JP2022018600A - Microphone device, component to be attached to the same, and method - Google Patents

Abstract

To provide a microphone device that prevents droplets of spit emitted when a voice is directed at the microphone device from flying to the side of another person in front of the device, thus making it hard for the other person to be infected with coronavirus, etc.SOLUTION: The microphone device equipped with a plate reflects a sound emitted by a speaker to the microphone device to its own side.SELECTED DRAWING: Figure 1

Description

The present invention relates to a microphone device.

A device that converts an acoustic signal into an electric signal is generally called a microphone (microphone device). Looking at the device in more detail, it is divided into a part where the acoustic signal is converted into a mechanical signal (for example, a diaphragm (diaphragm) and a support which supports the support) and a part where the mechanical signal is converted into an electric signal. Be done. There are various types of microphones in the device (microphone) due to the difference in the acoustic-electric conversion method. For example, pressure microphones such as carbon microphones, condenser (electrostatic) microphones, crystal microphones, ceramic microphones, electrodynamic microphones, and electromagnetic microphones are known. Although there is a difference in the acoustic-electric conversion method, a schematic diagram of the microphone device is shown in FIG. In FIG. 5, 1 is a microphone (microphone device). 2 is an upper case, 3 is a head ring, 4 is a lower case, 5 is a neck ring, 6 is a grip, and 7 is a cable. In the case of a wireless microphone, there is no cable 7. The upper case 2 and the lower case 4 are made of, for example, a net. The upper case 2, the head ring 3, and the lower case 4 form a head case having an oval outer shape. A microphone unit (not shown) is built in this head case. The sound (sound wave) emitted from the mouth is between the nets (for example, metal nets) constituting the head case (upper case 2 and lower case 4) (between the wires constituting the net). ) Enter inside. The sound wave that has entered the head case operates the diaphragm (membrane) of the microphone unit and is converted into an electric signal.

JP2016-134878A JP2020-72386A

It is practiced to go to a karaoke shop with a few friends and sing with a microphone (microphone device: sound picker: sound collector). It is one of the pleasures that several people gather at a karaoke shop and sing.

Today, when the coronavirus is widespread, there is a need to refrain from going to karaoke stores. The reason is that coronavirus patients are occurring at karaoke stores. Coronavirus patients occur at karaoke stores because, when singing at a karaoke store, droplets such as saliva naturally scatter from the mouth to the side of others in front of them. When the singer is infected with the coronavirus, the other person is infected by the coronavirus scattered toward the other person.

The first problem to be solved by the present invention is a technique for suppressing saliva such as droplets emitted when a voice is emitted toward a microphone device from flying to another person on the front side. It is to provide. It will be easily understood that the suppression of saliva flying leads to the difficulty of being infected with the coronavirus.

Singing at a karaoke shop is fun, but for those who are not good at singing, going to a karaoke shop with a friend can be a pain. Therefore, I always hope that those who are not good at singing will be able to sing well.

The second problem to be solved by the present invention is to provide a technique for singing well.

The present invention
A microphone device equipped with a plate body.
The plate body proposes a microphone device that reflects a voice emitted by a person who has the microphone device to its own side.

The present invention
A microphone device equipped with a plate body.
We propose a microphone device in which the plate surface of the plate body intersects with the microphone device.

The present invention
We propose a microphone device including a plate having a surface in a direction intersecting the longitudinal direction (main axis) of the microphone device.

The present invention
It is a microphone device equipped with a plate body.
The plate body proposes a microphone device having a surface in a direction intersecting the longitudinal direction (main axis) of the microphone device.

The present invention
A microphone device including a microphone unit and a case, wherein the microphone unit is built in the case.
The microphone device proposes a microphone device including a plate having a surface in a direction intersecting the longitudinal direction (main axis) of the microphone device.

The present invention
It is a microphone device equipped with a plate body.
The plate body proposes a microphone device having a surface in a direction substantially parallel to the longitudinal direction (main axis) of the microphone device.

The present invention proposes the microphone device, wherein the plate body is attached to a case incorporating the microphone unit of the microphone device.

The present invention proposes the microphone device, wherein the plate body is attached to the case.

The present invention proposes the microphone device, wherein the plate body is attached to the grip of the microphone device.

The present invention is the microphone device, wherein the plate body has a through hole, and the microphone device is connected to the plate body by inserting the microphone device into the through hole. We propose a microphone device.

