RU2040154C1 - Device for hydroponic growing of plants - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device comprises vegetation trays 1 communicating via an intermediate container 2 with a source of nutrient solution (not shown). Bottoms 3 of vegetation trays 1 are arranged higher than the bottom 4 of intermediate container 2. Bottoms 3 of vegetation trays 1 have filtrate-collecting pits 5 communicating with intermediate container 2 which accommodates a vertically-movable pipe union 6 with inlet elbow 7 of siphon 8 whose outlet bend 9 is brought out of container 2 and has a pointed chamfered end 10. Upper part of pipe union 6 communicates with the source of nutrient solution. Outlet bend 9 of siphon 8 has a number of holes 13 with plugs 14. EFFECT: improved operational and functional characteristics. 5 cl, 2 dwg

Description

 The invention relates to agriculture, namely, equipment for hydroponic cultivation of plants, mainly cereals, using a non-moisture-resistant substrate or without it.

 A device for irrigation of plants is known, comprising vegetation vessels mounted on a frame in communication with an irrigation pipe equipped with an electromagnetic irrigation control valve, a weighing device made in the form of a balance mounted on a frame with a sensor equipped with a drive from reversing electric motors with a latch and gearboxes, while the frame contains a circuit breaker, a reverse switch and an electric drive connected to a time relay with gearboxes, on whose shafts the rollers are mounted, By which means the frame is suspended from the frame.

 The disadvantage of this device is the design complexity, unreliability in operation, the need for energy supply to ensure automation of metered watering of several vegetation vessels.

 As a prototype, the applicant selected a device for hydroponic cultivation of plants, containing vegetation cells with an inclined bottom and planting devices in communication with a pressure pipe, an overflow channel made in the form of a siphon, the receiving bend of which has an inlet at the bottom of the cell, the outlet bend has an outlet, located below the entrance, and the upper point of the siphon is at the level of the landing device. In addition, the exhaust wheel of each siphon is equipped with an adjustable valve and a jet aerator.

 The specified device has a number of significant disadvantages.

 The rigid installation of the siphon does not provide regulation of the volume of supply of the nutrient solution, which reduces the technological capabilities of the device, because it does not allow varying the types of crops grown with different levels of flooding.

 The known design does not provide complete emptying of the vegetation cell during periodic flooding when growing large plants with a highly developed root system, which occupies the entire volume of the vegetation cell. In this case, the filtrate is retained by the root system, like a sponge, and remains in the cell after the siphon is triggered. This leads to moldiness of the root system and subsequent decay, which increases the risk of diseases.

 The disadvantage of this device is the unreliable operation of the siphon, due to the fact that in the output section of the siphon, the forces of the surface tension of the droplets can interfere with the effect of the hydraulic lift.

 The adjustment of the drain time, carried out in this device using the control valve on the outlet bend of the siphon, is inaccurate and time-consuming.

 In addition, clogging of the valve by plant residues developing at the bottom of the cell is not excluded, which prevents the siphon from tripping and reduces the reliability of the entire device.

 The technical problem solved by the invention is the creation of a device for hydroponic cultivation of plants with advanced technological capabilities by regulating the volume of supply of a nutrient solution, which reduces the risk of diseases due to the complete discharge of the filtrate from the vegetation ditches.

 In addition, the object of the invention is the creation of a reliable device that provides stable operation of the siphon, as well as more accurate and less time-consuming adjustment of the drain time.

 This task is achieved by the fact that in the known device containing the vegetation cells, communicated with the source of the nutrient solution, the overflow channel made in the form of a siphon, according to the invention, the vegetation cells are communicated with the source of the nutrient solution through an intermediate container, in which the input is installed with the possibility of vertical movement the knee of the siphon, while the bottoms of the vegetation ditches are located above the bottom of the intermediate tank.

 In addition, the input wheel of the siphon is placed in a nozzle installed in the intermediate tank with the possibility of vertical movement and in communication with the source of the nutrient solution. The outlet elbow of the siphon is made with a pointed beveled end. A number of holes with plugs are made on the outlet bend of the siphon.

 The bottoms of the vegetation cuvettes are made with pits for collecting the filtrate communicated with the intermediate tank.

 The installation of the outlet knee of the siphon with the possibility of vertical movement allows you to vary the height of the siphon pass and, therefore, change the volume of supply of the nutrient solution depending on the working conditions, in particular, depending on the type of crops grown and their sowing standards. This extends the technological capabilities of the device. Moreover, in the optimal embodiment, the inlet elbow of the siphon is placed in a nozzle installed in an intermediate tank with the possibility of vertical movement and communicated with the source of the nutrient solution.

 Providing the device with an intermediate tank, with which vegetative cuvettes are connected, the bottoms of which are located above the bottom of the intermediate tank, provides complete drainage of the filtrate from the cuvettes when emptying. This contributes to the implementation of the bottoms of the vegetation ditches with pits communicated with the intermediate tank. As a result, the risk of plant diseases from moldiness and decay of the root system from stagnation of the filtrate is reduced.

