JP6665613B2 - Speaker device - Google Patents

Description

  The present invention relates to a speaker device having a bass reflex structure.

  The bass reflex port is the sound pressure of the opposite phase radiated from the back of the unit when the sound pressure is emitted from the speaker unit to the front, and the mass of the air spring inside the enclosure and the air inside the port Is a tube that inverts the phase due to the resonance (Helmholtz resonance) and emits it to the outside of the enclosure.

  Here, the resonance frequency of the bass reflex port is uniquely determined by the spring of the air confined inside the enclosure and the mass of the air inside the port. However, changing the cross-sectional area of the bass reflex port changes the air spring as seen from the port. Because a constant pressure per unit area is applied to the inner wall of the enclosure, if the cross-sectional area that opens in the port is large, a large pressure is applied to the opening, so the air in the enclosure looks like a strong air spring from the port, This is because if the cross-sectional area opening into the port is small, the air in the enclosure will appear as a weak air spring.

  In order to keep the resonance frequency of the bass reflex port constant, it is necessary to keep (mass of air inside the port) / (spring of air trapped inside the enclosure) constant. Therefore, for example, if the cross-sectional area of the bass reflex port is doubled, the strength of the spring is doubled. Therefore, when the resonance frequency is the same, the mass of the air must be doubled. If the port length is doubled, the volume of air in the bass reflex port is doubled, so that the resonance frequency is maintained. Similarly, when reducing the cross-sectional area, the same resonance frequency can be maintained by shortening the port length. In this way, the bass reflex port can be deformed while maintaining the resonance frequency.

  By the way, in the bass reflex port, the air column vibrates inside, but the air outside the bass reflex port also vibrates near the entrance. It is said that in a normally used round bass reflex port, external air up to a distance of about 60% of the radius oscillates with the air column in the port. For example, the air column inside the bass reflex port vibrates as if a piston of air slightly longer than the bass reflex port is fitted in the cylinder called the bass reflex port. (Sound waves) generate sound pressure. Here, since the end face of the air piston is outside the port, providing an obstacle with air resistance, such as a grill or punched metal, in the port opening will hinder the movement of the air piston and reduce the acoustic characteristics of the bass reflex port. descend.

  In addition, air is sucked in from all directions when sucked into the bass reflex port, but has the property of going straight in one direction when it is exhaled. Form a flow. Once formed, the vortex ring has very low air resistance. For this reason, the air flow of the vortex wheel reaches far before it naturally diffuses and disappears, and hits an obstacle on the way to vibrate the obstacle or generate turbulence to generate noise.

  In addition, since the airflow generated from the bass reflex port is generated not only at the external opening of the enclosure but also at the internal opening, if the speaker unit is arranged on an extension of the internal opening, the airflow hits the diaphragm from behind, generating large noise. .

  Further, when the opening inside the enclosure of the bass reflex port is close to the enclosure wall, the air flow from the opening causes the enclosure wall to vibrate or generate turbulence, thereby generating noise inside the enclosure. Some of the noise generated inside the enclosure is emitted to the outside through the diaphragm of the speaker unit, so that the reproduced sound becomes turbid or distorted.

  Therefore, Patent Literature 1 proposes a bass reflex port having a main pipe portion that is a tubular body having a fixed opening cross-sectional area, and air rectifiers on both sides in the longitudinal direction of the main pipe portion. Here, the air rectifier has a constant dimension in which the length in one direction of the hollow cross section does not change along the axial direction, and the area change rate is continuously increased from the point where the hollow cross section becomes the smallest to one opening side. Has a shape that becomes larger.

  According to the bass reflex port described in Patent Literature 1, the tip of the piston of the air column vibrating in the main pipe portion is in the air rectifier, and the air flow of the vortex ring to be generated diffuses and disappears in the air rectifier. Therefore, only the compression wave (sound wave) of air is emitted from the opening of the air rectifier. In this bass reflex port, even if a grill or a punching metal is installed in the opening of the air rectifier, noise does not occur and the acoustic characteristics of the bass reflex port do not deteriorate. For this reason, it is possible to arrange the enclosure internal opening close to the back of the speaker unit, and to arrange the enclosure internal opening close to the enclosure wall.

Japanese Patent No. 5435083

  By the way, in acoustic design for obtaining a flat frequency sound pressure characteristic using a drive circuit having a flat frequency-voltage characteristic, there is a necessary and sufficient volume corresponding to a unique parameter of the speaker unit, and when the volume is less than this volume. Did not have a flat frequency characteristic. However, in recent years, it has become possible to easily change the drive frequency-voltage characteristics to obtain a desired frequency sound pressure characteristic by digital signal processing or software processing, so that it is desired to reduce the size of the enclosure as much as possible. It is becoming. For this reason, the depth of the enclosure may be reduced to a point where the back surface of the speaker unit is considerably close to the inner wall of the enclosure.

  However, although the bass reflex port disclosed in Patent Literature 1 has many advantages, it has a structure in which air rectifiers are provided at both ends of a normal bass reflex port, so that the length and width are larger than those of a cylindrical port having the same resonance frequency. .

  Here, in the case of a speaker device in which the shape of the enclosure is elongated and the speaker unit is located at the end of the enclosure, the shape of the bass reflex port in Patent Document 1 fits well inside the enclosure and is compared to the case where a cylindrical port is used. Therefore, the enclosure is not particularly large. However, in the case where the shape of the baffle to which the speaker unit is attached is a square enclosure or the like, the bass reflex port described in Patent Literature 1 has a poor fit and a low space utilization rate, so that the enclosure is easily enlarged.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a speaker device in which a bass reflex port can be easily accommodated in an enclosure and the enclosure can be reduced in size.

  The present invention relates to an enclosure supporting a speaker unit, and a hollow tube-shaped bass reflex port disposed between the speaker unit and an inner wall of the enclosure inside the enclosure, wherein the speaker unit in the bass reflex port The side surface on the opposite side extends linearly along the inner wall, and the side surface on the speaker unit side of the bass reflex port includes a bass reflex port having a curved shape bent along the outer peripheral surface of the speaker unit. A speaker device is provided.

  According to this speaker device, the bass reflex port can be accommodated so as to fill the gap between the inner wall of the enclosure and the outer periphery of the speaker unit, so that the enclosure can be downsized.

