RU2109439C1 - Plant growing container - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: container has side walls embracing conical bead 2 of bottom 3. Outer surface of bead 2 is provided with groove 4 for receiving gasket 5. Top and bottom parts of side walls are made in the form of cylinder halves adjoining conical part. Top parts of side walls are embraced with retainer 11 and their bottom parts are embraced with rim 9. EFFECT: increased efficiency in creating favorable conditions for plant growing and reduced injure to plant roots during transplantation of plants. 9 cl, 12 dwg

Description

 The invention relates to the field of agriculture and can be used for growing plants in closed containers.

 A device for growing and planting seedlings of vegetable crops in the soil, containing an elastic container with a bottom having an opening [1]. Racks are mounted on the upper part of the tank, on which a glass is also made of elastic material with a longitudinal slot, on both sides of which are mounted handles for opening the slot and removing the glass when the root system of the plant is released.

 The disadvantage of this known device, which undoubtedly improves the conditions for the development of the root system of a plant, is the complexity of the design and the obligatory use of a glass made of elastic material only, otherwise the soil lump will be destroyed when transplanting the plant. The transplant operation itself is also difficult: turning the device over, opening a slot, etc.

 The closest technical solution known is a device for growing and transplanting seedlings containing a detachable body and a removable bottom [2] - prototype.

 However, this known device does not allow to control the process of acceleration and growth of a planted plant in it and, in addition, does not exclude the loss of nutrient solution during irrigation.

 The problem to which the invention is directed, is to reduce efforts when extracting plants with lumps of soil from the capacity of destruction of lumps during transplantation and creating favorable conditions for plant growth.

 EFFECT: reduced trauma of the plant root system and, as a result, increased survival in a new place after transplantation.

 The problem is solved in that in the container for growing plants containing a retainer located on top of a detachable cone-shaped body and a detachable bottom with a drainage hole, the side walls of the cone-shaped body also cover a cone-shaped bottom bead, while a groove is made on the outer surface of the said bead, in which the gasket is placed , and at the very bottom, open cavities oriented towards each other are made.

 In addition, the task is also solved by the fact that the lower and upper ends of each of the said conical parts of the side walls of the housing are adjacent to the corresponding lower and upper parts of the said side walls, while each of these parts is made in the form of a half cylinder and made in one piece with conical part of the side wall.

 In addition, the task is solved by the fact that in the gaps between the side walls of the tank body there are L-shaped plates oriented towards each other, made of a fertilizer mixture of long-acting.

 At the same time, the problem is solved by the fact that the bottom of the tank with adjacent side cylinders of the side walls covers the rim.

 In this case, in the container, each of the gaps between the side walls of the container body is closed from the outside by a U-shaped elastic plug, the support curly parallel protrusions of which are included in the corresponding grooves made in each of the mentioned side walls.

 The problem is also solved by the fact that the wall retainer has an annular groove in the lower part, which includes the upper ends of the side walls of the housing, and the lower end of the retainer rests on a shoulder made on the upper part of each of the side walls.

 In order to solve the problem in the coverage areas, the bottom and the upper parts of the side walls of the tank have protrusions, and corresponding holes are made in the rim and latch covering the bottom, into which these protrusions enter.

 Permanent magnets are placed in the cavities of the bottom of the tank to provide control over the acceleration process of plants planted in the tank.

To control the growth of plants planted in the tank, heating elements are placed in the cavities of the bottom of the tank
In the study of the distinguishing features of the described capacity for growing plants, no similar known solutions were found regarding the use of the traditional design of the capacity for growing plants, which allows preserving the soil lump and the integrity of the root system without injury during transplantation, including those cases when small roots of the plant stuck to the walls of the tank.

 In comparison with the prototype, the proposed capacity for growing plants has a number of distinctive features: the detachable body of the container is made expanding downward. This design provides better development of the roots of the plant, and parts of the body that are easily open in the vertical plane ensure the safety of the soil coma when transplanting plants to a site or another, large container, without the need to turn the container upside down. The proposed design of the tank also differs by the presence of L-shaped plates installed in the gaps made of a fertilizer mixture of long-acting action.

 The inventive capacity for growing plants, in contrast to the prototype, has a bottom with cavities made in it, open from the sides, in which other technical means for controlling plant growth can be placed: permanent magnets, heating elements.

 The analysis of the distinctive features in comparison with the prototype allows us to conclude that the invention meets the condition of "novelty."

 To check the compliance of the invention with the condition "inventive step", an additional search was carried out for known solutions in order to identify signs that match the distinctive features of the proposed capacity for growing plants from the prototype.

 As a result of the search, a collapsible flower pot was found (ed. St. USSR N 1692383, class A 01 G 9/02, 1989, published in BI. N 43, 1991), in which the lower parts of each wall are covered with a shoulder, in while in the proposed tank for growing plants, the flange of the bottom is a supporting element for the side walls of the tank, and their lower parts are covered by the rim.

 Search results for other sources of information showed that the invention does not follow explicitly from the prior art for a specialist, an original technical solution was developed to create the proposed capacity.

