RU135876U1 - CAPSULE FOR MASS SOWING OF SEEDS OF TREES AND OTHER PLANTS USING AVIATION - Google Patents

Abstract

1. A capsule for the mass sowing of seeds of trees and other plants using aviation, compressed from peat, characterized in that the capsule is formed from a long and medium reinforcing fibrous structure of peat raw materials and a natural adhesive binder with an estimated impact strength, has an aerodynamic shape with one or a group of seeds of one or various varieties of trees or other plants located in the center of the capsule or shifted from the center of the capsule to the shell zone. 2. A capsule according to claim 1, characterized in that the capsule has an aerodynamic spherical shape. The capsule according to claim 1, characterized in that the capsule has an aerodynamic disk-shaped planning shape and structurally consists of two strongly flattened ellipsoidal surfaces. A capsule according to claim 1, characterized in that the capsule structurally has a top and a bottom of two different or identical cones, or truncated cones, or flattened hemispheres. The capsule according to claim 1, characterized in that the capsule has an aerodynamic elliptical shape. The capsule according to claim 1, characterized in that the capsule has an aerodynamic conical shape with a length of three to four diameters of the base with a strongly rounded base rib, with a shifted center of gravity to the tip of the cone, with one or a group of seeds of one or different varieties of trees or other plants, located inside the capsule. 7. A capsule according to claim 6, characterized in that the capsule has direct external or internal or oblique external or internal stabilizers located along the generatrix of the conical capsule. Capsule according to claim 5, characterized in that the capsule is in the form of a hollow container type with thin, easily destroyed

Description

The utility model relates to the field of mass planting of seeds of plants using aircraft - the release, dispersion and deepening of seed by a pyrotechnic charge or other mechanisms at hand.

Currently, aviation equipment is widely used for agricultural work. Special aircraft designs have been developed for aviation chemical work in agriculture and forestry. But the possibility of mass planting of forest territories of the Russian Federation with the use of aviation to eject and disperse seeds of trees and other plants using a pyrotechnic cartridge or other mechanisms is not at all considered.

To implement this method, it is necessary to develop special capsules with aerodynamic characteristics with pressed seed material, which allows the ejection, dispersion and deepening of encapsulated seeds from a height of various types of aviation equipment.

The principle of using seed encapsulation is quite widespread in the field of crop production. So, there is a method of obtaining a capsule for seed germination and growth [RU 2277315, 07/12/2004]. Capsule for seed germination and growth, the composition of which is determined by the type of seeds and application conditions, having a multilayer structure containing all the ingredients necessary for each stage of the initial period of plant development, the components of which are organic and mineral nutrients, filler, binder, fungicide and water in various mass ratios. These capsule designs are aimed only at creating a favorable environment for seed germination and are not intended to be ejected from the aircraft, therefore they do not have sufficient strength and aerodynamics in flight.

The prototype can be bio-containers used for containerization of seeds of agricultural crops, garden, medicinal and ornamental plants for storage and before planting in the ground [RU 95956 U1, 07.20.2010]. This biocontainer is spherical in shape for planting plant seeds, compressed from biohumus and / or peat powder, having a hollow cone-shaped hollow cavity 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, made with a central cylindrical section coaxial with the conical cavity, the generatrix of which is inclined at an angle of 8–9 ° to jam the stopper oh autonomously made in the form of a ball, and a jumper hollow cavity of the container height is 0.3-0.4.

This biocontainer does not have the necessary strength for ejection from the aircraft and does not have an appropriate shape with aerodynamic characteristics that ensure the expansion and delivery of seeds to the surface of the earth, deepening the seed capsule into the soil, taking into account the characteristics of the soil surface.

The objective of this utility model is the creation of seed capsule designs with aerodynamic characteristics for mass planting of forests and other plants using aircraft without human presence on the ground. The ecological system of the Earth is weakened and needs to be restored soon, one of the methods of which is the mass planting of forests, shrubs, and possibly rare endangered plants. Planting large areas of forest in short periods of time — reforestation, afforestation of water bodies, steppe zones, deforestation sites, abandoned quarries — is an important state task.