It is a front view showing the composition of the speaker device which is a 1st embodiment of this invention. FIG. 2 is a sectional view taken along line I-I ′ of FIG. 1. FIG. 3 is a perspective view showing a configuration of a bass reflex port in the speaker device. It is a front view showing the composition of the speaker device which is a 2nd embodiment of this invention. FIG. 5 is a sectional view taken along line I-I ′ of FIG. 4. It is a front view showing the composition of the speaker device which is a 3rd embodiment of the present invention. It is the front view and sectional drawing which show the structure of the speaker apparatus which is 4th Embodiment of this invention. It is the front view and sectional view showing the composition of the speaker device which is a 5th embodiment of the present invention. It is the front view and sectional view showing the composition of the speaker device which is a 6th embodiment of the present invention. It is the front view and sectional view showing the composition of the speaker device which is a 7th embodiment of the present invention. It is a front view showing the composition of the speaker device which is an 8th embodiment of the present invention. It is a front view showing the composition of the speaker device which is a 9th embodiment of the present invention. It is a front view showing the composition of the speaker device which is a 10th embodiment of the present invention. It is an assembly drawing showing the composition of the speaker device which is an 11th embodiment of the present invention. It is a perspective view showing the example of composition of the spacer in other embodiments of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<First embodiment>
FIG. 1 is a front view showing a configuration of a speaker device 1_1 according to a first embodiment of the present invention. FIG. 2 is a sectional view taken along line II ′ of FIG. FIG. 3 is a perspective view showing the configuration of the bass reflex port 10 in FIG.

  As shown in FIG. 1, a speaker device 1_1 according to the present embodiment has a configuration in which a speaker unit SP and a bass reflex port 10 are installed in an enclosure 11, and a bass reflex port opening 18 is formed.

  As shown in FIGS. 1 and 2, the enclosure 11 has a pair of walls 12 and 13 whose main surfaces are parallel to each other, a pair of walls 14 and 15, and a pair of walls 16 and 17, It has a rectangular parallelepiped shape. Hereinafter, for convenience, the direction connecting the walls 16 and 17 is referred to as an X direction, the direction connecting the walls 14 and 15 is referred to as a Y direction, and the direction connecting the walls 12 and 13 is referred to as a Z direction.

  The wall 12 has a speaker unit SP installed thereon and an opening 18 for a bass reflex port formed therein, and functions as a baffle plate. As shown in FIG. 2, the speaker unit SP has a vibrating part SP_V formed of a diaphragm or the like, and a magnet SP_M that generates a magnetic field for obtaining a driving force for the vibrating part SP_V. Here, the vibrating part SP_V of the speaker unit SP is supported at substantially the center of the wall part 12, and the bass reflex port opening 18 is formed near the wall part 15 of the wall part 12. A bass reflex port 10 is arranged near the wall 12 and the wall 16 inside the enclosure 11. As shown in FIG. 3, the bass reflex port 10 is connected to the bass reflex port opening 18 via the connection space 19.

  As shown in FIGS. 1 to 3, the bass reflex port 10 is a single hollow tube body that is surrounded by walls 10 </ b> A, 10 </ b> B, 10 </ b> C, and 10 </ b> D and has both ends opened. The main pipe 100 can be divided into air rectifiers 101 and 102 on both sides in the longitudinal direction. The wall portion 10A of the bass reflex port 10 is fixed to the inner surface of the wall portion 12 in the enclosure 11, and the wall portion 10B is parallel to the wall portion 16 in the enclosure 11, and faces the wall portion 16 with a gap therebetween. ing.

  The main pipe part 100 has a rectangular cross section perpendicular to the Y direction, and has a dimension in the X direction (that is, a dimension between the walls 10B and 10D) and a dimension in the Z direction (that is, the walls 10A and 10A). 10C) is constant at each position in the Y direction. The length and the hollow cross-sectional area of the main tube portion 100 are set based on the frequency of the bass sound to be enhanced as the speaker device 1_1. Further, the main tube portion 100 has a constant hollow cross-sectional area smaller than the effective area of the speaker unit SP.

  The air rectifiers 101 and 102 have a rectangular cross section perpendicular to the Y direction. The dimension in the Z direction of the cross section of the air rectifiers 101 and 102 (that is, the dimension between the walls 10A and 10C) is the same as the dimension in the Z direction of the cross section of the main pipe 100, and is constant regardless of the position in the Y direction. is there. The dimension of the cross section of the air rectifiers 101 and 102 in the X direction (that is, the dimension between the wall portions 10B and 10D) increases from the main pipe portion 100 side to the wall portion 15 side and the wall portion 14 side.

  More specifically, the wall portion 10B on the wall portion 16 side of the main pipe portion 100 and the air rectifiers 101 and 102 is a plane continuous in the Y direction and the Z direction, and faces in parallel with the wall portion 16 with a gap therebetween. I have. On the other hand, the wall 10D of the air rectifiers 101 and 102 on the side opposite to the wall 16 is curved along the outer peripheral surface of the vibration part SP_V of the cylindrical speaker unit SP. In other words, the outer peripheral surface of the vibrating part SP_V retreats toward the center of the vibrating part SP_V in the X direction as it goes from the center of the vibrating part SP_V in the Y direction toward the wall 15 and the wall 14. The walls 10D of the rectifiers 101 and 102 project toward the center of the vibrating part SP_V in the X direction.

  As described above, the air rectifiers 101 and 102 have a shape in which the hollow cross-sectional area gradually increases as the distance from the main pipe portion 100 side increases, without changing the hollow cross-sectional dimension in the Z direction. In a preferred embodiment, the distance between the wall 10D and the wall 10B of the air rectifiers 101 and 102 changes in accordance with an exponential function as the distance from the wall 15 to the wall 15 increases.

The open end of the air rectifier 102 on the wall 14 side faces the wall 14 with a gap therebetween. As shown in FIG. 3, the air rectifier 101 is connected to a hollow rectangular parallelepiped connection space 19 at an opening end on the wall 15 side. Here, the space in the air rectifier 101 and the space in the connection space 19 are continuous spaces. An opening 18 ′ facing the bass reflex port opening 18 is formed in the wall 10 </ b> A of the connection space 19. The space in the air rectifier 101 communicates with the space outside the speaker device 1_1 via the connection space 19 and the bass reflex port opening 18.
The above is the configuration of the speaker device 1_1.

  According to such a speaker device 1_1, the following operation occurs when the speaker unit SP vibrates. First, the open end of the air rectifier 102 on the wall 14 side has a significantly larger hollow sectional area than the main pipe 100. For this reason, at the opening end of the air rectifier 102 on the speaker unit SP side, the intake air velocity becomes very low, and turbulence at the opening end hardly occurs.

