KR100520414B1 - Vibration motor - Google Patents

Abstract

The present invention is integrally molded by press working to project a pair of one end of the conductor from the first frame portion to be fixed in contact with the flexible connection portion, the other end vibrating the second frame portion for supporting the spring terminal having elasticity It is attached to the upper surface of the motor to improve the terminal connection structure, which is the power supply part, and the terminal connection of the flat vibration motor which simplifies the whole assembly process and manufacturing process by eliminating the solder connection process to the lead wire when assembling the terminal device. It is characterized by providing structure.

In addition, the present invention by integrally molding the conductor integrally formed by the press through the plastic injection resin to prevent the separation of the conductor and at the same time increase the durability, and to form the frame in an annular shape and attached to be supported on the upper surface of the case By integrating with the vibration motor, it is possible to prevent the non-contact with the power terminal of the terminal device by the vibration generated during the external force or the vibration motor driving to maximize the reliability of the product.

In addition, the present invention is to form a terminal connection frame and in close contact with the upper surface of the case does not require a space other than the outer diameter of the vibration motor to increase the space utilization of the terminal device, and improve the efficiency of the flat vibration motor as a whole.

Description

Terminal wiring structure of flat vibration motor {VIBRATION MOTOR}

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

More specifically, 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 by using a lead wire, an elastic conductor is integrally molded by press working. Protruding from the bracket of the vibration motor and aligned with the terminal of the flexible board provided to be connected to the external terminal, and fixed to the contact, the other end is provided with a spring material having an elastic to contact the power supply terminal of the terminal device and then integrated with plastic material By attaching the injection-molded second frame part to the upper surface of the case of the vibration motor, the solder connection process for the lead wire can be omitted when assembling the terminal device, thereby simplifying the assembly process and manufacturing process, and the case and terminal connection. Solve the insulation problem in the part and the disconnection problem by soldering It minimizes defects and does not require a separate soldering part to increase the space utilization in seating the vibration motor in the terminal device, thereby improving the efficiency of the overall flat vibration motor, thereby enabling mobile communications such as mobile phones to be used. It relates to a terminal wiring structure of a flat vibration motor to maximize the manufacturing execution for the terminal.

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 getting thinner or the motor outer diameter is decreasing, and in order to increase space utilization and simplify the assembling process in the terminal devices with various functions, There is a need for an improvement in the structure of the terminal connection part, which is a power supply part between terminal devices.

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 has a ring magnet to overlap the flexible substrate 5. Not shown) is fixed to the inner surface of the bracket (2), a pair of brushes (not shown) inside the ring-shaped magnet is soldered and fixed to one side of the flexible substrate 5, the bracket (inside the brush) A burring portion (not shown) protruding in the axial direction from 2) is provided to fix the shaft (not shown) so as to support rotation of the eccentric rotor to form a stator.

In addition, the eccentric rotor (not shown) is a high specific weight member for fixing and bonding the two or more coils on the upper surface of the hard substrate and the hard substrate provided with a commutator to rectify the current flowing in the coil on the lower surface After the addition, and integrally molded with an oilless bearing and a low specific gravity injection resin so that the shaft and the rotation is supported, the cap-shaped case (Case, 1) provides the space for the eccentric rotor to rotate smoothly at the same time It forms a magnetic circuit of magnetic force generated from magnets and coils, and protects the inside of the motor from external forces.

On the other hand, the power supplied to the lead wire 4 is transmitted to the rotor coil through the terminal of the flexible substrate, a predetermined pattern is formed on the flexible substrate is formed a terminal connected to the lead wire on one side, the predetermined pattern By electrically connecting a pair of brushes and a commutator and applying them to the coil of the eccentric rotor, the rotational force is generated by the interaction between the magnetic force generated from the ring-shaped magnet adhesively fixed to the inner surface of the bracket 2 and the magnetic force induced in the coil.

