JPH04105790U - Structure of bass speaker system - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide a structure of a bass speaker system having bass enhancement characteristics suitable for an audio reproduction system. [Configuration] One bass speaker unit 12 is provided in the speaker cabinet 1.
There are two Helmholtz resonators in the front and one in the rear. The three Helmholtz resonators consist of three cavities 4a, 4b, 4c associated with three ports 3a, 3b, 3c.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to speaker systems, especially the structure of bass speaker systems. do.

0002

[Prior art]

Conventionally, the structure of a bass speaker system as shown in Fig. 6 has been provided, and its characteristics are as follows. was as shown in Figure 7.

0003 In the figure, 11 is the speaker cabinet, and 11a is the periphery of the speaker cabinet 11. Surrounding surfaces forming 4 sides, 11 is the first side, 11c is the second side, 12 is for bass It is a speaker unit. 13a is a port, which is a small circular hole provided on the first side surface 11b. A cylindrical member through which air enters and exits is fixed to 11d, and this port and the surrounding closed space are connected. It constitutes a Helmholtz resonator. 13b is a port, same as port 13a It is formed in a small circular hole 11e on the second side surface 11c.

14a and 14b are cavities of the Helmholtz resonator, f ₀ d is the resonant frequency of the Helmholtz resonator formed by the port 13a and the cavity 14ab, and f ₀ e is the resonant frequency of the Helmholtz resonator formed by the port 13b and the cavity 14b.

[0005] In the structure of a conventional bass speaker system, as shown in Figure 6, the speaker cap is A bass speaker unit 12 is provided near the center of the vignette 11. One Helmholtz resonator was installed at the front and rear of the engine.

Since the sound waves output from the ports 13a and 13b of the two resonators have opposite phases, the resonance frequencies f ₀ d and f ₀ e are set to have a certain frequency interval so that they do not cancel each other out, and a bass speaker is used. 12 is in operation, the characteristics of the synthesized sound pressure are shown by the broken line in FIG.

[0007]

[Problem that the idea aims to solve]

However, in the structure of the conventional bass speaker system described above, the frequencies f ₀ d and f ₀ e of each Helmholtz resonator must be set to a certain degree apart so that the outputs from each port do not cancel each other out. , the reproduction band tended to be expanded more than necessary.

[0008] Furthermore, the attenuation of high frequencies was also insufficient.

[0009] This idea was made in view of the above points, and its purpose is to A bass bass amplifier with bass enhancement characteristics suitable for sound reproduction systems that eliminates the drawbacks of conventional models. It provides the structure of the peaker system.

0010

[Means to solve the problem]

The structure of the bass speaker system of this invention consists of a bass speaker unit and a bass speaker unit. In a bass speaker system composed of a Muholtz resonator, one or more Or Helmholtz resonance is applied to one of the bass speaker units installed in series. It is constructed by installing one resonator and two Helmholtz resonators in series on the other side. be.

[0011] Also, among the two Helmholtz resonators installed in series, the bass speaker unit The Helmholtz resonator that is farthest from the top is replaced with a bass speaker unit. Ru.

0012 Furthermore, at least one of the Helmholtz resonators is a passive radiator. It has been replaced with .

[0013]

[Effect]

According to this invention, as shown in Figure 1, the helm is attached to the other side of the bass speaker unit. Two Holtz resonators are installed in series and the port outputs are inverted, so both left and right ports are The outputs are in phase and combined without cancellation.

[0014] As shown in Figure 2, two bass speaker units are installed in series to increase the output. ing.

[0015] As shown in Figure 3, connect the Helmholtz resonator farthest from the bass speaker unit to the lower Replace it with a sound speaker unit to prevent attenuation caused by the resonator and reproduce up to high frequencies. It makes life possible.

[0016] As shown in Figure 4, all Helmholtz resonators are replaced with passive radiators. In addition, characteristics similar to those of the bass speaker system shown in FIG. 1 are obtained.

[0017]

【Example】

An example of the structure of the bass speaker system according to this invention is shown in FIGS. 1 to 6. I will explain.

[0018] Note that the same parts as in the conventional example are given the same reference numerals, and the explanation thereof will be omitted.