  Further, since the hollow cross-sectional area of the air rectifier 102 decreases smoothly along the traveling direction of the air, turbulence does not occur even while the air rectifier 102 is passing through.

  Further, at the connection portion between the air rectifier 102 and the main pipe portion 100, the hollow shape in cross section changes smoothly. Accordingly, even if the flow velocity of the air reaches the main pipe section 100, the turbulent flow when the air flows from the air rectifier 102 to the main pipe section 100 does not occur. As described above, the air rectifier 102 can significantly suppress the turbulent flow at the time of intake, and can significantly suppress the generation of noise based on the turbulent flow.

  The main tube section 100 has a constant hollow cross-sectional area smaller than the effective area of the speaker unit SP. The main pipe section 100 causes the air flowing from the air rectifier 102 to flow at a predetermined flow rate, and outputs the air to the air rectifier 101. At this time, turbulence does not occur in the main pipe 100 because the main pipe 100 has a constant hollow cross-sectional shape in the longitudinal direction. Thereby, the main pipe section 100 can excite Helmholtz resonance at a desired frequency without generating turbulence.

At the connection between the main pipe section 100 and the air rectifier 101, the hollow cross section changes smoothly.
Thereby, the air flowing from the main pipe portion 100 to the air rectifier 101 flows along the inner wall of the air rectifier 101.

  In the air rectifier 101, the hollow cross-sectional area increases smoothly along the exponential function value along the traveling direction of the air. However, since the distance between the wall portion 10A and the wall portion 10C is constant, in the air rectifier 101, the air that is going to diffuse in the direction of the wall portion 10A and the wall portion 10C is transmitted from the wall portion 10A and the wall portion 10C. Pressure continues to be applied. For this reason, the air spreads in the direction of the wall portion 10B and the wall portion 10D whose distances are gradually separated from each other, and continues to receive pressure from the wall portion 10B and the wall portion 10D. That is, the air flowing in the air rectifier 101 is constantly affected by the walls 10A to 10D and flows while spreading over the entire hollow cross section.

  As described above, the air rectifier 101 gradually increases the cross-sectional area of the air flowing while spreading over the entire hollow cross section, so that the flow velocity gradually decreases. When the air rectifier 101 reaches the opening end on the connection space portion 19 side, the cross-sectional area of the opening end reaches a size corresponding to the speaker unit SP, so that the flow velocity is sufficiently reduced. That is, the flow velocity of the exhaust gas from the air rectifier 101 is significantly lower than that of the main pipe 100.

  The air whose flow velocity has decreased in this way is exhausted to the outside from the bass reflex port opening 18 through the connection space 19. Therefore, the bass component amplified by the bass reflex port is emitted from the bass reflex port opening 18. At this time, since the exhaust flow velocity from the bass reflex port 10 (the air rectifier 101) is low, even if the sound emission direction is bent by 90 ° by the connection space 19, the air exhausted from the bass reflex port 10 gently flows through the connection space 19. And no noise is generated by colliding with the wall of the connection space 19 at high speed.

  The bass reflex port operates by alternately sucking and exhausting air from both opening surfaces. Intake from the air rectifier 101 is performed from the bass reflex port opening 18 through the connection space portion 19, and from the air rectifier 102. There is also an operation that exhaust is performed. In this case, the air rectifier 101 performs the intake operation of the air rectifier 102 described above, and the air rectifier 102 performs the exhaust operation of the air rectifier 101 described above.

  Here, since the air rectifier 101 and the air rectifier 102 have the same structure, even when the air is taken in from the bass reflex port opening 18, the turbulence during the intake is suppressed as described above, and the exhaust flow velocity is reduced. Can be reduced. In this case, the exhausted air travels in the direction of the speaker unit SP, but since the exhaust flow speed is low, noise that may be generated due to vibration of the diaphragm of the speaker unit SP due to the exhaust is suppressed. can do.

  As described above, the speaker device 1_1 according to the present embodiment is configured such that the bass reflex port 10 having a shape that fills the gap between the wall 16 of the enclosure 11 and the outer periphery of the speaker unit SP is arranged in the same gap. There is an effect that the size of the enclosure 11 accommodating the bass reflex port 10 can be reduced. Further, according to the present embodiment, since the air rectifiers 101 and 102 are provided on both sides of the main pipe portion 100 in the bass reflex port 10, the speaker device 1_1 that suppresses the generation of noise caused by the bass reflex port 10 is realized with a simple structure. can do.

  Further, according to the present embodiment, since the main pipe 100 and the bass reflex port opening 18 are connected via the air rectifier 101 and the connection space 19, a direction different from the central axis of the main pipe 100 (FIG. 3). An opening 18 for a bass reflex port that opens in a direction different by 90 ° in the example) can be provided. Hereinafter, this effect will be described.

  First, in the case of an ordinary cylindrical bass reflex port, the characteristics of the bass reflex port are affected unless it is bent with a radius of at least three times the port diameter, so that the bass reflex port cannot be sharply bent. Here, when the axis of the bass reflex port is arranged in the same direction as the operation axis of the speaker unit, and the sound emission directions of the speaker unit and the bass reflex port are to be aligned, the port length is shortened to accommodate the bass reflex port in a small depth enclosure. I have to make it. However, in order to shorten the port length of the bass reflex port and set the resonance frequency low, the diameter of the bass reflex port must be reduced. However, when the diameter of the bass reflex port is reduced, the air flow velocity in the bass reflex port increases, the airflow resistance increases, and the acoustic characteristics of the bass reflex port deteriorate. The problem that the viewer feels the wind and the problem that noise occurs when the air flow hits a grill or the like provided for protecting the speaker unit occurs.

  However, according to the present embodiment, since the main pipe 100 and the bass reflex port opening 18 are connected via the air rectifier 101 and the connection space 19, an angle of 90 ° with respect to the central axis of the main pipe 100 is established. However, even if the bass reflex port opening 18 is provided in the direction in which the reflex port is formed, the efficiency of the bass reflex port 10 is not reduced and no noise is generated.

  Therefore, even when the axis of the bass reflex port 10 is arranged in the plane direction perpendicular to the sound emission axis of the speaker unit SP as in the present embodiment, the sound from the bass reflex port 10 is provided in the bass reflex port opening 18. By rapidly changing the direction in the space 19 and emitting sound from the baffle surface, the port length of the bass reflex port 10 can be arranged to be longer, and as a result, the diameter of the main pipe 100 can be increased. Therefore, it is possible to suppress an increase in the air flow velocity in the main pipe 100 and a reduction in the air resistance.

