UA23109U - Optical sound receiver - Google Patents

Abstract

Optical sound receiver that consists of body, luminodiode and indicators of string frequency of vibration. As indicator of string frequency of vibration one uses optical fiber and photoresistor.

Description

Description of the invention

The utility model refers to stringed musical instruments and instruments, in particular electric guitars.

A famous sound-recording installation | Children's encyclopedia. 7.14. Technique / Chief. ed. M.D. Aksenova. - M.:

Avantatk, 1999. - 688c, P.480.), which contains: a case, a circuit for converting electromagnetic oscillations, string vibration frequency sensors containing induction coils and ferromagnetic rods.

The strings, which are attached to the neck on one side and to the fret on the other, are parallel to each other. Under each string are induction coils with ferromagnetic rods installed in them. A ferromagnetic rod is installed in each coil 710 and together they make up a string vibration sensor. The number of sensors depends on the number of strings in the musical instrument (one sensor per string). String vibration sensors are located under the strings and are on the same line, perpendicular to the strings. Ferromagnetic rods are located in coils in such a way that when the string vibrates, its magnetic permeability changes. All string vibration sensors are connected in series and form a system of string vibration sensors. The circuit for converting 19 electromagnetic vibrations is located inside the body of the musical instrument and is connected to the string vibration sensor system.

The installation works as follows: when the string is removed from the equilibrium position, the magnetic permeability of the ferromagnetic rod changes, which leads to a change in the inductance of the coil. Due to this, the magnetic flux in the string vibration sensor changes, and electromagnetic oscillations occur in the electric circuit.

Electromagnetic oscillations are converted by the electromagnetic oscillation conversion scheme.

The disadvantages of this solution are: - mandatory use of strings made of ferromagnetic material.

Signs common to the declared decision are the presence of: - a body; 29 - string vibration frequency sensors. -at

The closest in terms of technical essence is an optical sound pickup (Application of the Russian Federation Mo2005141043/22 prior. 27.12.2005 "Optical sound pickup"), which contains: a housing, string vibration frequency sensors, which are reflective optocouplers, each of which consists of an LED and a phototransistor.

The strings, which are attached to the neck on one side and to the fret on the other, are parallel to each other. Each o-reflective optocoupler is mounted inside the body of the guitar below the strings so that the string crosses the flow. "From light, formed by an LED. The reflective optocoupler also includes a phototransistor located together with the LED in the reflective optocoupler housing. All reflective optocouplers are connected in parallel to each other - into a system of string vibration frequency sensors. co

The optical pickup works as follows: the light flux is created by an LED. When the string 32 vibrates, the light flux that falls on it is reflected by the string. This light flux falls on the phototransistor. Due to this, the resistance in the phototransistor circuit changes, which leads to the occurrence of electrical oscillations in the phototransistor circuit with a frequency equal to the frequency of the string oscillations.

The disadvantages of this solution are: "- mandatory use of only metal strings; With 50 - the complexity of the design. c Signs common to the declared solution are the presence of: c" - corpus; - LED; - string vibration frequency sensors.

The basis of a useful model is the task of developing an optical sound pickup, which, by using a light guide and a photoresistor as a sensor of the frequency of string oscillations, allows using strings made of different materials, not just metal, as well as simplifying its design.

Essential features of a useful model are the presence of: t - body; aw! 20 - LED; - string vibration frequency sensors containing photoresistors located above and light guides located under the corresponding strings, and the photoresistors are connected to each other, and each light guide is connected to an LED.

What differs from the prototype is the use of a photoresistor, located 52 above, and a light guide located below the corresponding string as a sensor of the frequency of oscillations of the string, and the photoresistors are connected to each other, and each light guide is connected to an LED.

This design allows you to use strings made of different materials, not just metal.

Figure 1 shows a cross-section of an optical pickup.

The optical pickup contains: housing 1, photoresistors 2, light guides 3, LED 4. 60 Strings of a musical instrument, which are attached to the neck on one side and on the fretboard on the other, are parallel to each other. The LED 4 is located inside the hollow body 1, on one of its walls. Light guides C are connected to LED 4 in such a way that part of the light flux always reaches the core of the light guide

C. The other end of the light guide C is brought out of the housing 1 in such a way that it emits light under the corresponding string. Photoresistor 2 is placed above, and light guide C is placed under the string of a musical instrument, and together they are a sensor of string vibrations. All photoresistors 2 are connected together.

The optical pickup works as follows: in the operating state, the light flux from the LED 4 is supplied to each string using light guides 3. The oscillations of the strings cause a periodic change in the light flux that falls on the photoresistors 2, which leads to the occurrence of electrical oscillations with frequency in the circuit of each photoresistor 2 , which is equal to the string's vibration frequency.

An example of a specific implementation.

The optical pickup consists of: - a hollow body made of plywood; - LED AL 107 B; 70 - string vibration frequency sensors containing: photoresistors AL 107 B, located above, and light guides, which are optical fibers, located under the corresponding strings, and the photoresistors are connected to each other, and each light guide is connected to an LED;

This solution allows you to use strings made of different materials, not just metal, and to simplify the design of the optical pickup.

Claims (1)

The formula of the invention is an optical sound pickup consisting of a housing, an LED and string vibration frequency sensors, which is characterized by the fact that a light guide and a photoresistor are used as a string vibration sensor, each of the photoresistors is located above and each light guide is below the corresponding string, and the photoresistors are connected between itself, and each light guide is connected to an LED. that 2 (o) "c) "- (ze) p - and? ime) (95) - («c) iChe) 60 b5