PL181160B1 - Horticultural system for giving additional carbon dioxide to plants, especially indoor grown ones - Google Patents

Abstract

A system for feeding plants with carbon dioxide for a fence nothing, especially in confined spaces, including carbon dioxide tank, supply line circuit with valves and distribution pipes carbon dioxide in the greenhouse, control sensors and a controller, characterized that the carbon dioxide emission lines (2) are connected to the manifold (3) and are placed in the inter-rows crops and have part of the entire area length capillary holes, collector with supply line (4) with the pressure sensor (27) therein connected to the solenoid metering valve (5), which the pipe (7a) is connected to the external collector (6) modular, wherein in the conduit (7) connecting the collector (6) with the main solenoid valve (8) is positioned the pressure sensor (28) of the main valve, which is connected to a line (9) with a network carbon dioxide reducer (10), and this one behind by a line (11) with a carbon dioxide reservoir (12), and the greenhouse (1) also houses the atmosphere intake pipes (25) of the greenhouse to be analyzed, connected to the splitter (26), and behind it with the help of the dust filter (24), the cable (23) with the controller (15), sensors (13) for opening and closing the vents, a light intensity sensor (19) and a temperature sensor (21) that are connected with electric wires (14, 20, 22) to the controller (15), with the electric cable (16) connected via modem (17) to the central computer (18).

Description

The object of the present invention is a system for feeding plants with carbon dioxide for horticulture, in particular indoors.

The system is used in the cultivation of vegetables, flowers, ornamental plants and fruit, especially under covers, and also in large enclosed spaces such as greenhouses.

There are known devices for fertilizing and watering plants, for example from Polish patent specification No. 151 738, characterized in that plants are fed with a fertilizer concentrate solution with which they are watered, using a system that is hydraulically associated with the controller through a sensor hydraulically contacted with a pipe distributing the solution fertilizing. The sensor determining the degree of concentration of the fertilizer solution is electrically connected to the controller via a transducer.

There is also a system for foliar feeding of plants with gaseous carbon dioxide in greenhouses, which, after analyzing the air in terms of carbon dioxide content and finding its decrease, replenishes the saturation state by opening a control valve connecting the greenhouse with the carbon dioxide source.

The disadvantage of the described solutions is the feeding of the plants intrinsically with a solution or foliar gas without the possibility of homogeneous distribution of carbon dioxide over the entire area, because carbon dioxide flows from the full section of the pipe. Such a system does not ensure sufficient control of the fertilization process in the event of damage to the CO ₂ distribution network,

181 160 as well as it does not control the atmosphere in the greenhouse in terms of CO ₂ content in the control room where the staff works.

The disadvantages and disadvantages of the known methods and systems for feeding plants are eliminated by using the solution according to the invention. It should be borne in mind that in a limited space, for example a greenhouse, the plant uses the surplus CO ₂ accumulated during the night already in the first hour after sunrise. On the other hand, in the morning hours the CO2 concentration is often depressed, amounting to 100-200 ppm - for crops it is the starvation concentration. This state not only influences directly the reduction of the current rate of photosynthesis, but also leads to temporary, and in extreme cases permanent inactivation of the photosynthesis process at an increased radiation intensity of over 150 Wm.

The specificity of the greenhouse environment, thanks to its high air-tightness, makes it possible to feed greenhouse crops with carbon dioxide to the optimal level, ranging from 800-1000 ppm for most crops. This allows for a 2-2.5 times acceleration of the photosynthesis process and an increase in the usable yield by 20 - 30%.

The aim of the invention is to eliminate the described disadvantages and disadvantages, and the technical task is to develop a new system that would ensure constant control of the atmosphere in greenhouses, regulate and automatically maintain the set level of carbon dioxide as a function of the measured parameters.

This problem was solved by the development of a system characterized by the fact that the carbon dioxide emission lines in the greenhouse are connected to the distribution collector and placed in the inter-rows of the crop. The emission lines have capillary holes over a part of their entire length. The collector is connected with a supply line with a pressure sensor placed in it with an electromagnetic dosing valve, which is connected with an external modular collector with a short line. The external modular manifold is connected by means of a conduit in which a pressure sensor is placed with the main solenoid valve, which is connected by a conduit to a network carbon dioxide reducer and then by a connecting conduit to the carbon dioxide tank. In greenhouses or in foil tunnels, there are also pipes for air intake from the greenhouse atmosphere for analysis, connected with a splitter, and with its help through a dust filter, with a cable with a controller. The greenhouse also has sensors for controlling the position of ventilators, a light intensity sensor and a temperature sensor. The sensors are connected by electric wires to the controller, which is electrically connected via a modem to the central computer. Air intake pipes from the greenhouse atmosphere for analysis are arranged in a cross pattern so that samples are taken from any point in the greenhouse space.

The advantage of the system according to the invention - for feeding plants with carbon dioxide for gardening, especially in closed rooms, is that it ensures automatic and even distribution of CO2 throughout the area intended for plant production, thanks to the continuous control of CO2 concentration, optimizing its concentration according to agrotechnical recommendations, while ensuring safety during operation.

