JP2008288933A - Boundary microphone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent both noise and failure from being generated by extraneous electromagnetic waves and droplet penetration, respectively, with a simple configuration. <P>SOLUTION: In a boundary microphone, there is a microphone case 1 that contains a flat base section 10 having an opened upper surface side and a microphone cover 20 covering the upper surface side of the base section 10 and comprising a plate having a number of openings, and the microphone case 1 stores a microphone unit 31. In this case, an interior cover 40, which is made of fabric that has conductivity and permeability and is subjected to water repellent treatment, is provided over nearly the entire region on the inner surface of the microphone cover 20. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a boundary microphone. More specifically, the present invention relates to a boundary microphone that can suppress noise caused by external electromagnetic waves and has good water resistance.

  Boundary microphones are also called surface mount microphones (surface pickup microphones) because they are installed on desks and floors, for example, in TV studios and conference seats, and their presence does not stand out. Therefore, a flat microphone case with a reduced height is used.

  In other words, the microphone case of the boundary microphone has a microphone cover made of a flat metal base portion whose upper surface is open and a metal plate (punching plate) having a number of openings (sound wave introduction holes) covering the upper surface of the base portion. And a microphone unit is housed therein. Usually, a condenser microphone unit is used.

  By the way, with the recent spread of mobile phones, when communication is performed with the mobile phone placed in the vicinity of the boundary microphone, high-frequency current due to electromagnetic waves generated at that time enters the microphone case, which is in the microphone unit. The noise may be detected by the impedance converter.

  Incidentally, it is known that an electric field reaching several tens of thousands of electric field strength generated in the city by commercial radio waves is generated within a range of several centimeters to several tens of centimeters from a mobile phone.

  Therefore, in Patent Document 1, a gasket made of a conductive cloth having both elasticity and conductivity is interposed between the abutting end surfaces of the base portion and the microphone cover to ensure the shielding of the microphone case, and noise caused by external electromagnetic waves is prevented. It has been proposed to prevent the occurrence.

  As another problem, since drinks are often placed on a desk in a conference hall or the like, a boundary microphone is more likely to be damaged by spilling of the drink than other microphones.

  If the amount of liquid to be bathed is small, there is not much damage. However, if a large amount of liquid is bathed, droplets may enter the microphone case and cause a failure.

  In order to cope with this problem, Patent Document 2 proposes that a pile is implanted by electrostatic flocking over at least the entire outer surface of the microphone cover and that the pile is subjected to a water repellent treatment.

JP-A-2005-333180 JP 2006-101314 A

  In order to prevent both the generation of noise due to external electromagnetic waves and the occurrence of failure due to droplet intrusion, the technique described in Patent Document 1 and the technique described in Patent Document 2 may be applied. It is not preferable because it increases, and electrostatic flocking performed in Patent Document 2 is expensive, and can only be applied to specific expensive boundary microphones.

  Accordingly, an object of the present invention is to provide a boundary microphone capable of preventing both noise generation due to external electromagnetic waves and failure occurrence due to droplet intrusion with a simple configuration.

  In order to solve the above-described problems, the present invention provides a microphone comprising a flat base portion whose upper surface side is open and a plate material having a large number of openings covering the upper surface side of the base portion. In the boundary microphone including a microphone case including a cover and having a microphone unit housed in the microphone case, the microphone cover has air permeability and conductivity and water repellent treatment over almost the entire inner surface of the microphone cover. It is characterized in that an interior cover made of a cloth material is provided.

  As a preferred aspect of the present invention, as described in claim 2, it is preferable that a peripheral edge of the interior cover is extended to a butt end surface of the microphone cover with respect to the base portion.

  According to the present invention, noise can be generated due to external electromagnetic waves by a simple configuration of providing an interior cover made of a cloth material that has air permeability and conductivity and is subjected to water repellent treatment over almost the entire inner surface of the microphone cover. In addition, it is possible to prevent both the occurrence of failure due to the ingress of droplets.

  Further, the shielding performance of the microphone case can be made more reliable by extending the peripheral edge of the interior cover to the abutting end surface of the microphone cover with respect to the base portion.

