RU2709721C1 - Tray for growing plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to trays for growing plants, intended for hydroponic plantations, used both at home and industrial scale. Tray for growing plants comprises a body formed by a bottom with at least four hollow legs, and located along its perimeter of side and end walls. In central part of side and end walls along their perimeter there is an outboard step protruding outward, dividing said housing into lower part intended for directed flow of nutrient solution, and upper part from side step to upper edge of housing, intended for substrate laying. At least three projecting ribs are arranged at the bottom of the body, at the bottom parallel to the side walls and made with height up to the level of the side step and having a length smaller than the length of the side walls. Said projecting ribs alternately emanate from the end walls, creating a zigzag direction for the nutrient solution flow. At least one of said hollow legs has a hole.

EFFECT: this design simplifies design of the tray and simplifies its maintenance, as well as increases uniformity of distribution of nutrient solution in the tray, which increases productivity of grown plants.

4 cl, 3 dwg

Description

The invention relates to agriculture, in particular to trays for growing plants, intended for hydroponic plantations used both at home and on an industrial scale.

- это способ выращивания растений на искусственных средах без почвы. Под этими средами понимаются влажные, хорошо аэрированные пористые субстраты. Питание растения получают из питательного раствора, окружающего корни. Гидропоника (субстраты) позволяет регулировать условия выращивания растений - создавать режим питания для корневой системы, полностью обеспечивающий потребности растений в питательных элементах, концентрацию углекислого газа в воздухе, наиболее благоприятную для фотосинтеза. Создание оптимальных условий для роста и развития растений обеспечивает получение очень высоких урожаев, лучшего качества и за более короткие сроки. Выращивание растений этим способом менее трудоемко, чем в почвенной культуре, вода и питательные вещества расходуются экономнее. Подача питательного раствора легко автоматизируется. На сегодняшний день, гидропоника нашла широкое применение в культивации овощей, фруктов, пряных трав и цветов.

- This is a method of growing plants on artificial environments without soil. These media are understood as moist, well aerated porous substrates. Plant nutrition is obtained from the nutrient solution surrounding the roots. Hydroponics (substrates) allows you to regulate the conditions of plant growth - to create a diet for the root system that fully meets the plant's needs for nutrients, the concentration of carbon dioxide in the air, the most favorable for photosynthesis. Creating optimal conditions for the growth and development of plants provides very high yields, better quality and for shorter periods. Growing plants in this way is less time-consuming than in soil culture, water and nutrients are spent more economically. The supply of nutrient solution is easily automated. Today, hydroponics has been widely used in the cultivation of vegetables, fruits, herbs and flowers.

Numerous designs of trays for growing plants are known, including for growing root and tubers.

A well-known hydroponic installation containing trays mounted on crossbars for growing plants with covers having openings in which pots for growing plants are installed (patent RU 2041619, A01G 31/02, 08/20/1995).

Known trays for growing plants used in a hydroponic installation and having a cross-section in rectangular shape. The trays are equipped with a shading opaque coating in which openings for plants are made, on which plant holders are mounted, including a U-shaped cover with a hole and an elastic insert with a cut for the plant stem installed in the openings of the cover and cover (patent SU 1720593, A01G 31/02 March 23, 1992).

The disadvantages of using these trays are the complexity of the design and, as a result, the complexity of their maintenance, the presence of a cover that limits the flow of light and oxygen necessary for the growth and development of plants, the uneven absorption of nutrients through the roots of the plants due to the uneven distribution of the nutrient solution between them, which leads to a decrease in the productivity of cultivated plants.

Known tray for growing plants by the method of hydroponics, which is closest to the claimed invention (prototype), consisting of a plastic case with two end walls, expanding upward, and two side walls, and equipped with a pipe with distribution holes for the nutrient solution located in the groove the bottom of the case, and a supporting device (landing panel) with tapered holes covering the top of the tray (patent US 6837002, A01G 31/02, 01/04/2005).

The disadvantages of the prototype are the complexity of the design and, as a result, the complexity of their maintenance, the presence of a cover (landing panel), which limits the flow of light and oxygen necessary for the growth and development of plants, as well as the uneven absorption of nutrients through the roots of plants due to the uneven distribution of nutrient solution between them, because the presence on the bottom of the body of the pipe with distribution holes for the nutrient solution does not evenly irrigate the root system of the grown plants with the nutrient solution, in particular, due to the fact that the distribution holes for the nutrient solution can become clogged with residual roots and other parts of the plants, which leads to a decrease productivity of cultivated plants.

The technical result consists in simplifying the design of the tray and, as a result, in simplifying its maintenance, as well as in increasing the uniformity of the distribution of the nutrient solution in the tray, which leads to an increase in the productivity of the grown plants.

The claimed technical result is achieved in that the tray for growing plants contains a body formed by the bottom with at least four hollow legs, and lateral and end walls located along its perimeter; in the central part of the side and end walls, along their entire perimeter, an outward-facing step protrudes outward, dividing the said casing into a lower part intended for directed flow of the nutrient solution, and an upper part, from the side step to the upper edge of the casing, intended for laying the substrate; at least three protruding ribs are formed in the lower part of the body, on the bottom parallel to the side walls, made to the level of the side step and having a length shorter than the length of the side walls, these protruding ribs alternately emanating from the end walls creating a zigzag direction for the flow of the nutrient solution ; moreover, at least one of these hollow legs has a hole.

