FR2889022A1 - Sound wave smoothing method for loud speaker, involves placing film in front of membrane of loud speaker whose aft wave is dissipated in ambient space, where film covers front side of loud speaker - Google Patents

Abstract

The method involves placing a film (1) in front of a membrane of a loud speaker (2) whose aft wave is dissipated in ambient space (3). The film covers a front side (4) of the loudspeaker and acts as a membrane which filters acoustic pressures. The film becomes an acoustic reference and the membrane is activated by natural sound such as concert sound or direct show sound. The film has a surface transposing sound waves projected by the interior of sound wave cone. An independent claim is also included for a device for smoothing sound wave of loud speaker.

Description

SOUND WAVE SMOOTHING, TYPICAL REGULATION

  To obtain in the field of the reproduction of sounds, ions generated by loudspeakers, the front wave is used while the rear wave is left in an open or closed box. The back wave is considered as parasitic as defined by the infinite plane speaker which isolates the rear part of the membrane. The process radically changes this vision, Leaving the bitter wave active, if possible, in the ambient space and isolating the front of the membrane by at least one film stretched over the entire surface of the membrane. Fig.1 shows in profile the film (1) stretched in front of the speaker (2) whose bitter wave dissipates in the ambient space (3). The stretched film which closes the front face (4) of the loudspeaker acts as a second membrane which filters and regulates the acoustic pressures and distributes them over its entire surface. The method is a smoothing of the sound waves and distributes them according to a coherence of amplitude imposed by the tension and the elasticity of the film (1). Indeed, the film can cover one or more speakers by at least one surface that will vibrate, deform to transmit the sound waves. The surface of the film transposes the sound waves projected by the interior of the cone into sound waves coherent between them like the waves on the water which are distinguished during the storm, and thus retransmits all the harmonics in perfect acoustic phase. On the reference plane of the film physically emerges each sound information visible by the deformation of the film sensitive to sound waves. This film is like a tympanum that regulates all the waves between them following a coherence and a sound envelope determined by the stretched surface of the film. The sound forces are thus all retransmitted in harmonic correlation, and the film avoids excessive pressure fatal, breaks hearing damage. The auditory sensation is very pleasant and allows, Distinguish previously inaudible notes, masked by effects of overpressure unrelated to the sound reality. These acoustic settlements due to the nature of the speakers are damped by the film which regulates the sound waves received by at least one air cushion (5) Fig.1 which ensures the sound transmission, the vibration of the film. On closed enclosures, the film also works, set up by a man of the art who adapts the surface: it can be the size of the loudspeaker, or also several times its surface, the film by its surface is then an additional membrane amplifying sounds.

  An apparatus makes it possible to implement the method which is constituted by FIG. 2 of a frame (1) on which was placed before a metal grid or the perforated fabric of an acoustic enclosure (2). On this frame devoid of the old metal protection or fabric for example non-limiting embodiment is stretched a metalloplastic film (3) opaque, or color of a few microns or polymer mechanically stretched or by thermal effect to have a film perfectly stretched in front of speakers (4,5,6), or a few millimeters ahead. The elasticity of the film and its tension make it possible to reproduce in a homogeneous manner all the sound spectra diffused by the three loudspeakers. The mechanical filtering of the film is excellent, the visible deformations which occur on its surface are generated by the elastic forces of the film. film which allow a regularization of the largest amplitudes in relation to those of the smallest ones. In this application we define the window or envelope of the ear. This envelope determines in three dimensions the surface deformations generated by the sound pulses and mechanically limits the amplitude differences according to the tension and the elasticity of the membrane. This process compensates for the acoustic aberrations caused by the pathologies determined by excess of certain acoustic pressures. The air between the loudspeaker cones and the membrane ensures unparalleled sound transmission as the eardrum does. The speaker spits the sound according to its current technology and operating modes that feels conferred not always consistent with the mechanical and nervous sensitivity of the auditory system. The present method and apparatuses strongly modify the habits since the back wave is also used in the conformation of FIG. 1, which becomes a reference emission plane and in perfect harmony with the vibrations generated by the film stretched in front of the membrane. The back of the cone-closed membrane has no acoustic aggressiveness and does not disturb sound emissions. The acoustic coherence is excellent, so we pushed the principle with a double film which is placed in front of the membrane of the speaker. For this variant embodiment, neon limiting example, the double film is positioned on either side of a frame on the front and back of the frame by gluing and then the film is stretched by the man of the ara to obtain the sound effect, desired. The set is affixed to one or more speakers, which gives a spatial dimension to the incomparable sound emission. The two films are separated from the thickness of the frame that holds them stretched from 2 millimeters to 2 centimeters or so apart. These films propagate the sounds by the two emitting surfaces which are sometimes in a phase position but of an acoustics marking the sound presence. The phase apposition is due to the elastic properties of very thin films, from about 5 microns for small acoustics to about 10 microns for large acoustics of 1 X2 to 3 meters and more. These acoustics resemble acoustic panels, the wooden enclosure having disappeared by this product.

