JP3769248B2 - Speaker device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a speaker device, and more particularly to a speaker device capable of effectively amplifying sound traveling from a speaker body into a speaker box.
[0002]
[Prior art]
As shown in FIG. 16A, a general speaker device 81 is a device for converting an electrical signal into a mechanical (acoustic) signal and radiating a sound wave to space, and the speaker body 82 is connected to a speaker box (cabinet). , Enclosure) 83 attached to the front plate (baffle plate) 84 and wired by the lead wire 85. The speaker box 83 includes a front plate 84, a back plate 86, a top plate 87, a bottom plate 88, and side plates 89.
As shown in FIG. 16B, the speaker main body 82 includes a cone 90 that emits sound, a dust cap 91 that contributes to sound emission as well as dust prevention, and an edge 92 and a spider that support these and form a suspension. (Damper) 93, a vibrating portion including a voice coil 94 that generates a driving force by causing a current to flow in the magnetic gap, a pole piece 95, and a plate 96 constitute a magnetic pole gap. And a magnetic circuit for guiding the magnetic flux.
The speaker main body 82 is provided with a voice coil 94 in a magnetic field generated by a magnet 97. Therefore, when a current is passed through the voice coil 94, a driving force is applied according to Fleming's left-hand rule, and the cone 90 vibrates and generates sound. To do.
The main body of the loudspeaker includes high-frequency (tweeter, tweeter), medium-frequency (squaker), low-frequency (woofer), and full-band types that cover the audible frequency band. Sounds of several hundreds to several thousand Hz can be generated for medium sounds, 50 Hz or less for low sounds, and sounds of 100 to 20000 Hz can be generated for all bands. There are also speaker bodies for super-high sounds (super tweeter) for higher sound areas than for high sounds and for ultra-low sounds (subwoofer, super woofer) for low sound areas than for low sounds.
[0003]
As shown in FIG. 17, the conventional speaker device has (A) a baffle plate shape with a speaker body attached to a plate, and (B) a rear open shape with a speaker body attached to a box-type speaker box. (C) sealed type, (D) phase inversion type (bass reflex type, bass reflex type), (E) acoustic maze type (labyrinth type), (F) back loaded horn type (back load horn, BH), (G) Combination horn type, (H) Resonance tube type, (I) Passive radiator type (Drone cone), (J) Kelton type, (K) Symmetric drive type, (L) Front loaded type There is a horn type (front load horn). In addition, the arrow in a figure represents propagation of the sound which generate | occur | produces from a speaker main body.
[0004]
When a signal current is applied to the speaker main body 82, the cone 90 vibrates and produces sound. However, the sound coming out from the front of the speaker main body 82 and the sound coming out from the back are opposite in phase and cancel each other out. A single unit cannot produce bass.
(A) In the baffle plate type, the speaker main body is attached to a plate (baffle plate) so that the front sound and the back sound are not mixed to block the back sound. However, the sound frequency of low frequency, for example, 20 Hz, is as long as 17 m or longer, and in order to cut off the front and back waves, the length from the speaker body to the edge of the plate is required to be 17 m or more, which is not practical. It was. Therefore, in a speaker device having a speaker box such as (B) rear open type, (C) sealed type, (K) symmetric drive type, (L) front loaded horn type, etc. The structure is not used.
[0005]
In addition, (D) phase inversion type, (E) acoustic maze type, (F) back loaded horn type, (G) combination horn type, (H) resonance tube type, (I) passive radiator type, etc. A speaker device having a speaker box uses a back wave generated from the speaker body, and the (J) kelton type has a structure in which the speaker body is disposed toward the inside of the speaker box to use a front wave. Yes.
[0006]
[Problems to be solved by the invention]
However, the conventional speaker device still has the following problems to be solved.
The speaker device that does not use the back wave generated from the speaker main body wasted energy.
In a speaker device using a back wave generated from a speaker body or a speaker device in which a speaker body is arranged inside a speaker box to resonate a front wave, the energy of sound waves generated from the speaker body is proportional to the moving distance. As the sound attenuates gradually, there is a problem that the sound volume in the speaker box is lowered.
[0007]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a loudspeaker device in which sound waves generated from a loudspeaker main body are amplified in the volume of a back wave or front wave emitted into the loudspeaker box, and the bass is enhanced. And
[0008]
[Means for Solving the Problems]
The speaker device according to the present invention that meets the above-described object is as follows.In a speaker device having a wooden rectangular parallelepiped speaker box having an opening at the lower part of the front plate, and a speaker main body attached to the front plate of the speaker box,
A diaphragm attached to a back plate of the speaker box via a support member is provided, a guide tube for guiding a back wave generated from the speaker body to the diaphragm is provided, and a weight is provided at one end of the diaphragm. The.
The sound generated from the speaker body advances in opposite phases in the front direction and the back direction of the speaker body. At that time, the diaphragm provided in the speaker box via the support member receives the sound propagating through the speaker box and vibrates, thereby generating a vibration wave and increasing the sound.
In the phase-reversed speaker box, when the speaker body is arranged outward, the back wave propagates through the speaker box, so the diaphragm is attached to the back plate of the speaker box via a support member, The diaphragm that receives the wave is caused to generate a vibration wave.
