JPH11205883A - Loudspeaker system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a constant horizontal directional angle from a low band to a high band by reproducing the same frequency band by two or more speaker units which are symmetrically arranged on an enclosure horizontal axis by right/left and arranged vertically symmetrically on a vertical axis and arranging a center position on a diaphragm on the horizontal axis at a place further back than a center position on the diaphragm on the vertical axis. SOLUTION: Two or more loudspeaker units 3 and 4 which are symmetrically arranged on an enclosure horizontal axis by right/left, and more than two loudspeaker units 1 and 2 which are vertically symmetrically arranged on an enclosure vertical axis are provided. They reproduce the same frequency bands. The center position of the loudspeaker units 3 and 4 arranged on the horizontal axis on the diaphragm is arranged further behind than the center position of the loudspeaker units 1 and 2 arranged on the vertical axis on the diaphragm. In sound source arrangement in the cross section of the horizontal direction, the loudspeaker units 1 and 2 in the vertical direction make a virtual sound source on the center axis of a loudspeaker system, and the high band directional angle of a low band loudspeaker is widened.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a speaker system using a plurality of speaker units.

[0002]

2. Description of the Related Art Recently, loudspeaker systems for controlling directivity over a wide frequency band have been used mainly for commercial speakers in order to ensure voice intelligibility. One of them is a speaker system as shown in Japanese Patent Application Laid-Open No. 5-260583, in which one speaker unit is arranged on each of the left and right sides on a horizontal axis and the upper and lower sides on a vertical axis in front of an enclosure (cabinet). . Hereinafter, this conventional speaker system will be described with reference to FIG.
Reference numerals 28, 29, 30, and 31 in the figure denote speaker units for reproducing the same frequency band. These speaker units are arranged at intervals above and below on the vertical axis and on the left and right on the horizontal axis. By increasing the vertical and horizontal spacing of the speaker units, the size of the virtual sound source of the speaker system is increased, the directivity angle is narrowed from a low frequency band, the sound reflected from the walls of the room is reduced, and the sound intelligibility is reduced. It is an improvement.

The directional angular frequency characteristics of the low-range speaker unit of such a conventional speaker system are shown in FIGS.
Shown in 2 is a directional angle frequency characteristic of a low frequency speaker unit in a low frequency band, and 7 is a directional angle frequency characteristic of a low frequency speaker unit in a high frequency band. This characteristic is a directivity angle frequency characteristic obtained in the horizontal direction of the speaker system when four speaker units each having a diameter of 16 cm are arranged at a vertical interval of 470 mm and a horizontal interval of 330 mm. The horizontal target directional angle θ of this speaker system is 90 °, and 200 Hz to 800 Hz which is a non-directional band of a normal speaker unit having a diameter of 16 cm.
, The directional angle of the speaker system is narrow,
This is effective in showing directivity close to the target directivity angle θ. Note that the directivity angle referred to in this specification is defined as an angle at which the sound pressure drops by 6 dB with respect to the sound pressure on the front axis.

Further, in the conventional speaker system, an example in which a high-frequency speaker unit is disposed in the center of the above arrangement, a constant directivity indicating a constant directivity angle over a wide frequency band instead of the high-frequency speaker unit. There is an example where a horn is arranged. The example shown in FIG.
Is an example in which.

[0005]

However, such a loudspeaker system is effective in that the directional angle can be narrowed in a low frequency band, but the directional angle is high in a high frequency band of a plurality of speaker units. There was a problem that it became too narrow. That is, as shown in 7 of FIG. 2, in the frequency band of 800 Hz or more, the directivity angle becomes narrow in proportion to the frequency, and the difference from the target directivity angle θ becomes a problem.
In order to solve this problem, in the above-described conventional example, a two-way loudspeaker system is used, a high-frequency constant directivity horn is arranged in the center, and the directional angle of the low-frequency speaker unit becomes too narrow. Was designed to cut off by a crossover network, reproduce a high frequency band with a constant directivity horn, and achieve a directional angle frequency characteristic close to a target directional angle over the entire frequency band.