The present invention is the microphone device, wherein the plate body has a through hole, and by inserting the microphone device into the through hole, the microphone device and the plate body are bonded to each other by frictional bonding. We propose a microphone device.

The present invention proposes the microphone device, which is a microphone device in which a slit is provided in the plate body around the through hole.

The present invention proposes the microphone device, the microphone device in which the slits are radial.

The present invention proposes the microphone device, the microphone device in which the slits are spirally radial.

The present invention proposes the microphone device, which is a plate body having a curved surface.

The present invention proposes the microphone device, wherein the plate body includes a main surface and an intersecting surface, and the intersecting surface intersects the main surface.

The present invention proposes the microphone device having a curved surface as the main surface.

The present invention is the microphone device, wherein the plate body has a substantially arcuate surface portion, a substantially arcuate surface portion having a substantially arcuate shape formed on an edge portion on a side close to the rectangular surface portion, a claw, and the like. A hole for hooking the claw is provided, and the substantially rectangular surface portion and the substantially arcuate surface portion are partially connected, and the claw is the substantially arcuate surface portion (or the substantially rectangular surface portion). The hole is provided in the substantially rectangular surface portion (or the substantially arc-shaped surface portion), and is bent at the boundary between the substantially rectangular surface portion and the substantially arc-shaped surface portion so that the claw is formed in the hole. We propose a microphone device in which the substantially rectangular surface portion becomes a curved surface and the substantially arcuate surface portion becomes an eaves by being inserted and stopped in the above.

The present invention proposes the microphone device, the plate body having a substantially dome-shaped body.

The present invention proposes the microphone device, wherein the plate body is made of a transparent material.

The present invention
It is a part that can be attached to a microphone device.
The part is a plate body
The plate body proposes a component to be attached to a microphone device having a through hole into which the microphone device is inserted and arranged.

The present invention
A component that includes a microphone unit and a case, and the microphone unit is attached to a microphone device built in the case.
The part is a plate body
The plate body proposes a component to be attached to a microphone device having a through hole into which the microphone device is inserted and arranged.

The present invention proposes a component attached to the microphone device, which is attached to the microphone device in which the microphone device is coupled to the plate body by inserting the microphone device into the through hole. do.

The present invention is a component attached to the microphone device, which is attached to the microphone device in which the microphone device is bonded to the plate body by frictional joining between the microphone device and the plate body by inserting the microphone device into the through hole. suggest.

The present invention proposes a component that is attached to the microphone device and is attached to the microphone device in which a slit is provided in the plate body around the through hole.

The present invention proposes a component that is attached to the microphone device and that is attached to the microphone device in which the slit is radial.

The present invention proposes a component that is attached to the microphone device and that is attached to the microphone device in which the slit is spirally radial.

The present invention proposes a component that is attached to the microphone device and is attached to the microphone device in which the plate body is a plate body having a curved surface.

The present invention proposes a component attached to the microphone device, wherein the plate body is a plate body that reflects a voice emitted toward the microphone unit of the microphone device to its own side. do.

The present invention is a component attached to the microphone device, wherein the plate body includes a main surface and an intersecting surface, and the component attached to the microphone device in which the intersecting surface intersects the main surface. suggest.

The present invention proposes a component that is attached to the microphone device and is attached to the microphone device whose main surface has a curved surface.

The present invention is a component to be attached to the microphone device, wherein the plate body has a substantially arcuate surface portion and a substantially arcuate surface portion having a substantially arcuate shape formed on an edge portion on a side close to the rectangular surface portion. , The claw is provided with a hole for hooking the claw, and the substantially rectangular surface portion and the substantially arc-shaped surface portion are partially connected, and the claw is the substantially arc-shaped surface portion (or the above-mentioned abbreviation). The hole is provided in the substantially rectangular surface portion), and the hole is provided in the substantially rectangular surface portion (or the substantially arcuate surface portion), and is bent at the boundary between the substantially rectangular surface portion and the substantially arcuate surface portion. We propose a component that can be attached to a microphone device in which the substantially rectangular surface portion becomes a curved surface and the substantially arcuate surface portion serves as an eaves when the claw is inserted and stopped in the hole.

The present invention proposes a component that is attached to the microphone device and that is attached to the microphone device whose plate body is substantially a dome shape.

The present invention proposes a component to be attached to the microphone device, wherein the plate body is made of a transparent material and is attached to the microphone device.