[0009]
Since sound generated from the speaker body into the speaker box travels in a three-dimensional direction, there is sound that does not directly hit the diaphragm. Therefore, a cylindrical guide tube is provided so that sound propagating from the speaker body into the speaker box can be guided to the diaphragm. The guide cylinder may be any one of a cylinder, an elliptic cylinder, a square cylinder, a truncated cone cylinder, a truncated pyramid cylinder, and the like, but a cylinder is preferable for efficient sound reflection. The guide tube may be made of wood, paper, natural polymer material, organic polymer material, metal, glass, ceramics, or the like as long as it can reflect sound.
[0010]
Since one end of the diaphragm is equipped with a weight, the weight can prevent the diaphragm from wobbling or unwanted vibration when the diaphragm vibrates.Hold downThe vibration duration of the diaphragm is controlled, and the diaphragm is vibrated appropriately.
[0011]
The sound generated from the speaker body and traveling through the speaker box (back wave or front wave) is added to the vibration wave generated by the impact of the sound against the diaphragm, and released from the opening of the speaker box to the outside of the speaker device. As a result, the vowels with vibration waves are increased.
Sound in the low frequency range and new vibration waves from the diaphragm are vigorously emitted from the opening provided in the phase-reversed speaker box that uses the back wave of the speaker body. Can be big.
[0012]
In the speaker device according to the present invention, the speaker body may be for bass.
The bass sound has a long wavelength, and it is difficult to reproduce the sound by the speaker device due to the air swinging phenomenon that the air escapes and does not vibrate even if the cone of the speaker body vibrates (that is, there is no sound). Therefore, by providing the diaphragm for the low-frequency speaker device, it is possible to more effectively enhance the low-frequency sound.
[0013]
In the speaker device according to the present invention, the diaphragm resonates at a plurality of frequencies.Consists of multiple cuts or vibrating bars of different lengthsA resonance part may be provided.
For example, a diaphragm with 10 notches is attached to a speaker box via a support member so that sound having a frequency of 20 to 200 Hz resonates at an interval of 20 Hz. Among the sounds generated from the speaker body, the diaphragm resonates at the above-described resonance frequency, so that the sound at that frequency can be amplified. Alternatively, a sound corresponding to the resonance frequency can be amplified by attaching a vibration beam that resonates at a plurality of frequencies instead of the cut.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention.
1A is an explanatory diagram of the speaker device according to the first embodiment of the present invention, FIG. 1B is a perspective view of the speaker device, FIG. 2A is an explanatory diagram of a diaphragm of the speaker device, FIGS. 3B and 3B are explanatory views of a diaphragm according to a modification of the speaker device, and FIGS. 3A and 3B show differences in the flow direction of the back wave depending on the presence or absence of the guide tube of the speaker device. 4A is an explanatory diagram of sound propagation in the speaker device, FIG. 4B is an explanatory diagram of sound propagation in the conventional speaker device, and FIG. 5 is a diagram of the first embodiment of the present invention. FIG. 6 is an explanatory diagram of the speaker device according to the second embodiment of the present invention, and FIG. 7A is an explanatory diagram of the speaker device according to the third embodiment of the present invention. Explanatory drawing, (B) is explanatory drawing of the speaker apparatus based on the modification of the 3rd Embodiment of this invention, FIG. 8 is this FIG. 9 is an explanatory diagram of a speaker device according to a fifth embodiment of the present invention, FIG. 9 is an explanatory diagram of the speaker device according to a fifth embodiment of the present invention, and FIG. 10 is according to a sixth embodiment of the present invention. FIG. 11 is an explanatory diagram of a speaker device according to a seventh embodiment of the present invention, FIG. 12A is an explanatory diagram of a speaker device according to an eighth embodiment of the present invention, FIGS. 13B and 13C are explanatory diagrams of a speaker device according to a modification of the eighth embodiment of the present invention, respectively. FIG. 13A is an explanatory diagram of the speaker device according to the ninth embodiment of the present invention. (B) is explanatory drawing of the speaker apparatus which concerns on the modification of the 9th Embodiment of this invention, FIG. 14 (A) is explanatory drawing of the speaker apparatus which concerns on the 10th Embodiment of this invention, (B) ), (C), and (D) are diagrams of a speaker device according to a modification of the tenth embodiment of the present invention. Akirazu, Figure 15 (A), (B), is an explanatory view of a speaker device according to a modification of the eighth embodiment of the (C), (D) the present invention, respectively.
[0015]
As shown in FIGS. 1A, 1B, and 2A, a speaker device 10 according to a first embodiment of the present invention is a front panel of a speaker box 11 made of wood and formed in a rectangular parallelepiped shape. 12 includes a speaker body 13. A diaphragm 16 is attached to the inside of the speaker box 11 via a support member 15 disposed on the upper side of the back plate 14 of the speaker box 11.
Here, the support member 15 is mounted at a position higher than the upper end of the speaker body 13 when viewed from the front, and the diaphragm 16 whose upper part is supported by the support member 15 is the width of the speaker body 13 when viewed from the front. It has a slightly larger width and extends to a position below the lower end of the speaker body 13.