In such a method, the horn for the high frequency band is given by: f _I = 28000 / (θ × a) (1) f _I : Lower limit frequency of directivity control of constant directivity horn θ: Target directivity Angle a: The aperture angle in the direction in which the directivity is controlled is equal to or larger than the frequency f _i , and the directivity angle is θ and is constant. Is equal to the directivity angle of a flat sound source having the same shape as.

FIG. 10 is a diagram showing how the directivity angle changes as the size of the flat plate sound source changes, and shows the directivity angle frequency characteristics when the radius of the circular flat plate sound source is changed. As shown by 37, the directivity angle of the flat plate sound source becomes wider as the frequency becomes lower. In this figure, 37 is a directivity angle when the radius of the circular flat plate is a, 38 is a directivity angle when the radius of the circular flat plate is 2a, and 39 is a directivity angle when the radius of the circular flat plate is 3a. It can be seen that the larger the sound source, the narrower the directivity angle from the low range.

On the other hand, also in the reproduction band of the low-frequency speaker unit, the distance between the vertical low-frequency speaker units is the vertical diameter and the distance between the left and right speaker units is the horizontal diameter. Are shown.
Here, since the low frequency speaker unit is arranged outside the high frequency constant directivity horn, the size of the flat sound source is larger than the horn opening, and as shown in FIG. It becomes narrower than the directivity angle 34 of the high-frequency constant directivity horn in the band.

Therefore, when the crossover network is used, the directivity angle of the speaker system is as shown at 35 in the case of f ₁ where the crossover frequency is low. When the directivity angle is wider than the target directivity angle θ and the crossover frequency is high at f ₂ , the directivity of the low-frequency speaker unit is set to the target directivity in the frequency band immediately below the crossover frequency as shown at 36. The angle becomes narrower with respect to the angle θ, and the directivity angle frequency characteristic is disturbed near the crossover frequency.

The present invention solves such a conventional problem, and solves the problem that the directional angle is narrowed in a high frequency band of a plurality of speaker units, and a constant horizontal from low to high range. An object of the present invention is to provide a loudspeaker system that indicates a directional angle.

[0011]

To solve this problem, a speaker system according to the present invention comprises two or more speaker units arranged symmetrically on the horizontal axis of the enclosure and symmetrically arranged vertically on the vertical axis of the enclosure. Done 2
Speaker units that reproduce the same frequency band, and the center position of the speaker unit arranged on the horizontal axis is on the diaphragm of the speaker unit arranged on the vertical axis. Is arranged rearward of the center position. According to the present invention, in a two-way speaker system in which the directional angle is not too narrow in a high frequency band of a plurality of arranged speaker units, and a high-range speaker unit is arranged on the center axis of the speaker system, The effect of reducing the disturbance of the directivity angle frequency characteristics near the crossover frequency can be obtained.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention is directed to a two-dimensionally arranged two-axis arrangement on the horizontal axis of the enclosure.
At least two or more speaker units and two or more speaker units vertically and symmetrically arranged on the vertical axis of the enclosure. These speaker units reproduce the same frequency band, and the diaphragm of the speaker unit arranged on the horizontal axis. A speaker system wherein the upper center position is located behind the center position on the diaphragm of the speaker unit arranged on the vertical axis. In this configuration, when viewed in a horizontal cross section, the speaker unit arranged on the vertical axis has the same effect as that of a virtual sound source arranged on the center axis of the speaker system. On the left and right sides, there is a sound source from the speaker unit on the horizontal axis arranged such that the center position on the diaphragm is behind the center position on the diaphragm of the speaker unit on the vertical axis. Therefore, these sound sources constitute an arcuate sound source in the horizontal direction of the speaker system. The arc-shaped sound source has a wider directivity in a higher frequency band than the linear sound source, and solves the problem that the directivity angle becomes narrower than the target directivity angle in the high frequency band, which was a drawback of the conventional speaker system. A two-way loudspeaker system in which a high-frequency loudspeaker unit is arranged on the center axis has an effect of reducing disturbance of directional angle frequency characteristics near a crossover frequency.

