RU2706476C1 - Devyatkin device and method for planting multi-month seedlings at the beginning of fruiting for areas with short climatic summer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to agriculture. Device for planting multi-month seedlings at the beginning of fruiting for areas with short climatic summer consists of boxes with mesh walls and bottom, containing soil and plants. A fast-disintegrating gasket is installed inside the boxes, and a root-impermeable film is installed outside. In the gaps between the boxes in the row, the furrows are covered with shields so that an air heating channel is formed under the boxes and equipped with an air heating pad on one side and an inclined chute on the other side. In order to plant multi-month seedlings at the beginning of fruiting for regions with short climatic summer, the above described device is used. It is installed on warm combs of furrows or on warm soil collected from field surface. External film is removed and internal gasket is broken.

EFFECT: possibility of growing plants under open ground, using the entire solar spectrum, for maturation of full-grown fruits in conditions of short climatic summer.

8 cl, 8 dwg

Description

The invention relates to agriculture, in particular to devices for growing heat-loving plants of vegetable crops by planting plants in the fruiting period in open ground and is intended for gardening and horticulture.

Known patent No. 2479986 "A method of creating conditions for growing heat-loving plants of vegetable crops in open ground and a device for its implementation", which consists in closing the plants from above and from the sides with translucent protective screens with mirror internal surfaces.

Its disadvantage is the difficulty in operation.

Known patent No. 2423036 "Biocontainer for planting plants", consisting of a moisture-absorbing shell with a cavity for planting material grown in a greenhouse.

The disadvantage of this device is that it is used in drought conditions.

As a prototype taken patent No. 2145473 "Method of growing seedlings", which consists in compaction of the root volume of soil with subsequent sampling of seedlings.

Its disadvantage is not the same degree of compaction due to the unevenness (variegation) of the physical and mechanical parameters of the soil.

No devices were found to grow seedlings to the stage of fruiting and planted in open ground without root damage.

The objective of the invention is to create conditions that allow in the conditions of a climatic summer to increase the fruiting period by growing seedlings to the stage of bearing fruiting (months-old seedlings) and planting it in open ground before the end of thawing of the soil with the subsequent creation of favorable conditions for plant growth.

The technical result of the invention is to increase the fruiting period, namely: the possibility of an earlier planting of seeds for seedlings, improving the survival rate of seedlings and the use of a short summer period (one to two months) for fruit ripening.

The achievement of the claimed technical result and, as a result, the solution of the problem is achieved by the fact that the device consists of a box with soil and plants, a quick-decomposing gasket is installed inside the box, and a root-resistant film is installed on the outside, the walls and bottom of the box are mesh. A number of boxes are installed above the field surface on the ridges of the furrows with the formation of a heating channel underneath, at one end of which there is a platform for heating the air, and on the other hand an inclined groove that draws air, which is a triangular box-shaped structure with a light-permeable outer wall and a light-absorbing inner wall . The gutter has a hole at the top and a flexible pipe at the bottom, hermetically connected to the heating channel, and the gutter is pivotally connected to the flexible pipe and can be rotated towards the sun. A number of boxes can be installed on the warm crests of the furrows or on warm soil collected from the surface of the field, during installation, remove the outer film and break through the inner lining. A box or a row of boxes is spudded with warm soil collected from the surface of the field or from adjacent ridges formed on the field. A number of boxes can be installed on supports with the formation of a heating sealed channel through which warm air is passed. With significant freezing of the soil, it is heated in the crests with the help of a gutter and using pipes installed inside the crests and lying on the heat-insulating layer by passing warm air through them before installing the boxes with seedlings.

In FIG. 1 - shows a diagram of the box; in Fig.2 - shows a diagram of the internal structure of the box, section AA in Fig. one; in FIG. 3 - shows a diagram of the installation of the box on the ridges of the furrow with the formation of a ventilation hole; in FIG. 4 - shows a layout of boxes on the furrow, view B in FIG. 3; in FIG. 5 shows the location of the chute installed at the outlet of the ventilation hole; FIG. 6 shows a trough and a diagram of the movement of air through it, view B in FIG. 5; in FIG. 7 shows a trough, section GG in FIG. 6 .; in FIG. 8 - use cases of the device.

