RU2783653C1 - Irrigable greenhouse - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of greenhouse farming. A greenhouse with irrigation contains a supporting frame, doorways, a roof and a light-permeable material fixed on the frame, doors and roof: cellular polycarbonate, consisting of two or more thin parallel plates and partitions between them forming cells/combs. The side surfaces of the greenhouse are installed on the bases. At the same time, the bases located on the outer sides of the greenhouse are made in the form of trays passing into rectilinear planes that pass under the bases of the side surfaces of the greenhouse, and then into inclined planes located inside the greenhouse, directly in the ground. Plugs are made at the ends of the bases, which prevent water from pouring out of the base, and through grooves are made in the bases of the side surfaces of the greenhouse, along its entire length.

EFFECT: invention will make it possible, given the simplicity of its design, to simplify the watering of plants.

3 cl, 4 dwg

Description

Irrigated greenhouse relates to agriculture, namely to protected ground devices for growing plants, containing a support frame system, doorways, a roof and a translucent material fixed to the frame, doors and roof - cellular polycarbonate, consisting of two or more thin parallel plates and partitions between them, forming cells - honeycombs, and the side surfaces of the greenhouse are installed on the bases, while the bases located on the outer sides of the greenhouse are made in the form of trays that pass into rectilinear planes that pass under the bases of the side surfaces of the greenhouse, and then into inclined planes located inside the greenhouse, directly in the ground, and at the ends of the bases there are plugs that prevent water from pouring out of the base, and in the bases of the side surfaces of the greenhouse, along its entire length, through grooves are made.

Various types of greenhouses made of cellular polycarbonate (1, 2, 3) are known, having a support frame system and doorways, as well as various types of greenhouse roofs - arched, gable, lancet, pyramidal or domed.

The disadvantage of various well-known greenhouse designs is that even with heavy rain, moisture does not penetrate into the greenhouse, and this is a very big disadvantage of modern greenhouses, since garden and summer cottages are often located at a distance of 20-50 km, or even more, from the place residence. In this connection, despite the fact that it has rained heavily and the soil is wet, it is necessary to go and water the plants in the greenhouse, which takes a lot of time and money.

It is known the invention "System of continuous drip irrigation" (4), including a system of continuous drip irrigation, mainly plants in the beds of a garden plot, containing a water source, a regulator and a watering pipeline installed on height-adjustable racks with a number of drip holes evenly spaced along the generatrix of the pipeline, it is equipped with plates convex in the center, and a liquid level regulator with a tank is used as a regulator, to which, below the liquid level, using a coupling that makes it possible to turn in it, an irrigation pipeline is connected, in which a second row of holes is made, evenly spaced along the generatrix of the pipeline, diametrically opposite to the first row of holes, while under each drip hole at the ground level across the trajectory of the drops fall, a plate convex in the center is fixed, the convexity facing towards the drops.

Known "Drip irrigation system", (5) including elements of water supply, pressure-generating unit, irrigation tank equipped with a unit for maintaining the level of irrigation water, irrigation network in the form of irrigation pipelines with droppers, and the system is additionally equipped with irrigation and pressure pipelines, and the body of the droppers is made of elastic material, inside of which a part of the irrigation pipeline, made of an elastic-plastic material, passes, forming a counter-pressure chamber between the inner walls of the dropper body and around the elastic-plastic flow element, while the elastic-plastic flow element is connected to the irrigation pipeline at one end, and at the other - with a sprinkler, and the counterpressure chamber is connected by means of tees to the filling and pressure pipelines, while in the head part the filling pipeline is connected through a locking element to the main irrigation pipeline.

The installation of these drip irrigation systems is expedient in large agricultural enterprises, and such systems are not used for garden and summer cottages due to the complexity of their design and high cost.

Popular on the Russian market are greenhouses with a sliding roof and opening sides (6), such as: "Marusya", "Orion", "Delta", "Tulip", "Flora-Cabriolet", "Kremlevskaya-Rublevskaya", "Sesame ”, “Sim-Sim”, “Present”.

When the roof is moved, when it rains, watering the plants occurs without effort, and when the sidewall is raised, you can get more convenient access to the plants.

The disadvantage of this system is the large windage of the greenhouse, loose polycarbonate sheets are pulled out of the guides by strong gusts of wind, and in winter they are also squeezed out by snow.

The closest technical solution adopted as a prototype is the method according to the RF patent for the invention RU 2651589 C2 "Method of watering plants in a greenhouse" (7), which consists in the fact that it is necessary to ensure an increase in the amount of collected rainwater by increasing the roof area, for through the use of such a roof structure that allows for oversized overhangs so that the total effective area exceeds the area of the greenhouse, a special organized drain system, a buffer tank - a storage tank, a supply tank, an overflow mechanism, an intermediate and distribution piping system with the necessary shut-off valves.

