CA1113828A - Emollient-containing urea-based bath bead composition and the production thereof - Google Patents
Emollient-containing urea-based bath bead composition and the production thereofInfo
- Publication number
- CA1113828A CA1113828A CA327,855A CA327855A CA1113828A CA 1113828 A CA1113828 A CA 1113828A CA 327855 A CA327855 A CA 327855A CA 1113828 A CA1113828 A CA 1113828A
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- Prior art keywords
- emollient
- prills
- water
- perfume
- urea
- Prior art date
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Abstract
ABSTRACT OF THE DISCLOSURE
Emollient-containing urea bath bead compositions are disclosed in which an oily perfume is present in a low foaming or nonfoaming system, while minimizing scum forma-tion on the bathtub walls. Also, anticaking particles are associated with the prills in a nonsegregating fashion, and water is included in the materials sprayed on the urea prills so that water soluble dyes can be dissolved in the water and applied to the prills at the same time.
Emollient-containing urea bath bead compositions are disclosed in which an oily perfume is present in a low foaming or nonfoaming system, while minimizing scum forma-tion on the bathtub walls. Also, anticaking particles are associated with the prills in a nonsegregating fashion, and water is included in the materials sprayed on the urea prills so that water soluble dyes can be dissolved in the water and applied to the prills at the same time.
Description
1~38Z8 The present invention relates to perfumed emollient-containing urea bath beads which minimize or avoid the deposition of an oily scum on the walls of bathtubs in which they are used.
The invention includes the production of emollient-containing urea beads in the form of a free flowing powder including particles of an anticaking agent associated with the beads in a nonsegregating fashion. The invention includes improved procedures enabling the use of continuous production equipment.
According to the present invention, there is provided an emollient-containing urea bath bead composition which produces little or no foam in the bath water comprising urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient constituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, whereby the formation of an oily scum when the bath bead composition is dissolved in water i8 minimized.
In another aspect, the invention provides a method of producing a bath bead composition which comprises urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient consituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, said method comprising spraying a liquid mixture of said oily perfume and said emollient onto said urea prills, and agitating the liquid mixture so provided to distribute said perfume and said emollient over the surface of said beads.
More particularly, the invention provides a method of producing a batn bead composition as recited above comprising spraying a liquid mixture of said oily perfume and said emollient
The invention includes the production of emollient-containing urea beads in the form of a free flowing powder including particles of an anticaking agent associated with the beads in a nonsegregating fashion. The invention includes improved procedures enabling the use of continuous production equipment.
According to the present invention, there is provided an emollient-containing urea bath bead composition which produces little or no foam in the bath water comprising urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient constituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, whereby the formation of an oily scum when the bath bead composition is dissolved in water i8 minimized.
In another aspect, the invention provides a method of producing a bath bead composition which comprises urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient consituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, said method comprising spraying a liquid mixture of said oily perfume and said emollient onto said urea prills, and agitating the liquid mixture so provided to distribute said perfume and said emollient over the surface of said beads.
More particularly, the invention provides a method of producing a batn bead composition as recited above comprising spraying a liquid mixture of said oily perfume and said emollient
- 2 -,' , .
1~38Z8 onto said urea prills, agitating the mixture so-provided to ~:
distribute said perfume and said emollient over the surface ~ .
of said beads, distributing finely divided particles of anti-caking agent onto said prills while the surface thereof is sticky with the materials distributed thereon, and then continu-ing to agitate the mixture until the beads are free flowing with the particles of anticaking agent adhered thereto.
In this invention, the urea beads, sometimes termed prills, are tumbled with a mixture of 0.2% to 2.0% of an oily perfume and 0.3% to 2.0% of a water soluble polyalkylene ether emollient to cause the perfume and the emollient to be distributed over the beads. All proportions herein are by weight unless otherwise stated, and the above proportions are based on the weight of the urea prills. The use of the selected emollient provides bath beads which keep the perfume from depositing on the walls of the bathtub - 2a -.. .
.. . . .
. . .
- -~138Z8 e~en thougll little or no oal11 is procluccd in tbc b~th l~ter.
Thc urca prills are prefcr.l~ly ~yc~ with a water solu~le ~ye to provide an attractive coloration for the ~eads and for the bathwater in which thc beads arc dissolvcd. It has been foun~ that watcr can be used in the material applicd to the urca prills in an amount of from 5-20o of the total weight of perfume and emollient to provide a water-containing liquid spray in w11ic1l the desired dye can be dissolve~. In this way the separate step of tumbling the prills with powdered dye can be e]iminated, and this is helpful to the use of continuous processi11g where the number of points at which extraneous materials are brought into the process is desirably minimized.
