FIELD OF THE INVENTION
[0001] The present invention is related to low sound loudspeaker systems.
BACKGROUND OF THE INVENTION
[0002] There are known conventional low sound loudspeaker systems such as disclosed in USP
No. 4,064,966, USP No. 4,628,528, and Japanese Laid-Open No. 63-120586.
[0003] Figs. 1A and 1B show examples of the structure of above-described prior art loudspeaker
systems.
[0004] Above-described prior art loudspeaker systems have a disadvantage that unnecessary
high sounds in an acoustic pipe leak out of an aperture.
[0005] Furthermore, in above-described prior art low sound loudspeaker systems, the loudspeaker
unit is disposed facing in the direction indicated by arrow F same as that of the
sound radiation direction of the system. Accordingly, as exemplary shown in Fig. 1
B, the thickness t of the cabinet is dependent upon the diameter d of the loudspeaker
unit so that there is associated with a difficulty in providing a compact low sound
loudspeaker system to be mounted on a vehicle.
[0006] The present invention has been made in consideration of the above problems.
[0007] It is therefore an object of the present invention to provide low sound loudspeaker
systems capable of further attenuating unnecessary high sound components.
[0008] It is a further object of this invention to provide low sound loudspeaker systems
capable of making small the thickness of a cabinet and mounting the loudspeaker system
on a vehicle.
SUMMARY OF THE INVENTION
[0009] According to a first aspect of this invention, the low sound loudspeaker system is
constructed of an acoustic pipe extending from the back side of a loudspeaker unit,
an air chamber provided at the front side of the loudspeaker unit, and a bass reflex
port provided within the air chamber, the acoustic pipe communicating with the air
chamber via the aperture of the acoustic pipe.
[0010] In this system, the resonance frequency of the bass reflex port is set at substantially
the same frequency where the half wavelength stands in the acoustic pipe.
[0011] According to this invention, the acoustic pipe is adapted to communicate with the
air chamber via an aperture of the acoustic pipe. Therefore, high sound components
generated by the loudspeaker unit are attenuated by the filtering effect of the air
chamber.
[0012] Furthermore, the resonance frequency of the bass reflect port is set substantially
at the same frequency where the half wavelength stands in the acoustic pipe. Therefore,
sounds radiated at the front side of the loudspeaker unit become in phase with sounds
radiated from the backside of the loudspeaker unit, at the area composed of the air
chamber and the port.
[0013] Since the air chamber and the port constitute a bass reflex type loudspeaker, low
sound components are radiated efficiently to the outside.
[0014] According to a second aspect of this invention, in the low sound loudspeaker system
constructed as above, a partition plate for defining the air chamber and acoustic
pipe is provided, and the partition plate forms an inner and upper surface of the
acoustic pipe at the area from one end to the other end of the acoustic pipe.
[0015] In the low sound loudspeaker system constructed as above, the acoustic pipe is mounted
at the outside of the loudspeaker enclosure, and is made flexible.
[0016] Furthermore, the direction of radiating sounds from the loudspeaker unit differs
approximately 90 degrees from the direction of the bass reflex port.
[0017] The resonance frequency of the bass reflex port is set at substantially the same
frequency where the half wavelength stands in the acoustic pipe.
[0018] According to the structure of the second aspect of this invention, a partition plate
for defining the air chamber and acoustic pipe is provided, and the partition plate
forms an inner and upper surface of the acoustic pipe at the area from one end to
the other end of the acoustic pipe. It is therefore possible to make compact the cabinet.
[0019] The acoustic pipe is mounted at the outside of the loudspeaker enclosure, and is
made flexible. It is therefore possible to make compact the cabinet. Since the acoustic
pipe is flexible, the degree of freedom of installation can be improved.
[0020] Furthermore, the resonance frequency of the bass reflect port is set substantially
at the same frequency where the half wavelength stands in the acoustic pipe. Therefore,
sounds radiated at the front side of the loudspeaker unit become in phase with sounds
radiated from the backside of the loudspeaker unit, at the area composed of the air
chamber and the port.
[0021] Since the air chamber and the port constitute a bass reflex type loudspeaker, low
sound components are radiated efficiently to the outside.
BRIEF DESCRIPTION OF THE DRAWINGS
[0022]
Fig. 1 shows the structure of a conventional low sound loudspeaker system;
Fig. 2 shows the structure of a first embodiment of this invention;
Fig. 3 shows the structure of a second embodiment of this invention;
Fig. 4 shows the structure of a third embodiment of this invention;
Fig. 5 shows the structure of a fourth embodiment of this invention; and
Fig. 6 to 8 show the structure of a fifth embodiment of this invention
DETAILED DESCRIPTION OF THE INVENTION
[0023] A first embodiment of a low sound loudspeaker system of this invention is shown in
Fig. 2.
