The present invention relates to a speaker system or a device having a speaker system. Further, more particularly, the present invention relates to a speaker system in that a waveguide is attached to a speaker, and the opening surface of the waveguide is attached to a plane so as to be almost perpendicular to the plane, and a device having that.
Since a speaker generates sound waves by the vibration of diaphragm, the phases are shifted 180 degree between a vibration generated in front of the diaphragm and a vibration generated at the back. Therefore, in order to obtain good frequency characteristics and efficiency, it is necessary to avoid that the vibration generated at the back does not interfere with the vibration generated in front. As a fundamental structure, a sealed space or an almost sealed space is needed at the back.
Moreover, in a device in that the area to attach a speaker cannot be sufficiently secured as a front panel of a television receiving set, a sealed or a semi-sealed space is secured by placing the main body of a speaker in the back space of a cabinet of a television receiving set. And a technique to lead sound waves generated in front of a diaphragm to the front panel of the television receiving set by a waveguide is taken.
For example, in the Patent Publication No. 3449571, in FIG. 5, an example that a speaker is set in the back space of a cabinet of a television receiving set, and sound is led to the front panel of the television receiving set by a waveguide has been introduced.
Moreover, in FIG. 6 in the same patent, an example that a speaker is attached to a back cabinet (sealed box) in the device of FIG. 5 been introduced.
Moreover, in FIGS. 1 to 4 in the same patent, a television receiving set in which a sound at the back of a diaphragm of a speaker is radiated diagonally forward by a reflecting member, and avoiding the interference between a sound in front of the diaphragm and the sound at the back has been introduced.
However, the present invention relates to a speaker system contrived to lead a speaker sound by a waveguide and a device having it, in such system, the following problems are caused.
a. The opening of a waveguide has to be provided at a position that a listener facing the device feels to be most natural as a sound source, toward the listener.
b. It has limitations in a speaker attaching position and the position of the opening section of the waveguide, because the opening surface of the waveguide and a diaphragm have to be placed so as to be almost in parallel.
c. Applying to a device with thin depth is difficult. More particularly, applying to a thin type television using an LCD or the like is difficult.
d. A reflective phenomenon of sound waves (tube resonance) is generated from the opening surface (the end part) of the waveguide toward into the tube, and frequency characteristics are disturbed.
In the present invention, a speaker is put in a sealed or semi-sealed cabinet, and a speaker sound is led from the opening of the speaker in the cabinet to the front of a device in a plate or a plane form by a waveguide. And one side of the opening surface of the waveguide is attached to abut the plate or the plane of the front surface of the device. Thereby, a speaker system that can give a feeling as if there is an actual sound source at the position to a listener is proposed to solve the aforementioned problems.
A speaker system according to the present invention does not need depth, and also in the case of fixed to a device emitting sounds forward, it can avoid having limitation in the attaching position and the attaching area of a speaker in designing. Further, it becomes unnecessary to provide the opening of a speaker on the front surface of a device. Therefore, the degree of freedom in downsizing and a design of the device is remarkably improved. More particularly, by practically using to a thin-type device, suitable results can be obtained.
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An example of practically using the present invention to a television receiving set
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Partially magnified perspective views of the embodiment of
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An embodiment of applying the present invention to sound system of automobile
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An embodiment of applying the present invention to game equipment
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Views explaining the fundamental concept of the present invention
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A view showing air flow resistance element
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Graphs explaining the frequency characteristics of speaker having the principles shown in
[
A perspective view of the speaker having the principles shown in
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Graphs representing the frequency characteristics of the speaker shown in
a and 5b are typical views for explaining the fundamental concept of the present invention. Referring to
If the phases of the direct wave W that is directly transmitted to the listener M side from the opening section of the waveguide and the reflected wave R transmitted by reflecting to the plane P are shifted half of the wavelength, cancellation by interference occurs. Therefore, a thickness H of the waveguide and the shape should be carefully studied according to a required reproducing frequency band. For example, when in reproducing 7 KHz, if the speed of sound is assumed to be 340 m/sec, one wavelength becomes approximately 5 cm, and cancellation occurs when the thickness H is approximately 2.5 cm. Accordingly, in a general device, the thickness H is desirable to be 2.5 cm or less.
By the way, waveguides enable to efficiently lead the sound of a speaker sound source to an opening end. However, since sound impedance extremely varies between at the tube section and the opening end, a reflective phenomenon of sound waves is generated at the opening end. It is known that therefore, forward waves and reflected (backward) waves are superimposed, and increase of proper sound called tube resonance occurs and the frequency characteristic is remarkably deteriorated.
Referring to
Not only to reduce tube resonance, the air flow resistance element 63 operates to prevent dirt, dust or the like from coming in from the opening section of the waveguide.
a, 7b and 7c are graphs at the time when the frequency characteristic was measured for explaining the operation of a speaker having the principles shown in
a is a graph at the time when the frequency characteristic of a sound outputted by the speaker was measured without waveguide at a distance of 15 cm on a speaker axis. That is, it is the original sound of the speaker.
b is a graph at the time when a waveguide of 80 cm in length was attached to this speaker, and the frequency characteristic was measured at a distance of 15 cm from the center of the opening on the same plane as the opening of the waveguide.
c is a graph at the time when on contacting one side S of the opening of the waveguide to the plane P, the frequency characteristic was measured at a distance of 15 cm from the center of the opening on the same plane as the opening of the waveguide.