Man-made factors in the form of harmful electromagnetic, acoustic, thermal, radio waves and radiation fields; Climate weapons developed by some countries also destroy the surrounding nature and wildlife. The recorded climatic changes on Earth and tensions in the earth's crust dictate the need for renewal of forests - areas of pure self-organizing nature.

On the planet, fresh water, fertile land and the natural climate can be returned only by fully restoring the forests of the planet. Then the earth and nature will do everything themselves.

The proposed design of seed capsules with aerodynamic characteristics are intended for mass planting of seeds of trees and other plants using aircraft (helicopters, aircraft, etc.) without the use of land vehicles and special technical sowing machines, i.e. without the presence of man and technology on earth.

The proposed useful model of capsules with aerodynamic characteristics has a very wide different purpose and specific field of application and can be implemented on the territory of the Russian Federation (the Far East, Southern steppe zones of Russia) and the ministries controlled by them, restoring the forest zones of the Russian Federation and planting new ones, indirectly ensuring a good yield of all crops, livestock farming, lower domestic prices.

The utility model is intended to significantly increase efficiency and increase the coverage of the area sown with seeds of trees and other plants, with extremely minimal economic costs for material, technical, temporary and labor human resources.

The technical result of the proposed utility model is a significant increase in efficiency and an increase in the coverage of the area sown with seeds of trees and other plants with extremely minimal economic costs for material, technical, temporary and labor human resources.

The technical result is achieved due to the fact that the capsule for the mass sowing of seeds of trees and other plants using aviation, is compressed from peat and formed from a long and medium reinforcing fibrous structure of peat raw materials and a natural adhesive binder with an estimated impact strength, has an aerodynamic shape with one or a group of seeds of one or different varieties of trees or other plants located in the center of the capsule; the capsule has an aerodynamic spherical shape; the capsule has a displaced center of gravity due to the displacement of the seminal mass from the center of the capsule; the capsule has an aerodynamic disk-like planning shape and constructively consists of two strongly flattened ellipsoidal surfaces; the capsule structurally has a top and bottom of two different or identical cones or truncated cones or flattened hemispheres; the capsule has an aerodynamic elliptical shape; the capsule has an aerodynamic conical shape, with a length of three to four diameters of the base with a strongly rounded base edge, with a shifted center of gravity to the tip of the cone, with one or a group of seeds of one or different varieties of trees or other plants located inside the capsule; the capsule has direct, external or internal, or oblique, external or internal, stabilizers located along the generatrix of the conical capsule; the capsule is in the form of a hollow container type with thin, easily collapsing walls and acts as a supporting container for a finely dispersed mixture of flower and herbal mixtures of seeds from small to extremely small, loaded with seeds of the same species or a mixture of herbs of the desired species in the required percentages.

The proposed utility model is a capsule for mass planting of seeds of trees and other plants using aviation.

This problem is solved as follows. The capsule is compressed from peat, the impact strength of which is ensured by molding from a long and medium reinforcing fibrous structure of peat raw materials on an adhesive, as an option, gelatinous basis with the possible addition of fertilizers. The capsule is shaped according to the tasks of aerodynamics, ejection from a height, expansion and possible deepening into the soil. Taking into account the specific conditions of application / use of seed capsules (drop from heights, free fall or drop with initial acceleration, flight speed requirements, flight path, orientation in air, aerodynamics geometry, passage of the vegetation cover of the earth at speed, entry into the soil at angles) of the existing volumetric geometric shapes, the following types of capsules are offered.

