FR2793386A1 - Deodorant and bactericidal composition comprising mixture of porous carrier and silver-, copper- and/or zinc-exchanged zeolite, useful as litter for domestic animals, especially cats - Google Patents

Abstract

In a composition (I) comprising a porous material or support (SM), at least 0.1 wt. % of (I) is formed by at least one silver-, copper- and/or zinc-exchanged natural or synthetic zeolite (ZL) having Si/Al ratio 1-100. An Independent claim is included for the preparation of (I).

Description

<U> Improved odor control bactericidal compositions, their </ U> <U> manufacturing processes and their uses as pet bedding and as </ U> <U> pet bedding additives </ U> FIELD OF THE INVENTION This invention relates to compositions which, once in contact with bodily fluids and / or manure of animal or human origin, reduce the odors due to the bacterial decomposition of these fluids and excrements and have bactericidal properties. These compositions can be used in particular for the manufacture of pet bedding.

PRIOR ART Pet litter, in particular litter for cats, is generally in the form of porous mineral matter grains, most often clay, intended to absorb animal waste. These litters must be regularly and frequently replaced because of the foul odors and unpleasant odors they develop once soiled by animal dung (and not because of the saturation of the capacity of the litter to absorb the fluids).

The company CLOROX has proposed bedding, odor control, for pets and familiar in its patents US 5.094.190 and US 5.176.108, litters obtained by incorporation of polyborates or boric acid mixture and borax grains clay litter. Silver, copper and zinc salts have been known for a long time for their broad germicidal activity. For example, the use of silver nitrate as a sterilizing agent in the eyes of newborns, the application of Bordeaux mixture in oenology, a slurry consisting essentially of copper salts and the use of known zinc salts may be mentioned. for their antifungal properties. But the tendency of these silver, copper and zinc ions to be reduced in metallic form is often a brake on their use. It has been proposed to immobilize these ions on a mineral support in order to increase their dispersion and avoid their tendency to reduce. Such mineral supports are, for example, zeolites (see for example US Pat. No. 2,066,271 which describes zeolites partially exchanged with silver and the bactericidal action of the latter in the treatment of drinking water).

SUMMARY OF THE INVENTION The subject of the present invention is improved odor control compositions, that is, compositions, which, when in contact with body fluids and / or faeces of animal origin or human, diminish the odors they generate, and possess besides bactericidal properties; these compositions comprise at least one porous substance capable of absorbing fluids, hereinafter the support, and at least 0.1% of the total mass of the composition consists of one or more natural or synthetic zeolites of Si / Si ratio; AI between 1 and 100 exchanged with silver, copper and / or zinc.

As a porous support capable of absorbing fluids, it is possible to use porous materials of mineral origin, based on limestone, marl or fibrous clay of the attapulgite or sepiolite type, but also materials of plant origin. as for example based on cellulose or synthetic such as for example porous materials based on polymer (s).

The zeolites of the compositions according to the invention may be chosen from natural or synthetic zeolites having an Si / Al ratio of between 1 and 100 and are preferably chosen from zeolites having an Si / Al ratio of less than 4 and advantageously zeolites of type A, X or Y; they preferably have either 0.5 to 10 of their exchangeable cationic sites (expressed in stoichiometry) occupied by silver ions, or at least 10% of their exchangeable cationic sites occupied by copper and / or zinc ions.

The amount of zeolite (s) exchanged in the compositions according to the invention is preferably between <B> 0.01% </ B> and 10% of the total mass of the composition. The amount of copper and / or zinc bactericidal ions in the compositions according to the invention is preferably greater than 1% of the total mass of the composition whereas when the amount of bactericidal silver ions in the compositions according to the invention is between 10 ppm and 0.4%, an anti-odor and bactericidal equivalent effect is obtained.

The amount of zeolite (s) exchanged in the litter is preferably between 0.01% and 10% of the total weight of the litter.