[0019] In the figure, 1 is the speaker cabinet, and 1a is the area around the speaker cabinet 1. 1b is a first side surface, 1c is a second side surface, and 1d is a partition plate.

[0020] 3a is a port, which is a cylindrical part through which air enters and exits a small circular hole 1e provided on the first side surface 1b. The port and the surrounding closed space form a Helmholtz resonator. There is.

[0021] 3b and 3c are ports, which are formed in the same way as port 3a, and are connected to the partition plate 1d and the second side surface. The small circular holes 1f and 1g are provided in 1c, respectively.

[0022] 4a, 4b, 4c are cavities, 5a, 5b, 5c are passive radiators with bass enhancement characteristics similar to Helmholtz resonators, 6 is a bass speaker unit, f ₀ a is a Helmholtz resonator with port 3a and cavity 4a. The resonant frequencies f ₀ b and f ₀ c of the resonator are the resonant frequencies of the Helmholtz resonator formed by the ports 3b and 3c and the cavities 4b and 4c, similar to the above f ₀ a.

[0023] In the above configuration, the structure of the bass speaker system of the present invention is as shown in FIG. In the embodiment 1, one bass speaker unit 12 is installed in the speaker cabinet 1. Two Helmholtz resonators are installed in front of this bass speaker unit 12, and two Helmholtz resonators are installed in the rear. There is one for each person.

[0024] The phase of the sound waves is reversed before and after the port, so the front of the bass speaker unit 12 The phase of the sound wave output from port 3a and the phase of the sound wave output from port 3a are in phase, and the phase of the sound wave output from port 3c It matches the phase of the sound wave output from the Therefore, the outputs from both ports 3a and 3c are combined. and strengthened.

This composite sound pressure characteristic is the sum of the resonant frequencies f ₀ a , f ₀ b , f ₀ c of the three Helmholtz resonators, and is shown by the broken line in FIG. pressure level is obtained.

[0026] Utilizing this characteristic, it is possible to efficiently output only the frequencies that are desired to be reproduced.

[0027] In the second embodiment shown in FIG. 2, the bass speaker unit 12 shown in FIG. A bass speaker unit 6 is additionally provided in the front.

[0028] This increases the output from ports 3a and 3c. In addition, the left and right bass Input the left and right signals of the stereo signal for driving the speakers to speaker units 6 and 12, respectively. , as the center speaker of a three-dimensional (3D) stereo playback system. can be used.

[0029] In the third embodiment shown in FIG. 3, of the two Helmholtz resonators provided in series, Ports 3a and 1 of the Helmholtz resonator farthest from the bass speaker unit 12 In place of the side surface 1b of 1, a bass speaker unit 6 is provided.

[0030] As a result, the high-frequency component of the leftmost bass speaker unit 6 has Helmholtz resonance. It is possible to reproduce up to high frequencies without being attenuated by the equipment.

[0031] In the fourth embodiment shown in FIG. 4, all ports 3a, 3b, 3c of the Helmholtz resonator and three passive radiators in place of the first side surface 1b, the partition plate 1d and the second side surface 1c. 5a, 5b, and 5c are provided.

[0032] As mentioned above, passive radiators 5a, 5b, and 5c are exactly the same as Helmholtz resonators. Since it has the characteristics of The phases of the sound waves are in-phase, and the two are combined and amplified.

[0033] Here, ports 3a, 3b, and 3c of all Helmholtz resonators are connected to passive radiators. 5a, 5b, and 5c, but one or two may be partially replaced.

[0034] Attach a weight to the diaphragm of the Passin radiator to change the resonance frequency and create a synthesized sound. You can also finely adjust the pressure.

[0035] In addition, the voice coil of the bass speaker unit is dual for both L and R signals. You can also wrap it around.

[0036]

[Effect of the idea]

According to the structure of the bass speaker system according to this invention, it is configured as described above. Therefore, the following effects are achieved. (1) Only the necessary frequency bands can be reproduced efficiently. (2) High frequency leakage can be extremely reduced. (3) Since the mass of the diaphragm of a passive radiator can be easily changed, the characteristics may vary slightly. You can make adjustments. (4) It can be downsized and can be placed anywhere. (5) Can be connected as a subwoofer speaker without a low-pass filter, and can be constructed at low cost. Can be done.

