Patent Grant
11937046
This application claims priority to Japanese Patent Application No. 2021-14809, filed on Feb. 2, 2021. The entire disclosure of Japanese Patent Application No. 2021-14809 is hereby incorporated herein by reference.
The present invention relates to a sound diffuser and to a diffusion method for expanding the directivity of a loudspeaker system.
U.S. Pat. No. 3,818,959 discloses a technology for expanding the directivity of a loudspeaker system. In the technology disclosed in U.S. Pat. No. 3,818,959, sound from the loudspeaker unit is collected and narrowed down in a small hole, and a drop-shaped diffuser (diffuser) provided in the hole diffuses the sound, thereby expanding the directivity.
In the technology disclosed in U.S. Pat. No. 3,818,959, since sound is effectively narrowed down, a grill with numerous holes is not provided around the narrowing hole. When such a technology is applied to a full-range speaker, air can become trapped in the space between the diffuser and the loudspeaker unit and distort the loudspeaker unit, thereby distorting the sound.
In consideration of the circumstance described above, an object of this disclosure is to provide a technical means that is capable of expanding the directivity without distorting the sound even when applied to a full-range loudspeaker.
This disclosure provides a sound diffuser comprising a first annular control member including a first communication hole and an annular inclined plate that surrounds the first communication hole and is inclined relative to an axial direction of the first communication hole, a second annular control member including a second communication hole and an annular inclined plate that surrounds the second communication hole, houses the first annular control member therein, and is inclined relative to an axial direction of the second communication hole, and a third annular control member that has a plurality of third communication holes and surrounds the second annular control member.
Selected embodiments will now be explained in detail below, with reference to the drawings as appropriate. It will be apparent to those skilled from this disclosure that the following descriptions of the embodiments are provided for illustration only and not for the purpose of limiting the invention as defined by the appended claims and their equivalents.
As shown in
The first annular control member 10 is a funnel-shaped component with a first communication hole 11 open at the center. The first annular control member 10 has the first communication hole 11 and an annular inclined plate 12 that surrounds this first communication hole 11 and that is inclined relative to the axial direction of the first communication hole 11. In a state in which the diffuser 1 is attached to the loudspeaker unit 2, the axis of the first communication hole 11 coincides with the central axis O of the loudspeaker unit 2.
The second annular control member 20 is a funnel-shaped component with a second communication hole 21, which is coaxial with the first communication hole 11, open at the center. The second annular control member 20 has the second communication hole 21 and an annular inclined plate 22 that surrounds this second communication hole 21, houses the first annular control member 10 therein, and is inclined relative to the axial direction of the second communication hole 21.
In the example shown, the inclined plate 12 of the first annular control member 10 is connected to the inclined plate 22 of the second annular control member 20 via at least one (four in
In the present embodiment, as shown in
In addition, in the present embodiment, as shown in
The third annular control member 30 corresponds to a grill, has a plurality of third communication holes 31, and surrounds the second annular control member 20. In the example shown, the third annular control member 30 includes a plurality of concentric crosspiece elements 32 and a plurality of ribs 33 that extend radially outwardly from the center of the diffuser 1, and the plurality of third communication holes 31 are essentially rectangular communication holes surrounded by the crosspiece elements 32 and the ribs 33. Thus, as shown in
The support portions 41-44 are provided at four locations in the corners of the diffuser 1. Through-holes 41a-44a are open in the support portions 41-44. Screws are inserted in the through-holes 41a-44a and threaded into female screw holes provided on a baffle plate (not shown), to which the loudspeaker unit 2 is attached, thereby fixing the diffuser 1 to the loudspeaker unit 2.
In the present embodiment, while sound emitted from the loudspeaker unit 2 passes through the first communication hole 11 of the first annular control member 10 of the diffuser 1 and advances, the sound is guided to and advances in the space between the inclined plate 12 of the first annular control member 10 and the inclined plate 22 of the second annular control member 20. Accordingly, its directivity is expanded, and the sound is emitted from the diffuser 1 to the outside. In addition, the sound emitted from the loudspeaker unit 2 passes through the plurality of third communication holes 31 provided in the third annular control member 30 and is emitted from the diffuser 1 to the outside.
In the present embodiment, sound is not narrowed down as in the technology of the above-described U.S. Pat. No. 3,818,959, rather the directivity is expanded by causing the sound to propagate along the surfaces of the inclined plates 12 and 22. Therefore, in the present embodiment, the directivity can be widened without distorting the sound, even when the diffuser 1 is applied to a full-range loudspeaker.
In addition, by this disclosure, the cross-sectional area of the space between the inclined plate 12 of the first annular control member 10 and the inclined plate 22 of the second annular control member 20 increases as the distance from the central axis O increases; thus, sound can easily pass through the space between the inclined plates 12 and 22, thereby enhancing the effect of widening the directivity.
In addition, by the present embodiment, increasing the thickness of the inclined plate 22 of the second annular control element 20 as increasing a distance from the central axis O of the loudspeaker unit 2 produces the following effects. First, since a portion of the inclined plate 22, which is closer to the central axis O, is thinner, the sound emitted from the loudspeaker unit 2 can be easily guided to the space between the inclined plates 12 and 22. Moreover, since a portion of the inclined plate 22, which is more apart from the central axis O, is thicker, the mechanical strength of the inclined plate 22 that supports the inclined plate 12 is high.
