KR20030087750A - Vibration motor - Google Patents

Abstract

PURPOSE: A power supply structure is provided to reduce assembly and manufacturing procedures, while minimizing defects of product by preventing a disconnection between the case and power terminal. CONSTITUTION: A flat vibration motor(100) comprises a flexible substrate(20) which is extended, wherein the flexible substrate has a pair of through holes(30) with respect to an anode and a cathode. The through holes are plated with a copper foil in such a manner that the top surface and the bottom surface of the flexible substrate are connected with each other. The flexible substrate has an end where an end connection portion is formed. The top or bottom surface of the end connection portion directly contacts the power terminal of a mobile communication terminal, to thereby supply a power.

Description

Power supply structure of flat vibration motor {VIBRATION MOTOR}

The present invention relates to a structure for improving a power supply portion of a flat vibration motor,

More specifically, unlike a conventional power supply structure in which solder wires are connected to the power terminal of the vibration motor and the power terminal of the mobile communication terminal using a lead wire, the flexible substrate is extended and a through hole is provided. However, the upper and lower surfaces are conducted so that the lower or upper and lower surfaces of the flexible board of the terminal connection part can be directly soldered or reflow soldered, thereby simplifying the power supply structure to facilitate the assembly and manufacturing process of the device. It shortens, solves the insulation problem between the case and the power supply terminal and disconnection caused by cold soldering to minimize the defect on the product, and reduces the space limitation of the motor seat of the terminal because the soldering support of the bracket is not needed. To increase the space utilization of the power supply terminal of the terminal, thereby the overall flat vibration The present invention relates to a power supply structure of a flat vibration motor for improving the efficiency of the motor and maximizing the reliability and satisfaction of a mobile communication terminal such as a mobile phone using the same.

In general, the flat vibration motor is in accordance with the trend of miniaturization and lightening of mobile communication terminal devices, and the thickness of the motor is decreasing or the motor outer diameter is reduced. It is necessary to improve the power supply structure of the terminal device.

That is, as shown in FIG. 1, the flat vibration motor 10 adheres the flexible substrate 5 to the inner surface of the circular bracket 2, and the ring magnet 8 overlaps the flexible substrate 5. ) Is fixed to the inner surface of the bracket (2), a pair of brushes (9) inside the ring-shaped magnet (8) is soldered and fixed to the opposite side of the terminal connection portion of the flexible substrate (5), the brush (9) A burring portion protruding in the axial direction from the bracket 2 is provided inside to fix the shaft so as to support rotation of the eccentric rotor to form a stator.

In addition, the eccentric rotor fixedly adheres two or more coils to a hard board having a commutator and an upper surface of the hard board to rectify the current flowing in the coil on the lower surface, and attaches a high specific weight member to increase the amount of eccentricity. It is integrally molded with an oilless bearing and a low specific gravity injection resin so as to be rotatably supported with the shaft, and a cap-shaped case 1 provides a space for the eccentric rotor to rotate smoothly and at the same time with the ring magnet 8. It forms the magnetic circuit of the magnetic force generated in the coil and protects the inside of the motor from external force.

On the other hand, by applying the power supplied to the lead wire 4 to the coil of the eccentric rotor through a commutator in contact with a pair of brushes (8) in the magnetic force and coil generated from a ring magnet adhesively fixed to the inner surface of the bracket (2) The rotational force is generated by the interaction of the induced magnetic forces.

That is, the vibration generated by the rotation of the eccentric rotor is transmitted to the outside through the shaft is built in the mobile communication terminal or pager to perform the incoming function.

In addition, in order to ensure smooth operation when soldering the terminal connection part of the flexible substrate 5 and one end of the lead wire 4, the solder support part 6 is provided so that one side of the bracket 2 protrudes. The flexible substrate 5 is provided to almost coincide with the end of the solder support 6.

One end of the lead wire 4 is soldered to the connection terminal of the flexible substrate 5 of the vibration motor 10, and the other end is soldered to the power terminal of the terminal device or provided with a connector to contact the soldering part at each end. In order to protect a short circuit and a lead wire, the process of hardening | curing after apply | coating an adhesive agent or a UV hardening | curing agent 3 is performed further.

