KR101639039B1 - Vibrating device - Google Patents

Abstract

The vibrating device of the present invention includes a drive part in which a first member and a second member move relative to each other, a case in which the first member is installed, and a cover integrally formed with the plate spring covering the case and the second member, And the cover may be vibrated by driving the driving unit.

Description

VIBRATING DEVICE

The present invention relates to a vibration device for generating vibration by linear motion.

In general, one of the functions necessary for a communication device is a receiving function. The most commonly used types of incoming calls are vocal functions such as melody and bell, and vibration that shakes the device.

In particular, the vibration function is mainly used when the melody or bell is transmitted to the outside through the speaker to prevent damage to the other person. In order to perform such vibration, it is general that a small vibration motor is driven so that the driving force is transmitted to the case of the device so that the device can vibrate.

Currently, vibration motors applied to mobile phones are divided into coin type and bar type with thin thickness depending on the type.

Regardless of the above-described configuration, the vibration motors generate a rotational force to obtain a mechanical vibration by rotating the rotating part of the unbalanced mass. Most of the rotational force is rectified through the contacts of the brush and the commutator, And generates a current to the coil.

However, in the brush type structure using the commutator, when the motor rotates, the brush causes mechanical friction and electrical sparking through the gap between the segment and the segment of the commutator, and the brush and the commutator The life of the motor is shortened.

Korean Utility Model Publication No. 1999-0038430 discloses a vibration motor, but it has the above problems.

Korean Utility Model Application Publication No. 1999-0038430

The present invention is intended to provide a vibration device with improved durability and productivity.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

The vibrating device of the present invention includes a drive part in which a first member and a second member move relative to each other, a case in which the first member is installed, and a cover integrally formed with the plate spring covering the case and the second member, And the cover may be vibrated by driving the driving unit.

According to the vibration device of the present invention, the productivity can be improved by integrating the leaf spring on which some elements of the driving part are installed, with the cover.

In particular, by using the elastic plastic as the material of the cover integrally comprising the plate spring, it is possible to obtain a cover having a leaf spring function in one molding process. Accordingly, defects that may occur in the assembling process and the like can be minimized, and the resonance frequency can be maintained uniformly. Thus, the quality can be stabilized and the size of the product can be reduced.

In addition, since the elastic coefficient of the metal spring plate can be lowered by forming the plate spring integrated cover with the elastic plastic, a separate mass for satisfying the natural frequency is not required. Therefore, the weight of the entire vibrating device can be reduced, and it is possible to drive with less power.

In the case of a leaf spring made of a metal, the spring easily deteriorates due to frequent vibration movement. It is robust against the deterioration due to frequent vibration by providing the cover of the plate spring integrally formed of the elastic plastic. As a result, there is no need to apply a magnetic fluid or the like for preventing the deterioration of the spring to the spring, so that the production process can be reduced and the production cost can be reduced.

1 is a schematic view showing a vibration device of the present invention.
2 is an exploded perspective view showing the vibration device of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

1 is a schematic view showing a vibration device of the present invention. 1 is a cross-sectional view of a vibration device. 2 is an exploded perspective view showing the vibration device of the present invention.

The vibrating device shown in the figure may include a driving unit 110, a case 130, and a cover 150.

The driving unit 110 may include a first member 111 and a second member 112 that move relative to each other.

For example, the first member 111 may be a coil and the second member 112 may be a magnet, as shown in the drawing. Or the first member 111 may be a magnet and the second member 112 may be a coil.

When the coils are arranged in the magnetic field of the magnet, the direction of the magnetic flux passing through the coils in the magnet is formed to the right and left in Fig. 1, and the direction of the vibration or movement is formed vertically in Fig. Therefore, the magnetic flux direction and the motion direction are formed vertically. The driving unit 110 can improve the durability and miniaturize as compared with the conventional rotating system. The second member 112 may be installed on the surface facing the first member 111 in the cover 150 for reliable operation of the first member 111 and the second member 112. [

In order to reliably generate the vibration, the driving unit 110 may use the resonance frequency. The resonance frequency is affected by the mass m and the elastic modulus k of the vibrating body as shown in Equation (1).

The case 130 may form a part of the external shape of the vibration device. At this time, the cover 150 may form the remaining outer shape of the vibration device. For example, if the case 130 is in the form of a plate, the cover 150 may be in the shape of a bowl covering the case 130. If the case 130 is in the shape of a bowl, the cover 150 may be in the shape of a plate covering the case 130.

The first member 111 may be installed in the case 130. At this time, the cover 150 may be formed to cover the case 130. Further, the cover 150 may be provided with a second member 112.

A portion of the cover 150 where the second member 112 is installed may be a portion of the cover 150 that performs a function of a leaf spring. That is, in the present invention, the cover 150 may be integrally formed with the leaf spring.

The case 130 and the cover 150 may be formed in various ways. For example, the case 130 may include a side surface 131 forming a side surface of the cylinder and a bottom surface 133 forming a first bottom surface of the cylinder. At this time, the cover 150 may form a second bottom surface of the cylinder. The first member 111 and the second member 112 may be provided on the surface of the case 130 facing the lower surface 133 of the case 130 and the surface of the cover 150, respectively. The side surface portion 131 of the case 130 may be integrally formed with the lower surface portion 133 of the case 130 or separately formed and then assembled with each other. Or the side portion 131 may be integrally formed with the cover 150. [

The cover 150 protects the first member 111, the second member 112 and the case 130 by covering the case 130 and functions as a leaf spring for the second member 112. The cover 150 is made of elastic plastic and an elatric plastic material.

