JP2884576B2 - Speaker system - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a speaker system having an acoustic tube on one side of a speaker unit.

2. Description of the Related Art One of conventional technologies for expanding a bass range of a speaker system.
One is an acoustic maze type.

Hereinafter, a conventional acoustic maze type speaker system will be described with reference to the drawings.

FIG. 6 is a structural sectional view of the speaker system.

In FIG. 6, 1 is a cabinet, 2a, 2b, 2c, 2d, 2e.
Is a partition plate provided on the front plate and the rear plate of the cabinet 1, 3 is an opening provided on a lower portion of the front plate of the cabinet 1, and 4 is a speaker unit provided on an upper portion of the front plate.

The operation of the acoustic maze-type speaker system configured as described above will be described below.

Partition plates 2a, 2b, 2c, 2d provided in the cabinet 1
Reference numeral 2e denotes an acoustic tube, and a speaker unit 4
The sound emitted from the back of the sound tube is guided to the sound tube and radiated from the opening. An acoustic tube resonates at a specific frequency determined by its overall length. Assuming that the total length of the acoustic tube is L and the sound speed in the air is C, the resonance frequency n = C / 4Lx (2n + 1), where n = 0,
1,2, ...... n, _^1/4 wavelength becomes n = 0 occurs equally be resonance acoustic pipe length, acoustically increased sound from the opening 3 of the acoustic tube is emitted in the vicinity of the bass reproduction limit This greatly improves efficiency. The speaker _^1/2 wavelength in equal frequency acoustic pipe length, the sound emitted from the front surface of the speaker unit 4, compared to the sound from the front, which is emitted from the opening 3 of the acoustic tube to be a natural reverse phase The sound from the back of the unit 4 is added in the same phase due to a half-wave phase delay, and the sound pressure level increases. And n = 2
When it comes to, _^3/4 as with wavelengths of n = 0 occurs is resonance in the acoustic pipe is equal to the acoustic pipe length, the opening of the acoustic pipe 3
A more acoustically enhanced sound is emitted. Therefore, a high-efficiency speaker system can be realized in a low frequency range.

SUMMARY OF THE INVENTION However, since in the configuration as described above ^{frequencies _{1/4-wavelength}} is equal to the acoustic pipe length becomes bass reproduction limit frequency as a speaker system, to play bass long acoustic tube And there is a disadvantage that the shape of the cabinet becomes large. Further, it is desirable to bond the treble reproduction limit as _^3/4 Medium tweeter system using wavelength to near the frequency equal to the acoustic pipe length when using a low-frequency sound reproducing speaker system second
As shown in the figure, in the conventional method, the acoustic radiation efficiency at the time of resonance of the acoustic tube increases as the frequency increases,
_^3/4 wavelength sound pressure peaked at around a frequency equal to the acoustic pipe length, and it is difficult to flatten the band had reduced the quality to degrade the characteristics of the speaker system by an electrical circuit.

In view of the above problems the present invention as well as expand the bass reproduction limit without increasing the acoustic tube, _{^{3/4-wavelength}} suppresses the peak of the sound pressure in the vicinity of a frequency equal to the acoustic pipe length, flat An object of the present invention is to provide a speaker system having low-frequency characteristics.

Means for Solving the Problems In order to achieve this object, a speaker system according to the present invention is provided with an acoustic tube continuously extending from one side of a speaker unit and having an opening open to a sound field space. Has a portion having a cross-sectional area larger than the cross-sectional area at the speaker unit side and the opening of the acoustic tube, the total length of the acoustic tube is l ₁ , and the length of the portion having the large cross-sectional area is
When l ₂ , the ratio l ₂ / l ₁ of the _two lengths is set to 0.2 ≦ l ₂ / l ₁ ≦ 0.8.

Further, the speaker system of the present invention is provided with an acoustic tube which is continuously extended from one side of the speaker unit and whose opening is open to the sound field space, wherein the acoustic tube has a sectional area on the speaker unit side and the opening of the acoustic tube. When the cross section of the sound tube at the speaker unit side and the opening is S ₁ and the cross section of the portion having the larger cross section is S ₂ , Area ratio S ₂ /
S _{1 is set} to satisfy 2 ≦ S ₂ / S ₁ ≦ 5.

Action The present invention increases the volume inside the acoustic tube to increase the cross-sectional area of the predetermined portion of the acoustic tube from both ends thereof, increases the equivalent acoustic capacity, and reduces the frequency at which the resonance phenomenon occurs in the acoustic tube,
It is possible to obtain acoustic characteristics substantially equivalent to those obtained by lengthening the acoustic tube. In addition, the volume inside the acoustic tube, that is, the reactance component of the acoustic capacity also operates as a high cut filter that cuts off the mid-high range radiated from the speaker unit, and reduces the peak of the sound pressure generated in the treble portion in the reproduction band. It is to suppress.

