The application Number 2008-284405, upon which this patent application is based, is hereby incorporated by reference.
1. Field of the Invention
The present invention relates to microphone devices and a portable recorder comprising same.
2. Description of Related Art
Conventionally, a portable recorder comprises a recorder main body and a microphone device for obtaining an audio signal to be recorded on the recorder main body. As the microphone device, known are ones comprising a nondirectional microphone with low directivity in a sound collecting direction, a directional microphone with high directivity in the sound collecting direction or the like. The nondirectional microphone can collect sound from the periphery, while the directional microphone can collect sound from a sound collection object in a focused manner.
It has been suggested to provide a plurality of directional microphones to the microphone device in order to obtain sound from the sound collection object with high sound quality. For example, it has been suggested to provide a pair of directional microphones in an inverted V-shape in the portable recorder to form an XY directional stereo microphone. This allows the pair of directional microphones to capture sound from the sound collection object at the same phase and sensitivity, resulting in obtaining sound from the sound collection object with high sound quality.
However, it is problematic because in the case where the portable recorder described above records sound from the periphery while being arranged on a desk such as in the case of a conference or a group interview, sound from the periphery cannot be recorded with an optimal sound quality.
A possible way to solve the above discussed problem is to provide a pair of nondirectional microphones to the microphone device in addition to the pair of directional microphones. However, installation of these four microphones in the microphone device results in an increase in size of the microphone device.
In view of above described problem, an object of the present invention is to provide a microphone device which is capable of collecting both sound from a sound collection object and sound from the periphery and which is compact, and a portable recorder comprising same.
A first microphone device according to the present invention comprises a pair of directional microphones with high directivity in a sound collecting direction, a pair of nondirectional microphones with low directivity in the sound collecting direction, and a casing accommodating the pair of directional microphones and the pair of nondirectional microphones. The pair of nondirectional microphones is arranged so that sound collecting directions thereof are outward from both side surface walls of the casing, while the pair of directional microphones is arranged so that sound collecting directions thereof are outward from a front surface wall of the casing and intersect each other in vicinity of the front surface wall. All or a part of the pair of directional microphones is accommodated in a space sandwiched by the pair of nondirectional microphones.
With the microphone device described above, the pair of directional microphones is arranged so that the sound collecting directions thereof intersect each other in vicinity of the front surface wall of the casing, and therefore, the pair of directional microphones can capture sound from a sound collection object at the same phase and sensitivity. Thus, the directional microphones can obtain sound from the sound collection object with high sound quality.
In contrast, the pair of nondirectional microphones is arranged so that the sound collecting directions thereof are outward from both the side surface walls of the casing, and therefore, the pair of nondirectional microphones can collect sound from the periphery of the microphone device. Accordingly, even in the case where a portable recorder records sound from the periphery while being arranged on a desk such as in the case of a conference or a group interview, sound from the periphery can be obtained with an optimal sound quality.
In addition, since all or a part of the pair of directional microphones is accommodated in the space sandwiched by the pair of nondirectional microphones, the pair of directional microphones and the pair of nondirectional microphones are compactly accommodated in the casing.
A second microphone device according to the present invention is the first microphone device described above, wherein each of the pair of directional microphones includes a first sound collecting surface and a second sound collecting surface facing opposite to each other, and the first sound collecting surface faces a first sound collecting hole provided to the front surface wall of the casing, while the second sound collecting surface faces a second sound collecting hole provided to a rear surface wall of the casing.
A third microphone device according to the present invention is the second microphone device described above, wherein the casing is provided therein with a sound collecting space extending from the second sound collecting hole of the casing to the second sound collecting surface of each of the pair of directional microphones.
According to the second and third microphone devices described above, regarding the directional microphone, sound from the side and sound from the rear included in sound collected on the first sound collecting surface is negated by sound from the side and sound from the rear collected on the second sound collecting surface, thereby obtaining only sound from the sound collection direction with high sound quality.
A fourth microphone device according to the present invention is any one of the first to third microphone devices described above, wherein the casing is provided therein with a holder comprising a first holder part retaining the pair of directional microphones and a pair of second holder parts retaining the pair of nondirectional microphones, and the first holder part is interposed between the pair of second holder parts. The first holder part includes a top surface wall and a bottom surface wall which are elastically deformable, and each of the top surface wall and the bottom surface wall is provided with a pair of rectangular openings arranged in a V-shape, with the pair of rectangular openings in the top surface wall and the pair of rectangular openings in the bottom surface wall facing each other.
According to the fourth microphone device described above, the top surface wall and the bottom surface wall are elastically deformed so that the pair of directional microphones is fitted in the pair of rectangular openings arranged in a V-shape, and the pair of directional microphones is thereby retained by the holder with the sound collecting directions thereof intersecting each other in vicinity of the front surface wall of the casing.
Also, since the first holder part is interposed between the pair of second holder parts, by retaining the pair of nondirectional microphones by means of the pair of second holder parts, all or a part of the pair of directional microphones retained by the first holder part is accommodated in the space sandwiched by the pair of nondirectional microphones. Thus, by using the holder, the pair of directional microphones and the pair of nondirectional microphones can be easily arranged at predetermined positions in the casing.
A portable recorder according to the present invention comprises any of the first to fourth microphone devices described above and a recorder main body recording an audio signal obtained by the microphone device.
A preferred embodiment of the present invention is described in detail below with reference to the drawings.
As shown in
As shown in
The casing 3 comprises a first casing part 31 integrally formed by a front surface wall 3A, a rear surface wall 3B, and both side surface walls 3C, 3D; a second casing part 32 including a top surface wall 3E; and a third casing part 33 including a bottom surface wall 3F.
