RU2013935C1 - Hydroponic unit - Google Patents

Abstract

FIELD: cultivation plants. SUBSTANCE: hydroponic unit has framework of mutually-connected cross-bars and feed system. Mutually-connected cross-bars triangular frames with trays installed on cross-bars for cultivation of plants. Cross-bars are made composite and telescopic for movement of each of members along cross-bar axis. External surfaces of trays are provided with articulated strips of light-reflecting material. Each of trays is secured on two holders. Holders are mounted on cross-bars of adjacent triangular frames for rotation in planes parallel to planes of triangular frames around axes perpendicular to these planes. At leasts two trays are secured on each pair of holders, with attachment points of these trays being at different sides from axes of holders rotation. Unit is provided with hollow base in the form of rectangular prism, connected with framework and accommodating tank with nutrient solution and feed pump. Arranged between cross-bars of rectangular frames are tank for provisional preparation of nutrient solution, cans for mother liqueur, dispensing pumps, connected with cans by hoses, and control unit. EFFECT: effective growing of plants on hydroponics. 7 cl, 7 dwg

Description

 The invention relates to devices for growing plants in greenhouses using hydroponics.

 Known hydroponic installation containing a frame of pairwise connected beams, forming a triangular frame with trays mounted on the beams for growing plants, a power system.

 The known installation has only a limited scope, requires special devices for regulating lighting in the conditions of round-the-clock natural lighting and cannot be used as a window installation in such conditions.

 The aim of the invention is to expand the fields of use of the greenhouse in the conditions of round-the-clock natural lighting, in particular, the use of a hydroponic installation as a window.

 This goal is achieved by the fact that in a hydroponic installation containing a frame of pairwise connected beams, forming triangular frames with trays for growing plants mounted on the beams, according to the invention, the beams are made compound and telescopic with the ability to move each of the elements along the axis of the bead on the outer surfaces of the trays strips of reflective material are pivotally fixed, each of the trays is fixed on a pair of holders, and the holders are mounted on the crossbars of adjacent triangular frames the possibility of rotation in planes parallel to the planes of the triangular frames around the axes perpendicular to these planes, at least two trays are fixed on each pair of holders, the fixing points of which are located on different sides from the axes of the possible rotation of the holders, the installation contains a base connected to the strip frame prisms where the tank for the nutrient solution and the pump for its supply are located, and between the crossbars of the triangular frames there is a tank for pre-preparation of the nutrient solution alignment, tanks for the mother liquor associated hoses metering pumps and control unit.

 The holders are preferably made integral and telescopic with the possibility of moving each of the elements relative to other elements in the direction of the axis of the holder.

 The installation frame is preferably made in the form of a triangular prism with a base in the form of a rectangular triangle.

 The installation may include attachment points to the window frame; rollers can be attached to the base of the frame with the possibility of free rotation around its axis. In the hollow base can be located containers for growing champignons.

 In a preferred embodiment of the installation, trays for growing oyster mushrooms can be located in the frame, and in the plane of the crossbars on which the trays for growing plants are mounted, strips of a flexible transparent film are fixed, and a flexible opaque film is fixed in the plane of the other crossbars, For example, photo wallpaper.

 The hydroponic installation may contain light sources mounted on the frame with the possibility of installation in a position in which each of the sources is equidistant from the ends of each of the crossbars on which the trays with plants are mounted, and the distance from each of the sources to the plane of location of these crossbars is 2/3 of the distance from the source to the straight lines passing through the ends of the crossbars.

 In the proposed hydroponic installation, the crossbars are made compound and telescopic with the possibility of moving each of the elements along the crossbar axis. This allows you to "adjust" the size of the installation to the size of the window if it is used as a window, as well as change the distance between plants during their growth to obtain optimal illumination.

 Strips of reflective material are pivotally fixed to the outer surfaces of the trays. They allow you to achieve optimal illumination of plants in the trays due to light reflection.

