RU214346U1 - GREEN CUP - Google Patents

Abstract

The proposed utility model relates to the field of agriculture, namely to devices for growing green crops. The technical result of the utility model is to create a cup with an increased level of aeration of the substrate and the root system, while maintaining the structural strength necessary for using the cup when growing seedlings. The technical result is achieved by the fact that the cup for growing green crops is made in the form of a truncated cone formed by a bottom and a side wall with an edge section beaded outward, in the lower part of which holes are formed formed by stiffening ribs and connecting rings made perpendicular to the stiffening ribs and located along the perimeter of the wall, with the formation of a mesh structure, one of the rings is connecting between the wall and the bottom, the center of the bottom is made solid, and, unlike the prototype, the stiffeners are located inside the cup along the side wall from the edge section to the center of the bottom, through holes are formed at the bottom , evenly spaced along the perimeter, tapering towards the center of the bottom, connecting rings are made on the mesh structure to stiffen the side surface, and the ratio of the height of the mesh structure h to the height of the lower part of the side wall H is selected as h:H=3:4. The height of the holes in the rows of the mesh structure can be either the same or decrease towards the bottom of the cup. This technical solution makes it possible to obtain a more durable cup with a lower cost, which can be used in hydroponic lines for growing green crops. The claimed utility model has an increased level of aeration and at the same time provides more efficient plant nutrition and a reduction in the growing time of green crops. Also, plants are less affected by diseases and more easily endure stressful situations in violation of microclimate regimes.

Description

The proposed utility model relates to the field of agriculture, namely to devices for growing green crops.

Known cup for growing seedlings, created in the form of a truncated cone, formed by the bottom and side wall with a marginal section, beaded outward. Rectangular liquid holes are punched in the lower part of the side wall and bottom. The side wall is stepped, with more stiffness steps in the lower part than in the upper part. The bottom is made with support protrusions, and rectangular holes are punched crosswise along the bottom surface, alternating shortened and elongated holes, in addition, shortened holes on the support protrusions are supplemented with radial recesses (PM No. 46142, IPC A01G 9/02, 2005).

The disadvantage of this solution is the insufficient contact of the root system of the plant with the nutrient solution and the low degree of aeration of the substrate.

Closest to the claimed utility model is a cup for a salad line, created in the form of a truncated cone, formed by a bottom and a side wall with an edge section beaded outwards. In the lower part of the cup, trapezoidal holes are formed, formed by stiffening ribs and connecting rings, made perpendicular to the stiffening ribs and located along the wall perimeter, with the formation of a mesh structure. The mesh structure occupies two-thirds of the lower part of the wall surface. Moreover, one of the rings is connecting between the wall and the bottom. Trapezoidal holes are also located along the bottom of the cup and occupy half of it, and the center of the bottom is made solid (PM No. 87865, MCP A01G 9/02, 2009).

The disadvantage of this cup is the presence of a large number of holes for aeration, both on the side wall and on the bottom, which affects the rigidity of the cup and its strength.

The technical result of the utility model is to create a cup with an increased level of aeration of the substrate and the root system, while maintaining the structural strength necessary for using the cup when growing seedlings.

The technical result is achieved by the fact that the cup for growing green crops is made in the form of a truncated cone formed by a bottom and a side wall with an edge section beaded outward, in the lower part of which holes are formed formed by stiffening ribs and connecting rings made perpendicular to the stiffening ribs and located along the perimeter of the wall, with the formation of a mesh structure, one of the rings is connecting between the wall and the bottom, the center of the bottom is made solid, and, unlike the prototype, the stiffeners are located inside the cup along the side wall from the edge section to the center of the bottom, through holes are formed at the bottom , evenly spaced along the perimeter, tapering towards the center of the bottom, connecting rings are made on the mesh structure to stiffen the side surface, and the ratio of the height of the mesh structure h to the height of the lower part of the side wall H is selected as h:H=3:4. The height of the holes in the rows of the mesh structure can be either the same or decrease towards the bottom of the cup.

The proposed utility model is illustrated by the drawings shown in Fig. 1 and FIG. 2. In FIG. 1 shows a glass for growing seedlings, in Fig. 2 - top view, internal cavity.

