JP4072679B2 - Microphone device and audio recording / reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a microphone device used in an audio recording / reproducing apparatus such as a so-called IC recorder that records an audio signal from a microphone in an IC (integrated circuit) memory, and an audio recording / reproducing apparatus such as an IC recorder provided with the microphone apparatus. About.
[0002]
[Prior art]
Conventionally, as shown in FIG. 13 (A), the IC recorder is mounted with the omnidirectional microphone 1 facing the front, or as shown in FIG. 13 (B), the omnidirectional microphone 1 is upward. It is set as the structure attached toward.
[0003]
However, if the omnidirectional microphone is directed in one direction as described above, it is not possible to clearly record the sound from the sound source in the target direction, particularly from a far sound source.
[0004]
Therefore, a microphone device is considered in which a microphone having a single directivity is mounted on an IC recorder as an external microphone and can be rotated within a certain range.
[0005]
Specifically, in Patent Document 1 (Japanese Patent Application Laid-Open No. 2000-115875), as shown as the microphone device 3 in FIG. 14, the directional microphone 3a, the supporting member 3c, and the portable audio recording / reproducing device 2 are inserted. The directional microphone 3a is connected from the rotational position where the directional direction of the directional microphone 3a is the direction of the arrow 4a to the rotational position where the directional direction of the directional microphone 3a is the direction of the arrow 4b. A microphone device is shown that can be rotated 90 degrees around the axis 3d of the support member 3c.
[0006]
[Patent Document 1]
JP 2000-115875 A.
[0007]
[Problems to be solved by the invention]
However, if the directional microphone 3a is configured as an external microphone as shown in FIG. 14, the microphone device 3 must be attached to the audio recording / reproducing device 2 each time it is used, which is inconvenient and within a certain range. It is desirable to always provide a directional microphone that can be rotated in a device such as an audio recording / reproducing device.
[0008]
Therefore, as shown in FIG. 15A, a front surface 5a and an upper surface 5b, in which a cylindrical microphone structure 7 incorporating a directional microphone 6 is disposed, for example, at the upper portion of the apparatus main body 5 of the audio recording / reproducing apparatus. It is conceivable that a microphone structure 7 is rotatably supported by shafts 7a and 7b.
[0009]
However, in this case, in order for the directional microphone 6 to function as a directional microphone, as shown in FIGS. 15B and 15C, as shown in FIGS. The front side through-hole 8a and the rear side through-hole 8b need to be formed on the surface, and sound waves need to be introduced into the directional microphone 6 through the front side through-hole 8a and the rear side through-hole 8b.
[0010]
However, in this case, when the directivity direction of the directional microphone 6 is set to the front direction of the device indicated by the arrow 9a in FIG. 15B, the rear side through-hole 8b is blocked by the upper front surface 5a of the device body 5. Then, when the sound wave is not introduced from the rear side through-hole 8b and the directivity direction of the directional microphone 6 is set to the upward direction of the device indicated by the arrow 9b in FIG. 5 may be blocked by the upper upper surface 5b, and the sound wave may not be introduced from the rear side through-hole 8b.
[0011]
In view of this, the present invention supports a microphone structure incorporating a directional microphone so that it can be rotated within a certain range by the casing of the apparatus, and changes the directional direction of the directional microphone within a certain range. In this case, sound waves can be reliably introduced into the microphone structure also from the rear side of the directional microphone so that the directional microphone can reliably function as a directional microphone. It is a thing.
[0012]
[Means for Solving the Problems]
The microphone device of the present invention is
A cylindrical microphone structure in which a microphone having directivity is incorporated, and a front-side through hole and a rear-side through hole for introducing sound waves are formed on opposing circumferential surfaces of the directional microphone, and the microphone A housing portion that supports the structure body so that the structure body can be rotated within a certain range, and the housing portion is provided between the housing portion and a surface of the microphone structure body on which the rear-side through-hole is formed. A gap for introducing sound waves that communicates with the outside of the body part is formed.
[0013]
In the microphone device of the present invention configured as described above, the rear side through-hole communicates with the outside of the housing portion through the gap for introducing the sound wave, so that the sound wave can enter the microphone structure from the rear side of the directional microphone. Are surely introduced, and the directional microphone functions as a directional microphone.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
[Outline of IC Recorder as an Example of Audio Recording / Reproducing Device: FIG. 1]
FIG. 1 shows an external configuration of an IC recorder as an example of the audio recording / reproducing apparatus of the present invention, and FIG. 1 (A) shows a front direction in which a directivity direction of a later-described directional microphone is indicated by an arrow 9a of the IC recorder 10. FIG. 1B shows a case where the directional direction of the directional microphone is the upward direction indicated by the arrow 9b of the IC recorder 10. In the following, the direction of the arrow 9a is the 0 degree direction, and the direction of the arrow 9b is the 90 degree direction.
