JPH087440Y2 - Audio equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to an audio device, and more particularly to an audio device using a reflector.

[Conventional technology]

An acoustic device using a reflector has a reflecting surface that is a paraboloid of revolution and a sound source is placed at the focal point, or a sound source is placed at one focus of a spheroid and the sound is collected at the other focus. There is a device using the principle of an acoustic lens. The principle of these acoustic devices has been conventionally known, and can be applied to buildings such as an outdoor music hall and a music hall.

However, most of the conventional general audio devices have been designed so that the sound is distributed to a large number of audiences housed in the building.

On the other hand, even within one building, there is a request to collect sound only for individuals or a limited number of people within a specific range, and not to surround the surroundings. There is also. In particular, there is a strong demand to send loud sound only to people with hearing loss. As an audio device for that purpose, the present inventor has proposed Japanese Patent Application No. 01-202601 and Japanese Patent Application No. 01-20.
Proposed the device found in 2602. This device is equipped with a reflector whose inner surface is formed by a curved surface having two focal points, a sound source such as a speaker is arranged at one focal point, and an individual listens to voice at the other focal point where sound is collected by reflection. It was done like this. Therefore, only the person at the other focal position can listen to the loud sound without giving a sound to the outside of the range.

[Problems to be solved by the device]

In the above-mentioned conventional device, if the sound is sufficiently reflected on the inner surface of the reflector, the reflector itself will vibrate because it has a single structure. The whole becomes a vibration source, that is, a sound source. In this case, it becomes impossible to effectively reflect the sound only in the reflector and listen intensively, and to prevent the sound from reaching the outside of the reflector.

An object of the present invention is to provide an acoustic device which can cope with such a problem and prevent the reflector itself from becoming a vibration source.

[Means for solving the problem]

According to the present invention, the above objects are: a reflector whose inner surface at least partially has a surface forming a part of a spheroid having two focal points; and a reflector closer to the reflector on a line connecting the two focal points. And a sound source that irradiates the reflector with sound at or near the focal point of the reflector, and the reflector has a reflecting layer made of a material of high hardness on the inner surface of the support layer made of a vibration absorbing material. It

As the vibration absorbing material, for example, a relatively soft plastic or fiber sheet can be hardened with a resin. More specifically, a sheet obtained by knitting carbon fibers or high-density polymer fibers and solidifying with a resin can be given as an example. Further, the vibration absorbing material may be made of rubber.

Also, as the inner reflective layer, a hard plastic material,
Examples thereof include glass-based and acrylic-based plastic materials, bisphenol resins, and liquid or paint-like hard coating materials.

[Action]

According to the present invention, the sound emitted from the sound source arranged at the focal position is reflected by the reflective layer on the inner surface of the reflector, and only the person located inside the reflector collects the sound at another focal point. You can listen to the sound.

At that time, since the reflector is formed of a vibration absorbing material except for the inner surface, it absorbs vibration and does not vibrate itself. Therefore, the reflector itself does not act as a sound source, the sound is effectively reflected, and the sound does not reach the surroundings.

[Embodiment] An embodiment of the present invention will be described below with reference to the accompanying drawings.

In the apparatus of the embodiment shown in FIG. 2, reference numeral 1 is a support fixed to a structure, and a speaker 2 is used as a sound source.
Is attached.

The support 1 has one axis 3, for example, a vertical line in the figure, as a rotation axis, and two focal points S ₁ and
A reflector 5 having an inner surface of a part of the spheroid 4 having S ₂ is attached. It is sufficient that most of the inner surface is formed of a part of the spheroidal surface, and part of the inner surface may have another shape, such as a paraboloid.

Further, a sound conduit 6 is provided to extend from the speaker 2 toward a focus (upper focus in the figure) S ₁ closer (upper focus) to the reflector 5, and a nozzle 7 as a sound source reflects there. It is attached to the position of the intersection of the body 5 with the axis 3. The speaker 2 may be directly arranged at the focal point S ₁ without using the nozzle.

As shown in FIG. 1, the reflector 5 has a reflection layer 52 on the inner surface of a support layer 51 made of a vibration absorbing material that maintains its shape.

The vibration absorbing material that forms the support layer 51 is not particularly limited as long as it maintains the shape of the reflector and absorbs vibration, but considering the ease of manufacturing, for example,
A relatively soft plastic or fiber sheet may be hardened with resin. More specifically, a sheet obtained by knitting carbon fibers or high-density polymer fibers and solidifying with a resin can be given as an example. Further, the vibration absorbing material may be made of rubber.

The reflective layer 52 is not particularly limited in material as long as it has sufficient hardness for sound reflection, but is not limited to a hard plastic material such as a glass-based material, an acrylic-based plastic material, bisphenol resin, liquid or paint. Hard coating material of the material can be mentioned.

In the apparatus of this embodiment, when a sound is emitted from the speaker 2, this sound reaches the nozzle 7 located at the upper focal point S ₁ through the sound conduit 6 and is irradiated from the nozzle 7 to the reflector 5. It The sound is reflected by the reflection layer 52 of the reflector 5 and collected at the lower focus S ₂ without leaking to the outside. Further, since the vibration of the sound is absorbed by the support layer 51 on the back of the reflection layer 52, the reflector 5 itself does not vibrate. Thus, the user can listen to the collected voice by placing his head at the position of the focus S ₂ . At that time, in this embodiment, since the speaker 2 is arranged outside the reflector 5, a large output can be obtained without disturbing the sound field in the reflector 5.

In the apparatus of the present embodiment, since the sound is concentrated on the focus S ₂ , if the position of the user's head deviates from this position by a little,
Since the voice level is lowered, it is desirable to widen the usable range without lowering the voice level so much. The Issaku therefor can be staggered slightly than the focal point S ₁ of the sound source which is arranged in the focal S _1. Therefore, it is preferable to make the position of the sound source movable so that the usable range can be widened as necessary by adjusting the amount of movement from the focus S ₁ .

Further, in the apparatus of this embodiment, if the heat generating member is provided in the reflector, it is possible to prevent deterioration of the reflecting ability of the reflecting surface due to freezing of water on the reflecting surface or adhesion of snow during use in cold regions. It becomes possible. If the heat generating member is formed as an inner layer of the reflector at a depth close to that of the reflecting layer, the effect is improved.

[Effect of device]

As described above, in the present invention, since the reflector is provided with the reflecting layer on the inner surface of the support layer made of the vibration absorbing material, the vibration of the reflector itself is prevented while maintaining the ability of reflecting the sound from the sound source at the focal point. It As a result, the sound is effectively reflected and surely not transmitted to the surroundings.

In addition, since many vibration absorbing materials are usually lighter than the above-mentioned reflective layer, they contribute to the weight reduction of the device.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a reflector of the device of the present invention, and FIG. 2 is a cross-sectional view showing the entire device of the present embodiment using the reflector of FIG. 4 ... Spheroidal surface 5 ... Reflector 51 ... Support layer 52 ... Reflective layer 7 ... Nozzle (sound source)

Claims (2)

[Scope of utility model registration request] 1. A reflector whose inner surface at least partially has a surface forming a part of a spheroid having two focal points, and a position of a focal point closer to the reflector on a line connecting the two focal points, or An acoustic device comprising: a sound source for irradiating the reflector with sound in the vicinity thereof, wherein the reflector has a reflection layer made of a material having a high hardness on an inner surface of a support layer made of a vibration absorbing material. 2. The acoustic device according to claim 1, wherein the reflector includes a heat generating member that heats the reflective layer.