JP5456243B2 - Cat sand - Google Patents

Description

  The present invention relates to cat sand, and more particularly to cat sand that can effectively suppress malodor of cat urine.

  Since clay exhibiting water swellability such as bentonite can treat urine as a solid, it is widely used as toilet sand for pets. Such toilet sand has a problem that the deodorizing effect against bad or bad urine odor is not sufficient. For this reason, it is conceivable to carry perfume on toilet sand, but when perfume is carried on water-swellable clay minerals such as bentonite, the perfume is gradually released, showing sustained release of the perfume. It is effective in that it emits a fragrance over a long period of time, but it does not emit a great deal of aroma during actual use (at the time of excrement) when the most bad odor is emitted, and its deodorizing effect is not sufficient.

For this reason, Patent Document 1 proposes pet litter (pet excrement treatment agent) that uses highly adsorbent zeolite particles instead of water-swellable clay and has a fragrance supported on the zeolite particles. Has been.
JP 2000-236766

  That is, the toilet sand of Patent Document 1 adsorbs malodorous components such as ammonia by zeolite particles and at the same time has a high deodorizing function due to the fragrance emitted by the fragrance. Such a solidification function is impaired, and there is a problem that the disposal property becomes unsatisfactory. Moreover, although the deodorizing effect with respect to feces and urine of dogs and the like can be achieved, the deodorizing effect with respect to cat urine is not yet sufficient.

  In addition, the present inventors previously proposed a perfume-carrying pet toilet sand in which a perfume is carried on a granular material containing a water-swellable clay mineral component such as bentonite and an opal component (Japanese Patent Application No. 2004-362605). ). This toilet sand has a solidifying function due to water swelling performance, and at the same time, continuously shows a deodorant property against bad odors or odors against ammonia etc., and exhibits a high deodorant property especially during excrement. is there.

  However, the fragrance-carrying pet toilet sand as described above can effectively suppress malodor derived from manure for pets such as dogs, as with the toilet sand of Patent Document 1, but against cats. Does not have a sufficient odor prevention effect. That is, among various pets, urine of cats, particularly male cats, has a significant odor, and there is a demand for toilet sand that sufficiently suppresses such urine odors of cats. .

  Accordingly, an object of the present invention is to provide cat litter, that is, cat litter that can effectively suppress the malodor of cat urine.

According to the present invention, it contains a water- swellable clay component and an acidic additive selected from citric acid, fumaric acid and aluminum sulfate,
The water-swellable clay component includes a clay component having a pH of 10 or more measured at a concentration of 5% by weight using 1% saline as an auxiliary agent,
The acidic additive is present in an amount of 0.05 to 1 part by weight per 100 parts by weight of the water-swellable clay component and spread on a part of the particles of the water-swellable clay component. Cat sand characterized by this is provided.

  In the cat sand of the present invention, the acidic additive is spread on a part of the particles of the water-swellable clay component together with the water-swellable clay component, that is, on the surface or the surface layer portion of the part of the particles. It is an important feature that it is spread. That is, since this cat sand contains a water-swellable clay component, it has a solidifying function due to water swelling, and thus has the property that it can be solidified by manure and easily discarded. By containing the acidic additive as described above, it is possible to effectively suppress the generation of bad odor in cat urine, and in particular, it is possible to suppress even the generation of severe odor such as male cat urine. It has an excellent effect which is not recognized at all in sand.

  In the present invention, the effect of effectively preventing the generation of cat odor by blending the acidic additive as described above has been found as a phenomenon by many experiments. Although the exact reason has not been clarified as to whether or not the occurrence can be prevented, the present inventors presume as follows.

That is, as a cause of bad odor in cat urine, urea (NH ₂ · CO · NH ₂ ) in urine is hydrolyzed by urease (hydrolyzing enzyme) to generate ammonia, and this ammonia causes bad odor. This has been known for some time. Such a bad odor due to ammonia is not limited to cats, but also to other pets. However, the enzyme activity of urease that generates ammonia is deactivated in an acidic region having a pH of 5 or less, particularly 4 or less, and an alkaline region having a pH of 10 or more. Therefore, in the cat sand of the present invention, by spreading the acidic additive on the surface of some water-swellable clay component particles, urease is deactivated and the generation of ammonia is suppressed. , Generation of malodor is suppressed. This is one of the reasons.

