RU2041608C1 - Plant-growing bed - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: bed comprises a base-mounted box with a branch pipe. A grate disposed on the box supports substrate blocks with internal air chamber communicating with said box. EFFECT: lower material expenditures for plant growing and higher yield of green mass. 1 dwg

Description

 The invention relates to agricultural technology and crop production, can be used in the formation of ridges for growing plant crops, especially in the greenhouse conditions of subsidiary and agricultural farms.

 Known ridge for growing plants, including a layer of substrate sprinkled on the surface of the base with plant cultures planted in it.

 The main disadvantages of this ridge are the small amount of green mass produced on it during the growing season to a unit of the surface of the base and the high material costs of growing.

There is also a ridge for growing plants, including a layer of substrate with plant cultures planted in it in a box-box on the surface of the base flush with the upper edges [2]
The main disadvantages of this ridge are the high energy costs of surface heating of the substrate of the ridge when growing plants and the small specific volume of green mass produced on it per unit surface of the base.

 The objective of the invention is to develop such a ridge that would ensure a reduction in energy consumption for heating the substrate of the ridge when growing plants and increase the yield of green mass of plants during the growing period to a unit of the surface of the base.

 This is achieved by the fact that in a known ridge with a layer of substrate with plant cultures planted in it flush with the upper edges of the box-box on the base surface, the box-box is covered with a grid on which the substrate is placed in the form of blocks with the formation of an air chamber above and below box-box grill, while the camera communicates with the atmosphere through the pipe.

 The drawing shows the proposed ridge, section.

 It includes the surface of the base 1, box-box 2, pipe 3 in the wall of the box-box 2; grate 4 on the box-box 2; blocks of substrate 5 on the grate; plant culture 6 in blocks of the substrate; air chamber 7 above and below the grill 4.

 The principle of implementation of the recommended technical solution is as follows.

 On the surface of the base 1, greenhouses are laid at a calculated distance from each other, box boxes 2, for example, of concrete with metal pipes 3, for example, built into their walls. A metal grate 4 is placed on the upper edges of the box-box 2. On top of the grate, they are covered with blocks of substrate 5 of the calculated height (volume), for example, blocks of heat-pressed sapropel, agroban, in which plant culture 6 is planted from the surface, for example lettuce, cucumbers. In this case, an air chamber 7 is formed under the substrate 5 inside the box-box 2 and the ridge, which is connected to the atmosphere through a pipe 3 in the walls of the box-box.

 Along with the implementation of the necessary regime measures to increase the green mass of plants: maintaining the light and gas regime in the greenhouse above the box boxes, the heat and moisture saturation of the substrate blocks 5 is carried out by means of a dosed supply of warm water or steam to each box box (from the water and steam heating systems of the greenhouse) through the nozzle 3 into the air chamber 7. In this case, the evaporated water saturates the pore volumes of the blocks of the substrate, heating them, condenses in and in the chamber and is absorbed by the root system of the plant culture 6. Moreover, Part of the lower blocks (calculation layer) of the substrate of the 5th ridge perform the function of thermal resistance.

 As a result of saturation with heat and moisture (with an environment with greater heat capacity and heat transfer) of a large volume (including the height of the ridge) of the substrate and plants under the screen from the blocks in the air chamber, unproductive heat and moisture losses to the atmosphere, energy costs for heating the substrate, and therefore , for warming the greenhouse (especially at low air temperatures) and growing plants.

 When changing the thermal regime in the atmosphere (severe colds) and the need to use strongly heated water or steam, the thermal resistance layer is controlled, for example, by installing an additional number of substrate blocks above the grating or other thermal resistance screens. Make-up with mineral fertilizers and regulation in the chamber 7 of the gas regime for each of the box boxes in the greenhouse is carried out by dosed supply (input) of each agent box through the pipe 3.

Thus, the proposed ridge provides the following advantages:
reduced energy costs for growing plants by reducing energy costs for heating the substrate; specific energy consumption with combined heat saturation of the substrate; reduction of heat and moisture losses with local and dosed injection of agents of greater heat capacity and heat transfer into the box-boxes under the screen of the substrate;
the yield of plant mass of plants from a unit surface of the base increases while reducing the use of volumes of mineral fertilizers (the presence of organic substrate, local dosage in each box box) by increasing the sown area and volumes of fertile substrate (on the forming surface, in terms of height) on the box-box, reliability and preservation of the standardized yield for local crop diseases by isolating the substrates in the box-boxes;
the service life of the ridges is increased by reducing the use of mineral fertilizers, the possibility of disinfection at the site of the substrate and the possibility of partial replacement, including “painful” blocks of the substrate of the ridges;
labor costs are reduced due to the block substrate for the formation of ridges, their replacement, individual mode of servicing the ridges.

Claims (1)

 A PLANT FOR GROWING PLANTS, comprising a box-box mounted on the base with a grid placed on it, on which blocks of substrate are installed, the box-box having a branch pipe, characterized in that the blocks of the substrate are mounted on the grid with the formation of an air chamber inside them, communicating with the box-box.

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