KR101360937B1 - Flat type vibration motor - Google Patents

Abstract

A flat vibration motor is disclosed. The flat vibration motor has a lower substrate connected to the substrate of the product on the bottom of the lower plate of the case, so that it can be soldered to the product in an automated process. In addition, since the lower plate of the case is directly coupled to the product, the vibration force generated in the flat vibration motor is transmitted to the product without attenuation. In addition, since the lower and lower substrates of the case are coupled to the product, the bonding force with the product is improved.

Description

[0001] FLAT TYPE VIBRATION MOTOR [0002]

1 is a sectional 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;

3 is a perspective view of the upper substrate, lower case and lower substrate shown in FIG.

Figure 4 shows that the flat vibration motor according to an embodiment of the present invention is installed on the substrate of the product.

Description of the Related Art [0002]

110: case 120: support shaft

150: upper substrate 180: lower substrate

The present invention relates to a flat vibration motor.

1 is a cross-sectional view of a conventional flat vibration motor, which will be described.

As shown, the upper case 11 and the lower case 13 coupled to each other are provided, and the one end side and the other end side of the support shaft 15 are supported by the upper case 11 and the lower case 13, respectively. do.

The substrate 17 is fixed to the central portion side of the lower case 13, and one side of the brush 19 is installed and connected to the substrate 17. Then, a ring-shaped magnet 21 serving as a stator is provided at the edge of the lower case 13, and an eccentric rotor is rotatably installed at the support shaft 15.

The rotor is formed on the eccentric rotating magnetic substrate 23a, the coil 23b provided on the upper surface of the rotating magnetic substrate 23a, the lower surface of the rotating magnetic substrate 23a, and the commutator 23c in contact with the brush 19, A weight member 23e provided on the upper surface of the rotating magnetic substrate 23a and a molding member 23e for integrally connecting the rotating magnetic substrate 23a, the coil 23b and the weight 23d integrally are provided.

The lead wire 17a is connected to the substrate 17 to be connected to a power supply terminal of a product such as a mobile communication device.

Thus, when the battery power of the product is supplied to the coil 23b through the lead wire 17a → brush 19 → commutator 23c, the electromagnetic force is formed between the coil 23b and the magnet 19. The rotor rotates to generate vibration.

In the conventional flat vibration motor as described above, the lead wire 17a is soldered to the power terminal of the product, or a separate connector (not shown) is connected to the substrate 17 and the power terminal of the product to connect the flat vibration motor. Connect to the product. Because of this, there is a disadvantage that the flat vibration motor can not be installed and connected to the product by an automated process.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to provide a flat vibration motor that can be installed in the product by an automated process.

Flat vibration motor according to the present invention for achieving the above object, the case having an upper case and a lower case coupled to each other; A support shaft having one end side and the other end side supported on the upper case and the lower case, respectively; An upper substrate coupled to an upper surface of the lower case; A stator coupled to an upper surface of the lower case; A rotor rotatably installed on the support shaft and generating vibration while rotating by action with the stator; It is coupled to the lower surface of the lower case is connected to the upper substrate, and includes a lower substrate connected to the power terminal formed on the substrate of the product.

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 upper substrate, lower case and lower substrate shown in Figure 2, Figure 4 is a flat type according to an embodiment of the present invention The vibration motor is shown installed on the substrate of the product.

As shown, a case 110 having an upper case 111 and a lower case 115 coupled to each other to form a predetermined space therein is provided. The upper case 111 has an upper plate and a side plate, and the lower case 115 has a lower plate and a side plate.

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

The bearing 130 is rotatably installed eccentric rotor 140 for generating a vibration. The rotor 140 includes a rotor magnetic substrate 141, a coil 143 connected to an upper surface of the rotor magnetic substrate 141, a commutator 145 and a rotor magnetic substrate 141 connected to a lower surface of the rotor magnetic substrate 141. It is provided on the upper surface of the () has a metal weight 147 and the molding member 149 made of a synthetic resin integrally forming the rotor board 141 and the coil 143 and the weight 147 to generate a large vibration .