However, the power supply structure of the vibration motor using the lead wire 4 as described above has a problem that the manufacturing process is complicated and takes a lot of manufacturing time and is sufficient to assemble and solder the vibration motor to the power terminal of the terminal device. There is a difficulty to secure the assembly space.

In addition, in the above-described power supply structure, the solder support part 6 of the bracket provided to facilitate the soldering operation protrudes, causing an insulation problem between the flexible substrate 5 and the case 1, and at the same time. The problem of disconnection of the power is generated, and the problem of deterioration of the characteristics of the vibration motor in the UV curing process is implied.

Therefore, due to the above problems, the flat vibration motor conventionally implemented has a limit to some degree of efficiency, so that the value of a mobile communication terminal such as a mobile phone equipped with it is not maximized, and reliability and satisfaction on use are minimized. There are problems.

The present invention has been made to solve the problems occurring in the related art as described above, and has the following objects.

According to the present invention, unlike a conventional power supply structure in which a solder wire is connected to a power terminal of a vibration motor and a power terminal of a mobile communication terminal using a lead wire, the flexible substrate is extended and provided with a through hole. The upper and lower surfaces are connected so that the lower or upper and lower surfaces of the flexible substrate of the terminal connection part can be directly soldered or reflow soldered, thereby simplifying the power supply structure and shortening the assembly and manufacturing processes of the device. The purpose of this invention is to provide a power supply structure of a flat vibration motor that minimizes defects in products by solving insulation problems caused by the case and power terminals and disconnection caused by cold soldering.

Another object of the present invention is to provide a power supply structure of a flat vibration motor to increase the space utilization of the power terminal portion of the terminal by reducing the constraint of the space of the motor seating portion of the terminal is not necessary for the solder support portion of the bracket.

Another object of the present invention is to provide a power supply structure of the flat vibration motor to improve the efficiency of the overall flat vibration motor, thereby maximizing the reliability and satisfaction of use for a mobile communication terminal such as a mobile phone equipped with the same. .

1 is a block diagram showing a terminal connection of the conventional vibration motor,

2 is a configuration diagram for explaining a terminal connection of the vibration motor according to the present invention;

3 is a plan view showing a vibration motor of the present invention,

Figure 4 is another exemplary embodiment modified by the present invention,

5 is an exploded configuration diagram of a bracket according to the present invention;

Figure 6 is another exemplary embodiment modified by the present invention.

<Description of the symbols for the main parts of the drawings>

1: Case 2: Bracket

3: UV curing agent 4: Lead wire

5,20: flexible substrate 6: soldering portion

8: ring magnet 9: brush

10,100: vibration motor 21: terminal connection part

22: flexible base 23: cover lay

26: protection part 30: through hole

40: bending part

In order to achieve the above object, it will be described in detail with reference to the accompanying drawings which is a preferred embodiment of the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

First, as shown in the accompanying drawings, FIGS. 2 to 6, FIG. 2 is a block diagram illustrating a terminal connection part of the vibration motor according to the present invention, and FIG. 3 is a plan view showing the vibration motor of the present invention. 5 is another explanatory diagram modified and implemented by the present invention, and FIG. 5 is an exploded configuration diagram of the bracket according to the present invention, and FIG. 6 is another exemplary diagram modified and implemented by the present invention.

That is, the present invention, in the flat vibration motor to generate a vibration sound of a mobile communication terminal such as a mobile phone, to extend the flexible substrate 20 of the flat vibration motor 100, on the flexible substrate 20 A pair of through holes 30 and 31 for the anode and the cathode are provided, respectively, and the through holes 30 are plated with copper foil so that the upper and lower surfaces of the flexible substrate 20 are conductive. One of the upper and lower surfaces of the terminal connection part 21 formed at the end of the flexible substrate 20 and the power terminal of the terminal are directly contacted and fixed to apply power.

In the terminal connection portion 21 of the flexible substrate 20, a pair of through holes 30 for each pole of the anode and the cathode are positioned, and the pair of rods protruding in the axial direction are formed in the through hole 30. It is made by direct soldering or reflow soldering so that the power terminal of the terminal having the terminal is seated in the inserted state.