Vibration generated by the rotation of the eccentric rotor is transmitted to the outside through the shaft is embedded in the mobile communication terminal or pager to perform the incoming function.

In addition, in order to ensure smooth operation when soldering the terminal 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 board | substrate 5 is provided so that it may substantially correspond with the edge of the said solder support part 6.

One end of the lead wire 4 is soldered to the 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 contacted with a connector. In order to protect a lead wire, the process of apply | coating an adhesive agent or a UV hardening | curing agent 3, and hardening is further performed.

However, the structure of the terminal connection part, which is the power supply part of the vibration motor using the lead wire 4 as described above, has a problem that the manufacturing process and manufacturing time are complicated due to complicated assembly process and manufacturing process, and at the same time, the power terminal of the terminal device There is a difficulty in securing sufficient assembly space when assembling and soldering a vibration motor.

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 source or the coating of the lead wire 4 may occur, and the problem of deterioration of the characteristics of the vibration motor may occur in the UV curing process.

Therefore, due to the above problems, the conventional flat vibration motor has a limit to some degree of efficiency, which does not maximize the value of a mobile communication terminal such as a mobile phone using it, and minimizes manufacturing effectiveness. Are always implied.

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

The present invention is integrally molded by press working to project a pair of one end of the conductor from the first frame portion to be fixed in contact with the flexible connection portion, the other end vibrating the second frame portion for supporting the spring terminal having elasticity It is attached to the upper surface of the motor to improve the terminal connection structure, which is the power supply part, and the terminal connection of the flat vibration motor which simplifies the whole assembly process and manufacturing process by eliminating the solder connection process to the lead wire when assembling the terminal device. The purpose is to provide a structure.

Another object of the present invention is to integrally form a conductor integrally formed by a press through a plastic injection resin to prevent detachment of the conductor and at the same time increase durability, and form the frame in an annular shape and attach it to be supported on the upper surface of the case. By integrating with the vibration motor, it is possible to prevent the non-contact with the power terminal of the terminal device by the vibration generated when the external force or the vibration motor is driven to maximize the reliability of the product.

Another object of the present invention is to form a terminal connection frame and close contact with the upper surface of the case does not require a space other than the outer diameter of the vibration motor to increase the space utilization of the terminal device, and improve the efficiency of the flat vibration motor as a whole.

First, 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.

In addition, the terms to be described below 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 thereof should be made based on the contents throughout the present specification. The present invention relates to a terminal connection frame that is electrically connected to a terminal of a terminal device when fixing a vibration motor instead of itself. In the present invention, a configuration in which the flexible substrate 5 of the related art is electrically connected will be described.

In order to achieve the above object, it will be described in detail through a preferred embodiment of the present invention.

To this end, in the present invention, a pair of brushes are fixed at one end by soldering, and the other end is a flexible substrate protruding to the outside of the vibration motor, a bracket for adhering the flexible substrate to the upper surface, and the adhesive is fixed to the inside of the bracket. A magnet, a rotor having an eccentricity with two or more coils inside the vibration motor, integrally formed on a hard board, a shaft fixed to the bracket to support the rotor, and assembled with the bracket In the flat vibration motor comprising a case for protecting the internal components, wherein the flat vibration motor is formed by integrally molding a pair of conductors having elasticity by pressing and integrally molded with the conductor by plastic injection resin, First frame that supports one end of the conductor to protrude contact with the terminal of the flexible substrate And; A second frame portion adhesively fixed to an upper surface of the case and supporting a spring terminal; The other end of the conductor is characterized in that it is made of a spring terminal protruding from the upper surface of the second frame portion in contact with the power supply terminal of the terminal device.

In addition, the lower surface of the first frame portion has a positioning groove of the frame so that the pair of terminals of the flexible substrate and the projecting conductor are aligned.

In addition, the second frame portion is to have a terminal connection frame having an annular shape in order to increase the holding force of the spring terminal.

In addition, the upper end of the spring terminal is to have the shape of the embossing in order to increase the contact area with the power supply terminal of the terminal device.