Another aspect of this invcntion is the application of finely divided particles of antica1cing agent to the urea prills, usually after the perfume and emollient have been distributed over the surface of the prills~
but before the prills are dry enough to be free flowing, in order that the ;
anticaking particles will adhere to the beads in a nonsegregating fashion.
Using corn starch, this same result can be obtained in an even more effective mamler.
The urea beads or prills are Teadily available in commerce, and their characteristics and use in bath bead compositions is moro fully dis-cussed in our copending applica~ions Serial Nos, 25~,675 and 273,272, The need to perfume compositions intended to be used in the bath is self-ovident, but when oily perfumes are used in a low foaming or non-foaming bath composition, these oils form a scum on the walls of the bathtub and this is undesirable, Perfumes, as a class are oily materials, and are illustrated by rose oil, honeysuckle oil, lilac oil, lemon oil, and the like.
The water soluble polyalky]ene ether emollients can be ~-of various types, but it is l~referred to employ aliphatic alcohols having from 8-22 carbon atoms, and ~;;
. .
. ; . ~ ' " ~138Z8 more preferably, straight chain alkanols containing from ~ -~
9-16 carbon atoms, ~hich are adducted with from 6 to 12 mols of ethylene oxide per mol of alcohol. These have a hydrocarbon portion of sufficient length to provide an emollient function, and they posseqs sufficient ethylene oxide units to provide a surfactant function which keeps the oily perfume from adhering to the bath-tub walls.
As will be evident, the oily perfume and the polyalkylene ether emollient are used in small amount, and other materials which may optionally be added are also used in small amount 80 t'nat the urea beads will constitute at least about 92% of the compo~ition, and -more preferably, at least about 95% of the weight of the composition.
Water soluble dyes suitable for the present purposes are food, drug and cosmetic dyes or drug and cosmetic dye~, these being normally u8ed as color addi-tives in beverages, confections, and/or pharmaceuticals.
20 The dyes can be of any desired color, in finely divided ;
solid or crystalline ~tate, and can be selected from nitro, monoazo, diazo, phthalocyanine, quinoline, xanthene, tri-acrylmethane, indigoid, vegetable dyes, and the like.
Blue and green dyeq are preferred a~ being generally more attractive for the present purposes. Illustrative suit-able dye is FD&C B}ue Mo. 1, i.e., a color additive which is principally the disodium salt of ethyl (4-[para-[ethyl-(metha-sulfobenzyl)amino]-alpha-(ortho-sulfophenyl)benzyl-idene)-2,5-cyclohexadien-1-ylidene] (meta-sulfobenzyl) ammonium hydroxide inner salt with smaller amounts of . .
:~il38Z8 the isomeric disodium salts of ethyl[4-(para-[ethyl(para-sulfobenzyl)amino]-alpha-(orthosulfophenyl)benzylidene)-2, S-cyclohexadien-l-ylidene] (parasulfobenzyl) ammonium hydroxide inner salt and ethyl[4-(paraethyl(ortho-sulfo-benzyl)amino]-alpha-~ortho-sulfophenyl)benzylidene)-2,5-cyclohexadien-1-ylidene] (ortho-sulfobenzyl) ammonium -hydroxide inner salt.
From the standpoint of producing a dyed bead composition, it iB de~irable to be able to apply the perfumes, emollients and dyes in a single application step. For this purpose it haq been found, that from 5%
to 20% of the total weight of perfume and emollients can be constituted by water, and the dye which i~ desired to be applied can be dissolved in water 30 that the liquid mixture of oily dye, emollients and dye-containing water can be sprayed onto the urea prills with all of these components being absorbed simultaneou~ly.
The initial mixture which include~ the urea beads or prills and the oily liquid mixture, including the emollient, forms an initially sticky mass.
Urea prills normally have a relatively dull surface which becomes shiny when the oily emollient is distributed thereon, and this shine can be used to measure the uniformity of distribution of the oily liquid. Thus, after addition of the emollient, the combination i~
agitated (tumbled) until the prills present a substantially uniform shiny appearance. Preferably, the prill-and-emollient combination is tumbled or otherwise agitated until the oily materials are at least partially absorbed or adsorbed and individual emollient-bearing prills :, ,: , . .
