RU2017132173A - DEVICE FOR INCREASING YIELD BY MEASURING CARBON DIOXIDE AND REGULATING ITS CONCENTRATION AND SYSTEM BASED ON ITS - Google Patents

Claims (10)

1. A device for increasing productivity by introducing carbon dioxide and regulating its concentration, comprising a base station and a network of pipelines for applying gas and fertilizers, the base station comprising a storage tank, a gasifier, an output device and a metering device for mixing gas and fertilizer; moreover, the storage tank contains a storage tank for carbon dioxide, a storage tank for sulfur dioxide, a storage tank for ammonium nitrogen or oxynitride and a storage tank for wetland gas, natural gas, methane or liquefied gas, which are located in parallel; wherein the gasifier comprises a first gasifier, a second gasifier, a third gasifier and a fourth gasifier; moreover, the output device includes a first output device in communication with the first gasifier, a second output device in communication with the second gasifier, a third output device in communication with the third gasifier, and a fourth output device in communication with the fourth gasifier; moreover, the first output device, the second output device, the third output device and the fourth output device have the same design; moreover, the first output device includes a first exhaust pipe and a second exhaust pipe, which are located in parallel; moreover, the first exhaust pipe is sequentially equipped with a manual valve, a first decompression pressure stabilizer and a manual valve; the second exhaust pipe is sequentially provided with a pressure sensor, a manual valve, a safety valve and a pressure sensor; a storage tank may provide one gaseous carbon dioxide or a plurality of mixed gases; the metering device for mixing gas and fertilizer is divided into a gas and water mixing unit and a gas mixing tank in accordance with various applications: for crops planted by dry farming, for crops planted in greenhouses, and for crops planted on irrigated rice fields; liquid carbon dioxide in the carbon dioxide storage tank sequentially passes through the first gasifier and decompression pressure stabilizer through the valves of the liquid outlet pipe, and then flows back to the carbon dioxide storage tank; the valve of the exhaust pipe for the gas phase of the storage tank for carbon dioxide is in communication with the first output device; a second output device, a third output device and a fourth output device are connected in parallel, and then communicated with the multi-component mixing controller; moreover, both the multicomponent mixing controller and the first output device are in communication with the pipeline for moving gas and fertilizer; one end of the pipeline for moving gas and fertilizer is in communication with the gas and water mixing section, the other end of the pipeline for moving gas and fertilizer is in communication with the gas mixing tank; moreover, the separation of the gas and water mixing and the gas mixing tank are respectively communicated with the pipeline for moving gas and water and the pipeline for moving gases; both the pipeline for moving gas and water, and the pipeline for moving gases are equipped with induction devices and electromagnetic bypass valves; wherein the induction device comprises a wind speed inductor, a lighting inductor, and a time controller; moreover, the wind speed inductor and the lighting inductor, respectively, control the opening and closing of the electromagnetic bypass valve by inducing the magnitude of the wind speed and light intensity; a time controller controls the opening and closing of the electromagnetic bypass valve by adjusting the length of time; both the pipeline for moving gas and water, and the pipeline for moving gases are in communication with a network of pipelines for introducing gas and fertilizers. 2. A device for increasing productivity by applying carbon dioxide and regulating its concentration according to claim 1, characterized in that, in accordance with various application media, a metering device for mixing gas and fertilizer used for crops planted by dry farming and for agricultural crops planted in greenhouses has a gas and water mixing section, the upper end of which is provided with a gas bypass hole and a feed hole; moreover, the supply opening contains a pipeline for moving water, equipped with a manual valve for introducing water and an exhaust pipe for gas; moreover, the pipeline for moving water is in communication with an external source of water; a gas bypass hole is in communication with a pipeline for moving gas and fertilizer; the exhaust pipe for gas is respectively equipped with an electrical contact pressure gauge and a solenoid valve controlled by an electrical contact pressure gauge; gas flowing from the gas-water mixing section enters the gas outlet pipe, when the gas pressure in the gas outlet pipe is greater than a certain value of the electrical contact pressure gauge, the electrical contact pressure gauge controls the opening of the solenoid valve for gas discharge; when the gas pressure value in the exhaust pipe for gas is less than a certain value of the contact pressure gauge, the contact pressure gauge controls the closing of the solenoid valve; a gas bypass hole is also provided on the pipeline for moving gas in communication with the bottom of the gas-water mixing section; the lower end of the pipeline for moving gas is provided with a head design for applying with grinding using sand, which contains many rows of application located in parallel; the application rows are evenly equipped with