DE1022242B - Process for the production of horticultural earth - Google Patents

Description

Process for the production of horticultural soils There are already Process for the production of horticultural soils known from an intimate mixture consist of crushed loam or clay, peat and plant nutrients. The after horticultural soils produced by this method. have chosen to cultivate potted plants, Vegetable young plants, tobacco, etc. are tried and tested and are part of it at home and abroad of horticultural practice.

It has been found desirable to mix the peat in this to partially replace or supplement with other substances, on the one hand because of the Peat has some properties inherent in the usefulness of the soil under certain Restrict proportions, namely its high acidity, its inclination, the surface algae of the earth, its decomposability, its ability to plant physiologically large quantities to hold on to non-usable water, on the other hand, because the supplies of the peat storage facilities start to become scarce and the peat prices rise as a result.

It has surprisingly been found that the disadvantages of peat can then be avoided when making the horticultural soil Peat partly through non-decomposable foam-like foamed plastics or expanded mica (so-called vermiculite) is replaced. Foam plastics are materials understood from macromolecular organic compounds that are in any phase their processing have plastic states and thereby by mixing with gas-releasing Propellants become porous as a result of gas evolution or by blowing in air. The plastics are preferably set so hard that they still are elastic, but have such a strong strength that they are under load are only partially compressed by a 20 cm high layer of earth. Instead of of foamed plastics and in connection with these, so-called expanded mica can also be used obtained by heating different types of mica and commonly referred to as vermiculite.

The use of plastics with a spongy structure as soil improvers is known per se. German Patent 920-487 describes the use of synthetic sponges on light soils that tend to dry out. As tests have shown, the water-retaining power of foam-like plastics does not come close to that of peat. The sponge cells of the plastic are in comparison to the cell structure of the sphagnum moss, of which the raised bog fin is made up. relatively large. The water-retaining power of the peat is therefore much greater, while the large-pored and more elastic plastic with a sponge-like structure is ideally suited for maintaining air in an Erdgen lisch. In a horticultural soil, the air maintenance is to be attached even more importance than the water control, since the latter can be regulated, but not the air flow.

The use of other natural and synthetic materials with numerous air pockets for soil improvement is also known. Inan porous used for a long time Coal slag to improve soils. The very porous pumice stone will stand for itself used in hydroponics and in connection with soils. There are also hard porous ones Plastics for these purposes. These substances are used for the production of horticultural earth but hardly usable due to their lack of elasticity and have aside from hydroponics, has not found its way into practice.

Another specifically very light material with the finest cavities is the so-called expanded mica, which is also used on its own as a substrate or used to improve soils. Expanded mica is elastic and promotes similarly like foam plastic, especially the air capacity of a horticultural soil.

The proposed joint use of Foam plastics and / or expanded mica in connection with the known clay-peat mixtures is surprisingly a significant improvement in horticultural vegetation Earth brought about. While the previously known soil mixtures with foam plastic or Expanded mica in summer gives sufficient results if the plants consume more water have, they lead in winter, with less vital activity of the greenhouse plants, easy to over-wet the soil mixture and thus to stagnate growth, especially in young plants. The partial replacement of the peat through foam plastics or expanded mica or both substances have surprisingly favorable growth successes, even in difficult cultures. All slow growing plants like Cyclamen, which in winter are unable to completely root the soil, draw significant advantages from the mixture prepared according to the invention. but The young plant crops at the end of winter are also increased by using the new mixture as a substrate, and the success of the culture is ensured. Young tobacco plants, vegetables and summer flowers are making amazing progress in growth and shortening of the cultivation time by what is produced according to the concept of the invention Mixture compared to a pure clay-peat mixture.

The advantages of the clay mixture produced according to the invention, Peat as well as foamed plastics and / or expanded mica are based on the following: 1. The The water and air retention capacity of the horticultural soil is more balanced.

2. The structure of the so treated soils is more stable.

3. The culture soil changes in its even after prolonged use Composition less, since the two new additives are practically indecomposable are.

4. The culture soil is biologically healthier, since both substances are harmful Bacteria and fungi are not a breeding ground.

5. The culture soil is specifically lighter and requires less Transportation costs.

6. The cultural success resulting from all these properties is particularly striking in the winter months and protects the gardener from plant losses; It also saves greenhouse space by accelerating growth. Embodiments 1. 5001 granulated clay, 2501 finely ground white peat and 1251 each finely torn foam of 4 to 8 mm grain size and expanded mica of the same grain size are mixed and provided with 3 to 6 kg of plant nutrients. The mixture «earths trace elements as required. Pesticides. Wetting agents, growth substances added.

2. Instead of the mixture of foam plastic and expanded mica is used only foam-shaped plastic is used with a corresponding proportion.

Claims (3)

PATENT CLAIMS: 1. Process for the production of horticultural soil from an intimate mixture of crushed loam or clay, peat and plant nutrient salts, characterized in that the peat is partially covered by non-decomposing sehatuniform Masses, in particular through foam plastics or flake mica (so-called vermiculite), in a grain size of 4 to 8 tim is replaced. 2. The method according to claim 1, characterized characterized in that the peat is partially made up of a mixture of foam-like plastics and expanded mica is replaced. 3. The method according to claims 1 and 2, characterized in that the mixture is added in the known `` travel trace elements, odoriferous substances, wetting agents and pesticides. Pressure lifts considered: German Patent Specifications No. 920-187. 883-147, 839 9.14 .. 832 897 # 739 732; U.S. Patent Nos. 2,669,510, 2,579,735 , 2579 73-1.