 The execution of the output knee of the siphon with a pointed beveled end increases the reliability of the operation of the siphon, because excludes locking the siphon channel. The chamfered pointed end of the siphon tube ensures reliable separation of the first drop of the nutrient solution under the action of gravity, which causes subsequent drops to flow and ensures stable operation of the siphon.

 The presence of a number of holes with plugs on the outlet bend of the siphon makes it possible to more accurately and less laboriously control the speed and time of discharge of the nutrient solution, blocking the holes with plugs. At the same time, aeration of the nutrient solution through the holes is carried out.

 The invention is illustrated in figures 1 and 2, which shows a General view of the proposed device.

 A device for hydroponic growing plants contains vegetation cuvettes 1, communicated through an intermediate container 2 with a source of nutrient solution, for example, a pressure pipe (not shown). The bottoms 3 of the vegetation cells 1 are installed above the bottoms 4 of the intermediate tank 2. In the bottoms 3 of the vegetation cells 1, pits 5 for collecting the filtrate are made, connected to the intermediate tank 2, in which the nozzle 6 with the inlet elbow 7 of the siphon 8 placed therein the output bend 9 of which is removed from the tank 2 and is made with a pointed beveled end 10. The pipe 6 in the upper part is in communication with the source of the nutrient solution. The lower end 11 of the pipe 6 is located at the bottom 4 of the intermediate tank 2. In the lower part of the pipe 6 there are four holes 12 for communication with the cavity of the intermediate tank 2. On the output elbow 9 of the siphon 8 there are a number of holes 13 with caps 14.

 The device operates as follows.

 Planting material 1, for example, cereals, is placed in the vegetation ditches 1. From the pressure pipe (not shown) in the pipe 6 and from it into the intermediate tank 2 is fed a nutrient solution. For a certain period of time, the nutrient solution fills the intermediate tank 2 and simultaneously flows into the vegetation cells 1, the bottoms 3 of which are located above the bottom 4 of the intermediate vessel 2. When the nutrient solution in the vegetation cells 1 reaches a critical level, determined by the installation of pipe 6 and pass 15 of siphon 8, the effect of the hydraulic elevator is triggered, and the nutrient solution begins to flow out through the siphon 8. This ensures the stable operation of the siphon 8 due to the execution of its output bend 9 with a pointed beveled end 10, contributing to the separation of drops. At the same time, through the holes 13, aeration of the solution is carried out, which can be used for flooding in a similar device. At the same time, the liquid will begin to flow from the vegetation cells 1 to the intermediate tank 2 until they are completely emptied, which is also facilitated by pits 5 made on the bottoms of 3 vegetation cells 1. As a result, the filtrate is completely drained from the vegetation cells 1, eliminating moldiness of the root system, and complete emptying of the intermediate tank 2.

 To regulate the time for the nutrient solution to be drained through the siphon 8, holes 13 with plugs 14 are made on the outlet elbow 9 of the siphon 8. The smallest time for the nutrient solution to drain (maximum flow rate) corresponds to working with open holes 13 through which aeration of the liquid flow occurs. The longest drain time corresponds to work with plugged holes 13.

 It should be noted that the loading time and the discharge time are justified by scientific standards for each type of plant. The feed rate of the nutrient solution must be such as to prevent the flushing of dry matter from the surface of the seed.

 Thus, the inventive device for hydroponic cultivation of plants provides the expansion of technological capabilities by regulating the level of filling of the vegetation cell, reduces the risk of diseases due to the complete drainage of the filtrate from the vegetation cells. The device is simple in design and more reliable in operation, because provides stable operation of the siphon. In addition, the device provides a more accurate and less time-consuming adjustment of the time of discharge of the nutrient solution by plugging the holes on the outlet bend of the siphon.

Claims (5)

 1. DEVICE FOR HYDROPONIC GROWING OF PLANTS, containing vegetation cuvettes communicated with a source of nutrient solution, an overflow channel made in the form of a siphon, characterized in that the vegetation cuvettes communicated with a source of nutrient solution through an intermediate tank in which the input elbow is installed with the possibility of vertical movement siphon, while the bottoms of the vegetation cells are located above the bottom of the intermediate tank.  2. The device according to claim 1, characterized in that the inlet elbow of the siphon is placed on a pipe installed in an intermediate tank with the possibility of vertical movement and communicated with the source of nutrient solution.  3. The device according to claim 1, characterized in that the output elbow of the siphon is made with a pointed beveled end.  4. The device according to claim 1, characterized in that a number of holes with plugs are made on the outlet bend of the siphon.  5. The device according to claim 1, characterized in that the bottoms of the vegetation cells are made with pits for collecting the filtrate communicated with the intermediate tank.

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