RU2723191C1 - Device for planting seedlings of flower plants in greenhouses - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to cultivation of flower seedlings and plants in greenhouses, seedbeds and hothouses by irrigation with fog-forming plants. Device includes a place for arrangement of high-rise rack 1 in it, on which containers 5 with a substrate for planting of seedlings are placed. Detachable tight U-shaped cap 15 is installed above containers, made of strong and light-weight transparent plastic material. Cap is equipped with shell 17, which is connected by flexible links with polyspast system. When growing seedlings and plants in containers by means of polyspast system, it is lifted or lowered to stops 16 fixed on the generatrix of the rack with placed on it containers arranged in a row. Inside the cap there is a fog-forming plant with nozzles 16 and connected to the irrigation supply source. Containers 5 with seedlings during cultivation and irrigation are closed with hermetic U-shaped cap made of transparent plastic material. Additional two containers 6 are made in the form of moisture sensors and installed a little lower on the rack relative to containers 5 main ones, which are placed on the high-rise rack. Control containers 6 serve as a moisture sensor. Humidity sensor is made in form of multi-lever lever with containers installed on its arms with different weight of dry weight, also associated with fog irrigation with other containers on rack, and two pairs of closing contacts kinematically connected to long lever arm and electrically-operated switch of electrically controlled valve, and opening kinematically connected with short arm lever and electrically - with light indication of control unit. Implementation of the device will make it possible to grow sprouts and plants of various types year-round and to control conditions of their growth in a closed cap, which high-rise rack is placed inside a glassed greenhouse, due to creation of favourable conditions at any time of year.

EFFECT: such implementation will provide automation of fog irrigation when growing seedlings and plants directly in greenhouse rooms equipped with the proposed device, with minimum labour costs for operators; improves conditions and safety of service personnel, besides, it will make it possible to use all spectrum of solar radiation in day time and to reduce time of growing of seedlings, in particular, in heated greenhouse in winter time.

1 cl, 3 dwg

Description

The invention relates to agriculture, in particular to the cultivation of flower seedlings in sheltered soil, for example in greenhouses on separate sites with irrigation fogging plants with nozzles. They work under pressure in the range of 5-10 kgf / cm ² , where the distributing pipes are mounted in the upper zone of the device.

A device for hydroponic growing plants in greenhouses is known, where plants are hermetically coated with a transparent film according to structures that are height-adjustable as plants grow, and carbon dioxide is fed automatically under the film using a programmer and have a humidity sensor (Patent RU No. 2281647, A01G 31/00. A01G 9/18 of 08/28/2006).

A device is also known for growing seedlings with a sealed container equipped with a gas supply and dosage system, lighting with phytolamps, seedling status monitoring (Patent RU No. 2616778, A01 9/24, A01G 7/02, A01G 31/02, A01G 9/18 from 04/18/2017).

However, the operation of the device in greenhouses allows increasing crop yields using carbon dioxide into the surrounding atmosphere in the form of fog. At the same time, none of them considers irrigation with fogging plants with nozzles located on the rack with containers for growing seedlings from seeds of flower plants in a top-closed translucent cap made of durable and lightweight plastic material removable in height with the possibility of vertical movement relative to the installation of containers with soil on the rack, and a translucent cap covering them around the outer contour, as well as reducing energy costs for preparing, supplying and distributing water, using fogging plants with nozzles to work when closing containers for growing seedlings, as well as when caring for them in growth, have the ability to temporarily open for this period the surface of containers with soil to the optimum height, which means reducing the time it takes to service a group of containers for growing seedlings during the year-round cultivation of flower seedlings in the heated room of the greenhouse.

A device for growing plants is predominantly in a row along its longitudinal axis, containing a pallet, for example, a rectangular shape of heat-insulating material for isolating nutrient soil, a device for supplying water and gases, while the pallets have holes and nozzles, where the authors of the known invention claim the design of the pallet of foam slabs enclosed in a frame that provides the smallest amount of building material, its shape with structural units, as well as the position of the heating elements with water heating and dissolved mineral fertilizers (Patent RU No. 20051554, A01G 9/24 from 10.30.1993). The device is made in the form of a greenhouse and costs a large amount of energy and is not suitable for use using a fogging plant with nozzles, which means that it is impossible to grow flower seedlings to obtain stable seedling growth, then, after growing, planting it in open areas of a park zone, flower beds or directly on flower beds in heated greenhouses, etc.