~1138ZB
begin to move relative to one another or separate from one another.
It i~ important that the bath beads include a particulate anticaking agent which is uniformly dis-tributed and which does not segregate on storage. For this purpose, the sticky surfaces of the emollient-bearing prills are coated with the particles of anti-caking agent having a particle size which is substantially less than the size of the urea prills. The coating opera-tion can be carried out in a tumbling barrel, a rotatingpan mixer, an inclined open-ended rotary drum, by pass-ing the prills through a fluidized bed of the anticaking agent, or in any other convenient manner. The powdered anticaking agent should be added to the emollient-bearing prills after the emollient thereon has been substantially distributed because, otherwise, the anticaking powder will absorb emollient yielding lumps which interfere with the uniform distribution of emollient. If the emollient-bear-ing prills are agitated without addition of anticaking powder, the emol.lient will be taken up by the prills to form a free-flowing powder, and it now too late to add the powdered material since it will not associate with the prills and the mixture segregate~ on storage.
Continued agitation after addition of the anti-caking powder permits the absorption or ad~orption of the oily liquid to continue until a free-flowing particulate mixture is obtained. The finely divided anticaking partic-les remain associated with the urea prills even though there is no longer enough oily liquid on the surface to 30 cause these prills to stick together.
1~L13~32~ ~
The average particle size of the anticaking particle~ is preferably up to about l/4th the average diameter of the urea prills, and is more preferably less than l/~th its diameter.
The anticaking agents which may be used to prevent sticking as a result of water absorption include finely divided modified proteins, water soluble poly- ;
saccharides 8uch as corn starch, and the like, natural gums, hydrophobic starch, hydrophilic starch, magnesium stearate, colloidal silicon dioxide, tricalcium phosphate and sulfonated formaldehyde conden~ates. Salts which absorb moisture by forming hydrates and which do not induce significant alkalinity in the small proportions utilized can also be used, for example, anhydrous magensium sulfate. Anticaking agents are well known, per se, and their use is itqelf conventional. They are used herein in an amount of 0.05~/0 to 2%, based on the weight of the `~
urea prills.
To stabilize the p~l of the bath water, powdered buffering a~ents such a~ citric acid, fumaric acid, tartaric acid, and the like, can also be adhered onto the emollient-bearing prills together with the powdered anticaking agent. Similarly, powdered preservatives such as the lower alkanol esters of parahydroxybenzoic acid, e.g., methyl paraben, propyl paraben, mixtures thereof, and the like, can be incorporated into the bath bead composition when practicing the pressent invention.
Similarly, germicides like 2,4,~ trichloro-2'-hydroxy-dipehnyl ether can be used in an amount of 0.1% to 3%
of the weight of the beads.
.,. , . ., ~
1~3~Z~
Most of the composition~ described in our prior applications referred to earlier produce a substan-- tial amount of foaming so the problem of perfume ~eparation .
was not a factor.
The invention is illustrated in the following example.
Example Urea prills (pass No. 6 Sieve and retained on No. 20 Sieve -10 United States Sieve Series) 98.39 Perfume (honeysuckle oil) 0.5 Emollient (Alfonic 1412-60) 0.5 (*trademark) Water 0.1 Dye (Blue No. 1) 0.01 Anticaking agent - corn starch, water and oil absorptive, finely divided powder 0.5 A liquid mixture of the perfume and emolli~nt i8 formed and the water containing the di~solved dye is added thereto. The resulting dye-containing mixture i9 sprayed on the urea prills tumbling in a tube which i8 inclined to an angle of 5 providing a dwell time of 10 minutes.
The product falling out of the tube is sticky and the anticaking powder is di~tributed upon it. This mixture i8 tumbled in a second tube for 1 minute to provide a free flowing dyed bead product having the anti-caking powder adhered to the beads in a manner resisting segregation on storage.
Corn starch is uRually effective since it has the capacity to absorb both water and oil, and both are present. Curiously, and using corn starch, the starch . .
1~3~Z~3 can be added to the urea beads first and the remaining materials sprayed on as a second step. The result is a free flowing bead composition which is produced with reduced mixing time. Thus, corn starch represents a special case where the otherwise preferred procedure is not needed. Thus, an equivalent result in the present example can be obtained by dusting the corn starch onto the urea prills, and then spraying the mixture of the remaining components onto the dusted urea beads in a tumbler using a dwell time of 2 minutes to produce a free flowing bead composition directly.