<Second embodiment>
An extremely common speaker unit is a dynamic type using a ferrite magnet, has a circular or elliptical or elliptical diaphragm, and a donut-shaped ferrite magnet is mounted behind the diaphragm. Since the volume and various performances of the magnet are almost proportional, a large magnet tends to be used in a speaker unit for audio use. In particular, in the case of a woofer for reproducing low-frequency sound which requires a large driving force, a magnet having a diameter approximately equal to the diameter of the diaphragm may be used.

  Hereinafter, an application example of the present invention to a speaker device including a speaker unit having such a large-diameter magnet will be described.

  FIG. 4 is a front view showing a configuration of the speaker device 1_2 according to the second embodiment of the present invention. FIG. 5 is a sectional view taken along the line I-I 'of FIG. In these drawings, the same reference numerals are used for portions corresponding to the portions shown in the first embodiment (FIGS. 1 to 3), and description thereof will be omitted.

  In the present embodiment, the wall 10C of the bass reflex port 10 is fixed to the wall 13 behind the speaker unit SP in the enclosure 11. Further, similarly to the first embodiment, the wall 10B of the bass reflex port 10 is located near the wall 16 of the enclosure 11. The wall portion 10D of the bass reflex port 10 is curved along the outer periphery of the magnet SP_M of the speaker unit SP having a cylindrical shape. As in the first embodiment, the bass reflex port opening 18 is formed at a position near the wall 15 of the wall 12 of the enclosure 11. The open end of the bass reflex port 10 on the side of the wall 15 is connected to the bass reflex port opening 18 via a connection space 19 similar to that of the first embodiment.

  In this embodiment, the same effects as those of the first embodiment can be obtained. Whether to adopt the first embodiment or the present embodiment is selected based on the shape and width of the space between each of the vibrating part SP_V and the magnet SP_M of the speaker unit SP and the wall part 16 of the enclosure 11. do it.

<Third embodiment>
FIG. 6 is a front view showing the configuration of the speaker device 1_3 according to the third embodiment of the present invention. In this figure, the same reference numerals are used for the portions corresponding to the portions shown in the first embodiment (FIGS. 1 to 3), and the description thereof will be omitted.

  In the present embodiment, the bass reflex port 10_1 has the same shape as the bass reflex port 10 of the first embodiment, but the cross-sectional area of the opening is half that of the bass reflex port 10. The bass reflex port 10_2 has a mirror image of the bass reflex port 10_1 with respect to a plane passing through the center of the speaker unit SP.

  The bass reflex ports 10_1 and 10_2 are surrounded by the same wall portions 10A, 10B, 10C and 10D as the bass reflex port 10 of the first embodiment (however, the illustration of the wall portion 10C is omitted in FIG. 6). ing.

  The wall portion 10A of the bass reflex port 10_1 is fixed to the inner surface of the wall portion 12 in the enclosure 11. The wall portion 10B of the bass reflex port 10_1 is located near the inner surface of the wall portion 16 in the enclosure 11. The wall portion 10D of the bass reflex port 10_1 is curved along the outer periphery of the vibration portion SP_V of the speaker unit SP having a cylindrical shape.

  On the other hand, the wall 10A of the bass reflex port 10_2 is fixed to the inner surface of the wall 12 in the enclosure 11. The wall 10B of the bass reflex port 10_2 is located near the inner surface of the wall 17 in the enclosure 11. The wall portion 10D of the bass reflex port 10_2 is curved along the outer periphery of the vibration portion SP_V of the speaker unit SP having a cylindrical shape.

  Further, bass reflex port openings 18_1 and 18_2 are formed at a position near the wall 15 of the wall 12 of the enclosure 11. These bass reflex port openings 18_1 and 18_2 are respectively formed at the respective opening ends on the wall portion 15 side of the bass reflex ports 10_1 and 10_2 via two connection spaces 19_1 and 19_2 similar to those of the first embodiment. It is connected.

  In the present embodiment, the two bus reflex ports 10_1 and 10_2 produce the effect as the single bus reflex port 10 of the first embodiment. Therefore, in the present embodiment, the same effect as in the first embodiment can be obtained. Further, the two bass reflex ports 10_1 and 10_2 of the present embodiment have an opening cross-sectional area that is half that of the bass reflex port 10 of the above-described first embodiment, and accordingly, the space for installation is reduced. Therefore, according to the present embodiment, there is obtained an effect that the size of the enclosure 11 can be further reduced as compared with the first embodiment.

<Fourth embodiment>
FIG. 7A is a front view illustrating a configuration of a speaker device 1_4 according to a fourth embodiment of the present invention, and FIG. 7B is a cross-sectional view taken along line Ia-Ia ′ of FIG. 7A. In these figures, the same reference numerals are used for the portions corresponding to the portions shown in the third embodiment (FIG. 6), and the description thereof will be omitted.

  Each of the speaker devices according to this embodiment and the fifth to seventh embodiments to be described later has two bass reflex ports, a common connection space for these bass reflex ports, and a bass reflex port opening.

  In the case of an audio speaker device, there is a case where the bass reflex port is opened to the viewer side and a case where the bass reflex port is directed to the opposite side from the viewpoint of sound quality. The present embodiment and a sixth embodiment to be described later are embodiments in which the bass reflex port is opened toward the viewer, and fifth and seventh embodiments to be described later are embodiments in which the bass reflex port is opened toward the opposite side.

  7A and 7B, a bass reflex port 10_1a corresponds to the bass reflex port 10_1 of the third embodiment. In the bass reflex port 10_1a, the wall 12 of the enclosure 11 also serves as a wall corresponding to the wall 10A of the bass reflex port 10_1 of the third embodiment. Other points are the same as those of the bass reflex port 10_1 of the third embodiment. The bass reflex port 10_2a has a mirror image of the bass reflex port 10_1a with respect to a plane passing through the center of the speaker unit SP.

  Similar to the bass reflex ports 10_1 and 10_2 of the third embodiment, the wall 10B of the bass reflex port 10_1a is parallel to the wall 16 in the enclosure 11, faces the wall 16 with a gap therebetween, and has the bass reflex port 10_2a. The wall portion 10B is parallel to the wall portion 17 in the enclosure 11, and faces the wall portion 17 with a gap therebetween. The wall portion 10D of the bass reflex port 10_1a curves along the outer periphery of the vibrating portion SP_V of the cylindrical speaker unit SP, and the wall portion 10D of the bass reflex port 10_1b also curves along the outer periphery of the vibrating portion SP_V. ing.