A device for growing plants containing a two-layer coating and arches supporting it, beds with a heat-accumulating layer, fenced shields, air pipes, compost box, irrigation and fertilizing system, while the arches and coating are made with the possibility of rolling into rolls and from flexible materials moreover, the arch contains the outer and inner clips, each of which is made in the form of a cable, on which spacing elements are installed at intervals, which are included in the intervals of the other, while one layer of a two-layer coating is sandwiched between the expansion elements (Patent RU No. 2530936, A01G 9/14 from 10.20.2014).

Its disadvantage is that it is difficult to overlap and is not intended for the use of fog-forming inside its installation with high-pressure nozzles, in particular, for growing seedlings from the seeds of flower plants in closed greenhouses, in which there is a special platform for year-round growing seedlings. In addition, clean room temperature water is currently used, taking into account the heating of tap water entering the heated room of the greenhouse. Watering in containers in the form of plastic boxes is carried out manually using various spraying devices resembling a “fog”, for example, a small-volume water spray of industrial manufacture, since the sprouted seed sprouts are still quite “tender” and fragile and require careful handling, however, care continues until a certain time of growth of plants that have reached a height, then transplant seedlings into pots or open areas, as planting material for flower beds, greenhouses, etc.

Information confirming the possibility of growing seedlings from the seeds of flower plants in the proposed device, in experimental design, possibly in a closed glazed greenhouse and shelving equipment on the example of the "Patriarchal Garden" of the city of Vladimir, which is operated year-round; the room temperature is maintained in cold weather not lower than room temperature; watering is currently carried out manually using a home sprayer to spray each container with soil placed in a row on a high-rise rack. The containers are made with small geometric dimensions of a rectangular shape, which are filled with fertile soil, sow the seeds for growing seedlings of flowering plants and feed them with liquid fertilizers. However, in the process of this technology of growing plants, a crust forms on top of the soil, soaks in some places, stains of fungal plants on the soil, etc. - the author of the proposal proposes to develop a device that needs to be placed in a built-in glazed greenhouse, which will also significantly facilitate the hard work of female staff.

The objective of the invention is the creation of an effective device, increasing the uniformity of irrigation by regulating air humidity using a fogging plant with nozzles located inside a translucent plastic cap, which is removable with the possibility of vertical movement using equipment equipped with a multi-cast flexible traction system with an electric wire in the form of a winch, as well as the uniformity of heating plants in the cold period of time.

The technical result is achieved by the fact that in a device for growing seedlings of flowering plants in greenhouses, containing a coating and arches supporting it, containers with a substrate for growing plants, a pipeline for supplying water and cables, according to the invention, the containers are mounted on a tall rack with vertical racks, greenhouses located on the floor and equipped with adjusting screws, and, on top of the containers, a translucent U-shaped cap made of plastic material and equipped with a shell connected to it, mounted around the outer contour, and closed racks are made around the perimeter of its side surface, which have a U-shaped cap installed with their base, with the possibility of moving in a vertical plane above the rack and containers installed in a row, in addition, the pipeline is flexible with nozzles in the upper part of the U-shaped cap for misty seedling irrigation.

In addition, it is equipped with a substrate moisture sensor, which is made in the form of a different-arm lever with control containers installed on its shoulders with different dry weight, associated with fog irrigation of other containers, and two pairs of make contacts kinematically connected with the lever arm and electrically - with a switch for an electrically controlled valve, and an opening contact kinematically connected to the short arm of the lever and electrically with a light indication of the control unit.

The essence of the invention lies in the fact that the proposed device allows you to create in the upper part of a translucent removable closed U-shaped cap under pressure from nozzles finely dispersed over sequentially arranged in a row of individual plastic containers with seeds of seedlings of flower plants placed on a high-rise rack, while regulating air humidity and a decrease in its temperature in the hood, in particular in spring and summer with bright sunlight in a glazed greenhouse, which is automated. After sowing the seeds, the containers are closed with a translucent plastic cap, which, during growth and their maintenance during cultivation, can temporarily be pulled up to a small high position. External dimensions of rectangular plastic containers (standard plastic boxes): length - 39 cm, width - 20 cm, height - 19 cm, substrate (soil) is poured 3 cm below the container sides.

The device also includes, under the hood, installed and control containers with seedlings for fog irrigation, and bring the humidity equal in all containers of the substrate (soil) to the lowest humidity (HB). In this case, the existing lever-weight mechanism of the humidity sensor of the substrate of the control containers is in equilibrium, and the whole system is in standby mode after irrigation. The humidity sensor control is connected through constantly disconnecting switch contacts, closed and the “No Irrigation” display is on in the control room. It indicates that the system is powered by current.