_g_ :~
.
.
1~38Z8 onto said urea prills, agitating the mixture so-provided to ~:
distribute said perfume and said emollient over the surface ~ .
of said beads, distributing finely divided particles of anti-caking agent onto said prills while the surface thereof is sticky with the materials distributed thereon, and then continu-ing to agitate the mixture until the beads are free flowing with the particles of anticaking agent adhered thereto.
In this invention, the urea beads, sometimes termed prills, are tumbled with a mixture of 0.2% to 2.0% of an oily perfume and 0.3% to 2.0% of a water soluble polyalkylene ether emollient to cause the perfume and the emollient to be distributed over the beads. All proportions herein are by weight unless otherwise stated, and the above proportions are based on the weight of the urea prills. The use of the selected emollient provides bath beads which keep the perfume from depositing on the walls of the bathtub - 2a -.. .
.. . . .
. . .
- -~138Z8 e~en thougll little or no oal11 is procluccd in tbc b~th l~ter.
Thc urca prills are prefcr.l~ly ~yc~ with a water solu~le ~ye to provide an attractive coloration for the ~eads and for the bathwater in which thc beads arc dissolvcd. It has been foun~ that watcr can be used in the material applicd to the urca prills in an amount of from 5-20o of the total weight of perfume and emollient to provide a water-containing liquid spray in w11ic1l the desired dye can be dissolve~. In this way the separate step of tumbling the prills with powdered dye can be e]iminated, and this is helpful to the use of continuous processi11g where the number of points at which extraneous materials are brought into the process is desirably minimized.
Another aspect of this invcntion is the application of finely divided particles of antica1cing agent to the urea prills, usually after the perfume and emollient have been distributed over the surface of the prills~
but before the prills are dry enough to be free flowing, in order that the ;
anticaking particles will adhere to the beads in a nonsegregating fashion.
Using corn starch, this same result can be obtained in an even more effective mamler.
The urea beads or prills are Teadily available in commerce, and their characteristics and use in bath bead compositions is moro fully dis-cussed in our copending applica~ions Serial Nos, 25~,675 and 273,272, The need to perfume compositions intended to be used in the bath is self-ovident, but when oily perfumes are used in a low foaming or non-foaming bath composition, these oils form a scum on the walls of the bathtub and this is undesirable, Perfumes, as a class are oily materials, and are illustrated by rose oil, honeysuckle oil, lilac oil, lemon oil, and the like.
The water soluble polyalky]ene ether emollients can be ~-of various types, but it is l~referred to employ aliphatic alcohols having from 8-22 carbon atoms, and ~;;
. .
. ; . ~ ' " ~138Z8 more preferably, straight chain alkanols containing from ~ -~
9-16 carbon atoms, ~hich are adducted with from 6 to 12 mols of ethylene oxide per mol of alcohol. These have a hydrocarbon portion of sufficient length to provide an emollient function, and they posseqs sufficient ethylene oxide units to provide a surfactant function which keeps the oily perfume from adhering to the bath-tub walls.
As will be evident, the oily perfume and the polyalkylene ether emollient are used in small amount, and other materials which may optionally be added are also used in small amount 80 t'nat the urea beads will constitute at least about 92% of the compo~ition, and -more preferably, at least about 95% of the weight of the composition.
Water soluble dyes suitable for the present purposes are food, drug and cosmetic dyes or drug and cosmetic dye~, these being normally u8ed as color addi-tives in beverages, confections, and/or pharmaceuticals.
20 The dyes can be of any desired color, in finely divided ;
solid or crystalline ~tate, and can be selected from nitro, monoazo, diazo, phthalocyanine, quinoline, xanthene, tri-acrylmethane, indigoid, vegetable dyes, and the like.
Blue and green dyeq are preferred a~ being generally more attractive for the present purposes. Illustrative suit-able dye is FD&C B}ue Mo. 1, i.e., a color additive which is principally the disodium salt of ethyl (4-[para-[ethyl-(metha-sulfobenzyl)amino]-alpha-(ortho-sulfophenyl)benzyl-idene)-2,5-cyclohexadien-1-ylidene] (meta-sulfobenzyl) ammonium hydroxide inner salt with smaller amounts of . .
