JPS6337559B2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention is a microphone for a video camera, an interview microphone, which can remove wind noise such as wind noise and pop noise, and pick up a target sound with a good S/N ratio. This invention relates to a microphone suitable for vocal microphones and the like.

Conventional configurations and their problems In general, video camera microphones and interview microphones pick up wind noise caused by wind when used outdoors, and vocal microphones are placed near the mouth. When used in close proximity, there is a problem in that wind noise called pop noise occurs, and the target sound cannot be picked up with a good S/N ratio due to this wind noise. Therefore, in the above-mentioned microphone, a wind screen is provided on the front side of the microphone unit. FIG. 1 shows a conventional microphone. In FIG. 1, a urethane windscreen 3 is provided on the front of a microphone unit 2 housed in a microphone case 1, and a guard net 5 is provided with a metal mesh windscreen 4 lined on the outside. was installed to form a windscreen. However, with this configuration, the ability to remove wind noise is low, and when a person is close to the microphone,
When I uttered this, a wind noise called pop noise was generated. Therefore, in order to prevent these wind noises, it is recommended to further insert urethane foam between the microphone unit 2 and the metal mesh windscreen 4, or to provide another windshield formed of urethane on the outside of the guard net 5. However, when a new wind screen made of urethane foam is installed in this way, it disturbs the microphone's original characteristics such as frontal characteristics and directional characteristics.
It had drawbacks such as deterioration of the human voice and the tendency to cause howling.

Figure 2 shows the directional frequency characteristics of the microphone shown in Figure 1, and Figure 3 shows the conventional microphone shown in Figure 1, with a urethane foam inserted between the metal mesh windscreen 3 and the microphone unit 2. However, the wind noise removal effect has been improved. As is clear from FIG. 3, compared to FIG. 2, the directivity in the 180° direction is degraded, and the frontal characteristics are significantly degraded in the high and low frequencies.

OBJECTS OF THE INVENTION An object of the present invention is to provide a microphone that can prevent wind noise and pick up a target sound with a good S/N ratio without disturbing the original characteristics of the microphone.

Structure of the Invention The microphone of the present invention is provided with a first metal mesh windscreen on the front side of a microphone unit housed in a microphone case at a predetermined distance from the diaphragm surface of the microphone unit. A second metal mesh windscreen is located at a further predetermined distance from the metal mesh windscreen.
It is equipped with a metal mesh windscreen.

DESCRIPTION OF EMBODIMENTS In FIG. 4, reference numeral 11 indicates an embodiment of a microphone. In FIG. 4, 11 is a microphone case, and 12 is a microphone unit. It is supported within the microphone case 11. 14 is a guard net provided at the tip of the microphone case 11, and a metal mesh wind screen 15 is provided on the inner surface.
is lined with a die-cast card 16 at the tip. Reference numeral 17 denotes a guard net connected to the die-cast guard 16, and a first metal mesh windscreen (100 mesh stainless steel) is installed inside the guard net 17 at a distance _l1 from the diaphragm surface 12a of the microphone unit 12. ) 18, and the first
Distance from metal mesh windscreen 18
A _second metal mesh windscreen (stainless steel 120 mesh) 19 is provided apart from l 2 to form a double windscreen. and,
First and second metal mesh windscreens 1
8 and 19 are both configured to be parallel to the vibrating membrane surface 12a. The second metal mesh windscreen 19 is cup-shaped,
A flat first metal mesh windscreen 18 is provided inside the windscreen. Here, the distance L ₁
If the metal mesh windscreens 18 and 19 are configured with the distance l ₂ being 15 mm or more apart and the distance l 2 being 15 mm < l ₂ < 30 mm, it is possible to obtain a wind screen that has extremely low wind noise and does not impair the acoustic characteristics of the microphone.

