RU2125789C1 - Method for soil moistening in the process of plant growing - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves providing vertical channels in soil at 0.5-2.5 m depth; laying material with thin capillaries, such as foamed polystyrene, perlite, in channels so that upper part of material is adjacent to plant roots and lower part, in optimum version, reaches ground waters. Water is drawn from lower horizon by capillary tension effect to moisten upper soil layers. Material may be formed as columns or bars of 0.1-1.0 m diameter, which may be lowered into preliminarily provided vertical channels. EFFECT: increased efficiency by stabilized moisture condition and increased moisture content in root layers of soil. 4 cl, 3 dwg

Description

 The present invention relates to the field of agriculture, and more specifically, to the technology of growing plants in closed and open ground. Difficulties are known that arise when organizing and maintaining an optimal water supply regime and controlling the moisture content in the soil. Its deficiency during a drought or in the absence of watering, plants in closed ground (hotbeds, greenhouses and other structures) leads to damage to the aerial parts of plants and a significant decrease in yield, and in extreme cases - to its destruction. Known methods of automatic watering plants and devices that are required to implement this process / 1, 2, 3, 4 /. The closest in technical solution and the achieved result is a method of drip irrigation / 5 /. Its disadvantage is the difficulty in adjusting the volume of the outflowing water and maintaining the capillaries of the tube in a capable state. The authors propose the following technical solution. On the area where the plants are grown / in the garden, in a greenhouse or greenhouse /, vertical holes 10-100 cm in diameter with a depth of 0.5-2.0 m are dug out in the soil and special material containing thin capillaries is lowered into them. The upper part of this material is in the soil in the root area, and the lower one is at or near groundwater. The special material may be porous plastic, expanded polystyrene, water-retaining / perlite / and other materials consisting of thin capillaries. Dug vertical holes fall asleep with material. A more convenient solution is to make a product of a round or other shape from a material, with a diameter of 10-100 cm, a height of 50-250 cm. It is advisable to expand the upper part to increase the contact with the soil of the root layer. Specified, the product is lowered into a vertical hole previously dug in the soil. Several such devices can be made on the garden bed or in the greenhouse, and it is advisable to connect their upper parts with plates of the same material horizontally located in the soil / Fig. 1, a, b /. In the absence of moisture in the upper layers of the soil, moisture from the lower layers rises through the capillaries to the upper layer and moisturizes it. The most favorable result is achieved if the lower part of the material lowered into the soil touches groundwater or is located in them. One can often see vegetable plants planted on soils with low occurrence of ground water burn out from lack of moisture, that is, plants die on the soil surface, and rivers of water "flow" at a depth of 0.7-1.0 m. The proposed solution can be recommended for use in greenhouses and greenhouses of private farms, when the owner is forced to leave them without control for a long time / 7 or more days /.

 Example 1. As an example illustrating this technical solution, we present the results obtained in the following experiment. The soil in the form of sand is placed in two identical vessels. In one of the vessels placed material from thin synthetic fibers / Fig. 1, in /. The initial state of the system is characterized by equal moisture content in the soil. Then both vessels were kept under equal conditions for a certain time and at the same time the moisture content in the soil was determined. Sand was chosen as soil because of considerations of lightness, correctness and accuracy of determination of moisture content in sand / calcination in a muffle /. The results on the change in moisture content along the height of the soil layer and depending on the exposure time are given in table. 1.

The moisture content was determined by heating the selected samples of sand at a temperature of 90 ^o C for 1 hour. The capillary-containing material consisted of hydrophilic synthetic filaments taken from filter cloth. As can be seen from the obtained results, in the event that a device consisting of capillary-containing materials is used, then:
1. Firstly, soil moisture is 3-5 times higher compared to the prototype.

 2. Secondly, the humidity varies little along the depth of the soil, while in the absence of the device, the moisture decreases by 2-3 times.

 When implemented in horticultural farms, one, but not the best option, may be that vertically dug channels in the soil are covered with thin sand, between the particles of which the formation of capillary channels is possible. Complications are associated with siltation of sand and clogging of channels.

 Sources of information.

1. Yusupov T.Yu. "A method of growing plants" A.S. N 3944008 from 05/06/71. by class A 01 G 9/00
2. Sharunich V.P. et al. "Greenhouse" Patent RF N 1814498 according to class A 01 G 9/00
3. Wild A. "Device for automatic soil moisture" Patent R. F. N 1678192 from 10.20.85 by class. A 01 G 9/00
4. Huseynov N.I. et al. "Greenhouse" Patent R.F. N 1276298 dated 11/22/82 according to class. A 01 G 9/00
5. Dobrynin V.A. et al. "Device for drip irrigation" Patent R.F. N 1697628 from 07.24.89 according to class. A 01 G 9/00

Claims (4)

 1. A method of moistening the soil when growing plants by introducing water into the root layer of the soil, characterized in that material containing thin capillaries is placed in holes made in the soil with a diameter of 0.1 - 1.0 m and a depth of 0.5 - 2.5 m and the upper part of this material is at the level of the root habitat soil layer.  2. The method according to claim 1, characterized in that the material used is perlite, foamed polymers, water-retaining materials.  3. The method according to claim 1, characterized in that in order to increase the effect, the upper part of the material expands or joins with the same material in a horizontal plane.  4. The method according to claim 1, characterized in that the material can be shaped into columns or bars of various sections, which are lowered into holes prepared in the soil.

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