The upper substrate 150 is fixed to the upper surface of the lower plate 115, and the brush 160 is installed on the upper substrate 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 upper substrate 150. Then, the ring-shaped magnet 170 is coupled to the upper edge portion of the lower case 115 so as to surround the support shaft 120. The magnet 170 is a stator.

Thus, when the battery power of the product in which the flat vibration motor is installed is supplied to the coil 143 through the brush 160 → the commutator 145, the rotor is caused by an electromagnetic force formed between the coil 143 and the magnet 170. The vibration of the 140 is generated.

In the flat vibration motor according to the present embodiment, the lower substrate 180 is coupled to the lower surface of the lower case 115, and the lower substrate 180 is soldered to the power supply terminal 212 formed on the substrate 210 of the product. do. In this case, the lower surface of the lower substrate 180 is formed with a terminal 182 soldered to the power supply terminal 212, the upper surface is formed with a terminal (not shown) to which the upper substrate 150 is connected.

The terminal 182 of the lower substrate 180 has an inner terminal 182a and an outer terminal 182b spaced apart from the inner terminal 182a to be coupled to the power terminal 212 of the substrate 210 of the product. All. At this time, the inner terminal 182a is circular, the outer terminal 182b is provided in a ring shape to surround the inner terminal 182a. This is to assemble the terminal 182 of the lower substrate 180 in any direction regardless of the direction of the power supply terminal 212 of the substrate 210 of the product. Therefore, automation is possible.

A lower groove 115 has a seating groove 117 on which the lower substrate 180 is seated. The lower case 115 reduces the height of the flat vibration motor by the thickness of the lower substrate 180 and reduces the height of the lower case 115. This is to fix the lower surface of the lower plate by soldering to the substrate 210 of the product.

That is, the lower surface of the lower plate 115 of the outer side of the lower substrate 180 is soldered to the substrate 210 of the product.

Reference numeral 184 of FIG. 4 is a portion at which the lower substrate 180 is soldered to the terminal 182 and the lower case 115 to the substrate 210 of the product.

Therefore, in the flat vibration motor according to the present embodiment, since the lower plate of the lower case 115 is directly coupled to the product, all of the vibration force generated is transmitted to the product. In addition, since the lower plate and the lower substrate 180 of the lower case 115 are coupled to the product, the bonding force with the product is improved.

A through hole 119 is formed in the lower plate of the lower case 115, and a connection terminal 152 is formed in the upper substrate 150 to be connected to the lower substrate 180 through the through hole 119.

As described above, in the flat vibration motor according to the present invention, since the lower substrate connected to the substrate of the product is coupled to the lower surface of the lower plate of the case, the flat vibration motor may be soldered to the product by an automated process.

In addition, since the lower plate of the case is directly coupled to the product, the vibration force generated in the flat vibration motor is transmitted to the product without attenuation.

In addition, since the lower and lower substrates of the case are coupled to the product, the bonding force with the product is improved.

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.

Claims (6)

A case having an upper case and a lower case coupled to each other; A support shaft having one end side and the other end side supported on the upper case and the lower case, respectively; An upper substrate coupled to an upper surface of the lower case; A stator coupled to an upper surface of the lower case; A rotor rotatably installed on the support shaft and generating vibration while rotating by action with the stator; A lower substrate coupled to a lower surface of the lower case and connected to the upper substrate, and connected to a power terminal formed on a substrate of the product; Through holes are formed in the lower case, And the upper substrate is provided with a connection terminal connected to the lower substrate through the through hole. The method of claim 1, Flat vibration motor formed on the lower surface of the lower case is provided with a mounting groove for mounting the lower substrate. 3. The method according to claim 1 or 2, The lower surface of the lower case is a flat vibration motor coupled to the substrate of the product. delete The method of claim 1, And a lower surface of the lower substrate provided with an inner terminal connected to a power supply terminal of the substrate of the product and an outer terminal spaced apart from the inner terminal. 6. The method of claim 5, The outer terminal is a flat vibration motor formed in a shape surrounding the inner terminal.

Images