Note that, also in the cases of
In the output shown in the graph of
On the other hand, in the output shown in the graph of
This experiment result shows that if contacting one side forming the surface of the opening section of a waveguide to a plane so that the opening surface is almost perpendicular to the plane, increase of sound occurs in a right-angled direction to the plane by reflection by the plane, and the frequency characteristic covers a sound range required in general audio equipment. That is, the listener M who faces the plane from a horizontal direction to the surface formed by the opening can receive sufficient sound pressure enough to feel as if there is a sound source near the opening surface.
Of course, composite sound of the sound directly diffused from the opening of the waveguide and the sound reflected by the plane is diffused to all the direction except for the plane side. Therefore, we inspected about distribution of the sounds diffused to each direction in the model shown in
By using the device shown in
a is a graph at the time when it was measured about the angle θ on a parallel plane to the plane P, and
From
Also from
In any rotations, plus values were observed from 0 degree to 30 degree. And it is shown that by providing the plane P, efficiency of the output is superior to the point just above the opening of the waveguide not having the plane P.
An actual sound field is a plane not only a horizontal plane and a vertical plane but also including a plane between them, and a complicated sound field will be formed according to a distance and an angle from a sound source, a frequency or the like. However, practically, in the case where a waveguide is set from a floor toward the ceiling, since a listener M listens to a sound facing the plane P at a position as that the listener M somewhat looks down the opening surface of the waveguide, to form a sound field toward the direction is most significant. And, from the experiment results shown in
Moreover, more particularly, from the measurement result shown in
Hereinafter, embodiments of the present invention will be described with reference to drawings. Note that, in the embodiments 1 to 3, the aforementioned air flow resistance element 63 existing at the opening end of the waveguide is omitted to be shown in the drawings to simplify.
The pedestals 5a and 5b are hollow box forms, and are also function as speaker boxes. Speakers 6a and 6b are attached upwardly inside the pedestals 5a and 5b. The fronts of diaphragms of the speakers 6a and 6b are openings, and the sections of the bottom sections of the leg poles 4a and 4b completely cover the speaker openings. For instance, in the case where the speaker openings are larger than the top sections of the leg poles 4a and 4b, the leg poles 4a and 4b are formed to be downwardly wider. Accordingly, sound in the fronts of the diaphragms of the speakers 6a and 6b are collected and led upwardly by the leg poles 4a and 4b also functioning as waveguides.
In the example of
In the example of
In the embodiment of
Note that, in this embodiment, it has dealt with that the leg poles 4a and 4b have the form supporting the television receiving set from lower. However, it may be formed to be hanged from the upper (the ceiling), and speakers may be attached on their bases.
In the embodiment 2 shown in
In this embodiment, a waveguide 43 is attached to a proper place such as the interior, front, back of the frame 41 of the Japanese pinball machine 40, and sound is led from the speakers 42 attached to the upper left and right corners of the Japanese pinball machine to the height of the player's face. The waveguide 43 is attached so as to cover the front openings of the speakers 42, and the other openings 44 are set to be a positional relationship that one side of the opening surface tightly adheres to the glass surface covering the surface of the Japanese pinball machine, and the opening surface of the waveguide and the glass surface are almost perpendicular to each other. And a sound source is generated in this position, and the player facing the face of the board is brought to listen to a sound coming from the front at just in the height of the ears. Therefore, extremely natural sound feeling can be obtained.
Note that, in game machines such as the Japanese pinball machine 40, there is one in that the frame 41 with a put-in glass can be opened and closed as a door for maintenance check. In the case, by attaching the speakers 42 and the waveguides 43 to the main body side of the Japanese pinball machine, a door may be positioned so that when the door frame 41 is closed, one side of the opening 44 just abuts the glass surface.
Further, by attaching only the speakers 42 to the main body side of the Japanese pinball machine, it may be positioned so that when the door frame 41 is closed, the opening of the waveguide on the speaker side covers the speaker opening.
The speaker system according to the present invention does not need depth; it does not make a user conscious the presence of a speaker. Therefore, not only limited to the aforementioned embodiments, by attaching it for example to a wall having a plane, a painting and an advertising board so that an opening surface is perpendicular, it makes possible that a BGM, a commentary, a commercial or the like can be naturally heard from the position.
Furthermore, the waveguide is unnecessary to be a straight tube, and it can be curvilinear according to the form of an attached part.
Number | Date | Country | Kind |
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2007-258845 | Oct 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/066554 | 9/12/2008 | WO | 00 | 3/30/2010 |
Publishing Document | Publishing Date | Country | Kind |
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WO2009/044618 | 4/9/2009 | WO | A |
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