with the commutator 10.

Referring to fig. 3, the rotating shaft 21 passes through the center of the rotor 7 and is connected to the rotor 7, and the upper end of the rotating shaft 21 passes through the upper shaft support 22 and the lower end extends into the lower shaft support 23. In this embodiment, the upper and lower ends of the rotating shaft 21 are provided with sharp needles, and the sharp needle at the lower end is inserted into the conical groove 24 of the rotating shaft support 23, so as to ensure the stability of the rotation of the rotating shaft 21 and the rotor.

The working principle of the electrostatic motor based on the electret film is as follows: the first electret film 5 and the second electret film 6 have two kinds of electrostatic fields of positive and negative on both sides. Electrostatic attraction and repulsion between the electrostatic field on the surface of the electret and the electrostatic field on the surface of the electrode applying high voltage are generated to push the electret rotor to rotate. The first electric brush 2 and the second electric brush 3 are both connected with the commutator 10, which ensures the alternate power supply of two part electrodes of the motor rotor, and leads the rotor to smoothly complete a complete rotation action.

The anticlockwise rotation mode is as follows: referring to fig. 4, a negative high voltage is applied to the motor from the first brush 2, negative charges are conducted from the commutator copper sheet to the left semicircular electrode 12 on the lower surface of the rotor, and the lower surface of the left-half rotor (the left semicircular electrode 12) shows a strong negative electric field. The first electret film 4 (with the negative electrode facing upwards) generates a negative electric field to the outside due to the physical characteristics of the first electret film 4, and the second electret film 5 (with the positive electrode facing upwards) generates a positive electric field to the outside due to the physical characteristics of the second electret film 5. At this time, a repulsive force is generated between the negative electric field on the lower surface of the rotor 7 and the negative electric field generated by the first electret film 4 on the left side, and an attractive force is generated between the negative electric field on the lower surface of the rotor 7 and the positive electric field generated by the second electret film 5 on the right side, so that the rotor is pushed to rotate together. At the same time, a positive high voltage is applied to the motor from the second brush 3, positive charges are conducted from the commutator to the electrodes on the lower surface of the rotor, and the lower surface of the right-hand rotor (the right semicircular electrode 12) exhibits a strong positive electric field. The first electret film 4 (with the negative electrode facing upwards) generates a negative electric field to the outside due to the physical characteristics of the first electret film 4, and the second electret film 5 (with the positive electrode facing upwards) generates a positive electric field to the outside due to the physical characteristics of the second electret film 5. At this time, an attractive force is generated between the positive electric field on the lower surface of the rotor and the negative electric field generated by the first electret film 4 on the left side, and a repulsive force is generated between the positive electric field on the lower surface of the rotor and the positive electric field generated by the second electret film 5 on the right side, so that the rotor is pushed to rotate together. When the left semicircular electrode 12 rotates to the right position, the first electric brush 2 leaves the left commutator copper sheet 11 and is connected with the right commutator copper sheet 11, the second electric brush 3 leaves the right commutator copper sheet 11 and is connected with the left commutator copper sheet 11, and the motor finishes a commutation action. The combination of the electric brush and the commutator ensures that the electrodes on the two sides of the lower surface of the rotor are supplied with different charges alternately.

Clockwise rotation mode: referring to fig. 5, when a negative high voltage is applied to the motor from the first brush 2, negative charge is conducted from the commutator to the right semicircular electrode 12 on the lower surface of the rotor, and the lower surface of the right semicircular rotor (the right semicircular electrode 12) shows a strong negative electric field. The first electret film 4 (with the positive electrode facing upwards) on the left side of the stator generates a positive electric field outwards due to the physical characteristics of the first electret film 4, and the second electret film 5 (with the negative electrode facing upwards) on the right side of the stator generates a negative electric field outwards due to the physical characteristics of the second electret film 5. At this time, repulsive force is generated between the negative electric field on the lower surface of the rotor and the negative electric field generated by the second electret film 5 on the right side, and attractive force is generated between the negative electric field on the lower surface of the rotor and the positive electric field generated by the first electret film 4 on the left side to jointly push the rotor to rotate. At the same time, a positive high voltage is applied to the motor from the second brush 3, positive charges are conducted from the commutator to the pole on the lower surface of the rotor, and the lower surface of the left-half rotor (the left semicircular pole 12) shows a strong positive electric field. The first electret film 4 (with the positive electrode facing upwards) generates a positive electric field to the outside due to the physical characteristics of the first electret film 4, and the second electret film 5 (with the negative electrode facing upwards) generates a negative electric field to the outside due to the physical characteristics of the second electret film 5. At this time, a repulsive force is generated between the positive electric field on the lower surface of the rotor and the positive electric field generated by the first electret film 4 on the left side, and an attractive force is generated between the positive electric field on the lower surface of the rotor and the negative electric field generated by the second electret film 5 on the right side, so that the rotor is pushed to rotate together. When the left semicircular electrode rotates to the right position, the first electric brush 2 leaves the right commutator copper sheet 11 and is connected with the left commutator copper sheet 11, the second electric brush 3 leaves the left commutator copper sheet 11 and is connected with the right commutator copper sheet 11, and the motor finishes a commutation action. The combination of the electric brush and the commutator ensures that the electrodes on the two sides of the lower surface of the rotor are supplied with different charges alternately.

The present invention has been described in detail with reference to the embodiments, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.