KR200216664Y1 - cylinder type vibration motor using thin film coil - Google Patents

Abstract

The present invention relates to a vibration motor using a rotor coil as a film coil, unlike a conventional cylindrical vibration motor. In particular, the vibration motor according to the present invention forms a plurality of circuits in one coil layer while winding the film coil in several layers, thereby having sufficient rotational force in the vibration motor with a small stack. The conventional cylindrical film coil has a problem that the film coil length is increased because the length of the film coil is long in order to obtain the rotational force of the desired vibration motor because waste of space is severe. In addition, the conventional cylindrical vibration motor is difficult to obtain a sufficient vibration because it is difficult to obtain a coil winding to the rotor and the manufacturing cost is high, and a large rotational force is difficult to obtain a large torque compared to the number of coils wound, but the vibration motor of the present invention Cylindrical film coils can be easily automated if they are manufactured by etching, printing, or thin-film coating, and can be mass-produced by cutting and simultaneously manufacturing several film coils on a single disc. .

Description

Cylindrical Film Coil Vibration Motor {cylinder type vibration motor using thin film coil}

The present invention relates to a vibration motor using a rotor coil as a film coil, unlike a conventional vibration motor.

Existing film coil type vibration motors are difficult to be miniaturized because many coil layers are required to obtain a desired rotational force, making it difficult to commercialize desired small film coil type vibration motors.

Therefore, in order to solve the existing problems, the present invention is particularly capable of winding the coil in multiple layers by forming a plurality of circuits in one coil layer, thereby generating a large rotational force in the vibration motor even with a small coil layer, thereby having sufficient vibration. have.

1 is a configuration diagram of a cylindrical film coil vibration motor

2 is a configuration diagram of a conventional multiple closed-loop cylindrical film coil

Figure 3 is a film coil configuration of a conventional cylindrical film coil vibration motor

Figure 4 is a film coil configuration of the cylindrical film coil vibration motor of the present invention

* Explanation of symbols for main parts of the drawings

1: rotor (film coil) 2: stator (permanent magnet)

3: commutator 4: brush

5: vibrator 6: rotating shaft

7: bearing 8: motor case

A configuration of a general cylindrical vibration motor when the cylindrical film coil is used as the rotor and the permanent magnet is shown in FIG.

The cylindrical vibration motor has a cylindrical film coil, which is a rotor (1), attached to an insulator with a commutator (3) connected to a rotating shaft (6), and a vibrator (5) is connected to the end of a rotating shaft ((6), and a cylindrical film coil There is a permanent magnet consisting of two poles in the stator (2) is located in the center of the permanent magnet bearing a bearing (7) serves to fix the rotating shaft (6).

The permanent magnet and the brush 4, which are the stator 2, are fixed to the motor case 8, and the cylindrical film coil, which is the rotor 1, is positioned in the space between the permanent magnet and the motor case to rotate. .

2 shows a configuration of a conventional cylindrical film coil, in which a circuit perpendicular to the direction of motion and a circuit parallel to the direction of motion are wound on a long insulating film in a cylindrical shape in a closed circuit.

A plurality of rectangular closed circuits are formed alternately between two upper and lower coil layers with an insulating film interposed therebetween, and the closed circuits in the upper and lower coil layers are paired with each other and connected in series through holes formed in the insulating film at the start and end points of each closed circuit. It is.

The spacing of the circuits perpendicular to the direction of motion was equal to the spacing of the magnetic poles of the permanent magnets, so that the same direction force acted on the circuits in the direction of motion and vertical direction in magnets with different magnetic pole directions.

The positions of the circuits perpendicular to the direction of motion of each coil layer are superimposed so that they are always coincident with each other, so that whenever the magnetic poles are changed, the same direction of force is generated in all coil layers. The spacing is adjusted according to the diameter of the coil layer.

Figure 3 shows the configuration of a cylindrical film coil of a conventional three-phase half-wave cylindrical vibration motor, repeating the same coil layer three times the film coil of Figure 2 to form a coil layer of each phase, the direction of movement of the coil layer of each phase The circuits are perpendicular to each other when they are made of cylindrical coil layers.

The coil layer of each phase of the cylindrical film coil is composed of four closed loops of a plurality of rectangles, and the phases of the vertical circuits in the coil layer of each phase are mutually one-third of one cycle when forming the cylindrical film coil. The three coil layers are staggered.

If you make the terminals of the coil layer of each phase separately and connect the start terminal or end terminal of each phase in common, half-wave three-phase film coil is made. However, the conventional cylindrical film coil has a problem that the film coil length is increased to obtain a desired rotational force of the vibration motor because the waste of space is severe.

In order to solve the above problems, the film coil of the cylindrical vibration motor of the present invention does not constitute a coil layer of each phase as in the conventional film coil, and as shown in FIG. The rectangular closed circuit is continuously formed in the upper and lower coil layers, and the plurality of rectangular closed circuits configured in succession in the upper and lower coil layers for each phase are repeatedly configured to form the cylindrical film coil of the vibration motor without waste of space.

That is, the rectangular closed loop of the three phases can be repeatedly configured by making the size of the rectangular closed circuit smaller than 2/3 of the cylindrical circumference so that the total length of the three phases is twice the cylindrical circumference.

Therefore, when the coils formed on both sides of the long insulating film are wound in a cylindrical shape, the rectangular closed circuits of each phase always overlap at the same position.

Unlike the conventional cylindrical vibration motor, the cylindrical vibration motor of the present invention is easy to manufacture by forming a cylindrical coil with a film coil, and obtains sufficient rotational force with a small stack by forming a coil layer of a plurality of closed circuits in one coil layer. Can be.

In order to manufacture the film coil of the motor or generator according to the present invention, if it is manufactured by etching method, printing method, or thin film coating method, it can be easily automated and made thin. If several film coils are manufactured and cut at the same time, mass production can be made and production costs can be reduced.

Claims (3)

In the cylindrical film coil vibration motor including a rotor composed of a cylindrical film coil, a stator composed of a cylindrical permanent magnet, and a vibrator, The cylindrical film coil is formed by alternating a plurality of rectangular closed circuits up and down in the upper and lower sides of the long insulating film, and the closed circuits in the upper and lower coil layers are paired with each other in series through holes formed in the insulating film at the start and end points of each closed circuit. And a film coil formed above and below the insulating film and the insulating film is wound in a cylinder to form a film coil. 2. The circuit according to claim 1, wherein when the film coil is wound in a cylinder, the interval of the circuit in the longitudinal direction of the cylinder coincides with the interval of the magnetic pole of the cylindrical permanent magnet, and the circuits in the longitudinal direction of the cylinder in each coil layer are equal Cylindrical film coil vibration motor, characterized in that the circuit in the longitudinal direction of the cylinder is formed so as to overlap the position. 3. The coil of claim 2, wherein the plurality of rectangular closed loops are repeated three times in the upper and lower coil layers to form three phase coils, and the length of the rectangular coil in each phase is smaller than 2/3 of the circumference of the cylinder so that the total length of the three phase coils is cylindrical. Cylindrical film coil vibration motor, characterized in that the film coil is configured by repeating the three rectangular closed loop by doubling the circumference.