That is, the present invention will be described with reference to FIGS. 2 to 5.

First, Figure 2 is a preferred embodiment of the present invention, which improves the conventional technology of supplying power using a lead wire to reduce the manufacturing cost by simplifying the assembly process and manufacturing process when mounting the vibration motor in the terminal It is a structure to improve the efficiency of the overall space by eliminating unnecessary space, and to improve reliability so that there is no problem in power supply by vibration generated from external force or vibration motor.

On the other hand, the pair of conductors 21, which are paired to electrically connect the positive and negative electrodes, respectively, have elasticity enough to act as a spring so that one end may be directly contacted with the power terminal of the terminal device. It is preferable to manufacture by forming in an array (array) so that the mass production is possible by integrally molding a press, the conductor 21 formed as described above is a press in the mold to form the terminal frame (20) After inserting the conductor 21 to be molded first, it is molded integrally so that the plastic injection resin is wrapped around the shape so that the shape is maintained, thereby increasing durability, and having a plurality of guide pins in the injection mold, To be positioned (see FIG. 5).

In addition, as shown in FIG. 3, one end of the pair of conductors protruding from the lower portion of the first frame part 11 is connected to the vibration motor while being supported on a bracket supporting the vibration motor 100 as shown in FIG. 1. It is molded to be horizontal with the solder support part which is a planar shape under the board | substrate 5, and it enlarges the contact area with the terminal of the flexible board | substrate 5, and contacts the center of the terminal of the said flexible board | substrate 5, and short-circuits between terminals The frame positioning groove 19 is formed on the lower surface of the first frame part 11 so as to prevent the soldering part of the bracket of the vibration motor 100 from being inserted.

That is, when the solder support portion of the bracket is inserted into the frame positioning groove 19, the conductor is exactly matched to the terminal formed on the flexible substrate 5, so that the conductor protruding below the first frame portion 11 It is to prevent the short circuit of the power generated when it is located between the terminals of the flexible substrate 5 to prevent the failure of the terminal device and the insulation failure generated when contacting the solder support of the bracket.

On the other hand, the inner surface of the first frame portion 11, that is, the area formed by the first frame portion 11 is in a shape that wraps to some extent so that the movement is minimized when contacted to the case 1 of the vibration motor 100 It is easy to mount, and the second frame part 12 is formed in an annular shape to be equal to the outer diameter curvature of the vibration motor case, and is automatically positioned when the outer diameter is aligned, thereby vibrating the motor 100 to the second frame part 12. ) Is seated in its center when seated.

In addition, the second frame portion 12 serves as a support to maintain the shape of the spring terminal 13 formed by one end of the conductor 21 and is bonded to the upper surface of the case of the vibration motor 100, which is an adhesive member 17 When the second frame portion 12 is formed in an annular shape so as to be aligned with the outer diameter of the case, the external force received by the spring terminal 13 can be dispersed and the contact area with the case is greatly increased. You can do it.

The conductor positioning groove 15 formed in the second frame part 12 is for easily positioning and aligning the conductor 21 on the upper end of the case of the vibration motor 100.

In addition, the spring terminal 13 provided inward of the second frame part 12 has a lower spring bending part 16 formed therein, and the spring bending part 16 protrudes from the second frame part 12. Contact with the power terminal of the terminal device, and the embossing 14 is formed at the end of the spring terminal 13 to increase the contact area with the power terminal to prevent contact failure due to external shock or vibration generated by the rotor. It is easy to prevent the non-current failure by

In addition, one terminal of the spring terminal 13 is made of the 'Y' shape, the other terminal is made of a straight shape to enter the 'Y' shaped terminal, which is to increase the elasticity of the spring terminal 13 To lengthen the distance between the end and the spring bending portion 16.

