RU95956U1 - BIO CONTAINER - Google Patents

Abstract

 1. A bio-container of a spherical shape for planting plant seeds, compressed from biohumus and / or peat powder, having a hollow cavity in the form of a truncated cone, open on the side of the larger base, the smaller base of which forms a jumper with the outer surface of the product, where plant seeds are placed in the cavity, and pressed by a stopper from the forming substance, characterized in that it is made with a central cylindrical section, coaxial with the conical cavity, the generatrix of which is inclined at an angle of 8-9 ° for jamming robots made in the form of an autonomously made ball, and the jumper under the blind cavity is 0.3-0.4 container heights. ! 2. The biocontainer according to claim 1, characterized in that the diameter of the cork ball is selected commensurate with the depth of insertion into the conical cavity. ! 3. The bicontainer according to claims 1 and 2, characterized in that it is compressed from a powder substance with a moisture content of 25-28%.

Description

The proposed utility model relates to agriculture, namely to the field of crop production, and can be used for containerizing seeds of agricultural crops, garden, medicinal and ornamental plants for storage and before planting in the ground. In addition, it is possible to use for packaging seedlings of trees, vines and sprouts.

The level of this technical field is characterized by a two-layer biocontainer described in patent RU 2264698, А01C 1/06, 2005, which is pressed from a biologically assimilable substance with the formation of a cavity in it for placement of the seed, which is then pressed from above.

A mixture (wt.%) Is used as the form-forming biologically assimilable substance of the outer shell: 80 - biocompost, 4 - complex mineral fertilizer, 5.9 - binder carboxymethyl cellulose, 1 - microgranules of polyacrylic gel as a water sorbent, 0.1 - microelements and biologically active substances, 9 - expanded perlite (filler).

The composition of the inner shell includes the same components, but without mineral salts and water sorbent, and the biocompost content is 85 wt.%.

The disadvantages of the described biocontainer include the technological complexity of layer-by-layer production of a profile structure and the energy intensity of the process of its manufacture.

The presence of a binder in the composition of the biocontainer - carboxymethyl cellulose reduces the functional reliability of pre-sowing preparation of plant seeds, as it complicates the respiration of seeds, thereby reducing their preservation and reducing germination in the soil.

A tightly bound monolithic biocontainer is too slowly destroyed in the soil, which noticeably delays the awakening of the seed and leads to a later emergence of the sprout to the surface, slowing the development of the plant.

More perfect is the biocontainer according to patent RU 2314666 C1, A01C 1/06 (2006.01), which, according to the technical nature and the number of matching features, is selected as the closest analogue to the proposed biocontainer.

The known bio-container is a spherical product, compressed from a biologically assimilable substance, which is a powder of bio-compost (biohumus) and / or peat with its (2-4) -fold reduction in the volume in which a blind cavity for seed placement is formed, which is then sealed by pressing with side of the open larger base of the cavity of the main forming substance with a (1.5-1.8) -fold decrease in its volume.

The blind cavity in the biocontainer is made in the form of a truncated cone, the generatrix of which is inclined at an angle of 20-35 °, with a smaller base facing the inward biocontainer.

The depth of the blind cavity is chosen so that the jumper (L) - the distance from the smaller base of the truncated cone to the outer surface of the spherical biocontainer is 0.1-0.25 of its total height (N)

A feature of this biocontainer is that for the shaping of the product, biocompost and peat powders with a moisture content of 12-14% are used without the use of an additional binder.

As a form-forming biologically assimilable substance, any substance is used that can be a biologically assimilated plant after awakening the seed (in the presence of sufficient moisture) and partial processing of it by soil microorganisms, as well as being able to acquire the desired shape and mechanical strength with a decrease in volume during pressing and preserve them during prolonged storage, when the seeds are at rest.

As such a substance, powdered biocompost, peat or a mixture thereof with particle sizes of not more than 2.5 mm are used in a known biocontainer weighing at least 97%.

The mass ratio of dried biocompost and peat powders to a state of flowability is selected according to the best compressibility index, since the introduction of any binders is not allowed due to a sharp deterioration in this case of seed germination and a slowdown in plant development.

The described design of the biocontainer provides an increase in the germination capacity of the packed seeds and faster decay of the monolithic structure into parts in the soil with the effect of its cultivation, which is achieved with a significant expansion of the swelling biocontainer.

The first is achieved by improving the humidity regime and conditions of respiration of the seed during storage, which excludes the stressful effect of moisture with subsequent drying by analogy, and the second by the structure of the adhesive bond of the powder of the original product without the use of a binder.