Embodiments Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a structural sectional view of a speaker system according to a first embodiment of the present invention. In FIG.
5 is a speaker unit, 6 is a first acoustic tube joined to the back of the speaker unit 5, 7 is a second acoustic tube having the same cross-sectional area as the first acoustic tube, and 8 is the two acoustic tubes. attached at both ends arranged in the substantially central, first, third acoustic tube having a cross sectional area S ₂ greater than the cross-sectional area S ₁ of the second acoustic tube 6, the lower end of the acoustic tube 3 9 , A diffusion plate 10 facing the opening of the acoustic tube 7 and having a convex central portion, 11 is provided between the reception table 9 and the diffusion plate 10 so that the entire speaker system is vertically It is a pipe consisting of a plurality of three or more pipes to be held.

Regarding the speaker system configured as described above,
The operation will be described below. The acoustic tubes 6, 7, 8 are firmly connected and arranged as a single acoustic tube on the back of the speaker unit 5, the opening of which is directed to the floor surface and is connected to the diffusion plate 10 by a pipe 11 supporting the entire speaker system. Are held with a gap. Therefore, the sound from the back of the speaker unit 5 passes through the acoustic tubes 6, 8, 7 and is radiated from the openings to the floor via the diffusion plate. Acoustic tube 8 having a larger cross-sectional area S ₂ than the cross-sectional area S ₁ of the acoustic tube 6, the frequency of resonance phenomenon occurs is reduced to a sound tube equivalent acoustic capacitance is increased to increase the volume of the acoustic tube. FIG. 2 shows a comparison between the sound pressure frequency characteristics and the amplitude characteristics of the diaphragm when a conventional sound tube having a uniform cross-sectional area and the sound tube of the present invention are used. At the time of resonance of the acoustic sound, the acoustic impedance of the acoustic tube viewed from the speaker unit 5 becomes very large, and is an anti-resonant operation for stopping the movement of the diaphragm. The frequency at which the phenomenon occurs can be seen. From FIG. 2, it can be seen that the acoustic tube of the present invention reduces the anti-resonance frequency and increases the sound pressure level in the low-frequency limit region. Moreover, the sound pressure peak in the vicinity of the ^{frequency _3/4} wavelength in the conventional acoustic pipe is equal to the acoustic pipe length has been suppressed in the sound tube of the present invention. This is because the volume in the acoustic tube, that is, the reactance component of the acoustic capacitance operates as a high cut filter. Here, the cross-sectional area and length of the central acoustic tube 8 having a large cross-sectional area are very important. Therefore, first, the length of the entire sound tube in which the sound tubes 6, 7, 8 are combined is l ₁ , and the length of the sound tube 8 is l ₂ , and the change in the sound pressure frequency characteristic due to the ratio l ₁ / l ₂ is the third. It is shown in the figure (here, the ratio of the cross-sectional area of the acoustic tube is S ₂ / S ₁ = 2). In order to lower the bass reproduction limit and ensure a flat sound pressure within the bass reproduction band, it suffices that 0.2 ≦ l ₁ / l ₂ ≦ 0.8, and select a target acoustic characteristic within this condition. I can do it. Then, in this case the cross-sectional area S ₁ and the change in sound pressure frequency characteristics with ratio S ₂ / S ₁ between the cross-sectional area S ₂ of the acoustic tube 8 shown in FIG. 4 (Note the acoustic tube 6, the acoustic tube Length ratio l ₂ / l ₁ = 0.2).

As S ₂ / S ₁ increases, the bass limit frequency decreases and the sound pressure level at this frequency increases, but the effect of the high-pass filter due to the acoustic capacity increases and the reproduction limit of the mid-high range within the reproduction band Therefore, it is desirable that 2 ≦ S ₂ / S ₁ ≦ 5 because the sound pressure level decreases.

FIG. 5 is a structural sectional view of a speaker system according to a second embodiment of the present invention. In FIG.
12 is a speaker unit, 13 is a first acoustic tube coupled to the upper surface of the speaker unit, 14 is a second acoustic tube having a larger sectional area than the acoustic tube 13, 15 is a top plate having a concave central part,
Reference numeral 16 denotes a third acoustic tube connected to the outer peripheral portion of the top plate 15, and 17 denotes a fourth acoustic tube joined to the lower end of the acoustic tube 16, and the opening has a horn shape opened to the outer periphery. Reference numeral 18 denotes a pedestal provided at the lower end of the acoustic tube 16; 19, a diffusion plate holding the speaker unit 12 in a central concave portion; and 20, a pedestal provided between the pedestal 18 and the diffusion plate 20 to support the acoustic tubes 16, 17. It is a pipe.