The present invention
It is a method of suppressing the forward scattering of at least a part of the droplets emitted from the mouth when a voice is emitted toward the microphone device.
We propose a method in which the microphone device is used.

The present invention
It is a method that suppresses the forward scattering of at least a part of the droplets that come out of the mouth when a voice is emitted toward the microphone device, and suppresses the transmission of pathogens to others.
We propose a method in which the microphone device is used.

It ’s a way to be able to sing well,
We propose a method in which the microphone device is used.

A plate is provided on the microphone device. For example, a plate having a surface in a direction intersecting the longitudinal direction (main axis) of the microphone device is provided. Alternatively, a plate having a surface in a direction substantially parallel to the longitudinal direction (main axis) of the microphone device is provided. Therefore, the voice (sound wave) emitted from the mouth of the speaker (speaker: singer) is immediately reflected by the plate. The plate is a microphone device having a surface in a direction intersecting the longitudinal direction (main axis), or a plate having a surface in a direction substantially parallel to the longitudinal direction (main axis). If the speaker (speaker: singer) holds the microphone device differently depending on the presence, the voice (sound wave) emitted toward the microphone unit of the microphone device will be the speaker (speaker: singer) by the plate. Singer) Reflected on his side. This immediately reflected voice (sound wave) reaches its ears without delay.
For example, comparing the wall of a room singing with a microphone device to the board, [(distance between the board and one's ears) <(distance between the wall and one's ears). )] Is established. Therefore, rather than the sound reflected by the wall and reaching the ears of the speaker (speaker: singer), the sound reflected by the plate and reaching the ears of the speaker (speaker: singer). Sounds faster. Moreover, the sound reflected from the wall and reaching the ears of the speaker (speaker: singer) has a large attenuation due to the longer distance. The sound reflected from the plate and reaching the ears of the speaker (speaker: singer) has less attenuation due to the shorter distance. Therefore, the sound reflected from the plate and reaching the ears of the speaker (speaker: singer) can be recognized loudly and quickly.
By the way, the speaker (speaker: singer) himself / herself also recognizes the voice (sound) signal transmitted by himself / herself that is transmitted through his / her body. A person who is not very good at singing usually reflects the voice (sound) signal transmitted through the body of the speaker (speaker: singer) at the wall and reaches his / her ear. I recognize it bigger than.
Those around us are listening to the direct sound emitted by the speaker (speaker: singer) and the reflected sound reflected by the wall. Those around us do not hear the voice (sound) signal transmitted through the body of the speaker. Naturally. That is, the listeners in the surroundings are listening to the reflected sound. If this reflected sound has the correct pitch and melody, it means that it is sung well.
A person who is said to be good at singing listens to the reflected sound rather than the voice (sound) signal emitted by the speaker (speaker: singer) that is transmitted through the body of the speaker and sings (singing). Is in control. On the other hand, a so-called tone deaf person listens to and controls a voice (sound) signal transmitted through his / her own body. In other words, a person called tone deafness controls the song (singing style) by listening to a sound different from the sound heard by those around him.
Therefore, in order to sing correctly, it is necessary to be trained to listen to the reflected sound.
Now, if the microphone device of the present invention is used, the sound (voice) emitted by the speaker (speaker: singer) itself is reflected by the plate body which is close to itself, and therefore the reflected sound. (Voice) can be heard quickly and loudly. Therefore, the speaker (speaker: singer) can recognize the reflected sound without losing to the voice (sound) signal emitted by himself / herself transmitted through his / her body. Since the speaker (speaker: singer) recognizes the same sound (voice) as the sound (voice) that the surrounding people are listening to, the control to sing the song comes to be performed correctly, and the song becomes singing. improve.

When the microphone device of the present invention is used, saliva such as droplets emitted when a voice is uttered toward the microphone device is suppressed (for example, prevented) from flying forward by the plate body. In other words, saliva from the mouth of the speaker (speaker: singer) is effectively suppressed from reaching others on the front side. It is very unpleasant when the spit of another person flies to the face. It will be understood that when the microphone device is used, it is difficult to feel such disgust.

