KR100379073B1 - Buzzer device of electronic machine - Google Patents

Abstract

The present invention is installed on the bottom of the container-shaped case and the brush is connected to the terminal is formed in the support plate formed in the center and the support shaft in the center, and the first magnet installed in the case close to the upper side of the eccentric rotor rotatably installed on the support shaft and In the receiving device of the electronic device comprising a diaphragm fixed to the second coil connected to the terminal to be positioned around the first magnet, and a cap for supporting the side of the diaphragm and covering the upper case, the support shaft is a diaphragm It has a height that can have a predetermined separation distance, and the upper end of the support shaft is equipped with a second magnet for forming a magnetic circuit of the closed circuit leading to the first magnet and the magnetic pole guide plate, it is arranged spaced apart from the first magnet The coil divided into a plurality is arrange | positioned on the upper surface of an eccentric rotor.

Therefore, according to the present invention, since the eccentric rotor rotates while swinging up, down, left, and right, the vibration state of the receiving device can be maximized, and the power consumption for vibration of the diaphragm can be minimized by collecting the magnetic force of the first magnet to one side. have. In addition, the magnetic field formed by the first coil on the eccentric rotating body can be simultaneously generated to induce a strong fluctuation of the eccentric rotating body.

Description

Receiver of electronic device {BUZZER DEVICE OF ELECTRONIC MACHINE}

The present invention relates to an apparatus for receiving an electronic device, and more particularly, to an apparatus for receiving an electronic device, which is installed in a communication device such as a mobile phone or a PCS phone to confirm reception of an external signal.

As is generally known, a communication device such as a mobile phone or a personal communication service phone (PCS) phone applies a reception device that informs a user of reception of an external signal. The reception device typically has an appropriate arrangement of a magnet and a coil. As the power is applied to the coil and a magnetic field is formed between the magnet and the coil, vibration or a buzzer sound is generated.

The present inventor has applied for a multi-purpose buzzer for generating the vibration or the buzzer sound as described above. The multi-purpose buzzer has a hollow portion 3 in the yoke (2) 2 'in the case (1), as shown in FIG. ) To connect the yoke (2) (2 ') to the connecting plate (4) of the nonmagnetic material, and the first and second magnet rings (5) (6) on the inner surface of the yoke (2) (2') It is installed spaced apart, the coil ring 7 is installed between the first and second magnet rings 5, 6, and a diaphragm (Diaphragm: 8) is installed on the coil ring 7, and the yoke ( 2) The leaf springs 9 and the bending springs 10 are respectively provided on the upper and lower surfaces of 2 ', and the power supply of a specific waveform having a predetermined frequency is supplied through the lead terminal 11 of the case 1. When supplied, a magnetic field is generated around the coiling 7.

When the magnetic field is generated, the vibration of the buzzer itself or the buzzer is generated by the vertical movement of the leaf spring 9, the bending spring 10, and the diaphragm 8. Generated when the input frequency of (7) is input to the sinusoidal wave of 100 Hz ~ 150 Hz band, the buzzer sound when the input frequency of the coiling (7) is input to the square wave or sinusoidal wave of 2500 Hz ~ 3000 Hz band Will occur.

Since the buzzer is installed with a double first and second magnet rings 5 and 6, the amplitude of the diaphragm 8 increases due to the interaction, so that the sound pressure increases in proportion to the yoke 2, 2 '. The lower part of the center and the outer part are connected to the non-magnetic connecting plate (4) so that no magnetic loss occurs, and the first and second magnet rings (5) and (6) are arranged so as to face each other. (See Patent Publication No. 1999-024257). In the above-mentioned device for receiving an electronic device, when power is supplied to the lead terminal 11 by an external signal, a magnetic field is generated while the leaf spring 9 is applied. And the bending spring 10 and the diaphragm 8 is to move up and down, and the leaf spring 9 and the bending spring 10 and the diaphragm 8 is to move up and down to generate vibration or buzzing sound When the vibration of the buzzer is made of a bending spring ( 10) has a problem that the vibration performance is lowered because it operates only in the vertical direction, not in the left and right directions.

It is an object of the present invention to provide an apparatus for receiving an electronic device, which enables the vibration direction of the buzzer to be operated in the left and right and up and down directions when the above-described problem is corrected.

In addition, the present invention can maximize the magnetic force of the first magnet by collecting the magnetic force of the first magnet to form a magnetic field corresponding to the second coil for the buzzer function to minimize the power consumption for the vibration of the diaphragm as well as eccentric It is an object of the present invention to provide an apparatus for receiving an electronic device, in which a magnetic field formed by a first coil on a rotating body can be simultaneously generated to induce a strong fluctuation of an eccentric rotating body.

1 is a cross-sectional view of a conventional one.

2 is a cross-sectional view of an embodiment of the present invention.

3 is an exploded perspective view of an embodiment of the present invention.

4 is an enlarged view illustrating main parts of an embodiment of the present invention.

Figure 5 is a block diagram showing a terminal connection state of the embodiment of the present invention.

