KR20080113641A - Flat type vibration motor - Google Patents

Abstract

A plate type vibration motor is provided to realize miniaturization and integration of product by contacting the side of a case, of which height is low than width of the case to the product. A plate type vibration motor includes a case(110), a supporting shaft(120), a PCB(150), a stator, a rotor(140), a terminal(180), and the supporting member(190). The case has the upper case(111) and lower case(115) and they are integrated. A flange protruded to the outer side is formed at the lower case and a supporting shaft is supported by the end of upper case and lower case respectively. The PCB is combined in the lower case and flange.

Description

Flat Vibration Motors {FLAT TYPE VIBRATION MOTOR}

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

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

3 is a cross-sectional view taken along the line “A-A” of FIG. 2.

4 is an exploded perspective view of main parts of FIG. 3;

Explanation of symbols on the main parts of the drawings

110: case 116: flange

120: support shaft 130: bearing

150: FPCB 180: terminal

190: support member

The present invention relates to a flat vibration motor.

Products such as a mobile communication device installed to generate a vibration that is an incoming signal includes a flat vibration motor or a bar vibration motor.

The flat vibration motor has a substrate and a coil connected to the substrate. The board is connected to the power terminal of the product through a lead wire or connector to transfer the power of the product to the coil. That is, in order to connect and install the flat vibration motor to the product, it is necessary to solder the lead wires or connect the connector, and thus, the installation process is complicated.

In order to solve the above-mentioned disadvantages, a flat vibration motor has been developed, in which a terminal contacting the product is formed to protrude to the outside, and the terminal can be connected to the power supply terminal of the product by an automated process.

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

As shown, a circular case 11 is provided, and a substrate (not shown) and a coil (not shown) connected to the substrate are provided inside the case 11.

One side of the terminal 13 is connected to the substrate, and the other side of the terminal 13 protrudes above the upper surface of the case 11. In addition, the support member 15 supporting the terminal 13 is coupled to the side surface of the case 11. Thus, when the upper and lower surfaces of the case 11 and the support member 15 are placed in contact with the product, the terminal 13 protruding upward of the case 11 is brought into contact with the power supply terminal of the product. That is, the inside of the product is configured such that the terminal 13 protruding to the upper side of the case 11 is connected to the power terminal of the product when the upper or lower surface of the case 11 is installed in contact with the inside of the product. .

However, while the conventional flat vibration motor as described above is easy to assemble with the product, the support member 15 having a relatively large size is required to support the terminal 13 protruding upward of the case 11. However, there is a disadvantage that the space utilization of the product in which the motor is installed is reduced.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a flat vibration motor that is easy to install and requires a relatively small installation space.

Flat vibration motor according to the present invention for achieving the above object, has a top case and a lower case coupled to each other, one side of the lower case is formed with a flange protruding outward; A support shaft having one end side and the other end side supported on the upper case and the lower case, respectively; A printed circuit board (PCB) coupled to the lower case and the flange; A stator fixed to the lower case; A rotor rotatably installed on the support shaft and generating vibration while rotating by action with the stator; One side is fixed to the PCB and the other side of the terminal protruding to the outside of the lower case; And a support member coupled to the flange to support the terminal.

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

Figure 2 is a perspective view of a flat vibration motor according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along the line "A-A" of FIG.

As shown, a case 110 having a circular upper case 111 and a circular lower case 115 coupled to each other to form a predetermined space therein is provided. The lower case 115 is formed with a flange 116, the flange 116 is formed to extend from the lower surface of the lower case 115 to protrude outwards.

One end side and the other end side of the support shaft 120 are respectively supported on the upper surface of the upper case 111 and the lower surface of the lower case 115, and the bearing 130 is fixed to the support shaft 120.

In the bearing 130, an eccentric rotor 140 that generates vibration is rotatably installed. The rotor 140 is installed on the upper surface of the substrate 141, the coil 143 connected to the upper surface of the substrate 141, the commutator 145 formed on the lower surface of the substrate 141, and the upper surface of the substrate 141. It has a metal weight 147 and the substrate 141 and the molding member 149 made of synthetic resin to form the coil 143 and the weight 147 integrally.

The printed circuit board (PCB) 150 is fixed to the lower case 115 and the flange 116, and the brush 160 is installed on the PCB 150. One side of the brush 160 is in contact with the commutator 145 of the rotor 140, the other side is fixed to the FPCB 150 is connected. At this time, the PCB 150 is preferably provided with a flexible printed circuit board (FPCB).