Example 1

The design of the spherical capsule is shown in Fig. 1, where 1 is a capsule pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 - seed. The spherical design is intended for seeds with a close to spherical shape such as linden, pine, cedar, hazel seeds. One or a group of seeds of one or different varieties can be placed in a capsule. With high expected germination, there is one seed in the capsule, with low germination several duplicate seeds. In one capsule it is possible to lay one seed of a tree (pine, linden, etc.) and here flower seeds, receiving a natural combination of forest herbs, flowers, shrubs, elfin trees and trees.

The consumption of capsule body material is extremely minimal at cost. A spherical capsule can have the smallest dimensions and the lowest cost, the smallest size - up to five millimeters in diameter. The spherical capsule has rapid self-orientation in the air, low susceptibility to lateral drift. Use - on the open ground without deepening by the method of "seed spread". Use for the purpose of deepening in the soil is possible.

Example 2

The design of the spherical capsule is shown in Fig. 2, where 1 is a capsule pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 is the seed, and there is a shift of the center of gravity of the capsule into the shell zone. The shift of the center of gravity increases the strength of the capsule several times when dropped from a height and hit hard objects (stones, branches). This design is intended for seeds in a shape close to spherical.

Example 3

The design of the disk-shaped capsule is shown in Fig. 3, where 1 is a capsule pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 - seed. A disk-shaped design in the form of two strongly flattened ellipsoidal surfaces having minimal aerodynamic drag. A disk-shaped capsule from one discharge point has a maximum glide range. The disk-shaped design is intended to realize the planning properties of the capsule form for light seeds, one or several pieces per capsule. In the capsule, you can also place one or a group of seeds of one or different varieties.

The disk-shaped form is strong enough, has a low flight speed, which prevents easy breaking when hitting hard stones, bumps, branches. They are used in cases where one-time dispersal of seeds is required over as large areas as possible due to the good planning properties of discoid forms. It is best used on erosive soils or in steppes with depleted grass cover.

When sowing, it is better to set the initial speed by dropping at high speed the aircraft side and from high altitudes. Disc displacement capsules without the use of pyrotechnic devices.

Example 4

The design of the disk-shaped capsule is shown in Fig. 4, where 1 is a capsule pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 - seed. The disk-shaped form can have the top and bottom of two cones (Fig. 4, pos. A) or truncated cones (Fig. 4, pos. B) or flattened hemispheres (Fig. 4, pos. C) or a combination of two different figures ( Fig. 4, item D). This disc-shaped design is intended for the planning transfer of large heavy seeds (for example, walnuts, acorns, chestnuts) over as large sowing areas as possible. A disk-shaped capsule from one discharge point has a maximum glide range. The disk-shaped form is strong enough, has a low flight speed, which prevents easy breaking when hitting hard stones, bumps, branches.

Example 5

The ellipsoidal capsule design is shown in Fig. 5, where 1 is a capsule pressed from peat, impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 - seed. The ellipsoidal shape can be ovoid (Fig. 5, pos. A) or ovate elongated (Fig. 5, pos. B). Applicable when jumping, jumping, jumping and rolling on the ground are required so that the capsules themselves look for a place - pits, cracks, holes where they can roll, jump and stay there to germinate. Such plantings can be massive on fairly flat terrestrial surfaces of semi-desert areas, salt marshes, loess and gently sloping soil and rocky grass slopes. On wide open flat surfaces, the use of light aircraft at speed, at low altitude, up to 15-25 meters is effective.

Example 6

The design of the conical capsule is shown in Fig. 6, where 1 is a capsule pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder, 2 - seed. The shape is pointed, strongly elongated, about three to four times the diameter of the base with a strongly rounded base rib and a shifted center of gravity to the tip of the cone. It best carries the seed material of a pronounced ellipsoid shape (acorn, i.e. everything that is long and narrow), all large and heavy: stone fruits, nuts.