In
However, in the application example, the sound-emitting surface of the loudspeaker unit 2 is covered by the diffuser 1. Thus, the sound emitted from the loudspeaker unit 2 passes through the diffuser 1, becomes sound S1 with wide directivity, and is directed toward the floor 4. The sound S1 is reflected from the floor 4 as sound S2 with wide directivity, and is emitted into a spatial region that includes the entire body of the performer U1. The problems described above are thereby resolved.
By experimentation, the present inventors were able to confirm that by providing the diffuser 1 on the front surface of the loudspeaker unit 2, the directivity of the sound emitted from the loudspeaker unit 2 is expanded. Specifically, the sound pressure in the direction of 90 degrees with respect to the drive axis direction of the loudspeaker unit 2 increased from −12 dB to 0 dB at 1 kHz, and increased from −20 dB to −5 dB at 2 kHz. In addition, the sound pressure in the direction of +45 degrees with respect to the drive axis direction of the loudspeaker unit 2 increased from −30 dB to −2 dB at 2 kHz and increased from −30 dB to −9 dB at 4 kHz. Also, it was confirmed that the frequency characteristics of the sound heard by the performer U1 when the diffuser 1 is not provided showed a large dip at 3 kHz, but the large dip at 3 kHz was lessened when the diffuser 1 is provided. It also was confirmed that when the diffuser 1 is not provided, the frequency characteristics of the sound heard by the listener U2 showed a large dip at 3 kHz, but the large dip at 3 kHz was lessened when the diffuser 1 is provided.
One embodiment of this disclosure was described above, but other embodiments of this disclosure are conceivable. The following are examples.
(1) In the above-described embodiment, funnel-shaped inclined plates are employed as the annular inclined plates 12 and 22, but inclined plates having a conical frustum-shaped surface can be employed instead.
(2) In the above-described embodiment, the two inclined plates are inclined such that the cross-sectional area of the space on the inner side of the inclined plate 12 of the first annular control member 10 and the cross-sectional area of the space on the inner side of the inclined plate 22 of the second annular control member 20 increase in the direction in which sound is emitted from the loudspeaker unit 2. However, the two inclined plates can be inclined such that the cross-sectional area of the space on the inner side of the inclined plate 12 of the first annular control member 10 and the cross-sectional area of the space on the inner side of the inclined plate 22 of the second annular control member 20 decrease in the direction in which sound is emitted from the loudspeaker unit 2.
(3) In the above-described embodiment, the two inclined plates formed of the inclined plate 12 of the first annular control member 10 and the inclined plate 22 of the second annular control member 20 are provided in the diffuser 1, but a greater number of inclined plates can be provided in the diffuser 1.
(4) The first annular control member 10 can also be configured such that the thickness of the inclined plate 12 increases in the direction in which sound is emitted from the loudspeaker unit 2. As shown in
(5) The degree of inclination of the inclined plate 22 of the second annular control member 20 can be made larger than the degree of inclination of the inclined plate 12 of the first annular control member 10, relative to the sound emission direction of the diffuser 1, i.e., in the direction of the central axis O of the loudspeaker unit 2. In this case, since the cross-sectional area of the space between the inclined plate 12 of the first annular control member 10 and the inclined plate 22 of the second annular control member 20 increases in the sound emission direction, sound can easily pass therethrough, thereby enhancing the effect of widening the directivity.
(6) The four support plates 13 that support the first annular control member 10 are supported by the second annular control member 20, but these plates can be supported by the third annular control member 30. In this case, the support plates 13 are supported by the crosspiece elements 32, the ribs 33, or both, which constitute the third annular control member 30.
(7) In the above-described embodiment, the drive axis of the loudspeaker unit 2, the axis of the first communication hole 11, and the axis of the second communication hole 21 are coaxial. However, from the standpoint of directivity control, the three axes need not be coaxial. For example, a configuration in which the axis of the first communication hole 11 is at an angle with respect to the drive axis of the loudspeaker unit 2, for example, a configuration in which the axis of the first communication hole 11 is tilted toward the legs of the performer U1 of
(8) In the above-described embodiment, this disclosure is implemented as a diffuser 1 in which the first annular control member 10, the second annular control member 20, and the third annular control member 30 are integrated. But the embodiment of this disclosure is not limited thereto. This disclosure can also be implemented as a sound diffusion method that comprises arranging a first annular control member 10 including a first communication hole and an annular inclined plate that surrounds the first communication hole and is inclined relative to an axial direction of the first communication hole, a second annular control member 20 including a second communication hole and an annular inclined plate that surrounds the second communication hole, houses the first annular control member 10 therein, and is inclined relative to an axial direction of the second communication hole, and a third annular control member 30 that has a plurality of third communication holes and surrounds the second annular control member 20, on a front surface of a sound-emitting surface of a loudspeaker unit, and expanding the directivity of the sound emitted from the loudspeaker unit.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2021-14809 | Feb 2021 | JP | national |
| Number | Name | Date | Kind |
|---|---|---|---|
| 2001089 | Blattner | May 1935 | A |
| 2033337 | Harmer | Mar 1936 | A |
| 2167625 | Albano | Aug 1939 | A |
| 2203875 | Olson | Jun 1940 | A |
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| 11277684 | Kitagawa | Mar 2022 | B2 |
| Number | Date | Country |
|---|---|---|
| 215345058 | Dec 2021 | CN |
| 202006015232 | Feb 2007 | DE |
| 1509063 | Feb 2005 | EP |
| 3818959 | Sep 2006 | JP |
| 2021093580 | Jun 2021 | JP |
| WO-2019234485 | Dec 2019 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20220248129 A1 | Aug 2022 | US |