[0024] In Fig. 2, reference numeral 1 represents a loudspeaker enclosure, 2 a loudspeaker
unit, 3 an acoustic pipe extending from the back 2a of the loudspeaker unit 2, 4 partition
plates defining the acoustic pipe, 5 an air chamber formed at the front side 2b of
the loudspeaker unit 2, 6 a port making the air chamber 5 in communication with the
outside 7 of the loudspeaker enclosure 1, and 8 an aperture of the acoustic pipe 3
at which the acoustic pipe 3 communicates with the air chamber 5.
[0025] The resonance frequency of the port 6 is set at substantially the same frequency
where the half wavelength stands in the acoustic pipe 3.
[0026] In the low sound loudspeaker system constructed as above, a bass reflex type loudspeaker
system B constructed of the Air chamber 5 and the port 6 is provided at the front
side 2b of the loudspeaker unit 2. Therefore, sounds radiated from the front side
2b of the loudspeaker unit 2 and introduced into the air chamber 5 are outputted to
the outside 7 of the loudspeaker enclosure 1, having low sound components of approximately
the opposite phase and near at the resonance frequency of the port 6.
[0027] In the meantime, sounds radiated from the back side 2a of the loudspeaker unit 2
and guided via the acoustic pipe 3 to the aperture 8 have low sound components, at
the aperture 8, of approximately the opposite phase to the phase at the back side
2a and of approximately the frequency where the half wavelength stands in the acoustic
pipe 3 of the low sound loudspeaker system.
[0028] Sounds passed through the acoustic pipe 3 are also introduced in the bass reflex
type loudspeaker system B. In this bass reflex type loudspeaker system B, sounds from
the front side 2b of the loudspeaker unit 2 and those from the back side 2a are added
together, reproducing low sound components more efficiently.
[0029] Reproduction efficiency is improved considerably because of the structure that the
resonance frequency of the port 6 is set at substantially the same frequency where
the half wavelength stands in the acoustic pipe 3.
[0030] Sounds radiated into the acoustic pipe 3 are most emphasized at the frequency where
the wavelength is two times as long as the length of the acoustic pipe 3, and radiated
into the outside (air chamber 5) of the aperture 8. Sounds having a different frequency
whose wavelength is a multiple in odd number of the length of the acoustic pipe 3
are also radiated in the outside of the aperture 3. In this case, however, such sounds
have at the aperture 8 the opposite phase to that at the front side 2b so that they
are canceled by the sounds at the front side 2b of the loudspeaker unit 2, whereas
other sounds are introduced into the air chamber 5. Consequently, high sound components
are efficiently attenuated by the filtering effect of the air chamber 5.
[0031] Furthermore, since the air chamber 5 and the acoustic pipe 3 are communicated with
each other via the aperture 8, the equivalent length of the acoustic pipe 3 becomes
longer and the equivalent volume of the air chamber 5 becomes large, thereby broadening
the low sound bandwidth.
[0032] Figs. 3 and 4 show the second and third embodiments of this invention. In the embodiment
shown in Fig. 3, partition plates 4A are disposed to form two acoustic pipes 3 and
3A having their apertures 8 and 8A via which the acoustic pipes 3 and 3A and the air
chamber 5 are communicated with each other.
[0033] In the embodiment shown in Fig. 4, there are provided two loudspeaker units 2 and
2A each having dedicated acoustic pipes 3 and 3A, respectively. The acoustic pipes
3 and 3A communicate with the air chamber 5 via corresponding apertures 8 and 8A.
[0034] In the embodiments shown in Figs. 3 and 4, the length of the acoustic pipes 3 and
3A may be the same or different. The air chamber may be divided into two air chambers.
[0035] According to the above embodiments, in a low sound loudspeaker constructed of an
acoustic pipe extending from the back side of the loudspeaker unit, an air chamber
formed at the front side of the loudspeaker unit, and a bass reflex port provided
in the air chamber, the acoustic pipe is adapted to communicate with the air chamber
via an aperture of the acoustic pipe. Therefore, high sound components generated by
the loudspeaker unit are attenuated by the filtering effect of the air chamber.