The device consists of a box 1 with mesh walls 2 and a bottom 3, which are externally covered with a root-resistant film 4, and inside with a rapidly decomposing gasket 5 (for example, newsprint) (Fig. 2). A group of drawers 1 is mounted on ridges 6 of grooves 7 with the formation of an air heating channel 8 under the drawers 1, and in the spaces between the drawers 1, the grooves 7 are closed by shields 9, thereby forming an extended channel 8 (Figs. 3 and 5). For natural forced heating with warm air of the root layer of soil 18 in a box and soil in ridges 6, on the one hand, the heating channel 8 is equipped with an inclined, drawing air from the heating channel 8, triangular groove 10. At the groove 10, the bottom 11 inside is covered with light-absorbing material 12 (for example , black film), and the outer surface facing the sun 13 with light-transmitting material 14 (for example, a transparent plastic film) (Fig. 6, 7). On the other hand, in front of the heating channel 8, a platform 15 for heating the air entering the ventilation hole 8 made of light-absorbing material 12 is laid on the soil. The upper wide part of the groove 10 is open, and the flexible pipe 16 is installed in the lower part, connected to the heating channel 8 by hinge 17.

According to the first option (when freezing the soil by 20-30 cm.), The method of using the device is as follows. In the box 1, laid inside with a gasket 5, the soil is placed 18. The soil 18 for the box 1 is taken from the same soil in which the plant will bear fruit, thereby reducing the stress for the plant 19, which occurs when the roots sprout through the walls 2 of the box 1 into the soil having a different composition and plant 19 will not have to change the diet (for example, from an acid regime to an alkaline one) due to the different composition of soil 18 and soil. In box 1, one or two plants 19 are grown before the fruiting stage, which should coincide with the onset (climatic summer) of a period of stable positive temperatures and planted in open ground. At this time, the soil, as a rule, at a depth not sufficiently warmed up to a temperature close to temperature (determined by the pyrometer, for example, infrared non-contact thermometer-pyrometer DT-812) favorable for the development of plant roots (the most favorable +36 degrees C). Therefore, to reduce the stress of plant 19 arising from the temperature difference between soil 18 and soil, the upper warm soil layer is raked to form a pillow, and a box 1 with soil 18 on which plant 19 is grown is placed on it (Fig. 8a). In the box 1, the outer root-proof film 4 is removed. By this time, the pad 5 is decomposed from moisture and soil and is not an obstacle to the growth of roots in a pillow consisting of upper warm soil. If necessary (if by this time the gasket 5 has not decomposed and prevents the growth of roots), holes are pierced in the gasket 5. As the soil warms up, it is buried to the mesh walls 2 (they are spudded). The roots of the plant 19 through the mesh walls 2 and the bottom 3 extend beyond the seedling box 1, increasing the nutritional area of the plants 19. The warm soil surrounding the box 1 increases the zone of distribution of the roots and promotes abundant fruiting, while the roots of the plant are not damaged and two types of stress are excluded for plants: from temperature differences and from differences in the composition of soil 18 and soil.

The second option (when freezing the soil about 0.5 meters) differs from the first in that the boxes 1, until the soil is completely warmed up underneath, are placed on supports 20 (for example, poles), located from north to south (Fig. 8b). The gaps between the drawers 1 are covered with light-absorbing material 12 or shields 9, forming a heating channel 8, on the one side of which an inclined, drawing air from the heating channel 8 is installed, a triangular groove 10, and on the other side (facing the sun 13) of the channel 8, a platform is laid on the ground 15. In the triangular groove 10, under the influence of the sun 13, air is heated, which rises up through the upper open wide opening of the groove 10, drawing air from the channel 8 through a flexible pipe 16, hermetically connecting cash 8 and the lower narrow part of the groove 10. The air entering the channel 8 and passing under the drawers 1 is heated above the platform 15 (black film) by the sun 13. To enhance the heating of the air in the groove 10, it is turned to the sun 13 on the hinge 17. Before installing the drawers 1, remove the outer root-proof film 4. If necessary (if by this time the gasket 5 has not decomposed and prevents the growth of roots), holes are pierced in the gasket 5. As the soil warms up, it is buried to the mesh walls 2 (spud), then removed from gaps between y drawers panels 9 (or light absorbing material 12) and the channel 8 is filled with warm soil. The roots of the plant 19 through the mesh walls 2 and the bottom 3 go beyond the seedling box 1, increasing the nutrition zone of the plants 19. In case of spilling through the mesh walls 2 and the bottom 3 of the soil 18, not connected by the roots of the plants 19, and the formation of dimples in the places of the formed pits , warm soil is added from the surface of the field.

