KR0174471B1 - Dome Tweeter Speaker Using Gas Molecular Motion - Google Patents

Abstract

The present invention relates to a dome tweeter speaker using the molecular motion of the gas, comprising a front panel assembled to the object to be attached and attached to the front of the speaker, a guide ring installed under the front panel and a donut shape, A piezoelectric element supported by the guide ring and vibrating according to the current applied through the terminal, a piezoelectric element supported by the guide ring and vibrating according to the vibration of the piezoelectric element, and supported by the guide ring and A vibration plate vibrating according to vibration to generate sound waves, and a gas filled between the vibration plate and the piezoelectric element to vibrate the vibration plate by molecular motion activated according to the vibration of the piezoelectric element. Inject and apply a current directly to the piezoelectric element to vibrate the piezoelectric element, depending on the vibration of the piezoelectric element The vibration of the diaphragm vibrates by the molecular movement of the activated gas, so that the sound can be dissipated by distortion and sound quality.

Description

Dome Tweeter Speaker Using Gas Molecular Motion

The present invention relates to a dome tweeter speaker using a molecular motion of the gas, in particular injecting the gas between the piezoelectric element and the diaphragm and vibrating the piezoelectric element by applying a current directly to the piezoelectric element, the gas activated according to the vibration of the piezoelectric element It relates to a dome tweeter speaker using the molecular motion of the gas to prevent the distortion and sound quality degradation by vibrating the diaphragm by the molecular motion of the.

In general, a speaker is called a woofer for outputting low ranges, a middle for outputting midranges, and a tweeter for outputting high ranges according to the output range, and is suitable for outputting each range. It is.

The configuration of a conventional tweeter that outputs a high range of such speakers is a bottom plate (70, Bottom Plate) located at the bottom of the tweeter as shown in Figure 1, and attached to the upper side of the lower plate 70 in a donut shape The magnet 71, the donut-shaped magnet 71 attached to the upper side of the magnet 71, the guide ring 73 provided on the magnet 71, and the guide ring 73. The diaphragm 74 which is supported and radiates sound by vibration, the front panel 75 which is located above the guide ring 73, and is bonded to the lower part of the diaphragm 74 and cylindrically A bobbin 77 that is fluidly fitted to the pole piece 76 of the lower plate 70, and a current wound from the terminal 78 wound around the bobbin 77 and installed in the front panel 75. It consists of a voice coil 79.

The operation of the conventional tweeter configured as described above is as follows.

First, when an audio signal is applied to the voice coil 78 through the terminal 78, a magnetic field is generated in the cylindrical axis direction inside the bobbin 77 on which the voice coil 79 is wound. At this time, a magnetic circuit is formed between the pole piece 76 of the lower plate 70 connected to the magnet 71 and the upper plate 72. Therefore, the bobbin 77 receives suction and repulsive force in the cylindrical axis direction and reciprocates in the vertical direction, and the vibration plate 74 adhered to the upper portion of the bobbin 77 vibrates. When the diaphragm 74 vibrates, air in contact with the diaphragm 74 also vibrates so that sound is radiated into the air.

However, in order to improve the efficiency and power of the conventional tweeter, a strong magnetic field is required, so the size of the magnet and the thickness of the voice coil have to be thickened, so the weight and volume of the speaker are increased, and heat is generated due to the resistance component of the voice coil. This occurred, the voice coil was difficult to raise the sound pressure by weight.

Accordingly, the present invention was invented to solve the above problems, injecting a gas between the piezoelectric element and the diaphragm and applying a current directly to the piezoelectric element to vibrate the piezoelectric element and activate the gas according to the vibration of the piezoelectric element. Its purpose is to provide a dome tweeter speaker using gas's molecular motion, which improves efficiency by preventing distortion and sound deterioration by vibrating the diaphragm by vibrating the diaphragm. There is this.