In Figure 5, the distance l ₁ is fixed at each point between 15 and 35 mm, and the first metal mesh windscreen 18 and the second
Distance between metal mesh windscreens 19
Wind noise was measured by varying l ₂ , l ₂ = 2
It can be seen that wind noise is at its minimum at around cm. 6th
In the figure, the distance l ₂ between the first and second metal mesh windscreens 18 and 19 is fixed at 20 mm, and the distance l ₁ between the diaphragm of the microphone unit 12 and the first metal mesh windscreen 18 is varied. This is a measurement of wind noise. As is clear from Figure 6, the larger the distance l ₁ is, the less wind noise will occur. Here, the first metal mesh windscreen 18 is placed 15 degrees above the vibrating membrane surface.
It can be seen that if the second metal mesh windscreen 19 is configured to have a distance of at least mm and the second metal mesh windscreen 19 satisfies 15mm<l ₂ <30mm, a windscreen with extremely low wind noise can be obtained.

Incidentally, if the first and second metal mesh windscreens 18 and 19 are made round as shown in FIG.
Wind noise removal effect is slightly reduced. This is the second
When the metal mesh windscreen 19 is round, the wind first hits the second metal mesh windscreen 19, but since this wind flows along the curvature, the wind hits the second metal mesh windscreen 19. 19 will be less effective. Therefore, it is advantageous to configure at least the second metal mesh windscreen 19 to be parallel to the diaphragm surface 12a in order to increase the wind noise removal effect.

Wind noise was measured using the configuration shown in Figure 4 with l ₁ = 15 mm and l ₂ = 20 mm. As a result, we obtained a windscreen with approximately 10 dB less wind noise than the aforementioned windscreen in which urethane foam was inserted between the metal mesh windscreen and the microphone unit, and the acoustics when this windscreen was attached. The characteristics are shown in Figure 7. Comparing this with FIG. 2 without a windscreen, it can be seen that no deterioration in characteristics is observed. In other words, by configuring the windscreen as shown in FIG. 4, excellent wind noise can be removed using a coarse metal mesh without deteriorating the acoustic characteristics.

Effects of the Invention As is clear from the above description, according to the microphone of the present invention, a first metal mesh is provided on the front side of the microphone unit and is opposed to the vibrating membrane surface of the microphone unit at a predetermined distance. By providing a windscreen and a second mesh windscreen facing the first metal mesh windscreen at a predetermined distance, the microphone's original directional characteristics can be changed from the acoustic characteristics such as frontal characteristics. Wind noise can be prevented without deteriorating the wind noise.

[Brief explanation of the drawing]

Figure 1 is a configuration diagram of a conventional microphone, Figure 2 is a directional frequency characteristic diagram of the same microphone, and Figure 3 is a directional frequency characteristic diagram when a urethane foam as a windscreen is inserted into the same microphone.
Fig. 4 is a configuration diagram showing an embodiment of the microphone of the present invention, and Fig. 5 shows the distance l ₂ in the same microphone.
FIG. 6 is a curve diagram showing the relationship between the distance l ₁ and the wind noise level for the microphone, and FIG. 7 is a diagram showing the acoustic characteristics of the microphone. 11... Microphone case, 12... Microphone unit, 12a... Vibration membrane, 18, 19
...Metal mesh windscreen.

Claims (1)

[Scope of Claims] 1. A first metal mesh windscreen that faces the front side of a microphone unit housed in a microphone case with a predetermined distance from the diaphragm surface of the microphone unit; A second metal mesh windscreen facing the second metal mesh windscreen at a predetermined distance from the second metal mesh windscreen. 2. The first metal mesh windscreen shall be located at least 15 mm away from the diaphragm surface of the microphone unit, and the second metal mesh windscreen shall be located 15 to 30 mm away from the first metal mesh windscreen. The microphone according to claim 1, characterized in that the microphone is provided at a position. 3. The microphone according to claim 1 or 2, wherein the second metal mesh windscreen is configured to be parallel to the diaphragm surface of the microphone unit.