[0015]
The IC recorder 10 includes a front cover 11 and a rear case 12 as a casing, and a microphone device 50 is provided on the top.
[0016]
On the front part of the front cover 11 are a window 13 through which a screen of an LCD (liquid crystal display) faces, a hole 14 through which a sound wave is emitted from a speaker, and an LED (light emitting diode) indicating whether the mode is a recording mode or a reproduction mode Are provided with a window 21 through which the light is emitted, a directional on / off switch 22 for switching on / off of the directional microphone, an erasing button 23, and the like on the right side as viewed from the front of the rear case 12. A metal side plate 15 is attached, and a recording / recording pause button 24, a stop button 25, a menu button 26, a volume adjustment button 27, and the like are provided. An earphone jack 28 and an external microphone jack 29 are provided on the upper surface of the rear case 12. Is provided.
[0017]
The menu button 26 opens a menu on the LCD screen by pressing the center part, or determines a menu item, presses the upper or lower part, or tilts forward or backward to select a menu item. An operation can be performed.
[0018]
As shown below, the microphone device 50 includes a cylindrical microphone structure 60 that is rotatably supported by a support base.
[0019]
[Example of microphone device: FIGS. 2 to 11]
FIG. 2 shows an example of the microphone device 50 shown in FIG. 1 in a state in which each component is disassembled. As shown in the figure, the microphone device 50 is constituted by a microphone structure 60 and a support base 70 as a whole, and the microphone structure 60 includes a directional microphone 61C, a left microphone 61L, a right microphone 61R, a flexible substrate 62, and a front cover 63. , Rubber cushion 64, rear case 65, screw 67, leaf spring 68, and screw 69.
[0020]
The directional microphone 61C is a unidirectional microphone, and the left microphone 61L and the right microphone 61R are omnidirectional microphones, respectively. The left side is the left side when viewed from the rear case 65, and the right side is the right side when viewed from the rear case 65.
[0021]
The directional microphone 61C, the left microphone 61L, and the right microphone 61R are arranged in a row with the directional microphone 61C in the center, mounted on the flexible substrate 62, and mounted in the recesses in which the holes of the rubber cushion 64 are formed. And integrated.
[0022]
The front cover 63 has a semi-cylindrical shape, a semi-columnar support shaft 63a is formed at one end, a semi-circular cutout 63b is formed at the other end, and an outer periphery of a central portion facing the directional microphone 61C. The surface is a fine concavo-convex surface 63c, and the front side through-hole 63C is formed in each of the nine convex portions extending in the center in 3 rows and 3 columns, and is opposed to the one end portion facing the left microphone 61L and the right microphone 61R. Nine through holes 63L and 63R are formed in the other end portion.
[0023]
The rear case 65 also has a semi-cylindrical shape, a semi-columnar support shaft 65a is formed at one end, a semi-annular shaft portion 65b is formed at the other end, and the outer peripheral surface of the central portion facing the directional microphone 61C. The portion other than the central through hole forming surface 66 is a fine uneven surface 65c, and the central through hole forming surface 66 is a flat surface recessed from the convex portion of the uneven surface 65c. Nine side through holes 65C are formed in 3 rows and 3 columns.
[0024]
The front cover 63, the rubber cushion 64, the microphones 61 </ b> C, 61 </ b> L, 61 </ b> R, the flexible substrate 62, and the rear case 65 are tightened to the front cover 63 through the screw holes of the rear case 65, the flexible substrate 62, and the rubber cushion 64. The microphone structure 60 is integrated, and the support shafts 63a and 65a at one end and the shaft portion 65b at the other end are fitted into the support arm 71 at one end of the support base 70 and the support arm 72 at the other end.
[0025]
The leaf spring 68 is attached to the other end of the rear case 65 with a screw 69 in this state, and a semi-annular hole 68d into which the shaft portion 65b of the rear case 65 is inserted is formed. Projections 68a and 68b are formed at peripheral positions facing each other, and a projection 68c is formed at a position near the projection 68b.
