KR20190016659A - Sound plate - Google Patents

Abstract

The present invention relates to a sound plate, wherein sound reflectivity and scattering rate are able to be variously controlled, increase of sound absorption and diffusion rates are able to be promoted, and a sound absorption effect is able to be controlled over all ranges, such that a control efficiency of reflective sound is able to be improved. According to the present invention, the sound plate is separately formed with planar front and rear sound absorption materials. The front sound absorption material comprises: vertically penetrated second and third sound absorption holes symmetrically formed to be gradually lengthened in the horizontal direction with respect to a central slit-shaped first sound absorption hole of the shortest length; and a pair of vertically penetrated arced sound diffusion holes faced formed on the upper and lower parts of the first sound absorption hole by being symmetrically faced with each other. The planar rear sound absorption material comprises: a first sound segment part formed in a direction where a plurality of first slit holes with a size corresponding to the size of the first sound absorption hole cross the first sound absorption hole; second and third sound segment parts formed in a direction where a plurality of second and third slit holes with a size corresponding to the size of the second and third sound absorption holes cross the second and third sound absorption holes; and a fourth sound segment part formed in a direction where a plurality of fourth slit holes with a size corresponding to the size of the sound diffusion hole cross the sound diffusion hole. Moreover, the planar rear sound absorption material is formed with the same material and size as that of the planar front sound absorption material and has a thickness less than that of the planar front sound absorption material.

Description

Sound plate {Sound plate}

More particularly, the present invention relates to an acoustic plate, and more particularly, to an acoustic plate capable of controlling a variety of negative reflectance and egg laying rate, increasing a sound absorption rate and a spreading rate, Thereby improving the control efficiency.

In general, the difference in the sound felt by the actual listener depending on the installation space of the speaker is very serious. The difference of the sound is caused by the reflection sound rather than the direct sound due to a considerable amount of the listener's sound. .

In order to actively control the reflection sound, conventionally, in the acoustic reflection plate 1 of FIG. 1, a plurality of diaphragms 3 are installed in a direction to induce reflection so as to reflect the sound waves emitted from the speaker in a specific direction, And a box-shaped body 4 whose surface is opened, which is mainly provided on both sides of the speaker and used for controlling the reflected sound.

The acoustic scattering plate 2 of Fig. 2 has a structure in which a body 6 having a plurality of irregularly shaped protrusions 5 is formed so as to improve sound quality by scattering a standing wave generated by interference between them . However, since the reflectance of the acoustic reflector and the scattering rate of the acoustic scattering plate are fixed, the conventional acoustic reflector and the acoustic scattering plate require a lot of installation and setting because the respective positions must be changed in order to control the reflected sound. And it is impossible to control the egg production rate in various ways.

Registered Utility Model No. 0243298 (Notice of September 26, 2001.) "Multipurpose Acoustic Panel"

Accordingly, it is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide an ultrasonic transducer capable of variously controlling the reflectance and the egg- So that the controllability of the reflected sound can be improved.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided an acoustic panel, comprising: a first slit-shaped first sound absorbing hole having a shortest length, The first sound absorbing hole and the third sound absorbing hole are formed so as to penetrate up and down, and an arcuate sound dispersion hole formed symmetrically with respect to each other on the upper and lower sides of the first suction hole, A front panel sound absorbing material formed in a plate shape; A plurality of first slit holes having a size corresponding to the first sound absorbing holes are formed in a direction orthogonal to the first sound absorbing holes and a plurality of first sound dividing portions are formed in a size corresponding to the second sound absorbing holes and the third sound absorbing holes, Second slit holes and a third slit hole formed in a direction orthogonal to the second sound absorption hole and the third sound absorption hole, and a third sound separation portion, wherein a plurality of A fourth sound dividing section formed in a direction orthogonal to the fourth slit hole dissipating hole and formed of the same material and size as those of the plate front side sound absorbing material and separated from the plate rear side sound absorbing material thinner than the front side sound absorbing material .

As described above, according to the present invention, the second sound-absorbing bore and the third sound-absorbing bore are formed symmetrically with respect to each other on both sides of the first sound-absorbing hole having the shortest length in the middle, 1 negative sound dispersion holes are symmetrically formed on the top and bottom of one sound absorption hole to form a front sound absorption material, and the first, second, and third sound absorption holes and the sound dispersion holes, , 2, 3, 4 slit holes, and the rear sound absorbers having the first, second, third, and fourth syllable parts are formed to be coupled to each other. Thus, it is possible to control the negative reflectance and the egg- So that the sound absorption effect can be controlled over the entire range and the control efficiency of the reflected sound can be improved.

1 is a perspective view showing an example of a conventional acoustic board.
2 is a perspective view showing another example of a conventional acoustic board;
3 is a sectional view showing a configuration of an acorn board according to the present invention.
FIG. 4 is a photograph showing the combined state of FIG. 3; FIG.
5 is an exploded view showing another embodiment of the present invention.

Hereinafter, a configuration of an acorn board according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a sectional view showing the configuration of an acorn board according to the present invention. FIG. 4 is a photograph showing the combined state of FIG. 3. As shown in FIG. 3, And a plate-like rear sound absorbing material 120 formed of the same material and size as those of the plate front sound absorbing material 110 and thinner than the front sound absorbing material 110.