Thus, there are two control containers located directly below the dome, which are also stacked in a row with other containers on a high-rise rack with short and long shoulders of the lever-weight mechanism. The operation of the device is based on the principle of equal moments of power in the lever-weight mechanism with different-sized shoulders.

As the moisture from the containers and control containers is used up, their mass will decrease. At the same time, due to the greater moment of forces, the control container lying on the short shoulder will begin to fall down, and the lever-weight mechanism will turn counterclockwise.

Consequently, when water evaporates, it will pull a container lying on a platform with a short shoulder. With a decrease in soil moisture in the control containers to the pre-irrigation threshold, the control container with a short shoulder presses the push rod, the spring and closes the make contacts of the contact switch.

If you need to take care of seedlings of seeds of cultivated floral plants, after sowing the plants, the containers are all opened at the same time, and the translucent U-shaped cap is temporarily lifted using a pulley system with flexible rods that are equipped with an electric drive in the form of a winch and with the center of the U-shaped cap and then in the opposite order they are lowered down, keeping the substrate (soil) with the plants warm until it is time to transplant them into pots or directly to flower beds in open ground, as well as in closed ground directly into glazed greenhouses. After planting seedlings or seed germination to a certain plant growth, the fog irrigation system provides large quantities in the early stages, provides the consumer with the product and the possibility of obtaining different species composition during the year-round cultivation, and will also become convenient for feeding plants with other types of gas , for example, through leaves, since carbon dioxide is much heavier than air and will be slowly blown out from the foliage of planted plants, in comparison with ordinary greenhouses - in the prototype, and with good seed germination and plant growth. Nozzles have the ability to dispense a finely dispersed spray directly in the limited space of the U-shaped dome, which guarantees high-quality misty irrigation of the soil in containers with plants, at the same time humidity increases, and overheating of closed plants is prevented in spring and summer in hot weather (it is also possible to open them, lifting the dome to a low height). The device is easily automated.

Seed propagation is widely used in the cultivation of flower-decorative plants, which means that it is possible to obtain a large amount of healthy planting material. The ability of seeds of flower plants (crops) to germinate depends on many factors, primarily such as the biological characteristics of the plants, the quality of the seeds, their storage conditions, and ultimately, growing seedlings in containers (boxes). It is also important that both drying and waterlogging of the seedlings of seedlings should not be allowed, the humidity should be uniform, and this is achieved by progressive fog irrigation using a device using a translucent U-shaped cap that is closed on all sides, removable in its vertical movement up or down.

Since no analogue has been identified characterized by features identical to the essential features of the claimed invention noted above, the latter can be recognized as meeting the “novelty” requirement.

The claimed invention corresponds to the inventive step, since the developed device does not follow for a specialist explicitly from the prior art.

The identified set of essential features of the claimed invention ensures the achievement of a technical result, which consists in the use of a fogging plant with nozzles when closing a translucent U-shaped cap of a high-rise rack with containers mounted on it in a row for seedling for growing flower plants directly on a special dedicated area in a glazed greenhouses for use and planting in it grown plants for flower beds. In addition, this is due to a noticeable reduction in the labor costs of maintenance personnel in heated greenhouses in the autumn and winter periods (in the summer - not heated).

Such a design of a device for a toaman-forming installation with nozzles located inside a closed translucent cap located on a high-rise rack should be installed strictly horizontally using a given number of small containers filled with a substrate in which seeds or sprouts are planted, not only regulates fog irrigation, but also provides access to solar energy to the closed glazed room of the greenhouse, where the plants grow upward in growth vertically, and accordingly, to the specified pre-irrigation soil moisture, controlled by control containers under the hood, and connected to the control panel as a whole.

The invention is illustrated by drawings, where in FIG. 1 shows a General view of a device for growing seedlings; in FIG. 2 - design of a substrate moisture sensor in control containers with soil and seedlings; in FIG. 3 - design of the sensor redistribution of water.