The compositions according to the invention can be used as litters for pets, and especially as litters for cats. They replace conventional litter advantageously on the one hand with their bactericidal power and on the other hand thanks to their ability to reduce the unpleasant odors generated by the bacterial decomposition of pet excrement and body fluids thus prolonging the duration of use of litter according to the invention compared to conventional litters.

The pet litters according to the invention consist essentially of the compositions according to the invention described above and are, like conventional litters, in the form of grains of average particle size between a few tenths of millimeters and a few millimeters. They can be prepared by simple dusting of zeolite powder exchanged on conventional litters, soiled or not, or obtained according to one of the two manufacturing processes detailed below. The first method consists in mixing the porous mineral material of the support, ground in powder form, with the zeolite or zeolites exchanged with the bactericidal ions also in powder form and then putting the granule-shaped mixture to the desired particle size (here an average grain size of between a few tenths of a millimeter and a few millimeters) then to dry the grains thus formed at a temperature below 150 C so as to agglomerate sustainably.

The second method consists in moistening the support of the litter (whose grains are in the desired particle size, in this case an average particle size of between a few tenths of a millimeter and a few millimeters) and in spraying it with powder of the zeolite or exchanged zeolites. with the bactericidal ions in a mixing apparatus, for example in a drum so as to cover the surface of the grains of the support with the zeolite powder (s), then to dry the support thus floured at a temperature below 150 C to make adhere the powder particles to the surface of the grains of the support.

These two methods are easy to implement and make it possible to obtain litters that better support handling and storage than litters obtained by simple dusting. It would not be departing from the scope of the invention by dusting with zeolite powder exchanged a litter obtained according to one or the other of the two methods described above to prolong its bactericidal and anti-odor efficiency.

The compositions according to the invention in the form of grains can be used as bedding for domestic animals staying for example in stables or stables (sheep, cattle and equine animals), hutches (rabbits), etc. ; they can also be used as bedding additives for domestic animals, litters which are most often based on straw, dry leaves, chips and / or sawdust.

When the compositions according to the invention are used as pet litter additives, they can be spread by the operator either in the form of powder or in the form of grains of average particle size comparable to that of pet litter directly on the ground. litter in place.

As for pet bedding, it is also possible to sprinkle zeolite powder exchanged directly on the litter, soiled or not. EXAMPLE 1 (preparation of a zeolite exchanged with silver) 100 g (counted in anhydrous equivalent) of zeolite X sold under the trade name Siliporite G5 by the company Ceca SA are suspended in 300 cm3 of water. The pH of the suspension is lowered from 10.5 to 8 by adding 13 cm3 of 2N nitric acid. 18 cm 3 of a 0.5 M solution of silver nitrate are then added dropwise over a period of approximately 15 minutes and the reaction mixture is stirred for 2 hours at room temperature. Silver-exchanged zeolite is obtained which is filtered and dried for 2 hours in a ventilated oven at 80 ° C., then ground with a Retsch-type knife mill equipped with a stirrer. gate 80 Nm opening. Under these exchange conditions, it is found that all the silver is trapped in the zeolite (at equilibrium, only 5 ppb of silver remains in the solution). The zeolite contains about 1% by weight of silver in ionic form. This zeolite is exchanged with 1% silver ZEO-X Ag 1. <U> EXAMPLE 2 (preparation of a zeolite exchanged with silver) </ U> A zeolite X exchanged at 0 is prepared in the same way , 2% from a solution of 0.1 M silver nitrate. This zeolite is exchanged with 0.2 silver ZEO-X Ag 0.2. EXAMPLE 3 (preparation of a zeolite exchanged with silver) A zeolite exchanged with 4 of silver from a solution of nitrate is prepared in the same way as in Example 1 of silver 2 M. This zeolite is exchanged with 4% silver ZEO-X Ag 4. <U> EXAMPLE 4 (preparation of litters according to the inven </ U> tion according to the <U> the 'process) Litters according to the invention are prepared by incorporating one of the zeolites of the preceding examples into clay grains; the operation is carried out in a LODIGE-type kneader into which milled attapulgite having a refusal at 80 Nm of less than 10% and water is introduced until an onset of aggregation of the clay particles appears; 0.1 part by weight of ZEO-X Ag i is then added per 100 parts of clay (counted in dry equivalents at 110 ° C.), and the mixture is kept stirring for 10 minutes by spraying with water. medium of a nozzle.

