RU2533932C1 - Microphone - Google Patents

Abstract

FIELD: physics, acoustics.

SUBSTANCE: invention relates to acoustics, particularly microphones. A microphone comprises a hollow housing, a protective grid of a sound pickup, having a diaphragm, a moving coil, a magnetic element and a sound pickup switch. On the inner side of the protective grid there are hollow light-reflecting elements, each being fitted with at least one light-emitting diode capable of emitting white/colour light. The light-emitting diodes are connected by conductors to a unit for converting audio frequencies into optical radiation of the light-emitting diodes and a direct current source, mounted inside the housing. The light-reflecting element has the shape of a truncated cone/hyperboloid/pyramid adjoining the protective grid by the base. Part of the protective grid located opposite the light-reflecting elements has a light-reflecting coating. A light-emitting diode switch is mounted on the housing and an opening is made on the wall of the housing for inserting the plug of a charging device into the terminals of the direct current source. The tail part of the housing has a socket with pins. The invention enables to use a voice with accompanying differently coloured light flux. There is a light-splitting partition wall in the light-reflecting element between the light-emitting diodes.

EFFECT: broader functional capabilities by providing an illumination function.

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Description

The invention relates to hand-held cable and wireless stage microphones, mainly dynamic and condenser for solo vocals.

A well-known microphone containing a hollow body, a protective grille of a pickup having a diaphragm, a voice coil, a magnetic element [1]. In such a microphone, hollow retro-reflective elements with at least one LED capable of emitting white / colored light can be located on the inside of the protective grill.

The objective of the invention is to provide a microphone with a backlight function, which varies depending on the sound frequencies of the voice.

The technical result of the solution of the problem is achieved by the fact that in a microphone containing a hollow body, a protective grille of a pickup having a diaphragm, a voice coil, a magnetic element located on the inside of the protective grill hollow reflective elements with at least one installed in each of them an LED capable of emitting white / colored light, and the LEDs are connected by conductors to the unit for converting sound frequencies into light emissions, the reflective element has a truncated shape Foot at the vertex of the cone / hyperboloid / pyramid base adjacent to the protective lattice. In the reflective element between the LEDs there is a light-separating partition. In the rear of the case there is a connector with pins for transmitting electrical signals of light radiation from the unit for converting sound frequencies to a separate screen.

Figure 1 shows a hand-held stage microphone with a backlight function, variable depending on the sound frequencies of the voice, general view; figure 2-4 depicts reflective elements made respectively in the form of truncated at the apex: cone, front view; hyperboloid, rear view; pyramids, front view.

The microphone (Fig. 1) contains an elongated, round cross-section plastic (metal) body 1 having a cavity 2 surrounded by a wall 3. At the head part 4 of the body is a protective metal grill 5 of a pickup having a high-frequency and / or low-frequency diaphragm 6, a voice coil 7, the magnetic element 8. The protective grill may have a rubber ring 9 surrounding it with faces 10. The hollow reflective abut on the inner side of the protective grill in section 11 between the ring and the edge 12 at the head of the housing lementy 13 mounted in electrical contact with the socket 14, the LEDs 15, capable of emitting white / colored light. The reflective element may have the shape of a cone truncated at the apex (Fig. 2), a hyperboloid (Fig. 3), and a pyramid (Fig. 4). Each reflective element is adjacent with its base (wide part) to the protective grill. To prevent dust from entering the reflective element, a translucent film (not shown) can be installed between it and the protective grill. The number of reflective elements is three or more, for example six. The number of LEDs in one reflective element is one or more, for example four. LEDs can emit, for example, red (α), blue (β), yellow (γ) and background white (δ) streams of light. When the number of LEDs in one reflective element is more than one, a light-separating partition 16 may be located between them. Part 17 of the protective grill, located against the reflective elements, has a reflective coating on the inside and outside. The electrical contact sockets fixed in the reflective elements are connected by conductors 18 to the unit 19 for converting the sound frequencies of the voice into light emitting diodes and a constant current source 20 installed in the body cavity. The unit for converting the sound frequencies of the voice into light emitting diodes of LEDs can be configured to sequentially or parallelly turn on the LEDs and contain, for example, trinistors, filters of sound frequencies: high, medium low, respectively causing blue (β), yellow (γ), red (α ) light emission of LEDs and background white (δ) light emission in the absence of a frequency signal. You can use other parts or their analogues, providing colored light emission of LEDs, such as flickering radiation or otherwise. A battery may be used as a source of direct electric current. In this case, a hole 21 may be made in the housing wall for possible insertion of the plug of the charger (not shown in FIG. 1) to the terminals of the DC source. On the housing there is a pickup switch 22 and a switch of 23 LEDs. In the rear part 24 of the housing there is a built-in transmitter antenna (not shown) and a connector 25 with pins for transmitting electrical signals of light emissions from the unit for converting voice frequencies to a stand-alone stage screen through an amplifier (not shown) via contact node C and a multicore cable.