Further, as a cause of malodor of cat urine, for example, a kind of pheromone-like substance (hereinafter, also simply referred to as pheromone) that is particularly abundant in male cat urine is known. This pheromone candidate substance is a derivative of phenyrin, for example:
HS · C (CH ₃ ) ₂ · CH ₂ · CH ₂ · OH
HS · C (CH ₃ ) ₂ · CH ₂ · CH ₂ · O · CO · H
CH ₃ · S · C (CH ₃ ) ₂ · CH ₂ · CH ₂ · OH
CH ₃ · S · S · C (CH ₃ ) ₂ · CH ₂ · CH ₂ · OH
These are included in the urine of male cats, and this is a cause of the remarkable odor of male cat urine. The generation factor of the above phenyline derivative (pheromone) is considered as follows.

式中、Ｘは、カルボキシル基（ＣＯＯＨ）である、
で表されるフェニリン前駆体は、肝臓から排出されるγ−ＧＴＰ（γ−グルタミルトランスフェラーゼ）により分解され、下記式：
HOOC・CH_２・NH・CO・CH(NH_２)・CH_２・S・C(CH_３)・CH_２・CH_２・OH
で表されるフェニリン前駆体分解物が生成する。
尿中には、腎臓由来のコーキシンと呼ばれるタンパク質（カルボキシエステラーゼ類似の酵素）が含まれており、上記のフェリニン前駆体分解物は、このコーキシンの作用により更に分解され、グリシンと共に、下記式：
HOOC・CH(NH_２)・CH_２・S・C(CH_３)・CH_２・CH_２・OH
で表されるフェニリン（フェロモン前駆体）が生成する。このフェニリンが尿中に含まれる各種分解酵素や土壌などに含まれる微生物が保有する酵素などによって分解し、前述した数種のフェニリン誘導体（フェロモン候補物質）が生成し、これが著しい悪臭の元となるわけである。前記化学式で表した４種のフェロモン候補物質の中でも、下記式：
HS・C(CH_３)・CH_２・CH_２・OH
で表される３−メルカプト−３−メチル−１−ブタノールが、質量ともに代表的悪臭物質と考えられている。 That is, the following formula generated in the cat's body:

In the formula, X is a carboxyl group (COOH).
Is degraded by γ-GTP (γ-glutamyltransferase) excreted from the liver, and the following formula:
HOOC ・ CH ₂・ NH ・ CO ・ CH (NH ₂ ) ・ CH ₂・ S ・ C (CH ₃ ) ・ CH ₂・ CH ₂・ OH
The degradation product of a phenyline precursor represented by
The urine contains a protein (carboxyesterase-like enzyme) called kidney-derived cauxin, and the above ferrinin precursor degradation product is further decomposed by the action of this cauxin, and together with glycine, the following formula:
HOOC ・ CH (NH ₂ ) ・ CH ₂・ S ・ C (CH ₃ ) ・ CH ₂・ CH ₂・ OH
A phenyrin (pheromone precursor) represented by This phenyrin is decomposed by various degrading enzymes contained in urine and enzymes possessed by microorganisms contained in the soil, etc., and the above-mentioned several types of phenyrin derivatives (pheromone candidate substances) are produced, which causes a significant odor. That is why. Among the four pheromone candidate substances represented by the chemical formula, the following formula:
HS ・ C (CH ₃ ) ・ CH ₂・ CH ₂・ OH
In terms of mass, 3-mercapto-3-methyl-1-butanol is considered to be a typical malodorous substance.