According to a second aspect of the present invention, the distance between the center positions of the left and right speaker units disposed on the horizontal axis of the enclosure on the diaphragm is set at the upper and lower ends of the speaker units disposed on the vertical axis. 2. The speaker system according to claim 1, wherein the distance between the center positions on the diaphragm of the unit is narrower. By reproducing the same band, these speaker units have a horizontal diameter between the speaker units at both ends in the left and right direction and a vertical elliptical sound source having a vertical diameter between the speaker units at both ends in the vertical direction. Are shown. The interval between the center positions on the diaphragm of the speaker units at the left and right ends arranged on the horizontal axis should be smaller than the interval between the center positions on the diaphragm of the speaker units at the upper and lower ends arranged on the vertical axis. Thus, it is possible to widen the directivity angle in the horizontal direction and narrow the directivity angle in the vertical direction, and to set the directivity angles in the horizontal direction and the vertical direction to different angles.

According to a third aspect of the present invention, a speaker unit that reproduces a higher frequency band than the speaker units arranged on the horizontal axis and the vertical axis is arranged on the center axis of the enclosure. The speaker system according to claim 1 or 2, wherein Even when the invention according to claim 1 is implemented, a high frequency range in which a directivity angle becomes narrow when reproduced by a plurality of speakers is reproduced by a high frequency speaker unit to widen the directivity angle, and a speaker system is provided. , The horizontal directivity angle can be widened in all the bands.

According to a fourth aspect of the present invention, the speaker unit on the vertical axis is disposed at the front of the enclosure, and has left and right sides on the front which have outwardly inclined surfaces continuous with the front, and extend along the surface. 4. The speaker system according to claim 1, wherein a speaker unit on a horizontal axis is arranged. By continuously providing outwardly inclined surfaces on both sides of the front and arranging the speaker unit in an inclined state, the center position of the speaker unit on the horizontal axis on the diaphragm is reduced by the vibration of the speaker unit on the vertical axis. It is located behind the center position on the board. Moreover, since the left and right speaker units on the horizontal axis are arranged on a surface that is continuous to the front, there is no steep wall at the front of the enclosure,
As a result, disturbance of characteristics can be eliminated. Also,
There is an advantage that the number of surfaces of the enclosure is reduced in terms of manufacturing, and it is easy to manufacture. In addition, there is an advantage that the width of the enclosure is smaller than when all the speaker units on the horizontal axis are mounted facing front.

According to a fifth aspect of the present invention, there is provided a speaker unit for reproducing a high frequency band, which is disposed in front of the speaker unit, has a vertically inclined surface continuous with the front of the speaker unit, and the speaker unit on the vertical axis is It is arranged along that surface and has a surface that is inclined outward and continues to the left and right of the front, and the inclination of that surface is greater than the inclination of the surface facing outward in the vertical direction, and the speaker on the horizontal axis 4. The speaker system according to claim 3, wherein the units are arranged along the plane. By tilting the speaker unit on the vertical axis outward, the height of the speaker system can be made smaller than when the speaker unit is arranged without tilting.

The invention according to claim 6 of the present invention is characterized in that the upper and lower and / or left and right outer peripheral portions of the front surface of the enclosure have edges protruding forward from the speaker unit mounting surface. 6. The speaker system according to any one of claims 1 to 5, Providing the edge protruding forward from the speaker unit mounting surface has an effect that the speaker unit is protected by the edge even when the speaker is placed on the floor with the speaker unit surface down.

According to a seventh aspect of the present invention, there is provided the speaker system according to the sixth aspect, wherein an edge of the speaker system is notched near the speaker unit. In this case, the edge portion has an effect of preventing the directivity and frequency characteristics of the speaker system from being disturbed by reflecting a sound wave radiated from the low-frequency speaker unit.

