KR20030064453A - Piston type vibrator - Google Patents

Abstract

PURPOSE: A piston type vibrator is provided to generate the vibration and simplify a structure of the vibrator by using the DC power applied from a system. CONSTITUTION: A piston type vibrator includes a main body(110), a contact point(120), a vibrating body(130), and an elastic body(140). The main body includes an inside portion having a shape of empty rectangular cylinder, an electromagnet(111), and a guide hole(113). The contact point is electrically connected to a coil of the electromagnet. The vibrating body includes a head(131) and a guide bar(133). The guide bar is inserted into the guide hole of the main body. The elastic body is adhered on one side of the main body in order to provide the elastic force to the vibration body.

Description

Piston Type Vibrator {PISTON TYPE VIBRATOR}

The present invention relates to a vibrator, and more particularly, to a piston-type vibrator having a simple structure while generating vibration by using a direct current power source applied from a system.

In general, a cylindrical vibration motor is mounted on a mobile phone or a pager to handle a reception function. The rotational force of the motor is driven based on Fleming's left hand law. The principle of vibration is generated through a vibrator connected to one end of the rotor shaft. The vibrator generally has a semi-cylindrical shape to increase the amount of unbalance.

This vibration motor of the conventional configuration will be described with reference to FIG.

1 is a cross-sectional view showing a conventional vibration motor.

First, assembling process of the cylindrical vibration motor, the power line 70 is passed through the through hole of the brush holder 30, and the end of the power line 70 is fixed by spot welding on one side of the brush holder 30 The brush 32 is mounted through a guide (not shown) formed on one side of the brush holder 30.

And the rotor assembly (A) consisting of the commutator 12, the rotating shaft 10 and the coil 14 is mounted to the brush holder (30). Here, the rotor assembly (A) is mounted in a pre-coupled state to the stator assembly (B) consisting of a bearing 20, a bearing housing 22, a permanent magnet 40 due to the nature of the assembly.

In addition, the permanent magnet 40 is fixedly installed on the outside of the bearing housing 22 of the stator assembly B using the bush 26, and the rotor assembly A, the stator assembly B, and the permanent magnet 40 are fixed. The protective case 50 is coupled to the outer periphery of one side of the brush holder 30. Here, when assembling the vibration motor, the stopper 28 is assembled between the weight 60 and the case 50 in advance to complete the overall shape of the motor, thereby changing the state of the assembled brush 32 and the commutator 12. prevent.

On the other hand, the coil 14 is assembled between the case 50 and the permanent magnet 40 of the stator assembly (B), the upper side of the coil 14 is connected to the commutator 12 and rotates with the commutator 12 It is configured to be in contact with each other with a brush 32 for supplying a current.

Referring to the operation of the cylindrical vibration motor according to the prior art made of the configuration as follows.

First, when battery power is applied to the power line 70, the applied current is applied to both ends of the three commutators 12 which are separated in the case of three phases. The current is applied to the coil 14 connected to one end of the commutator 12 to generate a magnetic field. At this time, the motor rotates due to the attraction force and repulsive force of the magnetic field generated from the coil 14 and the permanent magnet 40 and the coil 14 rectified in accordance with the change of the phase angle is sequentially changed to the permanent magnet ( 40) The pair bearing housing 22 is switched and rotated in a constant direction. The vibration of the motor is generated by the generated rotational force.

However, since the conventional cylindrical vibrator uses DC power supplied from a system (mobile phone, pager, etc.), it is only possible to use DC power by converting it to AC, which requires complicated components such as a brush and a commutator. Due to the friction between the commutator and the short life problem.

Accordingly, an object of the present invention is to solve the above problems, and to provide a piston-type vibrator having a simple structure while being capable of generating vibration in a piston-type vibrating body using a DC power applied from the system as it is.

1 is a cross-sectional view showing a conventional vibration motor

2 is a cross-sectional view showing the configuration of a piston-type oscillator according to the present invention

3 and 4 are explanatory diagrams for electronically explaining the operation of the piston type vibrator according to the present invention.

<Explanation of symbols for main parts of the drawings>

110: main body 111: electromagnet

113: guide hole 120: contact

130: vibrating body 131: head

133: guide bar 140: elastic body

Features of the present invention for achieving the above object,

The main body is formed in a hollow rectangular cylinder shape, the electromagnet with the coil wound on the inner upper surface and the lower surface is attached to the position corresponding to each other, the main body formed with a guide hole in the central portion on one side,

A contact having at least two and electrically connected to the coil of the electromagnet and spaced apart from each other inside the other side of the main body;

Vibrating body provided with a head and a guide bar to be formed in the form of a square piston of the metal material, the guide bar extending to the lower end to be movable inside the main body through the guide hole of the main body, the head is inserted into the main body Wow,

Attached and fixed to one side of the main body, characterized in that it comprises an elastic body coupled to the guide bar of the vibrating body to provide an elastic force to the vibrating body.

Here, the main body,

It is formed of non-conductive metal or plastic material.

Here also the electromagnet,

It is formed with the same size to each other so that the same size magnetic force is generated.

Here again the vibrating body,

It is movable by magnetic force and a conductive metal material is used.

