KR20100008153A - Flat type vibration motor - Google Patents

Abstract

PURPOSE: A flat vibration motor is provided to be installed on a product through an automated process by soldering and connecting a substrate to the product and soldering and coupling a bracket with the product. CONSTITUTION: A bracket(111) and a case(115) are connected to each other. A support shaft(120) respectively supports a bracket and a case. A stator(150) is coupled on one side of the bracket faced to the case. A rotor(140) is pivotally installed on the support shaft and generates the vibration while rotating. A substrate(160) is combined with the bracket. A protrusion is extended to the outside of the case. A groove is formed on one side of the bracket to mount the substrate.

Description

Flat Vibration Motors {FLAT TYPE VIBRATION MOTOR}

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

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

3 is a perspective view of the housing and the substrate shown in FIG.

Explanation of symbols on the main parts of the drawings

110 housing 111 bracket

115: case 120: support shaft

130: bearing 140: rotor

150: stator 160: substrate

170: Brush 200: Product

The present invention relates to a flat vibration motor.

Today, electronic parts are installed on substrates using surface mount technology (SMT), which enables automated processes to reduce costs.

In addition, the research and development of the motor that can be installed in the substrate, etc. by the surface mounting technology is in full swing, this will be described with reference to FIG.

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

As shown, the case 11 and the bracket 13 coupled to each other are provided. A shaft 15 is supported and fixed to the case 11 and the bracket 13, and an eccentric rotor 17 is rotatably installed on the upper outer peripheral surface of the shaft 15.

On the upper surface of the bracket 13, an opposing ring-shaped magnet 19 having a gap with the rotor 17 is fixed via the acrylic adhesive sheet 21. A pair of brushes 23 are installed inside the magnet 19 to be in sliding contact with the commutator 17a of the rotor 17, and the brush 23 is a flexible power supply sheet adhered to an upper surface of the bracket 13. 25) to receive external power.

The flexible power supply sheet 25 is folded back from the portion of the bracket 13 protruding to the outside of the housing 11 and bonded to the lower surface of the bracket 13, and the portion bonded to the lower surface of the bracket 13 is a printed wiring board ( 30) is soldered in a reflow process.

In the conventional motor as described above, since the flexible power supply sheet 25 is adhered to the lower surface of the bracket 13, the motor is thickened by the thickness of the flexible power supply sheet 25 adhered to the lower surface of the bracket 13. There is this. In addition, the upper surface of the bracket 13 is formed flat, and the magnet 19 is coupled to the upper surface of the bracket 13 via the acrylic adhesive sheet 21, there is a disadvantage that the motor becomes thicker. In order to make the thickness of the motor thinner, the thickness of the rotor 17 or the magnet 19 should be made thinner but this has a problem in that torque is reduced.

The present invention has been made to solve the above problems of the prior art, an object of the present invention to provide a flat vibration motor that can be thinned without affecting the torque.

Flat vibration motor according to the present invention for achieving the above object, the bracket and the case coupled to each other; A support shaft having one end side and the other end side supported on the bracket and the case, respectively; A stator coupled to one surface of the bracket facing the case; A rotor rotatably installed on the support shaft to generate vibration while acting with the stator; It includes a substrate coupled to the bracket,

One side of the bracket is formed with a protrusion extending outwardly of the case and formed to be short to the case side,

One side of the substrate is coupled to surround one surface and the other surface of the protrusion.

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

2 is a cross-sectional view of a flat vibration motor according to an embodiment of the present invention, Figure 3 is a perspective view of the housing and the substrate shown in FIG.

As shown, the housing 110 is provided. The housing 110 is coupled to each other to form a predetermined space therein and has a case 111 located in a relatively vertical upper side and a bracket 115 located in a vertical lower side.

In referring to the surface and the direction of the other components including the case 111 and the bracket 115, the upper surface and the direction toward the vertical direction of the housing 110 is referred to as the "upper surface and the upper side", the surface and direction toward the lower side. Referred to as "lower and lower side".

The upper end side and the lower end side of the support shaft 120 are supported by the case 111 and the bracket 115, respectively, to be perpendicular to the housing 110, and the bearing 130 is provided on the outer peripheral surface of the upper side of the support shaft 120. It is rotatably installed.

In the bearing 130, an eccentric rotor 140 that generates vibration is rotatably installed, and the rotor 140 includes a rotating magnetic substrate 141, a coil 143, a commutator 145, and a weight 147. And a support member 149.

The rotating magnetic substrate 141 is formed in a substantially semi-circular plate shape and is installed in a form surrounding the bearing 130. The coil 143 is connected to the upper surface of the rotating magnetic substrate 141, and the commutator 145 is formed on the lower surface of the rotating magnetic substrate 141 to be electrically connected to the coil 143.

