RU2670067C1 - Device for watering of plant in closed ground - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to watering of plants in a closed ground and can be used for watering indoor plants. Device for watering the plantations of plants in enclosed spaces contains a pot of soil and a plant planted therein, a storage and supply container, a supply tube and a sealed corrugated platform. Pot with plant is installed on the end of the platform. Under the corrugated platform is a supporting plane with a stand fixed to it. Storage-supply container is attached to the rack using a holder. Supply tube is attached to the bottom of the tank. Hole is made in the upper surface of the corrugated platform. Flexible tube is connected to the hole. Flexible tube is connected to a siphon tube with a sealed upper end. Probe with a check valve is connected to the siphon tube. Flexible tube, a siphon tube and a pin with a stop valve are placed in a frame tube.EFFECT: uniform irrigation is provided in accordance with the needs of the plants.3 cl, 2 dwg

Description

The invention relates to agriculture, in particular, to devices for watering plants in closed ground, and can be used for watering indoor plants.

A device for irrigation (in particular, indoor plants) is known, which consists of a storage tank containing a certain volume (dose) of water, a pot of soil with a planted plant, and a flexible siphon tube through which the accumulated volume of water is drained onto the plant (FR 2497059 A1, 07/02/1982).

The disadvantage of this device is the inability to quickly reconfigure it to another required water flow, because the dose is initially determined by the design features of the product.

The prototype of the invention is a device for watering, in particular, indoor plants, set forth in patent RU 2228609 C1, 05/20/2004. The known device contains a pot of earth and a planted plant, accumulative and expendable containers filled with irrigation water up to the indicated mark, from which water flows through a flexible siphon tube into the plant. Watering device is launched as follows.

The tip of the siphon capillary tube is pulled 7-10 cm below the water level in the storage tank, then it is taken into the mouth and sucked in water until frequent drops appear, then, successively drawing in the tip of the capillary tube (i.e. reducing its height relative to the water level in the storage tank capacity), gradually increase to the desired value of the time between the drops, which is determined by the clock with a second hand or stopwatch.

Common in the design of all the described watering devices (and the prototype in particular) is the presence of a storage vessel with a certain volume (dose) of water and siphon tubes, which play the role of diversion.

The disadvantage of the prototype is the complexity of starting the irrigation system. In addition, in the device it is necessary to suck water into the mouth, which prevents watering plants with nutritious mixtures.

The objective of the invention is to ensure complete automatism and simplification of the irrigation procedure, suitable for plantations mainly in closed ground.

The technical result achieved by the implementation of the invention is to maintain greater uniformity of irrigation and in accordance with the needs of plants.

The technical result is achieved by the fact that the device for watering plantations of plants in enclosed spaces contains a pot of earth and a planted plant, at least one storage-expendable container and a supply tube, the device is equipped with a sealed corrugated platform, on the end of which a pot with a plant, under the corrugated platform there is a supporting plane with a rack fixed to it, to which, with the help of the holder, a storage-expendable container is attached, to the bottom of which A lead-in tube is insulated, and a hole is made in the upper surface of the corrugated platform to which a flexible tube is connected, connected to a siphon tube with a sealed upper end, to which a pin with a shut-off valve is connected, while a flexible tube, siphon tube and a pin with a shut-off valve are placed in wireframe.

The specified technical result can also be achieved due to the fact that the shut-off valve is made on the basis of an electromagnetic valve.

The specified technical result can also be used for two containers mounted on a rack, each of which contains upper and lower bounding hoops, between which springs are installed. Moreover, the tube that removes water from the second tank has a bend that is close to the hole that supplies water to the second plant, and the lower hoop of the second tank contains a lever that opens the passage of water from the second tank.

The height of the sealed corrugated platform is less than its diameter. The diameter of the corrugated platform should be larger than the diameter of the lower part of the pot, on the end of which a pot with a plant is installed, which allows us to estimate the weight of the pot with the ground and the plant growing in it.

The presence of a support plane under the corrugated platform with a stand fixed on it with a storage-expendable capacity, in the lower part of which a flexible tube is connected, which supplies irrigation water to the plant.

The presence in the upper surface of the corrugated platform of a hole with a neck, to which a tube is muffled, articulated on top with a small diameter corrugated siphon tube with a sealed top end, and placed in a dense tube, allows you to determine the weight of the pot with the plant as it consumes liquid.

The installation of a pin on top of the siphon tube, the second end of which is provided with a tip that overlaps the channel of the said supply tube, makes it possible to control the flow of the next portion of water to the plant.

The installation of a shut-off valve made on the basis of an electromagnetic valve expands the capabilities of the operator.

The presence on the stand of two containers, each of which contains upper and lower bounding hoops, between which springs are installed, and the tube that takes water from the second tank has a bend that is close to the hole that supplies water to the second plant and the presence of a second tank in the lower hoop the lever that opens the passage of water from the second tank, allows you to water the second plant or the whole plantation.

In FIG. 1 shows a watering system for a plant located in a single pot.

In FIG. 2 shows a device for irrigation, two or more plants.

A device for automatic irrigation of plantations is performed as follows.

