DE4009618A1 - SPRAY-DRIED, AVIVATING DETERGENT ADDITIVE - Google Patents

Abstract

A granular additive for washing agents with brightening properties contains (A) 12.5 to 20 wt. % of a laminar silicate, (B) 52 to 65 wt. % of fine crystalline, synthetic zeolite (referred to the anhydrous substance), (C) 2 to 8 wt. % of sodium sulphate (referred to the anhydrous substance), (D) 1.5 to 8 wt. % of a sodium salt of a (meth)acrylic acid homopolymer or copolymer and (E) 0 to 30 wt. % of nonionic tensides from the class of polyglycol ethers, the difference from 100 % consisting of water.

Description

The present invention relates to the production of a granule ren detergent additive, which due to its content of layer silicating, d. H. fabric softening properties points. Due to the high proportion of ingredients with builder properties, it also has detergent properties. Detergent additives of the type mentioned are advantageously granu laren detergents added to modify their properties grace and improve. The agents according to the invention exist made of easily soluble granules that prevent abrasion and breakage are very stable and therefore very good for further processing on detergent and cleaning agent mixtures. You own one pronounced adsorption capacity for liquid to pasty washing medium components that can be easily washed in this way Allow medium granules to be introduced without reducing their flowability affect.

General information on layered silicate agglomerates can be found in DE-A 24 39 541 (US 39 66 629), but this document is not a spec zonal teaching for the production of granules of the following be written composition.

DE-A 35 41 410 (US 45 82 615, US 46 09 473) are soft known agglomerates of bentonite and sodium sulfate, ent  holding 1 part by weight of sodium sulfate for 3 to 5 parts by weight Bentonite. The sodium sulfate acts as a granule in these agents aids. Its comparatively high proportion is one considerable part of the deal, as there are no washing and cleaning Has properties and increases the salinity in the wastewater. The The agents are produced by granulating the constituents with simultaneous spraying of water, whereupon a dry the moist granules by means of hot air, for example in connected to a fluid bed dryer.

Detergent builders are known from EP-A 2 79 040, the 50 to 80 % By weight of finely crystalline zeolite, 5 to 25% by weight of bentonite and 0.5 contain up to 5 wt .-% cellulose ether as a binder. In addition can up to 5 wt .-% sodium sulfate, up to 1 wt .-% alkali and up to 5 % By weight of nonionic surfactants may be present. The funds should by spray drying an aqueous slurry the. Nothing is said about the Aviva effect of the funds. they can be very small, if at all, because the Ben tonite content in practice (examples) with a maximum of 8% by weight ver is equally low and special layered silicates with finish effect are not revealed.

A review of the information has also shown that with a Ge holds more than 12 to 15 wt Spray drying for significant technical problems bumps. The bentonites together with the cellulose ethers cause a very strong increase in viscosity due to swelling processes Slurry. The slurry must therefore be very sprayable be heavily diluted, for example to a water content of 60 and more weight percent. This not only leads to increased energy consumption need, but also to adverse product properties, since the  sprayed particles during the usual dwell time in the tower can be drained sufficiently. From the green mentioned they are not found in the cited document EP-A 2 79 040 games in which the spray products contain more than 8% by weight bentonite and contain more than 1% cellulose ether. The claimed maximum Amounts of 25% bentonite and 5% cellulose ether are therefore complete unrealistic. Far lower levels are found to be impractical.

The object is achieved by the present invention, means and to provide a suitable process for their production len with which a sufficient active ingredient content and thus a good leveling effect and favorable grain properties achieved will.

The invention relates to a spray-dried, finishing acting detergent additive, containing

• A) 12.5 to 20% by weight of a layered silicate,
• B) 50 to 65 wt .-% fine crystalline, synthetic zeolite (Proportion based on anhydrous substance),
• C) 2 to 8 wt .-% sodium sulfate (proportion on anhydrous substance based),
• D) 1.5 to 8% by weight of the sodium salt of a homopolymeric or copolymeric (meth) acrylic acid,
• E) 0 to 30% by weight of nonionic surfactants from the class Polyglycol ether,

Rest of water.

Suitable layered silicates (component A) that belong to the group with Count water-swellable smectites. B. those of the general my formulas

(OH) ₄ Si _8-y Al _y (M _gx Al _4-x ) O₂₀
Montmorrilonite

(OH) ₄ Si _8-y Al _y (M _g6-z Li _z ) O₂₀
Hectorite

(OH) ₄ Si _8-y Al _y (M _g6-z Al _z ) O₂₀
Saponite

with x = 0 to 4, y = 0 to 2, z = 0 to 6.

