RU2108709C1 - Plant growing apparatus with automatic soil moistening - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus has housing 3 with pallet 1 having rest 3 for receiving moisture and air-impermeable bag 4 with plant. Rest 3 has supports 10 and perforated plate 11 positioned above liquid level in trough 1. Inner sides of housing walls are provided with vertical ribs 14 with guides 15 facilitating runoff of condensate onto bag 4. Apparatus allows plant growing process to be improved by continuous moistening of nutrient ground both within the mass of ground and at peripheral parts of ground containing the maximum amount of plant roots. Moreover, drying of ground adjoining housing walls is eliminated. EFFECT: increased efficiency, simplified construction and improved plant growing process. 9 cl, 5 dwg

Description

 The invention relates to agriculture, namely, devices for growing plants with automatic soil moistening, and can be used for growing seedlings, flowers, berries, vegetables and ornamental plants on the ground with biohumus in greenhouses, apartments and office rooms.

 A device is known in which automatic moistening of the soil is carried out by periodically absorbing a certain amount of moisture, provided by the design of the device, in which the walls and bottoms of the tank form a closed water tank with an opening in the tank, inside there is an open top soil tank and holes are made in it areas of contact of its walls or bottom with soil.

 The disadvantage of this device is the inability to maintain, if necessary, constant or optimal soil moisture for a given culture due to the occurrence of near-wall drying of the soil (USSR patent N 1678192, class A 01 G 9/02, 1991).

 A device for growing plants is also known, which consists of one or more vegetation vessels with drainage holes, a water tank with an outlet, and the soil is moistened with a wick (PCT application 95/32612, class A 02 G 9/02, 1995).

 This device is not without drawbacks associated with devices with humidification through the lower drainage holes.

 A device for growing plants in pots with automatic moistening of the soil due to condensate draining from the top cover of the housing, in which is placed a tool filled with a substrate for planting and placed in the housing with a gap relative to its bottom. Water is poured at the bottom of the casing (EP, N 0737419, class A 01 G 27/00, 1996). Humidification due to condensate flowing from above does not prevent the possibility of wall-mounted drying of the soil and the unevenness of moistening throughout its volume.

 The closest structural analogue is a device for growing plants with automatic moistening of the soil, comprising a housing with drainage holes, consisting of an upper part and a lower cylindrical one, as well as a water tank in the form of a pallet and means for planting plants placed in the housing on a stand, having openings for water inlet and outlet (DE, 3227963, class A 01 G 27/00, 1984). Humidification is carried out due to the condensation of liquid vapor, penetrating through the interstitial gaps into the planting plant.

 The objective of the invention is to ensure constant and optimal soil moisture throughout the volume and to prevent near-wall drying of the soil.

 In FIG. 1 shows the proposed device; figure 2 - 5 - embodiments of the device.

 The device comprises a pallet 1, a stand 2, a housing 3, a bag 4, a decorative-clamping ring 5. The pallet 1 is a vertical cylinder 6 with a bottom 7 and, if necessary, is equipped with a support protrusion 8 for connecting the housing 3 and the pallet 1 when they are separately executed. The vertical cylinder is equipped with an overflow tube 9, which ensures the outflow of excess moisture from the pallet 1. The support protrusions 8 allow the pallet 1 to be attached to the housing 3 in case of separate execution of the upper and lower parts of the housing for their joint movement, without disconnecting them when lifting.

 The support 2 consists of supports 10, plate 11. Supports are located higher than the overflow pipe of the pallet. The perforated plate 11 has drainage holes that allow water to drain from the bag 4 into the pan 1. The plate 11 is located above the liquid level in the pan 1 and has a diameter smaller than the lower part of the housing 3. The housing 3 consists of two parts - a cylinder 12 in the lower part and upper part 13 of arbitrary shape - or a truncated cone, or cylinder, or other shape. Inside the case, on the walls of the cone, there are vertical ribs 14 with a height that allows free passage of water vapor upward between the bag 4 and the cone 13. On the vertical ribs there are guides 15 that allow condensed water to drain onto the bag 4. The cylindrical part of the case 12 rests on the bottom of the bottom 7 of the pallet 1. At the bottom of the cylinder 12 there are openings for free exit of fluid. Since the cone 13 with the cylindrical part 12 can be used separately with the pallet 1, connection elements 16 can be provided for their tight connection. On the cylinder 12, when the housing and the pallet are separately executed, protrusions 16 are provided on the outside to connect the pallet 1 to the housing 3. On the top parts of the housing 3 can also be made protrusions 17, providing a tight connection of the decorative-clamping ring 5 with the housing 3.