A device for growing seedlings of flowering plants in greenhouses consists of a rack 1 in a high position on the floor, convenient for maintenance personnel (operator) with vertical racks 2 in the lower part of the rack frame 1, connected to horizontal supports 3 equipped with adjusting screws 4 to ensure stable vertical installation position on an uneven floor inside a glazed greenhouse (not shown). Above the rack 1 with a number of containers 5 with soil placed on it, a substrate (soil) moisture sensor is also placed, made somewhat lower than the rack 1 in the form of control containers 6, placed on a lever-weight mechanism 7 with a limiter 8 and a support prism 9, also installed on a stepped rack 10. The containers are installed with the possibility of interaction with the pusher 11, the springs 12 and when the mechanism 7 is rotated around the horizontal axis, they interact with the closing contacts 13 and the breaking contacts 14.

Above the racks 1 and 10, successively mounted containers 5 and 6 are installed (inside the glazed greenhouse) removable in height and covering them along the outer contour with a translucent U-shaped cap 15, closed on all sides, made of durable and lightweight plastic material. On the rack 1 along the inner generatrix, which is arranged an annular protrusion (emphasis) 16 on which a translucent U-shaped cap 15, which consists of a rigid annular shell 17, the central part of which is connected, furthermore, with the shell 17 with cables 18, is enveloped tightly with its base blocks 19 mounted in the upper part on the frame 20, which is connected by means of rods 21 and an anchor device 22 with a ring 23 to a reinforced beam 24 equipped with an electric drive in the form of a winch (not shown) (as an example of comparison with the operation of a horizontal crane in a room for lifting and lowering various loads).

The internal cavity of the closing translucent U-shaped cap 15 is equipped with a flexible hanging pipe 25 under the dome with nozzles 26 and heated water supply, the latter operate under pressure in the range of 5-10 kgf / cm ² , forming a foggy cloud with a finely dispersed spray inside the cap 15, which guarantees moisture drop down towards containers 5 and 6 with a substrate (soil). The water supply source uses a heated water tank 27 with a pump 28 and a booster pipe. In addition, the device also includes electrically controlled valves (not shown) installed on the distribution piping from the outside of the U-shaped cap 15 using flexible connections.

It should be noted that heated water to room temperature is supplied using a source and an installed closed tank 27 with a pump 28 with ring magnets 29 and a restrictive prism 30, a normally open upper reed switch 31, a normally closed lower reed switch 32 and a control relay 33.

Thus, the closed translucent U-shaped cap 15 in its working condition with its base allows it to be installed on the annular restrictive stop 16 forming the rack 1 vertically, having an airtight seal to allow moisture to pass to the floor of the greenhouse in which the operator is located to service the device, which means , there is no harmful evaporation affecting people's health at low humidity and high temperatures in the areas where people are, especially in hot weather. In this case, the operation of the installation of equipment for fogging takes place in a closed translucent U-shaped cap, where the conversion of droplets is converted into steam, and maintains the temperature in the cap, i.e. it maintains the necessary microclimate at any time of the year, thanks to the use of a fogging system, and this also increases the productivity of the installation located under the hood in the upper part, and the device located in the glazed greenhouse.

In the greenhouse, it is possible to connect a personal computer to the fogging system of the irrigation process (not shown for simplicity). In addition, when installing containers designed for sowing seeds of seedlings of flowering plants, as practice shows, the manufacture of a metal rack already leads to cooling under the bottom of the installed containers with soil, therefore it is necessary to provide for this heat-insulating mats (not shown), the temperature of which affects heating the bottom of the containers as a whole. To date, many such heat-insulating mats have been developed with their connection to the voltage with the development of an electronic circuit - a time switch and a temperature setter (a block diagram is not shown, and which is not given, since it does not apply to the essence of the proposed proposal).

The device operates as follows.

On rack 1 in a glazed greenhouse on the site allocated for this case, a horizontally high-rise rack 1 is installed, on which plastic containers 5 (small boxes) are placed at the same level for seedlings of flower plants in a straight line in a straight line, and next to the rack 1, on the platform, the control containers 6.

When planting seeds or seedlings, a substrate (soil) is poured into containers with a layer below the sides by 1.5 ... 3.0 cm, and then they are closed from above by moving down by lowering through the hook of the lifting device for the translucent cap 15 with meshing with the ring 23 on the beam 24, equipped with an electric drive in the form of a winch (not shown), after which a transparent lowering of the translucent closed U-shaped cap 15 is carried out, connected by a tackle system with cables. Since the lowering (lifting) force is transmitted to the cap 15 through the cables 18, thrown through the blocks 19 and fixed with its end to the cap 15 and the casing 17 due to lowering, there is no risk of damage to the containers 5 and 6, and the base of the cap 15 will reach the annular protrusion (stop) 16 on rack 1, i.e. plastic containers 5 and 6 are covered from above with a translucent U-shaped cap 15 during the process of growing seedlings, and if necessary, in the process of caring for seedlings and growing plants, a translucent hood 15, equipped with a flexible fogging plant with nozzles, is temporarily removed upward.