 Each of the trays is mounted on a pair of holders, and the holders are mounted on the crossbars of adjacent triangular frames with the possibility of rotation in planes parallel to the planes of the triangular frames around the axes perpendicular to these planes. At least two trays are fixed on each pair of holders, the fixing points of which are located on different sides from the axes of the possible rotation of the holders.

 The installation contains a hollow base connected to the frame in the form of a rectangular prism, where the tank for the nutrient solution and the pump for its supply are located, and between the crossbars of the triangular frames there is a tank for preliminary preparation of the nutrient solution, containers for the mother liquor, metering pumps connected to it with hoses, Control block.

 The work of these blocks of the mortar node is consistent with the growth of plants. During the most intensive growth of plants, these nodes also work most intensively and, therefore, generate heat most intensively. Since this heat is most necessary with intensive plant growth, and due to the proximity of the location of the mortar unit with respect to plants, this heat will not be lost irrevocably, but will provide accelerated plant growth at the right moments and, therefore, increase yield. In addition, the above location of the mortar assembly saves the space occupied by the hydroponic installation.

 The holders can be made integral and telescopic with the ability to move each of the elements relative to other elements in the direction of the axis of the holder.

 This embodiment of the holders allows you to adjust the distance between plants during their growth, to achieve optimal illumination and, consequently, to increase productivity and product quality.

 The implementation of the frame in the form of a triangular prism with a base in the form of a rectangular triangle allows you to make the best use of the greenhouse as a window and to frame the window at night time during the polar day.

 Rollers attached to the base of the frame make it easy to move the latter.

 The location inside the frame of the trays for growing oyster mushrooms allows you to increase the yield of some crops: it has been established that in the presence of oyster mushrooms the tomato yield increases.

 Stripes of flexible transparent film fixed in the plane of the crossbars on which the trays for growing plants are installed allow you to set the microclimate inside the frame necessary for growing mushrooms. In the planes of the location of other crossbars, a flexible opaque film, for example, photo wallpaper, can be strengthened. This allows you to use the frame to close the window at "night" time in the conditions of the polar day and darken the room, while the plants continue to be illuminated.

 The hydroponic installation may contain light sources mounted on the frame with the possibility of installation in a position in which each of the sources is equidistant from the ends of each of the crossbars on which the trays with plants are mounted, and the distance from each of the sources to the plane of location of these crossbars is 2/3 of the distance from the source to the straight lines passing through the ends of the crossbars.

 This allows you to achieve optimal illumination of plants in conditions of insufficient natural light or in its absence, for example, in the conditions of polar night. The above “installation possibility” can be implemented by any of the known methods, for example, by fixing a light source on an arm rigidly or pivotally connected to the frame. The bracket can be made telescopic or composite with a swivel joint of its parts.

 The proposed technical solution allows to expand the field of use of the greenhouse in the conditions of round-the-clock natural lighting, to use a hydroponic installation as a window. Thus, the proposed technical solution meets the criteria of the invention "positive effect".

 The proposed technical solution differs from the known one in that the crossbars are made compound and telescopic with the possibility of moving each of the elements along the crossbar axis, strips of reflective material are pivotally attached to the outer surfaces of the trays, each of the trays is mounted on a pair of holders, and the holders are mounted on adjacent triangular crossbars frames with the possibility of rotation in planes parallel to the planes of triangular frames around axes perpendicular to these planes, fixed on each pair of holders At least two trays are provided, the fixing places of which are located on opposite sides from the axes of the possible rotation of the holders, the installation contains a base connected with the strip frame in the form of a rectangular prism, where the tank for the nutrient solution and the pump for its supply are located, and between the crossbars of the triangular frames tank for preliminary preparation of nutrient solution, containers for mother liquor, metering pumps and control unit connected with them. Thus, the proposed technical solution meets the criteria of the invention of "novelty."

 The patent and scientific literature do not describe the use of a mortar assembly for a hydroponic plant as a heater during intensive plant growth. Thus, the proposed technical solution meets the criteria of the invention "significant differences".