[0026]
The support base 70 has support arms 71 and 72, and is formed to have mounting portions 73 and 74 for fixing to the rear case 12 of the IC recorder 10 shown in FIG. The microphone structure 60 is supported by the arms 71 and 72.
[0027]
As shown in FIGS. 3, 4 and 5, the flexible substrate 62 includes a lead portion 62a along the arrangement direction of the microphones 61L, 61C and 61R, a lead portion 62b extending in a direction perpendicular to the lead portion 62a, A lead portion 62c extending in a direction perpendicular to the lead portion 62b (a direction parallel to the lead portion 62a), and a lead portion extending in a direction perpendicular to the lead portion 62c (a direction parallel to the lead portion 62b) The lead part 62b is formed long enough as having 62d and the contact part 62e.
[0028]
Each of the microphones 61L, 61C, 61R has two terminal pins, each terminal pin is connected to a common wiring pattern on the flexible substrate 62, and each other terminal pin is on the flexible substrate 62. It is connected to a separate wiring pattern.
[0029]
When the front cover 63 and the rear case 65 are integrated, as shown in FIG. 3, the lead portion 62a is sandwiched between the support shaft 63a of the front cover 63 and the support shaft 65a of the rear case 65, and the lead portion 62b is wound around the integrated support shafts 63a and 65a by one or more rounds, preferably close to two rounds.
[0030]
Further, as shown in FIGS. 3 and 4, the lead portion 62c is fixed to the support base 70 by a double-sided adhesive tape or the like, and as shown in FIGS. 3 and 5, the lead portion 62d is bent into a semi-cylindrical shape, As shown in FIG. 5, the contact portion 62e is inserted and connected to the connector 17 provided on the circuit board 16 attached to the rear case 12 of the IC recorder 10 shown in FIG.
[0031]
As shown in FIG. 6, the support arm 71 communicates with the center hole 71a having a diameter equal to the diameter of the circumference of the support shafts 63a and 65a integrated with the microphone structure 60, and the center hole 71a. A slit 71b having a width equal to the thickness of the non-circumferential portion of the integrated support shafts 63a and 65a is formed, and the microphone structure 60 has a front through hole 63C in the direction of 0 degrees indicated by an arrow 9a in FIG. The integrated support shafts 63a and 65a are inserted into the center hole 71a through the slit 71b so as to be oriented in the -45 degree direction rotated 45 degrees clockwise as viewed in the direction of the arrow 75L. The same applies to the support arm 72 side.
[0032]
Accordingly, the microphone structure 60 can be rotated about the center of the center hole 71a as the rotation axis, and the direction in which the front side through-hole 63C faces, that is, the directivity direction of the directional microphone 61C is shown in FIG. And it can be turned to the 0 degree direction shown by the arrow 9a as shown in FIG. 1A, or it can be turned to the 90 degree direction shown by the arrow 9b as shown in FIGS. 7B and 1B.
[0033]
Further, in this example, as shown in FIGS. 8 and 9, a semi-annular convex portion 76 is formed on the side surface of the support arm 72, and one end of the convex portion 76 is used as a stop step 77 a, and the support arm 72. A stop convex portion 77 b is formed on the side surface, and three concave portions 78 a, 78 c and 78 b are formed in the convex portion 76. The angles of the recesses 78a and 78c and the angles of the recesses 78c and 78b are 45 degrees, respectively, and therefore the angles of the recesses 78a and 78b are 90 degrees.
[0034]
The recess 78a causes the projecting piece 68a of the leaf spring 68 to collide with the stopping step 77a of the support arm 72 in the counterclockwise direction of the microphone structure 60 in FIG. 9 (as viewed in the direction of arrow 75R in FIG. 3). When the plate spring 68 is rotated to the first rotation position, the protrusion 68c shown in FIG. 2 of the leaf spring 68 is fitted, and at this time, as shown in FIG. 7 (A) and FIG. 1 (A). The directivity direction of the directional microphone 61C is the 0 degree direction.
[0035]
The recess 78b causes the projecting piece 68b of the leaf spring 68 to collide with the stopping projection 77b of the support arm 72 in the clockwise direction in FIG. 9 (as viewed in the direction of the arrow 75R in FIG. 3). When rotated to the second rotational position, the protrusion 68c of the leaf spring 68 is fitted, and at this time, as shown in FIGS. 7B and 1B, the directional microphone 61C The directivity direction is the 90 degree direction.
