JPH03293896A - Speaker cabinet - Google Patents

Abstract

PURPOSE:To prevent an unrequired sound due to the mechanical vibration of a sound absorbing material by mounting the sound absorbing material on the outside surface of a speaker enclosure via an elastic body. CONSTITUTION:A speaker unit 3 is mounted on the baffle plate 2 of the speaker enclosure 1, and the sound absorbing material 4 is mounted outside the baffle plate 2 via the elastic body 5. The radiation of the unrequired sound from the speaker unit 3 due to the vibration of the baffle plate 2 is prevented from occurring by the sound absorbing material 4, and also, the mechanical vibration transmitted from the speaker unit 3 through the baffle plate 2 is damped by the elastic body 5, which reduces a vibration level transmitted up to the sound absorbing material 4. In such a way, it is possible to prevent the radiation of not only the unrequired sound from the baffle plate 2 but the unrequired sound due to the vibration of the sound absorbing material 4 by the mechanical vibration from occurring.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a high-fidelity speaker cabinet.

BACKGROUND OF THE INVENTION In recent years, music sources have become increasingly digital, and speaker systems are now required to reproduce music sources with even greater fidelity.

Therefore, the resonance of the speaker cabinet is small,
A quiet cabinet that does not vibrate and emit unnecessary sound is desired.

A conventional speaker cabinet will be explained below.

As shown in the side view of FIG. 3, a conventional speaker cabinet of this type includes a box-shaped speaker enclosure 11, a speaker unit 13 attached to a baffle plate 12 of the speaker enclosure 11, and a speaker unit 13 attached to a baffle plate 12 of the speaker enclosure 11. It consisted of a sound absorbing material 14 provided on the outer surface of the baffle plate 12 around the speaker unit 13, a sound absorbing material 15 provided inside the speaker enclosure 11, and a network 16.

In the speaker cabinet configured as above, the sound emitted from the speaker unit 13 is absorbed by the sound absorbing material 14 provided on the outer surface of the baffle plate 12,
This radiated sound causes the baffle plate 12 to vibrate and prevent unnecessary sound from being radiated.

Problems to be Solved by the Invention However, in such a conventional configuration, the sound absorbing material is effective in preventing the baffle plate from vibrating due to the sound radiated from the speaker unit and emitting unnecessary sound. However, there was a problem in that mechanical vibrations transmitted from the speaker unit through the baffle plate caused the sound absorbing material to vibrate and emit unnecessary sound.

Furthermore, in a high frequency band, the sound absorption coefficient of the sound absorbing material decreases, leading to a problem in that the sound absorption effect decreases.

The present invention solves these problems by absorbing the sound radiated from the speaker unit up to the high frequency band, and not only prevents unnecessary sound from being emitted from the baffle plate, but also improves the speaker unit color transmission. To provide a quiet speaker cabinet with excellent vibration damping properties that prevents a sound absorbing material from vibrating and emitting unnecessary sound due to mechanical vibration.

Means for Solving the Problems To achieve this object, the speaker cabinet of the present invention has a structure in which a sound absorbing material is attached to the entire or part of the outer surface of the speaker enclosure via an elastic body.

Further, an air layer is provided between the speaker enclosure and the sound absorbing material.

Operation With the above configuration, the sound radiated from the speaker unit is absorbed by the sound absorbing material, thereby preventing the baffle plate from vibrating and emitting unnecessary sound, as in the conventional case.

In addition, mechanical vibrations transmitted from the speaker unit through the baffle plate are damped by an elastic body provided on the outer surface of the speaker enclosure.
The vibration level transmitted to the sound absorbing material is reduced, preventing the sound absorbing material from vibrating and emitting unnecessary sound.

EXAMPLE An example of the present invention will be described below with reference to the drawings.

