RU222287U1 - Device for automatic watering of plants - Google Patents

Abstract

A device for automatically watering plants, relates to the field of agriculture for automatically watering plants cultivated in containers. In a device for automatic watering of plants, including a sealed reservoir with a feed liquid, in which an outlet tube and an air passage tube are installed, providing communication with a container with cultivated plants, in which the lower end of the air passage tube is coaxially placed in the lower part of the outlet tube, and the upper end is placed outside reservoir, while the upper end of the outlet tube is placed in a flask equipped with an air valve installed in its upper part, and in the lower part of the flask there is an outlet tube, hydraulically communicating with a perforated tube placed in a container with cultivated plants in a layer of pebbles, on top of which is laid nylon mesh that holds soil with plants. 2 ill.

Description

The utility model relates to the field of agriculture for automatic watering of plants.

A device for watering plants is known, containing a sealed reservoir located above a container with a plant with a feeding liquid, an outlet tube and a water seal at the bottom and an air pipe at the top, one end of which is lowered into the sealed tank, and the other is equipped with a humidity sensor-regulator with a fine-fiber bottom installed in the ground containers with a plant, and the elements of the device are placed in a common housing, in which a tilting dispenser bucket is installed on the horizontal axis of rotation, under the outlet tube, equipped with a magnetic lock for the initial position (RU 2255464, A01G 27/00, 2005).

The disadvantage of the analogue is its complex design, which includes a tilting metering bucket equipped with a magnetic lock for the initial position.

The closest to the proposed device is a device for automatic watering of plants, including a sealed tank with a feed liquid, in which an outlet tube with a water seal is installed at the bottom, and an air pipe on top, one end of which is lowered into a sealed tank, and a container with soil and a plant, having a hole in the bottom, installed in a tray, in the tray there is a glass in which the lower end of the air tube is placed, from 0 to several disks are placed under the bottom of the glass, and the glass has a sliding lid (RU 2624951, A01G 27/00, 2017).

The disadvantage of the prototype is its complex design, which includes a tray with a glass in which the lower end of the air tube is placed.

An analysis of known technical solutions has shown that the technical problem in this area is the need to expand the arsenal of means used for automatic watering of plants cultivated in containers.

The technical result that this utility model is aimed at achieving is to simplify the design of the device.

To solve a technical problem and achieve the specified technical result in a device for automatic watering of plants, including a sealed reservoir with a feed liquid, in which an outlet tube and an air pipe are installed, providing communication with a container with cultivated plants, in which the lower end of the air pipe is coaxially placed in the lower part of the outlet tube, and the top outside the tank, while the upper end of the outlet tube is placed in a flask equipped with an air valve installed in its upper part, and in the lower part of the flask there is an outlet tube that is hydraulically connected to a perforated tube placed in a container with cultivated plants in a layer of pebbles, on top of which a nylon mesh is laid to hold the soil with plants.

The device is illustrated in the drawings.

In fig. Figure 1 shows a device for automatic watering of plants.

In fig. 2 - cross section A-A of the outlet tube.

A device for automatic watering of plants contains a container 1 with soil 2, plants 3, nylon mesh 4, pebbles 5 and a perforated tube 6. A sealed tank 7 with a feed liquid 8, in which an outlet tube 9 and an air pipe 10 are installed, the lower end of the air pipe 10 is coaxially placed in the lower part of the outlet tube 9, and the upper end of the outlet tube 9 is placed in a flask 11, equipped in the upper part with an air valve 12, and in the lower part of the flask 11 there is an outlet tube 13, hydraulically communicating with a perforated tube 6 placed in the container 1 with soil 2 and plants 3.

A device for automatically watering plants works as follows.

The start of irrigation is determined using the strain gauge method. This method allows you to determine the local vacuum (soil moisture tension) in the soil created in the zone of plant root hairs when they suck out capillary moisture located between soil particles. Atmospheric air passes through the air-conducting tube 10 in the cavity of the sealed tank 7 and sucks in the feed liquid 8 in the outlet tube 9, which flows into the flask 11, and the air accumulates in the upper part of the flask 11 and when its pressure exceeds atmospheric pressure, the air valve 12 opens and bleeds the air . The nutrient liquid 8 will flow through the outlet tube 13 into the perforated tube 6, gradually rise through the pebble layer 5 to the nylon mesh, and the plants 3 in container 1 will consume moisture from the soil 2. When the pressure in the root system zone approaches atmospheric pressure, the movement of air in the outlet tube 9 will stop, and the flow of feed liquid 8 through the outlet tube 13 will stop. The process will be repeated when the pressure in the root system zone becomes less than atmospheric.

The introduction of a device for automatic watering of plants will simplify the design through the use of the proposed device, based on the pressure difference in the atmosphere and in the zone of the plant root system.

Claims (1)

A device for automatic watering of plants, including a sealed reservoir with a feeding liquid, in which an outlet tube and an air pipe are installed, providing communication with a container with cultivated plants, characterized in that the lower end of the air pipe is coaxially placed in the lower part of the outlet tube, and the upper end is located behind outside the reservoir, while the upper end of the outlet tube is placed in a flask equipped with an air valve installed in its upper part, and in the lower part of the flask there is an outlet tube that is hydraulically connected to a perforated tube placed in a container with cultivated plants.

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