KR20030094715A - Apparatus for vibration generation - Google Patents

Abstract

PURPOSE: A device for generating an oscillation is provided to generate a large oscillation in an oscillator oscillated by a magnetic force created according to a low frequency signal, and to transmit size of the oscillation to a case without loss, thereby emitting a large oscillating force. CONSTITUTION: A non-magnetic substance(55) is arranged in a center of a case(50) as surrounding a magnet(57). The non-magnetic substance(55) and the magnet(57) are oscillators. Both edges of the non-magnetic substance(55) are fixed into the case(50) by dual elastic diaphragms(51a,51b). The non-magnetic substance(55) is combined as fixing the magnet(57), making an oscillating force bigger. The dual elastic diaphragms(51a,51b) are combined with the case(50).

Description

Vibration Generator {APPARATUS FOR VIBRATION GENERATION}

The present invention relates to a vibration generating device for communication, and more particularly, to generate a large vibration to the vibrator vibrating by the magnetic force generated by the low-frequency signal, and to transmit the magnitude of such vibration to the case without loss A vibration generating device for releasing power.

In general, when a user uses a personal communication terminal such as a mobile phone in a public place, a conference room, a concert, or the like, the user switches to the vibration mode to detect the shaking of the terminal to determine whether a signal is received.

Therefore, a personal mobile communication terminal including a wireless pager or a mobile phone for a personal mobile communication service should be provided with a signal generating unit for ringing and a vibration generating device for detecting a signal by vibration.

The device for generating a terminal alarm sound as described above is manufactured as a sound / vibration generating device to operate in two modes as a single device. In order to generate sound, sound is generated by shaking with a high frequency signal and vibration is generated. This is caused by the vibration of the vibrator due to the low frequency signal.

1 and 2 is a view showing the structure of the communication sound / vibration generating apparatus according to the prior art.

As shown in FIG. 1, a first magnetic body 5 and a second magnetic body 6 are coupled to a center inside the case 1 with a magnet 7 interposed therebetween, and edges at both sides of the second magnetic body 6. The elastic diaphragm 11 is disposed and fixed to both sides of the case 1. That is, the first magnetic material 5 and the second magnetic material 6 bonded to each other with the magnet 7 interposed therebetween are positioned in the central space of the case 1 of the sound / vibration generating device. A voice coil 4 for generating a buzzer sound upon receiving a high frequency signal of 2 to 4 kHz is disposed on the diaphragm 3 serving as a cover of the case 1.

In addition, the lower side of the case 1 receives a low frequency signal of 50 ~ 100Hz to form a magnetic field to the first magnetic body 5 and the second magnetic material 6 and the upper and lower bonded together with the magnet 7 therebetween The single-phase coils 9 to vibrate are arrange | positioned, respectively.

In addition, in order to transfer a buzzer sound generated by applying a high frequency signal to the voice coil 4 disposed on the diaphragm 3 to the outside of the case 1, an acoustic hole ( 10) is formed.

The communication sound / vibration generating device having the above structure emits sound and vibration signals to the outside through the following process.

In general, when signals are transmitted to or received from a personal mobile terminal such as a mobile phone or a PDA or a communication system, it is necessary to generate an alarm signal indicating that the user has received a signal. When a signal is received, a high frequency signal and a low frequency signal are transmitted through a sound / vibration generating device. When a high frequency signal is transmitted, the buzzer is applied to the voice coil 4 of the diaphragm 3 covering the case 1. Sounds.

As described above, the buzzer sound generated from the voice coil 4 is transmitted to the outside through the sound hole 10 formed at the bottom of the case.

In addition, in order to generate vibration, a low frequency signal of 50 to 100 Hz is applied to the single-phase coils 9 disposed on both sides of the lower end of the sound / vibration generator case 1 to form a magnetic field. The magnetic field generated from the single-phase coil 9 is formed up to the first magnetic body 5 and the second magnetic body 6 bonded to each other with the magnet 7 interposed therebetween. The influence of the magnetic field formed from the magnet 7 In response, the first magnetic body 5 and the second magnetic body 6 become magnetized to form a magnetic field as a whole and form a magnetic field.

The magnet 7, the first magnetic body 5, and the second magnetic body 6 are integrally formed by the magnetic force generated by the single-phase coil 9 and the magnetic force generated by the magnet 7 and the force of the repulsive force. Will vibrate. Vibration of the magnet 7, the first magnetic body 5, and the second magnetic body 6 is transmitted to the case 1 through the elastic diaphragm 11 disposed at both edges of the second magnetic body 6. The entire case 1 is vibrated.

As shown in FIG. 2, a communication sound / vibration generating device having a structure different from that of FIG. 1, in which a magnet 27 and a magnetic body 25 are coupled to a center of the case 21. The magnetic body 25 and the magnet 27 are integrally coupled, and fixing parts 28 are disposed on both sides of the magnet 27, and one side of the elastic diaphragm 31 is disposed on the fixing part 28. It is coupled, and the other side is fixed to the case 21. Voice coils 24 are disposed on the diaphragm 23 covering the case 21, and single-phase coils 29 are disposed on both sides of the lower end of the case 21, respectively.