In addition, small amounts of iron can be incorporated into the crystal lattice of the layered silicates according to the above formulas. Furthermore, due to their ion-exchanging properties, the layered silicates can contain hydrogen, alkali and alkaline earth ions, in particular Na⁺ and Ca ⁺⁺ . The amount of water of hydration is usually in the range of 8 to 20% by weight and depends on the swelling condition or the type of processing. The particle size is in the range from 0.05 to 25 µm, usually less than 10 µm. Layered silicates are preferably used which are largely free of strongly coloring iron ions and calcium ions, for example on account of an alkali treatment.

The content of layered silicates in the agents is 12.5 to 20 % By weight, preferably 14 to 20% by weight and in particular 15 to 20 % By weight.

The ingredient (8), in proportions of 50 to 65 wt .-%, before preferably 52 to 62 wt .-% is present, consists of synthetic Zeo bound sodium aluminosilicate containing bound water lith A-type. Suitable zeolites have no particles with one Size over 30 microns and consist of at least 80% of particles less than 10 µm in size. Your calcium binding capacity, that  is determined according to the information in DE 24 12 837, is in the range from 100 to 200 mg CaO / g.

The sodium sulfate (C) improves the granulability of the Aus gait mixtures and the dispersing and dissolving behavior of the granules late in the wash water. Its content is preferably 3 to 7 % By weight. The proportions refer to anhydrous salt. This includes, however, that part of that is contained in the granules moisture is bound to this salt as water of hydration can.

The component (D) consists of a homopolymer and / or copo lymeric carboxylic acid in the form of the sodium salt. Suitable homopo polymers are polyacrylic acid and polymethacrylic acid. Suitable Co polymers are those of acrylic acid or methacrylic acid Maleic acid. In addition to homopolymer, have been found to be particularly suitable Acrylate copolymers of acrylic acid or methacrylic acid with malein Acid proven, as described for example in EP 25 551 B1 are. These are copolymers containing 40 to 90 % By weight of acrylic acid or methacrylic acid and 60 to 10% by weight of malein contain acid. Such copolymers are particularly preferred, in which 45 to 85 wt .-% acrylic acid and 55 to 15 wt .-% maleic acid are present. The molecular weight of the homo- or copolymers is generally 1000 to 150,000, preferably 1500 to 100,000. With increasing proportion of polyacid or its salts the resistance of the grains to abrasion increases. With an arrival from 1.5% by weight is already sufficient for many cases Abrasion resistance achieved. Ge has optimal abrasion properties mix with 2 to 7 wt .-% of sodium salt of polyacid. Except The polymers also bring about an improvement in the grain structure  improved builder effect of the mixtures when used.

By definition, the water content of the granules excludes what a bound to the zeolite (18 to 22 wt .-%, based on zeolite), and is adsorbed by the layered silicate, further that Hydrate water of the salts. Usually it is 10 to 25 % By weight, in particular 12 to 20% by weight.

As an optional component, the funds can be used in small quantities Contain compounds that are involved in the manufacture and processing tion of the synthetic zeolites can be added to the Stability of the aqueous zeolite dispersions (master batch) increase. Such additives with the zeolite in the agent can be brought are in the document DE cited above 25 27 388. It can be non-ionic, poly surfactants containing glycol ether groups, for example primary surfactants, alcohols reacted with 2 to 7 moles of ethylene oxide with 12 to 18 Act C atoms. The about such zeolite dispersions in the The proportion of stabilizers introduced can vary depending on the proportion of the zeolite, for example 0.05 to 2 wt .-%. Necessary this is for the desired properties of the granules but not part.

Other optional components are dyes or color pigments te that the funds in the granulation in proportions of example as 0.01 to 1 wt .-% can be added to a possible gray or brownish inherent color of the layered silicates cover. After mixing the granules into a granular wash medium they give it a visually appealing, color speckled appearance. White can be made in the same way  use pigments and optical brighteners if a white granu lat and a uniform white mixed product is desired.

Such dyes are particularly suitable, as follows Washing process can be broken down so that it does not become an undesirable dying of the textiles is coming. Examples of this are e.g. B. the Dyes Duasynsäureblau® and Duasynsäuregrün®.