In a preferred embodiment, the housing is preferably made of plastic.

In a preferred embodiment, the housing is preferably square or rectangular in shape.

In a preferred embodiment, the housing is preferably made by thermal vacuum formation.

Simplification of the design of the tray, as well as simplification of its maintenance, is achieved due to the special design of the tray body (in the form of a single design) without additional elements, for example, such as the tray cover (landing panel), shading the lightproof coating, the pipe with distribution holes for the nutrient solution. Increasing the uniformity of the distribution of the nutrient solution in the tray is achieved due to the presence of at least one of the hollow legs of the hole for supplying or discharging the nutrient solution, as well as the presence of at least three protruding ribs in the bottom of the housing creating a zigzag direction for the flow of the nutrient solution, which leads to increased productivity of cultivated plants.

The invention is illustrated by drawings, where:

FIG. 1 is a General view of the tray for growing plants,

FIG. 2 - tray for growing plants side view,

FIG. 3 - a tray for growing plants in a section.

As seen in FIG. 1 tray for growing plants is preferably a rectangular housing 1, made in the form of a single (monolithic) container. The housing of the tray 1 is formed by lateral 2 and end 3 walls located along its perimeter, as well as by the bottom 4 with at least four hollow legs 5 (Fig. 2). At the same time, at least one of these hollow legs 5 has an opening for supplying or draining the nutrient solution. In the central part of the side 2 and end 3 walls, along their entire perimeter, a side step 6 protruding outwardly is made (Fig. 1). In this case, said outwardly extending side step 6 divides said body 1 into a lower part (lower zone in FIG. 2), from the bottom of case 1 to side step 6, intended for directional zigzag flow of the nutrient solution, and the upper part (upper zone Fig. 2), from the side step 6 to the upper edge of the housing 1, intended for laying a substrate (not shown). At the bottom of the housing 1, at the bottom, parallel to the side walls 2, at least three protruding ribs 7 are formed (Fig. 1). The protruding ribs 7 are preferably made up to the level of the side step 6 and have a length less than the length of the side walls 2 of the housing 1. Moreover, as can be seen from FIG. 1 and FIG. 3, these protruding ribs 7 alternately emanate from the end walls 3, thus creating a zigzag direction for the flow of the nutrient solution.

The claimed tray for growing plants, preferably made of plastic (ABS, polystyrene, etc.), a thickness of 1.5-3.5 mm, by thermo-vacuum formation in the form of a single (monolithic) container. The tray is preferably square or rectangular. At the same time, the thickness of the plastic, the height of the upper and lower parts, the geometric dimensions of the tray itself, as well as the number of hollow legs and holes made in them, are selected under the specific conditions for organizing the process of growing plants, and the types of plants themselves, the cultivation of which is planned to be organized. In addition, the claimed tray can also be designed for growing crops (vegetables, fruits, herbs, etc.).

The growth tray simultaneously performs two functions, namely, as a container supporting the substrate for planting and growing plants or crops, as well as a container for the flow of a nutrient solution feeding the substrate and ensuring uniform distribution and renewal of the nutrient solution over the entire area of the substrate.

The nutrient solution can be fed into the tray by gravity, poured on top of the substrate, or with a hose passed through the substrate directly into the tray. In this case, the removal of the nutrient solution from the tray occurs through the hole made in at least one of these hollow legs. Moreover, the specified hole for draining the nutrient solution may contain a connecting pipe that controls the level of filling of the tray. Also, the nutrient solution can be fed into the tray from below, using a connecting pipe located in the hole made in one of the hollow legs. In this case, the withdrawal of the nutrient solution from the tray occurs through a second hole made in the other hollow leg of the tray, preferably far in the direction of travel of the nutrient solution. Moreover, the specified second hole for draining the nutrient solution contains a connecting pipe that controls the level of filling the tray. The nutrient solution preferably flows through the body of the tray in a continuous circulation mode with the passage of the node enriching the nutrient solution to the required condition (concentration).

Claims (4)

1. A tray for growing plants, comprising a body formed by a bottom with at least four hollow legs, and side and end walls located along its perimeter, in the central part of the side and end walls, along their entire perimeter, an outwardly extending side step is made that separates the specified body on the lower part, intended for the directed flow of the nutrient solution, and the upper part from the side step to the upper edge of the body, intended for laying the substrate, in the lower part of the body on at least three protruding ribs are formed parallel to the side walls at the bottom, made to the level of the side step and having a length less than the length of the side walls, said protruding ribs alternately emanating from the end walls, creating a zigzag direction for the flow of the nutrient solution, at least in one of these hollow legs there is a hole. 2. Tray for growing plants according to claim 1, characterized in that the housing is preferably made of plastic. 3. A tray for growing plants according to claim 1, characterized in that the housing is preferably made of square or rectangular shape. 4. A tray for growing plants according to claim 1, characterized in that the casing is preferably made by thermal vacuum formation.

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