According to this configuration, when the first member 111 and the second member 112 move relative to each other due to the power supply, the case 130 in which the first member 111 is installed and the cover 150 in which the second member 112 is installed ) Moves relative to each other, resulting in vibration. As a result, the cover 150 vibrates due to the driving of the driving unit 110. Of course, since the vibration of the cover 150 is relative, the cover 150 vibrates when the case 130 is fixed, and the case 130 vibrates when the cover 150 is fixed.

Since the cover 150 and the leaf spring are integrally formed, the space occupied by the cover 150 and the leaf spring can be minimized, which is advantageous for downsizing the vibration device.

Further, the cover 150 of the elastic plastic material can be obtained by a single molding process, thereby improving the production speed.

Although the thickness of the cover 150 is shown thick for convenience of explanation, it is actually easier to make the plate 150 thinner than the metal plate spring and has a smaller elastic modulus than the metal plate spring.

Therefore, since the elastic modulus k of Equation (1) can be made small, the mass m of the vibrating body can be made small. The oscillator may be an element installed in the cover 150 that vibrates relative to the case 130, and the second member 112 may correspond to this.

For example, when the first member 111 is a coil and the second member 112 is a magnet, the driving unit 110 includes a magnet to which the first surface is attached to the cover 150, A plate yoke 114 attached to the second surface of the magnet, and a coil installed on the surface of the case 130 facing the magnet. At this time, the vibrating body may include a magnet, a yoke 113, and a plate yoke 114 provided on the cover 150 side.

The yoke 113 and the plate yoke 114 are provided on the plate spring of a metal material so that the elasticity coefficient k is large so that only the magnet, the yoke 113, and the plate yoke 114 satisfy the condition of the resonance frequency m. < / RTI > Accordingly, when a mass body (not shown) having an extra mass is added to the vibrating body such as the yoke 113, a separate mass body is unnecessary when the cover 150 made of an elastic plastic material is applied. Therefore, the weight of the entire vibration device can be reduced, and at the same time, it is advantageous in downsizing. Further, since a vibrator of a small mass can be moved, less power is consumed.

On the other hand, the cover 150 may be provided with a regulator 151 for regulating the elastic force of the leaf spring (the elastic modulus k in Equation (1)). The adjusting portion 151 may be a groove or a hole.

The elastic modulus k decreases as the size of the adjuster 151 increases in the cover 150 or as the number of the adjusters 151 increases. Equation (1) can be satisfied by appropriately forming the adjusting portion 151 by using this.

More specifically, the adjusting portion 151 may be formed between the first region 1, which is in contact with the case 130 in the cover 150, and the second region 2, which is in contact with the second member 112. At this time, the second member 112 may be a vibrating body.

When the adjusting portion 151 is the groove, the adjusting portion 151 may be formed on the surface of the cover 150 where the second member 112 is installed. The surface on which the second member 112 is mounted on the cover 150 is a surface facing the surface on which the first member 111 is mounted in the case 130. [ The surface on which the second member 112 is mounted on the cover 150 is exposed to the inner space of the case 130 in which the cover 150 is covered. Since the inner space of the case 130 is isolated from the outside by the case 130 and the cover 150, it is robust against the influence of dust or the like. Therefore, it is possible to prevent various foreign substances such as dust from being caught in the regulating portion 151, so that it is possible to prevent the elastic modulus k from fluctuating.

Shaped regulating portion 151 is formed on the opposite side of the surface of the cover 150 where the second member 112 is provided, the regulating portion 151 is exposed to the outside, so that it is likely to be contaminated with various foreign substances such as dust, The elastic modulus k may vary depending on such contamination.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

110 ... driving part 111 ... first member
112 ... second member 113 ... yoke
114 ... plate yoke 130 ... case
131 ... side portion 133 ... lower surface portion
150 ... cover 151 ... regulating portion

Claims (7)

A driving unit in which the first member and the second member move relative to each other;
A case in which the first member is installed;
And a cover integrally formed with the second member,
The case has a side portion forming a side surface and a bottom portion forming a bottom surface,
An inner space having an upper opening is formed in the case by the side surface portion and the lower surface portion,
Wherein the cover is formed in a plate shape including elastic plastic and covering an upper side opened in an inner space of the case,
When the direction from the lower surface portion to the cover is defined as the first direction,
Wherein the first member includes a coil wound in a pipe shape extending in the first direction,
Wherein the second member includes a magnet that vibrates along the first direction in a state where an end portion is inserted into a space surrounded by the coil wound in the pipe shape,
The cover provided with the magnet vibrates together with the magnet,
Wherein the cover is formed in a plate shape for isolating an inner space of the case from the outside,
The inner space of the case is isolated from the outside by the case and the cover,
A groove-shaped adjusting portion for adjusting an elastic force of the cover is provided on a surface of the cover facing the inner space,
Wherein the adjustment portion is formed at a depth smaller than the thickness of the cover between a first region provided in the case and a second region provided with the second member in the cover,
And the cover whose elasticity is controlled by the adjusting portion is vibrated together with the second member by driving the driving portion.
delete delete delete delete The method according to claim 1,
The cover includes a yoke that is interposed between the cover and the magnet and surrounds the magnet, a plate yoke that is attached to a second surface of the magnet, a plate yoke that faces the magnet in the case, Wherein the coil is mounted on a surface of the vibrator. delete

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