[0037] Moreover, it has excellent features such as simple structure and easy implementation. Ru.

[Submission date] April 19, 1992

[Procedural amendment 1]

[Name of document to be amended] Specification

[Correction target item name] Full text

[Correction method] Change

[Correction details] [Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to a bass speaker system, and is particularly suitable for emphasizing bass. Regarding the structure of a bass speaker system.

0002

[Prior art]

Traditionally, the structure of bass speaker systems has often been proposed as shown in Figures 6 and 7. It was being served. Figure 6 is a sectional view of the bass speaker system, and Figure 7 is the bass speaker system. FIG. 3 is a characteristic diagram showing the frequency characteristics of the speaker system for use in the present invention.

0003 In the figure, 11 is a speaker cabinet, and this cabinet 11 has a predetermined part. A peripheral surface 11a is formed of material, and this peripheral surface 11a has a first side surface 11b and a second side surface 11c. A small circular hole 11d is formed in the first side surface 11b, and a circular hole 11d is formed in the second side surface 11c. A small hole 11e is formed. 12 is the bass speaker unit, 13a is the bass speaker unit. The duct 13b is installed on the front side of the bass speaker unit 12. 14a is a duct formed on the front side of the bass speaker unit 12. A resonator is formed by the air chamber and the duct 13a connected to the small circular hole 11d provided in the first side surface 11b. The cavity 14b is the cavity formed on the back side of the bass speaker unit 12. A resonator is formed by the air chamber and the duct 13b connected to the small circular hole 11e provided in the second side surface 11c. This is the formed cavity.

[0004] The above-mentioned cavities 14a and 14b form a Helmholtz resonator, f ₀ d is the resonant frequency due to the air chamber volume of the cavity 14a and the port formed by the duct 13a and the small circular hole 11d, and f ₀ e is the resonant frequency of the cavity 14b. This is the resonance frequency due to the air chamber volume and the port formed by the duct 13b and the small circular hole 11e.

The bass speaker system configured in this way has a bass speaker unit 12 installed near the center of the cabinet 11, and Helmholtz resonators are configured before and after this bass speaker unit 12, and these two Helmholtz resonators Since the sound waves output from the small circular holes 11d and 11e of the port have opposite phases, the above resonance frequencies f ₀ d and f ₀ e are set to frequencies that are somewhat apart so that the reproduced output sound does not cancel each other out. It was necessary to set it to .

FIG. 7 shows the resonance frequencies f ₀ d, f ₀ e set above and the composite sound pressure (characteristics shown by the broken line) due to these two resonance frequencies f ₀ d, f ₀ e. The bass reproduced sound from the bass speaker system configured in this way could be outputted with emphasis on the reproduced sound having the synthesized sound pressure characteristic.

[0007]

[Problem that the idea aims to solve]

However, in the structure of the conventional bass speaker system described above, each resonant frequency f ₀ d, f ₀ e is set to a frequency that is detuned to some extent as described above, so the reproduction band is expanded more than necessary. As a result, there were problems such as insufficient attenuation of high-frequency components.

[0008] This idea was made in view of the above points, and its purpose is to Eliminating the drawbacks of the conventional example, we installed cavities in series to invert the reproduced output sound to create the necessary Providing a structure for a bass speaker system that can emphasize bass reproduction sounds It's around here.

[0009]

[Means to solve the problem]

The structure of this invented bass speaker system has two air chambers inside the cabinet. Arrange the speaker unit so that it is divided into two, and connect the speaker unit through each air chamber. A speaker that radiates the sound radiated from the front of the unit and the sound radiated from the back. In the stem, the air chamber on either the front side or the back side is further expanded in the direction of sound radiation. It is structured so that the resonant frequency of each air chamber is set to a predetermined frequency. Ru.