  However, in the present invention, due to the spreading of the acidic additive described above, the activity of various degrading enzymes and microorganism-containing enzymes contained in the urine is deactivated in the part in contact with the acidic additive, and pheromone is produced from phenyloline. In addition to being suppressed, the activity of cauxin is also deactivated, so it is considered that the generation of phenyrin, which is the source of pheromones, is also effectively suppressed. That is, in the present invention, the generation of pheromone which is a source of significant odor is cut off from the origin due to the inactivation of cauxin and various enzymes, and this is the biggest reason why the generation of significant odor is prevented. Conceivable.

Further, in the present invention, the acidic additive as described above is blended, and at the same time, a component having a pH of 10 or more (hereinafter simply referred to as an alkali component) measured at a concentration of 5% by weight using 1% saline is contained. As a result, the effect of preventing bad odor is further improved. That is, as such an alkali component, a water-swellable clay component having a pH adjusted to the above alkali side is used, but the use of such an alkali component causes the generation of pheromones such as the above-mentioned cauxin. This is because the enzymes that cause ammonia generation such as inactivation of enzymes and urease are also inactivated, and the generation of malodorous components is effectively prevented. The above-mentioned examples show the effects of deodorizing and deodorizing pheromone and ammonia by inhibiting the activity of enzymes such as cauxin and urease. It can be typically evaluated by the “anti-enzyme deodorizing ability” shown as a performance test method.

Furthermore, the above-mentioned four kinds of compounds, which are said to be pheromone candidate substances having a specific odor generated from cat urine, are all sulfur-containing compounds and vaporize into weakly acidic gaseous substances. The effect of being strongly adsorbed and deodorized by the water-swellable clay component adjusted to the alkali side is also extremely large. This effect can be representatively evaluated by the “pseudo pheromone deodorizing ability” shown as a deodorizing performance test method in Examples described later. The pseudo pheromone substance used in this test method has the following formula:
HS ・ CH ₂・ CH ₂・ OH
It is 2-mercaptoethanol represented by these. The above-mentioned 3-mercapto-3-methyl-1-butanol, which is considered to be a typical malodorous substance in terms of mass, has the same basic structure [HS · (CH ₂ ) _n · OH)] and similar characteristics. It is suitable for use as a pseudo pheromone having a strange odor and chemical properties. Another advantage of this test method is that it can be easily procured as a reagent, like ethanethiol that has been used in this type of deodorizing performance test as a representative of sulfur-based malodorous substances.

  The cat sand of the present invention is toilet sand used for cats, and, as already mentioned, contains a water-swellable clay component, and further contains an acidic additive in some of the particles of the water-swellable clay component. Are spread.

<Water-swelling clay component>
The clay mineral mainly composed of the water-swellable clay component is derived from, for example, dioctahedral smectite, and has a three-layer structure in which an AlO ₆ octahedral layer is sandwiched between two SiO ₄ tetrahedral layers. The unit has a stacked structure in which the basic layer units are stacked in the c-axis direction. A part of Al in the above AlO ₆ octahedron layer is isomorphously substituted with Mg or Fe ^(II) , and a part of Si in the SiO ₄ tetrahedral layer is isomorphously substituted with Al and laminated in the c-axis direction. Metal cations (for example, Na ions) exist between layers of the basic layer units so as to compensate for the lack of charge due to isomorphous substitution. Such a dioctahedral smectite is considered to be produced by denatured volcanic ash, lava, etc. under the influence of seawater, and there are montmorillonite, beidellite, nontronite and the like in terms of clay mineral classification. Naturally produced so-called acid clay and bentonite are clays containing these smectites as a main component.

  Such a dioctahedral smectite has a property of swelling and solidifying when water is taken in between the layers of the basic layer unit. However, in the present invention, in particular, the layer contains a lot of Na ions and has a water swelling function. Large bentonite is preferred.

The water-swellable clay component has different water-swellability and solidification property depending on the amount of alkali metal ions such as Na ⁺ and K ⁺ and the amount of alkaline earth metal ions such as Ca ²⁺ contained between layers. It is preferable to exhibit suitable water swellability and solidification from the viewpoint of disposal treatment of cat sand after use. For example, the pH when measured at a concentration of 5% by weight using 1% saline is 10 or more. Preferably it is.

