SU124731A1 - System of integrated mechanized control of heat, moisture and food in the soil for agricultural plants - Google Patents

Description

Apparatus is known that delivers moisture and nutrients to the plants through the subsurface layers in order to accelerate their maturation and increase yields.

However, these subsurface agromeliorative facilities mainly perform the task of irrigating or drying the arable horizon, or in some cases supplying nutrients to plants along with water, but they do not provide a complex effect on the plant of all other factors of its development.

The proposed device helps to eliminate these deficiencies and, along with improving the supply of plants with moisture and nutrients both mineral and gaseous (carbon dioxide), improves the thermal balance of the soil and enhances its microbial activity, accelerates snow melting on the fields, and lengthen the vegetation season. period and thereby expand the boundaries of the cultivation of agricultural plants and promote valuable heat-loving crops in new areas.

A constructive feature of the proposed device is that the subsoil network of pipelines is provided at the ends of highways or separate sections of the system with air-heating devices and gas supply devices that deliver heat to the root layer of the soil, as well as carbonic fertilizer for plants.

Air-heating apparatus can operate at the expense of sunlight or at the expense of togtliv. Solar devices are made in the form of boxes with one or several transparent surfaces, vertical partitions 124731-2 partitions, which give the heating air a zigzag movement in the box, and solar reflectors on the bottom of the box with a different reflective surface, for example, of a parabolic-cylindrical shape. In any method, the heaters are equipped with exhaust pipes and valves that block the air access to this box. Each of the spacers can play the role of an exhaust device for heated air and, at the same time, the role of a pusher of heated air B in the pipeline towards the adjacent air outlet serving as an exhaust device.

The piping network is laid out of individual links, each of which is formed by two shaped parts: the underlying and the covering, interconnected by grooves or hangers so that slots are formed on both sides of the pipeline to penetrate the liquid and gas components into the soil, eliminating the possibility of clogging working section of the pipeline ground.

FIG. 1 shows a subsoil network of a pipeline with heating devices at the ends of separate sections of a zigzag pipeline, top view; in fig. 2 - the same, when placing the heating apparatus at the ends of the main pipes.

Between the pipelines parallel to each other at a certain distance from each other, sections 2, 2a, 26 of the zigzag pipeline are located. At the ends of individual sections or at the ends of highways, air-heating apparatuses 3, 3a, 36 are arranged.

The movement of the heated air in the pipeline is automatic in both directions.

FIG. 1 when air moves, for example, from the heater behind to the heater 3, the opening 4 of the heater behind serves as the inlet for the heated air, while the opening of its exhaust pipe 5 is closed; As an air outlet, there is an opening in the exhaust pipe 5 of the heater 3, with its inlet 4 closed. Thus, the movement of heated air through the pipeline is due to the pulling and pushing action of the heating apparatus.

In the case of air moving from the heater 3 to the heater for, i.e. in the opposite direction, the opening of the exhaust pipe 5 of the first heater is closed and its inlet 4 opens, while in the second heater the exhaust pipe 5 comes into action and the entrance hole 4 is closed.

FIG. 2, heating devices 3 and Za, equipped with the same fixtures (chimneys and inlets), as well as devices 5, Za and 36 in FIG. 1, are connected to the ends of main pipes. In this case, when moving heated air, for example, from apparatus 5 to apparatus Za and during operation of, for example, only one section 2, the valve (valve) 6 of the main pipeline closes, while the others are open. If it is necessary to heat section 2c, then close the valve (valve) 6c. With the simultaneous action of several sections, for example 2a, 26, 2b, the valves (gates) 6a, 66, 6b are closed, respectively, and the rest are opened. A similar regulation is made during the return movement of heated air from the apparatus behind to apparatus 3. In case of need, disconnection of certain sections from the main pipe or their inclusion in operation, the valves 7 are closed or opened.

Burned clay, wood, in some cases concrete, metal, plastics, etc., can serve as the material for the manufacture of individual sections of pipes.

Subject invention

The system of integrated mechanized management of heat, moisture and food in the soil for agricultural plants, is designed as a subsoil irrigation network of main pipes and sections of a zigzag pipeline laid between them, in order to combine moisture, heat and food for plants, this network is equipped at the ends of highways or individual zigzag links of the pipeline with solar or thermal heating devices having exhaust pipes and inlets with valves for forced pushing and pushing in both directions of air heated from the sun sludge using any fuel, resulting in heating of the soil, its supply with water, or moisture coming from the snow, or supply of soil and plants carbon dioxide and liquid dressing, ensuring the possibility of temperature sterilization and soils and microbiological processes in it.