FIG. 1 is a side sectional view of a speaker cabinet in an embodiment of the present invention. In FIG. 1, 1 is a box-shaped speaker enclosure, 2 is a baffle plate, and 3 is a speaker unit attached to this baffle plate 2. In FIG. Further, reference numeral 4 denotes a sound absorbing material, which is attached to the outside of the baffle plate 2 via an elastic body 5 with a gap or air layer 6 provided therebetween. Note that 7 is a sound absorbing material provided inside the speaker enclosure 1, and 8 is a network.

In the speaker cabinet configured as described above, the sound radiated from the speaker unit 3 is caused by the viscosity of the sound wave incident on the sound absorbing material 4 when it propagates through the sound absorbing material 4 with respect to the vibrational flow of air. Energy is lost due to the flow resistance, and as a result, the sound radiated from the speaker unit 3 is absorbed, thereby preventing the baffle plate 2 from vibrating and emitting unnecessary sound.

Furthermore, since the air layer 6 is provided between the sound absorbing material 4 and the baffle plate 2, the cross-sectional area of the part where the air flows rapidly expands, causing loss, and the energy of the sound waves is dissipated, causing the baffle plate to Sound is less likely to be emitted from 2.

Furthermore, regarding mechanical vibrations transmitted from the speaker unit 3 through the baffle plate 2, the vibrations are damped by the elastic body 5 provided on the outer surface of the baffle plate 2.
The vibration level transmitted to the sound absorbing material 4 is reduced, and the sound absorbing material 4
This prevents the device from vibrating and emitting unnecessary sound.

This can be explained using the one-dimensional model shown in FIG. 2 as follows.

In FIG. 2, 21 is a speaker enclosure, 22 is an elastic body, and 23 is a sound absorbing material. The equation of motion in this case is expressed as m+X+-k (XI X2)=O=(1).

Here, m+ is the mass of the sound absorbing material, k is the spring constant of the elastic body,
Xl represents the vibration displacement of the sound absorbing material, X2 represents the vibration displacement N of the enclosure, and XI represents the acceleration of the two components. Expanding equation (1), X + / X 2 = k / (k + m +
ωli ・(2). (However, ω=2πf) Therefore, it can be seen that X 1 < X 2 by the increment of m1ω2, and the vibration of the sound absorbing material is reduced.

As described above, according to this embodiment, by providing the air layer e between the sound absorbing material 4 and the baffle plate 2 and attaching the sound absorbing material 4 to the baffle plate 2 with the elastic body 5, the sound absorption coefficient is high even in the high frequency band. can be maintained, and unnecessary sound can be prevented from being radiated from the baffle plate 2.

Effects of the Invention As described above, the present invention provides the following advantages: by attaching a sound absorbing material to the entire or part of the outer surface of the speaker enclosure via an elastic body, and further providing an air layer between the speaker enclosure and the sound absorbing material, It not only absorbs the sound emitted from the speaker unit up to the high frequency band and prevents unnecessary sound from being emitted from the baffle plate, but also prevents the sound absorbing material from vibrating due to the mechanical vibration transmitted from the speaker unit, causing unnecessary sound to be emitted from the baffle plate. It is possible to realize a quiet speaker cabinet with excellent vibration damping properties that also prevents sound from being radiated.

[Brief explanation of drawings]

FIG. 1 is a side sectional view of a speaker cabinet according to an embodiment of the present invention, FIG. 2 is a one-dimensional model diagram of the same speaker cabinet, and FIG. 3 is a side sectional view of a conventional speaker cabinet. DESCRIPTION OF SYMBOLS 1...Speaker enclosure, 2...Baffle plate, 3...Speaker unit, 4...Sound absorbing material, 5...Elastic body, 6...Air layer.

Claims (2)

[Claims] (1) A speaker cabinet characterized in that a sound absorbing material is attached to the entire or part of the outer surface of the speaker enclosure via an elastic body. (2) The speaker cabinet according to claim 1, wherein an air layer is provided between the speaker enclosure and the sound absorbing material.