The front sound absorbing member 110 includes a second sound absorbing hole 112 formed to be symmetrical with respect to the left and right sides of the first sound absorbing hole 111, And a third sound absorbing hole 113. The first sound absorbing hole 113 and the second sound absorbing hole 113 are symmetric with each other on the upper and lower sides of the first suction hole. And a plurality of first slit holes 121a corresponding to the first sound absorbing holes 111 are formed in a direction perpendicular to the first sound absorbing holes 111 A plurality of second slit holes 122a and third slit holes 123a having a size corresponding to the second sound absorption hole 112 and the third sound absorption hole 113 are formed, A second negative tone section 122 and a third negative tone section 123 formed in a direction orthogonal to the second sound absorption hole 112 and the third sound absorption hole 113 are formed, And a fourth negative tone section 124 is formed in a direction corresponding to the hole 114 and in which a plurality of fourth slit holes 124b are orthogonal to the negative tone dispersion hole 114. [

4, the first syllable part 121 of the rear sound absorbing material 120 is inserted into the first suction hole () of the front sound absorbing material 110, And the second syllable part 122 and the third syllable part 123 of the rear sound absorbing material 120 are positioned in the second sound absorbing hole 112 and the third sound absorbing hole 113 of the front sound absorbing material 110 And the third syllable part 123 of the rear sound absorbing material 120 is positioned in the sound dispersion hole 114 of the front sound absorbing material 110. The first syllable part 121 is formed as a plurality of first slit holes 121a in a direction orthogonal to the first sound absorption hole 111 and the second syllable part 122 and the third syllable part 123 Is formed by a plurality of second slit holes 122a and a third slit hole 123a in a direction orthogonal to the second sound absorbing hole 112 and the third sound absorbing hole 113. The fourth syllable portion 124, Is formed as a plurality of fourth slit holes (124b) in a direction orthogonal to the sound dispersion holes (114). Here, the reference numeral 130 is a case formed of a magnesium metal, and is formed as a rectangular shape open to the upper side of the size corresponding to the front sound absorbing member 110 and the rear sound absorbing member 120.

When the sound wave is generated through a speaker or the like, the sound wave is primarily transmitted to the first, second, and third sound absorbing holes 111 and 112 of the front sound absorbing member 110 113, and the sound dispersion hole 114 of the rear sound absorbing member 120, resonance type sound absorption is performed by bumping against the respective side walls, and the first, second, third and fourth syllable parts 121, 123, and 124, and then reflected and spread out evenly. At this time, sound waves of a high frequency region are absorbed in the bass region toward the third sound-absorbing holes 113, the second sound-absorbing holes 112 and the first sound-absorbing holes 111, and the sound- . The case 130 formed of a magnesium metal material has an excellent effect of absorbing vibration, and the present invention can simultaneously control sound absorption and dispersion. 5, the front sound absorbing material 110a and the rear sound absorbing material 120a may be formed of wood.

As described above, according to the present invention, the second sound-absorbing bore and the third sound-absorbing bore are symmetrically formed symmetrically with respect to the first slit-shaped first sound-absorbing hole having the shortest length, Shaped sound dispersion holes are formed symmetrically with each other to form a front sound absorbing material, and a plurality of first, second, and third sound absorbing holes corresponding to the first, 3, 4 syllable parts composed of the slits 3 and 4 are formed and combined with each other, the negative reflectance and the egg-laying rate can be controlled in various ways, and the sound absorption rate and the diffusion rate can be increased And the sound absorption effect can be controlled over the entire range, so that the control efficiency of the reflection sound can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, . It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

110.110a: Front sound absorbing material
111: first sound absorbing ball 112: second sound absorbing ball
113: Third sound absorption hole 114: Sound dispersion hole
120, 120a: rear absorbing material
121: first syllable part 121a: first slit ball
122: second syllable part 122a: second slit ball
123: third syllable part 123a: third slit ball
124: fourth syllable part 124a: fourth slit ball
130:

Claims (4)

A second sound absorbing hole 112 and a third sound absorbing hole 113 are formed symmetrically with respect to the left and right sides of the first sound absorbing hole 111, And an arcuate sound-dispersing hole 114 formed symmetrically with respect to the first sound-absorbing hole 111 and opposed to the first sound-absorbing hole 111 and passing through the first sound- A front sound absorbing material (110)
A plurality of first slit holes 121a having a size corresponding to the first sound absorption holes 111 are formed in the direction perpendicular to the first sound absorption holes 111, A plurality of second slit holes 122a and third slit holes 123a corresponding to the sound absorption holes 112 and the third sound absorption holes 113 are formed in the second sound absorption holes 112 and the third sound absorption holes 113 And a plurality of fourth slit holes 124b having a size corresponding to the sound dispersion hole 114. The second slit 122 is formed in a direction orthogonal to the first slit hole 124 and the third slit 123, The fourth sound divider 124 is formed in a direction orthogonal to the sound dispersion hole 114 and is formed of the same material and size as the front sound absorbing material 110 of the plate, And a sound absorbing material (120) having a thin plate shape.
The method according to claim 1,
Further comprising a casing part (130) formed of an upwardly openable magnesium material capable of receiving the front sound absorbing material (110) and the rear sound absorbing material (120).
The method according to claim 1,
Wherein the front acoustic absorber (110) and the rear acoustic absorber (120) are formed of a foamed styrene resin.
The method of claim 3,
Further comprising a front sound absorbing material (110) and a rear sound absorbing material (120) formed of wood together with the front sound absorbing material (110) and the rear sound absorbing material (120) made of the foamed styrene resin.

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