RU2163755C1 - Apparatus for soil-free growing of plants on vertical surface - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: hydroponic growing apparatus has system for supplying water and nutritive substances to plants. Water and nutritive substance supplying system is made in the form of vertical wall defined by hollow tubes. Apparatus is further provided with spraying device and modular members allowing plants to be cared for and restored. Spraying device has vessel, pump, control unit and distributing pipe. Vessel and vertical wall are mounted on frame. Modular members are located in hollow tube holes. Each modular member has casing, inlet and outlet pipes. Porous rot-resistant substrate and wick are placed inside each hollow tube. Apparatus of such construction allows mobile and convenient replacement of modular members to be effectuated without injuring plant rootage and apparatus to be efficiently mounted in buildings interior. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 6 cl, 3 dwg

Description

 The present invention relates to hydroponics, growing plants in a nutrient-free environment without soil, and more particularly, relates to a device for growing plants without land on a vertical surface.

 This invention can be used for the cultivation and care of plants on a vertical surface, for the improvement of premises, offices, shop windows, in agriculture for the forcing of land, for growing berries of low bushy plants such as strawberries, strawberries, blueberries.

 A device is known for growing plants without land on a vertical surface (FR, 2747265), comprising a system for supplying plants with water and nutrients, an irrigation agent, modular elements for installing, caring for crops and updating plants, and a vertical support wall. The system for supplying plants with water and nutrients is made in the form of a rotting layer, which has the ability to retain water applied to the supporting wall. The supporting wall is made of rigid sealed material or of a material converted into a sealed material, such as concrete. The non-decaying layer is made of non-decaying felt, in particular, it is an irrigation layer that provides plants with water and nutrients. Irrigation means are connected at the top of the rotting layer to allow water to circulate under the influence of gravity inside the layer. In addition, the device contains a protective vertical wall, located so that it is adjacent to the rotting layer. The protective wall consists of modular elements with a usual rectangular shape, for example, from slabs made of concrete or other materials having preferably a minimum thickness of 5 cm. The modular elements are supported by the supports of the rack elements. Thus, they form inclined planes, each of which forms a vertical angle.

 Between the modular elements and the supporting wall, holes are formed that allow plants to be planted, the roots of which spread along the rotting layer. The non-decaying layer along which the roots of the plants spread has the ability to retain water. It is a solid plate located on a flat vertical surface of the wall and pressed by the fasteners of the protective wall. However, in this device, firstly, the roots of plants have the ability to germinate, penetrate into the pores, are closely interwoven with the fibers of the above layer, so plant transplantation without destroying the root system is excluded. Secondly, the remains of roots sprouted into the rotting layer, when replacing the plants can not be extracted without violating the structure of the layer. Partial replacement of the rotting layer without violating its structure is also impossible. Thirdly, the decaying layer itself loses its original meaning, since the remnants of the roots stuck in it are subject to decay. Fourth, the manufacture of a supporting wall made of concrete or other similar material creates many problems and limitations in their design application for indoor. Fifthly, it is envisaged that removable modular elements located at an angle to the wall form holes or a space with a triangular section, which are filled with granular medium. During plant replacement, the modular element is removed and the filler inevitably wakes up on the plants below. Sixth, this device is too heavy, which creates great difficulties in its maintenance.

 Thus, this device for growing plants without land on a vertical surface does not allow for a mobile and convenient replacement of modular elements without damaging the root system of plants and the rational placement of the device itself in the interiors of buildings.

 The basis of the invention is the creation of a device for growing plants without land on a vertical surface with such a constructive implementation, which would provide a mobile and convenient replacement of modular elements without damaging the root system of plants and the rational placement of the device in the interiors of buildings.

 The problem is solved in that in a device for growing plants without land on a vertical surface containing a system for supplying plants with water and nutrients, an irrigation means, modular elements for installing, caring for crops and updating plants, according to the invention, a system for supplying plants water and nutrients is made in the form of a vertically mounted wall with vertically located and rigidly interconnected hollow tubes. Holes are made in the hollow tubes for attaching the modular elements and the flow of water and nutrients to the plants. The irrigation means comprises a tank for storing water and nutrients, in the upper part of which is located the lower part of the system for supplying plants with water and nutrients, a pump located in a tank for storing water and nutrients, electrically connected to the control unit and connected via a hose to a distribution tube located on top of the system to supply plants with water and nutrients. The device comprises a frame having a rectangular shape, vertically mounted, a container for storing water and nutrients is placed in the lower part of the frame, and a water and nutrient supply system is mounted on the top and sides in the frame. Modular elements are placed on a vertically mounted wall with the possibility of installing and removing them from the holes for attaching the modular elements and the flow of water and nutrients to the plants. Each modular element contains a housing with inlet and outlet tubes with a non-decaying porous substrate placed therein. The inlet tube is placed at an angle relative to the housing and has an oblique cut, while the side of the inlet tube located first along the water and nutrients is smaller than the second side of the inlet tube having a locking protrusion. The output tube is located at right angles to the body and has an oblique cut, and its side, located first along the water and nutrients, is larger than the second side of the output tube having a locking protrusion.