0010 In addition, there is a point on each wall installed in the direction of propagation of the sound radiated from the above speaker unit. The configuration includes a duct and a duct connected to it, and furthermore, A passive radiator consisting of a diaphragm and mass is installed on each wall in the direction of propagation of radiated sound. Alternatively, the above speaker unit may be configured by providing a plurality of speaker units. It may also be composed of

[0011] In addition, the speaker unit is arranged so that the inside of the cabinet is divided into two air chambers. and transmit the sound radiated from the front and back of the speaker unit through each air chamber. In a speaker system that emits to the outside, either the front or rear side One side of the air chamber is further divided in the direction of sound radiation, and the sound on this divided side is radiated to the outside. A second speaker unit may be arranged on a wall surface that is illuminated by the light.

0012

[Effect] According to this idea, the speaker is divided into two air chambers inside the cabinet. Place the unit and open either the front or rear air chamber. It is further divided in the direction of sound radiation. For example, separate the air chambers on the front side of the speaker unit. The sound radiated from the front of the speaker unit was transmitted to the outside through two cavities. The sound is emitted from the port, and the sound emitted from the back of the speaker unit is transmitted through one cavity. radiated from the port.

[0013] The air chambers arranged in series on the front side of the speaker unit release air from the speaker unit. Since the emitted sound can be inverted and output to the outside, it is possible to It becomes in phase with the reproduced output sound from the speaker unit, and the radiated sound before and after the speaker unit is There is no cancellation, and the resonant frequencies of each cavity are set to approximately the same resonant frequency. can be determined.

[0014] In other words, the reproduced radiated sound of a bass speaker system is the sum of the resonant frequencies of each cavity. Since it is determined by the sound pressure, the resonance frequency of each cavity set to approximately the same frequency The synthesized sound pressure of wave numbers is achieved by narrowing the reproduction band and effectively reproducing and outputting only the necessary frequencies. Moreover, it is possible to attenuate frequencies other than the necessary frequencies, especially high frequencies. Wear.

[0015] Above, each cavity is installed in the direction in which the sound radiated from the speaker unit travels. A small circular hole is provided on each wall, and a port formed by a duct connected to this small circular hole is used. This allows you to set the resonance frequency above, and also allows you to set the resonance frequency from the above speaker unit. A passive radiator consisting of a diaphragm and mass is installed on each wall in the direction of propagation of radiated sound. The same effect can be achieved even if a speaker unit is installed; speaker units, for example, by installing two speaker units in series. Therefore, the speaker output can be further increased.

[0016] In addition, the sound from the two air chambers separated on the front side of the speaker unit is removed. By placing the second speaker unit on the wall that emits radiation to the area, this second Depending on the frequency characteristics of the playback output from the speaker, it is also possible to play up to the high frequency band. It becomes possible.

[0017] In this way, there is a By further dividing the cavity, the radiated sound in the reproduced frequency band is further emphasized. Furthermore, by installing a second speaker unit, even more By emphasizing the desired reproduced sound, it is possible to create the reproduced sound desired by the listener.

[0018]

【Example】

An example of the structure of a bass speaker system according to this invention is shown in FIGS. 1 to 5. I will explain. Note that the same parts as in the conventional example are given the same reference numerals and their explanations are omitted. Ru. Figure 1 shows a first embodiment of a bass speaker system with three air chambers. Figure 2 is a cross-sectional view showing a second embodiment in which two speaker units are installed. Figures 3 and 3 show a third embodiment in which a second speaker unit is provided on the front wall. 4 is a sectional view showing a fourth embodiment using a passive radiator. 5 is a characteristic diagram showing reproduced output sound and synthesized sound pressure characteristics.

[0019] In Example 1 shown in FIG. 1, 1 is a cabinet, and this cabinet 1 is a predetermined member that forms a peripheral surface 1a, and this peripheral surface 1a has a first side surface 1b and a second side surface 1c. and a partition plate 1d, a small circular hole 1e is formed in the first side surface 1b, and a small circular hole 1e is formed in the second side surface 1c. A small circular hole 1g is formed in the partition plate 1d, and a small circular hole 1f is formed in the partition plate 1d.

[0020] 3a is further in front in series with the cavity provided on the front side of the bass speaker unit 12. The duct formed in the cavity on the side, 3b is just before the bass speaker unit 12 The duct formed in the cavity provided on the surface side, 3c is the back of the bass speaker unit 12. This is a duct formed in a cavity provided on the surface side.