However, a continuation of the advantages of the well-known biocontainer are inherent disadvantages.

The main disadvantage is that when a blind cavity is sealed by direct compression of the forming substance, cases of damaging effects on the seeds are possible due to the gentle planting mode, as a result of which the seeds lose their ability to reproduce plants.

In the absence of binding and adhesive components in the structure of the forming substance, the pressing forces of the biocontainer are significant, which leads to re-compaction of its dry material, which is difficult to disperse in the natural environment of the planting soil.

A relatively large solution of the cone of the hollow cavity of the biocontainer is designed to reduce the load on the seeds due to the decomposition of the pressing force of the powder material of the cork, however, it is unacceptable for pressing the finished ball cork. In this case, the pressed ball protrudes noticeably beyond the dimensions of the product.

In this case, a thin jumper of the biocontainer is forcedly formed under a deaf cavity, which is unreliable thermal protection of the adjacent seed of the plant in the collection of the product, which can cause it to freeze in the ground during cyclic differences in spring temperatures of an unstable climate.

An experimental verification of the manufacture of biocontainers based on a prototype of a powder substance with a moisture content of 12-14% showed that the formed supporting monolith of the product is not functional when planted in the soil without additional treatment, for example, by moistening, since it practically breaks down for an extremely long time, noticeably delaying seed germination.

The task to which the present utility model is directed is to eliminate the noted drawbacks for further improving the design of the bio-container, technological in manufacture, reliable for storing seeds and functional for the purpose.

The required technical result is achieved by the fact that the known bio-container of a spherical shape for planting seeds of plants, pressed from biohumus and / or peat powder, having a hollow cavity in the form of a truncated cone, open from the larger base, the smaller base of which forms a jumper with the outer surface of the product, where plant seeds are placed in the cavity, and, pressed by a stopper from the forming substance, at the suggestion of the authors, it is made with a central cylindrical section coaxial with the conical cavity t, the generatrix of which is inclined at an angle of 8–9 ° for jamming the stopper made in the form of an autonomously made ball, and the bridge under the blind cavity is 0.3–0.4 of the container height, while the diameter of the stopper ball is selected commensurate with the depth of insertion into the conical cavity .

A feature of the proposed biocontainer is that it is compressed from a powder substance with a moisture content of 25-28%.

Distinctive features provided an increase in the biocontainer destination and its quality characteristics in the intended operation.

The implementation of the biocontainer with a cylindrical section, the axis of which coincides with the axis of the conical cavity, is aimed at improving the accuracy of closing parts of the stamping tool, simplifying the process of dull pressing the finished profile of a spherical product with undercutting in one working stroke.

At the same time, the technological capabilities of the biocontainer are expanding, in which it is possible to plantly plant sprouts and cuttings in an oriented manner.

The inclination of the generatrix of the conical cavity at an optimized angle of 8–9 °, exceeding the angle of friction of the pressed material, ensures reliable fastening of the ball plug in the preset position of its jamming, inscribed in the dimensions of the external profile of the product. This simplifies the automation of planting operations of biocontainers from the hopper, in which vaults and congestion do not occur, through a feeder with a slide-type flow divider, and without an orienting device.

The relatively small angle of inclination of the generators of the conical cavity provides free extraction of the press tool of a complex profile without destroying the formed bio-container.

Autonomous manufacture of a ball cork of a given size simplifies the assembly of equally strong structural elements that do not interact with plant seeds placed inside the product.

The implementation of the jumper under a blind cavity with a thickness of 0.3-0.4 of the height of the bio-container ensures that the seeds are located in any spatial position of the assembled product close to the center, which ensures the necessary thermal insulation during automatic planting in the ground in an unstable climate zone, protecting the seeds from freezing in the spring during cyclic vibrations ambient temperature.

Compression of the container elements from powder vermicompost (-compost) and / or peat with a moisture content of 25-28% is carried out without special binders, which are ballast, and reliably provides dynamic destruction of the product into parts when planted in the ground.

When the moisture content of the prepared biohumus and peat is less than 25%, the mechanical strength of the formed bio-container is unsatisfactory, since pressing does not provide sufficient adhesion of powder particles.

When the moisture content of the powder-forming material is more than 28%, pressing is not technologically advanced due to the increase in specific loads and the exudation of excess moisture. Excess moisture in the biocontainer can provoke premature onset of seed growth.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the stated technical problem is solved not by the sum of the effects, but by a new super-effect of the sum of the attributes.

The essence of the proposed utility model is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the formula. The drawing shows:

figure 1 - biocontainer;

figure 2 is the same, an embodiment.