In the present embodiment, the diaphragm 16 is formed in a rectangular plate shape, and the width of the support member 15 is formed to be the same as the width of the diaphragm 16. The upper portion of the diaphragm 16 is bonded to the support member 15 with an adhesive.
[0016]
Further, the diaphragm 16 includes a weight 17 for finely adjusting the vibration of the diaphragm 16 above the joint portion with the support member 15. Further, a cylindrical guide tube 18 is provided inside the front plate 12 in order to guide a back wave generated from the speaker body 13 to the diaphragm 16. In addition, a rectangular opening (port) 19 having the same width as that in the speaker box 11 is provided at the lower portion of the speaker body 13 of the front plate 12, and a cross section opens from the opening 19 toward the inside of the speaker device 10. The same prismatic tube (duct) 20 as the portion 19 is formed.
In the present embodiment, the cylinder 20 is formed by a partition plate 20a having a width between the side walls of the speaker box 11 horizontally from the inside of the upper end of the opening 19 into the speaker box 11 (that is, the cylinder 20 is Partition plate 20a, part of both side walls, and bottom plate). The guide tube 18 and the tube 20 may be formed in the same length (depth) in the speaker box 11 from the front plate 12 but are not particularly limited.
[0017]
Furthermore, the guide cylinder 18 and the cylinder 20 are partitioned, and the guide cylinder 18 is fixed, and a blind plate 21 is provided for preventing the back wave from wrapping around. In this embodiment, the blind plate 21 has a height from the upper end in the speaker box 11 to the upper end of the partition plate 20a and a width in the speaker box 11 (that is, the width between the side walls). Further, a circular hole along the outer periphery of the guide tube 18 is provided at the position of the guide tube 18. The blind plate 21 is fitted and attached to the end portion of the guide tube 18, and is fixed to the inner wall of the speaker box 11 at the upper part and the side part and with the partition plate 20a at the lower part.
In addition, the sound generated from the speaker body 13 and the vibration wave generated from the diaphragm 16 are reflected and guided to the cylinder 20 at the lower part of the diaphragm 16 and are emitted from the opening 19 to the outside of the speaker device 10. A reflection plate 22 is provided.
[0018]
As shown in FIGS. 2B and 2C, diaphragms 16a and 16b having resonance portions that resonate at a plurality of frequencies may be formed. In FIG. 2B, resonance that resonates sound with a frequency of 20 to 200 Hz on the diaphragm 16a at intervals of 20 Hz (that is, 20, 40, 60, 80, 100, 120, 140, 160, 180, 200 Hz), for example. In order to form the portion, a plurality of (for example, ten) cut portions 22a are provided. When a sound with the above frequency is generated from the speaker body 13, the diaphragm 16a resonates and the vibration of the diaphragm 16a becomes larger, so that the sound with that frequency can be amplified. In FIG. 2C, a plurality of (for example, ten) vibrating bars 22b are attached to the diaphragm 16b as resonance portions that resonate at the above frequency, for example, thereby amplifying the sound corresponding to the resonance frequency. be able to.
[0019]
The speaker box 11 has a shielding effect and is required to be heavy and hard, and a material having good damping vibration characteristics of the plate itself, that is, a material having a beautiful sound is suitable. In addition, wood with high fiber density is generally used because of its availability, processability and economy. Typical examples include sawn board, veneer core plywood, lumbar core plywood, and particle board. Furthermore, you may provide the crosspiece which reinforces a speaker box.
The internal volume of the speaker box 11 is not particularly limited and can be selected for convenience.
[0020]
The diaphragm 16 is only required to efficiently receive and vibrate sound from the speaker body, and the material and shape are not particularly limited. In this embodiment, it is made of wood, but may be paper, natural polymer material, organic polymer material, metal, glass, ceramics, or the like. Further, it may be formed in a square shape, a triangular shape, a trapezoidal shape, a circular shape or the like instead of a rectangular plate shape, and may be formed in a box shape instead of a plate shape and provided with a resonance hole.
The material of the support member 15 is wooden in the present embodiment, but may be paper, natural polymer material, organic polymer material, metal, glass, ceramics, rubber, or the like.
The diaphragm 16 is attached to the support member 15 with an adhesive, but may be fixed by hitting a nail, or may be attached with a hinge or the like.
The guide tube 18 does not need to be a cylinder, and may be a cone, a prism, or a pyramid. The cylinder 20 may not be a prism, may be a cylinder, and may be formed in a horn shape that spreads outward. Further, only the opening 19 without providing the cylinder has the same effect as the cylinder having the thickness of the front plate 12.
Further, the blind plate 21 is preferably sealed by closing the upper side of the cylinder 20 in order to eliminate the wraparound of the back wave. However, it is sufficient that the guide cylinder 18 can be fixed, and the upper side of the cylinder 20 may not be completely closed.
[0021]
Next, the operation of the speaker device 10 will be described.
When a current is passed through the speaker body 13, the electrical signal is converted into a mechanical signal, and sound is generated three-dimensionally on the front and back surfaces of the speaker body 13.