  Moreover, this water-swellable clay component is a main component of the cat sand of the present invention in order to ensure water-swellability and solidification for disposal, and is a component contained in a large amount in the cat sand. For this reason, when the pH of this water-swellable clay mineral component is on the alkali side more than necessary, there is a risk of adverse effects on the living body. Is preferably 12 or less.

The pH of the water-swellable clay component as described above can be easily adjusted by known means such as alkali treatment or acid treatment. That is, for those having a pH lower than necessary (for example, acid clay), this is treated with alkali carbonate such as sodium carbonate or alkali hydroxide to introduce sodium ions between layers. The pH can be improved. For extremely high pH bentonite and the like, the pH can be lowered by replacing sodium ions between layers with hydrogen ions (H ⁺ ) by treatment with an acid such as sulfuric acid.

<Acid additive>
In the present invention, the acidic additive particles spreading of the above water-swellable clay mineral component, the species' s that have a acidity degree that may inactivate various enzymes such cauxin or urease as described above acidic substance, i.e., various organic acids, although sulfuric acid aluminum is used, it is preferable various organic acids from the viewpoint of safety, the carbon in particular has and stability without problems such as odor Organic acids having a number of 3 to 6 are preferred, and fumaric acid, malic acid, succinic acid, tartaric acid, citric acid, gluconic acid, ascorbic acid and the like are most preferred. These organic acids are also used as food additives and are extremely safe for cats and humans. In addition, salicylic acid, trihydroxybenzoic acid and the like are considered to be effective in that antibacterial properties can be imparted. In any case, the spread of such an acidic additive can effectively suppress the generation of malodorous components such as pheromone and ammonia.

  The acidic additive is preferably used in an amount of 0.05 to 1 part by weight, particularly 0.1 to 0.5 part by weight, per 100 parts by weight of the water-swellable clay mineral component. That is, if the amount of the acidic additive used is greater than the above range, the water swellability or solidification property of the water swellable clay component may be significantly reduced. Moreover, when less than the said range, it becomes difficult to deactivate the activity of various enzymes effectively, and there exists a possibility that the malodor generation prevention ability may reduce. Therefore, if the amount of the acidic additive used is within the above range, the water swelling property of the water-swelling clay component particles spread only on the surface layer can be retained to some extent, so that the solidification performance of the whole cat sand can be improved. The deodorizing function can be exhibited without lowering.

  Furthermore, in the present invention, the acidic additive as described above is spread on about 3 to 40% by weight of the water-swellable clay component. It is suitable for sufficiently exhibiting solidification properties and at the same time ensuring good enzyme deactivation ability and exhibiting the effect of preventing malodor.

<Other ingredients>
In the present invention, together with the acidic additive, a high pH clay component having a pH measured at 5% by weight using 1% saline is 10 or more, preferably 12 or less is added as an auxiliary agent . That is, by adding such an auxiliary agent, the effect of preventing the odor of cat urine can be further improved. This is because various enzymes that generate pheromone and ammonia can be inactivated even in a high pH alkaline region.

  Such a high pH clay component should be used in a form that does not neutralize with the above-mentioned acidic additive. For example, among water-swellable clay components such as bentonite, the pH is adjusted to the above range. Alternatively, particles having an alkali component spread on the particle surface, such as bentonite or acid clay, and adjusted so as to exhibit a pH in the above-described range are used. In general, among water-swellable clay components such as bentonite, particles having a pH adjusted to the above range are suitable.

  In the present invention, such a high pH clay component is usually preferably used in an amount of 5 to 100 parts by weight, particularly 10 to 50 parts by weight per 100 parts by weight of the water-swellable clay mineral component.

  In the present invention, as long as the enzyme deactivation effect of the high pH clay component of the acidic additive and auxiliary agent spread on the water-swellable clay component particles described above is not impaired, it is conventionally blended in cat sand. It is also possible to blend various blending agents such as fragrances, copper compounds, silver compounds, polyphenols, and hydroxybenzoic acids. These compounding agents are generally used by spreading on the particle surface of the water-swellable clay mineral component described above.

