UA81367C2 - Method for growing seedlings and short-growing plants in greenhouse - Google Patents

Abstract

The invention relates to agriculture, in particular to a method for growing seedlings and short-growing plants using mini-greenhouses, which includes using warm air, which is heated by means of a portable heat generator, target irrigation of each of the plants by the drip method, control of the microclimate indices by an electronic block by means of sensors analyzing the data by the central computer and dynamic correction of these parameters. The mini-greenhouses are arranged at an industrial greenhouse and they are areas for growing plants, and the space between them is an area for servicing thereof. In the area of servicing the necessary air temperature (+4?+8 DEGREE C) is maintained due to the centralized heating system, and the mini-greenhouses are made as shelf single- or multistage chambers with transparent and non-transparent easy-lifting vertical fencing and ultraviolet gas-discharge lamps, self-contained automatic systems for ensuring the required temperature, humidity and air movement speed, and also amount and quality of an aqueous solution which is delivered for fertilizing plants in the chambers. In the chambers with the non-transparent fencing champignons are grown, and the air from them with increased content CO2 is supplied to the chambers with transparent surfaces, in which green low-growing crops are grown, after which the air again is returned into champignon houses.

Description

Description of the invention

The invention relates to agriculture, in particular to the method of growing seedlings and low-growing 2 plants in cultivation facilities.

Known methods of growing plants in greenhouses with enclosing structures made of one or two layers of transparent material (glass or film) with their location on the ground or on racks with maintenance of the necessary regulatory microclimate (air temperature and humidity) in the entire volume of the greenhouse I1,2 ,3, etc.).

The required air temperature 15-252 is provided by heating systems, which can be water or air. The necessary air humidity (60-9095) is maintained by spraying water, including when watering plants. The disadvantages of these methods are: - significant energy consumption, caused by a significant difference in air temperatures near the inner and outer surfaces of the enclosing structures, as well as condensation of moisture from the air on the inner surfaces of the enclosing structures; - the impossibility of clearly maintaining the same air parameters over the area and height of the greenhouse, i.e. the difficulty, and often even the impossibility of growing different plants in the greenhouse at the same time, or even the same plants, but of different vegetation periods; - there is no provision for the possibility of effective control of the spread of plant diseases.

These shortcomings are partially eliminated in the method according to |4), according to which the zone of active plant growth (useful volume of the greenhouse) is separated by a transparent film from the general volume of the greenhouse, and the conditions necessary for growing plants are maintained only in the useful volume of the greenhouse, and the other volume of the greenhouse is considered non-working, and therefore cold, that is, unheated. The heating itself is provided by increasing the temperature and quantity of the solution for hydroponics circulating in the open trays.

Regardless of the potential possibility of reducing specific energy consumption with this method, it has a number of disadvantages that complicate and even in many cases make its use impossible: Г) 1) the concept of useful volume, to which not only the zone should be attributed, is not defined the placement of plants, as well as the area for their maintenance by working personnel, which also needs to be heated; 2) no area regulation system is provided, i.e. the possibility of growing different plants at the same time is not provided; - 3) the possibility of effective control of the spread of infections is not foreseen. (Se)

To a large extent, the specified shortcomings are eliminated in the invention of the IS), which is accepted as a prototype. According to this invention, the method of growing plants is carried out in mini-greenhouses and includes the use of warm air, which is heated with the help of a portable heat generator, plants are grown in one place during the entire growing season, each plant that is grown is purposefully irrigated by drip method, control

The indicators of the microclimate are carried out with the help of sensors by an electronic unit with data analysis by a central computer and dynamic correction.

