RU154780U1 - FLOWER POT WITH AUTOMATIC IRRIGATION SYSTEM - Google Patents

Abstract

A flower pot with an automatic irrigation system containing an upper tank with soil and a soil moisture sensor, drainage holes, water supply pipelines to the soil surface, a lower tank with a control unit with a regulator for the duration of water supply, power supply, level glass, LED indicator of the discharge of the power source, neck for filling water, characterized in that the lower tank contains a horizontal partition with a cylindrical hollow protrusion in the center, ending in the upper part is a segment of a vertical tube with a sealing ring located on it, a membrane, a rod are placed inside the cylindrical hollow protrusion, an inlet valve is located on the side surface of the hollow cylindrical protrusion, an injection valve is located at the inlet of the vertical tube, the lower part of the lower container metal cylindrical hollow anchor, coil spring, electromagnet coil.

Description

The utility model relates to devices for growing indoor plants.

A known system of watering flowers in pots, which includes the actual pot with a plant, a water tank, a soil moisture sensor in the pot, an electric water supply pump, water supply pipes, a water supply pump drive control unit /http://eschemo.ru/ umnyiy-dom-avtomat-poliva /. The disadvantage of this system is cumbersome, since all elements of the system are located outside the flower pot.

This system is the closest in nature and is adopted as a prototype.

The problem to which the claimed utility model is directed is to create a design of a flower pot in which all elements of an automatic watering system are placed.

The technical result achieved in this case is to maintain soil moisture in the flower pot due to automatic irrigation.

To achieve the specified technical result, for this problem being solved, in a flower pot consisting of an upper tank with soil, a plant, a soil moisture sensor, water supply pipes from the lower tank (sump) into which excess water flows through the soil of the upper tank, in the lower tank there is an electric pump, power supply battery, pump control unit, level glass. In this case, the electric pump is part of the lower tank.

To do this, the lower tank is divided into two parts by a horizontal partition. The upper part, in which there is water and the lower part, in which the power supply battery is located, the pump parts and the pump control unit with functions for controlling the duration of the water supply and an alarm about the need to charge the power supply battery.

The pump is made in the form of a diaphragm pump with a membrane drive from an electromagnet. For this, the horizontal partition has a cylindrical hollow protrusion in the central part, ending in the upper part with a segment of a vertical tube, which enters the central hole of the upper tank with soil through an o-ring.

A membrane is placed inside the cylindrical protrusion; an inlet valve is located on its lateral surface above the level of the membrane. In its upper part at the inlet to a section of a vertical tube is a discharge valve.

To drive the membrane in motion in its center, a rod is fixed on the lower side, with a lower end connected to a metal cylindrical hollow anchor, the hole of which is located below. Inside the metal cylindrical hollow anchor is a cylindrical spring, abutting the upper end to the bottom of the metal cylindrical hollow anchor, and the lower end to the bottom of the lower tank. An electromagnet coil is located outside a metal cylindrical hollow anchor.

The figure shows the arrangement of a flower pot, with an automatic watering system.

The upper tank 1 contains soil 2, a soil moisture sensor 3 is placed in the soil. Drain holes 4 for draining the water passing through the soil are located along the perimeter of the bottom of the upper tank, and a pipeline with branches 5 for supplying water to the soil surface is located in the center of the bottom. The lower tank 6 contains a horizontal partition 7 with a cylindrical protrusion 8, a section of a vertical tube 9, a control unit 10 with a regulator for the duration of the water supply 11, a power supply 12, a level glass 13, a LED indicator for the discharge of the power supply 14, a membrane 15, a rod 16, a metal cylindrical anchor 17, coil spring 18, solenoid coil 19, inlet valve 20, discharge valve 21, o-ring 22. A filling neck 23 is made on the side surface of the lower container 6 and water.

A flower pot with an automatic watering system works as follows. Water is poured into the lower tank 6 through the neck 23 to the maximum level on the level glass 13. When the soil moisture sensor 3 of the upper tank detects a decrease in soil moisture 2 to the minimum acceptable level, the signal from the soil moisture sensor is sent to the control unit 10 which supplies voltage pulses to the coil electromagnet 19. When a voltage pulse is applied to the coil of the electromagnet 19, a metal cylindrical armature 17 is drawn into the coil, compressing the coil spring 18. At the same time, through the rod 16, the membrane 15 moves downward, creating a vacuum in the cylindrical protrusion 8. The inlet valve 20 opens and water from the upper part of the lower tank 6 enters the cylindrical protrusion 8. After the voltage pulse is stopped to the coil of the electromagnet 19, the coil spring 18 raises the metal cylindrical armature 17 up, raising through rod 16 membrane 15 up. At the same time, the inlet valve closes and the discharge valve 21 opens. Water from the cylindrical protrusion through the discharge valve 21 is fed into a section of the vertical tube 9 and from it is fed into a pipe with branches 5 for supplying water to the surface of the soil 2 and irrigates the soil of the upper tank. O-ring 22 prevents water from draining from the pipeline of the upper tank to the lower tank. The voltage pulses to the coil of the electromagnet 19 are supplied for a certain period of time, which is set by the control unit 10 in accordance with the position of the regulator of the duration of the water supply 11, set by the owner of the flower pot based on the experience of the duration of irrigation. Water seeps through the ground and drains through the drainage holes 4 into the lower tank. As long as the soil remains moist, the soil moisture sensor does not give an enable signal to the control unit. When the charge level of the power source (batteries or galvanic power cells) decreases, the discharge indicator of the power source 14 lights up, indicating the need to recharge the batteries or replace the galvanic cells. When the minimum water level on the level glass is reached, water must be added.

Claims (1)

A flower pot with an automatic irrigation system containing an upper tank with soil and a soil moisture sensor, drainage holes, water supply pipelines to the soil surface, a lower tank with a control unit with a regulator for the duration of water supply, power supply, level glass, LED indicator of the discharge of the power source, neck for filling water, characterized in that the lower tank contains a horizontal partition with a cylindrical hollow protrusion in the center, ending in the upper part is a segment of a vertical tube with a sealing ring located on it, a membrane, a rod are placed inside the cylindrical hollow protrusion, an inlet valve is located on the side surface of the hollow cylindrical protrusion, an injection valve is located at the inlet of the vertical tube, the lower part of the lower container metal cylindrical hollow anchor, coil spring, electromagnet coil.

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