Here, as shown in FIG. 3B, when the guide tube 18 is not provided, a part of the back wave generated from the speaker body 13 and dispersed in each direction directly collides with the diaphragm 16 and vibrates. Although the plate 16 is vibrated, since all the back waves do not hit the diaphragm 16, the generation efficiency of the vibration wave generated from the diaphragm 16 is poor. However, as shown in FIG. 3A, in the present embodiment, since the guide tube 18 is provided, a part of the back wave generated from the speaker body 13 directly collides with the diaphragm 16, and further, Since other back waves are also reflected by the guide tube 18 and hit the diaphragm 16, the diaphragm 16 can be vibrated more efficiently.
[0022]
Next, the difference in sound propagation depending on the presence or absence of the diaphragm 16 will be described.
As shown in FIG. 4A, in the speaker device 10 to which the diaphragm 16 is attached, the front wave A and the back wave A ′ are generated from the speaker body 13 and the back wave A ′ of the speaker body 13 vibrates. A vibration wave B is also newly generated by colliding with the plate 16. Accordingly, the back wave A ′ and the vibration wave B travel through the cylinder 20 and are emitted from the opening 19 to the outside of the speaker device 10, and the listener 23 receives the front wave A, the back wave A ′ and the vibration wave B, that is, A + A. Can hear the sound of '+ B.
As shown in FIG. 4B, in the speaker device 24 in which the diaphragm is not provided in the speaker box 11, the front wave A and the back wave A ′ are generated from the speaker body 13. The back wave A ′ travels from the inside of the speaker box 11 through the cylinder 20 and is emitted from the opening 19 to the outside of the speaker device 24. Accordingly, the listener 23 can hear the A + A ′ sound of the front wave A and the back wave A ′.
As described above, it can be seen that the volume is increased by the vibration wave generated by providing the diaphragm in the speaker box.
[0023]
Next, a speaker device 25 according to a modification of the first embodiment of the present invention will be described with reference to FIG. Hereinafter, the same components as those of the speaker device 10 are denoted by the same reference numerals and detailed description thereof is omitted (the same applies to the following embodiments and modifications).
As shown in FIG. 5, the speaker device 25 includes a guide tube 28 in which the speaker body 13 is disposed on the top plate 27 of the speaker box 26 and guides a back wave from the back surface of the speaker body 13 into the speaker box 26. It is fixed with a blind plate 29. Further, the diaphragm 16 that is formed longer in the direction of the front plate 29a is horizontally disposed on the bottom plate 30 of the speaker box 26 via a support member 15 attached to the back plate 29b side of the guide tube 28 of the bottom plate 30. In addition, an opening 30 a is provided in the front plate 29 a of the speaker box 26.
The back wave generated from the speaker main body 13 passes through the guide tube 28 and collides with the diaphragm 16 to generate a vibration wave. The back wave and the vibration wave are emitted from the opening 30a to the outside of the speaker device 25.
It can be seen that the speaker body 13 does not have to be disposed on the front plate 29a as in the speaker device 25. In the speaker device 25, the speaker body 13 is mounted upward and the opening 30a faces the front. However, the speaker body may be mounted on the front plate and the opening may be provided above. In addition, the leg part which makes the baseplate 30 float from a floor surface may be provided, and a speaker main body and an opening part may be provided in a baseplate.
[0024]
Next, a speaker device 31 according to a second embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 6, the speaker device 31 is a phase-inverted speaker box 32, the speaker body 13 is attached to the front plate 12 of the speaker box 32, and the support plate 15 is attached to the back plate 14. A diaphragm 16 having a weight 17 is attached to the upper part. Further, a cylindrical guide tube 18 is provided inside the front plate 12.
In addition, a circular opening 33 is provided below the speaker main body 13 of the front plate 12, and a cylindrical tube 34 is provided from the opening 33 toward the inside of the speaker box 32. In addition, the guide cylinder 18 and the cylinder 34 are partitioned, and the guide cylinder 18 is fixed, and a blind plate 21 and a partition plate 35 are provided to prevent the back wave from wrapping around. The partition plate 35 is formed in the same manner as the partition plate 20 a of the speaker device 10.
In addition, a sound for generating sound from the speaker main body 13 and a vibration wave generated from the diaphragm 16 is guided to the tube 34 side below the diaphragm 16 and is emitted from the opening 33 to the outside of the speaker device 31. A plate 22 is provided.
[0025]
Next, the operation of the phase inversion type speaker device 31 will be described.
A part of the back wave of the speaker body 13 directly collides with the diaphragm 16, and other sounds are reflected by the guide tube 18 and collide with the diaphragm 16 to generate a vibration wave. The direction of the back wave and the vibration wave is changed to the opening 33 side by the reflector 22, travels through the tube 34, and is emitted from the opening 33 to the outside of the speaker box 32.
In the phase reversal type speaker device 31, a cylindrical tube 34 is provided in the opening 33. The smaller the cross-sectional area of the opening 33, the more the back wave of the speaker body 13 and the vibration wave of the diaphragm 16 are compressed. Since the sound is emitted from the portion 33 to the outside of the speaker box 32, the sound has a momentum.