The third option (when freezing the soil up to 0.5-1 meter) differs from the second in that the fields form ridges 6 from the thawed soil, which quickly warm up and drawers 1 are installed on them, the gaps between which are closed by shields 9, forming a sealed channel 8. The soil for the hilling of the installed boxes 1 is taken from the adjacent ridges 6, warmed up by the sun 13.

The fourth option (when freezing soil is more than 1 meter) is different in that pipes 22 are placed in the locations of ridges 6 (for example, perforated drainage pipes covered with fiberglass), then ridges 6 are buried from the soil, a platform 15 and a chute 10, pipe 16 are installed connected to the pipes 22 and heated the soil in the ridges 6, then in the heated soil on the ridges 6 set boxes 1, the rest of the actions are performed as in the previous versions.

The fifth option (for polar and subpolar regions with a short summer, but a long daylight hours of about 20 hours with significant freezing of the soil), a heat-insulating layer 23 is laid in the places where the ridges 6 are formed, then ridges 6 of thawed soil are formed above it, into which pipes 22 are placed are connected by means of pipes 16 to the chute 10 and the remaining actions are performed as in the previous versions.

In the third, fourth and fifth embodiment, the furrows 7 are located from east to west (the best warming up of the soil is provided), and boxes 1 with two plants 19 from south to north.

The invention will allow the use of a period of increased insolation (previously little used) for fruit ripening. For example, in the Tver region the number of days with a duration of sunshine of more than 9 hours (from February 7 to November 5) is 240 days, but the climatic summer lasts only 90 days. Now, as a rule (in Emmaus, Tver Oblast), plants grow from the beginning of June to July (overcoming the stresses caused by damage to the roots, cold soil, different soil and soil composition in the box), and from the end of July they begin to bloom and bear fruit in August, those. mainly used is the period of decrease in insolation.

The invention allows fruiting to begin from the beginning of June to August, i.e. two months earlier due to the fact that transplanting seedlings into the soil is possible when the temperature of the seedlings in the box and the air temperature are approximately equal, but the soil has not yet completely warmed up.

The invention will allow to grow plants in open ground, i.e. (unlike greenhouses and hotbeds) use the entire solar spectrum for the ripening of full fruits in the conditions of a short climatic summer.

Claims (8)

1. A device for planting many months of seedlings at the beginning of fruiting for areas with a short climatic summer, characterized in that it consists of boxes with mesh walls and a bottom containing soil and plants, inside of which there is a quick-decomposing lining, and the outside is a root-resistant film, while in the spaces between the drawers in the row, the furrows are covered with shields with the formation of an air heating channel under the drawers, equipped on one side with a platform for heating the air, and on the other, with a drawing air Uh inclined trough. 2. The device according to claim 1, characterized in that the inclined trough is a triangular box-shaped structure with a light-permeable outer wall and a light-absorbing inner wall. 3. The device according to claim 1, characterized in that the trough at the top has an opening, and at the bottom a flexible pipe that is hermetically connected to the heating channel. 4. The device according to claim 1, characterized in that the trough is pivotally connected to a flexible pipe and can be rotated towards the sun. 5. The method of planting multi-month seedlings at the stage of beginning fruiting for areas with a short climatic summer, characterized in that they use the device according to any one of paragraphs. 1-4, which is installed on the warm ridges of the furrows or on warm soil collected from the surface of the field, while removing the outer film and breaking through the inner lining. 6. The method according to p. 5, characterized in that the box spud with warm soil collected from the surface of the field or from adjacent ridges formed on the field. 7. The method according to p. 5, characterized in that a number of boxes are mounted on supports with the formation of a heating sealed channel through which warm air is passed. 8. The method according to p. 5, characterized in that the soil in the crests before installing the boxes with seedlings is heated using a trough by passing warm air through pipes installed inside the crests and lying on the insulating layer.

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