KR20160017403A - Vibration motor and assembling apparatus for the same - Google Patents

Abstract

According to an embodiment of the present invention, a vibration motor which easily aligns components during an assembly process of a vibration motor comprises: a case having a first hole on a center, or around the center; a spring forming a second hole having a form except a circle on the center, and connected to an inner surface of the case; a mass facing the inner surface of the case, and arranged to get closer or further towards the inner surface of the case; a magnetic unit inserted in a center area of the mass; and a coil arranged between the mass and the magnetic unit, having the magnetic unit inserted therein.

Description

TECHNICAL FIELD [0001] The present invention relates to a vibration motor,

The present invention relates to a vibration motor and a vibration motor assembly apparatus.

[0002] With mass production and miniaturization of electronic devices such as smart phones, various components used in electronic devices are also required to have high reliability and miniaturization.

The vibration motor is a part in which one of these components is a component that is vibrated by the interaction between the current supplied from the outside and the magnetic field generated by the permanent magnet. That is, the vibration motor can convert an electromagnetic force into a mechanical vibration.

The size of the vibration motor is limited in accordance with the miniaturization of the smartphone and the like, and such a limited size has a problem that it is difficult to improve the vibration power of the vibration motor.

Since the vibration motor is small in this way, it is easy to align the components in the assembling process of the vibration motor, so that the productivity of the vibration motor can be improved.

Accordingly, various studies are being conducted to improve the alignment of the components in the assembling process of the vibration motor.

Korean Patent Laid-open No. 10-2011-0006519 (Published on Jan. 20, 2011)

The present invention provides a vibration motor and a vibration motor assembling apparatus that can facilitate alignment of components in the assembling process of a vibration motor.

According to an aspect of the present invention, there is provided a battery pack including: a case having a first hole formed at a center or a center thereof; A spring formed at a center thereof with a second hole having a shape other than a circle and connected to an inner surface of the case; A mass disposed so as to be closer to or away from the inner surface of the case so as to face the inner surface of the case; A magnet portion inserted into a central region of the mass body; And a coil disposed between the mass body and the magnet unit to insert the magnet unit.

The magnet unit may include a first magnet and a second magnet sequentially disposed in the height direction of the vibration motor, and a second magnet disposed between the first magnet and the second magnet to connect the first magnet and the second magnet, Wherein the medium includes a concave area concaved toward the center of the medium, and an adhesive filling the concave area in the height direction connects the first magnet and the second magnet.

The center of the case and the center of the spring can be placed on a first imaginary line parallel to the height direction of the vibration motor.

When the first hole is formed at the center of the case, the center of the first hole and the center of the second hole may be located on the first imaginary line.

When the first hole is formed in the center of the case, the first hole may have the same shape as the second hole.

According to another aspect of the present invention, there is provided a vibration motor comprising: a first jig protruding from an inner surface of a first guide pin inserted in at least one first hole formed around a center of a case of a vibration motor, the first guide pin surrounding an outer surface of the case; And a second jig that is welded to the case and has a second guide pin inserted into a spring having a second hole having a shape other than a circle at a center thereof protruded from the inner side, It may be the same as the shape of the hole.

According to another aspect of the present invention, there is provided a vibration motor comprising a first hole formed in a center of a case of a vibration motor, and a guide pin inserted into a second hole formed in the center of a spring of the vibration motor welded to the case, A first jig surrounding an outer surface of the case; And a second jig for pressing the spring upon welding. The sectional shape of the guide pin may be a shape other than a circle, and the shape of the first hole and the second hole may be the same.

A welding hole is formed in the second jig and a part of the area where the case and the spring are overlapped with the area of the welding hole when the first jig and the second jig are fastened can be overlapped with each other.

The present invention provides a vibration motor and a vibration motor assembling apparatus that can facilitate alignment of components in the assembling process of a vibration motor.

1 and 3 are sectional views of a vibration motor according to an embodiment of the present invention.
2 and 4 are assembly views of a vibration motor according to an embodiment of the present invention.
Figures 5 and 6 illustrate various forms of the spring.
7 shows a magnetic field formed by a magnet section of the vibration motor according to the embodiment of the present invention.
8 shows a comparative example of the magnet portion of Fig.
9 shows a vibration motor assembling apparatus according to an embodiment of the present invention.
Fig. 10 shows a state in which the first and second jigs shown in Fig. 9 are fastened.
11 shows a vibration motor assembling apparatus according to another embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention in which the object of the present invention can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

FIGS. 1 and 3 are sectional views of a vibration motor according to an embodiment of the present invention, and FIGS. 2 and 4 are exploded views of a vibration motor according to an embodiment of the present invention.