  Next, an embodiment of the present invention will be described with reference to FIGS. 1 and 2, but the present invention is not limited to this. FIG. 1 is a sectional view showing an example of a boundary microphone according to the present invention, and FIG. 2 is an exploded view of FIG.

  As shown in FIG. 1 and FIG. 2, this boundary microphone includes a flat microphone case 1 with a reduced height so that its presence is not noticeable.

  That is, the microphone case 1 is a metal microphone cover having a flat base portion 10 made of metal with an open upper surface side and a large number of openings (sound wave introduction holes) attached to the base portion 10 so as to cover the upper surface. It consists of 20 two parts.

  Usually, the base portion 10 is formed by casting such as zinc die casting, but other than this, a metal press-molded product may be used. In addition, a punching plate (perforated plate) made of iron or the like is used for the microphone cover 20, but a wire net may be used instead of the punching plate.

  The microphone cover 20 is screwed to the base portion 10 so that it can be removed. In this example, from the viewpoint of appearance (in terms of design), one point fixing is performed by one fixing screw 22 and one boss 11 projecting from the base portion 10 side. In some cases, the microphone cover 20 may be fixed to the base portion 10 by a method other than screwing (for example, fitting means).

  A circuit board 30 and a microphone unit 31 are accommodated in a shield space of the microphone case 1 formed by the base portion 10 and the microphone cover 20. The microphone unit 31 may be stored in a state of being mounted on the circuit board 30, or may be stored separately from the circuit board 30.

  In the case of a boundary microphone, a condenser microphone unit having an impedance converter is usually used for the microphone unit 31. Although not shown, the circuit board 30 is provided with a sound quality adjustment circuit, an audio output circuit, and the like.

  Further, one end of a microphone cord 32 is connected to the circuit board 30, and the other end side of the microphone cord 32 is drawn out from the base portion 10 via a cord bush 33. In the case of wireless, the microphone case 1 is provided with, for example, a light emitting diode as transmission means.

  In the present invention, in order to prevent generation of noise due to external electromagnetic waves radiated from a mobile phone or the like and failure due to intrusion of liquid droplets, the inner surface side of the microphone cover 20 has air permeability and conductivity and water repellent treatment. An interior cover 40 made of a cloth material to which is applied is disposed.

  As a cloth material having air permeability and conductivity, for example, a conductive cloth Sui-78-5050T (product number) manufactured by Seiren Co., Ltd. can be exemplified, and the interior cover 40 is obtained by subjecting this conductive cloth to, for example, fluorine coating treatment. be able to.

  The inner cover 40 is disposed over almost the entire inner surface of the microphone cover 20, but preferably, as shown in FIGS. It is good that it is extended to.

  According to this, the external electromagnetic wave is shielded by the conductivity of the interior cover 40, and the circuit board 30 and the microphone unit 31 are not exposed to the external electromagnetic wave.

  Further, since the peripheral edge 40a of the interior cover 40 is sandwiched between the end face 20a of the microphone cover 20 and the base portion 10, the shielding property of the microphone case 1 is further ensured, and the high-frequency current inside the microphone case 1 due to external electromagnetic waves Intrusion is prevented.

  In addition, since the interior cover 40 has water repellency, even when a droplet is exposed to the boundary microphone, the droplet is not applied to the circuit board 30 and the microphone unit 31.

  Since the present invention only needs to attach the interior cover 40 to the inner surface of the microphone cover 20, the present invention can also be applied to an existing boundary microphone.

Sectional drawing which shows an example of the boundary microphone by this invention. The exploded view of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Microphone case 10 Base part 11 Boss 20 Microphone cover 20a End surface 22 Male screw 30 Circuit board 31 Microphone unit 32 Microphone cord 33 Cord bush
40 Interior cover

Claims (2)

A microphone case including a flat base portion whose upper surface side is open and a microphone cover made of a plate material having a large number of openings covering the upper surface side of the base portion is provided, and the microphone unit is housed in the microphone case. In the boundary microphone,
A boundary microphone comprising an interior cover made of a cloth material that has air permeability and conductivity and has been subjected to water repellent treatment over substantially the entire inner surface of the microphone cover.   The boundary microphone according to claim 1, wherein a peripheral edge of the interior cover is extended to a butting end surface of the microphone cover with respect to the base portion.

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