※ Explanation of symbols used in main part of drawing ※

15 Case 16 Support Plate 17 Terminal 18 Brush

19: support shaft 20: eccentric rotor 21, 21 ', 21 ": first coil 22: first magnet

23. Second magnet 24: Diaphragm 25: Second coil 26: Cap

27: support jaw 28: support protrusion 29: magnetic pole guide plate

The present invention for achieving the above object is installed in the bottom of the container-shaped case, the brush is connected to the terminal is formed, the support plate is formed in the center and the support shaft is close to the upper side of the eccentric rotating body rotatably installed on the support shaft A first magnet installed on the case, a diaphragm to which the second coil connected to the terminal to be positioned around the first magnet is fixed, and a cap supporting the side of the diaphragm and covering the upper part of the case. In the receiving apparatus of the electronic device, the support shaft has a height that can have a predetermined distance from the diaphragm, the upper end of the support shaft has a second magnet for forming a magnetic circuit of the closed circuit leading to the first magnet and the magnetic pole guide plate It is mounted, divided into a plurality on the upper surface of the eccentric rotating body disposed to be spaced a predetermined distance from the first magnet In addition, in the receiving apparatus for an electronic device according to the present invention, it is preferable that the terminal is used so that the negative power supply (-) of the brush and the second coil can be used in common. 2 to 5, a brush 18 connected to the bottom of the container-shaped case 15 and connected to the terminal 17 through a power line is protruded and formed at the center thereof. A support plate 16 on which a support shaft 19 is formed, and first coils 21, 21 ', 21 "installed on the support shaft 19 so as to rotate simultaneously with the formation of a magnetic field, and wound at a predetermined thickness thereon. Mounted on the case 15 to generate a magnetic force between the eccentric rotor 20 and the first coils 21, 21 ', 21 " The strength of the magnetic field is increased at the upper end of the first magnet 22 and the upper support shaft 19 of the first magnet 22. And a diaphragm 24 in which a second magnet 23 installed so as to be connected to the second magnet 23 and a second coil 25 connected to the terminal 17 to be positioned around the second magnet 23 are wound to a predetermined thickness. The cap 26 supports the side of the diaphragm 24 and covers the upper part of the case 15.

The support jaw 27 is formed below the support shaft 19 formed at the center of the support plate 16 so that the eccentric rotational body 20 does not come into contact with the upper surface of the support plate 16. Rotating body 20 is formed in a semi-circular shape so that the support plate 16 and the case 15 in the vertical and horizontal directions when the support shaft 19 is rotated to the point to maximize the vibration effect of the buzzer as the receiver It is. Then, the first coils 21, 21 ', 21 "wound around the eccentric rotating body 20 at appropriate thicknesses are dividedly arranged, and a power supply of a specific waveform having a predetermined frequency is supplied to the terminal 17. When applied through the first coil (21) (21 ') (21 ") to form a magnetic field in the upper portion as a result of increasing the strength of the magnetic force it is possible to maximize the rotational force of the eccentric rotor (20) .

In addition, the first magnet 22 is supported on the inner wall of the case 15 to form a support protrusion 28 for blocking contact with the eccentric rotating body 20, and the center upper portion of the first magnet 22. The magnetic pole guide plate 29 for guiding the magnetic field to the support shaft 19 side is installed. In other words, the magnetic field corresponding to the first magnet 22 is formed in the second coil 25 and the second coil 25 is formed. By repeating the operation in which the first magnet 22 and the second coil 25 are pushed and pulled together according to the change in the magnetic field polarity of (25), the diaphragm 24 with the second coil 25 vibrates up and down. It will form a buzzer. At this time, the inner side of the first magnet 22 is formed a magnetic circuit of a closed circuit leading to the upper end of the first magnet 22, the magnetic guide plate 29 and again to the lower end of the first magnet 22, in the present invention, the support side ( 19, the second magnet 23 is further mounted on the upper end, so that the magnetic circuit of the closed circuit corresponding to the magnetic field of the second coil 25 is connected to the upper end of the first magnet 22, the magnetic guide plate 29, the first magnet. Since the magnetic force of the second magnet 23 is added to the magnetic force of the first magnet 22, the magnetic force of the first magnet 22 is added to the upper end of the second magnet 23, the lower end of the second magnet 23, and the lower end of the first magnet 22. The magnetic field formed by the first and second magnets 22 and 23 is closer to the magnetic field formed in the second coil 25. As a result, the diaphragm 24 is sufficiently provided even if the strength of the power supplied to the second coil 25 forming the magnetic field corresponding to the magnetic field of the first and second magnets 22 and 23 forming the strong magnetic force is minimized. It vibrates to form a buzzer.

The terminal 17 to which the power of the specific waveform is input is configured to selectively operate the eccentric rotating body 20 and the diaphragm 24 according to a frequency band, and the eccentric rotating body 20 and the diaphragm 24 have a specific waveform. One negative power (-) is formed by dividing the negative power (-) toward the brush 18 and the second coil 25 when the power is supplied to the power source. The positive power (+), which is roughly separated from the negative power (-), Independently placed to point. When the operation of the diaphragm 24 is made to form a buzzer output port (not shown) on the upper side of the case 15 so that the buzzer sound of the diaphragm 24 is transmitted to the outside.