In addition, the present invention is a female terminal is provided in the through-hole 30 for easy insertion of the rod terminal protruding so that the terminal connection portion 21 of the flexible substrate 20 and the power terminal of the terminal are conductive. .

The male terminal having a pair of pins formed in the terminal connection portion 21 which is inserted into the through hole 30 and passed through the terminal connection portion 21 of the flexible substrate 20 and the power terminal of the terminal to conduct. It is made directly into a pair of grooves provided in the power terminal of the terminal.

In addition, the present invention is in the horizontal direction of the outside of the case 1 so that the flexible substrate 20 is drawn out to the opening of the bracket (2) in order to prevent disconnection and breakage by the external impact The protruding protective part 26 is provided.

The bending part 40 is provided between the opening of the bracket 2 and the terminal connection part 21 in order to have flexibility with respect to the overall length of the flexible substrate 20.

On the other hand, the present invention may be variously modified in various embodiments and may take various forms.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

Prior to describing the present invention made as described above, due to the miniaturization of the mobile communication terminal, the vibration motor mounted in the inside of the terminal is also in the trend of miniaturization.

The present invention extends the length sufficiently to directly contact the flexible substrate 20 with the power terminal of the terminal, which is intended to facilitate soldering or reflow soldering, and is plated only on the upper surface of the flexible substrate 20. Unlike the conventional method of supplying power to the brush 9, in the present invention, the through hole 30 is provided to be electrically connected to the lower surface of the flexible substrate 20.

That is, the flexible substrate 20 is plated by being separated into a positive electrode and a negative electrode, and plated with a copper foil so that a pair of brush 9 soldering terminals are connected to one side opposite to the power terminal and the power terminal. Each pole is provided with a pair of through holes 30 which are connected to the lower surface of the flexible substrate 20.

The through hole 30 penetrates through the flexible base 22 disposed so that the outer shape of the flexible substrate 20 is maintained, and copper foil is also plated on the inner surface of the through hole 30 so that the upper and lower surfaces are conductive. The flexible substrate 20 has a coverlay 23 to prevent a short circuit between the positive electrode and the negative electrode on all surfaces except the terminal portion 21 and the terminal portion at which the brush 9 is soldered. It is coated with.

By extending the flexible substrate 20 to the power supply terminal of the terminal as described above, direct soldering or reflow soldering eliminates the need for a separate lead wire 4, and the lead wire 4 is connected to the terminal of the vibration motor. At the same time, the process for soldering with the part is deleted, and the process of performing soldering as described above and then curing through the curing machine after applying the UV curing agent 3 to prevent insulation and to prevent breakage and breakage of the lead wire is eliminated.

Since the above process is eliminated, it is possible to prevent defects in insulation and disconnection generated during soldering of the lead wire 4, and to prevent degradation of characteristics of the vibration motor generated during UV curing, thereby increasing overall product reliability. do.

In addition, the solder support part 6 formed in the opening part of the bracket 2 is conventionally provided for the convenience of work when soldering the lead wire 4 to the flexible substrate, but in the present invention, the solder support part 7 is Since the structure of the bracket can be simplified, it is easy to manufacture, and at the same time, a substantial outer diameter is reduced compared to the conventional bracket 2 which protrudes outward of the vibration motor, thereby allowing more room when the vibration motor is assembled inside the terminal. It is possible to free space.

On the other hand, as an embodiment of the present invention, by placing the pair of through holes 30 in the terminal connection portion 21 of the flexible substrate 20 protruding rod terminal having a positive electrode and a negative electrode installed in the power terminal of the terminal The inner diameter of the through-hole 30 is formed to be somewhat larger than the outer diameter of the rod terminal to facilitate insertion, and the pair of through-holes 30 are connected to the rod-type terminals. The flexible board 20 is provided with a female terminal having a pair of grooves formed therein so as to be directly soldered or reflow soldered thereto after being inserted into a power supply terminal, which is a power terminal, and a pair of rod terminals are fitted on one surface thereof. Insulation is prevented due to contact fixation so that the terminal connection portion 21 and the terminal power terminal of the terminal can be conducted, and the flexible substrate 20 is separated from the terminal of the terminal due to an external impact. That number will be prevented.