Regarding the speaker system configured as described above,
The operation will be described below. In the figure, the cross-sectional area of the outer periphery of the acoustic tube 14 and the inner periphery of the acoustic tube 16 are equal to the cross-sectional area of the acoustic tube 14. Similarly, the sectional area between the outer periphery of the acoustic tube 13 and the inner periphery of the acoustic tube 17 is set equal to the sectional area of the acoustic tube 13. In other words, this speaker system has a structure in which the acoustic tube is folded almost at the center without extending straight. Therefore, the basic operation of the speaker system is the same as that of the first embodiment of the present invention shown in FIG. The difference from the first embodiment is that the openings of the speaker unit and the acoustic tube are on the same floor. In the first embodiment, since only the opening of the acoustic tube was directed toward the floor, there was little improvement in the radioactivity due to the buckle effect on the floor.
However, in the second embodiment, since the speaker unit and the opening are both on the floor, the baffle effect is large, and the efficiency in the low-frequency range can be improved as compared with the first embodiment. In addition, when the height of the speaker system is limited when the speaker system is installed, the overall height of the speaker system can be reduced according to the second embodiment.

Effect of the Invention As described above, the present invention provides an acoustic tube that extends continuously from one side of the speaker unit and has an opening that is open to the sound field space. has a portion having a large becomes cross-sectional area than the cross-sectional area at a ratio of the overall length of the acoustic tube l _1, when the length of the portion having a cross sectional area which becomes the large and the l _2, the two lengths l ₂ / l ₁
If 0.2 ≦ l ₂ / l ₁ ≦ 0.8 or S _{1 is} the cross-sectional area of the acoustic tube at the speaker unit side and the opening, and S ₂ is the cross-sectional area of the portion having the large cross-sectional area, The area ratio S ₂ / S ₁ is defined as 2 ≦ S ₂ / S ₁ ≦ 5
By reducing the sound reproduction limit frequency without changing the length of the sound tube, the sound pressure level at that frequency is increased, and the sound pressure near the high sound range limit frequency within the low sound reproduction band. And a speaker system having a high efficiency and flat bass range characteristic can be realized.

[Brief description of the drawings]

FIG. 1 is a structural sectional view of a speaker system according to a first embodiment of the present invention, FIG. 2 is a diagram showing sound pressure and amplitude frequency characteristics of a diaphragm of the speaker system and a conventional speaker system,
3 and 4 are diagrams showing the design conditions and sound pressure frequency characteristics of the sound tube of the present invention, FIG. 5 is a structural sectional view of the speaker system according to the second embodiment of the present invention, and FIG. 6 is a conventional speaker system. FIG. 5,12 ... Speaker unit, 6,7,8,13,14,16,17 ... Acoustic tube, 10,12 ... Diffusion plate.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-62-82899 (JP, A) JP-A-64-68099 (JP, A) JP-A-1-171399 (JP, A) 87083 (JP, U) Japanese Utility Model Showa 55-87084 (JP, U) Japanese Utility Model Showa 62-178680 (JP, U) Japanese Utility Model 63-159986 (JP, U) Japanese Utility Model Utility Model Showa 60-36953 (JP, Y2) (58) Field surveyed (Int. Cl. ⁶ , DB name) H04R 1/02 H04R 1/28-1/30 H04R 1/34

Claims (2)

(57) [Claims] 1. A sound tube which is continuously extended from one side of a speaker unit and whose opening is opened to a sound field space, wherein the sound tube is larger than a cross-sectional area of the sound tube on the speaker unit side and the opening. When having a portion having a cross-sectional area, the total length of the acoustic tube is l ₁ , and the length of the portion having the large cross-sectional area is l ₂ , the ratio l ₂ / l ₁ of the _two lengths is A speaker system, wherein 0.2 ≦ l ₂ / l ₁ ≦ 0.8. 2. A sound tube which is continuously extended from one side of a speaker unit and whose opening is opened to a sound field space, wherein the sound tube is larger than a cross-sectional area of the sound tube on the speaker unit side and the opening. It has a section with a cross-sectional area, and the cross-sectional area of the acoustic tube on the speaker unit side and on the opening
S ₁ , when the cross-sectional area of the portion having the large cross-sectional area is S ₂ , the ratio S ₂ / S ₁ of the two cross-sectional areas is 2 ≦ S ₂ / S ₁ ≦ 5, Speaker system.