  The fragrance is used to have a deodorizing effect on the urine of the cat, for example, rose oil, lavender oil, jasmine oil, buttery oil, carnation oil, lemon oil, orange oil, lemongrass oil , Bergamot oil, Bechuba oil, Clove oil, Zedan oil, Sandalwood oil, Eucalyptus oil, Cassia oil, Ganoderma oil, Ylang ylang oil, Citronella oil, Geranium oil, etc. 1 or 2 or more of synthetic fragrances such as vanillin, vanillin, methyl salicylate, cinnamylaldehyde, β-phenylethyl alcohol, geraniol, oxycitronellal, phenylacetaldehyde, piperonal.

  The perfume can be easily carried out by spraying the perfume onto the granular material by spraying or the like. This allows the perfume to permeate and hold between the above-mentioned water-swellable clay mineral components or between small pores. Thus, the sustained release property of the fragrance is ensured, and the stable deodorizing property can be secured over a long period of time.

  In addition, copper compounds, silver compounds, polyphenols, hydroxybenzoic acids, etc. are used for imparting antibacterial properties. Copper compounds include copper sulfate, copper nitrate, basic copper sulfate, basic sulfuric acid. Examples thereof include inorganic salts such as copper calcium salt (Bordeaux liquid), copper chloride and copper carbonate, and organic acid salts such as copper dicarboxylate. In particular, a water-soluble salt is preferable in that it can be easily attached to the surface of water-swellable clay mineral particles, and copper sulfate is most preferable in that it can be easily obtained at low cost. . The silver compound can be used in various forms such as a salt such as silver nitrate, a halide such as silver chloride, and other hydroxides, oxides, complexes, etc., but can be easily attached. In view of this, it is preferable that it is water-soluble, and silver nitrate is most preferable because it is easily available. Furthermore, examples of polyphenols include tea catechins, and examples of hydroxybenzoic acids include salicylic acid and trihydroxybenzoic acid.

  The cat sand of the present invention containing the various components described above is typified by the bentonite described above, and the water-swellable clay component of the soil is pulverized if necessary, classified to a predetermined particle size, or by extrusion or the like. In order to form a granular material of a predetermined size, and for some of the particles thus prepared, the acidic additive described above may be used together with a spreading agent (glue) as necessary to form an aqueous solution or It is made into an aqueous dispersion or organic solvent solution, spread by spraying, and the resulting acidic additive is spread on the surface or surface layer and the non-spread water-swellable clay component particles are dry-type It is manufactured by mixing with. In this case, the above-mentioned high pH clay component of the auxiliary agent is also mixed as a granular material similar to the above, and the copper compound used as a fragrance or an antibacterial agent is watered by spraying or the like, similar to the acidic additive. It is spread on the surface or surface layer of particles such as swellable clay mineral components.

  The water-swellable clay component particles generally have a minor axis of 0.5 to 8 mm and an aspect ratio in the range of 1 to 20 to absorb moisture, solidify or solidify, and handle the solidified product. The shape of the granular material is not particularly limited, and may be any of a spherical shape, a cubic shape, a cylindrical shape, a prismatic shape, a granular shape, a tablet shape, and an indefinite shape.

  The cat sand of the present invention described above can be used alone or, for example, natural zeolite or synthetic zeolite granular product, river sand, silica gel, newspaper, paper sludge molded product, large sawdust, Kanuma soil (Allophane). It can also be used in combination with 1 to 10 mm granular pulp or granulated paper.

The invention is illustrated by the following experimental example.
(1) pH measurement method Take 5 g of sample (in terms of anhydride) in a 100 ml beaker, add 95 g of 1% saline, and stir with a magnetic stirrer for 10 minutes. Incubate for 30 minutes and measure the pH of the resulting supernatant.