 Therefore, the invention meets the condition of "inventive step".

 Figure 1 shows the proposed capacity for growing plants, General view; in FIG. 2-section aa in figure 1; figure 3 is a section bB in figure 1; in FIG. 4-bottom with shoulder, general view; figure 5 is the same, with permanent magnets in the cavities, top view; figure 6 - bottom with heating elements, top view; in FIG. 7 - L-shaped plate of fertilizer mixture, side view; in FIG. 8 is a section bb in FIG. 7; figure 9 - U-shaped elastic plug, side view; in FIG. 10 - section GG in Fig.9; figure 11 is a retainer, a General view in section; Fig.12 is the same, a top view.

 The container contains a cone-shaped body, the side walls 1 of which also cover a cone-shaped flange 2 of the bottom 3. On the outer surface of the bottom flange, a groove 4 is made, in which the gasket 5 is placed, and at the bottom there are cavity 6 oriented open to each other. The upper 7 and the lower 8 parts of the side walls are made in the form of half-cylinders and are made in one piece with the conical parts of the side walls. The lower parts of the side walls are in contact with the lateral surface of the cylindrical part of the bottom and surrounded by the rim 9. The upper ends of the side walls are included in the annular groove 10, made in the lower part of the latch 11, the lower end 12 of which rests on the shoulder 13, made on the upper part of each of the side the walls. In the gaps between the side walls of the casing there are L-shaped plates 14 oriented towards each other, made of a long-acting fertilizer mixture. Outside, each of the gaps between the side walls of the housing is closed by a U-shaped elastic plug 15, the supporting curly parallel protrusions 16 of which are included in the corresponding grooves 17 made on the outside of each of the mentioned side walls.

 In the coverage areas, the bottom and upper parts of the side walls have protrusions 18, and in the rim and retainer surrounding the bottom there are corresponding openings 19 into which the said protrusions enter. In each cavity of the bottom having a drainage hole 20, permanent magnets 21 are installed to accelerate the plant.

 To create more favorable conditions for the development of thermophilic plants, a heating element 22 is installed in each cavity of the bottom of the tank.

 The proposed capacity is used as follows. The assembled container with the L-shaped plates 14 made of a long-acting fertilizer mixture installed in the gaps between the side walls 1, is filled with a nutrient medium (not shown in the drawing), into which the plant is then planted. During watering, the plant during the growth process receives additional nutrients from the slowly dissolving L-shaped plates 14. In addition, the influence of the field of permanent magnets 21 located in the cavities 6 contributes to a better development of the root system of the plant. As the plant grows and its root system develops, Before the roots fill the entire internal space of the container, it becomes necessary to transplant the plants in the field or into another container, of large sizes. To do this, disassemble the container: remove the latch 11, carefully remove the U-shaped plugs 15, removing the protrusions 16 from the grooves 17, and then remove the rim 9 and side walls 1 from the protrusions 18. After this, an earthen lump (not shown) with roots sprouted in it plants without its destruction and any injury to the roots of the plant are easily removed from the bottom 3 and transplanted either into a pre-prepared hole in the field or in another container. Since parts of the container and their individual elements are made of plastic material, for example polyethylene, it is disassembled and assembled without effort due to the elasticity of the compounds.

Claims (9)

 1. A plant growing container comprising a latch located on top of a detachable cone-shaped body and a detachable bottom with a drainage hole, characterized in that the side walls of the cone-shaped body also cover a cone-shaped bottom flange, wherein a groove is made on the outer surface of said flange, in which the gasket is placed, and in the bottom itself, open cavities oriented towards each other are made.  2. The container according to claim 1, characterized in that the lower and upper ends of each of the said conical parts of the side walls of the housing are adjacent to the corresponding lower and upper parts of the side walls, while each of these parts is made in the form of a cylinder and made in one piece with conical part of the side wall.  3. The tank according to claims 1 and 2, characterized in that in the gaps between the side walls of the tank body there are L-shaped plates oriented towards each other made of a long-acting fertilizer mixture.  4. A container according to any one of claims 1 to 3, characterized in that the bottom with adjacent half-cylinders of the side walls of the container body is surrounded by a rim.  5. A container according to any one of claims 1 to 4, characterized in that each of the gaps between the side walls of the vessel body is closed from the outside by a U-shaped elastic plug, the supporting curly parallel protrusions of which enter into corresponding grooves made on each of the said walls .  6. A container according to any one of claims 1 to 5, characterized in that the wall retainer has an annular groove in the lower part, which includes the upper ends of the side walls of the housing, and the lower end of the retainer rests on a shoulder made on the upper part of each of the side walls .  7. A container according to any one of claims 1 to 6, characterized in that in the coverage areas the bottom and upper parts of the side walls have protrusions, and corresponding openings are provided in the rim and latch covering the bottom, into which said protrusions enter.  8. Capacity according to claims 1 or 2, characterized in that a permanent magnet is placed in each of the bottom cavities.  9. A container according to any one of claims 1 to 3, characterized in that a heating element is placed in each of the bottom cavities.

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