 It is possible that the device for growing plants without land on a vertical surface contains a stand for mounting the frame. It is also possible that in the upper part of the frame holes are made for its fasteners.

 Preferably, the modular elements are placed on a vertically mounted wall from two opposite sides.

 It is possible that the device for growing plants without land on a vertical surface contains plugs for holes for mounting modular elements and the flow of water and nutrients to the plants.

 Preferably, a wick is placed in the housing of the modular element, one end of which protrudes from the outlet tube by the amount necessary to contact it with the wall of the hollow tube.

 A device for growing plants without land on a vertical surface allows for a mobile and convenient replacement of modular elements without damaging the root system of plants and rational placement of the device itself in the interiors of buildings. This invention allows to significantly expand the scope of the hydroponics method (from agriculture to design), to make the installation mobile and convenient for use, affordable for general consumption (from window dressing and offices to private apartments). Also, this device allows you to exclude the ingress of the results of the process of decay of the remains of plant roots in water and nutrients.

The invention is further illustrated by a specific example of execution and drawings, in which:
FIG. 1 shows a general view of a device for growing plants without land, according to the invention;
FIG. 2 shows a section of a hollow tube vertically mounted with a modular element housed in it, side view, according to the invention;
FIG. 3 depicts a device for growing plants without land, side view, according to the invention.

 A device for growing plants without land on a vertical surface contains a system for supplying plants with water and nutrients, an irrigation agent, modular elements. The system for supplying plants with water and nutrients is made in the form of a vertically mounted wall 1 (Fig. 1) with vertically located and rigidly interconnected hollow tubes 2. In the hollow tubes 2 holes are made for attaching the modular elements 3 and the intake of water and nutrients to plants 4. The means for irrigation contains a container 5 for the accumulation of water and nutrients, in the upper part of which is located the lower part of the system for supplying plants with water and nutrients, a pump 6, with union of electrically with a control unit 7, and a distribution pipe 8 (FIG. 3). One of the corners of the tank 5 (Fig. 1) is equipped with a space separated from the total volume for placing the control unit 7 and the pump 6 itself, connected by a hose to the distribution tube 8 (Fig. 3) located on the top of the system for supplying plants with water and nutrients . The hose is not shown in the drawings, it is passed into one of the hollow tubes 2 (Fig. 1) of the wall 1. The pump 6 and the control unit 7 are widely known and made according to well-known schemes (SU 1531929, A1; RU 2038005, C1). In FIG. 1 shows one example of the placement of modular elements 3. When the modular elements are arranged in 3 rows on the wall 1, up to 320 plants can be placed 4. The modular elements 3 are made of polystyrene. Wall 1 is made of transparent polycarbonate. The width of the wall 1 in a specific example can be equal to 2100 mm, height - 2000 mm, thickness - 16 mm. The wall 1 may have, for example, with the above dimensions 105 tubes 2. The width of the container 5 corresponds to the width of the wall 1. The container 5 has a rectangular shape 400 mm high, 70 mm thick. Capacity 5 made of polyethylene. The power of the pump 6 reaches up to 3000 l / h.

 The device also contains a frame 9 having a rectangular shape, vertically mounted. In the lower part of the frame 9 there is a container 5 for storing water and nutrients, equipped with stiffeners, on which the lower side of the wall 1 of the water supply system and nutrients rests. In this case, the wall is mounted on the top and sides in the frame 9. In this particular example, the device includes a stand 10 for mounting the frame 9. In the upper part of the frame 9, holes 11 are made for its fastening. It is also possible to mount lighting fixtures (not shown) in any place of the frame 9. The essentially vertical frame 9, which has a rectangular shape, is made of U-shaped metal profiles facing a recess of the profile inside the frame 9 and fixedly connected in its lower corner parts. The container 5, having a rectangular shape, is equipped with stiffeners, grooves for reliable fastening from the bottom and two sides and an open top. In the tank 5 there is a filler and a drain cover 12, 13, respectively. In the upper part of the wall 1 there is a casing 14 covering the distribution tube 8 (Fig. 3). The covers 12, 13 are designed for filling and draining the liquid medium 15, which is water and nutrients. The modular elements 3 are placed in the holes for attaching the modular elements and the flow of water and nutrients to the plants of the vertically mounted wall 1 with the possibility of installation and removal. Each modular element 3 (Fig. 2) contains a housing 16 with an inlet tube 17 and an outlet tube 18. The inlet tube 17 is placed at an angle relative to the housing 16 and has an oblique cut 19, tending to the horizon and designed to more fully get water into the tube 2 Thus, the side 20 of the inlet tube 17, located first along the liquid medium 15, consisting of water and nutrients, is less than the second side 21 of the inlet tube 17 having a locking protrusion 22. The output tube 18 is located at right angles to the housing 16 and has an oblique cut 23 To facilitate drainage problem. The side 24 located first along the liquid medium 15, consisting of water and nutrients, is larger than the second side 25 of the output tube 18 having a locking protrusion 26. The direction of movement of the liquid medium 15 is shown in the direction of arrow A. The locking protrusions 22 and 26 are intended for fixing the modular elements 3 in the holes of the wall 1. The holes in the hollow tubes 2 (Fig. 2) are spaced at intervals corresponding to the tubes 17, 18 of the modular elements 3, and their diameter corresponds to the diameter of the tubes 17, 18 to ensure the density of joints .

