RU2038006C1 - Dissolving apparatus for preparation and delivery of nutrient solution - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus comprises water container, tanks for mother liquors, main and additional mixing containers, pump whose suction end is connected with outlets of said containers, while discharge end, with the inlet of the main mixing container and, through filters, with the inlet of the additional mixing container and the inlet of the pressure container whose outlet communicates with the nutrient solution distributing manifold. The novelty of the dissolving apparatus resides in additional connection of the pressure container outlet to the inlet of the additional mixing container. EFFECT: higher efficiency of dissolving apparatus. 1 dwg

Description

 The invention relates to agriculture, namely to hydroponic equipment.

 The known mortar assembly according to patent application N 4933908 contains a water tank, tanks for mother liquors, a main mixing tank, the input of which is connected to the outlets of the mother liquor tanks, an additional mixing tank and a pressure tank, the output of which is connected to the distribution manifold of the nutrient solution, a pump the input of which is communicated with the outputs of the main and additional mixing tanks, and the output with the input of the main mixing tank and through filters with the input of the additional mixing tank and input m of pressure vessel.

 A significant drawback of the known mortar unit is the reduced operational efficiency due to the lack of the ability to timely adjust the nutrient solution for the batteries depending on the temperature and humidity of the air environment of the greenhouse, solar radiation, the presence of nutrients in the substrate, and the level of plant development.

 The purpose of the invention to increase the efficiency of the mortar site.

 This goal is achieved by the fact that in the solution node containing the tank for water, tanks for mother liquors, the main mixing tank, the inlet of which is connected with the outlets of the tanks for mother liquors, an additional mixing tank and a pressure tank, the output of which is communicated with the distribution manifold of the nutrient solution, a pump, the input of which is connected with the outputs of the main and additional mixing tanks, and the output with the input of the main mixing tank and through filters with the input of the additional mixing tank and the input of the pressure tank, the input of the additional mixing tank is additionally communicated with the output of the pressure tank.

 The essence of the invention lies in the fact that connecting the outlet of the pressure vessel to the inlet of the additional mixing vessel allows the nutrient solution located in the pressure vessel to be drained into the additional mixing vessel, preparing the nutrient solution in the main mixing vessel taking into account the temperature and humidity of the air environment of the greenhouse, solar radiation, the presence of nutrients in the substrate, the level of plant development and feed it into the pressure tank with a pump through a filter and from it through a distribution manifold to teniyam and thereby improve their efficiency, and hence the efficiency of the mortar node.

 The drawing shows a block diagram of a mortar site.

 The solution unit for preparing and supplying the nutrient solution includes a water tank (not shown in the figure), tanks 1 for mother liquors, the main mixing tank 2, the inlet of which is connected to the output of the tanks 1, an additional mixing and pressure tank 3, 4, distribution manifold 5 connected to the output of the pressure tank 4, the pump 6, the input of which is connected with the outputs of the main 2 and additional 3 tanks, and the output with the input of the main mixing tank 2 and through filters 7 and 8, respectively, with the inputs of the additional mixer capacity 3 and pressure tank 4. In addition, to increase the efficiency of the site, the input of the additional mixing tank 3 is additionally communicated with the output of the pressure tank 4.

 The water tank is in communication with tanks 1 for mother liquors, tanks 2, 3 and collector 5. The number of tanks 1 for mother liquors is determined by the number of plant nutrients during their vegetation, the pressure tank 4 is set at a height that provides the required pressure of the nutrient solution in the distribution manifold 5 and the drip irrigation system connected to it.

 All pipelines communicating with each other tanks 1, 2, 3, 4, a pump, a collector 5 and a tank for water are equipped with pressure valves, for example valves. One of the tanks 1 is for acid used to adjust the nutrient solution for acidity.

 The solution node operates as follows.

 Stock solutions are prepared in tanks 1 and as a result of dissolving a large amount of salts or fertilizer in a small amount of water by mixing them with electromechanical mixers. The mother liquors, depending on the period of growing plants, are fed in a predetermined ratio from the tanks 1 to the mixing tank 2, filled with water and mixed with the pump 6. After that, the intermediate solution from the tank 2 is pumped through the filter 6 to the tank 3, where it is brought to the working concentration using the water supplied to the tank 3. The nutrient solution is mixed in a tank 3 using a pump 6.

 The ready-to-use nutrient solution is supplied from the tank 3 by the pump 6 through the filter 8 to the pressure tank 4. At normalized parameters of the air environment of the greenhouse, the nutrient solution from the pressure tank 4 is supplied to the collector 5 for distribution through the drip system under pressure determined by the height of the container 4 watering between plants in a greenhouse. The periodic supply of the nutrient solution to the plants is regulated by a valve installed on the pipeline, which communicates the pressure tank 4 with the collector 5. The supply of the nutrient solution by pump 6 from the tank 3 to the pressure tank 4 is determined by the level of the nutrient solution in the tank 4. Filters 7 and 8 allow the solution to be cleaned in the process pumping it by pump 6 from mechanical impurities.

 The supply of nutrient solution to the plants through the distribution collector 5 is alternated with the supply of clean water to the same collector 5 to flush the substrate from excess salts and maintain its moisture content.

 For the normal development of plants, the nutrient solution is adjusted according to the nutrients depending on the parameters of the air environment of the greenhouse, the level of solar radiation, and the presence of excess salts in the substrate. To do this, the nutrient solution from the pressure tank 4 is poured into an additional mixing tank 3, and in the tank 2 prepare the adjusted nutrient solution by supplying it with the required amount of water, the required quantities of the mother liquor from the tanks 1 and mix them with the pump 6. After that, the adjusted nutrient solution from capacity 2 pump 6 through the filter 8 is fed into the pressure tank 4. From the tank 4 through the collector 5, the corrected nutrient solution enters the plants.

 After distributing the adjusted nutrient solution to the plants, pure water is fed into the collector 5 to remove excess salts from the substrate and maintain its moisture content.

 After that, the flow of the previously prepared nutrient solution in the tank 3 to the plants is resumed. To do this, pump 6 through the filter 8, the nutrient solution from the tank 3 is fed into the tank 4 and from it through the collector 5 to the plants.

 Thus, connecting the outlet of the pressure vessel to the inlet of the additional mixing vessel allows timely supply of plants with the corrected nutrient solution, taking into account the parameters of the air environment of the greenhouse, the level of solar radiation, the presence of salts in the substrate, and thereby ensure their normal development, i.e. increase the efficiency of the mortar unit.

Claims (1)

 SOLUTION UNIT FOR PREPARATION AND FEEDING OF NUTRIENT SOLUTION, containing a water tank, tanks for mother liquors, a mixing tank, the inlet of which is connected to the outlets of the tanks for mother liquors, a pump, filters and a distribution manifold for nutrient solution, characterized in that, in order to increase working efficiency, it is equipped with pressure and additional mixing tanks, while the output of the pressure tank is connected to the distribution manifold and the input of the additional mixing tank, the inlet of the pump dinene with the outputs of the main and additional mixing tanks, and its output with the input of the main mixing tank and through filters with the input of the additional mixing tank and the inlet of the pressure tank.

Images