  At the position near the wall 15 of the wall 12 of the enclosure 11, an opening 18a for both bass reflex ports is formed over substantially the entire length of the wall 12 in the X direction. The two bus reflex port dual-purpose openings 18a are formed in the wall portions of the bus reflex ports 10_1a and 10_2a through a rectangular parallelepiped double bus reflex port dual-purpose connection space portion 19a having a width in the X direction substantially equal to that of the two bus reflex port dual-purpose openings 18a. It is connected to each opening end on the 15th side.

  In the present embodiment, the same effects as in the third embodiment can be obtained.

<Fifth embodiment>
FIG. 8A is a front view showing a configuration of a speaker device 1_5 according to a fifth embodiment of the present invention, and FIG. 8B is a cross-sectional view taken along line Ia-Ia ′ of FIG. 8A. In these drawings, the same reference numerals are used for portions corresponding to the portions shown in the fourth embodiment (FIG. 7), and the description thereof will be omitted.

  8A and 8B, the bass reflex ports 10_1a and 10_2a are the same as the bass reflex ports 10_1a and 10_2a of the fourth embodiment.

  In the present embodiment, at the position near the wall portion 15 of the wall portion 13 of the enclosure 11, a double bass reflex port opening 18 b is formed over substantially the entire length of the wall portion 13 in the X direction. The two bus reflex port dual-purpose openings 18b are formed in the wall portions of the bus reflex ports 10_1a and 10_2a via a rectangular parallelepiped double bus reflex port dual-purpose connection space 19b having a width in the X direction substantially equal to that of the two bus reflex port dual-purpose openings 18b. It is connected to each opening end on the 15th side.

  In the present embodiment, the same effects as in the third embodiment can be obtained. In the present embodiment, the sound from the bass reflex ports 10_1a and 10_2a can be emitted backward from the wall on the opposite side of the baffle plate.

<Sixth embodiment>
FIG. 9A is a front view illustrating a configuration of a speaker device 1_6 according to a sixth embodiment of the present invention, and FIG. 9B is a cross-sectional view taken along line Ia-Ia ′ of FIG. 9A. In these drawings, the same reference numerals are used for portions corresponding to the portions shown in the fourth embodiment (FIG. 7), and the description thereof will be omitted.

  9A and 9B, a bass reflex port 10_1c corresponds to the bass reflex port 10_1 of the third embodiment. In the bass reflex port 10_1c, the wall 13 of the enclosure 11 also serves as a wall corresponding to the wall 10C of the bass reflex port 10_1 of the third embodiment. Other points are the same as those of the bass reflex port 10_1 of the third embodiment. The bass reflex port 10_2c has a mirror image of the bass reflex port 10_1c with respect to a plane passing through the center of the speaker unit SP.

  The wall portion 10B of the bass reflex port 10_1c is located near the inner surface of the wall portion 16 in the enclosure 11, and the wall portion 10B of the bass reflex port 10_2c is located near the inner surface of the wall portion 17 in the enclosure 11. The wall portion 10D of the bass reflex port 10_1c is curved along the outer periphery of the magnet SP_M of the speaker unit SP having a cylindrical shape, and the wall portion 10D of the bass reflex port 10_2c is also curved along the outer periphery of the magnet SP_M. .

  As in the fourth embodiment (FIG. 7), at the position near the wall 15 of the wall 12 of the enclosure 11, a double bass reflex port / opening 18a is formed over substantially the entire length of the wall 12 in the X direction. I have. The two bus reflex port dual-purpose openings 18a are formed in the wall portions of the bus reflex ports 10_1c and 10_2c through a rectangular parallelepiped double bus reflex port dual-purpose connection space 19c having a width in the X direction substantially equal to that of the two bus reflex port dual-purpose openings 18a. It is connected to each opening end on the 15th side.

  In this embodiment, the same effects as in the third embodiment can be obtained.

<Seventh embodiment>
FIG. 10A is a front view illustrating a configuration of a speaker device 1_7 according to a seventh embodiment of the present invention, and FIG. 10B is a cross-sectional view taken along line Ia-Ia ′ of FIG. In these drawings, the same reference numerals are used for portions corresponding to the portions shown in the sixth embodiment (FIG. 9), and description thereof will be omitted.

  In the sixth embodiment, the double reflex port / opening 18 a is formed at a position near the wall 15 of the wall 12 of the enclosure 11 over substantially the entire length of the wall 12 in the X direction.

  On the other hand, in the present embodiment, the opening portion 18a for both bass reflex ports is not formed, and the wall portion 13 of the enclosure 11 is located near the wall portion 15 over substantially the entire length of the wall portion 13 in the X direction. An opening 18b for both bass reflex ports is formed. The two bus reflex port dual-purpose openings 18b are formed in the wall portions of the bus reflex ports 10_1c and 10_2c through a rectangular parallelepiped double bus reflex port dual-purpose connection space portion 19d having a width in the X direction substantially equal to that of the two bus reflex port dual-purpose openings 18b. It is connected to each opening end on the 15th side. Other points are the same as in the sixth embodiment.

  In the present embodiment, the same effects as in the third embodiment can be obtained. Further, in the present embodiment, sound from the balref ports 10_1c and 10_2c can be emitted backward from the wall on the opposite side of the baffle plate.

<Eighth embodiment>
FIG. 11 is a front view illustrating a configuration of a speaker device 1_8 according to an eighth embodiment of the present invention. In these figures, the same reference numerals are used for the portions corresponding to the portions shown in the third embodiment (FIG. 6), and the description thereof will be omitted.

  In the third embodiment (FIG. 6), the bass reflex port openings 18_1 and 18_2 are formed in the baffle plate of the enclosure 11 at positions near the respective opening ends on the same side of the bass reflex ports 10_1 and 10_2.

  On the other hand, in the present embodiment, as shown in FIG. 11, the bass reflex port openings 18_1 and 18_2 are provided at positions near the opposite opening ends of the bass reflex ports 10_1 and 10_2 in the baffle plate of the enclosure 11. Is formed. The connection spaces 19_1 and 19_2 connect the spaces near the opening ends on the opposite sides of the bass reflex ports 10_1 and 10_2 to the bass reflex port openings 18_1 and 18_2, respectively.

  In this embodiment, the same effects as in the third embodiment can be obtained.