The invention according to claim 8 of the present invention is the speaker system according to claim 7, wherein the front surface of the enclosure is covered with a net. Since the notch at the edge is covered with the net, there is an effect of preventing a projection or the like from entering the front of the speaker from the notch at the edge and breaking the speaker unit.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. (Embodiment 1) FIG. 1 shows a first embodiment of the present invention. In the first embodiment, as described in claim 1, two or more speaker units 3 and 4 arranged symmetrically on the horizontal axis of the enclosure and two speaker units arranged vertically symmetrically on the vertical axis of the enclosure. The above speaker unit 1,
2, the speaker units reproduce the same frequency band, and the center positions on the diaphragm of the speaker units 3 and 4 arranged on the horizontal axis are the same as those of the speaker units 1 and 2 arranged on the vertical axis. It is arranged behind the center position on the diaphragm. In this embodiment, the center position on the diaphragm of the speaker units 3 and 4 in the left-right direction is set to be more than 10 center positions on the diaphragm of the speaker units 1 and 2 in the vertical direction.
It is arranged rearward in a range of up to 200 mm.

Further, the distance between the center positions on the diaphragm of the left and right ends of the speaker units 3 and 4 arranged on the enclosure horizontal axis is equal to the distance between the upper and lower ends arranged on the vertical axis. Is set to be narrower than the interval between the center positions on the diaphragm of the speaker unit. In this embodiment,
The upper and lower speaker units 1 and 2 are arranged 470 mm apart from the center, and the left and right speaker units 3 and 4 are
They are arranged 30 mm apart. The distance between the speaker units 1 and 2 in the vertical direction determines the vertical directivity angle at a low frequency of 800 Hz or less, and the distance between the speaker units 3 and 4 in the left and right direction determines the horizontal directivity angle at a low frequency of 800 Hz or less. The target directional angle of this speaker system is 90 degrees in the horizontal direction and 40 degrees in the vertical direction. To make the horizontal directional angle wider than the vertical directional angle in the low frequency range, the spacing between the horizontal loudspeaker units is set. Is narrowed. The interval between the upper and lower speaker units and the interval between the left and right speaker units are determined in consideration of the target directivity angle, and the range is 100 to 2000.

FIG. 2 is a graph comparing the directivity angle frequency characteristics in the horizontal direction in this embodiment with those in the conventional example. The directivity angle frequency characteristic 5 in the low frequency range of 800 Hz or less is determined by the horizontal spacing of the speaker units. Since the center positions on the left and right low-range speaker unit diaphragms are located behind the center positions of the upper and lower low-range speaker units, the horizontal direction of the conventional speaker system is between 800 Hz and 2.5 kHz. The directional angle is wider than the directional angle 7 and shows the directional angle frequency characteristic 6 approaching the target directional angle.
This means that when the arrangement of the sound sources is viewed in a horizontal cross-section as shown in FIG. 7, the operation is the same as when the virtual speaker units 1 and 2 are arranged on the center axis of the speaker system with the virtual sound source 27. And the left and right speaker units 3 and 4 constitute an arc-shaped sound source. The directional angle in the high band of the reproduction band of the low-band speaker unit is widened and constant as compared with the case where the three sound sources are arranged in a straight line. In order to keep the angle of. This makes it possible to keep the horizontal directional angle constant over a wide frequency range.

(Embodiment 2) FIG. 3 shows a second embodiment of the present invention. In the second embodiment, the positional relationship between the low-frequency speaker units 1, 2, 3, and 4 is the same as that in the first embodiment shown in FIG. A feature of the second embodiment is that, as described in claim 3 of the present invention, a constant directivity horn 8 is arranged on the central axis of the enclosure as a speaker unit for reproducing high frequencies. The horizontal diameter of the opening of this horn is 170 mm, and from equation (1), this horn can maintain a constant directivity of 90 degrees at 1.8 kHz or more. Therefore, the crossover frequency of the speaker system is desirably 1.8 kHz or more. As shown in the first embodiment of the present invention, the directivity angle frequency characteristic of the low frequency speaker unit is 800 Hz to 2.5 Hz as shown in FIG.
Since the target directivity angle at 90 kHz is substantially 90 degrees, 1.8 k
When Hz is the crossover frequency, the directional angle frequency characteristic takes a value close to the target directional angle even near the crossover frequency and is kept constant. FIG. 6 shows a directional angular frequency characteristic 26 in the horizontal direction of the speaker system of FIG. It can be seen that the directional angle frequency characteristic is constant at a value close to the target directional angle even near the crossover frequency.