1 to 4, a vibration motor according to an embodiment of the present invention includes a case 110, a spring 120, a mass 130, and a magnet unit 140.

A first hole (H1) is formed around or in the center of the case (110). Figs. 1 and 2 show that the first hole H1 is formed around the center of the case 110, and Figs. 3 and 4 show that the first hole H1 is formed at the center of the case 110. Fig.

One or more first holes H1 may be formed around the center of the case 110 when the first hole H1 is formed around the center of the case 110. [

The first hole H1 of the case 110 is necessary for assembly of the case 110 and the spring 120, and a description thereof will be described later in detail with reference to the drawings.

A second hole (H2) having a shape other than a circle is formed at the center of the spring (120). As shown in FIGS. 5 and 6, the shape of the second hole H2 may be a square or a triangle, but is not limited thereto, and may have various shapes other than a circle such as an ellipse or a pentagon.

The second hole H2 has a shape other than a circle in order to facilitate the alignment of the case 110 and the spring 120 in the process of assembling the case 110 and the spring 120.

The assembling process of the case 110 and the spring 120 through the second hole H2 will be described in detail below with reference to the drawings.

1 to 4, the mass body 130 is disposed so as to approach or be away from the inner surface of the case 110 toward the inner surface of the case 110. As shown in FIGS. At this time, a space may be formed in a central region of the mass body 130 so that the magnet portion 140 can move in a height direction.

The mass body 130 may be connected to the spring 120 by welding and provides an elastic force such that the mass body 130 moves in the height direction of the vibration motor.

The magnet portion 140 is inserted into the central region of the mass body 130. The magnet unit 140 may be fixed to a bracket 150 and the bracket 150 may cover an opening area of the case 110. [

The coil 260 is disposed between the mass body 130 and the magnet unit 140 so that the magnet unit 140 is inserted into the central region of the coil 260. The coil 260 may be connected to the inner surface of the mass body 130. At this time, the connection between the coil 260 and the mass body 130 may be performed by an adhesive, but is not limited thereto.

When the current is supplied to the coil 260, the coil 260 receives a force in the height direction according to the interaction between the magnetic field generated in the magnet unit 140 and the current flowing in the coil 260, Can be moved.

1 to 4, a first damper 160 and a second damper 170 are provided on the inner surface of the case 110 and the inner surface of the bracket 150, respectively, The impact due to the movement of the mass 130 can be reduced by preventing the spring 120 and the coil 260 from hitting the case 110 and the bracket 150 as the mass 130 moves.

Meanwhile, as shown in FIGS. 1 and 3, the mass body 130 may include a depression 131. At this time, the depressed portion 131 may be depressed toward the inner surface of the case 110, facing the coupling portion between the opening of the case 110 and the bracket 150.

The opening of the case 110 and the bracket 150 may be joined by welding, in which a welding ball (not shown) protruding toward the mass body 130 may be formed during the welding process.

1 and 3, unlike the embodiment of the present invention, when the depression 131 is not formed in the mass 130, when the mass body 130 moves in the height direction, it collides with the welding ball, Or the vibration motor may be damaged.

Accordingly, the vibration motor according to the embodiment of the present invention has the depression 131 formed in the mass body 130, so that even if the mass body 130 moves in the height direction, the collision between the end of the mass body 130 and the welding ball is eliminated The noise can be reduced and the durability of the vibration motor can be improved.

1 to 4, the vibration motor according to the embodiment of the present invention may include a printed circuit board (PCB) 180 for providing current to the coil 260. The PCB 180 is electrically connected to an external power source (not shown) through an electrode pad (not shown) located outside the case 110 and may extend into the case 110 to be electrically connected to the coil 260 have.

2 and 4, the magnet unit 140 includes a first magnet 141 and a second magnet 143 sequentially arranged in the height direction of the vibration motor, a first magnet 141, And an intermediate member 145 positioned between the second magnets 143 and connecting the first and second magnets 141 and 143 to each other.

At this time, the second magnet 143 may be connected to the bracket 150 by an adhesive, but the connection between the second magnet 143 and the bracket 150 is not limited thereto.

The medium 145 includes a concave area concaved toward the center of the medium 145 and an adhesive 147 filling the concave area in the height direction can connect the first magnet 141 and the second magnet 143 have.

One side surface and the other side surface of the medium 145 may be combined with the first magnet 141 and the second magnet 143 by an adhesive 147, respectively. When the adhesive 147 on one side surface and the other side of the vibration motor are subjected to the pressure transmitted through the first magnet 141 and the second magnet 143 during the assembling process of the vibration motor, And the adhesive 147 between the other side surface and the second magnet 143 leaks out of one side surface and the other side surface of the medium 145 to fill the concave region of the medium 145.