(2) Deodorization and deodorization performance test method <Anti-enzyme deodorization and deodorization ability>
100 g of a sample is placed in a 1800 ml glass bottle and sealed with a lid with a rubber inlet. Then, 10 ml of a 1.5% urea solution as a urine component solution and 4 ml of a 0.05% urease solution (derived from nata beans, prepared on the day of use) as an enzyme component solution are quickly mixed with a syringe. After putting this in a 25 ° C incubator for 1 hour, take it out, open the lid and conduct a sensory test in which five panelists smell the odor. evaluated.
1 ... all 5 panelists showed discomfort due to the strong pungent odor of ammonia.
2 ... 3 out of 5 panelists showed discomfort due to ammonia odor.
3 ... 5 out of 5 panelists felt less ammonia smell,
Other people hardly felt.
4 ... Isn't all five panelists feel the smell of ammonia?
There was no discomfort even if it felt slightly.
5 ... all five panelists did not feel ammonia smell.

(3) Deodorizing performance test method <pseudo pheromone deodorizing ability>
100 g of a sample is placed in a 1800 ml glass bottle and sealed with a lid with a rubber inlet. Then, 1 ml of 2-mercaptoethanol 0.0627 ^{w / v} % ethanol solution is injected with a syringe. After leaving at room temperature for 30 minutes, the lid was opened and a sensory test in which five panelists smelled was performed, and the pseudo-pheromone deodorizing ability was evaluated in four stages according to the following criteria.
1 ... All five panelists felt a strong 2-mercaptoethanol odor.
2. Of the 5 panelists, 3 or more people felt a weak 2-mercaptoethanol odor but others did not.
Of 3 panelists, 5 or less people felt a weak 2-mercaptoethanol odor but others did not.
4 ... Is all 5 panelists feeling almost no 2-mercaptoethanol odor?
There was no discomfort even if it felt slightly.
5: All 5 panelists did not feel 2-mercaptoethanol odor.

(4) Solidification performance test method <Solidification length>
Fill a container with 1 kg of sample so that the depth is 15 cm or more. 7 ml of 1% saline solution is poured from a height of 1 cm from the upper surface of the packed bed for 10 seconds. After 30 minutes, the solidified portion was taken out, and the length in the vertical direction with respect to the pouring direction was measured to obtain the solidified length.
<Solidification strength>
The solidification strength of the sample after the solidification length measurement was evaluated according to the following criteria.
A: Even if pressure is applied with a hand or finger, it does not collapse easily, and it hardly breaks even when it naturally falls from a height of 0.5 to 1 m.
○: Even if pressure is applied by hand or finger, it does not collapse easily, and even if it falls spontaneously from a height of 0.5 to 1 m, it will be partially destroyed but will not fall apart.
Δ: Crushes easily when pressure is applied by hand or finger, and breaks down even when it falls naturally from a height of 0.5 m or less.
X: Little or no solidified state.

  In addition, for the following experiment, water-swellable clay component (I), high pH clay component (HA) and acidic additive spreading clay components (a) to (d) were prepared by the following method.

Production of [water-swellable clay component (I)];
90 g of sodium carbonate was added to 4.25 kg of acid white clay A (water content 31.5%) from Odo, Shibata City, Niigata Prefecture, and kneaded three times using a single-screw extrusion granulator having a pore diameter of 10 mm. This was further granulated with a twin screw extrusion granulator having a pore diameter of 3 mm, dried at 170 ° C. for 3 hours, passed through a crusher / sieving machine, and pellet-shaped granules having a minor axis of 3 mm and a major axis of 4 to 7 mm (pH = 9). .5) was obtained.

Production of [high pH clay component (HA)];
90 g of sodium hydroxide was added to 4.25 kg of acid white clay A (water content 31.5%) produced in Odo, Shibata City, Niigata Prefecture, and kneaded three times using a single screw extrusion granulator having a pore diameter of 10 mm. This was further granulated using a twin screw type extrusion granulator having a pore diameter of 3 mm, dried at 170 ° C. for 3 hours, passed through a crusher / sieving machine, and pelleted granular material having a minor axis of 3 mm and a major axis of 4 to 7 mm (pH = 11.4).