(Embodiment 3) FIG. 4 (a) is a perspective view of a third embodiment of the present invention, and FIG. 4 (b) is a horizontal perspective view seen from the top surface of FIG. In the third embodiment, as described in claim 4, the speaker unit 1 on the vertical axis,
2 is disposed on the front face 11 of the enclosure, and has, on the left and right sides of the front face 11, loudspeaker units 3 and 4 on a horizontal axis having outwardly inclined surfaces 9 and 10 continuous with the front face. Have been. In the loudspeaker system according to the second embodiment of the present invention shown in FIG. 3, a steep wall surface exists inside the loudspeaker units 3 and 4, which causes sound waves to be reflected from the loudspeaker units 3 and 4, and the frequency characteristics of the loudspeaker system And directivity angle frequency characteristics are disturbed. Therefore, in the third embodiment, in order to prevent the steep wall from being present,
Outwardly inclined surfaces 9, 10 are continuously provided on both sides of the front surface 11, and the speaker units 3, 4 are arranged there. By arranging the speaker units 3 and 4 at an angle in this manner,
The center position 13 on the diaphragm of the speaker units 3 and 4 on the horizontal axis is disposed behind the center position 12 on the diaphragm of the speaker units 1 and 2 on the vertical axis. Therefore, similarly to the first and second embodiments, it is possible to realize a wide directivity angle in the high frequency range of 800 Hz to 2.5 kHz of the low frequency speaker unit and eliminate the disturbance of the characteristic due to the steep wall. it can. In addition, there is an advantage that the number of surfaces of the enclosure is reduced in terms of manufacturing, and that it is easy to manufacture. In addition, there is an advantage that the horizontal width of the enclosure is reduced as compared with a case where all the speaker units 3 and 4 on the horizontal axis are mounted in the front direction.

(Embodiment 4) FIG. 5 is a perspective view of a fourth embodiment of the present invention. In the fourth embodiment, as described in claim 5 of the present invention, a fixed directivity horn 8 is arranged on the front face 11 as a speaker unit for reproducing high frequencies,
Outwardly inclined surfaces 14 and 1 connected to the front 11 above and below
5, the speaker units 1 and 2 on the vertical axis are disposed on the surface in a state of being inclined outward, and further have surfaces 9 and 10 which are outwardly inclined on the left and right sides of the front surface 11 and have inclinations of the surfaces. Is larger than the inclination of the outwardly facing surfaces 14 and 15 in the vertical direction, and the speaker units 3 and 4 on the horizontal axis are positioned on that surface at an angle larger than the speaker units 1 and 2 on the vertical axis. It is arranged to be inclined. By inclining the low-frequency speaker units 1 and 2 in the vertical direction outward, the height of the speaker system can be reduced.

This speaker system is characterized in that
As described in (1), edges 16, 17, 18, and 19 projecting forward from the speaker unit mounting surface are provided on the upper, lower, left, and right outer peripheral portions of the front surface of the enclosure. Therefore, even if the speaker is placed on the floor with the speaker unit face down,
This has the effect that the speaker unit is protected by the edge.

Further, in this speaker system, notches 20, 21, 22, and 23 are provided at edges near the low-frequency speaker unit, and the edges have low-frequency speakers. This has the effect of preventing the directivity and frequency characteristics of the speaker system from being disturbed by reflecting sound waves radiated from the unit.

Further, as described in claim 8, the front surface of the enclosure is covered with a front net 24, the outer periphery of which is bent, and a cutout portion 20 between the front surface and the edge.
It has a portion 25 that is folded inside 21, 22, and 23. Therefore, there is an effect of preventing a projection or the like from entering the front surface of the speaker from the cutout portion of the edge portion and breaking the speaker unit.