Since the adhesive 147 filling the concave region connects the first magnet 141 and the second magnet 143, the connection between the medium 145, the first magnet 141 and the second magnet 143 is made strong .

The medium 145 may be formed of stainless steel (SUS) or pure iron, but the material of the plate 420 is not limited thereto.

The magnet unit 140 of the vibration motor according to the embodiment of the present invention may include a first magnet 141 and a second magnet 143 and may include a first magnet 141 or a second magnet 143 The vibration power can be improved. Also, even if the vibration motor is miniaturized, the vibration force can be maintained or improved by the magnetic field generated by the first magnet 141 and the second magnet 143.

On the other hand, one polarity of the first magnet 141 connected to the medium 145 and one polarity of the second magnet 143 connected to the medium 145 may be the same. 7, when one side of the first magnet 141 connected to the plate 420 is N-pole, one side of the second magnet 143 may also be N-pole. Accordingly, the other side of the first magnet 141 and the second magnet 143 may be the S-pole.

If the polarities of the first magnet 141 and the second magnet 143 connected to the medium 145 are the same as each other, the first magnet 141 and the second magnet 143 The magnetic field lines can be concentrated.

8, if the polarities of the first magnet 141 and the second magnet 143 that are connected to the medium 145 are different from each other, for example, one side of the first magnet 141 And one side of the second magnet 143 is the S pole, the magnetic force lines coming from the N pole and the magnetic pole going to the S pole can be canceled each other when they pass through the medium 145. Accordingly, the magnetic field formed by the medium 145 can be reduced.

Next, the assembly process of the vibration motor assembling apparatus and the case 110 of the vibration motor and the spring 120 according to the embodiment of the present invention will be described with reference to the drawings.

9 shows a vibration motor assembling apparatus according to an embodiment of the present invention. As shown in FIG. 9, the vibration motor assembling apparatus according to the embodiment of the present invention includes a first jig 190 and a second jig 200.

The first guide pin GP1 inserted into the at least one first hole H1 formed around the center of the case 110 of the vibration motor may protrude from the inner surface of the first jig 190. [ The first jig 190 may cover the outer surface of the case 110.

At this time, a guide groove GG may be formed in the first jig 190 to cover the outer surface of the case 110. The case 110 of FIG. 2 may be disposed in the first jig 190.

The second guide pin GP2 may protrude from the inner surface of the second jig 200 and the second guide pin GP2 may protrude from the second hole H2 of the spring 120 welded to the case 110 Can be inserted. At this time, the second hole H2 is formed at the center of the spring 120 and may have a shape other than a circle. At this time, the sectional shape of the second guide pin GP2 may be the same as the shape of the second hole H2.

After the first guide pin GP1 is inserted into the first hole H1 of the case 110 and inserted into the second hole H2 of the spring 120 on the second guide pin GP2, The first jig 190 and the second jig 200 can be coupled by inserting the fastening means 230 of the first jig 190 into the fastening hole 240 of the second jig 200. Accordingly, the spring 120 can be seated inside the case 110.

The first guide pin GP1 and the second guide pin GP2 align the welding positions of the case 110 and the spring 120. [ The reason why the second guide pin GP2 has a shape other than the circle is to facilitate alignment of the welding position of the spring 120. [

When the second guide pin GP2 and the second hole H2 of the spring 120 have a circular shape as in the embodiment of the present invention, The spring 120 is rotated about the second guide pin GP2, so that it is difficult to align the welding position of the spring 120. As a result,

Since the second guide pin GP2 and the second hole H2 of the spring 120 have a shape other than a circle in the embodiment of the present invention, the second guide pin GP2 prevents the rotation of the spring 120 The welding position alignment of the spring 120 can be facilitated.

At this time, a welding hole 250 is formed in the second jig 200. When the first jig 190 and the second jig 200 are fastened together, the case 110 and the spring 120 overlap each other And the regions of the welding holes 250 may overlap with each other.

A part of the area where the case 110 and the spring 120 are overlapped is welded and the case 110 and the spring 120 are welded to each other, ) Can be combined.

Next, a vibration motor assembly apparatus according to another embodiment of the present invention will be described with reference to FIG. As shown in FIG. 11, the vibration motor assembling apparatus according to another embodiment of the present invention includes a first jig 210 and a second jig 220.

The guide pin 215 may protrude from the inner surface of the first jig 210. [ The guide pin 215 is inserted into the first hole H1 formed at the center of the case 110 of the vibration motor and the second hole H2 formed at the center of the spring 120 of the vibration motor welded to the case 110 . The sectional shape of the guide pin 215 is a shape other than a circle and may be the same as the shape of the first hole H1 and the second hole H2.