In the recent coronavirus turmoil, there are concerns about droplet infection. This applies not only to coronaviruses, but also to influenza and colds. Therefore, it is required to refrain from singing at karaoke shops. Especially today, when there is concern about coronavirus infection, it is required to refrain from operating karaoke stores.
By the way, when the microphone device of the present invention is used, saliva such as droplets generated when a voice is uttered toward the microphone device is suppressed (for example, prevented) from flying forward by the plate body. To. The saliva from the mouth of the speaker (speaker: singer) is suppressed (for example, prevented) from reaching others on the front side. Therefore, infection with viruses such as coronavirus and influenza virus and other pathogens present in the saliva of the speaker is effectively suppressed (for example, prevention).

The plate body is provided in the microphone device. The speaker (speaker: singer) is holding a microphone device (for example, a grip). Moreover, the speaker (speaker: singer) sings with the part with the built-in microphone unit close to his mouth. When the microphone device is provided with the plate body, even if the area of the plate body is small, saliva such as droplets emitted when the plate body emits a voice toward the microphone device moves forward. Flying is suppressed. Since the droplets that come out of the mouth diffuse, the farther from the mouth, the larger the plate that blocks it. From this point of view, it is convenient if the plate body is attached to the microphone device because the area of the plate body can be small.

Side view of the microphone device according to the present invention Development view of the component (plate body) according to the present invention Perspective view of the component (plate body) according to the present invention Side view of another example microphone device according to the present invention Side view of a conventional microphone device

The first invention is a microphone device. The microphone device includes a microphone unit. The microphone unit is a device that converts an acoustic signal into a mechanical signal. The microphone unit is generally provided with a diaphragm (diaphragm). The microphone unit generally includes a support that supports the diaphragm. The microphone unit may include not only a device for converting an acoustic signal into a mechanical signal but also a device for converting a mechanical signal into an electric signal. Of course, each of the above devices may be arranged in the vicinity or far away. The microphone device includes a case. A device for converting an acoustic signal into a mechanical signal (the microphone unit) is built in the case. The device for converting a mechanical signal into an electric signal is not built in the case, and may be arranged in another part. The acoustic signal is converted into a mechanical signal by the microphone unit built in the case. Therefore, the case must have a through hole so that the voice (sound wave) can enter the case. When the case is made of a net (for example, a wire net or a resin net), the gap between the wires constituting the net becomes the through hole. Since it is a net, voice (sound wave) can enter the case. Of course, it may be a type in which a large number of through holes are provided in a case formed of a resin or other material into a desired shape. The case may have a structure in which the inside and the outside communicate with each other. The shape of the case is not particularly limited. In the case of a handheld microphone, the case is often, for example, an egg shape, a cylindrical shape, or a cylindrical shape having a bulging central portion. Some are square cylinders. Generally, the case is the tip side case body (upper case: case half body: case part body: the case body on the side close to the mouth of the user (speaker or singer)) and the base end side case body. (Lower case: Case half body: Case remaining body: Case body on the side far from the mouth of the user (speaker or singer)) is often connected by a ring body (for example, a central ring body). Of course, the case may be an integrated type instead of a type in which the halves are connected to each other. The microphone device of the present invention comprises a plate body. The plate body is a plate body extending in a direction intersecting the longitudinal direction of the microphone device. Alternatively, the plate body is a plate body extending in a direction substantially parallel to the longitudinal direction of the microphone device. The holding method (orientation) of the microphone device can be changed depending on whether the plate body is in a direction intersecting the longitudinal direction or has a surface in a direction substantially parallel to the plate body. The plate body is attached to the case, for example. The mounting position of the plate body does not have to be the case position. For example, the grip of the microphone device may be used. The plate is preferably attached to the case. This is because it is closer to the mouth of the user (speaker or singer) when it is attached to the case than when it is attached to the grip. The plate body reflects the sound (voice) emitted from the mouth of the user (speaker or singer). In this sense, the plate is a reflector (reflector). The plate body is not limited to a two-dimensional plane. It also includes those with three-dimensional three-dimensional structures. The plate body prevents droplets from the mouth of the user (speaker or singer) from flying forward. In this sense, the plate is a shield (shield). The shield (shielding plate) reflects the droplets before they are widely diffused forward. The diffusion of droplets to the front side is suppressed. The plate body may be a removable (free) type or a fixed type. However, it is preferable to have a detachable structure in which the plate body can be attached to the microphone device later.

