SU886835A1 - Method and apparatus for controlling environment conditions at plant growing - Google Patents

Description

The invention relates to a technology for growing plants, in particular under artificial lighting, and can be used to obtain optimal and economic conditions, for example, in phytotrons and greenhouses.

A known method and system for growing plants [1]. where time-varying (pulsed) lighting is used, and the parameters of the pulses are controlled by a special electronic device according to a strictly defined program. The device lacks correction of pulse parameters when changing plant requirements, which reduces the efficiency of the system.

Closest to the proposed are the method and system of controlling environmental factors for optimizing plant photosynthesis [2], where environmental factors are controlled depending on the level of photosynthesis, determined by the gas composition of the atmosphere of the assimilation chamber with plants.

The presence in the system of an intermediate link between plants and the gas analyzer sensor leads to a complication and insufficient efficiency of the system due to an increase in its inertia and limits the scope of its application to closed volumes with tight atmospheric control.

The aim of the invention is to simplify the regulatory process and increase its 5 effectiveness to optimize the life of plants by expanding their adaptive capabilities.

The goal is achieved in that the automatic regulation of environmental factors is carried out depending on the bioelectric potential of the plant leaf.

The control device comprises a device for ensuring the contact of the plant leaf with the discharge electrodes 15 connected through an amplifier to the environmental regulation unit, the control signal for which is the bioelectric potential of the leaf.

The block of regulators continuously changes 20 environmental factors depending on the value of the bioelectric potential based on a given program or control algorithm in accordance with the selected optimality criterion, for example, 25 intensity of photosynthetic energy production.

The drawing shows a block diagram of the proposed device.

The device contains executive meso-mechanisms 1 (in particular, the source of lighting 886835 a

nyya), plant object 2, device 3 for ensuring the contact of the plant leaf with discharge electrodes, amplifier 4 and block 5 of automatic regulation of environmental factors.

The device operates as follows.

Using the device 3, usually made in the form of a liquid contact of the sheet with non-polarizable electrodes, the signal is fed to the amplifier 4, and from the amplifier it enters the block 5 of automatic regulation of environmental factors, generating a signal for controlling the actuators 1.

The application of the method and device for its implementation allows you to abandon the intermediate links between plant objects and control systems. Information on the processes occurring in plants during the regulation of environmental factors, and immediately in electrical form, is directly from the physiological indicator - bioelectric potential.

Since this electrophysiological parameter reflects the functional state of photosynthetic plant tissues and their adaptation to external conditions, environmental factors (for example, illumination), continuously regulated by biopotential, thus become endogenously controlled. This ensures the expansion of the adaptive capabilities of plants and, therefore, more optimal conditions for their life. In particular, there is a more efficient assimilation of light energy and intensification of processes associated with photosynthesis, for example, the absorption of a nutrient solution by the root system.

The proposed method can also be used in scientific research, as it allows you to study the structural and functional organization of a leaf as a self-regulating system and apply the control theory apparatus to simulate the processes occurring in a leaf.

Claims (2)

neither), the plant object 2, the device 3 for ensuring the contact of the Plant Leaf with the outgoing electrodes, the amplifier 4 and the unit 5 for automatic regulation of environmental factors. The device works as follows. Using device 3, usually made in the form of a liquid contact of a sheet with non-neutralizing electrodes, the signal goes to amplifier 4, and from the amplifier goes to block 5 for automatically controlling environmental factors, generating a signal to control the actuators 1. The method and apparatus for its implementation makes it possible to abandon intermediate links between plant objects and control systems. Information about the processes occurring in plants when regulating environmental factors, and immediately in electrical form, is directly related to the physiological indicator — the bioelectric potential. Since this electrophysiological indicator reflects the functional state of plant photosynthetic tissues and their adaptation to external conditions, environmental factors (e.g., light intensity), continuously regulated by the biopotential, thus become. endogenously controlled. This ensures the expansion of the adaptive capabilities of plants and, consequently, more optimal conditions of their viability. In particular, more efficient absorption of light energy and intensification of processes associated with photosynthesis, such as the absorption of nutrient solution by the root system, occurs. The proposed method can also be used in scientific research, as it allows the study of the structural and functional organization of the sheet as a self-regulating system and use the control theory to simulate the processes occurring in the sheet. Claim 1. Method of controlling environmental factors in growing plants based on continuous automatic regulation of environmental factors in accordance with the selected criterion of optimal plant life, characterized in that, in order to simplify the process of regulation and increase its efficiency to optimize plant viability by expanding their adaptive capabilities, the automatic regulation of environmental factors is carried out depending on the bioelectric o leaf sheet potential. 2. A device for carrying out the method according to claim 1, comprising an automatic control unit for environmental factors and actuators, characterized in that it comprises a device for ensuring the contact of the leaf of the plant with the discharge electrodes connected through an amplifier with the control unit for environmental factors , the control signal for which is the bioelectric potential of the sheet. Sources of information taken into account during the examination 1. US patent number 3930335, cl. 47-58, 1976. 2. USSR author's certificate number 535921, cl. A 01G 7/00, 1975 (prototype).