The weight 147 for generating a large vibration force is made of a metal and is installed on the upper surface of the rotating magnetic substrate 141, the support member 149 is a rotary magnetic substrate 141, the coil 143 and the weight 147 It is integrally formed and coupled to the support shaft 120. The support member 149 is made of synthetic resin and integrally formed on the rotating magnetic substrate 141, the coil 143, and the weight 147 by injection.

The substrate 150 is adhesively fixed to the upper surface of the bracket 111 substantially at the center portion, and the ring-shaped stator 160 formed of the magnet is fixed to the upper edge portion to surround the support shaft 120.

The lower side of the brush 170 is connected to the upper surface of the substrate 150, and the upper end side of the brush 170 is in elastic contact with the commutator 145.

Thus, when the battery (not shown) side power of the product 200 is supplied to the coil 143 through the substrate 150 → brush 170 → commutator 145, the stator 160 and the rotor 140 By the action, the rotor 140 rotates to generate vibration.

The flat vibration motor according to the present embodiment is configured to install the flat vibration motor in the product 200 by Surface Mount Technology (SMT) which is an automated process.

In detail, at one side of the bracket 115, a protrusion 116 protruding outward from the case 111 is formed, and the protrusion 116 is formed to be stepped toward the upper surface side of the case 111. Therefore, a difference corresponding to the height H of the cut-off portion occurs between the lower surface of the bracket 115 and the lower surface of the protrusion 116.

In addition, one side portion 151 of the substrate 150 is exposed to the outside of the case 111 and is coupled while covering the upper and lower surfaces of the protrusion 116. The thickness t of the substrate 150 is approximately equal to the height H of the cut portion, and when one side portion 151 of the substrate 150 is coupled to the upper and lower surfaces of the protrusion 116, The lower surface of the bracket 115 and the surface of one side portion 151 of the substrate 150 coupled to the lower surface of the protrusion 116 are located on the same plane.

Thus, by soldering the lower surface of the bracket 115 to the product 200 by surface mounting technology, the one side portion 151 of the substrate 150 bonded to the lower surface of the protrusion 116 is soldered to the product 200 to be electrically connected. Connect with

Solder portions 117 and 153 are respectively formed on one side portion 151 of the substrate 150 coupled to the bottom surface of the bracket 115 and the bottom surface of the protrusion 116. .

The substrate 150 is bonded to the bracket 115 and the protrusion 116 by adhesive or soldering.

In the flat vibration motor according to the present invention, since the substrate 150 connected to the product 200 is coupled to the protrusion 116 formed to be short with the bracket 115, the thickness of the flat vibration motor and the thickness of the internal components are increased. It is not affected by the substrate 150. Therefore, the thickness can be reduced without affecting the torque.

An upper surface of the bracket 115 is recessed toward the lower surface to form a settled groove 118 in which the substrate 150 is placed. Therefore, further thinning is possible. When the substrate 150 is placed in the settled groove 118, the lower surface of the inner circumferential surface side of the stator 160 covers the edge portion side of the substrate 150.

The substrate 150 should be easily bent so that the substrate 150 is easily contact fixed to the bottom surface of the protrusion 116. To this end, the substrate 150 is provided with a flexible printed circuit board (FPCB).

As described above, the flat vibration motor according to the present invention protrudes one side of the bracket to the outside of the case, and forms a protruding portion to the case side. Then, one side of the substrate is bonded in the form of enclosing the protruding portion of the bracket, by soldering and connecting the substrate to the product by the surface mounting technology and the bracket to the product by soldering. Therefore, the flat vibration motor can be installed in the product by an automated process without affecting the thickness of the flat vibration motor. Therefore, thickness can be reduced without affecting the torque.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (8)

Mutually coupled brackets and cases; A support shaft having one end side and the other end side supported on the bracket and the case, respectively; A stator coupled to one surface of the bracket facing the case; A rotor rotatably installed on the support shaft to generate vibration while acting with the stator; It includes a substrate coupled to the bracket, One side of the bracket is formed with a protrusion extending outwardly of the case and formed to be short to the case side, One side of the substrate is coupled to the flat vibration motor surrounding one side and the other surface of the protrusion. The method of claim 1, A flat vibration motor having the same height as the shortened portion and the thickness of the substrate. The method of claim 2, Flat vibration motor formed in one surface of the bracket is formed recessed to the other surface side is settled groove in which the substrate is placed. The method of claim 3, wherein The other surface of the bracket is coupled to the product, one side portion of the substrate coupled to the other surface of the protrusion is a flat vibration motor electrically connected to the product. The method of claim 4, wherein One side portion of the substrate coupled to the other surface of the bracket and the other surface of the protruding portion is a flat vibration motor each formed with a soldering portion that is respectively coupled and electrically connected to the product. The method of claim 1, And the substrate is bonded or soldered to the bracket and the protrusion. The method according to any one of claims 1 to 6, The substrate is a flat vibration motor, FPCB (Flexible Printed Circuit Board). The method of claim 1, Flat substrate vibration motor is installed on the substrate is connected to the brush for transmitting the power of the product side to the rotor side.

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