The grains thus obtained are then dried at 150 ° C. and granulometric selection so as to retain only the fraction of grains having a particle size of between 1 and 4 mm. Other litters according to the invention are prepared by incorporating, according to the detailed procedure above, 0.5 or 1% by weight of ZEO-X Ag i.

<U> EXAMPLE <SEP> 5 <SEP> (preparation <SEP> of a <SEP> synthetic <SEP> urine <SEP> and <SEP> of a <SEP> inoculum) </ U>
<tb> A <SEP> 1 <SEP> I <SEP> water <SEP> distilled <SEP> freshly, <SEP> on <SEP> adds <SEP> the following <SEP> compound <SEP>
<tb> Urea <SEP> 25 <SEP> g
<tb> NaCl <SEP> 9 <SEP> g
<tb> K2S04 <SEP> 4 <SEP> g
<tb> (NH4) 2SO4 <SEP> 2.5 <SEP> g
<tb> MgS04 <SEP> 0.6 <SEP> g
<tb> Glucose <SEP> 5 <SEP> g
<tb> Acetate <SEP> of <SEP> calcium <SEP> 0.7 <SEP> g and 5 g of yeast extract.

This synthetic urine is stored in a refrigerator at 4 C.

In parallel, <SEP> on <SEP> prepares <SEP> one <SEP> inoculum <SEP> of the following <SEP> bacteria <SEP>
<tb><i> - <SEP> Enterococcus <SEP> faecalis </ I><SEP> ATCC <SEP> 29212
<tb><I> - <SEP> Escherichia <SEP> coli </ I><SEP> LMG <SEP> 2092
<tb><I> - <SEP> Proteus <SEP> mirabilis </ I><SEP> LMG <SEP> 2954 in a culture medium consisting of 5 gll of Naci, 5 gll of peptone, 1 gll of extract of beef and 2 gll of yeast extract. The inoculum is stored for 48 hours at 37 ° C.

EXAMPLE 6 A sample of 30 g of the granules obtained in Example 4 is placed in rectangular polyethylene boxes with a surface area equal to 20 cm 2 over a thickness of approximately 2 cm and 20 ml of the synthetic urine of Example 5 inoculated at 104 cfulml. Then the boxes are closed and incubated in an oven for 24 hours at 37 C.

A panel of 8 trained people (hereinafter referred to as the jury) assesses the smell of each of the boxes brought to room temperature and open. The jury assigns a score between 1 and 6: the note 1 corresponding to no perceptible odor and the note 6 denoting a very strong smell. Below is the average of the results (each sample being prepared and tested in duplicate by each of the members of the jury).

Litter <SEP> tested <SEP> Note <SEP> of <SEP> Jury
<tb> Attapulgite <SEP> only <SEP> 5.1
<tb> Attapulgite <SEP> +1 <SEP>% <SEP> ZEO-X <SEP> Ag <SEP> 0.2 <SEP> 3
<tb> Attapulgite <SEP> + <SEP> 1 <SEP>% <SEP> ZEO-X <SEP> Ag <SEP> 1 <SEP> 3,2
<tb> Attapulgite <SEP> + <SEP> 0.1% <SEP> ZEO- <SEP> X <SEP> Ag <SEP> 4 <SEP> 1.14
<tb> Attapulgite <SEP> + <SEP> 1 <SEP>% <SEP> ZEO-X <SEP> Ag <SEP> 4 <SEP> 1
<tb><U> Attached </ U> lgi <U> te </ U><SEP> + <SEP> 4 <SEP>% <SEP> ZEO-X <SEP> Ag <SEP> 4 <SEP> 2 The above results clearly show the anti-odor efficacy of the absorbent compositions of the invention as well as their bactericidal effect. The most effective zeolites are found to be the zeolites exchanged with 4% silver when the results of the attapulgite litter and 1ZEO-X Ag 1 are compared with the attapulgite and 0 1% ZEO-X Ag 4, it can be seen that the efficiency of the zeolite exchanged at 4% in silver is higher than that of the zeolite exchanged at 1% whereas the total amount of silver in the litter is lower.

