RU202644U1 - Watering device for potted plants - Google Patents

Abstract

The device for watering potted plants belongs to the field of floriculture and can be used for the cultivation and cultivation of flowers and vegetables in pots in a closed room. The device contains a container for a feeding liquid, a container for placing a substrate with a plant root system and means for capillary water supply to the root system of a grown plant, while the feeding liquid container is made in the form of a sealed reservoir with an elastic membrane in the upper part, on which it is installed coaxially with the reservoir container with the substrate and the root system of the plant, while the capillary supply of liquid is carried out by means of wicks laid in the channels passing through the membrane of the reservoir and the drainage holes of the container with the substrate, while the lower and upper ends of each wick are placed freely. The sealed reservoir of the device is made in the form of a flexible shell with a valve for filling the feed liquid, and the wicks are made of linen threads, while the channels for the wicks are made of plastic material in the form of pipe sections with a diameter of 3-9 mm. The device provides an improvement in the quality of irrigation while ensuring the efficiency of using the feed fluid by reducing evaporation losses. 3 C.p. f-ly, 2 dwg.

Description

The utility model relates to the field of floriculture, more specifically to devices for intra-soil irrigation of plants, and can be used in the cultivation and cultivation of flowers and vegetables in pots in an enclosed space.

A device for watering indoor plants with automatic water supply is known (patent RU No. 121990) containing a pot filled with water between double walls and a tight-fitting stopper, with holes made in the bottom for water to enter the pan and a drain hole for water to flow from the pan for wetting.

The closest to the proposed device in terms of the combination of essential features is a device for intrasoil watering of indoor plants (patent RU 66657). The device contains a first container for water, a second container for placing the earth and the root system of the plant and means for capillary supply of water from the first container to the second. The first and second containers are placed in a common body, the means for capillary water supply are made in the form of channels connecting the lower part of the first container and the upper part of the second container, the said channels are filled with fibrous or porous material, and the bottom of the second container and the lower part of the common body are provided with holes for aeration of the plant root system.

The device allows to optimize the water-air regime of soils by means of subsurface moistening and to use nutrient solutions for plant nutrition. The main disadvantage of the known device is the relatively high evaporation from the surface of the wicks, which dries them out and reduces the flow rate and biocidal properties of the wick material. This leads to the need to shorten the length of the wicks, thereby reducing the water capacity. The time of autonomous irrigation depends on this.

From the analysis of the known technical solutions, it was revealed that the disadvantages of the known devices are associated with the impossibility of automated control of the gas regime of soils in connection with this technical problem in this area is the need to expand the arsenal of technical means for supplying nutrient fluid to the root system of plants when growing potted plants.

The technical result of the proposed utility model is to improve the quality of irrigation of potted crops while ensuring the efficiency of using the feed fluid by reducing evaporation losses.

To solve this problem and achieve the specified technical result in a device for watering potted plants, containing a container for a feeding liquid, a container for placing a substrate with a plant root system and means for capillary supply of water to the root system of a grown plant, a container for a feeding liquid is made in the form of a sealed a reservoir with an elastic membrane in the upper part, on which a container with a substrate and a plant root system is installed coaxially to the reservoir, while the capillary supply of liquid is carried out through wicks laid in channels passing through the reservoir membrane and drainage holes of the container with a substrate, while the lower and upper ends each wick is placed freely. The sealed reservoir of the device is made in the form of a flexible shell with a valve for filling the feed liquid, and the wicks are made of linen threads, while the channels for the wicks are made of plastic material in the form of pipe sections with a diameter of 3-9 mm.

The device is illustrated by a graphical representation.

FIG. 1 is a diagram of a general view of the device in section;

FIG. 2 - view A of the device.

A useful model for watering potted plants includes: a reservoir for feed fluid 1 with a valve for filling feed fluid 2 and an elastic membrane 3, on which a pot with a substrate and a plant root system is installed 4 flax wicks 5 for the supply of nutrient fluid into the substrate, channels for wicks 6 made of plastic material in the form of pipe sections with a diameter of 3-9 mm, a branch pipe 7 for connecting the membrane 3 with the channel 6 for the wick 5.

The device works as follows. Water or nutrient solution is poured into the reservoir for the feed liquid 1, made in the form of a flexible shell, through the valve 2, after the closure of which, the liquid in the sealed reservoir 1 is under pressure. To increase the pressure of the liquid in the reservoir 1, the pot with the substrate and the root system of the plant 4 is installed coaxially with the reservoir 1 on the membrane 3 made of elastic material, while the elastic membrane 3 bends and additional pressure is created in the reservoir 1. Capillary supply of liquid is carried out by means of wicks 5, laid in channels 6, made of plastic material in the form of pipe sections with a diameter of 3-9 mm. Channels 6 with laid wicks 5 pass through the nozzles 7 of the membrane 3 of the reservoir 1 and the drainage holes of the container with the substrate 4, while the lower and upper ends of each wick 5 in the containers 1 and 4 are placed freely. To prevent the negative influence of microorganisms on the soil biota and the cultivated plant, wicks 5 are made of linen threads.

In comparison with the prototype, the proposed device will improve the quality of irrigation of potted crops while ensuring the efficiency of using the feed fluid by reducing evaporation losses. Increase the intensity of water supply when creating a pressure on the capillary system. In addition, the use of wicks made of linen threads makes it possible to prevent the negative influence of microorganisms on the soil biota and the cultivated plant, which creates conditions for the reproduction of natural fertility processes in the soil of a flower pot.

Claims (4)

1. A device for intra-soil irrigation of potted plants, containing a container for a feeding liquid, a container for placing a substrate with a plant root system and means for capillary supply of water to the root system of a grown plant, characterized in that the container for the feeding liquid is made in the form of a sealed reservoir with an elastic a membrane in the upper part, on which a container with a substrate and a plant root system is installed coaxially with the reservoir, while the capillary supply of liquid is carried out by means of wicks laid in the channels passing through the membrane of the reservoir and drainage holes of the container with the substrate, while the lower and upper ends of each wick posted freely. 2. The device according to claim. 1, characterized in that the sealed reservoir is made in the form of a flexible shell with a valve for filling the feed liquid. 3. A device according to claim 1, characterized in that the wicks are made of linen threads. 4. The device according to claim 1, characterized in that the channels for the wicks are made of plastic material in the form of pipe sections with a diameter of 3-9 mm.

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