Method for separating the components of a mixture of fibers and granules by electrostatic neutralization and screening, and corresponding unit

What is claimed is: 1 . A separation method making it possible, from a mixture containing fibers and granules, to separate said fibers from said granules, said method comprising: a supply step, during which the mixture is brought into a receptacle provided with a screen, a dissociation step which involves carrying out an agitation sub-step in which mechanical mixing of the mixture contained in the receptacle is performed and simultaneously a neutralization sub-step in which the mixture being mixed in the receptacle is exposed to bipolar charges in order to neutralize electrostatic charges of the fibers and the granules, a screening step during which the mixture treated in accordance with the dissociation step is passed over the screen in order to retain in the receptacle a first product resulting from the mixture, the first product having a fiber content greater than that of the mixture, while a second product resulting from the mixture is discharged through the screen, the granule content of the second product being greater than that of the mixture. 2 . The method as claimed in claim 1 , wherein the dissociation step comprises, simultaneously with the agitation sub-step and neutralization sub-step, a blowing sub-step, in which the mixture contained in the receptacle is subjected to a forced gas flow, which contributes to the mechanical mixing and the aeration of said mixture, and promotes the supply and the dissipation of the bipolar charges within said mixture. 3 . The method as claimed in claim 2 , wherein the receptacle is located inside a chamber which is delimited by walls, and further comprising recovering fibers which have been projected out of the receptacle by the forced gas flow. 4 . The method as claimed in claim 2 , wherein the forced gas flow is a forced air flow. 5 . The method as claimed in claim 1 , wherein as the receptacle, use is made of a first cylindrical screening drum delimited by a tubular side wall which extends along and around a central axis forming with the horizontal an angle of less than 30 degrees, at least a portion of said tubular side wall forming the screen, and during the agitation sub-step, use is made of a rotation of the first screening drum on itself, about its central axis, to cause mixing of the mixture. 6 . The method as claimed in claim 5 , further including a second screening step, during which the second product is screened by a second screening drum which has a diameter greater than the first screening drum in such a way as to form a second tubular wall, which second tubular wall surrounds said first screening drum at a radial distance from the tubular side wall of said first screening drum, and forms a second screen the mesh of which is finer than that of the first screen used in the first screening step, such that a third product is discharged through the second screen, the granule content of which is greater than that of the second product. 7 . The method as claimed in claim 6 , wherein the second tubular wall is coaxial with the first screening drum. 8 . The method as claimed in claim 1 , wherein the method is applied to a mixture which contains textile fibers, and granules made of a rubber-based material. 9 . The method as claimed in claim 8 , wherein the textile fibers are made of polyethylene terephthalate. 10 . A method for recycling a pneumatic tire comprising: a grinding step, during which at least a portion of said pneumatic tire is reduced to a mixture containing textile fibres and granules made of a rubber-based material, and a sorting step, during which a separation method as claimed in claim 1 is applied to said mixture. 11 . A separation unit intended to receive a mixture of fibers and granules in order to separate said fibers from said granules, said unit comprising: a receptacle which is arranged to receive the mixture and which is provided with a screen, an agitation device which makes it possible to mix the mixture contained in the receptacle, a neutralization device designed to emit bipolar charges intended for the mixture while said mixture is being mixed in the receptacle, in order to be able to neutralize electrostatic charges of the fibers and the granules, the agitation device and the neutralization device being arranged to act jointly on the mixture in such a way as to be able to dissociate clumps of fibers and granules and thus facilitate the screening of the mixture by the screen. 12 . The unit as claimed in claim 11 , including a blowing device arranged to generate a forced gas flow and to direct said gas flow onto the mixture subjected to the joint action of the agitation device and the neutralization device, such that said gas flow on the one hand contributes to the mixing of the mixture and to aeration of said mixture, and on the other hand promotes the supply and the dissipation of the bipolar charges within said mixture. 13 . The unit as claimed in claim 12 , including at least one ionizing blower module which each combine within the same sub-assembly, both a blowing device and a neutralization device. 14 . The unit as claimed in claim 13 , wherein one or more ionizing blower modules are installed inside the first screening drum, and oriented in such a way as to direct their gas flow and their bipolar charge flow toward the lower portion of said screening drum. 15 . The unit as claimed in claim 13 , wherein the at least one ionizing blower module includes several ionizing blower modules. 16 . The unit as claimed in claim 12 , wherein the forced gas flow is a forced air flow. 17 . The unit as claimed in claim 11 , wherein the receptacle is formed by a first cylindrical screening drum which is delimited by a tubular side wall which extends along and around a central axis forming with the horizontal an angle of less than 30 degrees, at least a portion of said tubular side wall forming the screen, and the agitation device is designed to drive said first screening drum in rotation on itself, about its central axis, in order to cause mixing of the mixture. 18 . The unit as claimed in claim 17 , including a second cylindrical screening drum, of diameter greater than that of the first screening drum, said second screening drum surrounding the first screening drum, in order to form around said first screening drum a second receptacle delimited by the tubular side wall of the second screening drum, which side wall of the second screening drum comprises a second screen the mesh of which is finer than that of the screen of the first screening drum. 19 . The unit as claimed in claim 18 , wherein the second screening drum is arranged coaxially with the first screening drum. 20 . The unit as claimed in claim 17 , wherein angle is non zero.