RU2810572C1 - Assembly container for growing plants with automatic liquid supply - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: prefabricated container for growing plants with automatic liquid supply contains a first tray for feeding liquid, a removable second tray installed in it, containing at least one wick installed in the hole from below, and material for sowing seeds. The material for sowing seeds is configured to sow seeds on top of it or inside it, has a moisture-absorbing structure and is located on top of the wick and is in contact with it. The second tray has a removable seed clamp. In this case, the removable clamp does not hermetically close the second tray with the sown seeds, presses the seeds to the material for sowing the seeds, thereby creating microventilation, optimal temperature and humidity for seed germination, as well as better attachment to the material for sowing the seeds by roots.

EFFECT: increase in fruiting, germination and growth rate of healthy seedlings for their further planting in open ground, as well as obtaining sound new greens or microgreens in the form of sprouts with leaves indoors.

4 cl, 5 dwg

Description

The prefabricated container relates to the field of growing plants and can be used for growing: microgreens, indoor plants, herbaceous plants, seedlings of oilseeds, vegetables, legumes, sugar, grains, ornamental crops, indoors or in greenhouses with an air temperature of at least 15 degrees Celsius. Celsius.

A propagator for seeds and plants is known [Patent GB 1406708 A, 09.17.1975], containing a water reservoir, a soil holder installed above the said reservoir and having a perforated or slotted base, a wick passing through at least one of the holes of the said base for transferring water from said reservoir to the soil in said soil holder, and means for controlling ventilation above the soil. Said soil holder may be provided with a cover member including means for adjusting ventilation in the soil holder. The reservoir, soil holder and cover may be separate units adapted to be removably stacked on top of each other. Any or all of them can be made of a transparent material, such as molded plastic. Water can be transferred from the reservoir to the soil using one or more wicks, preferably newspaper, which can be folded or rolled to a given thickness to vary the amount of water lifted. Where a single wick is used, it is preferably installed in the center hole of the base of the soil holder and lowered into the water below. The holes not occupied by wicks serve for drainage. The lid may be apertured and provided with a rotatable apertured mount, such as a surrounding ring, by means of which the apertures can be partially or fully opened or closed as desired.

The main disadvantage of this device is the reduction in fruiting, germination and growth rate of healthy seedlings for further planting in open ground due to the absence in the design of any material for sowing seeds that can provide the necessary air exchange within itself and the lack of ability to accumulate harmful to the roots substances, the device only has a soil holder, meaning the user can only use soil in this device. When the soil is continuously moistened through wick irrigation, it gains a humidity of 90 - 95%, water fills all soil pores, even if there are drainage holes in the reservoir where the soil is located, the air from the soil is almost completely displaced, which in turn can have a very negative impact on planting material , such as seeds or seedlings, due to the fact that at such humidity there is a lack of oxygen for the normal functioning of the plant root system. With prolonged excessive moisture, methane compounds, as well as complex aldehydes, ferrous iron, etc., harmful to roots, accumulate in the soil. As a result, growth processes are suppressed and functional functions of the root systems appear, in particular, their absorption of minerals is disrupted, in addition, plants are affected by fungal diseases, as a result of which the plant is more likely to die after germination from the seed, or the death of the entire seedling occurs.

A prefabricated container for plants is known [Patent RU No. 2615472, IPC A01G 27/06, publ. 04.04.2017], containing a first pot having a side wall, a bottom and an internal space for placing a plant in said space in the soil or other growing medium, a second pot connected to the first pot and having a side wall, a bottom and an internal space for forming a liquid reservoir, and a wick extending from said reservoir into the interior of the first pot and configured to transport liquid from the liquid reservoir into the interior of the first pot, the wick extending between the first and second pots and engaging along or near an upper edge of the first pot into the interior of the first pot, for example, through an opening in its wall, wherein the first pot is substantially waterproof and the collection container is configured to prevent liquid from being transported between said reservoir and said growing medium along a path other than said wick, characterized in that the first pot is placed within the second pot in a tight fit such that the liquid reservoir is located substantially below the first pot, at least substantially below the interior of the first pot, and the volume between the side walls of the first and second pots is minimized and is, for example, less than 3% of the volume of the first pot, and the liquid reservoir has a filling hole located on or adjacent to the upper side of the collection container, and is connected to the specified filling hole through a filling channel.

The main disadvantage is the lack of a lid covering the first pot in which the plant should be placed, a non-hermetically sealed lid or a device in the container design that creates an optimal microclimate, namely maintaining the necessary air humidity and temperature for seed germination. The lid also protects the seed growing medium from drying out.