Further, the relationship between the volume of the portion of the speaker box 32 where the back wave propagates and the mass of air inside the cylinder 34 is the same principle as that of a so-called Helmholtz resonator. Therefore, the back wave resonates at a specific frequency due to Helmholtz resonance and is emitted from the tube 34 to the outside of the speaker device 31. This resonance has the opposite phase to the back wave of the speaker body 13 and the same phase as the front wave. Therefore, the volume increases. Furthermore, since the reverse resonance frequency becomes lower as the cross-sectional area of the opening 33 is smaller and the length of the cylinder 34 is longer, the sound at a lower frequency is enhanced.
Here, even when the cylinder 34 is not provided, the opening 33 has the same effect as a cylinder having the same length as the thickness of the front plate 12. Moreover, the cylinder 34 does not need to be cylindrical, and may be an elliptical pipe or a square cylinder, and may be bent in a halfway shape or an L shape in the middle. Furthermore, the speaker box 32 may be attached inside or outside.
[0026]
Next, a speaker device 36 according to a third embodiment of the present invention will be described with reference to FIG. A speaker device 37 in FIG. 7B is a modification of the speaker device 36.
As shown in FIG. 7A, in the acoustic labyrinth-type speaker device 36, the back wave of the speaker main body 13 is guided to the diaphragm 16 provided on the back plate through a complicated bent path, and the diaphragm Together with 16 vibration waves, it is emitted to the front surface of the speaker device 36. Since the interior of the speaker box 36a is formed by being bent in a complicated manner with a partition plate or the like, the entire length of the passage through which the back wave flows can be lengthened, the mid-high sound can be attenuated, and resonance can be prevented.
Further, in the speaker device 37, since the passage inside the speaker box 37a is different from the speaker device 36, the diaphragm 16 is provided on the bottom plate in order to efficiently apply the back wave of the speaker body 13 to the diaphragm 16. .
[0027]
Next, a speaker device 38 according to a fourth embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 8, the back wave of the speaker main body 13 of the back loaded horn type speaker device 38 is guided from the narrow passage to the thick passage, hits the diaphragm 16, and vibrates the diaphragm 16.
[0028]
Next, a speaker device 39 according to a fifth embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 9, the combination horn type speaker device 39 is formed by combining a front loaded horn type and a phase inversion type speaker device. The diaphragm 16 receives the back wave of the speaker body 13, and the diaphragm 16 vibrates to generate a vibration wave. In the present embodiment, the front loaded horn type and the phase inversion type are combined, but the front loaded horn type may be combined with a back loaded horn type or a passive radiator type. Further, since the distance between the speaker body 13 and the diaphragm 16 is short, no guide tube is provided, but a guide tube may be provided.
[0029]
Next, a speaker device 40 according to a sixth embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 10, the resonant tube speaker device 40 has a speaker body 13 disposed on a side surface of a prismatic tube 40a that is closed on one side, and a diaphragm 16 provided on the back surface thereof. The back wave of the speaker body 13 vibrates the diaphragm 16 and generates a vibration wave. The back wave and the vibration wave are emitted to the outside of the speaker device 40 from the opening 40b of the resonance tube.
In the present embodiment, the prismatic tube 40a is used as the speaker box, but a cylindrical tube may be used.
[0030]
Next, a speaker device 41 according to a seventh embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 11, a passive radiator type speaker device 41 is obtained by attaching a passive radiator 42, which is an example of a vibrating member, to the opening 19 of the speaker device 10. The passive radiator 42 has only the vibration system (cone, suspension, frame, etc.) of the speaker body and does not have a drive system (magnetic circuit). The diaphragm 16 receives the back wave generated from the speaker body 13 and generates a vibration wave. The back wave and the vibration wave vibrate the passive radiator 42 and propagate the sound.
[0031]
Next, a speaker device 43 according to an eighth embodiment of the present invention will be described with reference to FIG. Also, the speaker devices 44 and 45 in FIGS. 12B and 12C are modifications of the speaker device 43.
As shown in FIG. 12A, the kelton-type speaker device 43 uses the front wave of the speaker main body 13, and a resonance space is provided in front of the speaker main body 13 disposed in the sealed speaker box. And an opening.
In the speaker device 43 having the opening portion 19 on the front surface, the speaker body 13 is disposed on the speaker placement plate 46 so that a front wave from the speaker body 13 is generated rearward, and the diaphragm 16 is disposed on the rear plate 14. Provided.
In FIG. 12B, the opening 19 is provided on the front surface, the speaker body 13 is disposed on the speaker placement plate 47 so that the front wave from the speaker body 13 is generated downward, and the diaphragm 16 is the bottom plate. 30.
In FIG. 12C, the speaker main body 13 is disposed on the speaker disposition plate 48 so that a front wave from the speaker main body 13 is generated forward, with the opening 19 on the front surface. The plates 16 are provided on the front plate 12 and the bottom plate 30, respectively.
[0032]
Next, a speaker device 49 according to a ninth embodiment of the present invention will be described with reference to FIG. A speaker device 50 in FIG. 13B is a modification of the speaker device 49.