a plurality of application heads with grinding using sand to mix fertilizers in the fluidized bed; the upper end of the pipeline for moving gas is in communication with the storage tank; the lower end of one side of the gas-water mixing compartment is provided with a control valve and an exhaust valve; moreover, the control valve is in communication with the pipeline for moving gas and water through the pipeline, and a venturi type fertilizer injector and a pump that controls communication through the light intensity and the wind speed are located between the control valve and the pipeline for moving gas and water; a Venturi-type fertilizer injector is in communication with a pipeline for moving gas and water through a connecting pipe; the control valve is in communication with the exhaust valve through a pipeline; and an exhaust valve connected to the injection gun via a hose; and the injection gun may introduce into a packaging container used repeatedly by an external user. 3. A device for increasing productivity by introducing carbon dioxide and controlling its concentration according to claim 1, characterized in that the gas mixing tank is equipped with a pipeline for moving gas and an exhaust valve; the pipeline for moving gas is equipped with a multi-component mixing controller; the inlet end of the pipeline for moving gas is provided with an inlet design with many holes; the exhaust valve is in communication with the pipeline for moving gases; the exhaust valve includes a manual exhaust valve and an electromagnetic exhaust valve that controls the message by means of the light intensity and the magnitude of the wind speed. 4. A device for increasing productivity by introducing carbon dioxide and controlling its concentration according to claim 2 or 3, characterized in that the network of pipelines for introducing gas and fertilizers contains a main collector for introducing and branching; both the pipeline for moving gas and water, and the pipeline for moving gases are in communication with the main manifold for introduction; moreover, the main collector for making communicated with a branch; the main collector for introduction and the branch are equipped with flow meters; the main manifold for depositing has a structure selected from a system with a parallel connection of elements or a system with a series connection of elements; and the main application manifold is equipped with a manual valve. 5. A device for increasing productivity by introducing carbon dioxide and controlling its concentration according to claim 4, characterized in that the joint of the main collector for application and the branch are equipped with a solar solenoid valve controller, which contains a solar battery, a solenoid valve, a timer, a vertical rod and a battery ; a timer is located at the upper end of the vertical bar; a solar panel is located at the upper end of the timer; a solenoid valve is located between the main manifold for introduction and branch; the timer is respectively connected to the solar battery, the solenoid valve and the battery; a timer controls the opening and closing of the solenoid valve by limiting the duration of each application period; the lower part of the vertical rod is equipped with a concentration inductor on which the display is located; and the concentration inductor sends the concentration value of the collected carbon dioxide to the display. 6. A device for increasing productivity by introducing carbon dioxide and regulating its concentration according to claim 5, characterized in that in crop media on dry land and in greenhouses, the branch is a structure with rows of pipes, which is equipped with a drip irrigation zone or a spray irrigation structure which is selected from a rotating spray irrigation structure, a design with two rows of pipes spraying in opposite directions, or a movable spray irrigation structure low; and the pipe row structure or the spray irrigation structure is provided with an adjustable valve for regulating the flow. 7. A device for increasing productivity by introducing carbon dioxide and controlling its concentration according to claim 5, characterized in that in the medium of the irrigated rice field the branches are uniformly equipped with a plurality of dripping nozzles or inserted rods; one side of the upper end of the dripping nozzle or one side of the upper end of the inserted rod is provided with a side connection tube; the upper end of the side connection tube communicates with a branch; and the lower end of the side connection tube communicates with a capillary, which is necessarily attached to the lower end of the side connection tube; the dripping nozzle and the inserted rod, respectively, have a solid plastic construction and a construction of glass and steel; the capillary is connected to the head for application with grinding in a fluidized bed using sand; and the head for applying with grinding in a fluidized bed using sand is located at the hole of the capillary and is located below the surface of the water. 8. A device for increasing productivity by introducing carbon dioxide and controlling its concentration according to claim 5, characterized in that in the environment of irrigated rice field or aquatic crops, the branch is a solid plastic connecting pipe, the branch floats at the liquid level of the irrigated rice field or is supported on the surface of the water by means of floating foams and the like, acting as a base; the lower end of the branch is evenly equipped with capillaries that are connected to the head for application with grinding in a fluidized bed using sand; and the head for applying with grinding in a fluidized bed using sand is located at the hole of the capillary and is located below the surface of the water. 