RU178258U1 - Mortar for growing plants in greenhouses - Google Patents

Abstract

The utility model relates to agriculture, in particular the production of vegetables, flower, berry crops in a protected ground and allows to simplify the design, increase the efficiency of the mortar unit, improve the quality of the resulting nutrient solutions. The objective of the utility model is to simplify the design and increase the efficiency of the mortar assembly, improve the quality of the resulting nutrient solutions. New is that the mortar assembly for growing plants in sheltered soil, containing a feed pump, a main pipeline, a filter, a flow meter, pipelines, solenoid valves, an injector, a pressure gauge, tanks for preparing mother liquors, a drainage network, has a sampler, the outlet of which is through the return the valve communicates with the inlet to the mixing manifold, which is connected through non-return valves and peristaltic pumps with tanks for the preparation of mother liquors, and the outlet of the sampler through the fitting It is connected by means of electromagnetic valves with a drainage network and sections of the irrigation system.

Description

The utility model relates to agriculture, in particular the production of vegetables, flower, berry crops in a protected ground and allows to simplify the design, increase the efficiency of the mortar unit, improve the quality of the resulting nutrient solutions.

A known system of watering and fertilizing plants (RF patent No. 2191500, class A01G 31/02, 2000 - prototype), consisting of a feed pump, a main pipeline with electromagnetic valves located on it, a filter and a flow meter, an extensive network of sections of irrigation pipes with electromagnetic valves pipelines with solenoid valves for supplying water through injectors in containers for preparing mother liquors and piping for supplying solutions to the mixing tank, a network pump, a pipeline with an electromagnetic valve connecting its outlet is a network pump with a filter inlet, a pipeline with a solenoid valve for the drainage network, an inlet pipe with a solenoid valve and a manometer, an electrolyzer, an outlet pipe with a solenoid valve from the cathode cell, an outlet pipe with a solenoid valve from the anode cell, a pipeline with solenoid valves and a storage tank.

The disadvantage of this device is the reduced efficiency due to the inability to use several highly concentrated mother liquors together, as well as the inability to accurately adjust the nutrient solution for the batteries depending on the electrical conductivity and acid-base balance of the nutrient solution.

It is known that watering with a balanced nutrient solution of plants in greenhouses improves their growth and development, increases the yield of vegetable crops. Moreover, at different stages of plant development, the requirements for the composition of the nutrient are different.

The objective of the utility model is to simplify the design and increase the efficiency of the mortar assembly, improve the quality of the resulting nutrient solutions.

The technical result, in contrast to the prototype, is achieved by the fact that the mortar assembly for growing plants in sheltered soil containing a feed pump, a main pipeline, a filter, a flow meter, pipelines, solenoid valves, an injector, a manometer, tanks for preparing mother solutions, a drainage network, has a sampler, the output of which through a non-return valve is in communication with the entrance to the mixing manifold, which is connected through non-return valves and peristaltic pumps with tanks for preparing the mother liquor in and out through the fitting sampler communicates by means of electromagnetic valves and water drainage network system sections:

In FIG. schematically shows a mortar assembly for growing plants in sheltered soil.

The proposed mortar assembly for growing a plant in sheltered soil consists of a feed pump 1, a coarse filter 2, a main pipeline 3 with distribution fittings 4, 6 and 8 located on it, a control valve 5, a fine filter 7, a flow meter 9, an irrigation system section 11 with solenoid valves 10 and a drainage network 13 with a solenoid valve 12, a mixing circuit 22 with a pressure gauge 23, a mixing manifold 17 connected to the injector 24 through a tap 21, containers for mother liquors 18, block and peristaltic pumps 19 with non-return valves 20, a sampler 15 with sensors of electrical conductivity 25 and acid-base balance of the nutrient solution 26, connected at one end to the mixing manifold 17 through the non-return valve 16, and the other end to the fitting 8 through the pipe 14.

The solution unit for growing plants in sheltered soil operates in one of two modes.

1. Watering plants with tap water. In this mode, water from the water supply network through the feed pump 1 is fed through a coarse filter 2, where it is cleaned from mechanical impurities. Then, passing through the main pipeline 3 with the distribution fitting 4, the water through the control valve 5 in the open state, through the fitting 6, enters the fine filter 7 and then to the section of the irrigation system 11. The water flow is monitored by the flow meter 9 and is regulated by solenoid valves 10.