[0036] Furthermore, the resonance frequency of the bass reflex port is set substantially
at the same frequency where the half wavelength stands in the acoustic pipe. Therefore,
sounds radiated at the front side of the loudspeaker unit become in phase with sounds
radiated from the backside of the loudspeaker unit, at the area composed of the air
chamber and the port.
[0037] Since the air chamber and the port constitute a bass reflex type loudspeaker, low
sound components are radiated efficiently to the outside.
[0038] In summary, the advantages of the embodiments of this invention shown in Figs. 2
to 4 are as follows:
(1) unnecessary high sound components can be considerably attenuated;
(2) reproduction efficiency of low sounds can be improved; and
(3) since an opening of the loudspeaker system is only one, the freedom of location
thereof can be improved.
[0039] Furthermore, the system of this invention is simple in structure and cost effective,
allowing easy installation.
[0040] Figs. 5A and 5B, show the fourth embodiment, wherein Fig. 5A is a sectional view
and Fig. 5B is a sectional view taken along line A-A' of Fig. 5A.
[0041] In Figs. 5A and 5B, reference numeral 1 represents a loudspeaker enclosure, 3 a partition
plate mounted within the loudspeaker enclosure 1, 2a the back side of the loudspeaker
unit 2, 2b the front side of the loudspeaker unit 2,4 an acoustic pipe extending from
the back side 2a of the loudspeaker unit 2, 4a pipe defining plates mounted between
the partition plate 3 and the loudspeaker enclosure 1 for defining the acoustic pipe
4, 4b one end of the acoustic pipe 4, and 4c the other end of the acoustic pipe, one
inner and upper surface of the acoustic pipe 4 being defined by the partition plate
3 in the area from the one end 4b to the other end 4c thereof.
[0042] Reference numeral 5 represents an air chamber formed at the front side 2b of the
loudspeaker unit 2 and defined by the loudspeaker enclosure 1 and the partition plate
3, 6 a port for making the air chamber 5 in communication with the outside 7 of the
loudspeaker enclosure 1, and 8 an aperture formed at the other end 4c of the acoustic
pipe 4. This aperture 8 is formed in the partition plate 3 and serves to make the
acoustic pipe 4 in communication with the air chamber 5.
[0043] The resonance frequency of the port 6 is set at substantially the same frequency
where the half wavelength stands in the acoustic pipe 4.
[0044] In the low sound loudspeaker system constructed as above, a bass reflex type loudspeaker
system B constructed of the air chamber 5 and the port 6 is provided at the front
side 2b of the loudspeaker unit 2. Therefore, sounds radiated from the front side
2b of the loudspeaker unit 2 and introduced into the air chamber 5 are outputted to
the outside 7 of the loudspeaker enclosure 1, having low sound components of approximately
the opposite phase and near at the resonance frequency of the port 6.
[0045] In the meantime, sounds radiated from the back side 2a of the loudspeaker unit 2
and guided via the acoustic pipe 4 to the aperture 8 formed at the other end 4c have
low sound components, at the aperture 8, of approximately the opposite phase to the
phase at the back side 2a and of approximately the same frequency where the half wavelength
stands in the acoustic pipe 4 of the low sound loudspeaker system.
[0046] Sounds passed through the acoustic pipe 3 are also introduced in the bass reflex
type loudspeaker system B. In this bass reflex type loudspeaker system B, sounds from
the front side 2b of the loudspeaker unit 2 and those from the back side 2a are added
together, reproducing low sound components more efficiently.
[0047] Reproduction efficiency is improved considerably because of the structure that the
resonance frequency of the port 6 is set at substantially the same frequency where
the half wavelength stands in the acoustic pipe 4.
[0048] With the structural arrangement of the loudspeaker unit 2, acoustic pipe 4, and air
chamber 5 as described above, the dimension t1 of the loudspeaker enclosure 1 can
be made small.
[0049] Figs. 6 to 8 show the fifth embodiment, wherein Fig. 6 is a perspective view, Fig.
7 is a sectional view, and Fig. 8 is a front view.
[0050] In Figs. 6 to 8, reference numeral 11 represents a loudspeaker enclosure, and 12
a loudspeaker unit. The loudspeaker unit 12 is mounted between a small air chamber
13 and an air chamber 14 such that sounds radiated to the back side 12a of the loudspeaker
unit 12 are introduced into the small air chamber 13 and sounds radiated to the front
side 13b of the loudspeaker unit 12 are introduced into the air chamber 14.