The present invention for achieving the above object comprises a front panel which is assembled to the counterpart to be attached to the configuration of the front of the speaker, a guide ring installed under the front panel and a donut shape, by the guide ring A piezoelectric element supported and vibrating according to a current applied through the terminal, a vibration plate supported by the guide ring and vibrating according to the vibration of the piezoelectric element to generate sound waves, and a piezoelectric element filled between the vibrating plate and the piezoelectric element. Characterized in that the gas made to vibrate the diaphragm by the activated molecular motion in accordance with the vibration.

1 is a view showing the structure of a conventional dome tweeter speaker.

2 is a diagram showing the structure of the present invention.

3 is a plan view of the present invention.

* Explanation of symbols for main parts of the drawings

1: front panel 2: guide ring

3: terminal 4: piezoelectric element

5: diaphragm 6: gas

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

First, the configuration of the present invention, as shown in Figs. 2 and 3, the front panel (1) is assembled to the counterpart to be attached to the constituting the front of the speaker, and is installed under the front panel (1) A donut shaped guide ring 2, a piezoelectric element 4 supported by the guide ring 2 and vibrating according to a current applied through the terminal 3, and supported by the guide ring 2 And a vibrating plate 5 which vibrates according to the vibration of the piezoelectric element 4 and generates sound waves, and is filled between the diaphragm 5 and the piezoelectric element 4 and activated according to the vibration of the piezoelectric element 4. It consists of a gas 6 which vibrates the diaphragm by molecular motion.

The piezoelectric element 4 and the diaphragm 5 may be vacuumed and filled with nitrogen (N) or argon (Ar) therebetween.

Referring to the operation of the present invention made as described above are as follows.

First, when an audio signal is applied to the terminal 3, a current as an audio signal is input to the piezoelectric element 4 electrically connected to the terminal 3. When the current is input to the piezoelectric element 4, the piezoelectric element 4 vibrates according to the amount of the input current, and heat is generated as the piezoelectric element 4 vibrates, causing the piezoelectric element 4 and the diaphragm ( It accelerates the molecular motion of the gas (6) which is filled between 5). Therefore, the force which moves the diaphragm 4 by the molecular motion of the gas 6 generate | occur | produces, and the diaphragm 4 vibrates. When the diaphragm 4 vibrates, air in contact with the diaphragm 4 also vibrates, so that sound is radiated into the air.

On the other hand, since the configuration of the present invention does not include the magnet, the upper plate, the lower plate can not only reduce the weight of the product but also can be miniaturized, it can be installed in a narrow space.

In addition, since the audio signal is directly input to the piezoelectric element without using the bobbin and the voice coil, the response is improved and the sound distortion is reduced.

As described above, the present invention injects a gas between the piezoelectric element and the diaphragm, vibrates the piezoelectric element by directly applying a current to the piezoelectric element, and vibrates the diaphragm by molecular motion of the gas activated by the piezoelectric element. Since it radiates sound, it improves efficiency by preventing distortion and sound quality deterioration, and there is no need for a magnet, an upper plate, and a lower plate constituting a magnetic circuit, thereby reducing weight and volume, making it easy to install in a narrow space.

Claims (3)

In a high-pitched speaker comprising a front panel (1) that is assembled to the place to be attached to the configuration of the front of the speaker, the guide ring (2) which is installed under the front panel (1) and has a donut shape, and this guide It is supported by the piezoelectric element 4 and the guide ring 2, which is supported by the ring 2 and vibrates according to the current applied through the terminal 3, and vibrates according to the vibration of the piezoelectric element 4, A diaphragm 5 for generating and a gas 6 which is filled between the diaphragm 5 and the piezoelectric element 4 to cause molecular motion in accordance with the vibration of the piezoelectric element 4 to vibrate the diaphragm. Dome tweeter speaker using the molecular motion of the gas. The dome tweeter speaker according to claim 1, wherein the gas (6) is nitrogen (N). The dome tweeter speaker according to claim 1, wherein the gas (6) is argon (Ar).