The main drawback of the method according to the prototype is the fact that, while improving the process of growing plants, it not only does not provide a significant reduction in energy consumption, but can also lead to an increase in specific energy consumption due to an increase in the ratio of the area of external enclosing structures to З7З 70 of the active area of the working soil in the mini-greenhouse preserving the value of the air temperature difference in the working area of the greenhouse and with the outside air. "The invention is based on the task of improving the method of growing plants using mini-greenhouses by significantly reducing specific energy consumption, the possibility of spreading the advantages of the method of growing in mini-greenhouses to large industrial greenhouses and providing an industrial greenhouse for seedlings and various 75 types of low-growing plants with different stages of vegetative development, reducing safety from the spread of plant diseases throughout the volume of the industrial greenhouse. - The goal is achieved by placing mini-greenhouses in an industrial greenhouse and they are zones for growing plants, and the space between them is a zone for their maintenance, and in the zone of maintenance at the expense of a centralized heating system the required air temperature (44 89) is maintained, mini-greenhouses (22) 50 are made in the form of single- or multi-tiered rack chambers with transparent or opaque yet easily liftable vertical fences and ultraviolet gas-discharge lamps, which are equipped with autonomous auto matized systems for ensuring the necessary temperature, humidity and air speed in the chambers, as well as the quantity and quality of the water solution supplied for plant nutrition.

The goal is also achieved by the fact that, in the previously described method, 59 mini-greenhouse cameras with transparent and opaque vertical fences are simultaneously used, and in cameras with opaque

GF) champignons are grown with an enclosure, and the air from them with an increased CO content is supplied to chambers with 7 transparent surfaces, in which green low-growing crops are grown, after which the air is returned to the champignons again.

An example of the organization of the proposed method is presented in the drawing, where 1 is a translucent two- or single-layer glass vertical fence; 2 - translucent glass roof; 3- pipes of the periodic action system to ensure snow melting; 4- reflector screens; 5- curtain screen; b-floor; 7- pipes of centralized heating of the greenhouse service area; 8-rack mini-greenhouses; 9- lifting fence of the greenhouse; 10 gas-liquid lamps of ultraviolet light; 11- automated unit of air transportation, heating and humidification; 12 - for supply air ducts; 13- automated supply of nutrient solution; 14-suction recirculation ducts.

Sources of information: 1. Aliyev Z. A. Growing of fruits in hydroponic greenhouses. - K.: Urozhai, 1985. - 160bs. 2. Ivanenko P.P., Prylipka O.V. Closed ground. - K.: Urozhai, 2001.-360p. 3. A method of providing a microclimate in greenhouses for growing plants in artificial conditions and a device for its implementation. A. p. USSR Mo 923449 cl. AO109/14, publ. 30.04.1982. Bul. Mo16 4. The method of heating plants in hydroponic installations of the greenhouse. Patent KO Mo2248692 cl. AO1531/00, 9/24 publ. 27.03.2005. Bul.Me9. 70 5. The method of growing plants in mini-greenhouses and the device for its implementation. Declaration patent OA

Mo37093 class AO109/14, 9/24 publ. 04/16/2001. Bul. Moz 3

Claims (2)

Formula of the invention, p. - 1. A method of growing seedlings and short plants using mini-greenhouses, which includes the use of warm air heated by a portable heat generator, targeted drip irrigation of each plant, control of microclimate indicators using sensors by an electronic unit with data analysis by a central computer and dynamic adjustment of these parameters, which is distinguished by the fact that mini-greenhouses are located in an industrial greenhouse and they are zones for growing plants, and the space between them is a zone for their maintenance, and the necessary air temperature is maintained in the service zone due to a centralized heating system (44 -- 8 2C), and mini-greenhouses are made in the form of single- or multi-tiered racking chambers with translucent and opaque easy-to-lift vertical fencing and ultraviolet gas-discharge lamps, autonomous automatic systems for ensuring the necessary temperature, humidity and air movement speed in the chambers, as well as the quantity and quality of the water solution supplied for plant nutrition. and) 2. The method according to claim 1, which differs in that champignons are grown in chambers with an opaque enclosure, and the air from them with an increased content of CO" is supplied to chambers with transparent surfaces, in which green low-growing crops are grown, after which the air is returned to the champignon box . и- (Se) (ze) «- d) - with . and? (ee) - (95) (o) what has) 60 b5