RU148100U1 - PORTABLE CONTAINER FOR SOIL BIOTESTING - Google Patents

Abstract

A portable container for soil biotesting, including containers installed one into the other with the formation of a free cavity between them, a bed and a water-conducting element in the form of a fabric tape with a length reaching the bottom of the lower container used to contain water, characterized in that the upper container is a lid, wherein its upper part is a tapered neck, on which a handle for carrying the container is fixed; a bed in the form of a plate with a support stand is installed on the bottom of the lower container, and the area of the plate is less than the cross-sectional area of the lower container by 10%, along the entire length of the perimeter of the plate, a water-conducting element is fixed, the end part of which reaches the bottom of the lower container, with a filter material placed on the plate , on which four containers of equal volume with the tested soil and seeds are installed, and the bottom of each of them is equipped with water-conducting elements.

Description

A device for growing plants is known, which contains a frame, light sources, tray-germinators, as well as a drip irrigation system having the shape of a polyhedron, a lighting source, a system for providing plants with a nutrient solution, including germinators with a substrate, a tank with a nutrient solution and a pump. The device is characterized by the fact that it contains a system for providing plants with a nutrient solution using a tank with a nutrient solution and a pump, a collector designed to supply the nutrient solution by drip irrigation to plants, and each germination tray has a nozzle for emergency discharge of excess nutrient solution (RF patent No. 137446 - analogue).

The specified device is characterized by the complexity of the design, which does not allow it to be mobile, i.e. she works stationary.

Also known is a device for soil biotesting, including containers mounted on top of each other with the formation of a free cavity between them, a water supply element and a cover, while the upper container is used as a bed for soil with seeds and has a conical bottom with an opening in which the water supply element is located in the form of a fabric cord with a length reaching the bottom of the second container used to contain water, and the lid is perforated and used to cover the upper container (RF patent No. Pat. 139000 - prototype).

However, this device has a high experimental error, because tests the soil in only one repetition and does not allow for soil biotesting in the necessary 4-fold repetition of one experiment.

The technical result is the creation of a portable container that provides equal conditions for a full cycle of soil biotesting without additional soil moisture while simultaneously conducting 4-fold repetition of one experiment option and reducing the experimental error.

The technical result is achieved by the fact that a portable container for soil biotesting, including containers installed one into the other with the formation of a free cavity between them, a bed and a water supply element in the form of a fabric tape with a length reaching the bottom of the lower container used for water content, according to a utility model the upper container is a lid, while its upper part is a cone-shaped neck, on which a handle for carrying the container is fixed; a bed in the form of a plate with a support stand is installed on the bottom of the lower tank, and the plate area is 10% less than the cross-sectional area of the lower tank; along the entire length of the perimeter of the plate, a water supply element is fixed, the end part of which reaches the bottom of the lower container, while the filter material is placed on the plate, on which four containers of equal volume with test soil and seeds are installed, and the bottom of each of them is equipped with water supply elements.

The essence of the utility model is illustrated by the drawing, where in Fig. 1 - a portable device for soil biotesting is shown, in fig. 2 - sprouted watercress seeds when analyzing soil for contamination with Granstar pesticide, in 4-fold repetition according to the standard method.

A portable container for soil biotesting includes containers (1, 2) installed one into the other with the formation of a free cavity (5) between them. The upper container (2) is a lid, while its upper part is a cone-shaped neck (3), on which a handle (4) is attached for carrying the container. A bed in the form of a plate (6) with a support stand (7) is installed at the bottom of the lower tank, and the plate area is 10% less than the cross-sectional area of the lower tank. A water-conducting element (8) is fixed along the entire length of the plate perimeter, the final part of which reaches the bottom of the lower tank (1), which contains water. A filter material (9) is placed on the plate (6), on which four containers (10) with test soil and seeds are installed, and the bottom (11) of each of the four containers is equipped with water supply elements (12). Tanks 1 and 2 are, for example, made of a transparent, colorless plastic bottle.

A portable container for soil biotesting works as follows. A plate (6) with a support stand (7) is installed in the lower container (1). The container (1) is filled with water (13) at the level of the support stand (7) of the plate (6). A water supply element (8) is installed along the entire length of the perimeter of the plate (6), the final part of which falls to the bottom of the tank (1). Filter material (9) is placed on the plate (6). Water entering the water-conducting element (8) moistens the filter material (9), onto which containers of equal volume with the tested soil and seeds are set. Each container (10) in the lower part (11) has a water supply element (12), which, under the influence of the weight of the container (10), is in close contact with the moistened filter material, water flows through the cord and moistens the soil with seeds. The upper container (2) is inserted into the lower container (1), resulting in the formation of a free cavity (5) for air exchange. The upper container (2) is a lid, while its upper part is a cone-shaped neck (3), which provides constant air exchange and allows you to maintain a microclimate inside the container. The fixed handle (4) on the upper part of the neck (3) allows the container to be transported, facilitates work when accounting and analyzing the tested plants. Both tanks 1 and 2 are tightly adjacent to each other, which eliminates the evaporation of water from the lower tank 2 and contributes to the continuous moistening of the soil with water. An installed bed in the form of a plate with a support stand on the bottom of the lower tank with 4 containers of equal volume (10) with water supply elements (12) ensures a complete bioassay cycle. The water-conducting element (12) contributes to additional soil moisture, eliminates the drying out of plants or their waterlogging for all 4 replicates, and reduces the experimental error due to the same experimental conditions. The handle (4), mounted on the neck (3), allows the container to be transported, which facilitates the accounting and analysis of the tested plants.

Claims (1)

A portable container for soil biotesting, including containers installed one into the other with the formation of a free cavity between them, a bed and a water supply element in the form of a fabric tape with a length reaching the bottom of the lower container used to contain water, characterized in that the upper container is a lid, while its upper part is a cone-shaped neck, on which a handle for carrying the container is fixed; A bed in the form of a plate with a support stand is installed on the bottom of the lower container, the plate area being less than the cross-sectional area of the lower container by 10%, a water supply element is fixed along the entire length of the plate perimeter, the final part of which reaches the bottom of the lower container, and filter material is placed on the plate on which four containers of equal volume with test soil and seeds are installed, and the bottom of each of them is equipped with water supply elements.

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