The speaker device 49 is a 3-way 3-speaker in which one high-frequency speaker main body 51, medium-sound speaker main body 52, and low-frequency speaker main body 53 are arranged in this order from the top of the front plate 49a. The diaphragm 50a is attached to a support member 50b attached to the back plate 49b. The support member 50b is attached to a position between the high-frequency speaker main body 51 and the middle-tone speaker main body 52 when viewed from the front. The upper end of the diaphragm 50a is slightly above the high-frequency speaker main body 51, the lower end is slightly below the low-frequency speaker main body 53, and the width is slightly larger than the width of the low-frequency speaker main body 53. ing.
The back waves from the loudspeaker main body 51, the mid-speaker main body 52, and the low-pitched speaker main body 53 collide with the diaphragm 50a to generate vibration waves, and the back waves and the vibration waves are transmitted to the outside through the opening 53a. Released.
However, in the speaker device 49, the back wave of the low-frequency speaker main body 53 may affect the high-frequency speaker main body 51 and the medium-sound speaker main body 52, thereby causing cross modulation distortion. In particular, the middle sound speaker main body 52 is easily affected.
Therefore, in the speaker device 50, in order to prevent the influence of the back wave of the low-frequency speaker main body 53, the high-frequency speaker main body 51 and the middle-tone speaker main body 52 are partitioned by the box-shaped partition wall 54, and further, the low-frequency speaker main body 53. A guide tube 18 is provided on the back surface. Further, a support body 54a for fixing the guide cylinder 18 is provided.
In the speaker device 49, the high-sound speaker main body 51 and the middle-sound speaker main body 52 are not affected by the low-sound speaker main body 53, so that the intermodulation distortion does not occur and the sounds in the high sound region and the medium sound region can be heard clearly.
[0033]
Next, a speaker device 55 according to a tenth embodiment of the present invention will be described with reference to FIG. Further, the speaker devices 56, 57, and 58 in FIGS. 14B, 14 </ b> C, and 14 </ b> D are modifications of the speaker device 55.
Each of the speaker devices 55 to 57 is configured such that one high-frequency speaker main body 51 and medium-frequency speaker main body 52 and two low-frequency speaker main bodies 53 are linearly arranged on the front plates 55a, 56a, and 57a. This is a boy-type 3-way 4-speaker device.
In the speaker device 55 shown in FIG. 14A, four speaker bodies 51, 52, and 53 are arranged in order from the upper side of the front plate 55a. In other words, the low-frequency speaker main body 53 is further disposed below the three speaker main bodies of the speaker device 49.
The diaphragm 59 is attached to the back plate 55b via the support member 15. The support member 15 is disposed in the vicinity of an intermediate height between the high-sound speaker main body 51 and the medium-sound speaker main body 52.
The back waves generated from the four speaker main bodies 51 to 53 vibrate the diaphragm 59. However, the support member 15 is at the height of the intermediate portion between the high-frequency speaker main body 51 and the medium-sound speaker main body 52. Therefore, the back wave cannot vibrate the diaphragm 59 more than the back wave of the bass main body 53 for bass. Therefore, the bass is enhanced more than the high and medium sounds. Furthermore, since the two low-frequency speaker main bodies 53 are provided, the sound in the low-frequency region can be further increased than the speaker device 49.
[0034]
In the speaker device 56 shown in FIG. 14B, a partition plate 60 is horizontally provided from the back plate 56b to the front plate 56a between the two low-frequency speaker main bodies 53 of the speaker device 55. The openings 60a and 60b are vertically provided with the partition plate 60 as a boundary. That is, the one high-pitched speaker main body 51, the medium-sound speaker main body 52, the low-pitched speaker main body 53, and the one low-pitched speaker main body 53 are separated by the partition plate 60.
Since the back waves of the high-pitched speaker main body 51, the medium-sound speaker main body 52, and the low-pitched speaker main body 53 above the speaker device 56 vibrate the diaphragm 59a, the operation is the same as that of the speaker device 49. Moreover, since the low-frequency speaker main body 53 below the speaker device 56 vibrates the diaphragm 61 independently, only the low-frequency sound can be efficiently enhanced. Therefore, it is possible to make the sound in the bass region louder than the speaker device 55.
[0035]
The speaker device 57 shown in FIG. 14C is disposed on the front plate 57a in this order from the upper side, the low-frequency speaker main body 53, the high-frequency speaker device 51, the middle-tone speaker main body 52, and the low-frequency speaker main body 53. The speaker device 51 and the middle sound speaker main body 52 are separated by two partition plates 62 and 62a. Therefore, the back modulation of the low-frequency speaker main body 53 does not cause cross modulation distortion caused by the high-frequency speaker main body 51 and the medium-sound speaker main body 52 being affected.
The back wave of the second low-frequency speaker main body 53 collides with the second diaphragm 57b, generates a vibration wave, and is emitted to the outside through the openings 62b and 62c. In the speaker device 57, each of the two low-frequency speaker main bodies 53 vibrates the diaphragm 57b independently, so that the sound in the low-frequency range can be increased more efficiently. Since the speaker main body 52 is not affected by the low-frequency speaker main body 53, cross modulation distortion does not occur, and sounds in the high sound region and the medium sound region can be heard clearly.