<Ninth embodiment>
FIG. 12 is a front view showing a configuration of a speaker device 1_9 according to a ninth embodiment of the present invention. In these drawings, the same reference numerals are used for portions corresponding to the portions shown in the first embodiment (FIGS. 1 to 3), and description thereof will be omitted.

  In the present embodiment, the inside of the enclosure 11 has a first space 11A, a second space 11B, and a bass reflex port opening 18 sandwiched between the first space 11A and the second space 11B. It is divided into connection space portions 11C. Here, the opening 18 for the bass reflex port of the connection space 11C is formed in the baffle plate of the enclosure 11.

  The enclosure 11 accommodates and supports the speaker unit SP_A in the first space 11A. Further, the enclosure 11 accommodates and supports the speaker unit SP_B in the second space 11A.

  The bass reflex ports 10_1 and 10_2 have the same configuration as the bass reflex port 10 of the first embodiment. The bass reflex port 10_1 is a hollow tubular bass reflex port arranged between the inner wall 11A1 of the first space 11A and the speaker unit SP_A. The wall portion 10B of the bass reflex port 10_1 is parallel to the inner wall 11A1 in the first space 11A, and faces the inner wall 11A1 with a gap therebetween. The wall portion 11D of the bass reflex port 10_1 is curved along the outer peripheral surface of the speaker unit SP_A. The bass reflex port 10_1 has one open end communicating with the connection space 11C.

  The bass reflex port 10_2 is a hollow tubular bass reflex port disposed between the inner wall 11B2 of the second space 11B and the speaker unit SP_B. The wall portion 10B of the bass reflex port 10_2 extends linearly in parallel with the inner wall 11B2. Here, the inner wall 11B2 is an inner wall on the opposite side of the inner wall 11A1 in the enclosure 11. The wall portion 10D of the bass reflex port 10_2 is curved along the outer peripheral surface of the speaker unit SP_B. The bass reflex port 10_2 has one open end communicating with the connection space 11C.

  Hereinafter, effects of the present embodiment will be described. Generally, the volume that can be generated by the speaker device is proportional to the effective diaphragm area of the speaker unit times the stroke amount. Here, increasing the stroke amount tends to increase distortion. Therefore, when increasing the sound volume while maintaining the sound quality, it is effective to increase the diaphragm area of the speaker unit. At this time, if the aperture of the speaker unit is increased, the area of the diaphragm increases. However, to increase the aperture of the speaker unit while maintaining the characteristics of the speaker device, the volume of the enclosure is proportional to the fourth power of the radius of the diaphragm. It is known that it is necessary to increase. That is, if the radius is increased by a factor of 1.4, the area of the diaphragm is doubled, but the volume of the enclosure must be quadrupled. However, in the case where the number of the same speaker units used is two instead of doubling the diaphragm area of the speaker unit, the volume of the enclosure may be doubled. For this reason, when it is difficult to increase the total volume of the enclosure and it is necessary to increase the volume, it is common practice to increase the number of speaker units.

  Here, in the case of a speaker device in which two speaker units are attached to one enclosure having a common back volume and a plurality of bass reflex ports are attached to the enclosure, the bass reflex resonance frequency of any number of bass reflex ports is One frequency is determined by the sum of the mass of the air inside all the bass reflex ports and the air spring constant inside the enclosure.

  However, if the minimum resonance frequency of the two units is different, the diaphragm easily moves mechanically at the minimum resonance frequency of the unit, so not only does the amplitude of the diaphragm increase with respect to the drive voltage, but also the inside of the enclosure. The amplitude of the diaphragm also increases with respect to the pressure change. Therefore, when one of the speaker units emits a sound wave having the opposite phase to the sound wave emitted to the front inside the enclosure, the amplitude of the diaphragm of the other speaker unit is affected by the opposite phase sound wave, and the opposite phase sound wave is generated. Is emitted to the front of the speaker unit. This sound wave cancels the sound wave emitted from one of the speaker units to the front, causing a dent in the frequency characteristics of the speaker device. For this reason, especially in a small speaker device using a small-diameter speaker unit which is likely to be affected by a mechanical error factor such as a variation in the amount of adhesive applied or a variation in edge hardness, frequency characteristics are likely to be violent.

  On the other hand, in the present embodiment, the interior of the enclosure 11 is divided into the first space 11A that houses the speaker unit SP_A and the second space 11B that houses the speaker unit SP_B, so that the speaker units SP_A and SP_B The effect of has been eliminated. Therefore, it is possible to suppress the frequency characteristics from being violated due to individual differences when using the speaker units SP_A and SP_B having different minimum resonance frequencies as the whole speaker device 1_9.

  In the present embodiment, the sound from the bass reflex port 10_1 installed in the first space 11A of the enclosure 11 and the sound from the bass reflex port 10_2 installed in the second space 11B are collected in the central connection space 11C. The sound is emitted from the bass reflex port opening 18 formed in the baffle plate of the enclosure 11. Therefore, according to the present embodiment, it is possible to emit the sound from each of the bass reflex ports 10_1 and 10_2 in the sound emission direction of the speaker units SP_A and SP_B.

<Tenth embodiment>
FIG. 13 is a front view showing the configuration of the speaker device 1_10 according to the tenth embodiment of the present invention. In this figure, parts corresponding to parts shown in the ninth embodiment (FIG. 12) are denoted by the same reference numerals, and description thereof is omitted.

  The speaker device 1_10 according to the present embodiment has a configuration in which bass reflex ports 10_3 and 10_4 are added to the speaker device 1_9 according to the ninth embodiment. The bass reflex ports 10_3 and 10_4 have the same configuration as the bass reflex ports 10_1 and 10_2.

  The bass reflex port 10_3 is arranged between the inner wall 11A2 of the first space 11A and the speaker unit SP_A. Here, the inner wall 11A2 is an inner wall on the opposite side of the inner wall 11A1 in the enclosure 11. The wall portion 10B of the bass reflex port 10_3 is parallel to the inner wall 11A2. The wall 10D of the bass reflex port 10_3 is curved along the outer peripheral surface of the speaker unit SP_A. The bass reflex port 10_3 has one open end communicating with the connection space 11C.

  The bass reflex port 10_4 is arranged between the inner wall 11B1 of the second space 11B and the speaker unit SP_B. The wall portion 10B of the bass reflex port 10_4 is parallel to the inner wall 11B1. Here, the inner wall 11B1 is an inner wall on the opposite side of the inner wall 11B2 in the enclosure 11. The wall 10D of the bass reflex port 10_4 is curved along the outer peripheral surface of the speaker unit SP_B. The bass reflex port 10_4 has one open end communicating with the connection space 11C.

