DE1071874B - - Google Patents

Description

The invention relates to the production of powdered Detergents, bleaches and dishwashing detergents that contain sodium perborate, and that is first in the presence of stabilizers and fillers, an aqueous solution or suspension of viscosity · ^ increasing, possibly adhesive substances produced, then powdered sodium pefborate of commercial quality entered in this solution and then the watery genius by spraying solidified wiid.

It is known to produce borates containing Pöroxyd deliver, deten solutions; acidic or almost neutral react. There are ariionic or nonionic Types of wetting agents are provided, which act on the oxygen release of the peroxide-containing borates have a stabilizing effect. It was found that sodium perborate, even after the addition of wetting agents, shows the poorest stabilization compared to other peroxide-containing borates. the end These experiences can therefore not be based on what is present Invention given teaching can be drawn that aqueous solutions or suspensions of Sodium perborate in the presence of viscosity-increasing or adhesive substances Atomization can be solidified without a significant loss of active oxygen occurs.

Pure sodium perborate is known to have a good shelf life as dry salt. In an aqueous solution, it begins to split off oxygen at temperatures above 50 ° C and thereby disintegrate. It is known by the addition of stabilizers, the _cerium: to inhibit falling speed and to control, so that these do not suddenly but gradually occurs and drags over a certain Zeiträum. Alkaline earth and magnesium salts of silicic acid have proven useful as such stabilizers in bleaching processes. Commercial detergents containing perborate also contain oxygen stabilizers of the type mentioned. In the manufacture of pulverulent bleaching, washing and rinsing agents containing sodium perborate, the procedure up to now has always been to prepare the powdery base separately and then add the dry sodium perborate. However, due to the difference in the specific weights of their constituents, such mixtures tend to separate easily.

It is also known to obtain sodium perborate from sodium superoxide and boric acid or Älkäliböraten, in which the resulting alkali is neutralized by carbonic acid to soda, with about 20% and more carbon dioxide can be absorbed than to convert the alkali into soda are necessary. The yield of sodium perborate can be increased further if alkali silicates and Method of manufacture

of powdered sodium perborate

containing laundry bleach

and detergents

Applicant:

Kraemer & Flammer KG,
Heilbronn / Neckar

Walter Burger, Heilbronn / Neckar,
has been named as the inventor

Magnesium silicates or organic bodies, such as. B. phenols, are present. The reactions at run this procedure, all are carried out at low temperatures (below room temperature), The sodium perborate crystallizes out of the aqueous solution and is obtained in this way. From this, however, the conclusion could by no means be drawn that it is possible to use sodium perborate from aqueous solutions or suspensions even in the presence of alkaline earth silicates, even with hot air temperatures above 200 ° C, to be sprayed in a spray dryer.

It has also been suggested to contain perborate Manufacture detergents by spraying in a single operation. The detergent ingredients (but without sodium perborate) are sprayed in the form of solutions or suspensions and dried by a stream of hot air. The perborate is in the lower part of the spray cone, in which has already evaporated most of the water of the solidified particles, in drier Form dusted. This procedure differs significantly from the method according to the present invention Invention in which an aqueous solution or suspension of sodium perborate is prepared which is then dried by spraying.

Finally there is a method for stabilizing and improving the bleaching properties of Perborate soap powder consisting of soap, alkali perborate, sodium silicate and possibly other additives in such a way that a small amount of a magnesite timecompound is used. This The sole purpose of the procedure is to make an improvement

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to achieve the stability of perborate soap powder. By incorporating magnesium compounds a gradual decomposition of the perborate when storing the powder in the packages is to be prevented. Therefore, the bleaching property is improved.

It has now been found that powdered, sodium perborate-containing washing, bleaching and Detergent with a large surface area and low bulk density can be produced by using the commercial powdery product is introduced into an aqueous solution, which viscosity-increasing or optionally Contains adhesive substances. As far as these substances act as oxygen stabilizers at the same time act, such need no longer be added, otherwise the addition of stabilizers expedient.

As much sodium perborate can be introduced into the aqueous solution as there is from the water present is dissolved, or larger amounts, whereby a suspension is obtained. Such a viscous one aqueous solution or homogeneous suspension is without significant loss of oxygen for a few hours durable even if it is heated to temperatures of 50 ° C or a little higher. It was In no way foresee that it is possible to use this viscous solution or suspension itself To be able to spray hot air temperatures of over 200 ° C in a spray dryer without significant oxygen losses occur. By atomizing, depending on the nature of the Mixture of substances with sodium perborate obtained, which has a large surface and a low Have bulk weight. They contain the components in such a form that they can no longer be able to unmix. When spraying at air temperatures above 200 ° C, it is even possible to produce hollow spheres To obtain structures that have a particularly low bulk density.

