KR101583576B1 - Flat type vibration motor - Google Patents

Abstract

A flat vibration motor is disclosed. Since the flat vibration motor has parts of a bracket connected to and connected to a main board of the product and a part of the board exposed to the outside, the motor can be coupled to the main board of the product by an automated process. Thus, the productivity is improved. Since the substrate is positioned inside the through-hole of the bracket, the motor can be thinned / miniaturized by the thickness of the substrate.

Description

[0001] FLAT TYPE VIBRATION MOTOR [0002]

The present invention relates to a flat vibration motor.

1 is a perspective view of a conventional flat vibration motor, which will be described.

As shown in the figure, the support shaft 15 is fixed to the inside of the case 13 and the mutually coupled brackets 11. A rotor (not shown), which is rotatably installed on the support shaft 15 to generate vibration, is supported. A coil (not shown) is provided on the bracket 11 to rotate the rotor.

The coil is connected to the substrate 17 coupled to the bracket 11 to receive power from the battery of the product. One side of the substrate 17 is exposed to the outside of the case 13 and connected to one side of the lead wire 19 and the other side of the lead wire 19 is connected to the power terminal of the product.

In the conventional flat vibration motor, the lead wires 19 are manually connected to the power terminals of the product by soldering. Alternatively, a separate connector (not shown) is manually connected to the substrate 17 and an external power terminal in place of the lead wire 19. As a result, the productivity is lowered.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a flat vibration motor capable of improving productivity.

In order to accomplish the above object, according to the present invention, there is provided a flat vibration motor comprising: a case having a side plate forming an outer side and a sealing plate integrally formed on one end surface of the side plate; A bracket coupled to the other end surface of the side plate and having a through hole at the center thereof and coupled to the main board of the product; A substrate positioned within the through-hole; A connecting plate coupling the bracket and the substrate; A support shaft having one end and the other end supported by the sealing plate and the substrate, respectively; A rotor rotatably installed on the support shaft to generate vibration; And a stator connected to the substrate and operative with the rotor to rotate the rotor.

In the flat vibration motor according to the present invention, the portion of the bracket coupled to and connected to the main board of the product and the portion of the board are exposed to the outside, so that the motor can be coupled to the main board of the product by an automated process. Thus, the productivity is improved.

Since the substrate is positioned inside the through-hole of the bracket, the motor can be thinned / miniaturized by the thickness of the substrate.

Hereinafter, a flat vibration motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view of a flat vibration motor according to an embodiment of the present invention, FIG. 3 is a planar exploded perspective view of FIG. 2, FIG. 4 is an assembled perspective view of a bracket portion shown in FIG. It is a bottom perspective view.

As shown in the figure, a housing 110 having a case 111 and a bracket 115, which are coupled to each other to form a predetermined space therein, are provided.

Hereinafter, the face and the direction of the components are referred to as " upper surface and upper side ", and the lower surface and direction toward the lower side of the bracket 115 are referred to as " lower and lower sides ".

The case 111 has a circular side plate 112 forming an outer periphery and a sealing plate 113 integrally formed on the upper end surface of the side plate 112 to seal the upper surface of the side plate 112, .

The bracket 115 includes a ring-shaped support frame 116 having a through hole 116a at the center thereof, a support frame 117 bending upward from the outer circumferential surface of the support frame 116 toward the sealing plate 113, An upper end surface of the contact plate 118 and an upper end surface of the side plate 112. The upper end surface of the contact plate 118 protrudes outward from the outer surface of the contact strip 118, And has a plurality of engaging pieces 119 which are bent and joined to the lower outer peripheral surface of the side plate 112.

The lower end surface of the side plate 112 is formed with an insertion groove 112a through which the engagement piece 119 is inserted and bent. The insertion groove 112a and the engaging piece 119 indicate positions where the case 111 and the bracket 115 are coupled to each other.

The bottom surface of the side plate 112 and the top surface of the contact surface 118 may be joined together by an adhesive or by welding.

The lower surface of the receiving frame 116 of the bracket 115 facing the lower outer side of the case 111 is coupled to the main board 210 of the product. The lower surface of the support frame 116 is plated with Sn and soldered to the main board 210 of the product. Since the lower surface of the support frame 116 is exposed to the outside, it can be mounted on the main board of the product by an SMT (Surface Mounting Technology) which is an automated process.

The substrate 120 is inserted into the inner circumferential surface of the bracket 115 and the bracket 115 and the substrate 120 are coupled to each other through the connecting plate 130.

In detail, the substrate 120 is formed in a circular shape so that its outer peripheral surface is in contact with the inner peripheral surface of the receiving frame 116 of the bracket 115.

The lower surface of the connecting plate 130 is adhered to the upper surface of the receiving frame 116 of the bracket 115 facing the inside of the case 111 and the lower surface of the connecting plate 130 is bonded to the lower surface of the case 111 Bonded to the upper surface of the substrate 120 facing inward. Accordingly, the bracket 115 and the substrate 120 are coupled by the connecting plate 130.