2. Watering with solutions of fertilizers and acid. In this mode, water from the water supply network through the feed pump 1 is fed through a coarse filter 2, where it is cleaned from mechanical impurities. Then, passing through the main pipeline 3 with distribution fitting 4, water is supplied through the control valve 5 with the pressure gauge 23 through the injector 24 to the fine filter 7 through the fitting 6 through the control valve 5 in the closed state 6. Then, passing through the fitting 8 and the flowmeter 9, one part of the water enters the drainage system network 13 with an electromagnetic valve 12, and the other part of the water through the fitting 8 through the pipe 14 through the sampler 15 with the sensors of electrical conductivity 25 and acid-base balance 26 feed solution ceiling elements (not shown) and the check valve 16 enters the mixing manifold 17 and is returned to the injector 24 through the inlet 21 creates a vacuum in the mixing circuit 22.

At the same time, fertilizer and acid mother liquors 17 enter into the mixing manifold from the tanks for preparing the mother liquors 18 by means of the block of peristaltic pumps 19 and check valves 20. After mixing in the mixing manifold 17, the fertilizers with water flow through the outlet 21 enter the main water supply 3 through the injector 24 and, mixed with clean water in fitting 6, completely dissolve, forming a nutrient solution. When the concentration of the introduced substances in the flow of the nutrient solution reaches the required parameters, the sensors 25, 26 installed in the sampler 15 are activated, the electromagnetic valve 12 closes and the electromagnetic valve 10 opens, allowing the nutrient solution to enter the sections of the irrigation system 11. Thus, due to the created flow nutrient solution in the pipeline 14 by means of the injector 24, in the sampler 15 with sensors of electrical conductivity 25 and acid-base balance 26 nutrient about the solution, the parameters of the nutrient solution entering the section of the irrigation system are continuously analyzed 11. If the concentration of fertilizers in the nutrient solution does not correspond to the technology, then the sensors of electrical conductivity 25 and acid-base balance 26 of the nutrient solution installed in the sampler 15 are triggered, giving pumps 19, thus changing the amount of the mother liquor of fertilizer and acid from the tanks for the preparation of the mother liquor 18. This makes it possible the ability to receive quick feedback for timely adjustment of the concentration of fertilizers and acid using pulses on and off the peristaltic pump unit 19. If fertilizer and acid solutions run out in the tanks for preparing the mother liquors 18, then the electrical conductivity sensors 25 installed in the sampler 15 and acid - Alkaline balance 26 of the nutrient solution is triggered, the electromagnetic valve 10 is closed, limiting the possibility of nutrient solution entering the section irrigation system 11, and the electromagnetic valve 12 opens and poor-quality nutrient solution is drained through the drainage network 13.

The presented technical solution has several advantages over the known design:

the design is simplified through the use of a single pump, which is connected through a main pipeline and electromagnetic valves to a network of irrigation pipes. The pump partially performs the function of mixing the nutrient solution and the function of the irrigation pump. The absence of a mixing tank makes the system economically attractive and minimizes its size. Due to the small size of the mortar unit, it is convenient to use it when growing plants in cultivation facilities of both open and closed type;

increases the efficiency of the device due to the possibility of using several highly concentrated mother liquors together, as well as the possibility of precise adjustment of the nutrient solution for batteries depending on technological requirements;

improves the quality of the resulting nutrient solutions through the use of a sampler with sensors of electrical conductivity and acid-base balance of the nutrient solution, combined by means of a mixing manifold, through check valves and peristaltic pumps with containers for the preparation of mother liquors.

The mortar unit for growing plants in sheltered soil is simple in design, reliable in operation and can be easily implemented in agricultural production in greenhouse technologies.

Claims (1)

A solution unit for growing plants in sheltered soil, containing a feed pump, a main pipeline, a filter, a flow meter, pipelines, electromagnetic valves, an injector, a manometer, tanks for preparing mother liquors, a drainage network, characterized in that it has a sampler, the outlet of which is through the return the valve communicates with the inlet to the mixing manifold, which is connected through check valves and peristaltic pumps with tanks for the preparation of mother liquors, and the outlet of the sampler through the fitting with communicates via solenoid valves with drainage network and sections of the irrigation system.

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