In addition, if the male terminal having a pair of pins protrudes through the through-hole 30 of the flexible substrate 20 and then fits into a groove formed in the power terminal of the terminal, the contact is fixed to prevent insulation and external force. Separation of the flexible substrate 20 is prevented.

As shown in FIG. 5, the protection part 26 for protecting the flexible substrate 20 is formed to protrude in the horizontal direction outside of the case 1, which is an opening of the bracket 2. The flexible substrate 20 drawn out is attached to the flexible substrate 20 to prevent disconnection and breakage caused by an external force.

In addition, as shown in Figure 6, in general, since the vibration motor is bonded and fixed to the terminal and the power terminal distance of the terminal is different depending on the manufacturer and product model of the terminal, to solve this bracket (2) The bending portion 40 is provided between the flexible substrate 20 drawn out through the opening of the terminal and the power supply terminal of the terminal, which has a flexibility of the length of the flexible substrate 20 so that it can be used for any terminal. The flexible substrate 20 can be provided.

As described in detail above, the present invention, unlike the conventional power supply structure for soldering and connecting the power terminal of the vibration motor and the power terminal of the mobile communication terminal by using a lead wire to extend the flexible substrate, and provided with a through hole, By allowing the lower surface to be conductive, soldering or reflow soldering directly with the terminal of the terminal device to the lower surface or the upper and lower surface of the flexible board of the terminal connection part, simplifying the power supply structure, and shortening the assembly and manufacturing process of the device. In addition, the problem of insulation between the case and the power supply terminal and the disconnection caused by cold soldering are solved, which minimizes the defects on the product.As there is no need for the soldering support of the bracket, the space limitation of the motor seat of the terminal device is reduced. Overall flatness due to the increased space utilization of the power supply terminal It is obvious that a very useful invention that can achieve multiple effects such that in use of the reliability and satisfaction with the mobile communication terminal such as a mobile phone, which improves the efficiency of the motor used to carry them at the same time maximum.

Claims (6)

In the flat vibration motor to generate a vibration sound of a mobile communication terminal such as a mobile phone, Extending the flexible substrate of the flat vibration motor, and provided with a pair of through holes for the anode and the cathode on the flexible substrate, respectively, the through hole is copper foil so that the upper surface and the lower surface of the flexible substrate is conductive Plated, and the power supply structure of the flat vibration motor, characterized in that any one of the upper surface and the lower surface of the terminal connection portion formed at the end of the flexible substrate and the power terminal of the terminal is directly contacted and fixed to apply power. . The method of claim 1, In the terminal connection portion of the flexible substrate, a pair of through holes for each pole of the positive electrode and the negative electrode is positioned, and the power supply terminal of the terminal having a pair of rad terminals protruding in the axial direction is inserted into the through hole. Power supply structure of a flat vibration motor, characterized in that the direct soldering or reflow soldering to be seated. The method of claim 1, And a female terminal is provided in the through-hole for easily inserting the rod terminal protruding from the terminal connection portion of the flexible substrate and the power terminal of the terminal to conduct the power supply structure of the flexible substrate. The method of claim 1, A male terminal having a pair of pins formed in the terminal connection part inserted into the through hole and passed through the terminal connection part of the flexible substrate and the power terminal of the terminal to be connected directly to the pair of grooves installed in the power terminal of the terminal. Power supply structure of a flat vibration motor, characterized in that the insertion. The method of claim 1, The flexible substrate is applied to the power supply of the flat vibration motor, characterized in that the protective portion protruding in the horizontal direction of the outer side of the case is attached so that the flexible substrate drawn out to the opening of the bracket is attached to prevent the disconnection and damage by the external impact rescue. The method of claim 1, Power supply structure of the flat vibration motor, characterized in that the bending portion is provided between the opening of the bracket and the terminal connection portion in order to have flexibility for the overall length of the flexible substrate.