EXAMPLE 7 (preparation of a litter according to the invention according to the 2 "method) A litter according to the invention is prepared from cat litter marketed by the Société Grenobloise d'Importation et of Export consisting of sepiolite grains of average particle size between 3 and 7 mm, the grains of which are covered with ZEO-X Ag 4 exchanged zeolite according to the 2nd method. 200 g of litter particles are rotated on a granulator plate on which about 85 ml of water are sprayed and the system is allowed to equilibrate by absorption of water. When the surface of the grains is sufficiently wet (tacky to the touch), about 2 g of ZEO-X Ag 4 are added and the granulator plate is allowed to rotate for a further 5 minutes so as to allow the ZEO-X Ag 4 powder to to stick homogeneously on sepiolite grains. The grains thus coated are then dried in an oven at 150 ° C. for 1 hour. <U> EXAMPLE 8 </ U> 10 ml of the synthetic urine prepared in Example 5 are poured into 10 g of the litter according to the invention of Example 7 and for comparison on 10 g of litter constituted only of sepiolite.

After storage at room temperature for 48 hours, a panel of 10 untrained persons assesses the odor released by these two litters: the odor of the litter according to the invention is unanimously declared to be low (little inconvenient) then that the smell of untreated sepiolite grains is declared strong (very uncomfortable).

Claims (11)

<U> CLAIMS </ U> 1. Composition comprising a porous substance or support and of which at least 0.1% of the total mass of the composition consists of at least one natural or synthetic zeolite of Si / Al ratio of between 1 and 100 exchanged with silver, copper and / or zinc. 2. Composition according to claim 1 characterized in that the support is of mineral origin, based on limestone, marl or fibrous clay attapulgite type or sepiolite. 3. Composition according to claim 1 or 2, characterized in that it contains at least one zeolite exchanged with silver, copper and / or zinc type A, X or Y, and preferably contains at least one zeolite exchanged for money. 4. Composition according to any one of claims 1 to 3, characterized in that the exchanged zeolites or zeolites have between 0.5 to 10% of their cationic exchangeable sites (expressed in stoichiometry) occupied by copper ions, zinc and / or or money. 5. Composition according to any one of claims 1 to 4, characterized in that the amount of zeolite (s) exchanged in the composition is between 0.1% and 10% of the total weight of the composition. 6. Composition according to any one of claims 1 to 5 characterized in that it consists essentially of grains of average particle size between a few tenths of millimeters and a few millimeters. 7. A process for preparing a composition as defined in claim 6, comprising mixing the powder of the porous substance with the zeolite powder (s) exchanged and then agglomerating the mixture to the desired particle size and dry it. 8. A process for preparing a composition as defined in claim 6, consisting in moistening the porous substance whose average particle size is between a few tenths of a millimeter and a few millimeters and spraying it with powder of the zeolite or zeolites exchanged in a mixing apparatus so as to cover the surface of the grains of the porous substance with the zeolite powder (s) exchanged (s), then to dry the porous substance and floured at a temperature below 150 C to adhere the powder particles on the surface of the grains. 9. A process for preparing a composition as defined in claim 6, consisting of simply sprinkling the porous substance whose average particle size is between a few tenths of millimeters and a few millimeters with powder of the exchanged zeolite or zeolites. 10. Use of a composition as defined in claim 6, as litter for pets, especially for cats. 11. Use of a composition as defined in any one of claims 1 to 6 as an additive for litter for pets.