As adhesive or viscosity-increasing substances such. B. cellulose glycolates and water glass are used suspensions of colloidal magnesium silicates and cellulose glycolate are also suitable. The magnesium silicate can either be added in fully formed form or by reaction of sodium silicates with soluble magnesium 4-5 salts, such as. B. magnesium sulfate can be obtained. The addition of magnesium silicate also acts as an excellent stabilizer. In selecting the viscosity-increasing substances to be used are best proceeded in such a way that one can understand the intended use of the end product is taken into account and such substances are used as components of the end product are. In detergents containing sodium perborate, which are either soap and / or synthetic contain washing-active substances, bleaching agents and detergents are therefore preferably cellulose glycolate, Use magnesium silicate and water glass because these substances are mostly components of the above Products are.

It is also possible to add other inorganic and / or other inorganic and / or Mix in organic substances. The only prerequisite is that they have the durability of the mixer Do not influence it in an unfavorable sense during the spraying time. If this is the case, one can proceed as follows that the product to be admixed is sprayed separately and with the sprayed sodium perborate components mixes. It can also be the two stirring approaches at the same time through two separate nozzles in the sprayed in the same system or, if this is possible without decomposition, the liquids to be sprayed brought together in front of the nozzle or other spraying devices and then sprayed or through a Mixing nozzle are sprayed together.

Examples

1. A perborate mixture containing about 60% sodium perborate ( _{calculated as Na BO 3} -4 H ₂ O) is prepared as follows:

1.5 parts of cellulose glycolate and 9 parts of water glass are swollen in 20 parts of water with stirring 1 part of magnesium silicate was added, the mixture was heated to 50 ° C. and, with stirring, 3 parts of sodium sulfate and 12.5 parts Commercial sodium perborate (bulk weight approx. 900 g / l) is stirred in.

It is stirred until a homogeneous, viscous, pasty mass is formed. This is in a Spray system, through which hot air at 240 ° C is passed, sprayed by means of a nozzle. You get dry hollow spherical structures with a bulk density of about 300 g / l. Depending on the change in Spray conditions, the bulk density can be made higher or lower.

The same result is obtained if the specified amount of sodium perborate is 20 parts Water is added, the specified amounts of cellulose glycolate, water glass, magnesium silicate and sodium sulfate are entered and the paste-like mass obtained is sprayed.

2. A detergent containing sodium perborate with about 12% sodium perborate content (calculated as NaBO ₃ -4H ₂ O) can be prepared as follows:

Mixing batch I: 3 parts of cellulose glycolate, 15 parts of water glass, 1 part are added to 15.5 parts of water Magnesium sulfate (dissolved in 2 parts of water) stirred. After heating to 50 ° C 12.5 parts of commercially available sodium perborate are introduced and the mixture is stirred until it is thicker homogeneous slurry is obtained.

Stirring II: In a second stirring, 30 parts of pyro-polyphosphate are added to 30 parts of water mixed, 20 parts of sodium sulfate and 40 parts of commercially available fatty alcohol sulfate paste (about 50%) stirred and heated to 70 ° C.

The finished washing powder can be produced using the following methods:

1. Mixing batch I and mixing batch II are sprayed separately in a hot spray system, the Test conditions chosen so that both products are obtained with a bulk density of 200 to 300 g / l. A detergent is obtained by mixing these two products in the appropriate ratio which the perborate component, which has the same bulk density as the other components, is not separates and the powder cannot separate.

2. In the spray system, the mixing device I and the mixing device II are activated simultaneously through two separate nozzles sprayed, the control being such that 1 part of the mixture I 2.4 parts of the mixture II are sprayed. A detergent with a bulk density of about 250 g / l is obtained.

3. The spraying is carried out in such a way that the mixing device I and the mixing device II are immediately in front of the spray device is brought together in a ratio of 1: 2.4 and sprayed together. In this case too a detergent with a bulk density of about 250 g / l is obtained, whereby by changing the Spray conditions the bulk weight within

can be varied upwards or downwards within certain limits.

Claims (3)

Patent claims: 1. Process for the production of powdery detergent, bleaching agents containing sodium perborate and rinsing agents, characterized in that first in the presence of stabilizers and fillers an aqueous solution or suspension of viscosity-increasing, possibly adhesive active substances, then powdered sodium perborate of commercial quality entered into this solution and then solidified the aqueous mixture by atomization will. 2. The method according to claim 1, characterized in that first in the presence of stabilizers and fillers, an aqueous solution or suspension of sodium perborate is prepared , then viscosity-increasing, optionally adhesive substances are added and then the aqueous mixture is atomized. 3. Process according to Claims 1 to 3, characterized in that washing raw materials known per se processed or atomized. Considered publications:
German Patent Nos. 408 862, 901 287;
Austrian Patent No. 140 048;
U.S. Patent No. 2,308,992. © 909 690/552 12.59