:~il38Z8 the isomeric disodium salts of ethyl[4-(para-[ethyl(para-sulfobenzyl)amino]-alpha-(orthosulfophenyl)benzylidene)-2, S-cyclohexadien-l-ylidene] (parasulfobenzyl) ammonium hydroxide inner salt and ethyl[4-(paraethyl(ortho-sulfo-benzyl)amino]-alpha-~ortho-sulfophenyl)benzylidene)-2,5-cyclohexadien-1-ylidene] (ortho-sulfobenzyl) ammonium -hydroxide inner salt.
From the standpoint of producing a dyed bead composition, it iB de~irable to be able to apply the perfumes, emollients and dyes in a single application step. For this purpose it haq been found, that from 5%
to 20% of the total weight of perfume and emollients can be constituted by water, and the dye which i~ desired to be applied can be dissolved in water 30 that the liquid mixture of oily dye, emollients and dye-containing water can be sprayed onto the urea prills with all of these components being absorbed simultaneou~ly.
The initial mixture which include~ the urea beads or prills and the oily liquid mixture, including the emollient, forms an initially sticky mass.
Urea prills normally have a relatively dull surface which becomes shiny when the oily emollient is distributed thereon, and this shine can be used to measure the uniformity of distribution of the oily liquid. Thus, after addition of the emollient, the combination i~
agitated (tumbled) until the prills present a substantially uniform shiny appearance. Preferably, the prill-and-emollient combination is tumbled or otherwise agitated until the oily materials are at least partially absorbed or adsorbed and individual emollient-bearing prills :, ,: , . .
~1138ZB
begin to move relative to one another or separate from one another.
It i~ important that the bath beads include a particulate anticaking agent which is uniformly dis-tributed and which does not segregate on storage. For this purpose, the sticky surfaces of the emollient-bearing prills are coated with the particles of anti-caking agent having a particle size which is substantially less than the size of the urea prills. The coating opera-tion can be carried out in a tumbling barrel, a rotatingpan mixer, an inclined open-ended rotary drum, by pass-ing the prills through a fluidized bed of the anticaking agent, or in any other convenient manner. The powdered anticaking agent should be added to the emollient-bearing prills after the emollient thereon has been substantially distributed because, otherwise, the anticaking powder will absorb emollient yielding lumps which interfere with the uniform distribution of emollient. If the emollient-bear-ing prills are agitated without addition of anticaking powder, the emol.lient will be taken up by the prills to form a free-flowing powder, and it now too late to add the powdered material since it will not associate with the prills and the mixture segregate~ on storage.
Continued agitation after addition of the anti-caking powder permits the absorption or ad~orption of the oily liquid to continue until a free-flowing particulate mixture is obtained. The finely divided anticaking partic-les remain associated with the urea prills even though there is no longer enough oily liquid on the surface to 30 cause these prills to stick together.
1~L13~32~ ~
The average particle size of the anticaking particle~ is preferably up to about l/4th the average diameter of the urea prills, and is more preferably less than l/~th its diameter.
The anticaking agents which may be used to prevent sticking as a result of water absorption include finely divided modified proteins, water soluble poly- ;
saccharides 8uch as corn starch, and the like, natural gums, hydrophobic starch, hydrophilic starch, magnesium stearate, colloidal silicon dioxide, tricalcium phosphate and sulfonated formaldehyde conden~ates. Salts which absorb moisture by forming hydrates and which do not induce significant alkalinity in the small proportions utilized can also be used, for example, anhydrous magensium sulfate. Anticaking agents are well known, per se, and their use is itqelf conventional. They are used herein in an amount of 0.05~/0 to 2%, based on the weight of the `~
urea prills.
To stabilize the p~l of the bath water, powdered buffering a~ents such a~ citric acid, fumaric acid, tartaric acid, and the like, can also be adhered onto the emollient-bearing prills together with the powdered anticaking agent. Similarly, powdered preservatives such as the lower alkanol esters of parahydroxybenzoic acid, e.g., methyl paraben, propyl paraben, mixtures thereof, and the like, can be incorporated into the bath bead composition when practicing the pressent invention.
Similarly, germicides like 2,4,~ trichloro-2'-hydroxy-dipehnyl ether can be used in an amount of 0.1% to 3%
of the weight of the beads.
.,. , . ., ~
1~3~Z~
Most of the composition~ described in our prior applications referred to earlier produce a substan-- tial amount of foaming so the problem of perfume ~eparation .
was not a factor.
The invention is illustrated in the following example.