Biocontainers 1 for capping seeds of plants perform a variety of shapes with a diameter of (D _to ) 20, 30 and 40 mm by pressing a mechanical mixture of powder components, the quantitative and qualitative composition of which is determined depending on the crop, variety and regionalization of plants.

As an example of a composition for forming bio-containers, the following is a mixture of components, wt.%:

vermicompost 40-60 peat according to GOST R41.661.1240 10-15 vermiculite 10-14 perlite 5-10 sawdust in accordance with GOST 5244 8-10 hydrogel 5-10 dolomite flour, GOST 1450-93 1-2.

The fractional fraction of bio-humus and peat (top) dried to a moisture content of 25-28% is determined by a range of 3-5 mm to exclude technological dusting during dosing ..

From the prepared homogeneous mixture, a profile biocontainer is pressed with a coefficient of 3.0-3.5 in one pass of the shaped punch with the formation of a blind cavity 2 in the form of a truncated cone, the generatrix of which is inclined to the axis at an angle α = 8-9 °.

A feature of the profile of the biocontainer 1 is the formation of a cylindrical girdle 3, the axis of which coincides with the axis of the blind cavity 2.

After laying in the cavity 2 of the container 1 of the seed of the plant (not shown conditionally), it is sealed by pressing the ball 4 autonomously prepared from the mold-forming mixture, acting as a cork.

The optimized geometric relationships of the characteristic sizes of the biocontainer of various calibers are summarized in a table where:

D _to - the diameter of the forming sphere;

H is the height of the container;

L is the thickness of the jumper;

α is the angle of inclination of the generatrix of the conical cavity 2;

d _W - the diameter of the ball plug 4;

h is the height of the belt 3.

Table D _to , mm N mm L mm H / l α, ° d _w mm h mm twenty 18.9 7.4 0.39 9 7 7 thirty 28.5 11.5 0.40 8 10 40 37 12 0.32 8.5 fifteen 12 40 • 60 twenty 0.33 8.5 twenty 35  • - according to an embodiment of the biocontainer of FIG. 2.

The proposed biocontainer made of biologically assimilable by the plant substances, including organic and inorganic nutrients, biologically active substances that contribute to the intensive growth and development of plants, refers to solid organic fertilizers and corresponds to SanPiN 1.2.1170-02 as a means for presowing seed preparation.

With repeated freezing and thawing, the biocontainer retains its properties and reliably insulates the packed seed of plants.

The proposed bio-container is an environmentally friendly product and does not pose a threat to human life and health and the environment.

In case of accidental ingress of the product of containers into the wastewater, toxic compounds are not formed. In water, the content of nitrogen, phosphorus, and potassium of organic substances may slightly increase.

The qualitative and quantitative composition of the forming material for the container was calculated according to the mathematical model of the experimental design and tested in the manufacture of experimental products that were successfully tested in full-scale preparation of seeds for planting in the ground.

The proposed biocontainer provides optimal conditions for the germination of seeds of various agricultural, fruit and flower plants, as well as for their further growth and development in the most critical initial stages.

The local concentration of nutrients, stimulants and protective substances in the area directly adjacent to the seed saves material resources, and the sufficient mechanical strength of the containers, their structure and shape, and the ratio of the elements create additional seed protection from insufficiently favorable conditions in the soil environment, as well as from damage to the seeds during packaging and during automatic operation of the sowing units.

The proposed technical solution provides an additional opportunity to optimize sowing time, increasing the accuracy of planting seeds and sprouts, which ultimately contributes to increased yield and quality of plant products.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the utility model does not explicitly follow for the specialist in agronomy, showed that it is not known, and taking into account the possibility of industrial serial production of bio-containers on existing equipment, we can conclude that the criteria are met patentability.

Claims (3)

1. A bio-container of a spherical shape for planting plant seeds, compressed from biohumus and / or peat powder, having a hollow cavity in the form of a truncated cone, open on the side of the larger base, the smaller base of which forms a jumper with the outer surface of the product, where plant seeds are placed in the cavity, and pressed by a stopper from the forming substance, characterized in that it is made with a central cylindrical section, coaxial with the conical cavity, the generatrix of which is inclined at an angle of 8-9 ° for jamming robots made in the form of an autonomously made ball, and the jumper under the blind cavity is 0.3-0.4 container heights. 2. The biocontainer according to claim 1, characterized in that the diameter of the cork ball is selected commensurate with the depth of insertion into the conical cavity. 3. The bicontainer according to claims 1 and 2, characterized in that it is compressed from a powder substance with a moisture content of 25-28%.