RU2125772C1 - Loudspeaker - Google Patents

Abstract

FIELD: direct radiation electrodynamic loudspeaker for hi-fi acoustic systems. SUBSTANCE: device cone is designed as spiral frame-less winding, which is made from aluminum conductor, which coils are glued. This design prevents generation of stationary waves, but easily transmits sound coil oscillations. In addition cone coils may be used as feedback detector. EFFECT: improved sound quality. 2 cl, 2 dwg

Description

 The invention relates to electro-acoustic transducers, namely to electrodynamic loudspeakers of direct radiation.

 Known designs of electrodynamic loudspeakers, consisting of a magnetic circuit and a moving system, for several reasons do not allow the full reproduction of the entire range of sound frequencies. The main reason for this is the design of the diffuser, which is part of the movable system, consisting of a diffuser, an upper suspension, a centering shaft and a voice coil. A voice coil, attached at one end to the top of the cone of the diffuser and located in the magnetic field of the magnetic circuit, converts the electrical sound signal fed to it into mechanical vibrations of the diffuser. Since the diffuser is a relatively thin and light surface, during its oscillations, standing waves are formed on the conical surface, the intensity of which strongly depends on the structure and properties of the material from which it is made / I. Aldoshina Electrodynamic loudspeakers. - M .: Radio and communications, 1989. - S. 95 - 97 /.

 This phenomenon limits the bandwidth of the frequencies reproduced by the loudspeaker due to the amplitude-frequency characteristic resulting from the unevenness.

 A known design of a loudspeaker having a conical diffuser, where the improvement of sound quality is achieved by tightening the diffuser with stiffeners made along the generatrix / Loudspeaker Head A.S. 1642595 USSR, cl. H 04 R 9/06, 1988 /.

 A disadvantage of the known device is the fact that an improvement is observed only in the low-frequency region of the reproducible frequency range, where the diffuser can be considered as an oscillatory system with lumped parameters.

 The closest in technical essence and the achieved result to the proposed solution is a loudspeaker equipped with a conical diffuser of increased stiffness, which is achieved by concentric corrugation of the front side of the diffuser and radial corrugation of the back side / Hitati Seisakuse Company, Japan, Loudspeaker. application - N 60-220699, claimed 18.04.84 N 59-76475, publ. 11/05/08, cl. H 04 R 7/14 /.

 The disadvantage of the prototype is the relative complexity of the design of the diffuser, and increasing only the rigidity without increasing the damping of the material of the diffuser does not improve the frequency response in the mid-frequency region, where the diffuser becomes an oscillating system with distributed parameters.

 The claimed technical solution is aimed at improving sound quality and expanding the range of reproduced loudspeaker sound frequencies by increasing the structural stiffness of the diffuser with its optimal damping.

 It is known that the materials used for the manufacture of a diffuser / I. Aldoshin. Electrodynamic loudspeakers. - M.: Radio and Communications, 1989 - p. 121, 158 - 173 /, conflicting demands are made: large internal losses and a high ratio E / p / where E is Young's modulus, p is the material density /. In the claimed technical solution, the expansion of the range of reproduced sound frequencies is achieved through the use of a metal, for example, aluminum as a material with a high E / p ratio, and the requirements for large internal losses are carried out by the design of the diffuser.

 The essence of the invention lies in the fact that the diffuser is made in the form of a spiral frameless winding wound with a metal, for example, aluminum conductor, while the turns of the winding are glued together to form a radiating surface. The conical surface of the diffuser thus made acquires the high metal stiffness necessary to expand the reproducible frequency range, with the necessary degree of damping, due to the damping properties of the adhesive composition. The novelty of the proposed technical solution lies in the use of metal in the form of a frameless spiral winding, the damping of which is ensured by the properties of the adhesive composition.

 When using an insulated aluminum conductor in the proposed design, the beginning and end of which, during the manufacture of the diffuser, are output to the terminals, the diffuser, in addition to its main function, performs the function of an electromagnetic sensor of electromechanical feedback, an amplifier-loudspeaker system, since the emf from the oscillating diffuser constant field scattering of the magnetic circuit of the speaker. Due to the fact that for the effective reproduction of low frequencies of the sound range, the loudspeaker must be located in the speaker system, reproduction of these frequencies requires the use of very large cases. The use of electromechanical feedback allows you to reduce the size of the acoustic system due to electronic control of the parameters of the speaker in the low-frequency region using an electromechanical feedback sensor / Aldoshina I. A., Voishvillo A. G. High quality speakers and drivers. - M .: Radio and communications, 1985. - p. 137-138 /.

 The invention is illustrated by drawings, where in FIG. 1 shows a diffuser without a voice coil, made in the form of a spiral frameless winding with a conductor 1, the turns of which, glued with glue 2, form a continuous thin conical surface. In FIG. 2 shows a loudspeaker construction using a diffuser as an EMOS sensor. The speaker housing is conventionally not shown. The loudspeaker contains a magnetic circuit 1, a movable system consisting of a diffuser 3, an upper suspension 6, a centering washer 7 and a voice coil 8. Magnetic lines of force 2, the scattering fields of the magnetic circuit 1 of the loudspeaker are intersected by turns of the diffuser 3, and the emf induced through the terminals during operation 4 is supplied to terminals 5 and further to the amplification and electronic control circuit.

Claims (2)

 1. A loudspeaker containing a magnetic circuit and a movable system consisting of a diffuser, a top suspension, a centering washer and a voice coil, characterized in that the diffuser is made in the form of a spiral frameless winding wound with a metal, for example aluminum, conductor, while the winding turns are glued between itself with the formation of a radiating surface.  2. The loudspeaker according to claim 1, characterized in that the diffuser winding is made of an insulated conductor, the beginning and end of which are output to the terminals with the possibility of forming an electromechanical feedback sensor.

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