Patent ID: 6042792
Filing Date: 2000-03-28
Classification: A61K,A61Q,G01N

Abstract:
Apparatus for preparing a solid phase microparticulate hydrophobic perfume-containing composition comprising:(i) first mixing means for intimately admixing at least one hydrophobic fragrance material with at least one hydrophobic polymer and/or at least one hydrophobic wax to form a first liquid single phase mixture at a temperature greater than or equal to the melting point of said polymer or said wax or, in the case of mixtures, the melting point of the highest melting component of the mixture;(ii) second mixing means fluidly isolated from said first mixing means and operating substantially simultaneously with said first mixing means for intimately admixing a surfactant with an aqueous composition comprising water to form a second mixture which is an aqueous solution;(iii) first feeding means for feeding the first liquid single phase mixture produced in said first mixing means and for feeding the second mixture produced in said second mixing means into a microemulsification means;(iv) microemulsification means downstream from and fluidly connected to said first mixing means and said second mixing means for blending said first mixture and said second mixture at a temperature of between 60.degree. C. and the boiling point of said aqueous composition whereby a microemulsion is formed, and whereby the final particle size is reduced, said microemulsification means consisting of a three-stage rotor/stator high shear mixer, the first stage being a suction stage; the second stage following the first stage being a milling stage; and the third stage following the second stage being an intense, hydraulic shear stage;(v) second feeding means for feeding the microemulsion formed in said microemulsification means into solid particle forming means; and(vi) solid particle forming means downstream from and fluidly connected to said microemulsification means for causing the hydrophobic perfume-containing composition in the solid phase to be formed from the microemulsion formed in step (iv) using the microemulsification means, as an aqueous suspension of solid phase microparticles, said solid particle forming means comprising cooling coils to cool the suspension to a temperature of between 10.degree. C. and 30.degree. C.