At this time, the first jig 210 may be provided with a guide groove GG to cover the outer surface of the case 110. In the first jig 210, the case 110 and the spring 120 of FIG. 4 may be disposed. The second jig 220 is coupled to the first jig 210 and can press the spring 120 when the spring 120 is welded to the case 110.

The reason why the guide pin 215 has a shape other than a circle is to facilitate alignment of the welding position of the spring 120.

Since the guide pin 215, the first hole H1 of the case 110 and the second hole H2 of the spring 120 have a shape other than a circle in the other embodiment of the present invention, The rotation of the spring 120 is prevented, so that the welding position alignment of the case 110 and the spring 120 can be facilitated.

Like the second jig 200 of FIG. 10, the second jig 220 of FIG. 11 may be formed with a welding hole 250. When the first and second jigs 210 and 220 are fastened together, the case 110 and the spring 120 are overlapped when the first and second jigs 210 and 220 are fastened together A portion of the region and an area of the welding hole 250 may overlap with each other.

Since the case 110 and the spring 120 are aligned with each other through the first and second jigs 210 and 220 when the welding means is inserted through the hole for welding 250, ) Can be welded.

As described above, when the case 110 and the spring 120 are aligned with the case 110 through the first and second jigs 190 and 210 and the second jig 200 and 220, The center of the case 110 and the center of the spring 120 can be placed on the first imaginary line parallel to the height direction of the vibration motor, as shown in FIGS. 1 and 3.

3 and 4, when the first hole H1 is formed at the center of the case 110, the center of the first hole H1 and the center of the second hole H2 are formed in the first virtual Can be placed on the line.

The guide pin 215 of the first jig 210 is inserted into the first hole H1 of the case 110 and the second hole H2 of the spring 120 for welding alignment, The first hole H1 of the case 110 may have the same shape as the second hole H2 of the spring 120. [

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. . Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

The case 110 includes a first hole H1,
The spring 120 has a second hole H2,
The mass (130) depression (131)
The magnet unit 140, the first magnet 141,
The second magnet 143 medium 145,
Adhesives (147) Brackets (150)
The first damper 160, the second damper 170,
The PCB 180 includes first jigs 190 and 210,
The first guide pin GP1, the second guide pin GP2,
The guide pins 215, the second jigs 200 and 220,
The guide groove (GG) fastening means (230)
The welding hole (250)
The coil (260)

Claims (8)

A case in which a first hole is formed around the center or at the center;
A spring formed at a center thereof with a second hole having a shape other than a circle and connected to an inner surface of the case;
A mass disposed so as to be closer to or away from the inner surface of the case so as to face the inner surface of the case;
A magnet portion inserted into a central region of the mass body; And
And a coil disposed between the mass body and the magnet unit and inserted into the magnet unit.
The method according to claim 1,
The magnet unit may include a first magnet and a second magnet sequentially disposed in the height direction of the vibration motor, and a second magnet disposed between the first magnet and the second magnet to connect the first magnet and the second magnet, / RTI >
The medium comprising a recessed area recessed towards the center of the medium,
And an adhesive filling the recessed region in the height direction connects the first magnet and the second magnet.
The method according to claim 1,
Wherein the center of the case and the center of the spring are placed on a first imaginary line parallel to the height direction of the vibration motor.
The method of claim 3,
Wherein the center of the first hole and the center of the second hole are placed on the first virtual line when the first hole is formed at the center of the case.
5. The method according to any one of claims 1 to 4,
When the first hole is formed at the center of the case,
And the first hole has the same shape as the second hole.
A first jig protruding from an inner side surface of the first guide pin inserted in at least one first hole formed around the center of the case of the vibration motor, the first guide pin surrounding the outer surface of the case; And
A second jig that is welded to the case and has a second guide pin inserted into a spring having a second hole having a shape other than a circle at its center,
And the cross-sectional shape of the second guide pin is the same as the shape of the second hole.
A first hole formed in the center of the case of the vibration motor and a guide pin inserted into a second hole formed in the center of the spring of the vibration motor welded to the case protrude from the inner side, Jig; And
And a second jig for pressing said spring during said welding,
Wherein the sectional shape of the guide pin is a shape other than a circle and is the same as the shape of the first hole and the second hole.
The method according to claim 6 or 7,
A welding hole is formed in the second jig,
Wherein a part of a region where the case and the spring are overlapped with each other and a region of the welding hole overlap each other when the first jig and the second jig are fastened together.

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