Finally, the granules can be sucked due to their good suction ability to use liquid or pasty detergent to adsorb components and without sacrificing free-flowing properties Incorporate detergent granules. Examples include fat acid alkanolamides (which have an additional finishing effect or a Can increase washing power) and especially nonio African surfactants of the polyglycol ether derivative type. Regarding the type and the amounts of such additives to be applied is on the patent application P 39 36 405.4 (D 8720) from 02.11.1989 referenced, to which express reference is made here. The An part of nonionic surfactants, based on the adsorbate, can be up to 30 wt .-%. Instead of the nonionic surfactants or along with these can also include oily additives such as perfumes or foam-suppressing substances from the class of paraffins, micro paraffinic, long chain bisacyl diamines and silicones and their Mixtures are adsorbed on the grains.

The agents are prepared by spray drying an aqueous solution rigen, pasty approach (slurry) of the ingredients by means of heated gases (combustion gases) in conventional drying towers. There the combustion air often used as a dry gas ver contains equally high levels of carbon dioxide, it can  be partaking if you give the slurry small amounts before spraying gene added to sodium hydroxide to bring about a pH decrease to counteract a corresponding alkali excess. The recommended ones The proportions of NaOH are usually between 0.1 and 1% by weight.

In general, the content of the aqueous batch is water free ingredients 50 to 65 wt .-%. Its temperature is expediently 50 to 90 ° C and its viscosity at this Working temperature up to 25,000 mPas, mostly 12,000 to 20,000 mPas. The atomization pressure is usually 20 to 120 bar, preferably 30 to 80 bar. The drying gas, which is generally determined by Ver burning fuel gas or fuel oil is preferred led in countercurrent. When using drying towers, in which the aqueous batch in the upper part through several high pressure nozzles is sprayed, the inlet temperature is measured in the ring channel (i.e. immediately before entering the lower part of the door mes) 180 to 300 ° C, preferably 220 to 280 ° C. That the tower Exhaust, moisture-laden exhaust gas usually has a temperature of 50 to 110 ° C, preferably 60 to 100 ° C.

The granules produced in this way are notable for very good redispersibility in the aqueous wash liquor out. With regard to their reviving effect, they are also on largely identical means manufactured in the same way table.

The average grain size of the produced by spray drying means is usually 0.2 to 1.2 mm. Preferably point at least 80% by weight, in particular at least 90% by weight of the grains a size of 0.2 to 1.0 mm, with the proportion of grains between 0.1 and 0.05 mm not more than 2% by weight, in particular  less than 1% by weight and the proportion of the grains above 1.5 mm not more than 15% by weight, in particular not more than 10% by weight is. Larger proportions of fine grain favor dust formation when mixing with other powder components and should therefore ver be avoided. Larger proportions of coarse grain require less Bulk density and leave the product visually inconsistent seem, but are otherwise not disadvantageous.

The bulk density of the spray-dried agents is 500 to 700 g / l, mostly 550 to 650 g / l. The remedy essentially consists of rounded grains, which have a very good flow behavior sen. This very good trickle behavior is still there if the grains with larger proportions of liquid or semi impregnated liquid or solid nonionic surfactants are. The proportion of these adsorbed components can be 5 to 30 % By weight, preferably 10 to 25% by weight, based on the adsorbate wear.

Examples

The raw materials used in the following examples showed fol characteristics:

• A) Layered silicate, product "Laundrosil DG-A" from Süd-Che mie (DE), wind-sighted, treated with soda solution and in the we free of alkaline earth ions (particle size of the Layered silicates 99% by weight below 25 µm),
• B) Zeolite NaA, calcium binding capacity 165 mg CaO / g, medium Grain size 3 µm (no portions over 20 µm). Source material was an approximately 50 wt .-% water and with the not ionic surfactant stabilized suspension. In the examples is the zeolite calculated anhydrous, d. H. the one on the Zeo lith water content (approx. 20% based on zeolite) is listed under "Water".
• D) copolymer copolymer salt, acrylic acid-maleic acid copolymer, MG 70,000, Ma salt, product Sokalan® CP5 from BASF (DE),

TA5 means a tallow alcohol reacted with 5 moles of ethylene glycol, used as a dispersion stabilizer for the zeolite dispersion containing 50% by weight. A dianilino-dimorpholino derivative of bis (triazinyl) -stilbene disulfonic acid Ma salt) was used as the optical brightener.

The viscosity of the slurries (slurry), measured in each case at the working temperature of 80 ° C, in
1st example 10,000 mPas, slurry concentration 55% by weight
2. Example 24,000 mPas, slurry concentration 50% by weight
3. Example 12 300 mPa · s, slurry concentration 50% by weight.

The recipe according to Example 2 was using agitators sprayable with high torque and high spray pressure. The Recipes according to Examples 1 and 3 could not be special Apply technical effort and spray dry.