[0021] 4a is located further forward in series with the cavity formed on the front side of the bass speaker unit 12. The cavity 4b formed on the front side is formed on the front side of the bass speaker unit 12. , the cavity formed between the above cavity 4a, 4c is a bass speaker unit This is a cavity formed on the back side of 12.

[0022] The cavities 4a, 4b, 4c form a Helmholtz resonator, f ₀ a is the resonance frequency due to the port formed by the duct 3a of the cavity 4a and the circular small hole 1e, and f ₀ b is the resonance frequency of the cavity 4b. The resonance frequency due to the port formed by the duct 3b and the small circular hole 1f, f ₀ c is the resonance frequency due to the port formed by the duct 3c and the small circular hole 1g of the cavity 4c.

[0023] The structure of the bass speaker system configured in this way is based on the above bass speaker unit. 12 in cabinet 1, and 2 on the front side of this bass speaker unit 12. Cavities 4a and 4b form Helmholtz resonators, which are two air chambers. A Helmholtz resonator, which is an air chamber, is formed on the back side of the sound speaker unit 12. A cavity 4c can be formed.

[0024] It is output from the circular small holes 11e and 11f of the ports of the two cavities 4a and 4b on the front side. Each reproduced sound signal is output from the output cavity 4b of the bass speaker unit 12. The phase of the reproduced sound signal in cavity 4a is reversed with respect to the reproduced sound signal, so it cannot be output to the outside. The reproduced sound signals of the cavity 4a that is input and the cavity 4c on the back side are in phase, which is different from the conventional This eliminates the possibility that the reproduced sound output will be canceled out as in the example shown in FIG.

That is, the resonant frequencies f ₀ a, f ₀ b, f ₀ c of each cavity 4a, 4b, 4c can be set to approximately the same resonant frequency, and the approximately same resonant frequency f shown in FIG. ₀ a,f ₀ b,f ₀ c It is possible to obtain a synthesized sound pressure characteristic with sharp selectivity in a narrow band (the characteristic indicated by the broken line in the figure), and only the bass tones that are desired to be reproduced from the bass speaker unit 12 can be efficiently reproduced. It can be reproduced and output well.

[0026] In the second embodiment shown in FIG. 2, 6 is installed in series with the bass speaker unit 12. This is the second bass speaker unit, and in this way, the two first and second bass speakers By installing the sound speaker units 6 and 12, the reproduced sound can be output from the cavity 4a. It is possible to increase the power signal and obtain a clearer and emphasized bass reproduction signal. can.

[0027] In the third embodiment shown in FIG. 3, the second bass speaker unit 6 is Installed on the first side 1b of cavity 4a and formed by small circular hole 1e of cavity 4a and duct 3a This port is configured to output playback sound in place of the port.

In this way, the first bass speaker unit 12 creates the bass to be emphasized set at the resonance frequencies f ₀ a, f ₀ b, f ₀ c of the cavities 4a, 4b, 4c, and simultaneously Since the second bass speaker unit 6 can synthesize and output the reproduced sound signal over the entire band output from the second bass speaker unit 6, it is possible to perform reproduction up to high frequencies. I can do it.

[0029] In Example 4 shown in Fig. 4, 5a, 5b, 5c are passive radiators; Passive radiators 5a, 5b, 5c on the first side forming ports of cavities 4a, 4b, 4c This is installed in place of the surface 1b, the partition plate 1c, and the second side surface 1d. Configure like this By doing so, the same effect as in Example 1 can be obtained, and passive radiator The bass playback signal output from the controller 5a can be played back with a predetermined low frequency emphasized. can.

[0030] The passive radiators 5a, 5b, 5c above constitute passive radiators 5a, 5b, 5c. By adjusting the diaphragm (not shown), fine tuning of the resonant frequency is possible. It is possible to set a more effective bass emphasis frequency.

[0031] In the embodiment shown in FIG. 4 using the passive radiators 5a, 5b, 5c, all the cabinets I replaced the ports of tee 4a, 4b, 4c with passive radiators 5a, 5b, 5c, but this Even if the passive radiators 5a, 5b, and 5c are partially replaced, the same effect as described above can be obtained. can be done.