It should be noted that irrigation with cold water has a negative effect on the germination of plant seeds, then the water is preheated to the required room temperature, which should not exceed room temperature (20-25 ° C) using an automatic heater with a thermal relay (not shown). The optimal temperature range at which seedlings are grown from +10 to +36 degrees Celsius. In this case, the translucent U-shaped cap 15 can be temporarily raised if necessary, and then lowered it down by communication with the sheave system, and under pressure in the range of 5-10 kgf / cm ² water is supplied to the flexible suspension pipe 25 with nozzles 26 , as a result, a misty cloud forms inside the cap 15, which guarantees an exact drop of moisture down into the soil of containers 5 and 6, which is also necessary for irrigation (watering) seedlings in containers 5 and 6.

The external dimensions of the rack 1 with containers 5 and 6 allow the hood 15 to be lowered down with its base on an annular stop (protrusion) 16.

If seedlings or plants growing in containers 5 and control containers 6 do not need irrigation, then the pump stops and water does not enter pipeline 25 with nozzles 26. At this time, a closed container 27 filled with heated water is not used. After planting seedlings of seeds of flowering plants and their growth in containers 5 and control containers 6, post-planting irrigation is done using fogging, and the moisture content of the substrate is brought to the lowest humidity (HB). In this case, the lever-weight mechanism 7 of the substrate moisture sensor is in equilibrium, and the entire system is in standby mode. Constantly opening contacts 14 of the switch are closed and the “No watering” sign lights up in the control room. It indicates that the entire system is powered by current.

The moisture sensor of the substrate operates as follows.

There are two control containers 6, which are stacked on a platform placed on a high rack with a difference in relation to the main rack 1, with short and long shoulders of the lever-weight mechanism. The operation of the device is based on the principle of equal moments of power for a lever-weight mechanism with different shoulders, and is described by the equation of equality of ethyl forces (the equation is not given to simplify the description).

Two containers 6 are loaded with warmed soil and bring its moisture content to the lowest moisture capacity (HB), one of the containers is weighed and laid on a platform with a long shoulder, slightly longer than the length of the short shoulder, which is connected with the second control container and calculate the weight the second container, which must be installed on a platform with a short shoulder, then the equal masses of both containers will be equal due to their different weights and different shoulder lengths, and the lever-weight system will be installed horizontally, which is checked using the level.

As moisture is consumed by plants from containers and control containers placed under the translucent U-shaped cap 15 that covers them, and if necessary, during the process of growing plants, the cap is temporarily raised, the weight of the containers will decrease in humidity. At the same time, due to the greater moment of forces, the control container lying on the short shoulder will begin to lower, and the lever-weight mechanism will turn counterclockwise. Consequently, when water evaporates, it will pull a container lying on a platform with a short shoulder. With a decrease in soil moisture in the control containers to the pre-irrigation threshold, the control container with a short shoulder presses the plunger 11, the spring 12 and closes the make contacts 13 of the contact switch.

The greenhouses are made glazed completely closed, and inside them, on a specially designated area, a rack 1 is installed with containers 5 and 6 placed on it, and a U-shaped hood 15, while also made translucent of lightweight plastic material and suspended using a tackle system with flexible rods to the upper beam under the arch of the frame of the greenhouse. Therefore, the lighting in the glazed greenhouses has a fairly intense and uniform illumination, in particular in the spring and summer periods, and it does not impair the illumination of the cover translucent U-shaped cap 15 made of transparent plastic material. In addition, in winter, the installation of such greenhouses is provided by internal heating from central heating of automatic individual gas-fired gas boilers operating in natural gas (in particular, in the urban environment where the Patriarchal Garden is located in Vladimir).

The control containers are installed at the point corresponding to the illumination of the glazed greenhouse.

Limiters 8 are used to fix the lever-weight mechanism in a position corresponding to the calculated parameters. They are necessary so that when the lever-weight mechanism is operating, the lever does not slip along the reference prism 9 and the calculated shoulder length does not change.