[0029]

As described above, according to the present invention, it is possible to realize a loudspeaker system in which the directional angle in the horizontal direction shows a constant value over a wide frequency range and the directional angle frequency characteristic is less disturbed. And a speaker system having a structure in which the speaker unit hardly breaks down.

[Brief description of the drawings]

FIG. 1 is a perspective view of a speaker system according to a first embodiment of the present invention.

FIG. 2 is a characteristic diagram of horizontal directional angular frequency characteristics of a speaker system according to the first to fourth embodiments of the present invention and a low-range speaker unit of a conventional speaker system.

FIG. 3 is a perspective view of a speaker system according to a second embodiment of the present invention.

FIG. 4 (a) is a perspective view of a speaker system according to a third embodiment of the present invention, and FIG. 4 (b) is a horizontal perspective view seen from the top surface of FIG.

FIG. 5 is a perspective view of a speaker system according to a fourth embodiment of the present invention.

FIG. 6 is a characteristic diagram of a horizontal directivity angle frequency characteristic of the speaker system according to the first to fourth embodiments of the present invention.

FIG. 7 is a schematic diagram showing a virtual sound source arrangement in a horizontal section of a speaker system according to a third embodiment of the present invention.

FIG. 8 is a perspective view of a conventional speaker system.

9A is a characteristic diagram of horizontal directivity angle frequency characteristics of a low-frequency speaker unit and a high-frequency horn of a conventional speaker system, and FIG. 9B is a characteristic of horizontal directivity angle frequency characteristics of a conventional speaker system. Figure

FIG. 10 is a characteristic diagram of directivity angle frequency characteristics of circular flat plates having different radii.

[Explanation of symbols]

1, 2, 3, 4, 12, 13, 28, 29, 30, 31
Speaker unit 5, 6, 7, 26, 33, 34, 35, 36, 37, 3
8, 39 Directional angle frequency characteristics 8, 32 Constant directional horn for high frequency 9, 10, 14, 15 Surface continuous to enclosure front 11 Enclosure front 16, 17, 18, 19 Edge 20, 21, 22, 23 Edge Notch 24 Front net 25 Front net fold

Claims (8)

[Claims] 1. An apparatus comprising two or more speaker units symmetrically arranged on a horizontal axis of an enclosure and two or more speaker units symmetrically arranged on a vertical axis of an enclosure, wherein the speaker units are the same. The frequency band is reproduced, and the center position on the diaphragm of the speaker unit arranged on the horizontal axis is arranged behind the center position on the diaphragm of the speaker unit arranged on the vertical axis. Speaker system. 2. The distance between the center positions on the diaphragm of the speaker units at the left and right ends arranged on the horizontal axis of the enclosure is equal to the distance between the center positions on the diaphragm of the speaker units at the upper and lower ends arranged on the vertical axis. The speaker system according to claim 1, wherein the speaker system is narrower than the speaker system. 3. The speaker according to claim 1, wherein a speaker unit that reproduces a higher frequency band than the speaker units arranged on the horizontal axis and the vertical axis is arranged on the center axis of the enclosure. system. 4. A speaker unit on a vertical axis is arranged at the front of the enclosure. Left and right sides of the front have outwardly inclined surfaces continuous to the front, and speaker units on a horizontal axis are arranged along the surface. 2. The method according to claim 1, wherein
Or the speaker system according to 2 or 3. 5. A loudspeaker unit for reproducing a high frequency band is disposed in front of the loudspeaker, and has a vertically inclined surface continuous with the front of the loudspeaker, and a loudspeaker unit on a vertical axis is disposed along the surface. The surface of the speaker unit on the horizontal axis is disposed along the surface, and the inclination of the surface is larger than the inclination of the surface facing outward in the vertical direction. The speaker system according to claim 3, wherein: 6. The speaker system according to claim 1, further comprising an edge protruding forward from a speaker unit mounting surface on upper and lower and / or left and right outer peripheral portions of a front surface of the enclosure. . 7. The loudspeaker system according to claim 6, wherein the vicinity of the loudspeaker unit is cut off. 8. The speaker system according to claim 7, wherein a front surface of the enclosure is covered with a net.