 Bag 4 is made of moisture-breathable fabric (mesh), does not decompose in a humid environment and is impervious to worms and roots. The bag 4 is inserted into the truncated cone 13 of the housing 3 so that the lower (open) part rests on the plate 11 of the stand 2. The upper (open) part of the bag is wrapped over the edge of the upper part of the cone 13 and is pressed against it by a decorative-clamping ring 5. Ring 5 is made in the form of a torus with a removed part of the segment, the outer wall of the torus has cuts that allow easy dressing of the ring on top of the truncated cone 13.

 The device operates as follows.

Initially, pallet 1 and stand 2 are installed on the heated surface. Then, when separately performing the case and the pallet, the case 3 is inserted with the lower part into the pallet and turned until the protrusion 16 enters the protrusion 8. The bag 4 is inserted into the case 3 and filled with a nutrient mixture (soil) on 1/3 bags. The upper part of the bag is fixed with a decorative-clamping ring 5. A plant is placed in the soil and the root system is covered with a nutrient mixture. The plant is abundantly watered so that water leaves the overflow pipe 9. It is necessary to ensure that a water seal is provided between the body 3 and the pallet 1. The temperature of the nutrient medium in the device is 20 - 25 ^o C and is determined by the type of plant.

Optimum conditions for the life of plants are achieved by maintaining the temperature of the liquid in the pan at 1 - 6 ^o C above the temperature of the wall of the body and the nutrient mixture. With these parameters, an equilibrium or greater pressure of water vapor in the atmosphere above the granules of the nutrient mixture is ensured in comparison with the vapor pressure of the granules themselves.

 The optimal vital activity of the plants and, as a result, the maximum yield increase is achieved due to the continuous evaporation of water in the pan 1, the rise of water vapor in the volume of the nutrient mixture and the gap between the bag 4 and the housing 3, condensation of the vapor on the ribs 13 and granules of the nutrient mixture, drainage of condensate guides 15 to the bag and then to the nutrient mixture in which the root system and vermiculture are located.

Claims (9)

 1. A device for growing plants with automatic moistening of the soil, comprising a housing with drainage holes, consisting of upper and lower cylindrical parts, as well as a water tank in the form of a pallet and means for planting plants placed in the housing on a stand, having an opening for inlet and outlet water, characterized in that the water tank is equipped with an overflow tube, and the stand is made in the form of a perforated plate on the supports, while the inner walls of the upper part of the body have vertical ribs with guides and a means for planting is in the form of a bag vlagovozduhopronitsaemoy fabric whose upper part is folded over the edge of the housing and pressed decorative ring.  2. The device according to claim 1, characterized in that in the lower cylindrical part of the housing are openings for the passage of water.  3. The device according to claim 1, characterized in that the upper part of the body has the shape of a cylinder or a truncated cone, expanding or tapering downward.  4. The device according to claim 1, characterized in that the vertical ribs have a thickness of 1 to 5 mm and are located at a distance from each other of 5 to 12 mm. 5. The device according to claim 1 or 4, characterized in that the guides are made in the form of a quarter tube and are located on the ribs at an angle of 10 - 18 ^o to the horizontal line of the housing.  6. The device according to claim 1, characterized in that the volume of the pallet is 5 to 40% of the volume of soil in the bag.  7. The device according to claim 1, characterized in that the perforated plate of the stand is located above the water level in the pan.  8. The device according to claim 1, characterized in that the tissue of the bag does not decompose in a humid environment and is impermeable to vermiculture.  9. The device according to claim 1, characterized in that the clamping decorative ring holding the bag in the housing is a torus with a cut into 1/4 of a circle.

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