RU2048070C1 - Plant growing device - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device for full-cycle hydroponic plant growing or planting material growing outdoors or in a hothouse has a sloping polymer-lined basement, containers for substrate formed by vertical and horizontal polymer band partitions positioned on the basement along its slope, and covered channels for nutritive solution located between the containers. The channels are U-shaped containers arranged alternately bottom-up and bottom-down and running parallel with each other. A piece of wire keeps the channels within the boundaries of the vertical and horizontal partitions, and they are open to each other through holes in the lower part of the vertical partitions. The lower support for wire has openings in its bottom part. The openings are intended for discharge of nutritive solution into a drain receptacle. EFFECT: lower metal consumption; lower labor consumption. 2 cl, 2 dwg

Description

 The invention relates to agriculture, namely, equipment for hydroponics, and can be used when growing plants for a completed cycle or for a production cycle of planting material in greenhouses and open areas.

 A device for growing plants in the form of triangular hydrochannels of black plastic film, the transverse edges of which are bent up and attached with wooden clamps to a wire stretched between the pegs. The use of this device ensures the continuous movement of a thin layer of nutrient solution along the bottom of the hydrochannels placed on an inclined base, supplying the plant root systems in them with water and nutrients.

 The disadvantages of the known device are the possible damage to the stems of the plants in contact with the wire and stresses during the sudden termination of the flow of the nutrient solution, especially during intensive transpiration. In addition, the development of root rot, i.e. the manifestation of one of the serious problems of a thin layer flow culture.

 A device for growing plants is also known, including an inclined base coated with a polymer substrate, containers for the substrate located on it and channels for the nutrient solution closed on top between the containers, which are formed by parallel vertical partitions placed along the slope of the base on the transverse slats and held laterally adjacent to them rows of vertical rods on the slats. In this device, the nutrient solution moving through the channels penetrates through the gaps due to the thickness of the transverse bars into the container with the substrate and the root systems of the plants placed in them, providing them with moisture and mineral nutrition elements. At the same time, the use of a relatively small volume of the substrate contributes to a more firm fixation of plants and the uniform distribution of root systems, and allows the supply of a nutrient solution not continuously, but at significant intervals, which reduces energy costs.

 However, the prototype has disadvantages, which are the large consumption of metal (steel strips with vertical rods) and other materials (asbofaner), as well as the significant labor costs associated with the creation and operation of the device.

 The aim of the invention is to reduce metal consumption and labor costs.

 This is achieved by the fact that the device for growing plants, including an inclined base coated with a polymer substrate with spores located across it with fasteners, in which vertical partitions are placed along the base, forming containers for the substrate and channels for the nutrient solution between the containers, a drain collector, the channels are closed by covers, according to the invention, the fasteners are made in the form of wires stretched at the level of the upper and lower boundaries of the vertical partitions, and vertically e septum disposed in a zigzag manner on the polymeric tape wires, some of which form a ridge bottom tanks, and other channels of the lid, while in a bearing situated at the bottom of the base, the openings are made for discharging the nutrient solution.

 In FIG. 1 shows a device for growing plants, General view; figure 2 support the lower part of the base with openings for draining the nutrient solution into the collector.

 The device contains a aligned and sealed inclined base 1 and placed on it a polymer substrate in the form of a film 2, the length and width of which are equal to the size of the beds. Across the base, supports 3 are installed at the ends of the beds, in the upper part of which, with the help of bent bolts 4 with washers and nuts, a series of wires 5 are fixed. Intermediate T-shaped supports 6 with wire sockets 7 are placed every 2 m under the tensioned wire. A row of wires holds the black plastic film 8 in a U-shape along the boundaries of the vertical and horizontal partitions of the channels 9 closed to the top for the nutrient solution 10.

 In the lower part of the supports 3, a series of wires (threads) are fixed, pressing the film 8 to the substrate 2 along the boundaries of the vertical and horizontal partitions of the containers 11 for the substrate 12. The channels 9 are connected to the containers 11 with openings 13 in the lower part of the vertical partitions. Four channels for the nutrient solution, alternating with five containers for the substrate, are formed in the form of parallelepipeds at the border with a width of 1.3 m. The longitudinal edges of the film 8 are loop-shaped mounted on the extreme wires 5. The lower edge of the polymer substrate through the openings 14 in the lower support 3 is lowered into the slot of the drain collector 15. The containers 11 are filled with an organomineral substrate 12 in which the plant root systems 16 are located.

 The device operates as follows. The nutrient solution 10 is pumped from the tank through the pipeline into the channels 9, through which it moves by gravity along the slope of the base 1 through the polymer substrate 2 and through the holes 13 penetrates the tanks 11 with the substrate 12, moistening it and supplying the plants with water and batteries. Leaking from the channels 9, the nutrient solution 10 along the polymer substrate 2 through the openings 14 in the lower supports 3 is discharged into the slot of the collector 15 and then through the pipeline into the tank.

 The proposed device for growing plants is easier to manufacture, operate and disassemble than the prototype, since the vertical and horizontal partitions of the containers for the substrate and the channels closed above for the nutrient solution between the containers are made of a single sheet of polymer tape, held in a U-shape stretched between supports wire. The use of the proposed device can more than halve the metal and material consumption and reduce the labor costs associated with its creation and operation. The invention is industrially applicable and provides a reduction in the cost of grown plant products by reducing material and labor costs.

Claims (1)

 A device for growing plants, containing an inclined base coated with a polymer substrate with supports located transversely thereon, in which vertical partitions are placed along the base, forming a container for the substrate and channels for the nutrient solution between them, a drain collector, while the channels are closed by covers, characterized in that the fasteners are made in the form of wires stretched at the level of the upper and lower boundaries of the vertical partitions, and the vertical partitions are arranged a zigzag-shaped polymer tape on the wires, some zigzags of which form the bottoms of the containers, and the other covers of the channels, while in the support located in the lower part of the base there is an opening for draining the nutrient solution.

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