The present invention relates to a loudspeaker device and in particular to a low-profile loudspeaker device.
The most important development in loudspeakers is to make loudspeakers more powerful and more compact, preferably without compromising on efficiency and cost. A loudspeaker is deemed powerful if it has a relatively high maximum sound pressure level and can easily reproduce lower frequencies, for instance below 100 Hz, taking the size of the driver and housing into account.
Compact loudspeaker systems are also often low in weight. Undesirable mechanical vibrations can occur when a loudspeaker diaphragm makes high excursions in a lightweight housing. One solution is to add a second driver facing away from the existing driver, an arrangement that is sometimes known as dual, opposing driver cancellation (DODC). An advantage of DODC is that mechanical vibrations from the two drivers cancel out. A disadvantage of DODC is that the housing is at least twice as large because the two drivers are arranged back-to-back against each other; this increase in housing size is undesirable for a compact loudspeaker system.
An alternative opposed driver configuration is described in U.S. Pat. No. 9,609,405 in which a number of drivers are placed side-by-side in the same lateral plane, with a first set of drivers facing one direction and a second set of drivers facing the opposite direction so that forces from the two sets of drivers cancel out. The configuration described in U.S. Pat. No. 9,609,405 achieves a low transverse profile, or height, comparable to a single driver by arranging the sets of drivers in a lateral plane. However, the drivers must be in an A-B-B-A′ configuration to avoid vibrations and/or moments of force when the drivers are in use. Thus, a low transverse profile is achieved at the expense of a greater lateral profile.
In accordance with one aspect of the present disclosure, there is provided a loudspeaker device, comprising first and second diaphragms arranged co- axially in an opposed relation to each other, each diaphragm having a plurality of motors operatively coupled thereto, wherein the motors of the first and second diaphragms are arranged in the same plane.
The loudspeaker device may further comprise a frame having first and second ends, the first diaphragm (12) arranged near the first end of the frame and the second diaphragm arranged near the second end of the frame, the motors of the first and second diaphragms being provided on the frame.
The frame may comprise first and second rims provided at the first and second ends, respectively, wherein the first diaphragm (12) is mounted to the first rim via a first surround, and the second diaphragm is mounted to the second rim via a second surround.
In embodiments of the present disclosure, the frame may further comprise a first support member provided closer to the second end than to the first end and a second support member provided closer to the first end than to the second end, the motors of the first diaphragm (12) being provided on the first support member and the motors of the second diaphragm being provided on the second support member.
The frame may further comprise a reinforcing member extending between the first and second support members.
The frame may further comprise a plurality of struts extending between the first and second rims, the first and second support members extending between the struts.[0011] The first and second support members may be rotationally offset from each other whereby the motors of the first and second diaphragms are arranged in an alternating manner.
Each motor may comprise a magnet and a voice coil provided on a former, the former of each motor being attached to the corresponding diaphragm. Alternatively, each motor may comprise a magnet and a voice coil formed without a former, the voice coil of each motor being attached to the corresponding diaphragm.
In other embodiments of the present disclosure, the motors may be provided on the frame around the periphery of the first and second diaphragms. The frame may further comprise a plurality of struts extending between the first and second rims, the motors being provided on the struts.
Each motor may comprise a magnet and a voice coil provided on a former, each motor being attached to the corresponding diaphragm by a bracket extending between the diaphragm and the former. Alternatively, each motor may comprise a magnet and a voice coil formed without a former, wherein each motor is attached to the corresponding diaphragm by a bracket extending between the diaphragm and the voice coil.
The motors of the first and second diaphragms may be arranged in an alternating manner.
A rear volume may be defined between the first and second diaphragms, with the first and second diaphragms sharing the rear volume.
In embodiments of the present disclosure, a maximum excursion of each diaphragm may correspond to ⅓ of the transverse profile, or height, of the loudspeaker device.
In embodiments of the present disclosure, the device may have a transverse height that corresponds with a transverse height of the motors of the first and second diaphragms. Preferably, the device has a transverse profile that is less than or equal to 1.25 times the transverse profile of a diaphragm and attached motors.
Other features and aspects of this disclosure will be apparent from the following description and the accompanying drawings.
Embodiments of the present disclosure will now be described with reference to the accompanying drawings, in which:
Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Wherever possible, corresponding or similar reference numbers will be used throughout the drawings to refer to the same or corresponding parts.
Referring to
The loudspeaker device 10 further comprises a frame 16 having a first rim 18 provided at a first end 20 and a second rim 22 provided at a second end 24 of the frame 16. The first and second rims 18, 22 are circular to match the configuration of the diaphragms 12, 14. The first diaphragm 12 is provided near the first end 20 of the frame 16 and the second diaphragm 14 is provided near the second end 24 of the frame 16. Although not shown in
A plurality of struts 26 extend between the first and second rims 18, 22. Four struts 26 are shown in
The frame 16 further comprises a first support member 28 that extends laterally between two of the struts 26 located on opposite sides of the rims 18, 22. The first support member 28 is provided closer to the second end 24 than to the first end 20 such that the first support member 28 is spaced from the first diaphragm 12.