The inner edge portion of the lower case 115 is coupled to the ring-shaped magnet 170 to function as a stator in a form surrounding the support shaft 120. In addition, one side of the terminal 180 is fixedly connected to a portion of the FPCB 150 coupled to the flange 116. The other side of the terminal 180 protrudes out of the case 110 to be a product such as a mobile communication device. It is connected in contact with the power supply terminal of.

Thus, when the power of the battery of the product is supplied to the coil 143 through the terminal 180 → brush 160 → commutator 145, it is rotated by the electromagnetic force formed between the coil 143 and the magnet 170. The electron 140 rotates to generate vibration.

The support member 190 supporting the terminal 180 is coupled to the case 110.

The flat vibration motor according to the present embodiment is installed by contacting the side of the case 110 to the product so as to be installed in a relatively narrow installation space, and protrudes the terminal 180 to the outside of the side of the case 110 It is configured to be in contact with the power terminal of the product

This will be described with reference to FIGS. 2 to 4. 4 is an exploded perspective view illustrating main parts of FIG. 3.

As shown, the support member 190 is coupled to the flange 116. Among the portions of the support member 190, the bottom and the inner portion of the support member 190 to which the flange 116 is coupled are formed as space portions, and the space portion of the support member 190 has a lower surface at the top surface of the support member 190. The support protrusion 191 is formed toward.

On both sides of the flange 116, the engaging pieces 116a protrude upward. That is, the coupling piece 116a is formed to protrude from the lower side of the support member 190 toward the upper side, and is in contact with the side surface of the support protrusion 191, the upper end side is coked with the upper surface of the support protrusion 191. Due to this, the support member 190 is coupled to the case 110.

Then, the end side of the FPCB 150 located in the flange 116 is bent and supported by the side of the support protrusion 191 which the coupling piece 116a does not contact.

A communication hole 193 is formed at a portion of the support member 190 positioned outside the flange 116 so as to communicate the space portion of the support member 190 with the outside of the support member 190, and one side of the terminal 180 is formed. The solder is fixed to a portion of the FPCB 180 that is bent through the communication hole 193.

On one side of the support member 190 in which the communication hole 193 is formed, a seating groove 195 in which the center side of the terminal 180 is seated is formed, and the other side of the terminal 180 is outside of the seating groove 195. It protrudes and is in contact with the power supply terminal of the product. That is, when the case 110 is erected and the side surface of the case 110 is installed in contact with the product, the terminal 180 is in contact with the power supply terminal of the product.

The support member 190 is provided in a hexahedral shape, the lower surface is in contact with the flange 116, the side in which the seating groove 195 is not formed is formed in a curved surface corresponding to the side of the case 110, the case 110 It is preferable to be in contact coupling to one side of the side.

As described above, in the flat vibration motor according to the present invention, a terminal connected to the power terminal of the product protrudes outward from the side of the case. Therefore, since the side surface of the case having a relatively lower height than the width of the case can be installed in contact with the product, a relatively small installation space is required. Therefore, miniaturization and integration of the product in which the flat vibration motor is installed is possible.

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)

A case having an upper case and a lower case coupled to each other, and having a flange protruding outward from one side of the lower case; A support shaft having one end side and the other end side supported on the upper case and the lower case, respectively; A printed circuit board (PCB) coupled to the lower case and the flange; A stator fixed to the lower case; A rotor rotatably installed on the support shaft and generating vibration while rotating by action with the stator; One side is fixed to the PCB and the other side of the terminal protruding to the outside of the lower case; And a support member coupled to the flange to support the terminal. The method of claim 1, Flat vibration motor is formed on at least one side of the flange coupling piece for fixing the support member to the flange. The method of claim 2, The PCB is a flat vibration motor is a flexible printed circuit board (FPCB). The method of claim 3, wherein An end side of the FPCB positioned in the flange is bent and supported in contact with the support member. The method of claim 4, wherein Communication portions for communicating the outer space of the support member and the internal space of the support member is formed in the portion of the support member located outside the flange, One side of the terminal is a flat vibration motor is fixed to the soldering portion of the FPCB bent through the communication hole. The method of claim 5, wherein One side of the support member formed with the communication hole is formed with a mounting groove in which the center portion of the terminal is seated, the other side of the terminal flat vibration motor protruding to the outside of the mounting groove. The method of claim 1, The side of the support member is a flat vibration motor formed to correspond to the side of the case. The method of claim 1, One side is connected to the rotor side and the other side is a flat vibration motor provided with a brush fixed to the PCB.

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