The plate body is preferably made of resin. Of course, the material is not limited to resin, and may be made of a lightweight metal material such as Al or Mg. However, in the case of a handheld microphone device, a resin product may be preferable from the viewpoint of light weight. Moreover, if it is a resin, a transparent resin can be used. If you cannot see the front side of the microphone (the side far from the user (speaker or singer)'s mouth with the microphone unit as the boundary) when you are speaking into the microphone, you still feel a sense of discomfort. Therefore, it is preferable that it is made of a transparent material. Inorganic glass is also available as a transparent material, but it is easily damaged. Therefore, it may be preferable that it is made of a transparent organic resin.

The plate body is provided in the microphone device. In order to attach the plate to the case or the grip, in particular, in order to attach the plate to the microphone afterwards, it is preferable that the plate has a hole (through hole). If the plate body is provided with a hole having almost the same internal shape in the outer shape of the case (or grip), the case (or grip) is simply fitted into the hole of the plate body, and the plate body is the microphone device. Attached to. By inserting the microphone device into the through hole, the microphone device and the plate body are joined to each other. Both are firmly connected (integrated) by frictional joining between the microphone device and the plate body.

A slit is provided in the plate body around the through hole. In particular, a plurality of (two or more, for example, four) slits are provided at substantially equal intervals. The direction of the slit may be the radial (radial) direction when the hole is circular, but is preferably spiral radial. When a plurality of spiral radial slits are formed and the diameter of the through hole is slightly smaller than the diameter of the case (or grip), the plate body is the microphone even without a special jig. It is firmly fixed to the device.

In order to efficiently reflect the voice (sound wave) emitted by the plate body to its own side, and to effectively prevent the droplets ejected from its own mouth from scattering to the front side of the microphone. Therefore, it is preferable that the surface of the plate body (particularly, the main surface of the plate body) is a curved surface. For example, it is preferable that it is curved in the left-right direction. For example, when the case (microphone unit) of the microphone device to which the plate body is mounted is brought close to its own face (mouth), the surface of the plate body (particularly, the main surface of the plate body) is its own face. It is preferable that the surface is curved along the above. Of course, since the shape of the face differs from person to person, it is only necessary that the curved surface be substantially curved. It is only necessary that the curvature is along the face. That is, the curvature of the plate body attached to the microphone device is a curvature in which the central portion side of the plate body protrudes forward. The curvature may be an arc shape or an elliptical arc shape.

The size of the plate is appropriately determined. However, if it is too small, for example, the effect of suppressing splash scattering will be small. Conversely, if it is too large, it will be difficult to handle the microphone. From such a viewpoint, the size in a plan view when the plate is projected onto a plane will have the following dimensions. For example, the length in the left-right direction is about 10 to 40 cm (more preferably 15 cm or more, more preferably 30 cm or less), and the length in the vertical direction is 5 to 40 cm (more preferably 10 cm or more, more preferably 20 cm or less). .) It will be about.

It is preferable that the plate body has an intersecting surface. The intersecting surface is a surface that intersects with the main surface of the plate body. The main surface is a surface that reflects the sound (voice) emitted from the mouth of the user (speaker or singer). The intersection is like an eaves. For example, if there is an intersection such as an eaves along the upper end edge of the main surface of the plate, the droplets from the mouth of the user (speaker or singer) get over the plate and scatter forward. Going is restrained. If the main surface of the plate is curved, the droplets from the mouth of the user (speaker or singer) will be guided along the curve, so that the scattering to the front side is suppressed. To.

As described above, the plate body may be a two-dimensional plane or a three-dimensional three-dimensional object. Strictly speaking, the shape in which the flat plate is bent into a curved shape is a three-dimensional shape. However, here, the three-dimensional three-dimensional shape is a shape such as a dome shape. In the present specification, the substantially dome shape includes a dome shape, a substantially hemispherical shape, a substantially 1/4 spherical shape, a substantially semi-elliptical shape, and a substantially 1/4 elliptical shape. The size of the large opening having a substantially dome shape has a radius of about 5 to 20 cm, and the length in the direction perpendicular to the large opening surface of the substantially dome shape is about 2 to 10 cm. The method of attaching the substantially dome-shaped body to the microphone device is such that the large opening surface of the substantially dome-shaped body faces the mouth of the user (speaker or singer). When such a substantially dome-shaped body is attached to the microphone device, droplets emitted from the mouth of the user (speaker or singer) enter the inside of the substantially dome-shaped body and scatter in front of the presence of others. It is suppressed to go.