[0051] A port 15 is mounted within the air chamber 14. Between an aperture 13a formed in
the wall of the small air chamber 13 and an aperture 14a formed in the wall of the
air chamber 14, there is connected a flexible acoustic pipe 16.
[0052] The resonance frequency of the port 15 is set at substantially the same frequency
where the half wavelength stands in the acoustic pipe 16.
[0053] In the low sound loudspeaker system constructed as above, a bass reflex type loudspeaker
system B constructed of the air chamber 14 and the port 15 is provided at the front
side 12b of the loudspeaker unit 12. Therefore, sounds radiated from the front side
12b of the loudspeaker unit 12 and introduced into the air chamber 14 are outputted
to the outside 17 of the loudspeaker enclosure 11, having low sound components of
approximately the opposite phase and near at the resonance frequency of the port 15.
[0054] In the meantime, sounds radiated from the back side 12a of the loudspeaker unit 12
and guided via the acoustic pipe 16 to the air chamber 14 have low sound components,
near at the aperture 14a, of approximately the opposite phase to the phase at the
back side 12a and of approximately the same frequency where the half wavelength stands
in the acoustic pipe 16 of the low sound loudspeaker system.
[0055] Sounds passed through the acoustic pipe 16 are also introduced in the bass reflex
type loudspeaker system B. In this bass reflex type loudspeaker system B, sounds from
the front side 12b of the loudspeaker unit 12 and those from the back side 12a are
added together, reproducing low sound components more efficiently.
[0056] Reproduction efficiency is improved considerably because of the structure that the
resonance frequency of the port 15 is set at substantially the same frequency where
the half wavelength stands in the acoustic pipe 16.
[0057] In the fifth embodiment, with the structural arrangement of the loudspeaker unit
12, acoustic pipe 16, and air chamber 14 as described above, the dimension t2 of the
loudspeaker enclosure 1 can be made small.
[0058] A plurality of apertures 13a and 14b may be formed to thereby further improve the
freedom of installation. In this case, it is needless to say that non-use apertures
should be closed.
[0059] If the length of the acoustic pipe 16 is made variable, the sound quality can be
adjusted, allowing various customized applications.
[0060] According to the low sound speaker system shown in Figs. 5 to 8, the above structural
arrangement makes the enclosure compact. Therefore, the system can be easily installed
below a vehicle seat.
[0061] Since the acoustic pipe is mounted outside of the enclosure, it may be made smaller.
Furthermore, since the acoustic pipe is flexible, the degree of freedom can be further
improved in installing the system within a small space of a vehicle.
[0062] Provision of a bass reflex type loudspeaker system composed of the air chamber and
port enables efficient radiation of low sound components to the outside of the enclosure.
[0063] Furthermore, the system of this invention is simple in structure and cost effective,
allowing easy installation.
1. A low sound loudspeaker system comprising:
an acoustic pipe extending from the back side of a loudspeaker unit;
an air chamber provided at the front side of said loudspeaker unit; and
a bass reflex port provided within said air chamber;
said acoustic pipe communicating with said air chamber via an aperture of said acous-
tic pipe.
2. A low sound loudspeaker system according to claim 1, wherein the resonance frequency
of said bass reflex port is set at substantially the same frequency where the half
wavelength stands in said acoustic pipe.
3. A low sound loudspeaker system according to claim 1, wherein a partition plate
for defining said air chamber and said acoustic pipe is provided, and the said partition
plate forms an inner and upper surface of said acoustic pipe at the area from one
end to the other end of said acoustic pipe.
4. A low sound loudspeaker system according to claim 3, wherein the resonance frequency
of said bass reflex port is set at substantially the same frequency where the half
wavelength stands in said acoustic pipe.
5. A low sound loudspeaker system according to claim 3, wherein the direction of radiating
sounds from said loudspeaker unit differs approximately 90 degrees from the direction
of said bass reflex port.
6. A low sound loudspeaker system according to claim 5, wherein the resonance frequency
of said bass reflex port is set a substantially the same frequency where the half
wavelength stands in said acoustic pipe.
7. A low sound loudspeaker system according to claim 1, wherein said acoustic pipe
is mounted at the outside of the enclosure of said system, and is made flexible.
8. A low sound loudspeaker system according to claim 7, wherein the direction of radiating
sounds from said loudspeaker unit differs approximately 90 degrees from the direction
of said bass reflex port.
9. A low sound loudspeaker system according to claim 7, wherein the resonance frequency
of said bass reflex port is set at substantially the same frequency where the half
wavelength stands in said acoustic pipe.