Accompanying drawings Figure 3 is a perspective configuration showing the terminal connection frame 20 according to the present invention seated on the upper case of the vibration motor 100, Figure 4 is an exploded configuration, which is the terminal connection frame (20) ) Is fixed to the upper end of the case of the vibration motor 100, first attaching the adhesive member 17 to the upper surface of the case, and then insulated member to prevent short circuit of the spring terminal 13 or insulation failure with the case Position 18 and position the terminal connection frame 20 above the insulating member 18. As described above, the present invention deviates from the conventional configuration of supplying power through a lead wire connected to a flexible substrate. When the case of the vibration motor 100 is fixed to the terminal connection frame 20 through the adhesive member 17, the terminals of the conductor and the flexible substrate are in contact with each other, and the conductor is connected to the spring terminal 13 integrally. When the terminal connecting frame 20 to which the vibration motor 100 is connected in contact with the power terminal of the terminal device through the spring terminal 13, the power is applied to the vibration motor 100 through the conductor to rotate. By connecting the terminal connection frame and the vibration motor by the bonding as described above, there is no fear of the problem of disconnection of power by soldering as in the prior art, and a separate lead wire (4) ), There is no problem of detachment of the coating, and no curing agent is required, which can solve the problem of deterioration of vibration motor characteristics during UV curing.

Finally, the present invention made of the above-described configuration may be variously modified in various configurations 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.

As described in detail above, the present invention provides a spring terminal at one end of an elastic conductor to supply power to the vibration motor so as to directly contact the power supply terminal of the terminal device, thereby simplifying an assembly process and a manufacturing process in the terminal device. As a result, the manufacturing cost is reduced, and the conductor integrally formed by press working is integrally molded with plastic injection resin to increase the bearing capacity of the spring terminal and the durability is improved, thereby increasing the reliability of the product. This makes it possible to greatly improve the overall productivity, it is clear that it is a very useful invention that can achieve various effects at the same time, such as eliminating unnecessary space in the terminal device as a whole, the utilization of the space as a whole.

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 perspective configuration diagram showing a vibration motor for carrying out according to the present invention;

4 is an exploded configuration diagram for explaining an embodiment of the present invention;

5 is an exemplary embodiment for explaining a conductor manufacturing process according to 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: flexible substrate 6: soldering portion

10,100: vibration motor 11: the first frame portion

12: second frame portion 13: spring terminal

14 embossing 15 conductor positioning groove

16: spring banding portion 17: adhesive member

18: insulation member 20: terminal connection frame

Claims (4)

A pair of brushes are soldered and fixed at one end and the other end is a flexible substrate protruding to the outside of the vibration motor, a bracket for adhering the flexible substrate to the upper surface, a magnet bonded and fixed to the inside of the bracket, and the vibration motor. A rotor having two or more coils and an eccentric weight formed therein integrally on a hard board, a shaft fixed to the bracket to support the rotor, and assembled with the bracket to protect internal components In the flat vibration motor consisting of a case for; In the flat vibration motor, a pair of elastic conductors are integrally molded by a press and integrally formed with the conductors by plastic injection resin, and then one end of the conductor is supported so as to contact and be fixed to the terminal of the flexible substrate. A frame portion; A second frame part adhesively fixed to an upper surface of the case and supporting a spring terminal; A spring terminal protruding from the upper surface of the second frame portion so as to be in contact with the power supply terminal of the terminal to the other end of the conductor; Terminal connection structure of the flat vibration motor, characterized in that consisting of. The method of claim 1, And a lower surface of the first frame portion to have a positioning groove of the frame such that the pair of terminals of the flexible substrate and the protruding conductors are aligned with each other. The method of claim 1, The second frame portion, the terminal connection structure of the flat vibration motor, characterized in that it has a terminal connection frame having an annular shape in order to increase the holding force of the spring terminal. The method according to claim 1 or 3, The upper end of the spring terminal, the terminal connection structure of the flat vibration motor, characterized in that it is made to have a shape of embossing to increase the contact area with the power supply terminal of the terminal device.