An engaging groove 116b and an engaging projection 121 are formed on the inner peripheral surface of the receiving frame 116 of the bracket 115 and the outer peripheral surface of the substrate 120. [ The coupling groove 116b and the coupling protrusion 121 help the substrate 120 to be coupled to the predetermined portion of the bracket 115 and prevent the substrate 120 from rotating inside the bracket 115 .

The upper end side and the lower end side of the support shaft 140 are inserted and supported in the sealing plate 113 and the substrate 120 of the case 111, respectively. A support tube 113a and a support groove 123 are formed in the sealing plate 113 and the substrate 120 so as to respectively support the upper end side and the lower end side of the support shaft 140 respectively.

The reinforcing ring 150 is coupled to the outer peripheral surface of the support tube 113a so that the support shaft 140 is firmly supported on the support tube 113a. The reinforcing ring 150 contracts the support tube 113a such that the inner circumferential surface of the support tube 113a is in close contact with the outer circumferential surface of the support shaft 140. [

A bearing 160 is rotatably mounted on the outer circumferential surface of the support shaft 140 and a rotor 170 is coupled to the outer circumferential surface of the bearing 160 to rotate integrally with the bearing 160. The rotor 170 generates vibration while rotating.

The rotor 170 includes a rotor yoke 171 having a center portion coupled to the outer circumferential surface of the bearing 160, a ring-shaped magnet 173 coupled to a bottom edge portion of the rotor yoke 171 facing the bracket 115, And an arc-shaped weight 175 coupled to the upper surface side of the rotor yoke 171 facing the sealing plate 113.

A coupling pipe 171a coupled to the outer circumferential surface of the bearing 160 protrudes from the central portion of the rotor yoke 171 for firm coupling between the rotor 170 and the bearing 160. [ The lower end surface of the bearing 160 facing the bracket 115 is formed with an outer peripheral surface on which a lower end surface of the coupling pipe 171a is caught. The rotor 170 including the rotor yoke 171 does not fall to the lower side of the bearing 160 because the coupling pipe 171a is caught by the latching frame 161. [

Shaped projecting piece 171b corresponding to the weight 175 is formed on the outer circumferential surface of the rotor yoke 171 to which the weight 175 is coupled and the weight 175 is engaged with the projecting piece 171b. Therefore, since the weight 175 rotates away from the center of rotation, a large vibration force can be obtained.

A washer 165 is fixed to the outer peripheral surface of the support shaft 140 between the substrate 120 and the bearing 160. The washer 165 functions to prevent the bearing 160, which flows along the support shaft 140, from being damaged by the impact.

A coil 181 serving as a stator is coupled to the upper surface of the connection plate 130 and lead wires of the coil 181 are connected to the positive and negative inner connection terminals 125a and 125b formed on the upper surface of the substrate 120 Respectively. The positive (+) inner connection terminal 125a is formed on the lower surface of the substrate 120 and is connected to the positive (+) power supply terminal 212a of the main substrate 210 of the product. And the negative internal connection terminal 125b is connected to the bracket 115 soldered to the negative power terminal 212b of the main board 210 of the product. The (+) external connection terminal 127a of the substrate 120 and the (+) power source terminal 212a of the main substrate 210 of the product are formed in a ring shape.

That is, the (+) and (-) inner connection terminals 125a and 125b of the substrate 120 are connected to the (+) outer connection terminal 127a and the bracket 115 of the substrate 120, And the bracket 115 are respectively connected to the positive and negative power terminals 212a and 212b of the main board 210 of the product by soldering.

Since the substrate 120 and the bracket 115 are provided separately and are coupled by the connecting plate 130, the (-) inner connecting terminal 125b of the substrate 120 and the bracket 115 are connected to each other.

To this end, the bracket 115 is provided as a conductor, and a portion where the bracket 115 and the substrate 120 are in contact with each other is connected by soldering. Therefore, the bracket 115 and the negative inner connection terminal 125b are connected.

When the power of the product is supplied to the coil 181 through the bracket 115 and the substrate 120, the rotor 170 rotates due to the action of the coil 181 and the magnet 173, .

The bracket 115 and the substrate 120 are connected to each other at a boundary portion between the bracket 115 and the substrate 120, that is, at a portion of the connection plate 130 corresponding to a portion where the bracket 115 and the substrate 120 are in contact with each other. A solder ball 132 is formed. The bracket 115 also functions as a ground terminal.

An IC (Integrated Circuit) 185 is connected to the upper surface of the substrate 120 and a control terminal 129 connected to the IC 185 and connected to the main substrate 210 of the product. The IC 185 rotates the rotor 170 in a proper direction by a signal transmitted from the main board 210 of the product to the control terminal 129. [

Since the bottom surface of the bracket 115 coupled to and connected to the main substrate of the product and the bottom surface of the substrate 120 are exposed to the outside, Can be combined.

Since the substrate 120 is positioned inside the through hole 116a of the bracket 115, the motor can be made thinner / smaller by the thickness of the substrate 120. [

A cogging plate 190 is coupled to the upper surface of the substrate 120. The cogging plate 190 prevents the rotor 170 from stopping at a point where the torque due to the electromagnetic force generated by the magnets 173 and the coils 181 is zero so that the motor is stably driven.