A device for growing plants with automatic soil moisture (Kizhevan) is known [Patent RU No. 2108709, IPC A01G 27/00, 09/02, publ. 03.24.1997], containing a housing with drainage holes, consisting of upper and lower cylindrical parts, as well as a water container in the form of a tray and a means for planting placed in the housing on a stand, having an opening for inlet and outlet of water, characterized in that the water tank is equipped with an overflow tube, and the stand is made in the form of a perforated plate on supports, while the inner walls of the upper part of the body have vertical ribs with guides, and the means for planting plants is made in the form of a bag made of moisture-permeable fabric, the upper part of which is wrapped over the edge of the body and pressed with a decorative ring.

The disadvantage of this container is the design of the specified device, it is quite complex to produce and, as a result, expensive and easily damaged, it is also very complex and unreliable to use, due to the fact that in order to use the device it must be installed on a constantly heated surface and Make sure that the temperature of the liquid in the tray of the device is 1 - 6 degrees Celsius higher than the temperature of the body wall and the nutrient mixture, otherwise the plant in the device will not be watered.

The objective is to create a device with an automatic system for supplying liquid to the roots of plants with material for sowing seeds, capable of providing the necessary air exchange in a wet state within itself and the absence (exclusion) of the ability to accumulate substances harmful to the roots, with the possibility of using water-soluble fertilizers and fungicides, as well as ensuring conditions for the germination of sown seeds, namely microventilation, optimal temperature and humidity.

The technical result is an increase in fruiting, germination and growth rate of healthy seedlings for further planting in open ground, as well as obtaining healthy young greens or microgreens, in the form of sprouts with leaves, in an enclosed environment.

The technical result is achieved due to the fact that the container contains a first tray for feeding liquid, a removable second tray installed in it, containing wicks installed in the lower part of the second tray in the holes, material for sowing seeds having a moisture-absorbing and large-porous structure, located on top of the wicks and in contact with them, seeds located on top of the material for sowing seeds and a removable clamp located on top of the seeds and in contact with them. The material for sowing seeds is designed to sow seeds on top or inside it and has a moisture-absorbing and large-porous structure, and the first tray for the feeding liquid can be made transparent. Moreover, the second tray can be made slightly shorter in length than the first, due to which a gap is formed between the first tray and the second for filling the reservoir for feeding liquid, so as not to remove the second tray from the first tray, ensuring ease of use. A removable clamp made in the form of a rectangular plate with sides, in shape and dimensions made smaller than the second tray, which will allow it (the clamp) to be installed loosely on the second tray.

In FIG. Figure 1 shows a prefabricated container for growing plants with an automatic supply of feeding liquid, assembled, side view.

In FIG. Figure 2 shows a prefabricated container for growing plants with automatic supply of feeding fluid in a perspective view.

In FIG. Figure 3 shows a prefabricated container for growing plants with an automatic supply of feeding fluid, an example of a round shape, side view.

In FIG. Figure 4 shows a prefabricated container for growing plants with automatic supply of feeding fluid, an example of a rectangular shape, where the second tray 2 is shorter in length than the first tray 1, side view, in section.

In FIG. Figure 5 shows a prefabricated container for growing plants with automatic supply of feeding liquid, square in axonometry.

The collection container 7 contains a first 1 tray for feeding liquid, a removable second 2 tray installed in it, containing at least one wick 3 installed below in a hole in the second 2 tray, material 4 for sowing seeds, located on top of the wicks 3 and in contact with them removable clamp 5 and seeds 6. Material 4 for sowing seeds is designed to sow seeds 6 on top of it or inside it. A removable clamp located on top of the seeds and in contact with them.

The wicks 3 have a moisture-absorbing structure and are made with the ability to transport liquid from the first 1 tray to the second 2 tray. Both trays are waterproof. The number of wicks 3 depends on the size of the container in length and width; their number should ensure that the sowing area is saturated with the required amount of moisture. If the device has a sowing area of 3 ^m2 , for example, it is 2 meters long and 1.5 meters wide, then for every 0.5 ^m2 of sowing area, you need to install a wick 3.

The first 1 tray is made larger in height than the second 2 tray, due to which it has a larger volume. The first 1 tray is made with the ability to quickly fix and remove the second 2 tray into it, due to which they are inserted into one another.

The area for the feeding liquid is located inside the first 1 tray, thereby being structurally located below the second 2 tray. The wicks 3, fixed in the second 2 tray, pass between the first 1 and second 2 trays and are made of moisture-absorbing material. The wicks 3 are fixed vertically into the holes of the second 2 tray and lowered into the first 1 tray with liquid and touch the bottom of the first 1 tray.

The material 4 for sowing seeds has a moisture-absorbing and large-porous structure for good air exchange within itself in a wet state and can be of two types: 1) in the form of a mat made along the length and width of the bottom of the second 2 tray. The rug is made from natural materials such as: cotton, cotton fabric, agrowool, stone wool, linen, jute, coconut fibers; 2) in the form of loose, porous, bulk material, such as: perlite is a rock of volcanic origin; vermiculite is a mineral from the group of hydromicas with a layered structure; a mixture of perlite and vermiculite in a 1:1 ratio. The seed sowing material 4 has the ability to absorb water-soluble fertilizers and fungicides transferred from the first 1 tray with liquid through the wicks 3 to the second 2 tray with seed sowing material 4, thereby nourishing the roots of the plants and achieving an increase in fruiting, germination and growth rate of healthy seedlings , for further planting it in open ground, as well as obtaining healthy young greens or microgreens, in the form of sprouts with leaves, indoors.