[0036]
The speaker device 58 shown in FIG. 14D has two high-frequency speaker main bodies 51 and two low-frequency speaker main bodies 53. From above, the high-frequency speaker main body 51, the low-frequency speaker main body 53, and the low-frequency speaker main body. 53, the high-pitched speaker main body 51 is arranged linearly in this order, and the upper high-pitched speaker main body 51, the low-pitched speaker main body 53, the lower low-pitched speaker main body 53, and the high-pitched sound speaker main body 51 are connected from the back plate 58b. This is a tallboy type 2-way 4-speaker device separated by a partition plate 60 provided horizontally up to the face plate 58a.
[0037]
Next, speaker devices 63, 64, 65, and 66 according to modifications of the eighth embodiment of the present invention will be described with reference to FIGS. 15 (A), (B), (C), and (D). .
FIGS. 15A and 15B are modified examples of the speaker device 43 of FIG. 12A, and FIGS. 15C and 15D are modified examples of the speaker device 44 of FIG. 12B.
Each of the speaker devices 63 to 66 is a three-way three-speaker device including one high-frequency speaker main body 51, medium-frequency speaker main body 52, and low-frequency speaker main body 53. Here, instead of the high-pitched speaker main body 51 and the medium-sound speaker main body 52, one full-band speaker main body may be used. Further, since the high-pitched speaker main body 51 is not easily affected by the back wave of the low-pitched speaker main body 53, the low-pitched speaker main body 53 may be used instead of the medium-tone speaker main body 52.
[0038]
In the speaker device 63 shown in FIG. 15A, the speaker main body 13 shown in FIG. 12A is used as a low-pitched speaker main body 53, and a high-pitched speaker main body 51 and a medium-tone speaker main body 52 are provided on the front plate 63a. . The front waves of the high-sound speaker main body 51 and the medium-sound speaker main body 52 are generated directly in front of the speaker device 63. Also, the front wave of the bass speaker body 53 is emitted from the opening 63c to the outside of the speaker device 63 together with the vibration wave generated by vibrating the diaphragm 16 attached to the back plate 63b via the support member 15. Is done.
In the speaker device 64 of FIG. 15B, in order to prevent the cross modulation distortion of the speaker main body 51 for high sound and the speaker main body 52 for medium sound due to the influence of the back wave of the speaker main body 53 for low sound in the speaker device 63, A partition wall 67 that separates the speaker main body 51 for sound and the speaker main body 52 for medium sound from the speaker main body 53 for low sound is provided. In particular, the mid-speaker main body 52 is easily affected. In the speaker device 64, the high tone speaker main body 51 and the medium sound speaker main body 52 are not affected by the low sound speaker main body 53, so that intermodulation distortion does not occur and the sounds in the high sound region and the medium sound region can be heard clearly.
[0039]
In the speaker device 65 shown in FIG. 15C, the speaker main body 13 shown in FIG. 12B is used as a low-pitched speaker main body 53, and a high-pitched speaker main body 51 and a medium-tone speaker main body 52 are provided on the front plate 65a. . The front waves of the high-sound speaker main body 51 and the medium-sound speaker main body 52 are directly generated in front of the speaker device 65. Further, the front wave of the low-frequency speaker body 53 is emitted from the opening 65c to the outside of the speaker device 65 together with the vibration wave generated by vibrating the diaphragm 16 attached to the bottom plate 65b via the support member 15. The
In the speaker device 66 of FIG. 15D, in order to prevent cross modulation distortion due to the back wave of the low-frequency speaker main body 53 as in the case of the speaker device 64, the high-frequency speaker main body 51, the middle-tone speaker device 52, and the low-frequency speaker. A partition wall 68 that separates the device 53 is provided. Therefore, in the speaker device 66, the high-pitched speaker main body 51 and the medium-sound speaker main body 52 are not affected by the low-pitched speaker main body 53, so that cross-modulation distortion does not occur, and the sounds in the high and medium sound regions are clear. hear.
[0040]
As mentioned above, although embodiment which concerns on this invention has been described, this invention is not limited to embodiment, The change in the range which does not change the summary of this invention is possible, for example, it mentioned above The present invention is also applied to a case where the speaker device of the present invention is configured by combining some or all of the embodiments and modifications.
[0041]
【The invention's effect】
Claims 1 to3In the described speaker device, since the diaphragm is mounted inside the speaker box, the sound generated from the speaker body, the sound traveling inside the speaker collides with the diaphragm, and the diaphragm vibrates to generate a vibration wave. . Thereby, since the sound which synthesize | combined the sound which advances inside a speaker, and a vibration wave is heard from a speaker apparatus, a sound volume increases.
Also,A guide tube that collects the sound that is generated from the speaker body and propagates through the speaker box is provided, so that sound that does not directly hit the diaphragm is also reflected by the guide tube and guided to the diaphragm. As compared with those without, the volume can be further amplified and the bass can be enhanced.
A weight is provided at one end of the diaphragm. When the diaphragm vibrates, the weight suppresses the wobbling of the diaphragm and unnecessary vibration of the diaphragm, controls the vibration duration of the diaphragm, It works to vibrate moderately.
Claim2In the described speaker device, since the speaker body for bass is used, bass can be amplified.
Claim3In the described speaker device, the diaphragm is provided with a resonance portion that resonates at a plurality of frequencies. When the resonance frequency of the resonance portion and the frequency of the sound generated from the speaker body match, the sound of that frequency is amplified. be able to.