The cogging plate 190 includes a ring-shaped body 191 which surrounds the support shaft 140 and is fixed to the outer peripheral surface of the support shaft 140, a plurality of "T" shaped arms 191 formed radially from the outer peripheral surface of the body 191, (193).

At this time, the inner circumferential surface of the connection plate 130 is formed with an installation groove 134 in which the end of the arm 193 is positioned.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Of course.

1 is a perspective view of a conventional flat vibration motor.

2 is a sectional view of a flat vibration motor according to an embodiment of the present invention;

FIG. 3 is a planar exploded perspective view of FIG. 2; FIG.

4 is a perspective view of the bracket shown in FIG. 2;

5 is a bottom perspective view of Fig. 3;

Description of the Related Art [0002]

111: Case 115: Bracket

120: substrate 130: connecting plate

140: support shaft 150: reinforcing ring

160: Bearing 181: Coil

185: IC 190: caulking plate

Claims (25)

A case having a side plate forming an outer side and a sealing plate formed integrally with one end face of the side plate; A bracket coupled to the other end surface of the side plate and having a through hole at the center thereof and coupled to the main board of the product; A substrate positioned within the through-hole; A connecting plate coupling the bracket and the substrate; A support shaft having one end and the other end supported by the sealing plate and the substrate, respectively; A rotor rotatably installed on the support shaft to generate vibration; And And a stator connected to the substrate and operative with the rotor to rotate the rotor, And an engaging groove and an engaging projection are formed on an inner circumferential surface of the through hole of the bracket and an outer circumferential surface of the substrate, respectively. The method according to claim 1, The bracket includes a ring-shaped support frame whose outer surface facing the outside of the case is coupled to the main board of the product, a support frame formed by bending the outer surface of the support frame toward the seal plate, And an engaging piece formed to be bent and formed to protrude outward from an outer circumferential surface of the contact frame and to be bent on the side plate. 3. The method of claim 2, And the other end surface of the side plate is formed with an insertion groove into which the engagement piece is inserted and bent. The method according to claim 1, Wherein the stator is a coil and is coupled to the connection plate and connected to the substrate. 5. The method of claim 4, (+) And (-) inner connection terminals to which the lead wire of the coil is connected are formed on the surface of the substrate facing the inside of the case. 6. The method of claim 5, (-) inner connection terminal of the board, and a surface facing the outside of the case is solder-connected to a negative power terminal of the main board of the product, (+) Outer connection terminal connected to a positive (+) power supply terminal of the main board of the product and connected to the (+) inner connection terminal of the substrate on the surface of the substrate facing the outside of the case. The method according to claim 6, And a surface of the bracket to be soldered to a negative power terminal of the main board of the product is plated with Sn. The method according to claim 6, And the bracket and the substrate are connected by soldering. 9. The method of claim 8, And a solder ball for soldering the bracket and the substrate is formed at a portion of the connection plate corresponding to a boundary portion between the bracket and the substrate. The method according to claim 1, And an IC (Integrated Circuit) is connected to the surface of the substrate facing the inside of the case. 11. The method of claim 10, And a control terminal connected to the IC and connected to the main board of the product is formed on the surface of the substrate facing the outside of the case. delete The method according to claim 1, Wherein the connecting plate is formed in a ring shape and a surface on an outer circumferential surface side facing the bracket is coupled to a surface of the bracket facing the inside of the case and a surface on the inner circumferential surface side is coupled to a surface of the substrate facing the inside of the case Flat vibration motor. The method according to claim 1, A bearing is interposed between the support shaft and the rotor, And the bearing rotates integrally with the rotor. 15. The method of claim 14, The rotor includes a rotor yoke coupled to an outer peripheral surface of the bearing at its center, a ring-shaped magnet coupled to the rotor yoke and facing the stator, and a counterweight coupled to the rim of the rotor yoke. motor. 16. The method of claim 15, Wherein the rotor yoke has a coupling pipe coupled to an outer circumferential surface of the bearing. 17. The method of claim 16, And an end surface of the coupling pipe is engaged with an outer peripheral surface of the end portion of the bearing facing the bracket. 15. The method of claim 14, And a washer provided between the substrate and the bearing. 16. The method of claim 15, Wherein an arc-shaped protruding piece corresponding to the weight is protruded outward on the outer circumferential surface of the rotor yoke, And the weight is coupled to the projecting piece. The method according to claim 1, And a support tube and a support groove, into which the one end side and the other end side of the support shaft are inserted, are formed correspondingly to the sealing plate and the substrate. 21. The method of claim 20, And a reinforcing ring is attached to an outer circumferential surface of the support tube to closely contact the support tube with the support shaft. The method according to claim 1, And a cogging plate is coupled to the substrate. 23. The method of claim 22, Wherein the cogging plate includes a ring-shaped body surrounding the support shaft, and a plurality of arms formed radially from an outer circumferential surface of the body. 24. The method of claim 23, And the arm portion is T-shaped. 24. The method of claim 23, Wherein the connection plate is formed in a ring shape, and an inner circumferential surface of the inner circumferential surface is formed with an insertion groove in which an end of the arm portion is located.

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