 The invention is illustrated in FIG. 1-6.

 Hydroponic installation (Fig. 1) contains a frame of pairwise connected crossbars 1, forming a triangular frame. The brackets 2 are fixedly mounted on the crossbars 1, the holders 3 are pivotally mounted on these brackets for rotation in planes parallel to the planes of the triangular frames. Trays 4 for growing plants are suspended on the holders. On the outer surfaces of the trays 4 with the help of brackets 5, strips 6 of reflective material are pivotally fixed.

 The installation contains artificial light sources 7, mounted on a retractable holder using the bracket 9.

 The installation also contains nodes 10 fasteners to the window frame. In the frame there are trays 11 for growing oyster mushrooms.

 In the plane of the arrangement of the crossbars on which the trays for growing plants are installed, strips 12 of a flexible translucent film are fixed, and in the plane of the arrangement of the other crossbars, a flexible film 13, for example, photo wallpaper, is fixed. The installation comprises a base 14 connected with the strip frame, in the form of a rectangular prism, a tank 15 for the nutrient solution, a pump 16 for supplying it, as well as a container 17 for growing champignons. In the space 18 between the crossbars of the triangular frames, there is a tank 19 for preliminary preparation of the nutrient solution, containers for the mother liquor 20, metering pumps 22 connected to them with hoses 21 and a control unit (not shown). Position 23 shows a natural light source, 24 - the course of the rays of light from it. The installation contains flexible radial feed pipes 25, radial drain pipes 26. Rollers 27 are attached to the frame base with the possibility of free rotation around its axis.

 In FIG. 1 also shows in detail the power system of the hydroponic installation, the supply pipe 28, connected to the feed tank 15 by means of a pump 16, which can be driven by a drive 29.

 The tank 19 for preliminary preparation of the nutrient solution with the help of hoses 30 and metering pumps 22 (each for its own type of fertilizer) is connected to containers 20 intended for mother liquor of fertilizers. Dosing pumps are connected to electric drives 31, which are electrically connected with a mineral fertilizer concentration regulator 32, a concentrate meter 33 and a nutrient solution temperature sensor 34, humidity sensors 35, air temperature 36, solar radiation level or artificial radiation sources 37, carbon dioxide concentration 38, phase adjuster plants 39, placed on the control panel of the operator.

 The pump 22 can be driven by an associated actuator 40, the reservoir 19 is connected via a pump 22 and a hose 41 to the reservoir 15.

 In FIG. 2 shows in detail an embodiment of the holder composite and telescopic with the ability to move each of the elements relative to other elements in the direction of the axis of the holder. The holder is mounted on the bracket 2 using a hinge 42. The movable elements of the holder 43 are interconnected by rods 44. The trays are suspended on pendants 45 mounted on hinges 46.

 In FIG. 3 shows in detail strips of reflective material 6, mounted on trays with brackets 5 and hinges 47.

 In FIG. 4 shows an embodiment of the crossbars 1 of the hydroponic installation compound and telescopic. The crossbars are connected by means of hinges 48. The movable elements of the crossbars 49 are interconnected by means of rods 50. The crossbars are interconnected, except for the hinge 48, also by means of an arm 51 and hinges 52. Similar elements are also present in the hollow base of the hydroponic installation.

 In FIG. 5 shows a general view of a hydroponic installation mounted on window 53.

 In FIG. 6 shows in detail a three-dimensional image of a part of a hydroponic installation. Positions 54 and 55 indicate the doors that open access to the elements of the power system located respectively in the hollow base and between the crossbars of the triangular frames.

 Hydroponic installation works as follows.

 Seedlings of tomatoes or cucumbers or other crops are planted in plastic vessels placed in trays 4, and spores of oyster mushrooms and champignons, respectively, are planted in trays 11 and 17. Moving the movable elements 49 of the telescopic crossbars 1 “adjust” the size of the frame of the greenhouse to the size of the window 53. Using the rollers 27 they roll the frame to the window 53 and use the nodes 10 to attach the frame to the window frame.