To the first casing part 31, the second casing part 32 is attached from above and the third casing part 33 is attached from below, thereby forming the casing 3. In the casing 3, defined is a space for accommodating the pair of directional microphones 21, 22 and the pair of nondirectional microphones 23, 24.
The nondirectional microphones 23, 24 have low directivities in sound collecting directions C, D shown in
In contrast, the directional microphones 21, 22 have high directivities in sound collecting directions A, B shown in
As shown in
In
In the casing 3, provided is a holder 5 retaining the pair of directional microphones 21, 22 and the pair of nondirectional microphones 23, 24 as shown in
As shown in
The rectangular opening 511a defined in the top surface wall 511 corresponds to the rectangular opening 512a defined in the bottom surface wall 512, and these rectangular openings 511a and 512a are arranged so as to face each other. Also, the rectangular opening 511b defined in the top surface wall 511 corresponds to the rectangular opening 512b defined in the bottom surface wall 512, and these rectangular openings 511b and 512b are arranged so as to face each other.
As shown in
In order for the holder 5 to retain the pair of directional microphones 21, 22, the top surface wall 511 and the bottom surface wall 512 are elastically deformed so that the directional microphone 21 is fitted in the rectangular opening 511a and the rectangular opening 512a corresponding to each other, while the directional microphone 22 is fitted in the rectangular opening 511b and the rectangular opening 512b corresponding to each other. The pair of directional microphones 21, 22 is thereby retained by the holder 5 with the sound collecting directions A, B thereof intersecting each other in vicinity of the front surface wall 3A of the casing 3 (see
In contrast, In order for the holder 5 to retain the pair of nondirectional microphones 23, 24, the nondirectional microphones 23, 24 are respectively accommodated in the accommodation rooms 521, 531 defined in the pair of second holder parts 52, 53. Here, the pair of nondirectional microphones 23, 24 is arranged so that sound collecting surfaces 231, 241 thereof are seeable through the through-holes 522, 532 defined in the pair of second holder parts 52, 53 (see
Since the first holder part 51 of the holder 5 is interposed between the pair of second holder parts 52, 53 of the holder 5, a part of the pair of directional microphones 21, 22 retained by the first holder part 51 is accommodated in the space sandwiched by the pair of nondirectional microphones 23, 24.
Thus, by using the holder 5, the pair of directional microphones 21, 22 and the pair of nondirectional microphones 23, 24 can be easily arranged at predetermined positions in the casing 3.
By arranging the pair of directional microphones 21, 22 as described above, in the casing 3, a first sound collecting space 61 is defined along both the first sound collecting surfaces 211, 221, and a second sound collecting spaces 62, 63 are defined along the second sound collecting surfaces 212, 222 respectively, as shown in
As shown in
As shown in
Further, as shown in
As shown in
As shown in
With the microphone device 2 and the portable recorder comprising the microphone device 2 described above, the pair of directional microphones 21, 22 is arranged so that the sound collecting directions A, B thereof intersect each other in vicinity of the front surface wall 3A of the casing 3, and therefore, the pair of directional microphones 21, 22 can capture sound from a sound collection object at the same phase and sensitivity. Thus, sound from the sound collection object can be obtained with high sound quality.
In contrast, the pair of nondirectional microphones 23, is arranged so that the sound collecting directions C, D thereof are outward from the side surface walls 3C, 3D of the casing 3, and therefore, the pair of nondirectional microphones 23, 24 can collect sound from the periphery of the microphone device 2. Therefore, even in the case where the portable recorder records sound from the periphery while being arranged on a desk such as in the case of a conference or a group interview, sound from the periphery can be obtained with an optimal sound quality.
In the portable recorder according to this embodiment, the microphone device 2 is attached to a fore-end of the recorder main body 1, and the recorder main body 1 and the microphone device 2 are coupled with each other by a hinge. The microphone device 2 is arranged in front of the fore-end of the recorder main body 1 by opening the hinge as shown in
For example, when the portable recorder records sound from the sound collection object, the microphone device 2 is arranged in front of the fore-end of the recorder main body 1 (
In this embodiment, a part of the pair of directional microphones 21, 22 is accommodated in the space sandwiched by the pair of nondirectional microphones 23, 24, and therefore, the pair of directional microphones 21, 22 and the pair of nondirectional microphones 23, 24 are compactly accommodated in the casing 3.
The present invention is not limited to the foregoing embodiment in construction but can be modified variously within the technical range set forth in the appended claims. For example, the pair of directional microphones 21, 22 may be arranged so that all of them are accommodated in the space sandwiched by the pair of nondirectional microphones 23, 24.
Also, the position of the sound collection hole defined in the casing 3 is not limited to that in the embodiment described above. For example, the sound collection holes communicating with the second sound collecting spaces 62, 63 may be defined in the top surface wall 3E of the casing 3 (see
Number | Date | Country | Kind |
---|---|---|---|
2008-284405 | Nov 2008 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4628525 | Iwahara et al. | Dec 1986 | A |
5073936 | Gorike et al. | Dec 1991 | A |
6507659 | Iredale et al. | Jan 2003 | B1 |
6614911 | Watson et al. | Sep 2003 | B1 |
20080310649 | Yamada | Dec 2008 | A1 |
Number | Date | Country |
---|---|---|
2004254074 | Sep 2004 | JP |
2007043510 | Feb 2007 | JP |
Number | Date | Country | |
---|---|---|---|
20100111326 A1 | May 2010 | US |