  These acoustic panels are excited by the speaker or speakers; generating the acoustic pressures by the front speaker's membrane on the film or films, sound effect accompanied by the back wave of the speaker, which gives a natural tone, without aggressiveness, with a lot of presence. This acoustics of the front wave without aggression of the loudspeaker capped ciu film is a new generation of sound reproduction device safe for the listener and especially for headsets or phones. Indeed, the proximity of the membranes live is a source of discomfort and sometimes pain for the user. On open speakers, we benefit from the procedure and on the closed speakers, this technology smooths the signal without having all the dynamics, the effect of the back of the membrane being absent. The very sensitive deformation of the film to the sound reactions is a property that can now be obtained by the fine techniques of producing the film a few microns thick.

  This film, which is highly sensitive to the deformation generated by the wave waves, becomes by its use on frames, resonator panels; Passive acoustics of very high definition whose weight is a few grams per square meter. This sensitivity to the deformation of the film in natural acoustics allows us to make passive acoustic panels of three, four, ten square meters and more. These panels, placed by those skilled in the art in concert halls or multipurpose rooms, correct the acoustics, and provide exceptional acoustics in unpredictable places where the original acoustics is detestable or average .

  Another variant is an application of the method by the excitation of the panels placed near one or more speakers of a television of a computer for example. These panels in a concert open in the open air room with speakers or not allow to regularize the sounds by the harmonic components that are perfectly retransmitted without phase shift with the bass in large spaces in the room or in the open air, which ensures a comfortable listening and precise.

  The property of the film to realize passive acoustic panels of very high definition does not filter the sound spectra in acute or low bass. The film ensures the full cohesion of the sounds, and regulates among them the amplitudes or the sound intensities, it is thus a mechanical amplitude regulator of the coherence in real time of the spatiotemporal organization of the relative amplitudes of all the harmonics. This film is in no way a frequency filter as are most passive membranes, filter determined by the mass and the rigid surface of the membranes.

  Process and devices are useful throughout the audio visual world eg telephone, television, computer, Home theater theater, in cars, trucks boats, planes, for radio and live shows and ultimately the auditory, medical field they regulate the spatio-temporal acoustic deformations generated by the rooms.

  Indeed, some rooms which separate the harmonic components and the sound signal is distorted. The film transmits the sounds of a concert or a performance of a show in a natural way and tends to restore and reformat the audible homogeneity of the sound signal. The compliance of the film as a tympanic membrane reconstitutes and reassembles by the the intensity of mechanical deformations, the sound message. The intensity differences are correlated and managed by the film tension. Our ears are no longer brutalized mechanically and the message is transmitted entirely to our brain.

Claims (5)

  1 - Acoustic smoothing method in the field of sound reproduction, for a loudspeaker or several loudspeakers, is characterized in that at the front of the membrane a film is stretched, and becomes an acoustic reference plane which restores the harmonics in perfect acoustic phase and protects our ears from excessive aggressiveness of the cones before the membranes and smooths the sound waves, regulates and correlates the temporal amplitudes of the sound waves coherently, 2 Acoustic smoothing method according to claim 1 characterized in what the activation of the membrane is achieved by natural acoustics, the sounds of a concert, or a live show.   3 - Acoustic smoothing device for one or more loudspeakers is a film which is placed on the front face of a high bettor membrane, characterized in that it consists of a frame 2 (1) for example no limiting embodiment on which is stretched at least a metalloplastic film (3) of a few microns or mechanically stretched polymer or by thermal effect, the elasticity of the film and its voltage allow to reproduce homogeneously all harmonics, correlated sound spectra broadcast by the speaker or speakers, by the reference plane of the film.   4 -The acoustic smoothing device according to claim 3 corrects the sound information of a live concert or show, acoustic deformed by a room or a large space that is corrected by the use of films by a man of the art.   5 - acoustic smoothing device according to claim 3 characterized in that the membrane is removed from the speaker or speakers providing refinement and refinement of sound components according to the principle of negative diffraction theory that makes the sound rich and full.   6 - acoustic smoothing device according to claim 3 characterized by one or more holes in one or more tympanic membranes.   7 Process and acoustic smoothing devices are useful throughout the audio visual world eg telephone, television, computer, cinema, home theater, automobiles, trucks, boats, airplanes, in radio as well as live shows, and ultimately the auditory and medical field to avoid excessive pressure causes hearing damage.