The seedling cup is made in the form of a truncated cone formed by the bottom 1 and the side wall 2 with the edge section 3 beaded outward. In the lower part of the side wall 4, through holes 5 of arbitrary shape are formed, formed by stiffening ribs 6 and connecting rings 7, made perpendicular to the stiffening ribs 6 and located along the perimeter of the side wall 2, with the formation of a mesh structure. On the bottom 1, through holes 8 of arbitrary shape are formed, evenly spaced along the perimeter, tapering towards the center of the bottom 1, made solid. The holes at the bottom of the cup serve to supply the nutrient solution to the roots of the plants, while preventing the soil from falling out and washing out. This design of products allows the use of looser soil, in which the root system of the plant develops better.

The stiffening ribs 6 are located inside the cup along the side wall 2 from the edge section 3 to the center of the bottom 1. Connecting rings 7 are made on the mesh structure, and one of the rings 7 is connecting between the side wall 2 and the bottom 1. The ratio of the height of the mesh structure h to the height of the bottom part 4 of the side wall - H is selected as h:H=3:4. Holes on the side wall serve to aerate the root system. Due to the use of a large number of holes on the sides of the cup, the root system of the plant develops faster, which leads to accelerated plant growth by 1-2 days. The height of the holes in the rows of the mesh structure can be either the same or decrease towards the bottom of the cup.

The stiffening ribs are made on the inner wall of the cup and are longer than those of the prototype (from the edge section to the center of the bottom), which makes the frame of the cup more rigid and durable, and, consequently, the service life of the product increases. Through holes are made at the bottom, which strengthens the bottom of the cup and helps to protect loose soil from spilling out. The height of the mesh structure is justified by strengthening the frame of the cup. The mesh size of the mesh cup is selected depending on the crops grown and the soil to be filled, and also serves as an aerator of the soil and the root system of the plant. For growing green crops, the cell size can be from 5 to 15 mm. Through holes on the side wall and the bottom of the cup are formed to feed the crops and exit the root system, as well as aerate the substrate in order to improve the development of the plant's vegetative system and enhance the growth of the root system. When using these cups, more oxygen enters the roots and the root system develops better.

An increased level of aeration of the soil and the root system of the plant is provided with a ratio of the mesh structure h to the height of the lower part of the side wall - H, as h:H=3:4. For the cultivation of green crops, substrates based on high-moor peat of a low degree of decomposition, obtained by carving or milling, as well as other organic and inorganic substrates, are used. In the mesh design ratio of 3:4, the aeration of the substrate and the root system of the plant increases due to the formed through holes, evenly spaced along the perimeter of the side wall of the cup. In this case, more efficient plant nutrition occurs, due to which the vegetative system of the plant improves, which leads to a faster maturation of green crops.

When the ratio of the mesh structure h to the height of the lower part of the side wall is H, as h:H=2:3 or 1:2, organic and inorganic substrates are also applicable, but drainage, substrate porosity and aeration are worsened in this case. Reducing the drainage and porosity of the substrate inhibits the development of the vegetative system of the plant, thereby slowing down the period of its growth. The decrease in aeration leads to the emergence of a pathogenic environment in the root system of the plant and substrate.

This technical solution makes it possible to obtain a more durable cup with a lower cost, which can be used in hydroponic lines for growing green crops. The claimed utility model has an increased level of aeration and at the same time provides more efficient plant nutrition and a reduction in the growing time of green crops. Also, plants are less affected by diseases and more easily endure stressful situations in violation of microclimate regimes.

On the outer surface of the bottom in the center there is a point of polymer injection into the tooling. Also on the outer surface of the bottom is the marking of the type of polymer used and the name of the company of the patent holder.

Claims (2)

1. A glass for growing green crops, created in the form of a truncated cone, formed by a bottom and a side wall with an edge section beaded outward, in the lower part of which holes are formed, formed by stiffeners and connecting rings made perpendicular to the stiffening ribs and located along the perimeter of the wall, with the formation of a mesh structure, one of the rings is connecting between the wall and the bottom, the center of the bottom is made solid, characterized in that the stiffening ribs are located inside the cup along the side wall from the edge section to the center of the bottom, through holes are formed at the bottom, evenly spaced along the perimeter, tapering towards the center of the bottom, connecting rings are made on the mesh structure to stiffen the side surface, and the ratio of the height of the mesh structure h to the height of the lower part of the side wall H is selected as h:H=3:4. 2. A cup for growing green crops according to claim 1, characterized in that the height of the holes in the rows of the mesh structure can be either the same or decrease towards the bottom of the cup.

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