As described above, the communication sound / vibration generating device has a similar structure as shown in FIG. 1, but only one magnetic material 25 is disposed, and the elastic diaphragm 31 is fixed to the magnet 27. The length of the elastic diaphragm 31 was extended further.

Therefore, when the magnetic field is formed by the low frequency signal applied to the single-phase coil 29, the magnetic field is vibrated integrally by the magnetic field generated from the magnetic body 25 and the magnet 27, the length of the elastic diaphragm 31 is The longer the extension, the greater the tremor width.

When a high frequency signal is applied to the voice coil 24 attached to the diaphragm 23 to generate a buzzer sound, the buzzer sound is transmitted to the outside through the sound hole 30 formed at the bottom of the case 21.

However, the sound / vibration generating device having the above structure has the following problems.

First, in the case of the communication sound / vibration generating device shown in FIG. Becomes difficult to occur.

Therefore, when the magnetic field of the magnet is small, the attraction force and repulsive force with the magnetic field generated in the single-phase coil are weakened, and thus the vibration force is weakened.

In addition, the length of the elastic diaphragm is connected to the magnetic body in the lower portion to transfer the vibration force to the case is short, so that the width of the two magnetic bodies and the magnet is small, there is a disadvantage that only a weak vibration force is transmitted to the case.

Second, in the case of having a structure in which a magnetic material and a magnet are combined as shown in FIG. 2, the magnetic field may be formed to be somewhat larger and the ballistic vibrating plate may be formed to be longer than the magnetic field generated in the single phase coil. This is not transmitted vertically to the magnet, making it impossible to generate large magnetic forces.

In addition, since a space for increasing the magnet is secured, even if a magnet having a large specific gravity is disposed, the length of the elastic diaphragm may be extended, thereby causing it to fail to bear the load and to be damaged.

It is an object of the present invention to provide a vibration generating device capable of transmitting a large vibration force to a case by allowing a magnet to generate a strong magnetic field and allowing a magnetic field generated in a single phase coil to be vertically formed in the magnet region.

1 and 2 illustrate the structure of a communication sound / vibration generating device according to the prior art.

3 is a view showing the structure of a vibration generating device according to the present invention.

Figure 4 is a view for explaining the vibration of the vibrator of the vibration generating device according to the present invention.

* Description of the symbols for the main parts of the drawings *

50: case 51a: first elastic diaphragm

51b: second elastic diaphragm 55: nonmagnetic material

57: magnet 58: fixed portion

59: single-phase coil

In order to achieve the above object, a vibration generating device according to the present invention,

Hermetic case for emitting a vibration force;

A vibrator combining a nonmagnetic material and a magnet in the center of the case;

Dual elastic diaphragm for supporting the vibrator coupled to the nonmagnetic material and the magnet; And

It characterized in that it comprises a single-phase coil disposed in the lower center region of the case below the magnet.

Here, a fixing part for transmitting the vibration force transmitted from the vibrator coupled to the nonmagnetic material and the magnet while supporting the double elastic diaphragm is disposed on both sides of the case, the single-phase coil is a magnetic field and low frequency generated in the magnet It is characterized in that it is arranged at the bottom of the case so as to be perpendicularly cross with each other and the magnetic field of the progress coil generating a magnetic field by the signal.

In addition, the material of the nonmagnetic material is characterized by using a tungsten-based metal having a specific gravity.

According to the present invention, by attaching a vibrator composed of a nonmagnetic material and a large magnet and a double elastic diaphragm, there is an advantage that the strong vibration force by the magnetic field can be transmitted to the front of the case.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a view showing the structure of a vibration generating device according to the present invention.

As shown in FIG. 3, a nonmagnetic material 55 is disposed in the center of the case 50 to surround and couple the magnets 57, and the nonmagnetic material 55 and the magnets 57 are formed of a vibration generator. It acts as a vibrator and is fixed to the case 50 by double elastic diaphragms 51a and 51b by forming a first elastic diaphragm 51a and a second elastic diaphragm 51b at both edges of the nonmagnetic material 57.

The nonmagnetic material 55 surrounding the magnet 57 does not function to be magnetized by the magnetic field of the magnet 57 to generate a magnetic field. The nonmagnetic material 55 has a high specific gravity while fixing the magnet 57. ) To increase the vibration force.

In addition, there is an advantage that can increase the thickness of the magnet 57 is coupled by varying the shape of the nonmagnetic material (55).

As the size and specific gravity of the nonmagnetic material 55 and the magnet 57 increase, the dual structure elastic diaphragms 51a and 51b are rigidly fixed to both sides of the nonmagnetic material 55 so as to transmit the vibration force. 50).