The first diaphragm 12 has a plurality of motors 30 operatively coupled thereto. The motors 30 are provided on the frame 16. In the embodiment shown in
The frame 16 further comprises a second support member 38 that extends laterally between another two of the struts 26 that are on opposite sides of the rims 18, 22. The second support member 38 is provided closer to the first end 20 than to the second end 24 such that the second support member 38 is spaced from the second diaphragm 14.
The second diaphragm 14 has a plurality of motors 30′ operatively coupled thereto. The motors 30′ are also provided on the frame 16. In the embodiment shown in
The voice coils 34, 34′ of the motors 30, 30′ may be wound in series or parallel, or a combination thereof where more than two motors are provided for each diaphragm. The magnets 32, 32′ of the motors 30, 30′ may be of any suitable type known to the skilled person; however rare-earth magnets such as neodymium magnets are preferred for their high magnetic flux density.
The first and second support members 28, 38 are spaced apart in a transverse direction since the first support member 28 is closer to the second end 24 while the second support member 38 is closer to the first end 20. The first and second support members 28, 38 are rotationally offset from each other. In the embodiment shown in
The frame 16 may further comprise a reinforcing member 40 extending between the first and second support members 28, 38. The reinforcing member 40 may extend between the mid-points of the first and second support members 28, 38. In other embodiments of the present disclosure, the frame may be formed integrally with all or part of a larger structure such as a housing for the loudspeaker device.
Using multiple separate motors 30, 30′ for the diaphragms 12, 14 may increase the efficiency with which the diaphragm is moved, making it possible to reproduce lower frequencies in a small closed cabinet. Further, attaching multiple motors to each diaphragm may increase linearity and diaphragm rigidity, which are important for high excursion drivers typically used in low frequency reproduction loudspeaker systems.
Referring now to
The first diaphragm 112 of the loudspeaker device 100 is mounted to the first rim 118 via a first surround 117. The second diaphragm 114 of the loudspeaker device 100 is mounted to the second rim 122 via a second surround 117′.
The loudspeaker device 100 differs from the loudspeaker device 10 in that each diaphragm 112, 114 of the loudspeaker device 100 has three motors 130, 130′, respectively.[0045] As shown in
The motors 130, 130′ shown in
Referring now to
The diaphragms 212, 214 of the loudspeaker device 200 are rectangular in shape. The diaphragm 214 is rotated by 90 degrees in a lateral plane relative to the diaphragm 212 such that the diaphragms form a cross or “+” as seen in
The frame 216 of the loudspeaker device 200 differs from the frame 116 shown in
The motors 230, 230′ of the loudspeaker device 200 are provided around the periphery of the first and second diaphragms 218, 222, in contrast to earlier embodiments in which the motors were provided beneath the diaphragms. The motors 230, 230′ are provided on the struts 226 that extend between the first and second rims 218, 222 rather than being provided on support members as in previous embodiments. Arranging the motors 230, 230′ around the periphery of the diaphragms may further reduce the transverse profile of the loudspeaker device.
Situating the motors 230, 230′ around the periphery of the diaphragms 212, 214, instead of underneath the diaphragms, allows the diaphragms 212, 214 to be positioned closer to each other since there are no objects (i.e. voice coils, suspensions, magnets, mounting plates etc.) to collide or intersect with the diaphragm as it moves in use. Providing the motors beneath the diaphragms, as described in the preceding embodiments, leads to the transverse profile of the loudspeaker device being ultimately limited by the size of the motors and the requirement for free space between the motors and the diaphragms to allow for the excursion of the diaphragm in use (so the diaphragms do not collide with the motors). In the loudspeaker device 200, the motors 230, 230′ are provided at the periphery from the diaphragms 212, 214 and may be spaced from the periphery in some embodiments. Thus, there is no requirement for free space in a transverse direction between the motors 230, 230′ and the diaphragms 212, 214 to allow for the excursion of the diaphragm in use since the diaphragms will not collide with the motors. The result is the transverse profile of the loudspeaker device 200 is limited by the size of the motors and may result in a transverse profile that corresponds with a single- driver loudspeaker system.[0052] The former 236, 236′ of each motor 230, 230′ is attached to the corresponding diaphragm 212, 214 via a bracket 260, 260′, respectively, that extends between the diaphragm 212, 214 and the former 236, 236′.
Referring now to
The brackets 360, 360′ of the loudspeaker device 300 are formed integral with a collar 362, 362′ which are attached to the diaphragms 312, 314, respectively. In the embodiment illustrated in
The motors 330, 330′ of the loudspeaker device 300 are arranged in pairs, with the formers 336 of each pair of motors 330, 330′ being connected to one of the brackets 360, 360′. The pairs of motors 330, 330′ are arranged in an alternating manner around the frame 316. As shown in
The loudspeaker device 300, as shown in
While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed devices without departing from the scope of the present disclosure as set forth in the claims.
Number | Date | Country | Kind |
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1042617 | Nov 2017 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/079509 | 10/26/2018 | WO | 00 |