[0032] Although Examples 1 to 4 have been described above, the voice of the bass speaker unit 12 The coil is configured with double windings, and each of the double winding voice coils has, for example, Bass emphasis is achieved by supplying the left and right channels of the stereo playback signal. Effective as a center speaker in a three-dimensional (3D) stereo playback system. It can be used for. Similarly, connect the left channel to the bass speaker unit 6. and the right channel playback signal to the bass speaker unit 12. It can also be used as a center speaker in the same way as above.

[0033]

[Effect of the idea]

As mentioned above, the structure of the bass speaker system according to this invention is as follows: Since only the necessary frequency band can be efficiently reproduced with narrowband characteristics, low It is said that it is possible to emphasize sound reproduction and reduce leakage of high frequencies at the same time. effective.

[0034] Also, passive radiators can be used for cavity ports, so The bass emphasis frequency of the reproduced sound signal can be finely adjusted, resulting in more efficient bass enhancement. It also has the effect of being able to play back sound, and has improved functions for playing sound as mentioned above. However, it is possible to achieve the same miniaturization as before, and the speaker system It has the advantage that it can be used without limiting the installation location.

[0035] Furthermore, as described in Example 3, it can be used as a subwoofer speaker system. Another advantage is that it can be realized without using a pass filter or the like. Moreover, it has a simple structure and can be constructed at low cost, making it easy to implement. It has excellent features such as being easy to use.

[Brief explanation of drawings]

[Fig. 1] First structure of the bass speaker system of the present invention
It is a side sectional view showing an example of this.

FIG. 2 is a side sectional view showing the second embodiment.

FIG. 3 is a side sectional view showing the third embodiment.

FIG. 4 is a side sectional view showing the fourth embodiment.

FIG. 5 is a characteristic diagram showing the synthesized sound pressure of the first embodiment.

FIG. 6 is a side sectional view showing the structure of a conventional bass speaker system.

FIG. 7 is a characteristic diagram showing the synthesized sound pressure of the same example.

[Explanation of symbols]

1 Speaker cabinet 1a Surrounding surface 1b First aspect 1c Second aspect 1d partition plate 1e, 1f, 1g small circular hole 3a, 3b, 3c ports 4a, 4b, 4c cavity 5a, 5b, 5c passive radiator 6,12 Bass speaker unit

[Procedural amendment]

[Submission date] April 19, 1992

[Procedural amendment 1]

[Name of document to be amended] Specification

[Correction target item name] Full text

[Correction method] Change

[Correction details]

[Document name] Statement

[Name of invention] Structure of bass speaker system

[Scope of utility model registration request]

[Brief explanation of drawings]

FIG. 1 is a sectional view showing a first embodiment of the structure of a bass speaker system according to the invention.

FIG. 2 is a sectional view showing a second embodiment.

FIG. 3 is a sectional view showing a third embodiment.

FIG. 4 is a sectional view showing a fourth embodiment.

FIG. 5 is a characteristic diagram showing the synthetic sound pressure characteristics of the resonance frequency of this invention.

[Explanation of symbols] 1 cabinet 1a Surrounding surface 1b First aspect 1c Second aspect 1d partition plate 1e,1f,1g small circular hole 3a,3b,3c Duct with ports formed 4a,4b,4c cavity 5a,5b,5c passive radiator 6 Second bass speaker unit 12 First bass speaker unit

Claims (3)

[Scope of utility model registration request] 1. A bass speaker system constituted by a bass speaker unit and a Helmholtz resonator, wherein one Helmholtz resonator is provided in one of the bass speaker units or a plurality of bass speaker units provided in series,
A structure of a bass speaker system characterized by having two Helmholtz resonators arranged in series on the other hand. 2. The bass speaker system according to claim 1, wherein of the two Helmholtz resonators provided in series, the Helmholtz resonator that is farther from the bass speaker unit is replaced with a bass speaker unit. structure. 3. The structure of a bass speaker system according to claim 1, wherein at least one of the Helmholtz resonators is replaced with a passive radiator.