The vibration generating device of the present invention removes the voice coil to remove the buzzer sound by applying a high frequency signal, and transmits only pure vibration force to the outside of the case.

Therefore, since the buzzer sound is not emitted by the voice coil, the case space can be secured. The vibration force of the vibrator having the coupling structure of the nonmagnetic material 55 and the magnet 57 is transmitted to the case 50 along the double elastic diaphragms 51a and 51b.

By forming the case 50 including the vibrator in a completely sealed type, it is possible to prevent external shocks or foreign substances from being introduced to enable safe operation. In addition, the single-phase coil 59 for forming a magnetic field by a low frequency signal is disposed in the lower portion of the vibrator composed of the nonmagnetic material 55 and the magnet 57, that is, the lower center of the case 50.

The vibration generating apparatus having the structure as described above generates a vibration signal through the following process.

When a low frequency signal of 50 to 200 Hz is applied to the vibration generating device, a magnetic field is formed by the low frequency signal in the single phase coil 59. Since the single-phase coil 59 is disposed at the lower end of the vibrators 55 and 57 to which the magnet 57 and the nonmagnetic material 55 are coupled, the magnetic field generated by the single-phase coil 59 is perpendicular to the magnet 57. ) Is formed in the area.

Then, the attraction force and repulsive force generated by the magnetic field generated in the single-phase coil (59) by the magnetic field formed in the magnet 57 periodically generates a vibrator coupled to the nonmagnetic material 57 and the magnet 55 Up and down vibration movement.

The magnetic field generated by the single-phase coil 59 is formed perpendicular to the magnet 57, and the size of the magnet 57 is also larger than that of the conventional one, so that the large magnetic fields cross each other perpendicularly to each other so that the vibrators 55 and 57 are formed. ) Vibrates greatly.

The vibration of the nonmagnetic material 55 and the magnet 57 is transmitted to the first elastic vibration plate 51a and the second elastic vibration plate 51b which are respectively coupled to both edges of the nonmagnetic material 55 and the first and The second elastic diaphragms 51a and 51b transmit vibrations to the case 50. In the region where the case 50 and the first and second elastic diaphragms 51a and 51b are fixed, the fixing part 58 is disposed to transmit vibrations and support the vibrators 55 and 57. , So that the vibration force can be transmitted to the case 50 as much as possible.

4 is a view for explaining the vibration of the vibrator of the vibration generating device according to the present invention.

As shown in FIG. 4, the vibrators 55 and 57 of the vibration generating device are integrally formed with the nonmagnetic material 55 modeling the magnet 57 surrounding the top and both sides. By reducing the thickness or changing the shape of the nonmagnetic material 55, the size of the magnet 57 to be inserted can be changed.

The specific gravity of the nonmagnetic material 55 and the specific gravity of the magnet 57 were increased to allow the vibrators 55 and 57 to have a large vibration force by the magnetic field.

In addition, the magnet 57 inserted into the nonmagnetic material 55 intersects the single phase coil 59 that generates a magnetic field by a low frequency signal perpendicularly. As shown in the figure, the magnetic flux lines generated from the N-type magnetic poles of the magnet 57 are vertically bridged to the single-phase coil 59, and the magnetic flux lines generated from the single-phase coil 59 are also the magnets 57. ) Perpendicularly intersect with) to generate attractive force and repulsive force by strong magnetic force.

In addition, the shape of the nonmagnetic material 55 having a high specific gravity is deformed and the size of the magnet 57 is increased to increase the overall specific gravity of the vibrators 55 and 57, and is disposed at the lower end of the single-phase coil 59 to be vertical. Since the magnetic flux lines are formed to receive a large vibration force, the elastic diaphragm has a double structure so that the vibration force can be transmitted while being firmly supported.

As described in detail above, the present invention has the effect of increasing the vibration force by using a nonmagnetic material for the vibrator of the vibration generating device and increasing the magnet.

In addition, the single-phase coil is arranged at the bottom of the magnet so that the magnetic flux lines are vertically bridged to generate a large magnetic force.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

Claims (4)

Hermetic case for emitting a vibration force; A vibrator combining a nonmagnetic material and a magnet in the center of the case; Dual elastic diaphragm for supporting the vibrator coupled to the nonmagnetic material and the magnet; And Vibration generating device comprising a single-phase coil disposed in the center area of the lower case of the lower portion of the magnet. The method of claim 1, And a fixing part provided on both sides of the case while supporting the double elastic diaphragm to transmit the vibration force transmitted from the vibrator coupled with the nonmagnetic material and the magnet to the case. The method of claim 1, The single-phase coil is disposed on the lower end of the case so as to vertically cross with each other the magnetic field of the magnitude of the magnitude generated by the magnetic field generated by the magnet and the low-frequency signal perpendicular to each other. The method of claim 1, The material of the nonmagnetic material is a vibration generating device using a tungsten-based metal having a specific gravity.