Watering plant 1 (Fig. 1), is in a pot 2 with the ground (not indicated in Fig.). The pot (not shown in FIG.) Is mounted on a hermetically sealed corrugated platform 3, the cavity of which is filled with water. The diameter of the platform 3 exceeds the diameter of the lower part of the pot 2. In turn, the platform 3 is mounted on the supporting plane 4, on which the rack 5 is fixed. On the rack 5, with the aid of the holder 6, a container 7 is attached, filled with irrigation water 8. At the bottom, to the outlet 9 of the container 7, a water supply pipe 10 is tightly attached to the plant 10. An opening 11 with a neck is made on the edge of the upper surface of the corrugated platform (not indicated in FIG.). A flexible tube 12 of small diameter is tightly inserted into this neck, to which, in turn, a siphon tube 13 of small diameter is attached. Both of these tubes are placed in the frame tube 14. A pin 15 is attached to the upper surface of the siphon tube 13, the second end of which is equipped with a shut-off valve 16 that overlaps the channel of the inlet tube 10. This technical result can also be achieved using an electromagnetic valve.

In an embodiment of the technical solution, two containers 7 and 17 are fixed on the rack 5 (Fig. 2). Each of the two containers contains restrictive hoops: the upper 18 and 19 and the lower 20 and 21. The lower hoops are installed slightly above the drain holes of the tanks 7 and 17. The upper hoops 18 and 19 are installed below the edge of the containers, closed by covers (not indicated in Fig.). The hoops are firmly attached to the surface of the containers. The lower hoops are articulated with the stand 5 by means of holders 22 and 23. Respectively, the springs 24 and 25 are installed between the upper and lower hoops. The supply tube 27 is hermetically attached to the outlet 26 of the container 17. The tube 27 has a bend close to the hole 9, which supplies water to the plant 1. At the same time, a lever 28 is attached to the lower end of the spring of the first container, acting on the valve 29, blocking the water in the tube 27. Water from the tank 17 flows through the tube 27 towards the second plant or several rast iyam. The stiffness of the springs is proportional to the weight of the tank. The weight of the container is proportional to the total weight of the plant watered from it or proportional to the area watered on the surface in proportion to the surface area of the pot 2. One of the containers, in this case the left one, contains all the elements described in FIG. 1. I.e. has a pot 2 with a plant 1, a sealed corrugated platform 3, a supporting plane 4, etc. (see description to FIG. 1).

A device for automatic irrigation of plantations operates as follows.

If the weight of the pot with irrigation water is sufficient, then the siphon rises and presses on the pin 15, the shutoff valve 16 closes the channel of the siphon tube 13. Moreover, the water from the tank 7 does not enter the pot 2. If the water in the pot becomes less, then the pressure on the corrugated the platform 3 is reduced, the height of the siphon tube 13 is also reduced, the shutoff valve 16 lowers and ceases to press on the channel of the siphon tube 13, which supplies water to the pot 2, and water from the tank 7 enters the pot 2 to the plant 1. This process will continue until while pot weight is sno and does not increase to a certain level, and then rise again and the height of the corrugations begin through the tip 16 to block passage flexible siphon tube. This process will be repeated automatically without operator intervention. The only thing the operator should take care of is the timely replenishment of capacity 7. This replenishment can be done automatically.

If an electromagnetic shut-off valve is installed, the result will be similar.

In an embodiment, when two containers 7 and 17 (FIG. 2) are placed on the rack 5, the process of watering the plant 1 is carried out similarly to that described for FIG. 1, with the difference that as the container 7 is emptied, it becomes lighter and the spring 24 lifts it up. In this case, the lever 28 rises and the valve 29 opens. Water from the tank 17 flows through the tube 27 towards the second plant or plants. The volume of the second tank is proportional to the total weight of the second pot (not shown in FIG.) Or proportional to the surface to be watered (in proportion to the surface of the pot 2). As described above, the next plant can be watered.

Mankind is increasingly faced with water scarcity, soil pollution and other problems. To solve them, active development is being carried out in the field of growing plants in closed ground, which allows you to control watering and significantly save water. Such projects open up new opportunities for agriculture, especially in the issue of efficient water consumption in densely populated regions of the planet. Therefore, the present invention is relevant and can contribute to the cultivation of certain crops.

Claims (3)

1. A device for watering plantations of plants in enclosed spaces, characterized in that it contains a pot of earth and a planted plant, at least one storage-expendable container and a supply tube, the device is equipped with a sealed corrugated platform, on the end of which the pot is installed with the plant, under the corrugated platform there is a supporting plane with a stand fixed to it, to which, with the help of the holder, a storage-expendable container is attached, to the lower part of which there is a supply a casing tube, and a hole is made in the upper surface of the corrugated platform to which a flexible tube is connected, connected to a siphon tube with a sealed upper end, to which a pin with a shut-off valve is connected, while a flexible tube, siphon tube and a pin with a shut-off valve are placed in the frame the handset. 2. The device according to p. 1, characterized in that the shut-off valve is made in the form of an electromagnetic valve. 3. The device according to p. 1, characterized in that the shut-off valve is made in the form of a corrugation.

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