SU1161022A1 - Vegetative device - Google Patents

Abstract

1. A VEGETATION DEVICE containing a reservoir for nutrient solution and a hydrophilic substrate with nests for plants placed in it, enclosed in an opaque shell, characterized in that, in order to increase the working life, the device is additionally equipped with a reservoir for distilled water in which the lower end is placed hydrophilic substrate, and the opaque shell of the hydrophilic substrate is made in the form of an ion-exchange membrane. 2. The device according to claim 1, characterized in that an ion-exchange substrate is placed in the reservoir for the nutrient solution. (L o: go 1C

Description

The invention relates to crop production and can be used for growing higher plants in artificial conditions. A plant growing device is known in which a porous hydrophilic substrate is made in the form of a plate with capillaries oriented in height, the base of which is connected to tubes feeding the feed solution 1. However, the pores of the substrate are quickly clogged by the sediment when the substrate is wetted with a nutrient solution. As a result, water pedal R plant roots are reduced, and then stopped, which reduces the reliability of the device during long periods of vegetation. A vegetative device is known that contains a reservoir for a nutrient solution and a hydrophilic substrate with nests for plants embedded in it, enclosed in an opaque membrane 2. When using this device for growing plants with long periods of vegetation, its reliable operation cannot be ensured, since the supply of water to the plant roots is also disrupted due to the salinization of the pores of the hydrophilic substrate immersed in the nutrient solution, therefore, the service life is reduced. The aim of the invention is to increase the service life. The goal is achieved by the fact that the device is additionally equipped with a reservoir for distilled water, in which the lower end of the hydrophilic substrate is placed, and the opaque membrane of the hydrophilic substrate is made in the form of an ion-exchange membrane. In the reservoir for the nutrient solution can also be located ion-exchange substrate. The drawing shows the device, the overall appearance. The vegetation device comprises a reservoir 1 for distilled water, a hydrophilic substrate 2 in the form of a set of plates with nests 3 for plants. The hydrophilic substrate 2 is enclosed in an opaque membrane made in the form of an ion-exchange membrane 4. The ion-exchange membrane 4 is adjoined to a sealed reservoir 5 for the nutrient solution, in which the additional ion-exchange substrate 6 is placed. The device works as follows. Plants are planted in nests of a hydrophilic substrate 2. Water from reservoir 1 flows through the pores of the substrate 2 to the plant roots. The difference in ion concentrations in the porous substrate 2 and in the nutrient solution reservoir 5 causes the movement of mineral nutrition ions through the ion-exchange membrane 4 to the plant roots from reservoir 5. As the plants absorb water and salts from the pores of the substrate 2, water comes from reservoir I, and salt ions from tank 5 through the membrane 4. The ion-exchange substrate 6 loaded into tank 5 maintains the concentration of ions in the nutrient solution in tank 5 for a long time and thereby contributes to the stability of their transfer to the root th zone of plants. Due to its tightness, the tank 5 is not dried out, the amount of water in it is kept constant due to the balance of its molecules transfer through the membrane 4. Due to the fact that the movement of ions through the ion-exchange membrane 4 occurs only when the concentration of ions in the porous substrate 2 lower than in the nutrient solution, the salt solution in the root zone is almost never oversaturated. As a result, the pores of the substrate 2 are not salted, which ensures an uninterrupted and stable supply of water and ions to the plant roots. In this device, when a textile wick is used as a hydrophilic substrate, clogging of its pores due to the deposition of salts does not occur even after three successive vegetations of plants lasting 85 days each. Thus, the use of this device increases the service life more than tripled.

Claims (2)

1. A VEGETATION DEVICE containing a reservoir for a nutrient solution and a hydrophilic substrate placed therein with nests for plants, enclosed in a lightproof shell, characterized in that, in order to increase the service life, the device is additionally equipped with a reservoir for distilled water, in which the lower end of the hydrophilic substrate, and the opaque shell of the hydrophilic substrate is made in the form of an ion exchange membrane. 2. The device according to π. 1, characterized in that the ion exchange substrate is placed in the reservoir for the nutrient solution.