All this is difficult and expensive.

The purpose of the claimed invention is to eliminate the shortcomings of the known solutions, as well as to simplify the design of the greenhouse and reduce its cost.

The technical result of the claimed solution is that during rain, moisture automatically gets inside the greenhouse, directly to the roots of plants, without any effort.

To achieve the specified technical result, the greenhouse is installed on bases made in the form of trays on the outer sides and straight and inclined sections inside the greenhouse, and through grooves are made in the bases of the side surfaces of the greenhouse along its entire length.

The invention is illustrated by drawings.

In FIG. 1 shows a greenhouse from a frontal view.

In FIG. 2 shows enlarged fragments of the base of the greenhouse.

In FIG. 3 shows a side view of the greenhouse.

In FIG. 4 shows enlarged fragments of the tray partition.

The greenhouse with irrigation consists of the greenhouse itself 1, the base of the greenhouse 2, the bases located on the outer sides of the greenhouse 1 are made in the form of trays 3, turning into straight planes 4 and then into inclined planes 5, which are located inside the greenhouse 1, directly in the soil 6. On ends of the bases 2, plugs 7 are made, which prevent water from pouring out of the greenhouse 1.

In the bases 2 of the greenhouse 1, partitions 8 can be installed, which divide the bases 2 of the greenhouse 1 into parts. And in the bases of the side surfaces of the greenhouse 1, through grooves 9 are made along its entire length.

In early spring and late autumn, frosts occur on the soil, therefore, slats 10 are provided in the greenhouse 1, which cover the grooves 9 in the bases of the side surfaces of the greenhouse 1.

Bases 2, plugs 7 and partitions 8, greenhouses 1 are made of plastic. Reiki 10 can also be made of plastic or wood.

The greenhouse with irrigation works as follows.

If it rains in the garden or in the country house, then raindrops flow down from the roof and side surfaces of the greenhouse 1 and fall on the bases 2 on both sides of the greenhouse 1. The trays 3 do not allow water to go beyond the base 2, the water accumulates in the bases 2, and rectilinear planes 4, on both sides of the greenhouse 1, through the grooves 9 of the greenhouse 1, water along the rectilinear planes 4 and further along the inclined planes 5, gets inside the greenhouse 1, from both sides, directly into the root zones of plants, in the soil 6.

Watering plants in the greenhouse can also be carried out by filling the base 2, tray 3 with water from a hose 11 fixed with a pin 12 in the soil 6, for example, from a water supply system, a well, or from any other available water sources.

Different plants can grow in greenhouse 1, some require abundant, and others moderate watering, in this case a partition 8 is installed that divides the base of greenhouse 2 into parts, and a hose 11 with water is installed in the part where abundant watering is required, water along a straight line plane 4 of the base 2, through the grooves 9, penetrates along the rectilinear plane 4 inside the greenhouse 1, and then along the inclined plane 5 gets directly into the root zone of plants, in the soil 6, and the partition 8 does not allow moisture to penetrate into another part of the base 2 of the greenhouse 1.

The grooves 9 in the greenhouse have a positive effect on the microclimate in the greenhouse 1.

Sources of information

1. htth://www.vseteplici.ru/teplicy_fazenda.html

2. htth://teplitsa.foodset.ru/

3. htth://www.sellex.ru/production/CPC_greenhouses/

4. Patent RU No. 2177684 C2

5. patent RU №2715693 C1

6. htth://vk.conV@rus_teplici-preimuschestva-teplic-s-otkryvauschei...

7. patent RU №2651589 C2

Claims (3)

1. A greenhouse with irrigation, containing a support frame system, doorways, a roof and a translucent material fixed to the frame, doors and roof - cellular polycarbonate, consisting of two or more thin parallel plates and partitions between them, forming honeycomb cells, characterized in that that the side surfaces of the greenhouse are installed on the bases, while the bases located on the outer sides of the greenhouse are made in the form of trays that pass into straight planes that pass under the bases of the side surfaces of the greenhouse, and then into inclined planes located inside the greenhouse, directly in the ground , and at the ends of the bases there are plugs that prevent water from pouring out of the base, and in the bases of the side surfaces of the greenhouse, along its entire length, through grooves are made. 2. A greenhouse with irrigation according to claim 1, characterized in that partitions are installed in the bases of the greenhouse, dividing them into parts. 3. A greenhouse with irrigation according to claim 1, characterized in that rails are installed in the greenhouse to cover the through grooves in the bases of the side surfaces of the greenhouse during frosts on the soil.

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