9. A system for increasing productivity based on the device according to claim 1, comprising a multicomponent metering and mixing gas and fertilizer system and a network of pipelines for introducing gas and fertilizers, the multicomponent metering and mixing gas and fertilizer system comprising a carbon dioxide storage system and a gasification decompression system and a dosing and mixing system of gas and fertilizer, which are communicated; the gas and fertilizer dosing and mixing system is divided into a gas and water dosing and mixing system or a gas dosing and mixing system in accordance with various applications: for crops planted by dry farming, for crops planted in greenhouses, and for crops, planted in irrigated rice fields; moreover, the network system of pipelines for making gas and fertilizers contains a system of pipelines for moving and a system of pipelines for making, which are communicated; a gas and fertilizer dosing and mixing system is in communication with a piping system for movement; the piping system for moving controls the communication with the pump by means of the light intensity and the magnitude of the wind speed, and then regulates the opening and closing of the pipeline; the gas and water metering and mixing system comprises a gas and water mixing section, which is suitably equipped with an electric contact pressure gauge and a solenoid valve; the lower part of the gas-water mixing compartment is provided with a plurality of systems with rows of leads arranged in parallel; systems with rows of leads are evenly equipped with many heads for application with grinding using sand to mix fertilizers in the fluidized bed; the lower end of one side of the gas-water mixing compartment is provided with a control valve and an exhaust valve; moreover, the control valve is in communication with the pipeline for moving gas and water through the pipeline; a Venturi-type fertilizer injector and a pump that controls communication by means of light intensity and wind speed are located between the control valve and the pipeline to move gas and water; a Venturi type fertilizer injector is in communication with a pipeline for moving gas and water through a connecting pipe; the control valve is in communication with the exhaust valve through a pipeline; the gas metering and mixing system comprises a multi-component mixing controller and a gas mixing tank; the inlet end of the gas mixing tank is provided with an inlet system with a plurality of openings; and the outlet end of the gas mixing tank is provided with a manual exhaust valve and an electromagnetic exhaust valve. 10. The system for increasing productivity on the basis of the device according to claim 9, characterized in that the network system of pipelines for applying gas and fertilizers comprises an application system for irrigated rice fields and an application system for dry land and for greenhouses in accordance with various agricultural applications; the gas and fertilizer piping network system is provided with a solar solenoid valve controller that includes a timer and a solenoid valve; a timer controls the opening and closing of the solenoid valve by limiting the duration of each application period; the application system for irrigated rice fields contains a main collector system for application for irrigated rice fields and a branch system for irrigated rice fields; moreover, the joint of the main collector system for application for irrigated rice fields and the branch system for irrigated rice fields is equipped with a solenoid valve; a branch system for irrigated rice fields is connected to the head for application with grinding in a fluidized bed using sand located under the surface of the water; a system for applying to dry lands in greenhouses contains a system for applying to dry lands and a system for applying to greenhouses; the dry land application system comprises a main collector system for application for dry land and a branch system for dry land; a solar solenoid valve controller is located between the main distributor system for dry land and the branch system for dry earth; a branch system for dry land is a system with rows of pipes for application or a spray irrigation system; a system with rows of pipes for application is provided with a drip irrigation zone; the spray irrigation system is a structure selected from a rotating spray irrigation structure, a structure with two rows of pipes spraying in opposite directions, or a movable spray irrigation structure; a design with rows of pipes for application or a spray irrigation system is equipped with an adjustable valve for regulating the flow; a greenhouse application system comprises a main collector system for greenhouses and a branch system for greenhouses; outside the greenhouse, a solar solenoid valve controller is located between the main collector system for the greenhouse and the greenhouse branch system; the greenhouse branch system comprises a system with rows of pipes for application or a spray irrigation system; a system with rows of pipes for application is provided with a drip irrigation zone; the spray irrigation system is a structure selected from a rotating spray irrigation structure, a structure with two rows of pipes spraying in opposite directions, or a movable spray irrigation structure; and a design with rows of injection pipes or a spray irrigation design is provided with an adjustable valve for regulating flow.