Perfume compositions – Perfume compositions
Reexamination Certificate
1999-04-30
2001-06-12
Alexander, Lyle A. (Department: 1743)
Perfume compositions
Perfume compositions
C063SDIG002, C428S905000, C501S011000, C501S032000, C501S039000, C501S053000, C501S055000, C501S065000, C502S407000
Reexamination Certificate
active
06245733
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to fragrance delivery systems and a method for making the same. In particular, the invention relates to a pre-glass agglomeration that absorbs fragrance producing oils and volatiles, and releases the fragrance innate to the oils and volatiles over an extended period of time without being messy or wet.
2. Description of the Related Art
Most delivery systems that utilize microspheres are manufactured out of acrylates or non-siliceous polymers. There are no fragrance delivery systems that utilize soda lime borosilicate microspheres fused together naturally without additives. Most fragrance systems have a short life span and lose their aroma within a few months. Virtually no currently available fragrance systems last for longer than a few months under any circumstances. Most also have a very intense smell initially with reasonably pleasant odor after a few weeks which fades fairly fast.
Microspheres have been used in the past for a variety of purposes. The most common uses pertain to holders for chemicals in compositions such as holding fragrance for laundry detergent. In other words, the microspheres contain a chemical and are mixed with other compounds to form a heterogeneous composition where the microspheres will release the chemicals either gradually or all at once in response to a stimulus such as a change in ionic character, heat or other stimulus. Microspheres are also used in drug delivery systems designed to release the drug contained in the microsphere at a particular time according to pH or other factor.
The material and use of the pre-glass agglomeration of this invention are unique and unknown in the past. Also, these pre-glass agglomerations are not discrete spheres but rather modified soda-lime borosilicate sphere clusters, wherein thousands of microspheres become molecularly fused together via microcrystalline like structures on the sphere surfaces. Therefore, this invention provides a microsphere matrix without the addition of costly binders and polymers. These microcrystalline structures are distinctly different from current available industrially manufactured microspheres.
U.S. Pat. No. 3,365,315 issued to Beck et al. on Jan. 23, 1968 discloses glass bubbles made from glass cullet particles by heating. This amorphous solid contains SiO
2
(60-80%), Na
2
O (5-26%), CaO (5-25%), K
2
O/Li
2
O (5-16%), and Na
2
O/K
2
O/Li
2
O (5-16%) plus some other oxides. The temperature range utilized for bubble formation is between 1050° and 1300° C. The resultant amorphous solid can be utilized as ingredients in molded parts designed for use in high pressure environments. These particles also have the capacity to be used with thin walls thus possessing a maximum strength and crushable if that strength is exceeded. The methods utilized to make the glass bubbles taught by Beck, as well as the glass bubbles themselves, are very different from the rock of the present invention.
U.S. Pat. No. 3,985,298 issued to Nichols on Oct. 12, 1976 discusses controlled release materials, and method of using, that can be incorporated into a chemical delivery system. The materials utilized by Nichols are polymer-liquid composite materials which may contain 99% or more of the liquid. These controlled release materials can be incorporated into aerosol propellants, food products, chewing gum, pharmaceutical compounds, agricultural products or cosmetic preparations. The desired functions of the release materials are flavoring, scent, coloring, medication, dermatological action, pesticidal action, or agricultural fertilizer. The materials and objectives utilized by Nichols are different from the present invention.
U.S. Pat. No. 4,155,897 issued to Schlusener on May 22, 1979 discloses compositions exhibiting controlled release of an active substance. The compositions of Schlusener comprise an unsaturated polyester resin, an active substance, hollow microspheres of an organic material, and an inorganic material. The hollow microspheres can be made of glass and are mixed with an unsaturated polyester resin to make a molded solid or semisolid substance. An active ingredient, such as volatile oils, is added to the substance. The strength of the final product depends on the unsaturated polyesters used, but is less than the strength of the unsaturated polyester used because the hollow microspheres reduce the overall strength. The composition taught by Schlusener is different from the amorphous rock of the present invention. The release of gas by the molded item is measured by a period of up to about half a year which is significantly less than the year and a half capacity of the present invention. There is a relatively high gas release rate the first week, less the next three weeks and even less for the remainder of the active time. Also, the compositions of Schlusener lacks the strength and low density combination of the present invention.
U.S. Pat. No. 5,336,665 issued to Garner-Gray et al. on Aug. 9, 1994, discloses a hydrophobic porous inorganic carrier particle having a perfume absorbed into the particle. In particular, a detergent composition containing the carrier particle and a method for manufacturing the same is disclosed. The inorganic carriers used in Garner-Gray include aluminosilicates such as certain zeolites, clays, aluminas and silicas, all of which are chemically treated or naturally hydrophobic. These porous inorganic carrier particles are not designed to release odor over an extended period of time, but to deliver perfume to clothing or other surface via a detergent or the like. The particles used in Garner-Gray are not designed for room deodorizers, are not strong, and are not exceptionally adsorbent in that they are hydrophobic and would not adsorb water or alcohols.
U.S. Pat. No. 5,725,869 issued to Lo on Mar. 10, 1998, describes microsphere reservoirs for controlled release applications. The microspheres, optionally containing an ingredient to be dispensed through controlled release, are prepared by solvent evaporation of an oil-in-water emulsion formed from an organic solvent containing a polymer and a plasticizer and an aqueous solution containing one or more emulsifying agents. The microcapsules formed are porous and spongy in structure as opposed to hollow. These microspheres have a relatively high load rate and a low dispersion rate. They are useful for agricultural chemicals, pharmaceuticals, cosmetics and fragrances. The invention of Lo is not designed to be a room deodorizer, and does not have a sturdy solid nature as does the rock of the current invention.
U.S. Pat. No. 5,824,345 issued to Milstein on Oct. 20, 1998, discloses compositions useful in the delivery of fragrances and flavorants. A method for preparing the compositions is disclosed: the active agent is mixed with the proteinoid of hydrolyzed vegetable protein solution and the proteinoid or modified hydrolyzed vegetable protein is precipitated out of the solution, thereby forming a microsphere containing the active agent. Milstein differs from the present invention in that the present invention adsorbs any liquid, oil or alcohol, while Milstein requires the microspheres to be made concurrent with placing the agent therein which is a handicap in that it reduces the usefulness of the Milstein invention. Also, the microsphere of Milstein is not as sturdy as the current invention and the aroma does not last nearly as long.
U.S. Pat. No. 5,849,055 issued to Arai et al. on Dec. 15, 1998, discloses a process for making inorganic microspheres which comprises pulverizing a material by wet pulverization to obtain a slurry of a pulverized powder material, spraying the slurry to form liquid droplets, and heating the liquid droplets to fuse or sinter the powder material to obtain inorganic microspheres. These microspheres are discrete individual microbeads and cannot be utilized in the manner of the present invention. The microspheres of Arai can be used as a powder or an ingredient, but not as a deodorizing rock.
U.S. Pat. No. 5,871,722 issued
Alexander Lyle A.
Cole Monique T.
Cook Dennis L.
Fowler, White, Gillen, Boggs, Villareal and Banker, P.A.
LandOfFree
Porous agglomerations of fused microspheres does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Porous agglomerations of fused microspheres, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Porous agglomerations of fused microspheres will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2525516