[0036]
When the microphone structure 60 is rotated to the third rotation position that is exactly between the first rotation position and the second rotation position, the recess 78c is engaged with the protrusion 68c of the leaf spring 68. At this time, the directivity direction of the directional microphone 61C is 45 degrees.
[0037]
That is, in this example, the microphone structure 60 can be rotated 90 degrees between the first rotation position and the second rotation position, and the directivity directions of the directional microphone 61C are set to the 0 degree direction and the 90 degree direction. Can be changed between.
[0038]
In addition, since the center portion of the cylindrical microphone structure 60 is formed with fine uneven surfaces 63c and 65c, the user turns the microphone structure 60 with his / her thumb on the uneven surfaces 63c and 65c. The microphone structure 60 can be rotated reliably and easily without slipping to change the directivity direction of the directional microphone 61C, and the microphone structure 60 has been rotated to the first, third, or second rotation position. In some cases, the projection 68c fits into the recess 78a, 78c or 78b and a click feeling is obtained, so that the user can easily and reliably set the directivity direction of the directional microphone 61C to a desired direction.
[0039]
Further, in the IC recorder 10 shown in FIG. 1, the front cover 11 and the rear case 12 are brought into contact with each other in the right shoulder portion as viewed in the direction of 0 degrees indicated by the arrow 9a as shown in FIG. Since the lead portion 62a of the substrate 62 is sandwiched between the support shafts 63a and 65a and the lead portion 62b is wound around the peripheral surfaces of the support shafts 63a and 65a by one or more turns, the flexible substrate 62 is completely outside the IC recorder 10. Not only the appearance of the apparatus is improved, but the flexible substrate 62 does not get in the way of the microphones 61C, 61L, 61R and the like, and the storage part of the lead part can be minimized.
[0040]
Further, the microphone structure 60 is rotated in the counterclockwise direction in FIG. 9 (as viewed in the direction of the arrow 75R in FIG. 3) toward the first rotation position where the directivity direction of the directional microphone 61C is the 0 degree direction. In this case, the winding portion of the lead portion 62b is loosened, and conversely, the microphone structure 60 is directed toward the second rotational position where the directivity direction of the directional microphone 61C is 90 degrees (FIG. 3). When rotated clockwise (as viewed in the direction of the arrow 75R), the winding portion of the lead portion 62b is tightened, so that loosening or pulling of the lead portion 62b accompanying rotation of the microphone structure 60 is caused by the winding portion. The microphone structure 60 can be rotated without being entangled in the lead portion 62b or being damaged and cut, and the directivity method of the directional microphone 61C is absorbed. It is possible to change the.
[0041]
In FIG. 10, the microphone structure 60 is rotated to the first rotation position as shown in FIG. 1A, and the directivity direction of the directional microphone 61C is set to the 0 degree direction (front direction of the IC recorder 10). The upper surface, upper front surface, and upper rear surface of the IC recorder 10 are shown. The screw 19 integrates the front cover 11 and the rear case 12 of the IC recorder 10.
[0042]
In this case, on the upper back side, a part of the rear side through-hole 65C formed in the through-hole forming surface 66 is exposed to the outside above the rear case 12 (visible from the outside), and the through-hole forming surface 66 and the rear Since the gap 18 is formed between the case 12 and the upper front surface 12a, the rear side through-hole 65C communicates with the outside in the propagation of the sound wave, and the sound wave is introduced from the rear side through-hole 65C into the directional microphone 61C. The directional microphone 61C functions as a unidirectional microphone.
[0043]
In FIG. 11, the microphone structure 60 is rotated to the second rotation position as shown in FIG. 1B, and the directivity direction of the directional microphone 61C is set to 90 degrees (upward direction of the IC recorder 10). The upper surface, upper front surface, and upper rear surface of the IC recorder 10 are shown.
[0044]
In this case, on the upper front side, a part of the rear side through-hole 65C formed in the through-hole forming surface 66 is exposed outside (visible from the outside) above the upper upper edge 11a of the front cover 11, and the through-hole Since a gap is formed between the formation surface 66 and the upper surfaces of the front cover 11 and the rear case 12, the rear side through-hole 65C communicates with the outside in terms of propagation of sound waves, and the directional microphone is connected to the rear side through-hole 65C. A sound wave is introduced into 61C, and the directional microphone 61C functions as a unidirectional microphone.
