RU2020793C1 - Method and pot for growing tomato plants - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: plants are grown in a prism-shaped pot with walls cut along the ribs. The walls may be folded or rolled. The pot has a framework with its rods located inside the pot under its ribs. As the plant grows, the walls get straightened in a discrete manner, and the free space is filled with some nutritive mix for development of roots. Later the pot is laid on one side, and this makes the plant stem top turn upward at an angle of 90 deg. The plant is planted in the soil with the pot if the latter has perforation holes. EFFECT: early development of tomato plant roots; improved growing conditions. 5 cl, 10 dwg

Description

 The invention relates to agriculture.

 A known method of growing plants, such as tomatoes, seedlings in boxes with transplanting seedlings, and then planting seedlings in the soil.

 Its disadvantage is that during transplantation, the root system is substantially damaged and plant growth is restrained.

 A known method of growing tomatoes in peat pots and perforated cups with a vertical planting of seedlings in the soil in pots and cups, eliminating damage to the roots.

 The disadvantage of this method is that it does not use the ability of tomatoes to grow roots on stems and shoots, which inhibits the development of the plant and fruiting.

A known method of planting tomatoes lying, taken as a prototype. Lying plant a plant that is free from the glass in which it grew, you can plant it lying in a perforated glass. When planting young tomato plants into the soil lying tip of the stem is rotated upward at an angle of ⁹⁰ ° and, at the same time on the stem, are buried in the ground, soon formed additional roots, greatly improving plant growth and a positive influence for a good harvest up to several tens of kilograms of fruit per bush .

 The disadvantage of this method is that it takes about 7-10 days to turn the stem up and develop the additional root system, only after which intensive growth of the stem, shoots and leaves begins. When choosing the prototype of the method, the method of growing tomatoes in a cup with the addition to the stem of the seedling of the nutrient mixture to a height of 1-2 cm was also taken into account.

The objective of the proposed method is to first obtain the roots on the stem and shoots in advance and then turn the top of the stem upward at an angle of 90 ^about before planting in the soil.

 The glasses in which tomato seedlings are grown have a small height of up to 100 mm, so you cannot get plants with a developed root system on the stem.

 The height of thin-walled cups to give them rigidity can be increased by providing them with a frame. But then the walls prevent the young tomato from growing, shading it from the light. The prototype has a cylindrical shape, however, prismatic cups made from milk packets are known. The shape of such cups and suitable for solving the task is taken into account for the characteristics of the prototype.

 The invention of the cup, in which it would be possible to grow a young tomato with roots on the stem, is to increase the height of the cup without interfering with the growth of the young tomato, to care for it and increase its stiffness with the usually accepted wall thickness of thin-walled cups.

The problem is solved in that in the method of growing a plant, for example, tomato, in a nutrient mixture in a cup, including planting a seedling, sprinkling the nutrient mixture and transplanting the tomato into the soil lying down, the height of the cup is discretely increased as the tomato grows, adding the nutrient mixture after each increase its height and before planting the tomato in the soil, it is grown for 5-10 days in the position of the cup lying down until the top of the stem rotates 90 ^° up.

 A cup for executing the method, made in the form of a prism open at one end, provided with a frame for strength that holds the cup walls in a predetermined position, has a height of 200-300 mm, 2-3 times higher than a known cup, the walls are cut along the ribs into a length of 100-200 mm to a height of 100-150 mm, necessary to keep the base of the cup intact, depending on the height of the stem of the seedling, able to fold near the uncut base of the cup, discretely straighten as the tomato grows, be straightened for the rest of their height in the last stage of growth of tomato just transplant it into the ground and is discretely attached to the frame.

 The walls of the cup before transplanting the seedling into it and at the beginning of its growth are folded into folds near the base of the cup or rolled up.

 The frame of the cup is characterized in that its rods are located inside the cup under its ribs, and its base, located at the bottom of the cup, is equipped with a plate overlapping the cross section of the cup.

 It is proposed that the cup frame be collapsible.

 The following options are possible for the cup method and its details.

 The cup can take the form of trihedral, tetrahedral and hexagonal hollow prisms, open at one end.

 A cup can be non-perforated and perforated. In the first case, the tomato plant should be released from the cup and frame when planting in the soil. In the second case, the plant is planted in the soil in a cup with a whole or disassembled frame. The frame in this case is not provided with a plate overlapping the cross section of the cup.

 As a material for a cup, thick paper coated with a plastic film can be taken, as in a milk bag, plastic and other materials are quite rigid with a small thickness and at the same time allowing folding into folds or folding into a roll.

 The material for the frame can be a steel wire that allows soldering and welding with a non-separable frame and assembly on the thread in a collapsible frame. Materials can also be aluminum wire and plastic.