 This arrangement of the frame allows two functions: on the one hand, the light through the window passes through the transparent film 12, which allows you to grow plants located in the installation, on the other hand, the opaque film 13 does not allow light to enter the room, which is especially important in a round-the-clock environment summer lighting in the Far North. Rotating the holders 3 with the help of hinges 42, changing their length, moving the movable elements 43, as well as rotating the strips 6 of reflective material, achieve optimal illumination of each tray. Using the same elements, the illumination is changed after the required time.

 Periodically, after a specified period of time, the electric circuit supplying the electric motor 29 of the pump 16 is closed. The pump 16 from the tank 15 moves the nutrient solution through the pipe 28 to the radial feed pipes 25, from where the solution moves to the entrances of the trays and containers 4, 11, 17. The flowing on trays, the solution is absorbed by the soil in the pots and is kept for a specified period of time, feeding the root system of plants.

 Further, the solution, reaching the outlet openings of the trays 4, 11, 17, enters the radial drain pipes 26, closing the exits of the trays. From the pipes 26, the solution enters the tank 15. Thus, the feeding-draining cycle of the nutrient solution closes. After a certain period of time, the electric circuit supplying the electric motor 29 of the pump 26 is opened. The supply of the nutrient solution is stopped. After a certain period of time, the electric circuit supplying the electric motor 29 of the pump 16 is again closed, and again the nutrient solution is supplied to the trays and containers 4, 11, 17. Thus, the nutrient solution is periodically supplied. In the tank 19 for the preliminary preparation of the nutrient solution using metering pumps 22, driven by electric drives 40, through the hoses 30 of the containers 20, mother fertilizer solutions are supplied as necessary. The operation of this solution supply unit is controlled by sensors 32-38, as well as the plant phase adjuster 39. As necessary, the solution from the tank 19 to the tank 15 through the hose 41 is supplied by a pump 22, driven by an electric drive 40.

 Thus, the proposed installation allows you to expand the field of use of the greenhouse in the conditions of round-the-clock natural lighting.

Claims (7)

 1. HYDROPONIC INSTALLATION, comprising a frame in the form of triangular frames of pairwise connected crossbars with trays for plants mounted on them and a feed system with a tank for the nutrient solution and a pump for its supply, characterized in that it is equipped with holders mounted on the crossbars for rotation around an axis perpendicular to the plane of the triangular frame, connected to the bottom of the triangular frames by a base in the form of a parallelepiped, located between the crossbars by a tank for preliminary preparation of nutrient solution, containers for the mother liquor, metering pumps connecting them with hoses and a control unit, the crossbars are made integral and telescopic, strips of reflective material are articulated on the outer surface of the trays, the nutrient solution tank and the pump for its supply are placed in a parallelepiped, each of the trays is fixed on a pair of holders symmetrically with respect to the axis of their rotation, and at least two trays are fixed on each pair of holders.  2. Installation according to claim 1, characterized in that the holders are made integral and telescopic.  3. Installation according to claims 1 and 2, characterized in that the crossbars without holders are equipped with fasteners.  4. Installation according to claims 1 to 3, characterized in that it is equipped with containers for growing champignons placed in the base.  5. Installation according to claims 1 to 4, characterized in that it is equipped with trays for growing mushrooms “oyster mushroom” located between the crossbars, while strips of a flexible transparent film are fixed on the surface of the crossbars on which the trays for growing plants are mounted, and the rest is a flexible opaque film, for example photo wallpaper.  6. Installation according to claims 1 to 5, characterized in that the rollers are attached to the base with the possibility of rotation around its axis.  7. Installation according to claims 1 to 6, characterized in that it is equipped with light sources fixed on triangular frames, each of which is equidistant from the ends of each of the crossbars with holders, while the distance from the light source to the plane formed by these crossbars is 2 / 3 distance from the light source to the straight lines passing through the ends of the crossbars.

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