As described above, the plate body generally has a surface in a direction intersecting the longitudinal direction of the microphone device. However, depending on how the microphone device is held, a type in which a plate body is provided on the side of the microphone device may be used. For example, when the grip of the microphone device is held upright, the surface (reflective surface: guide surface) is located on the opposite side of the microphone unit of the microphone device from the user (speaker: singer) of the microphone device. ), The voice (sound) or droplets emitted from the mouth of the user (speaker: singer) are reflected (guided) to their own side. For example, it is a convex plate before bending, and it is a plate body having a substantially L-shaped cross section which is bent and has a horizontal plane portion and a vertical plane portion, and the horizontal plane portion has a grip (or a microphone) of the microphone device. A plate body having a through hole into which a unit (case containing a unit) is inserted and hooked may be used. In this case, the vertical surface portion becomes a reflective surface. The vertical surface portion may be curved so as to surround the microphone device.

The second invention is a component attached to a microphone device. The component is the plate body. The plate body is provided with a through hole. The presence of the through hole allows the plate to be attached to the microphone device. The shape and material of the plate are described above. Details here are omitted.

The third invention is a method. The method is a method for suppressing droplet infection. The method is a method in which the microphone device is used. The above-mentioned method is a method in which when a voice is uttered toward a microphone device, at least a part of the droplets emitted from the mouth are suppressed from being scattered forward and infection to another person is suppressed. In the above method, the vicinity of the microphone unit of the microphone device (or the side opposite to the user (speaker: singer) of the microphone device on the front side (the other side: the microphone unit as a boundary) from the microphone unit). A microphone device provided with a plate on (far side)) is used. The plate may be the above-mentioned plate. When the microphone device is used, when a voice is uttered toward the microphone device. At least a part of the droplets scattered from the mouth is suppressed from flying to the front side of the microphone device (the side opposite to the user (speaker: singer) of the microphone device: the other side with the microphone device as the boundary). (For example, it is blocked). If the user (speaker: song) is a carrier of a virus such as corona virus or influenza, there is a high probability that the virus is contained in the droplet. Such a virus. If the droplets containing the microphone come flying, there is a high risk of being infected with the virus. If the droplets do not fly, it will be suppressed from infecting others in the front side. If the plate is not attached to the microphone device, the plate is attached to the position of the microphone device prior to making a voice using the microphone device, after which the microphone device is used. ..

The fourth invention is a method. The method is a method for suppressing splashing. The method is a method in which the microphone device is used. The method is a method in which at least a part of the droplets emitted from the mouth are suppressed from being scattered forward when a voice is emitted toward the microphone device. In the above method, at least a part of the droplets emitted from the mouth when a voice is emitted toward the microphone device is in the vicinity of the microphone unit of the microphone device or in front of the microphone unit (the other side: the microphone unit). A microphone device is used in which a plate is provided on the opposite side (far side) of the person who is speaking toward the microphone device. The plate body may be the above-mentioned plate body. When this microphone device is used, at least a part of the droplets scattered from the mouth when a voice is emitted toward the microphone device is on the front side of the microphone device (the user of the microphone device with the microphone device as a boundary). Flying to the opposite side (speaker: singer) to the other side) is suppressed (for example, blocked). It becomes difficult for spit to fly to the other person on the front side. If the plate is not attached to the microphone device, the plate is attached to the position of the microphone device prior to making a voice using the microphone device. After this, the microphone device is used.

The fifth invention is a method. The above method is a method to be able to sing well. The method is a method in which the microphone device is used. If the plate is not attached to the microphone device, the plate is attached to the position of the microphone device. After this, the microphone device is used. And it is sung.

Hereinafter, the present invention will be described with reference to specific examples. The present invention is not limited to the following examples.

FIG. 1 is a side view of a microphone device that is an example of the present invention (the portion of the component (plate) according to the present invention is shown by an end face cut by a vertical plane), and FIG. 2 is a component (plate) according to the present invention. FIG. 3 is a development view as an example, and FIG. 3 is a perspective view of a component (plate body) as an example of the present invention.