 In FIG. 1 and 2 show the proposed cup, a general view with the cup walls folded into folds, straight and top views, respectively; in FIG. 3 - the same, straight view with straightened walls at the final stage of tomato growth; in FIG. 4 - a cup with a tomato plant lying; in FIG. 5 and 6 - cup options with folded and rolled up walls; in FIG. 7-10 - variants of the frame with plates from a wooden board.

 In a prismatic cup 1 with walls 8 folded in a zigzag fold 2 and a thickness of 8 mm, a non-separable wire frame 3 is inserted from wire rods 4 of diameter D and a nutrient mixture 5 is poured. The frame 3 is equipped with a wooden plate 6 that lies freely on it 6. In the nutrient mixture 5 grows young tomato 7. The walls of the cup 1 when folded and straightened are tied up with a cord 8.

 In the cup embodiments of FIG. 5, the walls 2 are folded into one fold, and in FIG. 6 rolled up.

 The bottom of the cup 1 or its wall 2 near the bottom should have drainage holes, and the cup itself should be installed in the cup holder.

 In the embodiments of the carcass of FIG. 7 and 8 it can be seen that the frame 3 has the shape of a cell (see Fig. 1) with a wooden plate 6 laid on the bottom, necessary to extract the nutrient mixture 5 with the tomato plant from the cup 1 when transplanting it into the soil. In another embodiment of the chassis of FIG. 9 and 10 it can be seen that the frame is made in the form of two arcs attached at the base to the plate 6. This version of the frame is suitable for manufacturing by the simplest tools at home.

 PRI me R 1. Take open from one end of the milk bag square section. Its wall from the open end is cut along the ribs to a height of 100 mm from the bottom. Slots were cut on each face of the cup, forming trihedral petals, covering future holes for the roots. The cut parts of the walls are folded around the bottom of the glass in zigzag in two folds and tied with a lace. A wire frame made of steel wire with a diameter of 2 mm according to FIG. 1 with rods coming under the ribs of the cup that is inserted into the cup. A nutrient mixture to a height of 80 mm is poured into the cup of the house. It was planted on March 4, 1991, with the germinated seed of the Peremoga variety. The tomato plant sprouted on March 8th. After 40 days on April 17, the inner folds of the cup walls were straightened, and the remaining outer folds were again tied around the frame with a cord. A nutrient mixture was spread in the formed space, covering the stem of a growing tomato. In late April, the tomato plant was transported to the garden plot. After 30 days, on May 17, on the veranda of the garden plot, the second folds of the walls of the glass were straightened and tied around the frame. The cup has acquired a full height of 240 mm. The nutrient mixture is again poured into the resulting space.

In conclusion, before landing the glass was laid on May 25 on one side for 7 days, during which the top of the stem bent upward at an angle of 90 ^about . In this form, a young tomato was planted on June 1 in the soil lying. Before planting, the plant had a height of 65 cm from the surface level of the initial mixture, or 30% more than that of the control plant. It had blooming flowers on one brush. The thickness of its stem was 20% greater than that of the control plant. The control plant had no flowers. During the growth of the experimental tomato, the stem gave additional roots, as we were convinced by opening the covered part of the stem from another experimental plant. Watering a tomato while it was growing on a garden plot was carried out not only from above, but also through holes covered by petals.

 PRI me R 2. February 15, 1992 at home in the apartment planted in plastic cups for fruit water 18 seeds of tomatoes of the variety "De Barao". Six of them, as seedlings, were transplanted into cups of square milk packets with walls cut along the ribs to a length of 120 mm and folded in folds according to FIG. 8. The height of the remaining uncut part, equal to 120 mm, is selected along the height of the stem of the seedling to two-leaflets, equal to 80 mm, and the length of the trimmed root, equal to 25 mm. Frames of aluminum and steel wires with a diameter of 2.5-4 mm, made in accordance with FIG. 9 and 8 with a wooden plate at the base of a board 15 mm thick. Plants as seedlings are grown at home on a table illuminated by fluorescent lamps. To reduce their elongation in growth, the first two true leaves are trimmed.

 Planting a tomato by the proposed method will allow you to get tomato fruits at an earlier date than when planting in a known manner with a higher yield.

Claims (4)

1. A method of growing plants, including planting a seedling in a glass, sprinkling the nutrient mixture into it and transplanting the seedling into the soil in a horizontal position, characterized in that the sprinkling of the nutrient mixture in a glass is made after each successive increase in the height of the stem of the seedling, while before planting the seedling in its soil in a cup is laid horizontally until the seedling rotates 90 ^o up.  2. A glass for growing plants containing a container made in the form of a container open on one side, on which a collapsible frame of rods is installed, characterized in that the container is made in the form of a prism 200 to 300 mm high, and the prism ribs are cut with a length of 100 - 200 mm from its top, and its walls are made folding along the length of the cut.  3. A cup according to claim 2, characterized in that the walls of the prism are made with the possibility of folding them into a roll.  4. A cup according to claim 2, characterized in that the rods of the frame in the lower part are connected by the base on which the plate is placed, while the rods are located inside the prism along its ribs.

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