After the contact 13 is closed, the electric circuit of the control valves in the inlet pipe (not shown) to the irrigation pipe 25 with nozzles 26 opens and water under pressure creates an atomization in the form of ultra-thin fog through nozzles 26 for a specified irrigation time inside a closed translucent cap 15. Warm energy consumption , which is necessary for the conversion of droplets into steam, leads, respectively, to a decrease in air temperature and an increase in humidity, i.e. foggy irrigation will begin. In the control room (or on a personal computer) the “Irrigation is in progress” panel will light up and the electric clock will begin to count down the duration of the foggy irrigation. At the same time, the permanently closed contacts of the switch 14 will open and the “Irrigation” display will turn off.

As the irrigation rate is issued for foggy irrigation, the weight of the control containers 6 will begin to increase and, when the substrate (soil) moisture is reached, the HB lever-weight mechanism 7 will return to its initial equilibrium state, the closing contacts 13 will open and the control valve (not shown) will block the pipeline water supply, i.e. irrigation stops. In the control room, the “Irrigation is in progress” board will go out and the electric clock will stop. At the same time, the constantly opening contacts of the switch 14 closes, and the “No Irrigation” display lights up. The entire device in the system will enter standby mode.

It should be noted that in a closed container 27 for supplying water during irrigation will be reduced. At the same time, the water level will fall and the upper ring magnet 29 slides along the sealed capsule, reaching the upper stop (prism) 30, it will close the closing contacts of the upper reed switch 31, but the pumping system will not work until the lower ring magnet 29 is lowered below and the opening contacts of the lower reed switch 32 is not closed. This is because both the reed switch and the relay coil 33 are connected in series with the circuit. Therefore, the pumping system will not work, since the electric circuit of the coil of the control relay 33 will be broken by the open contacts of a normally closed reed switch 31, as they are affected by the lower ring magnet 29 that has popped up to the stop. The pumping system will work then, then the water in the closed tank 27 (it can be made of transparent material) drops to the minimum mark. In this case, the lower annular magnet 29 will lower below the stop and the contacts of the normally closed reed switch 32 will be closed. In this case, the winding of the control relay 33 is energized, the contacts K 3 and K 4 will close and block the power system, and the contacts K 5 and K 6 will be closed and turn on the pump 28. Water supply under pressure will begin to create a fogging installation with nozzles pressure in the range of 5-10 kgf / cm ² . Next, the process of the electrical circuit working with the closing contacts of the upper reed switch 31 is repeated in the same sequence and is connected with the coil of the control relay 33.

In addition, inside the translucent U-shaped cap located above the rack with containers and in the greenhouse, there is no contact between the maintenance staff and the substrate on which seedlings are grown, plants during foggy irrigation, and there are no foci of possible damage to both soil and leaves plants.

The present invention provides automation of irrigation for growing seedlings and plant growth in ensuring interconnection with fog irrigation, located directly in the greenhouse premises and year-round with minimal labor costs for operators, which means they improve working conditions and safety of staff. In general, it is possible to adjust the operation of the entire block of containers with the substrate (soil) being filled. There is another option for determining soil moisture (not shown).

The use of such a device for growing seedlings of flowering plants in glazed greenhouses will allow growing plants inside it year-round for various species and controlling the conditions of plant growth (life) in containers with fogging in a closed translucent hood removably mounted above the rack with containers filled with substrate, as well as use the entire spectrum of solar radiation in the daytime and reduce the time of growing seedlings and can be cost-effective in winter in heated greenhouses.

Claims (2)

1. A device for growing seedlings of flowering plants in greenhouses, containing a coating and arches supporting it, containers with a substrate for growing plants, a pipe for supplying water and cables, characterized in that the containers are mounted on a tall rack with vertical racks located on the floor of the greenhouse and equipped with adjusting screws, and a translucent U-shaped cap made of plastic material and equipped with a shell connected to it is mounted on top of the containers on top of the containers, and closed stops are made on the rack along the perimeter of its side surface, on which it is mounted with its base A U-shaped cap with the ability to move in a vertical plane above the rack and containers installed in a row, in addition, the pipeline is flexible with nozzles in the upper part of the U-shaped cap for foggy seedling irrigation. 2. The device according to p. 1, characterized in that it is equipped with a substrate moisture sensor, which is made in the form of a different lever with mounted control containers with different dry weight masses connected with fog irrigation of other containers, and two pairs of make contacts, kinematically connected with the long arm of the lever and electrically with the switch of the electrically controlled valve, and an opening contact kinematically connected with the short arm of the lever and electrically with the light indication of the control unit.

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