In the present invention as described above, when the power of a specific waveform is input through the terminal 17, the eccentric rotating body 20 and the diaphragm 24 are selectively operated, and the vibration of the eccentric rotating body 20 When the input frequency of the first coils 21, 21 ', 21 "is input to the sine wave in the range of 100 Hz to 150 Hz, the first coils 21, 21' and 21" are rotated while swinging in the vertical direction and the left and right directions to generate vibration of the device. The buzzer sound of the diaphragm 24 is to generate a specific buzzer while vibrating in the vertical direction when the input frequency of the second coil 25 is input into a square wave or a sinusoidal wave of 500 Hz to 4 KHz.

When the sine wave is applied to the brush 18 and the first coils 21, 21 ', 21 "through the terminal 17, the first coils 21, 21', 21" and the first coils 21, 21 ', 21 "are respectively applied. The magnetic circuit of the closed circuit is formed between the one magnet 22, the eccentric rotation body 20 is continuously formed with the first magnet 22 and a constant repulsive force due to the magnetic circuit is rotated at an appropriate speed. At the same time as the eccentric rotating body 20 is rotated, the support plate 16 and the case 15 are vibrated so that the user senses the reception of an external signal.

When the square wave is applied to the second coil 25 through the terminal 17, the magnetic force of the first magnet 22 induced through the second coil 25, the second magnet 23, and the magnetic pole guide plate 29 is applied. The magnetic circuit of the closed circuit is formed in the liver, and the diaphragm 24 vibrates in the vertical direction due to the magnetic circuit. As the diaphragm 24 is shaken, a buzzer sound is generated so that the user senses reception of an external signal. The magnetic pole guide plate 29 concentrates the magnetic force generated in the second magnet 23 to the first magnet 22 to maximize the strength of the magnetic force between the second coil 25 and the second magnet 23. Accordingly, even if the power input through the terminal 17 is minimized, the operation of the diaphragm 24 is maximized, thereby prolonging the use of power.

The first coils 21, 21 'and 21 "wound around the eccentric rotating body 20 supported by the supporting jaw 27 are arranged to be divided so that the power supply of the specific waveform is terminal. When applied through (17), the magnetic field is formed on each of the first coils 21, 21 ', 21 ", and the rotational force of the eccentric rotor 20 is increased while the magnetic force strength of the magnetic field is increased. To reduce power consumption.

The terminal 17 for applying a specific waveform of power to the eccentric rotating body 20 and the diaphragm 24 is formed to share a negative power (−) connected to the brush 18 and the second coil 25. (15) It is possible to simplify the arrangement of the power line protruding to the outside and to be free from space constraints when installing the terminal 17, and to supply power to the brush 18 and the second coil 25 appropriately.

As described above, according to the present invention, when a power of a specific waveform is applied through a terminal, a corresponding function is exhibited. When the power is applied to the first coil through a brush, a repulsive magnetic field is formed between the first coil and the first magnet. When the eccentric rotor is swung in the left and right and up and down directions by the magnetic force, and the power is applied to the second coil, a magnetic field is formed between the second coil, the second magnet and the first magnet, so that the diaphragm is vertically The buzzer will sound while shaking in the direction.

In addition, when the eccentric rotational body is rotated, it is rotated in a state supported by the supporting jaw so that stable rotation is possible, and the first coil is dividedly disposed on the upper side of the eccentric rotational body to form a magnetic field simultaneously and eccentrically. Rotation of the rotating body is strongly performed, and the magnetic force guide plate guides the magnetic field of the first magnet to the second magnet side, thereby maximizing the magnetic force between the second magnet and the second coil.

Claims (7)

A support plate 16 formed at the bottom of the container-shaped case 15 and connected to the terminal 17 and having a support shaft 19 formed at the center thereof, and rotatably at the support shaft 19. The first magnet 22 installed in the case 15 in proximity to the upper side of the installed eccentric rotor 20 and the second coil 25 connected to the terminal 17 so as to be positioned around the first magnet 22. In the receiving device of the electronic device comprising a diaphragm 24 is fixed to, and a cap 26 for supporting the side of the diaphragm 24 and covering the upper portion of the case 15, the support shaft (19) ) Has a height that can have a predetermined distance from the diaphragm 24; On the upper end of the support shaft (19) is mounted a second magnet (23) for forming a magnetic circuit of the closed circuit leading to the first magnet (22) and the magnetic pole guide plate (29); A plurality of coils 21, 21 ′, 21 ″ are disposed on an upper surface of the eccentric rotating body 20 arranged to be spaced apart from the first magnet 22 by a predetermined distance. Terminator. delete delete delete delete The method of claim 1, The terminal (17) is a receiving device of the electronic device, characterized in that the negative power (-) of the brush (18) and the second coil (25) can be used in common. delete