In FIG. 1, reference numeral 1 is a microphone (microphone device). 2 is the upper case (the half of the case near the mouth of the user (speaker: singer): the upper side when the grip of the microphone is turned up and down), 3 is the head ring (center ring), 4 Is the lower case (the case half body on the side far from the mouth of the user (speaker: singer): the lower side when the grip of the microphone is turned up and down), 5 is the neck ring, and 6 is the grip. .. The longitudinal direction (major axis direction) of the grip 6 will generally be the longitudinal direction of the microphone (microphone device) 1. As can be seen from FIG. 1, the upper case 2 and the lower case 4 are made of a net. The upper case 2 and the lower case 4 are connected by a head ring 3. The head case in which the upper case 2 and the lower case 4 are integrally connected by the head ring 3 has an oval outer shape (a substantially cylindrical shape with a bulging inner side) or a substantially spherical shape. A microphone unit (not shown) is built in the head case. The sound (sound wave) emitted from the mouth enters the inside from between the wire rods of the net constituting the head case (upper case 2). The sound wave that has entered the head case operates the diaphragm (membrane) of the microphone unit and is converted into an electric signal. Since the structure of the microphone is well known, further details will be omitted.

Reference numeral 8 is a transparent synthetic resin plate. In the expanded state (see FIG. 2), the plate body 8 has a substantially rectangular shape (in FIG. 2, the side (one side) in the left-right direction has a length of 22 cm and the side in the vertical direction (the side orthogonal to the one side). A surface portion 9 having a substantially arc shape (in FIG. 2, a substantially arc shape having a side length of 20 cm in the left-right direction and a length of 2 cm in the vertical direction in FIG. 2) is provided. As can be seen from FIG. 2, the substantially arcuate surface portion 10 has a substantially arcuate shape formed on the edge portion on the side close to the substantially rectangular surface portion 9. The substantially rectangular surface portion 9 and the substantially arcuate surface portion 10 are partially connected to each other. A hole (circular hole) 11 is provided at the center of the substantially rectangular surface portion 9. The inner diameter of the circular hole 11 is slightly smaller than the outer diameter of the head ring 3. A plurality of (for example, four) slits 12 are formed in the peripheral portion of the circular hole 11. The four slits 12 are provided at equal intervals. The four slits 12 are spirally radial. When the head ring 3 is inserted into the circular hole 11, the plate body is formed because the spiral radial slit 12 is formed and the inner diameter of the circular hole 11 is slightly smaller than the outer diameter of the head ring 3. The 8 (substantially rectangular surface portion 9) is firmly attached to the head ring 3. The head ring 3 originally has no through hole. Therefore, the plate body 8 does not block the through holes (communication holes) in the head case (upper case 2 and lower case 4). When the plate 8 is attached to the head ring 3, sound waves are not obstructed from entering the head case. The substantially rectangular surface portion 9 of the plate body 8 is held so as to be substantially perpendicular to the central axis of the grip 6. The substantially rectangular surface portion 9 is provided with a rectangular opening 13. A convex portion 14 is provided on the substantially arcuate surface portion 10 (edge of the substantially arcuate shape). When the convex portion 14 is bent, it becomes a claw for hooking. A relatively hard resin sheet having a predetermined thickness is punched into the above shape, that is, the shape shown in FIG. 2, by press molding. It is bent at the boundary between the substantially rectangular surface portion 9 and the substantially arcuate surface portion 10. The convex portion 14 is inserted into the opening 13 and bent to obtain the shape shown in FIGS. 1 and 3. That is, the flat substantially rectangular surface portion 9 becomes a curved surface (the end surface when cut in a horizontal plane is a curved surface), and the substantially arc-shaped surface portion 10 becomes an eaves.

When the head ring 3 of the microphone (microphone device) is inserted into the circular hole 11 of the bent plate body 8 as shown in FIG. 3, the microphone device 1 as shown in FIG. 1 is easily completed. When a microphone device having this shape (structure) is used, the plate body 8 suppresses (prevents) droplets (saliva) from the user (speaker: singer) of the microphone device from flying forward. Will be done. Splashes scattered from his mouth are efficiently bounced off his side. It is difficult for the droplets scattered from one's mouth to fly to others on the front side (the grip 6 side of the microphone 1). The voice (sound) of the user (speaker: singer) of the microphone device 1 is efficiently reflected on its own side.