Example Urea prills (pass No. 6 Sieve and retained on No. 20 Sieve -10 United States Sieve Series) 98.39 Perfume (honeysuckle oil) 0.5 Emollient (Alfonic 1412-60) 0.5 (*trademark) Water 0.1 Dye (Blue No. 1) 0.01 Anticaking agent - corn starch, water and oil absorptive, finely divided powder 0.5 A liquid mixture of the perfume and emolli~nt i8 formed and the water containing the di~solved dye is added thereto. The resulting dye-containing mixture i9 sprayed on the urea prills tumbling in a tube which i8 inclined to an angle of 5 providing a dwell time of 10 minutes.
The product falling out of the tube is sticky and the anticaking powder is di~tributed upon it. This mixture i8 tumbled in a second tube for 1 minute to provide a free flowing dyed bead product having the anti-caking powder adhered to the beads in a manner resisting segregation on storage.
Corn starch is uRually effective since it has the capacity to absorb both water and oil, and both are present. Curiously, and using corn starch, the starch . .
1~3~Z~3 can be added to the urea beads first and the remaining materials sprayed on as a second step. The result is a free flowing bead composition which is produced with reduced mixing time. Thus, corn starch represents a special case where the otherwise preferred procedure is not needed. Thus, an equivalent result in the present example can be obtained by dusting the corn starch onto the urea prills, and then spraying the mixture of the remaining components onto the dusted urea beads in a tumbler using a dwell time of 2 minutes to produce a free flowing bead composition directly.
_g_ :~
.
.
Claims (11)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. An emollient-containing urea bath bead composition which produces little or no foam in the bath water comprising urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient consituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, whereby the formation of an oily scum when the bath bead composition is dissolved in water is minimized.
2. A bath bead composition as recited in claim 1 in which said urea prills are dyed with a water soluble dye.
3. A bath bead composition as recited in claim 1 in which said alcohols are straight chain alkanols containing from 9-16 carbon atoms.
4. A bath bead composition as recited in claim 1 in which said urea prills constitute at least 92% of the composition.
5. A bath bead composition as recited in claim 4 in which finely divided particles of anticaking agent are adhered to said urea prills.
6. A bath bead composition as recited in claim 5 in which said anticaking agent is corn starch.
7. A method of producing a bath bead composition which comprises urea prills having absorbed therein from 0.2% to 2.0% of an oily perfume and from 0.3% to 2.0% of a water soluble polyalkylene ether emollient consituted by aliphatic alcohols having from 8-22 carbon atoms adducted with from 6-12 mols of ethylene oxide per mol of alcohol, based on the weight of the urea prills, said method comprising spraying a liquid mixture of said oily perfume and said emollient onto said urea prills, and agitating the liquid mixture so provided to distribute said perfume and said emollient over the surface of said beads.
8. The method of claim 7 further comprising distributing finely divided particles of anticaking agent onto said prills while the surface thereof is sticky with the materials distributed thereon, and then continuing to agitate the mixture until the beads are free flowing with the particles of anticaking agent adhered thereto.
9. A method as recited in claim 8 in which said liquid mixture of perfume and emollient contains from 5% to 20% of water, based on the total weight of perfume and emollient, and a water soluble dye is dissolved in said water.
10. The method of claim 7 wherein said liquid mixture contains 5% to 20%
of water, based on the total weight of perfume and emollient, and said water has a water soluble dye dissolved therein, said sprayed urea prills being tumbled to distribute the liquid mixture over the surface of said prills and to cause said prills to be dyed by said dye.
of water, based on the total weight of perfume and emollient, and said water has a water soluble dye dissolved therein, said sprayed urea prills being tumbled to distribute the liquid mixture over the surface of said prills and to cause said prills to be dyed by said dye.
11. A method as recited in claim 10 in which corn starch is distributed over said urea prills before the liquid mixture of oily perfume, emollient, water and dye is sprayed thereon.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA327,855A CA1113828A (en) | 1979-05-18 | 1979-05-18 | Emollient-containing urea-based bath bead composition and the production thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA327,855A CA1113828A (en) | 1979-05-18 | 1979-05-18 | Emollient-containing urea-based bath bead composition and the production thereof |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1113828A true CA1113828A (en) | 1981-12-08 |
Family
ID=4114226
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA327,855A Expired CA1113828A (en) | 1979-05-18 | 1979-05-18 | Emollient-containing urea-based bath bead composition and the production thereof |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1113828A (en) |
-
1979
- 1979-05-18 CA CA327,855A patent/CA1113828A/en not_active Expired
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