Production of [acid additive spreading clay component (a)];
1 kg of the particles of the water-swellable clay component (I) prepared above was placed in a rotating cylindrical container, and 50 g of a 20% aqueous solution of aluminum sulfate was added dropwise thereto to obtain a granular material having aluminum sulfate spread on the surface.

Production of [acid additive spreading clay component (b)];
1 kg of the granular material of the water-swelling clay component (I) was put in a rotating cylindrical container, and 50 g of a 40% citric acid-water solution was dropped therein to obtain a granular material in which citric acid was spread on the surface.

Production of [acid additive spreading clay component (c)];
Put 1kg of water-swellable clay component (I) granules in a rotating cylindrical container, drop 50g of 20% citric acid-polyethylene glycol solution (40% aqueous solution of PEG # 4000) on it, and spread citric acid on the surface. A granular product was obtained.

Production of [acid additive spreading clay component (d)];
1 kg of the granular material of the water-swellable clay component (I) is put in a rotating cylindrical container, and 50 g of a 20% fumaric acid-polyethylene glycol solution (40% aqueous solution of PEG # 4000) dispersion (partially dissolved solution) is dropped. A granular material having fumaric acid spread on the surface was obtained.

<Examples 1-3>
The granular material of the water-swellable clay component (I) and the granular material of the acidic additive-extended clay component (a) are 90:10 (Example 1), 80:20 (Example 2), and 70:30, respectively. Mixing at a ratio of (Example 3), the cat sand of the present invention was obtained.

<Examples 4 to 6>
The granular material of the water-swellable clay component (I), the granular material of the high pH clay component (HA), and the granular material of the acidic additive-extended clay component (a) are respectively 60:30:10 (Example 7). , 53:27:20 (Example 8), 47:23:30 (Example 9), and the cat sand of the present invention was obtained.

<Examples 7 to 9>
The water-swellable clay component (I) granules and the acidic additive-extended clay components (b) to (d) are mixed at a ratio of 80:20, respectively. I got sand.

<Examples 10 to 12>
Granules of water-swellable clay component (I), granules of high pH clay component (HA), and granules of any of additive additive clay components (b) to (d) are obtained. The resulting granular additive additive clay component (b to d) was mixed in a ratio of 60:30:10 to obtain cat sand of the present invention.

The pH of each clay component of the granular materials obtained in Examples 1 to 12 and their mixing ratio, deodorization performance (anti-enzyme deodorization performance), deodorization performance (pseudo pheromone deodorization performance) and solidification performance (solidification length, solidification) The strength is shown in Table 1.
Thus, the cat sand of this invention obtained by Examples 1-12 showed the performance which was excellent in all in deodorizing deodorizing performance, deodorizing performance, and solidification performance.
Furthermore, when the cat sand of the present invention produced by the method of Example 12 was used in a room where a three-year-old male cat was raised as a pet, instead of the cat sand used so far, a trial was conducted for one month. The unpleasant urine odor peculiar to the conventional male cat emanating from the cat litter was weakened, and it became almost unnoticeable when using conventional commercially available bentonite cat sand (corresponding to Comparative Example 1 described later).

<Comparative Example 1>
A conventionally known cat sand consisting only of a granular material of the water-swellable clay component (I) was obtained.
Table 1 also shows the mixing ratio, deodorization performance (anti-enzyme deodorization capacity), deodorization performance (pseudo pheromone deodorization capacity), and solidification performance (solidification length, solidification strength) of each clay component of the granular material obtained in Comparative Example 1. It was shown to.

<Reference Example 1>
A performance test similar to that described above was carried out using a commercially available paper cat sand (paper sand, paper sand) formed by using pulp and recycled paper as raw materials, and the results are also shown in Table 1.

Claims (1)

Contains a water- swellable clay component and an acidic additive selected from citric acid, fumaric acid and aluminum sulfate,
The water-swellable clay component contains a clay component having a pH of 10 or more measured at a concentration of 5% by weight using 1% saline as an auxiliary agent,
The acidic additive is present in an amount of 0.05 to 1 part by weight per 100 parts by weight of the water-swellable clay component and spread on a part of the particles of the water-swellable clay component. Cat sand characterized by that.