SU1187815A1 - Antinoise earphones - Google Patents

Abstract

ANTI-SILENT EARPERS, each of which contains a hollow body with a sound absorber placed in it and a protector installed in the housing face, characterized in that, in order to attenuate noise more intensively over the entire frequency range, the sound absorber is made as located on the inner side of the outer wall of the housing parallel layers, the wave impedance of each of which decreases in the direction of the ear, and the inner wall of the case is made of a material with a high characteristic impedance and has vibrations (O absorbent coating, with a gap between the sound absorber and the inner wall of the housing).

Description

1 The invention relates to safety engineering, in particular, to devices for individual hearing organs of a person from the harmful effects of increased level noise. The aim of the invention is to provide a more intense attenuation of noise in the entire range often. The drawing shows an earpiece, a slit. Each anti-noise earphone includes a housing 1 with an outer wall attached to the headband 2. A sound absorber is located inside the housing, complete in the form of parallel layers 3,4 and 5. The inner wall 6 facing the ear serves as a membrane and has a vibration-absorbing coating 7. At the end of the core The protector 8 is dressed. An air gap 9 is formed between the sound absorber and the membrane. HapyjfCHaH The steak 1 of the headphones' ear protectors is made of plastic, for example, high-pressure polyethylene or high-impact polystyrene. Layers 3, 4 and 5 of the sound absorber are made of ultrafine glass fiber, and the difference in wave resistance is achieved by the fact that the individual layers are absorbed under pressure at the start temperature of the glass softener, or they are impregnated with varnish. By adjusting the magnitude of the pressure, temperature, or amount of adhesive varnish, layers with different wave resistance are used. The characteristic impedance of the first absorbent layer 3, adjacent to the inner surface of wall 1, approaches the characteristic impedance of the material of the wall 1 itself, and the characteristic impedance of the last layer 5, facing the wall 6, approaches the characteristic impedance of the air. Wall b is made of steel having a wave resistance of about 10 times greater than that of air. A mastic material like Antivibrit or A-2 is used as a vibration absorbing coating 7. The protector 8 is made of foamed latex. The operation of the anti-noise headphones is as follows. An external sound wave pierces the hull and, as it passes through layers 3, 4 and 5, it absorbs partly in it. The part of the original sound wave that comes out of the sound absorber layer 5, after passing through the air gap, falls on wall 6 and is reflected from it. Having passed through the wall 6 (membrane), the sound wave is partially damped by the vibration-absorbing coating and, in a significantly weakened form, reaches the human ear. The wave reflected from the wall 6 reaches the sound absorber, and since the wave impedance of layers 5.4 and 3 increases, this part of the sound wave does not experience additional reflections and leaves the headphone.

Claims (1)

. ANTI-NOISE HEADPHONES, each of which contains a hollow body with a sound absorber located in it and a protector installed in the end of the body, characterized in that, in order to more intensively attenuate noise in the entire frequency range, the sound absorber is made in the form of parallel layers located on the inner side of the outer wall of the body , the wave impedance of each of which decreases towards the ear, and the inner wall of the body is made of a material with high wave impedance and has absorbent coating, while a gap is formed between the sound absorber and the inner wall of the housing.