Hereinafter, the configuration of a piston-type vibrator according to the present invention will be described in detail with reference to FIG.

2 is a cross-sectional view showing the configuration of a piston-type oscillator according to the present invention.

Referring to FIG. 2, the piston type vibrator 100 according to the present invention includes a main body 110, a contact point 120, a vibrating body 130, and an elastic body 140.

The main body 110 is formed in a rectangular cylindrical shape of the inside, the electromagnet 111 is wound on the inner upper surface and the bottom is attached to a position corresponding to each other, the guide hole 113 is formed in the central portion on one side. Here, the main body 110 is formed of a non-conductive metal material or a plastic material so that electric flow is made only through the contact point 120 and the vibrating body 130. Here, the electromagnets 111 are formed with the same size to each other so that a magnetic force of the same size is generated.

The contact point 120 has at least two or more to perform a switching operation, is electrically connected in series with each coil of the electromagnet 111, each contact point 120 is electrically cut off, the other side of the main body 110 It is attached to the inside spaced apart from each other. Here, the contacts 120 have the same height as each other so as to be in contact with each other when the contact with the vibrating body 130.

The vibrating body 130 has a head 131 and a guide bar 133 to be formed in the form of a square piston of a metal material, the guide bar 133 is formed extending to the lower end to be movable inside the main body 110 is the main body The head 131 is inserted into and installed through the guide hole 113 of the body 110. Here, the vibrating body 130 is movable by the magnetic force of the head 131, is formed of a conductive metal material, the guide bar 133 is formed of a non-conductive metal material.

The elastic body 140 is attached and fixed to one side of the main body 110 and is coupled to the guide bar 133 of the vibrating body 130 to provide an elastic force to the vibrating body 130.

Hereinafter, the operation of the piston type vibrator according to the present invention will be described in detail with reference to FIGS. 3 and 4.

3 and 4 are explanatory diagrams for electronically explaining the operation of the piston-type oscillator according to the present invention.

3 and 4, in a state in which DC power is not applied to the electromagnet 111 in the system, the vibrating body 130 is maintained in contact with the contact point 120 by the elastic body 140.

In this state, when DC power is applied from the system, the DC power is a vibrating body formed of any one contact point 120 and a conductive metal material through an electromagnet 111 located at the bottom of the main body 110, as shown in FIG. It is applied to the other contact point 120 through the head 131 of 130 is applied to the electromagnet 111 located on the upper end of the main body 110 again. At this time, since the guide bar 133 of the vibrating body 130 is formed of a non-conductive metal material, the DC power source stably flows to the electromagnet 111 through the contact point 120 and the head 131.

On the other hand, when the DC power is applied to the electromagnet 111, the magnetic force is generated in the electromagnet 111, if the magnetic force of the same size in the electromagnet 111 of the top and bottom of the main body 110, by the generated magnetic force The head 131 of the vibrating body 130 existing between the electromagnets 111 overcomes the elasticity of the elastic body 140 and is the center of both electromagnets 111 (ie, the center of magnetic force) as shown in FIG. 4. Will be moved to.

As the head 131 of the vibrating body 130 moves, a contact point 120 serving as a switch is opened to cut off DC power applied to the electromagnet 111.

When the DC power is cut off, the generation of the magnetic force generated in the electromagnet 111 is stopped, and thus the force that moves the vibrating body 130 disappears and thus the vibrating body 130 is moved back to the left side by the elastic force of the elastic body 140. It moves and comes into contact with the contact point 120. When the head 131 of the vibrating body 130 is in contact with the contact point 120 as described above, direct current is applied to the electromagnet 111 to generate magnetic force, which causes the vibrating body 130 to move. . Repeating such an operation causes vibration to occur as the vibrator 130 moves.

Therefore, the vibration is generated by moving the vibrating body while switching the electromagnet by using a DC power source, the structure can be simple and generate vibration.

As described above, according to the present invention, it is possible to provide a vibrator having a simple structure while generating vibration by using a DC power applied from the system as it is.

Claims (4)

The main body is formed in a hollow rectangular cylinder shape, the electromagnet with the coil wound on the inner upper surface and the lower surface is attached to the position corresponding to each other, the main body formed with a guide hole in the central portion on one side, A contact having at least two and electrically connected to the coil of the electromagnet and spaced apart from each other inside the other side of the main body; Vibrating body provided with a head and a guide bar to be formed in the form of a square piston of the metal material, the guide bar extending to the lower end to be movable inside the main body through the guide hole of the main body, the head is inserted into the main body Wow, A piston-type vibrator is fixed to one side of the main body, and coupled to the guide bar of the vibrating body to provide an elastic force to the vibrating body. The method of claim 1, The main body, A piston type vibrator, characterized in that formed of a non-conductive metal or plastic material. The method of claim 1, The electromagnet, Piston-type vibrator, characterized in that formed in the same size with each other to generate the same size magnetic force. The method of claim 1, The vibrating body, The head is movable by a magnetic force, the piston is formed of a conductive metal material, the guide bar is a piston-type vibrator, characterized in that formed of a non-conductive metal material.