Another advantage of the system is that the controller is equipped with a system of pumps and control blocks for individual circuits of the system and is connected via a modem to the central computer, which allows for smooth control of all parameters aimed at maintaining the proper atmosphere in the greenhouse.

A system for feeding plants with carbon dioxide for horticulture, especially in closed rooms, is shown in an exemplary embodiment in a schematic drawing, which, for example, shows one greenhouse equipped with the system according to the invention.

Greenhouse 1 or "n" greenhouse 1 arranged arbitrarily, preferably in parallel, is equipped with carbon dioxide emission lines 2 having, over a part of the entire surface of the surface, capillary openings arranged in the cultivation inter-rows at a selected height from the ground. These lines are connected to the distribution collector 3 located inside the greenhouse 1. The collector 3 is connected on the other side by a supply line 4 in which

181 160 pressure sensor 27 of the electromagnetic metering valve 5, which is connected through a conduit 7a with the external modular manifold 6. The use of a modular collector allows the connection of any number of greenhouses, preferably seven, in the system, thanks to the possibility of extending the connection collector. The pressure sensor 27 is connected by an electric wire 29 to the corresponding block of the controller 15. The external modular manifold 6 is connected by a line 7 to the main solenoid valve 8, and in the line 7 there is a pressure sensor 28, connected to the controller 15 by an electric line 30. Main valve 8 it is connected by a line 9 with a network reducer 10, which is connected by a line 11 with a carbon dioxide tank.

In the greenhouse 1 there are also pipes 25 for taking air from the atmosphere of the greenhouse for analyzing the amount of carbon dioxide therein. The conduits 25 are arranged in a cross pattern and connected by a multi-way manifold 26 with a dust filter 24 and a conduit 23 with a controller 15. The cross-arrangement of the air intake conduits 25 allows for a very precise determination of the concentration of carbon dioxide in the greenhouse atmosphere. Since the process of absorption of CO ₂ gas by the plants in the greenhouse is also dependent on the intensity of light, air movement and temperature, the system has a sensor 13 for controlling the position of the ventilators, connected by a wire 14 to the controller 15. The light intensity sensor 19 is connected by a pipe 20 to the appropriate block controller 15. Also, a temperature sensor 21 is connected by an electric wire 22 to the controller 15.

The operation of the plant feeding system with carbon dioxide for horticulture, especially in closed rooms, according to the invention is as follows:

After connecting the controller 15 to the electric network, the solenoid valve 8 will operate, letting CO ₂ gas into the manifold 6, at the same time the pressure sensor 28 will signal an increase in gas pressure downstream of the main solenoid valve 8, which means that the operation of the valve 8 is correct. Then, the controller 15, after analyzing the state of CO ₂ concentration in the atmosphere of a given greenhouse, through a regulator not shown in the drawing, causes the dosing solenoid valve 5 to open and the CO2 gas to flow through the collector 3 to the individual emission lines. At this time, the pressure sensor 27 of the dosing valve 5 will signal an increase in gas pressure downstream of the dosing solenoid valve 5, which means that the operation of the valve 5 is correct. The measurement of the CO2 concentration takes place via the points 25 for air sampling from the atmosphere of the greenhouse 1 for analysis. If the CO2 gas concentration level is lower than the preset level, a signal will be sent to the controller 15, which will allow CO2 to flow to a given greenhouse facility, provided that the set parameters of light intensity, temperature and the parameters of the ventilator opening state are met.

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Publishing Department of the UP RP. Mintage 60 copies. Price PLN 2.00.

Claims (4)

Patent claims A system for feeding plants with carbon dioxide for horticulture, especially in closed spaces, comprising a carbon dioxide tank, a circuit of supply lines with valves, and lines for distributing carbon dioxide in the greenhouse, control sensors and a controller, characterized in that the emission lines (2) carbon dioxide are connected to the distribution manifold (3) and are placed in the inter-rows of the cultivation and have capillary openings on a part of the surface of the entire length, the collector with the supply pipe (4) with the pressure sensor (27) placed in it is connected to the electromagnetic dosing valve (5) which is connected with a conduit (7a) to the external modular manifold (6), and in the conduit (7) connecting the manifold (6) with the main solenoid valve (8) there is a pressure sensor (28) of the main valve, which is connected by a conduit ( 9) with a network carbon dioxide reducer (10), and this one via a pipe (11) with a tank (12) d carbon dioxide, and in the greenhouse (1) there are also pipes (25) for sampling the greenhouse atmosphere for analysis, connected to the splitter (26), and through it through a dust filter (24), a cable (23) with a controller (15), sensors (13) the opening and closing of the vents, the light intensity sensor (19) and the temperature sensor (21), which are connected by electric wires (14, 20, 22) to the controller (15), with an electric wire (16) connected via modem (17) ) to the central computer (18). 2. The system according to claim The device of claim 1, characterized in that the electromagnetic pressure sensor (27) of the metering valve (5) is connected via an electrical line (29) to the controller (15). The system according to p. The main valve (8) as claimed in claim 1, characterized in that the electromagnetic pressure sensor (28) of the main valve (8) is connected by an electrical line (30) to the controller (15). 4. The system according to p. The method of claim 1, wherein the greenhouse atmosphere sampling pipes (25) for analysis are cross-folded. * * *