  In the present embodiment, the bass reflex port 10_1 in the first space 11A and the bass reflex port 10_4 in the second space 11B face each other across the connection space 11C, and the bass reflex port 10_3 in the first space 11A and the second bus reflex port 10_3 in the first space 11A. The bus reflex port 10_2 in the space 11B is opposed across the connection space 11C. However, as described in the first embodiment, each of the bass reflex ports 10_1 to 10_4 has an air rectifier between each of them and the connection space 11C. Due to the function of the air rectifier, no jet flows are generated at the open ends of the bass reflex ports 10_1 to 10_4. Therefore, even when the bass reflex ports 10_1 to 10_4 are opposed to each other, no noise is generated and high-quality bass reproduction can be performed.

<Eleventh embodiment>
FIG. 14 is an assembly view showing a process of manufacturing the speaker device 1_11 according to the eleventh embodiment of the present invention. The speaker device 1_11 is, for example, a device corresponding to a left portion of the connection space 11C of the speaker device 1_10 of the tenth embodiment (see FIG. 13). When two speaker devices 1_11 are manufactured and connected with the connection space 11C interposed therebetween, the speaker device 1_10 of the tenth embodiment is completed.

  The speaker device 1_11 according to the present embodiment includes a box unit 31, a spacer 32, a port top plate 33, a baffle plate 34, and a speaker unit SP including a vibration unit SP_V and a magnet SP_M.

  The box portion 31 includes a rectangular bottom plate 31B and side plates 31N, 31W, 31S, and 31E that stand vertically from the respective sides of the bottom plate 31B with respect to the bottom plate 31B. Here, rectangular openings 315 and 316 are formed at a position of one side plate 31E near the bottom plate 31B. The openings 315 and 316 allow the space in the box 31 to communicate with the connection space 11C shown in FIG.

  A spacer 32 is fixed substantially at the center of the bottom plate 31B of the box portion 31. The spacer 32 has an opening 32a for accommodating the magnet SP_M of the speaker unit SP. The diameter of the opening 32a is set to be larger than the outer shape of the magnet SP_M. Since the gap between the opening 32a and the magnet SP_M serves as the internal volume of the enclosure, it is desirable that the gap be as large as possible for the performance of the speaker system. Further, side surfaces surrounding the spacer 32 are plane portions 32N and 32S parallel to each other, plane portions 32W and 32E orthogonal to and parallel to each other, and a curved surface for smoothly connecting the plane portions 32N and 32W. Portion 32NW, a curved portion 32SW for smoothly connecting between the flat portions 32W and 32S, a curved portion 32SE for smoothly connecting between the flat portions 32S and 32E, and a curved portion 32NE for smoothly connecting between the flat portions 32E and 32N. Consists of Here, the curved surface portions 32NW, 32SW, 32SE, and 32NE have a curved surface shape bulging outward. In a preferred embodiment, as the curved surface portions 32NW and 32NE move away from the flat surface portion 32N along the extension direction of the flat surface portion 32N, the distance from the extended surface of the flat surface portion 32N changes according to an exponential function. Similarly, as the curved surface portions 32SW and 32SE move away from the flat surface portion 32S along the extension direction of the flat surface portion 32S, the distance from the extended surface of the flat surface portion 32S changes according to an exponential function.

  The port top plate 33 is a rectangular plate having a size just to fit in the space in the side plates 31N, 31W, 31S, and 31E of the box portion 31, and is disposed on the spacer 32. The port top plate 33 has an opening 33a for accommodating the magnet SP_M of the speaker unit SP. When fixed to the bottom plate 31B, the spacer 32 is positioned so that its opening 32a is located at the same position as the opening 33a of the port top plate 33.

  When the port top plate 33 is fixed on the spacer 32, two bass reflex ports are formed. One is vertically sandwiched by the port top plate 33 and the bottom plate 31B of the box portion 31, and horizontally sandwiched by the side plate 31S of the box portion 31, the flat portion 32S of the spacer 32, and the curved portions 32SW and 32SE. This is the first bass reflex port. In this bass reflex port, the space facing the flat portion 32S is the space in the main pipe portion, and each space facing the curved portions 32SW and 32SE is each space in the two air rectifiers. The space in the first bass reflex port communicates with the connection space through the opening 315 (see FIG. 13).

  The other is vertically sandwiched between the port top plate 33 and the bottom plate 31B of the box portion 31, and is horizontally interposed between the side plate 31N of the box portion 31, the flat portion 32N of the spacer 32, and the curved portions 32NW and 32NE. This is the second bass reflex port sandwiched. In this bass reflex port, the space facing the flat portion 32N is a space in the main pipe portion, and each space facing the curved portions 32NW and 32NE is each space in the two air rectifiers. The space in the second bass reflex port communicates with the connection space via the opening 316 (see FIG. 13).

  The speaker unit SP is supported by the port top plate 33 in a state where the magnet SP_M is accommodated in the opening 33a of the port top plate 33 and the opening 32a of the spacer 32.

The baffle plate 34 is a rectangular plate having an opening 34a in which the vibration part SP_V of the speaker unit SP just fits. The four sides of the baffle plate 34 are fixed to the top surfaces of the side plates 31N, 31W, 31S, and 31E of the box portion 31 in a state where the vibrating portion SP_V of the speaker unit SP is exposed from the opening 34a.
The above is the configuration and the manufacturing method of the speaker device 1_11 according to the present embodiment.

  In the present embodiment, the same effects as in the tenth embodiment can be obtained. Further, the speaker device 1_11 according to the present embodiment can form a bass reflex port having a complicated shape by using a small number of parts such as the box portion 31, the port top plate 33, and the spacer 32 that constitute the enclosure, so that the manufacturing cost is low. In particular, in woodworking, the hole has a shape such as a round or a corner that can be easily machined, and a curved surface conforming to an exponential function can be formed by chamfering a corner.

<Other embodiments>
While the embodiments of the present invention have been described above, other embodiments are conceivable for the present invention. For example:

(1) In each of the above embodiments, the hollow cross-sectional shape of the main pipe portion is rectangular, but the hollow cross-sectional shape of the main pipe portion is circular, and the hollow cross-sectional shape of the air rectifier changes from circular to rectangular as going from the main pipe side to the open end. May be changed smoothly.