The manufacturing process of the microphone (figure 1) with the backlight function, which varies depending on the sound frequencies of the voice, consists mainly of the following operations.

1. Make a pickup having a high-frequency and / or low-frequency diaphragm 6, a voice coil 7, a magnetic element 8.

Reflective elements 13 are made, made, for example, in the form of cones truncated at the apex (Fig. 2), or hyperboloids (Fig. 3), or pyramids (Fig. 4) in the amount of six units. LEDs 15 are installed in the electrical contact sockets 14 in the reflective elements, for example, in the amount of four units capable of emitting blue (β), yellow (γ), red (α) and background white (δ) light, respectively. To reduce the effect of radiation from one LED on another, light-separating partitions 16. A pickup and reflective elements are enclosed with a steel protective grill 5, and reflective elements are fixed on the inside of the protective grill in section 11 between the ring and the edge 12. To prevent dust from entering into the reflective element between it and a translucent film (not shown) is mounted with a protective grill. Then, the protective grating is surrounded by a ring 9 with faces 10. A reflective coating (not shown) is applied to part 17 of the protective grating.

2. A hollow plastic casing is made 1. In a cavity 2 bounded by a wall 3 of the casing, a block 19 for converting the sound frequencies of the voice into light from the LEDs and the battery 20 (or another source of direct electric current) is placed. An opening 21 is made in the wall of the housing for introducing a plug of a charger (not shown). The pickup switch 22 and the LED switch 23 are placed on the housing. A transmitter antenna and a connector 25 with pins for connecting the contact node C are placed in the rear part 24 of the housing.

3. Electrical contact sockets with LEDs installed in them are connected (serial or parallel connection) by conductors 18 with a unit for converting the sound frequencies of the voice into light emitting diodes from the LEDs, a battery, and a pin connector located in the body cavity. After that, the protective grille surrounding the pickup and reflective elements with LEDs installed in them are attached to the head part 4 of the housing.

The microphone creates the effect of a simultaneous combination of voice and light coloring of its sound frequencies with light emissions of blue (β), yellow (γ), red (α) and background white (δ) light. Perhaps the light display of the voice on the stage screen, for example, in the form of color spots, stripes, geometric and other shapes.

The invention provides the ability to use voice accompanied by differently colored light fluxes.

Information sources

1. Polytechnical dictionary. Ch. ed. I.I. Artobolevsky. - M .: Soviet Encyclopedia, 1976. - P.291.

Claims (3)

1. A microphone containing a hollow body, a protective grille of a pickup having a diaphragm, a voice coil, a magnetic element located on the inside of the protective grill hollow reflective elements with at least one LED installed in each of them, capable of emitting white / colored light moreover, the LEDs are connected by conductors to the unit for converting sound frequencies into light radiation, characterized in that the reflective element has the shape of a cone / hyperboloid / pyramid truncated at the apex, at lev els base to a protective grille. 2. The microphone according to claim 1, characterized in that a light-separating partition is located between the LEDs in the reflective element. 3. The microphone according to claim 1, characterized in that in the rear of the housing there is a connector with pins for transmitting electrical signals of light radiation from the unit for converting sound frequencies to a separate screen.

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