DE1056866B - Plant pot made of porous plastic - Google Patents

Description

Plant pots for the immediate planting of flowers and other plants must be air permeable be to aeration of the plant soil in the pot and the plant roots that pass through this soil bring about. Therefore, baked clay is used for such pots.

In order to give the plant pots a beautiful appearance, it is known to make them out of plastic in the desired shape To produce shades of color. A foamable plastic is used for the porous pots Use. The foaming or expansion of the plastic particles takes place through a fine distribution Propellant added to the plastic. It is the granular plastic in one of the to be manufactured Pot appropriately designed closed form and filled in a steam bell or in warmed hot water bath. As a result of the heating, the finely distributed propellant forms in the plastic Gases in the form of small bubbles that cause the plastic to expand and pores in this cause. In the process, the plastic particles, which swell up, are in the closed form pressed against each other on all sides, whereby they stick together to form a uniform porous mass.

However, the pores created in the plastic by the propellant gas form closed cells and are therefore not related to each other. These pores therefore do not result in air-permeable channels, which pass through the wall of the pot from its outer surface to its inner surface. Such pots made of porous plastic are therefore not for the immediate planting of flowers and others Suitable for plants. They are usually only found for beautification purposes as so-called planters Use, d. H. as containers that the ordinary plant pots made of baked permeable clay take up.

It has already been proposed that additives to the inflatable plastic such as ceramic powder, Cork flour etc. to increase its porosity. However, this did not result in any significant permeability the pot wall for air can be achieved. Bigger additives that help achieve better Permeability are mixed with the plastic, have the disadvantage that this increases the strength of the pot is greatly reduced. It can then with a large one filled with earth, so accordingly heavy pot, which is held between thumb and forefinger with the hand on the upper edge of the pot in the usual way Way is held, the piece of pot grasped by the fingers may break off under certain circumstances.

Additions of the type mentioned to the fine-pored plastic also only result in a relative plant pot made of porous plastic

Applicant:

Franz Zwick,
Neu-Ulm / Danube, Reuttierstr. 52

Franz Zwick, Neu-Ulm / Danube, has been named as the inventor

moderately small additional pores that are no larger than about those in baked clay and therefore all of those Have disadvantages of such small pores.

The lack of the lack of or insufficient permeability of porous plant pots Plastic is eliminated by the invention. The very permeable plant pot according to the invention has also has a high level of strength.

The plant pot according to the invention consists of granular plastic particles piled on top of one another, between which, as a result of the loose filling, there are cavities that are connected to each other stand. The plastic particles are at their points of contact by heating and thus softening these particles are firmly bonded to one another while retaining the cavities and their connection.

A granular thermoplastic or hardenable organic plastic is used to manufacture this pot Use that softens when heated and then becomes sticky. Most of them come for this Polymers into consideration, preferably polystyrene. The granulated plastic is in one of the to be manufactured Pot appropriately designed shape poured in, whereby the loose roof in naturally result in cavities between the plastic particles that communicate with one another stand. The filled form is heated from the outside with slowly increasing heating until the Plastic particles softened to such an extent

909 509/113

Claims (2)

are that they only stick together firmly at their points of contact and that the cavities between them are retained. In order to bring about the uniform heating and thus softening of the plastic material extremely quickly, a mold with permeable walls can advantageously be used, through which a stream of a hot medium (steam, gas, hot air) is passed, as well as the cavities between the plastic particles. A gas-releasing propellant is not used to form the pores. The pot produced in this way has, because of the granular plastic particles and thus relatively large pores, good air permeability, which is greater than the permeability of fired clay. Compared to the clay pots with very fine pores, the plastic plant pot according to the invention has the advantage, because of its relatively large permeable pores, that they do not quickly become clogged by the water stone that settles on the outside of the pot when the water evaporates. Any stains formed on the outside of the pot by the water stone can easily be rubbed off the plastic with a damp cloth, in contrast to clay pots, to which the water stone adheres very firmly and can only be removed with difficulty mechanically by scraping with steel chips or steel brushes. Because of the large pores, compared to clay pots, a lot of water can be stored in the wall of the pot, so that the plant does not need to be watered as often. With the consumption of the water in the plant soil, the water stored in the large pores is pulled back into the soil. It has been shown that the plants in the plastic pots according to the invention thrive and develop rapidly. The most favorable pore size and permeability for plant pots can be achieved by an appropriate choice of the size of the plastic grains. In the case of very large pores and thus very wide passages, an excess of water present in the pot as a result of excessive watering can flow off through the wide channels to the outside of the pot. The usual water outlet hole in the floor of plant pots is then not necessary. As a result of the wide passages, the outside of the pot has a rugged surface. In addition, with the large pores and thus the correspondingly wide passage channels, these channels no longer have the suction effect of capillaries, as is still the case with fired clay. Therefore, a pot with large pores according to the invention does not pull water out of the plant soil to the outside of the pot like clay, where it would evaporate relatively quickly. For this purpose, the amount of water in the wall of the pot lies on the outside of the pot deep in the wide depressions on the jagged outside that are present there and formed by the large pores, where it is protected against too rapid evaporation. For these reasons, in the case of large pores, little or no water scale is deposited on the outside of the pot, so that with such pores the water scale cannot, or only to a small extent, lead to a disturbing formation of stains on the outside of the pot. Although the very air-permeable plastic plant pot of the invention is suitable for the immediate planting of flowers and other plants, it can also be used for beautification purposes as a cachepot for the usual planting pots made of baked clay if repotting a plant is not desired for certain reasons. Compared to the previous impermeable cachepots, there then does not need to be any space between the cachepot and the plant pot for ventilation of the plant pot, so that the respective plant pot can be smaller than before. Such a smaller cachepot harmonises better in appearance with the relatively small plant and also results in a better use of space, so that a larger number of pots can be placed next to one another. The plant pot of the invention, which allows excess water to drain through the porous wall, has the advantage as a planter with unperforated walls that no stagnant water can accumulate in the planter, which, when removing the planter, is often omitted because of its accumulation of cannot be seen outside without lifting out the planting pot. The drawing shows the permeable plastic plant pot according to the invention in section, namely in Fig. 1 with a lower water outlet hole in the bottom of the pot and in Fig. 2 without such a hole. The wall of the pot consists of the plastic particles 1, between which there are the cavities 2 which are naturally formed as a result of the loose pouring of the particles and which result in the pores of the pot wall. The cavities are connected to one another and so form through the wall of the pot from its outer surface to its inner surface through passages. The plastic particles are firmly bonded to one another at their points of contact by heating and thus softening while maintaining the cavities and their connection. In the embodiment according to Fig. 2, the plastic particles 1 are so large that the interconnected cavities 2 between them form such wide passages through the pot wall that an excess of water present in the pot as a result of excessive pouring passes through these channels can flow off to the outside of the pot. Therefore, the water outlet hole in the bottom of the pot, which is otherwise common in plant pots, is missing in this design. As a result of the wide passages, the outside of the pot has a rugged surface. Patent claims: 1. Plant pot made of porous plastic, characterized in that it is made of piled up granular plastic particles, between which there are cavities that each other are in connection, and the plastic particles at their points of contact by heating and thereby softening these particles while maintaining the voids and their connection are firmly glued together. 2. Plant pot according to claim 1, characterized in that the plastic particles are so large are that those between them, with-