DE1139133B - Process for the production of shaped plant nutrients - Google Patents

Description

Process for the production of shaped plant nutrients subject the invention is a process for the production of shaped plant nutrients, which are particularly suitable as flower fertilizers, using a formaldehyde-urea condensation product with high formaldehyde content as a carrier.

It is known to be impregnated and shaped with plant nutrients To use materials as flower fertilizers for potted plants and the like. Such Flower fertilizers are especially used by gardeners and plant lovers.

In the case of the new fertilizers according to the invention, the normal Urea-formaldehyde-based molding compounds with a high formaldehyde content are used Fillers, such as wood flour, cellulose, peat and the like, partly or entirely through plant nutrients replaced. This is done by using a mixture of formaldehyde-urea condensation product and forms fertilizers with post-condensation by pressing, e.g. B. to rods u. s. w. suitable size. The shaping can also be done by pouring the masses, which is followed by post-condensation and sorting out of the desired sizes.

In order to achieve a relatively slow and uniform release of the plant nutrients to the soil and crops, according to the invention, as mentioned, sparingly soluble formaldehyde-urea condensation products with a high formaldehyde-urea ratio of 1.25 to 2.25 1, preferably 1 , 50 to 1.75: 1, which, after the incorporation of the plant nutrients, are subjected to post-condensation at temperatures of over 100 ° C., optionally carried out under pressure. The post-condensation can, as indicated, also be achieved by compression molding at temperatures above 100.degree. Since the carrier of the plant nutrients produced in this way only slowly decomposes in the soil, it ensures the desired even and slow release of the nutrients, while at the same time releasing nitrogen for plant nutrition.

Suitable formaldehyde-urea condensation products for the inventive Method is obtained z. B. by reacting 50 parts of 36% formaldehyde solution with 15 parts of urea at a pH of 4.5 and a temperature of 90 ° C, until a sample is diluted with 2 to 3 parts of water at a temperature of 20 ° C results in a precipitation. A poorly soluble carrier is also obtained by using alkaline Condensation of 1.5 to 2 moles of formaldehyde with 1 mole of urea at the p $ value of B. Fertilizers using formaldehyde - urea condensation products have already been made (U.S. Patents 2,502,996 and 2,618,546). The used minor Quantities as well as the low ratio of formaldehyde to urea and the low degree of condensation However, these condensation products were not suitable for a slow, controlled To effect delivery of nutrients to the soil. The application of condensation products So far, however, they have kept a higher degree of condensation and a higher formaldehyde content not useful in the fertilizer industry.

The following examples explain the process according to the invention.

Example 1 From formaldehyde and urea in a molar ratio of 1.5: 1.0 a conventional liquid precondensate suitable for pressing is produced and then mixed, based on dry matter, 50 parts of it with 30 parts of complete fertilizer and 20 parts of wood flour, peat or the like. The mixture is dried and in itself pressed in a known manner at temperatures above 145 ° C to form suitable shapes, wherein post-condensation takes place.

Example 2 100 parts of liquid condensation product are correspondingly 4.6 parts N and 0.6 parts P205 10 parts Ammonium phosphate and 10 Parts of ammonium nitrate and 10 parts of dicalcium phosphate were added, as well as 20 parts Potassium sulphate with 50% K20 content, d. H. a total of 50 parts of plant nutrients, which contain N, P205 and K20 in a ratio of 1: 2: 2.2, with the nitrogen content of the condensation product is not included. Mix 20 parts of wood flour to. After drying, the mass becomes sticks or sticks in the usual way suitable size and shape, e.g. B. 5 - 50 mm, which advantageously pointed at the lower end are warm. pressed at temperatures above 100 ° C with post-condensation.

For use, the poles are stuck into the ground and, to the extent that how they are used up and depleted, pushed deeper into the earth.

According to the method according to the invention, it is possible to comply the specific formaldehyde to urea ratios of 1.25 to 1.75: 1 and post-condensation the obtained mixtures of formaldehyde-urea condensation products and plant nutrients to produce shaped fertilizer carriers, which the plant nutrients in more homogeneous Mixture contain as well as slowly, evenly and controlled in dosed amounts release to the soil and plants over a longer period of time. Here is leaching of plant nutrients into the subsoil through rain or irrigation water or a fixing of the same in the ground is avoided and at the same time a harmful one Action of the nutrients on the plants, e.g. B. by overfertilization, nitrogen shock and the like, eliminated. The formaldehyde - urea condensation product used as a carrier there is also, as a result of its slow decomposition caused by the post-condensation in the soil, its N-content also only slowly in well-dosed amounts to the soil and the crops off. Put the formed plant nutrients produced therefore a considerable technical progress in the fertilization of crops, especially of flowers, potted plants and the like.

Claims (4)

PATENT CLAIMS: 1. Process for the production of shaped plant nutrients, characterized in that the nutrients or the complete fertilizer as a Supporting formaldehyde-urea condensation product with a formaldehyde-urea ratio of at least 1.25: 1 and advantageously from 1.5 to 1.75: 1 incorporated, the, optionally is post-condensed under pressure at temperatures above 100 ° C. 2. Procedure according to Claim 1, characterized in that the plant nutrients are added to formaldehyde - Urea condensation product incorporated in a ratio of 1: 0.2 to 1: 1.25. 3. The method according to claim 1 and 2, characterized in that the formaldehyde-urea condensation product the plant nutrients along with appropriate amounts of one or more micronutrients (Trace elements) adds. 4. Process according to Claims 1 to 3, characterized in that the plant nutrients are incorporated into the formaldehyde-urea condensation product and the mixture obtained is subjected, optionally under pressure, to post-condensation at over 100 ° C to form a vitreous mass or a porous substance, which is subsequently comminuted while sieving out the desired grain size. Considered publications: German Patent Specifications No. 964 603, 917 072; German utility model No. 1 734 234; French Patent Nos. 1072 587, 1039 361; U.S. Patent Nos. 2,618,546, 2,766,283, 2,592,809, 2,255,027, 2,096,742, 2,502,996.