The first 1 tray is filled with liquid by removing the second 2 tray from it or through the slot for filling the feed liquid reservoir. The removable clamp 5 does not hermetically close the second 2 tray with sown seeds 6 and presses the seeds 6 to the material 4 for sowing seeds, due to which micro ventilation, optimal temperature and humidity, as well as good germination of seeds 6 are created inside the second 2 tray. to the material 4 for sowing seeds, using a removable clamp 5, is ensured by installing any physical object weighing no more than 1 kg on it, or water is poured into its cavity. After the seeds 6 have sprouted and the plant enters the sprouting stage, the removable clamp 5 is removed from the second tray 2, thereby providing the necessary space for the plant to further grow in height. The removable clamp 5, when installed on the seeds 6, does not fit tightly to the edges of the second 2 tray, due to which a micro-gap for ventilation is formed between the removable clamp 5 and the second 2 tray.

The prefabricated container 7 for growing plants with automatic supply of feeding liquid can be made in different sizes and have different shapes (rectangular, triangular, round, oval, square) depending on the required sowing area. The prefabricated container 7 for growing plants with automatic supply of feeding liquid in the design of the removable second tray 2 may have several holes or slots that are provided for installing wicks 3.

The prefabricated container 7 for growing plants with automatic supply of feeding liquid can be made of materials that can make it waterproof, and the material from which the container is made must be non-toxic and safe for the health of people and animals (for example, foamed polystyrene, polypropylene, food grade plastics).

The prefabricated container 7 for growing plants with automatic supply of feeding liquid is equipped with seeds 6 and water-soluble fertilizers and is applied to the container in individual packages as separate components, for further installation by the user in their places according to the attached instructions, it can also be completed without seeds 6 so that the user could use his own seeds 6.

Let's look at an example of using a container.

Before using the container, the consumer soaks the seeds in water at room temperature, putting them in a dark place for 8-10 hours.

The required amount of water at room temperature is poured into the first 1 tray. Then the wicks 3 are inserted into the holes of the second 2 tray so that both ends of the wicks 3 stick out (hang down) from the holes of the second 2 tray to the length necessary to touch the bottom of the 1 tray. Next, insert the second 2 tray with threaded wicks 3, inside the first 1 tray of a larger volume with poured water. If the container has two, three or more wicks 3, then it is necessary to thread each wick 3 into separate holes in the second 2 tray and also insert it into the first 1 tray. Next, pour or spread (depending on the type of material 4) the material 4 for sowing seeds into the second 2 tray on top of the wicks 3 so that they come into contact with it, distribute the material 4 for sowing seeds evenly over the surface of the second 2 tray. Next, the soaked seeds 6 are evenly scattered over the surface of the material 4 for sowing seeds and a removable clamp 5 is put on the second tray 2, some physical object, no more than 1 kg, is placed on top of the clamp, or water is poured into its cavity. Due to the fact that the wicks 3 are located in both trays, providing a continuous supply of liquid and biofungicides with fertilizers dissolved in it to the material 4 for sowing seeds, the plant roots are fed with all the necessary microelements, their protection from pests is ensured and due to the fact that the removable the clamp 5 does not hermetically close the second 2 tray with the sown seeds 6 inside the second 2 tray, and presses the seeds 6 to the material 4 for sowing seeds, creating microventilation, optimal temperature and humidity for germination of seeds 6, as well as the pressing of the seeds 6, with a removable clamp 5 to material 4 for sowing seeds, due to which seeds 6 are better attached to material 4 for sowing seeds by roots, they do not lift adjacent unhatched seeds, which, together with the characteristics of material 4 (moisture-absorbing and large-porous structure), ensures increased fruiting, germination and growth rate of healthy seedlings, as well as obtaining healthy young greens or microgreens, in the form of sprouts with leaves, indoors.

Claims (4)

1. A prefabricated container for growing plants with automatic liquid supply, including a first tray for feeding liquid, a removable second tray installed in it, containing at least one wick installed in it from below into a hole, and material for sowing seeds, configured to sow seeds on top of it or inside it, having a moisture-absorbing structure, located on top of the wick and in contact with it, and a removable seed clamp is installed on the second tray. 2. A collection container according to claim 1, characterized in that the first tray for the feeding liquid is made transparent. 3. A collection container according to claim 1, characterized in that the second tray is shorter in length than the first. 4. A collection container according to claim 1, characterized in that the material for sowing seeds is made in the form of a mat made along the length and width of the bottom of the second tray, or is made in the form of a loose, porous, bulk material.