FIG. 4 is a side view of a microphone device which is another example of the present invention.
In this example, the plate body 18 is a plate body having a substantially L-shaped cross section in the vertical plane direction (the grip axis direction of the microphone device). The vertical surface portion 19 of the plate body 18 having a substantially L-shaped cross section functions as a reflector. A through hole slightly smaller than the outer shape of the grip 6 (neck ring 5) of the microphone device is formed in the horizontal surface portion 20 of the plate having a substantially L-shaped cross section. When the microphone device 1 is inserted into this hole and hooked, the plate body 18 is attached to the microphone device 1. The vertical surface portion 19 is curved in a substantially arc shape so as to surround the microphone devices (cases 2 and 4) (the cross section in the horizontal plane direction orthogonal to the grip axis direction is curved in a substantially arc shape). The vertical surface portion 19 may be inclined with respect to the horizontal surface portion 20 at an angle such as 85 °. Those having the same reference numerals as the reference numerals in FIG. 4 and the reference numerals in FIG. 1 are the same.

1 Microphone (microphone device)
2 Upper case (half case)
3 Head ring (center ring)
4 Lower case (half case)
6 Grip 8 Plate 9 Approximately rectangular surface (main surface)
10 Approximately arc-shaped surface portion 11 Circular hole (through hole)
12 Slit 13 Opening (hole)
14 Convex part (nail)
18 Plate 19 Vertical surface 20 Horizontal surface

Claims (20)

A microphone device equipped with a plate body.
The plate body is a microphone device that reflects the sound emitted by the sounder with respect to the microphone device to its own side. It is a microphone device equipped with a plate body.
The plate body is a microphone device having a surface in a direction intersecting the longitudinal direction of the microphone device. It is a microphone device equipped with a plate body.
The plate body is a microphone device having a surface in a direction substantially parallel to the longitudinal direction of the microphone device. The microphone device according to any one of claims 1 to 3, wherein the plate body is attached to a case incorporating the microphone unit of the microphone device. The microphone device according to any one of claims 1 to 3, wherein the plate body is attached to a grip of the microphone device. The plate body has a through hole and has a through hole.
The microphone device according to any one of claims 1 to 5, wherein the microphone device is coupled to the plate body by inserting the microphone device into the through hole. The microphone device according to claim 6, wherein a slit is provided in the plate body around the through hole. The microphone device according to claim 7, wherein the slits are spirally radial. The microphone device according to any one of claims 1 to 8, wherein the plate body has a curved surface. The plate body includes a main surface and an intersecting surface, and the plate body has a main surface and an intersecting surface.
The microphone device according to any one of claims 1 to 9, wherein the intersecting surface intersects with the main surface. The plate body
Approximately rectangular surface part and
A substantially arcuate surface portion having a substantially arcuate shape formed on the edge portion on the side close to the rectangular surface portion, and a substantially arcuate surface portion.
With nails,
It is provided with a hole for hooking the claw.
The substantially rectangular surface portion and the substantially arcuate surface portion are partially connected to each other.
The claw is provided on the substantially arcuate surface portion (or the substantially rectangular surface portion).
The hole is provided in the substantially rectangular surface portion (or the substantially arcuate surface portion).
By bending at the boundary between the substantially rectangular surface portion and the substantially arcuate surface portion and inserting and hooking the claw into the hole, the substantially rectangular surface portion becomes a curved surface and the substantially arcuate surface portion becomes an eaves. The microphone device according to any one of claims 1 to 10. The microphone device according to any one of claims 1 to 9, wherein the plate body has a substantially dome shape. It is a part that can be attached to a microphone device.
The part is a plate body
The plate body is a component attached to a microphone device having a through hole into which the microphone device is inserted and arranged. A component to be attached to the microphone device according to claim 13, wherein a slit is provided in the plate body around the through hole. A component attached to the microphone device of claim 14, wherein the slit is spirally radial. The plate body includes a main surface and an intersecting surface, and the plate body has a main surface and an intersecting surface.
A component to be attached to the microphone device according to claim 13, wherein the intersecting surface intersects the main surface. A component to be attached to the microphone device according to any one of claims 13 to 15, wherein the plate body has a substantially dome shape. It is a method of suppressing the forward scattering of at least a part of the droplets emitted from the mouth when a voice is emitted toward the microphone device.
A method in which the microphone device according to any one of claims 1 to 12 is used. It is a method that suppresses the forward scattering of at least a part of the droplets that come out of the mouth when a voice is emitted toward the microphone device, and suppresses the transmission of pathogens to others.
A method in which the microphone device according to any one of claims 1 to 12 is used. It ’s a way to be able to sing well,
A method in which the microphone device according to any one of claims 1 to 12 is used.

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