 The modular element 3 is filled with a non-rotting porous (granular) substrate 27 that holds the plant 4 and provides its roots with water and nutrients. Also, a wick 28 can be placed in the housing 16, one end of which protrudes from the inlet tube 17 by the amount necessary for it to contact the wall of the hollow pipe 2. In this example, this value is 1-2 cm. When using iontoponic, the cavity of the modular elements 3 is filled ion-exchange fibers, and water flows through the hollow tubes 2. In FIG. 3 shows that the modular elements 3 can be placed on a vertically mounted wall 1 from two opposite sides. The device also has plugs for holes in the hollow tubes 2 (plugs not shown). These plugs are used for those holes in which modular elements 3 are not installed.

 A device for growing plants without land on a vertical surface works as follows.

 The control unit 7 (FIG. 1) includes the pump 6 supplying a liquid medium 15 through a hose to a distribution tube 8 (FIG. 3). The liquid medium 15 through an opening in the distribution tube 8 enters the tubes 2 (Fig. 2) of the wall 1 and then the substrate 27, the roots of the plants 4, and its excess leaves through the lower tube 18, falling back into the cavity of the hollow tube 2, flowing down, falls to the lower next modular element 3 with plant 4, and ultimately flows into the tank 5, closing the cycle. Between the supply of the pump 6 of the liquid medium 15, it is possible to replace the modular elements 3 with plants 4 to achieve design qualities or update and care for plants 4.

 Thus, this invention provides a mobile and convenient replacement of modular elements 3 without damaging the roots of plants 4 and ensures the rational placement of the device in the interiors of buildings.

Claims (6)

 1. A device for growing plants without land on a vertical surface, comprising a system for supplying plants with water and nutrients, an irrigation agent, modular elements for installing, caring for crops and updating plants, characterized in that the system for supplying plants with water and nutrients the elements are made in the form of a vertically mounted wall with vertically located and rigidly interconnected hollow tubes, holes for mounting modular holes are made in the hollow tubes elements and the flow of water and nutrients to plants, the irrigation means comprises a container for accumulating water and nutrients, in the upper part of which is located the lower part of the system for supplying plants with water and nutrients, a pump located in the tank for accumulating water and nutrients, electrically connected to the control unit and connected via a hose to a distribution tube located on the upper part of the system for supplying plants with water and nutrients, the structure contains a rectangular frame, vertically installed in the lower part of the frame, a container for storing water and nutrients is placed, and a water and nutrient supply system is installed on the top and sides in the frame, modular elements are placed on a vertically installed wall with the possibility of their installation and extraction from holes for mounting modular elements and the flow of water and nutrients to plants, each modular element contains a housing with an input and output pipe with tubes placed in it a rotting porous substrate, the inlet tube is placed at an angle relative to the body and has an oblique cut, while the side of the inlet tube located first along the water and nutrients is smaller than the second side of the inlet tube having a fixing protrusion, the outlet tube located at right angles to the body and has an oblique cut, and its side, located first along the water and nutrients, is larger than the second side of the output tube having a locking protrusion.  2. A device for growing plants without land on a vertical surface according to claim 1, characterized in that it contains a stand for installing the frame.  3. A device for growing plants without land on a vertical surface according to claim 1, characterized in that in the upper part of the frame holes are made for its fasteners.  4. A device for growing plants without land on a vertical surface according to any one of claims 1 to 3, characterized in that the modular elements are placed on a vertically mounted wall from two opposite sides.  5. A device for growing plants without land on a vertical surface according to claim 1, characterized in that it contains plugs for holes for mounting modular elements and the flow of water and nutrients to plants.  6. The device for growing plants without land on a vertical surface according to claim 1, characterized in that a wick is placed in the housing of the modular element, one end of which protrudes from the output tube by the amount necessary for it to contact the wall of the hollow tube.

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