The counter-current drying gases had an entrance temperature in the ring channel of 263 ° C (example 1 and 3) or 267 ° C (Example 2). The temperature in the area of the tower exit before the dust filters were 71 ° C to 72 ° C (Examples 1 and 3) and 76 ° C (Example 2). The atomization pressure was 40 bar in Example 1 and 3 and 49 bar in Example 2.  

The spray products obtained were free-flowing with an average particle size of 0.35 mm and a dust content (below 0.05 mm) of less than 0.1% by weight. Grain fractions of over 2 mm were not present. The bulk density was 590 g / l in Example 1, 550 g / l in Example 2 and 590 g / l in Example 3. All spray products could contain 5 to 30% by weight (based on the end product) of liquid nonionic in a spray mixing apparatus Surfactants (coconut fatty alcohol + 5EO, C _12-14 -oxo alcohol + 7 EO) be added, the bulk density increasing to 650 to 780 g / l. The flow behavior of the adsorbates obtained in this way was still good compared to the granules used.

The granules became a detergent with a granular detergent of the following composition (in% by weight):

7.2% sodium dodecylbenzenesulfonate
4.8% C _12-18 fatty alcohol + 7EO
1.5% tallow soap (Na salt)
10.5% zeolite (anhydrous)
7.0% sodium carbonate
2.5% hydroxyethane diphosphonate (Na salt)
2.2% copolymer corresponding to (D)
1.3% Na carboxymethyl cellulose
2.5% sodium silicate (1: 3.3)
0.3% optical brightener
10.5% sodium perborate monohydrate
2.6% tetraacetylenediamine
1.5% enzyme granulate (enzyme content 0.7%)
0.1% fragrance
35.0% granules according to Example 1-3
Rest of water

The ingredients listed in the 1st to 10th place as well as the What water (bound to zeolite, water of crystallization, product moisture) as spray-dried granules. The remaining components be each consisted of separately produced granules. The scent fabric was adsorbed on the perborate.

With the agents, cotton textiles were used in a detergent concentration of 9 g / l washed at 60 ° C. The drying took place free hanging. The comparative experiments were carried out with a detergent carried out in which the granules according to the invention by a other granules had been replaced. In this comparison granulate was the layered silicate with an otherwise unchanged composition been replaced by sodium sulfate. Compared to the comparison samples pointed the textiles with the agent according to the invention Example 2 and 3, had been washed, a significantly softer Took up, whereby the aviva effect of the test persons at Ver use of the granules according to Examples 2 and 3 as "good to free digend "and assessed as" still satisfactory "according to Example 1 has been.

When using soft water (8 ° dH corresponding to 80 mg CaO / l) was the cleaning effect of the agents according to the invention and Comparative samples almost the same. If the Detergent concentration to 6 g / l and also when using Hard water (20 ° dH) with unchanged concentration of 9 g / l as the samples washed with the agents according to the invention significantly improved washing result and after every 10 washes less graying and a lower ash content.

Claims (10)

1. Aged, granular detergent additive, containing

• A) 12.5 to 20% by weight of a layered silicate,
• B) 52 to 65% by weight of finely crystalline, synthetic zeolite (proportion based on anhydrous substance),
• C) 2 to 8% by weight of sodium sulfate (proportion based on anhydrous substance),
• D) 1.5 to 8% by weight of the sodium salt of a homopolymeric or copolymeric (meth) acrylic acid,
• E) 0 to 30% by weight of nonionic surfactants from the class of the polyglycol ethers,

Rest of water. 2. Composition according to claim 1, wherein the component (A) from Montmor rilonite, hectorite or saponite and in proportions of 14 up to 20 wt .-% is present. 3. Composition according to claim 1 or 2, containing 52 to 62 wt .-% of Component (B). 4. Composition according to one or more of claims 1 to 3, ent holding 3 to 7% by weight of component (C). 5. Composition according to one or more of claims 1 to 4, wherein the component (D) from the sodium salt of the homopolymers Acrylic acid and / or its copolymers with maleic acid. 6. Composition according to claim 1 and 5, wherein the proportion of the stock partly (D) is 2 to 7 wt .-%.   7. Process for the preparation of the agent according to one or more of claims 1 to 6, characterized in that one 45 to 60 wt .-% water-containing ingredients using flowing gases that have an inlet temperature of 180 up to 300 ° C and an outlet temperature of 60 to 110 ° C point, spray dried. 8. Use of an agent according to one or more of the claims che 1 to 6 as an adsorbent for liquid or pasty Detergent ingredients, especially non-ionic surfactants. 9. Use of an agent according to one or more of the claims che 1 to 6 and 8 as a component of the mixture in granular washing average.