(2) In each of the above embodiments, the hollow cross-sectional shape of the air rectifier is rectangular. However, if the distance between the pair of opposing wall portions is the same, the rectangular corner may be rounded, an elliptical shape, or the like. It may be oval.

(3) In each of the above embodiments, the air rectifiers are installed at both ends of the main pipe portion of the bass reflex port. However, the air rectifiers may be installed only on one of them.

(4) In each of the above embodiments, the example in which the distance between the pair of walls on the side where the wall interval of the air rectifier changes varies according to an exponential function, but a shape in which no corner is formed on the inner wall. If so, another structure in which the wall interval monotonically increases (decreases) along the longitudinal direction may be used.

(5) In the eleventh embodiment, the spacer 32 having the round opening 32a is used. However, as shown in FIG. 15, the peripheral shape serving as the inner wall of the bass reflex port is the same as the spacer 32, and is substantially uniform. If the speaker device is configured using the spacer 32 ′ surrounded by the peripheral portion of the thickness, the performance of the speaker system can be improved by effectively utilizing the inner volume of the enclosure.

1_1 to 1_11 speaker device, 11 enclosure, SP, SP_A, SP_B speaker unit, SP_V vibration unit, SP_M magnet, 10, 10_1, 10_2, 10_1a, 10_2a, 10_1c, 10_2c ... bass reflex Ports: 100 Main pipes 101, 102 Air rectifiers 18, 18_1, 18_2 Openings for bass reflex ports, 18a, 18b Openings for dual use of both bass reflex ports, 19, 19_1, 19_2, 11c Connection space, 19a, 19b, 19c, 19d: Connection space for both bass reflex ports, 12 to 17, 10A to 10D: Wall, 31: Box, 32: Spacer, 33: Port top plate , 34 ... baffle plate, 32N, 32W, 32S, 32E ... plane part, 32NW, 32S , 32SE, 32NE ...... curved surface portion, 315,316,32a, 33a, 34a ...... opening.

Claims (10)

An enclosure supporting the speaker unit;
A hollow tube-shaped bass reflex port disposed between the inner wall of the enclosure and the speaker unit, wherein a side surface of the bass reflex port on the inner wall side extends linearly along the inner wall; A side surface of the bass reflex port on the speaker unit side, comprising: a bass reflex port curved along an outer peripheral surface of the speaker unit ;
The speaker device, wherein the enclosure has a bass reflex port opening formed in a baffle plate supporting the speaker unit or a plate facing the baffle plate . 2. The speaker device according to claim 1, wherein the enclosure includes a connection space that connects an opening end in the bass reflex port to the bass reflex port opening . 3. The bass reflex port has a main pipe portion whose hollow cross-sectional shape does not change in the longitudinal direction, and an air rectifier provided on at least one of both longitudinal sides of the main pipe portion,
The axial dimension of the speaker unit in the air rectifier is constant regardless of the position in the direction along the central axis of the main pipe portion,
The speaker according to claim 1, wherein a side surface of the air rectifier on the speaker unit side is curved toward the speaker unit away from a center axis of the main tube as the distance from the main tube is increased. apparatus. The said bass reflex port is being fixed to the back side of the baffle board which supports the said speaker unit, and curves along the outer periphery of the vibration part of the said speaker unit, The claim 1 characterized by the above-mentioned. Item 7. The speaker device according to Item 1. The said bass reflex port is being fixed to the inner wall which opposes the baffle board which supports the said speaker unit in the said enclosure, and curves along the outer periphery of the magnet of the said speaker unit, The claim 1 characterized by the above-mentioned. The speaker device according to claim 1. An enclosure supporting the speaker unit;
A hollow tube-shaped first bass reflex port disposed between a first inner wall of the enclosure and the speaker unit inside the enclosure, the first bass reflex port being located on the first inner wall side of the first bass reflex port. The side surface of the first bass reflex port extends linearly along the first inner wall, and the side surface of the first bass reflex port on the speaker unit side is curved along the outer peripheral surface of the speaker unit. Port and
A hollow tube-shaped second bass reflex port disposed between the speaker unit and a second inner wall facing the first inner wall inside the enclosure, wherein the second bass reflex port is The side surface on the second inner wall side extends linearly along the second inner wall, and the side surface on the speaker unit side of the second bass reflex port curves along the outer peripheral surface of the speaker unit. And a second bass reflex port .
The enclosure includes a first and a second bass reflex port opening near the opening end on the same side of the first and the second bass reflex port in a baffle plate supporting the speaker unit or a plate facing the baffle plate. A speaker device in which a part is formed . The enclosure includes first and second connection spaces that respectively connect open ends in the first and second bass reflex ports to the first and second bass reflex port openings. Item 7. The speaker device according to item 6.   The enclosure includes a first and a second bass reflex port for a baffle plate that supports the speaker unit or a first and a second bass reflex port in a plate facing the baffle plate, the first and the second bass reflex ports being located in the vicinity of the opening ends opposite to each other. An opening is formed, and first and second connection spaces are provided for connecting the open ends in the first and second bass reflex ports to the first and second bass reflex port openings, respectively. The speaker device according to claim 6, wherein:   In the enclosure, both bass reflex port / opening portions are formed in the vicinity of each opening end of the first and second bass reflex ports on the same side of the baffle plate supporting the speaker unit or the plate facing the baffle plate, 7. The loudspeaker according to claim 6, further comprising a double bass-reflex port dual-use connection space for connecting the open ends in the first and second bass-reflex ports to the double bass-reflex port dual-purpose opening. apparatus. The interior is sandwiched between the first and second spaces and the first and second spaces and is divided into open connection spaces, and the first space accommodates and supports the first speaker unit. An enclosure for accommodating and supporting a second speaker unit in the second space;
A hollow tube-shaped first bass reflex port disposed between a first inner wall of the first space and the first speaker unit, wherein the first bass reflex port in the first bass reflex port is provided. The side surface on the inner wall side extends linearly along the first inner wall, and the side surface of the first bass reflex port on the first speaker unit side extends along the outer peripheral surface of the first speaker unit. A first bass reflex port that is curved and has one open end communicating with the connection space portion;
A hollow tube-shaped second bass reflex port arranged between a second inner wall of the second space and the second speaker unit, wherein the second bass reflex port in the second bass reflex port is provided. The side surface on the inner wall side extends linearly along the second inner wall, and the side surface on the second speaker unit side in the second bass reflex port extends along the outer peripheral surface of the second speaker unit. And a second bass reflex port that is curved and has one open end communicating with the connection space.

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