[0045]
Although not shown in the figure, when the microphone structure 60 is rotated to any rotation position between the first rotation position and the second rotation position, that is, the directivity direction of the directional microphone 61C is set to 0 degree. Similarly, when the direction is between 90 degrees and 90 degrees, the rear side through-hole 65C communicates with the outside, and a sound wave is introduced from the rear side through-hole 65C into the directional microphone 61C. 61C functions as a microphone having unidirectionality.
[0046]
[Function of IC recorder: Fig. 12]
As shown in FIG. 12, the IC recorder 10 of the example shown in FIGS. 1 to 11 includes a CPU 91, and a ROM 93 in which processing programs executed by the CPU 91 and various fixed data are written on the bus 92, A RAM 94 functioning as a work area for the CPU 91 and a flash memory 95 as a built-in memory are connected.
[0047]
An operation unit 96 including the directional on / off switch 22 shown in FIGS. 1, 10 and 11 is connected to the bus 92 through the input interface 97, and the LCD 99 is connected through the display control unit 98. Connected to bus 92.
[0048]
Audio signals from the directional microphone 61C, the left microphone 61L, and the right microphone 61R are amplified by the audio amplifier circuits 81C, 81L, and 81R and supplied to the recording processing unit 82. In the recording processing unit 82, the audio signals from the microphones 61C, 61L, and 61R are converted into digital audio data and compressed under the control of the CPU 91 in accordance with various recording modes described later. The compressed audio data is recorded in the flash memory 95.
[0049]
In the IC recorder 10 of this example, at the time of recording, the user displays a menu screen on the LCD 99 by operating the menu button 26 shown in FIG. 1, and selects either the stereo recording mode or the monaural recording mode as the recording mode. be able to.
[0050]
In the stereo recording mode, regardless of whether the directional on / off switch 22 is turned on or off, the directional microphone 61C does not function, and only the omnidirectional microphones 61L and 61R function. The audio signals from 61L and 61R are phase-shifted, converted into digital audio data as left and right audio signals, compressed, and recorded in the flash memory 95.
[0051]
On the other hand, in the monaural recording mode, either the SP mode capable of high-quality recording or the LP mode capable of long-time recording can be selected on the menu screen, and either the SP mode or the LP mode can be selected. Even in the selection, the directivity mode or the non-directional mode can be selected depending on whether the directivity on / off switch 22 is turned on or off.
[0052]
When the directivity mode is selected by turning on the directivity on / off switch 22 in the SP mode or the LP mode, the omnidirectional microphones 61L and 61R do not function, only the directional microphone 61C functions, and the directional microphone 61C. Is converted into digital audio data as a monaural audio signal depending on whether it is in the SP mode or the LP mode, compressed, and then recorded in the flash memory 95. At this time, as described above, the directivity direction of the directional microphone 61C can be selected.
[0053]
When the directional on / off switch 22 is turned off and the omnidirectional mode is selected in the SP mode or the LP mode, the directional microphone 61C does not function, only the omnidirectional microphones 61L and 61R function, and the microphone 61L and The audio signal from 61R is synthesized as a monaural audio signal, converted into digital audio data depending on whether it is in the SP mode or the LP mode, compressed, and then recorded in the flash memory 95.
[0054]
In any recording mode, the recording level can be switched to one of a low level, a medium level, and a high level by a menu screen.
[0055]
During reproduction, the compressed audio data is read from the flash memory 95 under the control of the CPU 91, and the audio data is expanded by the reproduction processing unit 83 and further converted into an analog audio signal.
[0056]
In this case, for the audio signal recorded in the monaural recording mode, the monaural audio signal is converted by the audio amplifying circuit 84 regardless of whether it is the SP mode or the LP mode, and whether it is the directional mode or the omnidirectional mode. Amplified and supplied to the speaker 85, or amplified by the sound amplifying circuits 86L and 86R, and supplied to the earphone 87 connected to the earphone jack 28 shown in FIGS.
[0057]
On the other hand, with respect to the audio signal recorded in the stereo recording mode, the left and right audio signals are amplified by the audio amplifier circuits 86L and 86R, and the user listens as stereo audio by connecting the earphone 87 to the earphone jack 28. be able to.
[0058]
According to this example, on the one hand, the directional microphone 61C is turned on and the directivity direction is directed to the direction of the sound source, whereby the sound from the sound source can be clearly recorded, and on the other hand, the left and right microphones With 61L and 61R, recording with a sense of reality can be performed.