[Brief description of the drawings]
FIG. 1A is an explanatory diagram of a speaker device according to a first embodiment of the present invention, and FIG. 1B is a perspective view of the speaker device.
2A is an explanatory diagram of a diaphragm of the speaker device, and FIGS. 2B and 2C are explanatory diagrams of a diaphragm according to a modification of the speaker device. FIG.
FIGS. 3A and 3B are explanatory views showing a difference in the flow direction of the back wave depending on the presence or absence of a guide tube of the speaker device.
4A is an explanatory diagram of sound propagation in the speaker device, and FIG. 4B is an explanatory diagram of sound propagation in a conventional speaker device.
FIG. 5 is an explanatory diagram of a speaker device according to a modification of the first embodiment of the present invention.
FIG. 6 is an explanatory diagram of a speaker device according to a second embodiment of the present invention.
7A is an explanatory diagram of a speaker device according to a third embodiment of the present invention, and FIG. 7B is an explanatory diagram of a speaker device according to a modification of the third embodiment of the present invention. .
FIG. 8 is an explanatory diagram of a speaker device according to a fourth embodiment of the present invention.
FIG. 9 is an explanatory diagram of a speaker device according to a fifth embodiment of the present invention.
FIG. 10 is an explanatory diagram of a speaker device according to a sixth embodiment of the present invention.
FIG. 11 is an explanatory diagram of a speaker device according to a seventh embodiment of the present invention.
12A is an explanatory diagram of a speaker device according to an eighth embodiment of the present invention, and FIGS. 12B and C are speaker devices according to modifications of the eighth embodiment of the present invention. FIG. It is explanatory drawing of.
FIG. 13A is an explanatory diagram of a speaker device according to a ninth embodiment of the present invention, and FIG. 13B is an explanatory diagram of a speaker device according to a modification of the ninth embodiment of the present invention. .
FIG. 14A is an explanatory diagram of a speaker device according to a tenth embodiment of the present invention, and FIGS. 14B, C, and D are modifications of the tenth embodiment of the present invention. It is explanatory drawing of the speaker apparatus which concerns on.
FIGS. 15A, 15B, 15C, and 15D are explanatory diagrams of a speaker device according to a modification of the eighth embodiment of the present invention.
16A and 16B are explanatory diagrams of a speaker device according to a conventional example.
FIGS. 17A to 17L are explanatory views showing the shape of the speaker device. FIGS.
[Explanation of symbols]
10: speaker device, 11: speaker box, 12: front plate, 13: speaker body, 14: back plate, 15: support member, 16, 16a, 16b: diaphragm, 17: weight, 18: guide tube, 19: Opening portion, 20: cylinder, 20a: partition plate, 21: blind plate, 22: reflector, 22a: notch, 22b: vibrating bar, 23: listener, 24: speaker device, 25: speaker device, 26: speaker Box, 27: Top plate, 28: Guide tube, 29: Blind plate, 29a: Front plate, 29b: Back plate, 30: Bottom plate, 30a: Opening, 31: Speaker device, 32: Speaker box, 33: Opening 34: Tube, 35: Partition plate, 36: Speaker device, 36a: Speaker box, 37: Speaker device, 37a: Speaker box, 38: Speaker device, 39: Speaker device, 40: Spin 40a: prismatic tube, 40b: opening, 41: speaker device, 42: passive radiator, 43: speaker device, 44: speaker device, 45: speaker device, 46: speaker arrangement plate, 47: speaker arrangement Installation plate, 48: speaker arrangement plate, 49: speaker device, 49a: front plate, 49b: back plate, 50: speaker device, 50a: diaphragm, 50b: support member, 51: speaker main body for high sound, 52: middle Speaker main body for sound, 53: Speaker main body for bass, 53a: Opening, 54: Bulkhead, 54a: Support, 55: Speaker device, 55a: Front plate, 55b: Back plate, 56: Speaker device, 56a: Front plate 56b: back plate, 57: speaker device, 57a: front plate, 57b: diaphragm, 58: speaker device, 58a: front plate, 58b: back plate, 59: diaphragm, 9a: diaphragm, 60: partition plate, 60a, 60b: opening, 61: diaphragm, 62, 62a: partition plate, 62b, 62c: opening, 63: speaker device, 63a: front plate, 63b: back plate 63c: opening, 64: speaker device, 65: speaker device, 65a: front plate, 65b: bottom plate, 65c: opening, 66: speaker device, 67: partition, 68: partition

Claims (3)

In a speaker device having a wooden rectangular parallelepiped speaker box having an opening at the lower part of the front plate, and a speaker main body attached to the front plate of the speaker box,
A diaphragm attached to a back plate of the speaker box via a support member is provided, a guide tube for guiding a back wave generated from the speaker body to the diaphragm is provided, and a weight is provided at one end of the diaphragm. A speaker device characterized by that. The speaker device according to claim 1 , wherein the speaker body is for bass. 3. The speaker device according to claim 1 , wherein the diaphragm is provided with a resonance portion including a plurality of cuts or vibration bars having different lengths that resonate at a plurality of frequencies. 4. A speaker device.

Images