[0059]
[Other Embodiments]
In the above-described example, the through hole forming surface 66 is a flat surface that is recessed from the convex portion of the concavo-convex surface 65c, thereby forming a gap sufficient to introduce sound waves. A recess may be provided in the rear case upper front surface 12a and the front cover upper upper edge 11a to form a gap sufficient to introduce sound waves.
[0060]
The example described above is a case where the device is configured such that a click feeling is obtained when the microphone structure 60 is rotated to any one of the three rotational positions. However, the microphone structure 60 is rotated at four or more rotational positions. It is also possible to configure the device so that a click feeling is obtained when it is rotated to any one of the positions.
[0061]
In the above-described example, the directional microphone 61C is disposed between the stereo microphones 61L and 61R. However, the directional microphone 61C may be disposed on the left side or the right side. Of course, in that case, the front side through-hole 63C and the rear side through-hole 65C are formed on the left side or the right side.
[0062]
Furthermore, only a directional microphone may be built in the microphone structure as the microphone, and a camera, a light source for illumination, or the like may be provided in the microphone structure in addition to the directional microphone. Furthermore, as the directional microphone, in addition to the unidirectional microphone of the above-described example, a microphone having other directivity such as a bidirectional microphone may be used.
[0063]
Further, the IC recorder may be configured to record audio data on a memory card instead of the built-in memory.
[0064]
Further, the present invention can be applied not only to an IC recorder but also to an audio recording / reproducing apparatus that records audio data on a recording medium such as a magnetic disk, an optical disk, or a magneto-optical disk.
[0065]
Furthermore, the present invention is not limited to a device that records a sound signal from a directional microphone incorporated in a microphone structure, but also to a device that transmits a sound signal from a directional microphone to another device wirelessly or by wire. Can be applied.
[0066]
【The invention's effect】
As described above, according to the present invention, the microphone structure incorporating the directional microphone is supported by the casing of the apparatus so that it can be rotated within a certain range, and the directional direction of the directional microphone is set. When it can be changed within a certain range, sound waves can be reliably introduced into the microphone structure from the rear side of the directional microphone, and the directional microphone functions as a directional microphone. Can be made.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external configuration of an IC recorder as an example of an audio recording / reproducing apparatus of the present invention.
FIG. 2 is an exploded perspective view showing an example of a microphone device of the present invention.
FIG. 3 is a diagram showing a state in which a microphone structure is supported on a support base.
FIG. 4 is a diagram illustrating an example of a flexible substrate.
FIG. 5 is a diagram showing connection of a flexible substrate to a circuit board in the apparatus main body.
FIG. 6 is a view showing a state where a support shaft at one end of a microphone structure is fitted into a support arm.
FIG. 7 is a diagram showing a state of the microphone structure when the directivity direction of the directional microphone is set to a 0 degree direction or a 90 degree direction.
FIG. 8 is a diagram illustrating a holding mechanism and a click mechanism of a microphone structure.
FIG. 9 is a diagram showing a support arm on the other end side of the microphone structure.
FIG. 10 is a diagram showing an upper surface and an upper part of the IC recorder when the directivity direction of the directional microphone is set to the 0 degree direction.
FIG. 11 is a diagram showing an upper surface and an upper part of the IC recorder when the directivity direction of the directional microphone is 90 degrees.
FIG. 12 is a diagram illustrating an example of a functional block configuration of an IC recorder.
FIG. 13 is a diagram showing an example of a conventional IC recorder.
14 is a diagram showing a microphone device described in Patent Document 1. FIG.
FIG. 15 shows a possible microphone device.
[Explanation of symbols]
Since all the main parts are described in the figure, they are omitted here.

Claims (4)

A cylindrical microphone structure in which a microphone having directivity is incorporated, and a front-side through hole and a rear-side through hole for introducing sound waves are formed on opposing circumferential surfaces of the directional microphone, and the microphone A housing portion that supports the structure body so that the structure body can be rotated within a certain range, and the housing portion is provided between the housing portion and a surface of the microphone structure body on which the rear-side through-hole is formed. A microphone device in which a gap for introducing a sound wave that communicates with the outside of a body part is formed. In the microphone device of claim 1,
A microphone device in which the microphone structure includes two omnidirectional microphones in addition to the directional microphone. An audio recording / reproducing apparatus comprising the microphone device according to claim 1. An audio recording / reproducing apparatus comprising the microphone device according to claim 2 and capable of switching between a mode for recording an audio signal from the directional microphone and a mode for recording an audio signal from the two omnidirectional microphones.

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