It has a minimum drag, good aerodynamics, rather quick self-orientation in the air. The cone, like a sharp wedge, spreads vegetation well, easily penetrating through it. The cone is best suited where deepening into the soil is needed, for which a free fall rate is sufficient, or with initial acceleration given by the powder charge of the cartridge and from low heights (about 5 m) for deepening into dense heavy soils. It is used where penetration of dense thickets of ground vegetation is required. In calm weather, it can be used in discharges from high altitudes, while maintaining the accuracy / density of the working area.

Example 7

The design of the capsule with the seed inside has a conical shape with side stabilizers, shown in Fig. 7, pressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder. The shape is pointed, strongly elongated, about three to four times the diameter of the base with a strongly rounded base edge, having different types of aerodynamic stabilizers. Stabilizers maintain the desired orientation in flight, resist wind drift and provide the necessary accuracy for landing in the ground.

Simple direct external (Fig. 7, pos. A) and internal (Fig. 7, pos. B) stabilizers give vertical orientation, orientation speed after ejection from the pyrotechnic cassette, resist wind drift and provide the required accuracy for landing in the ground.

Oblique / angular aerodynamic sway stabilizers internal (Fig. 7, pos. B) and external (fig. 7, pos. D) suggest significantly more possibilities than direct coaxial stabilizers.

Direct coaxial stabilizers (non-rotating) are effective for use at heights of 7-15 meters. Stabilizers with aerodynamic swirling (rotating) to apply, tentatively, starting from heights of 15-25 meters and above.

Capsules with aerodynamic spin stabilizers at low altitudes do not have time to spin, there is not enough height, so they lose their meaning. Direct coaxial stabilizers have time to expand the capsule, with the tip pointed down.

We can assume that the stabilizers are direct coaxial - fast orientation. Another type - oblique sway stabilizers - on long trajectories. Hence the difference in requirements and in the approach to the aerodynamics of capsule designs. Thus, direct coaxial stabilizers work on the rotation and orientation of the capsule, the second oblique aerodynamic swirls work on the stability of long trajectories and partial orientation.

Example 8

The ellipsoid container-shaped capsule design is shown in Fig. 8, compressed from peat, the impact strength of which is provided by the long and medium reinforcing fibrous structure of peat raw materials and natural adhesive binder. A light thin-walled capsule is proposed - a container that acts as a carrier container for a mixture of flower and herbal mixtures of seeds from small to extremely small. The capsule container is loaded with seeds of one type, or with a seed mixture of herbs of the desired species in the required percentages. Applicable for finished forests. Thin-walled container capsule easily breaks on the upper branches of trees. The forest zone is pollinated from above with a finely dispersed cloud of flower-grass seeds, then it is carried by the wind and subjected to further washing by rain into the soil. Applicable in very windy weather.

Ellipse-shaped containers are designed for volumes of 200-400 ml of seed mixture, with a total weight of 0.5-1.0 kg.

Claims (8)

1. A capsule for the mass sowing of seeds of trees and other plants using aviation, compressed from peat, characterized in that the capsule is formed from a long and medium reinforcing fibrous structure of peat raw materials and a natural adhesive binder with an estimated impact strength, has an aerodynamic shape with one or a group of seeds of one or different varieties of trees or other plants located in the center of the capsule or offset from the center of the capsule to the shell zone. 2. The capsule according to claim 1, characterized in that the capsule has an aerodynamic spherical shape. 3. The capsule according to claim 1, characterized in that the capsule has an aerodynamic disk-shaped planning shape and structurally consists of two strongly flattened ellipsoidal surfaces. 4. The capsule according to claim 1, characterized in that the capsule structurally has a top and bottom of two different or identical cones, or truncated cones, or flattened hemispheres. 5. The capsule according to claim 1, characterized in that the capsule has an aerodynamic elliptical shape. 6. The capsule according to claim 1, characterized in that the capsule has an aerodynamic conical shape with a length of three to four diameters of the base with a strongly rounded base edge, with a shifted center of gravity to the tip of the cone, with one or a group of seeds of one or different types of trees or other plants located inside the capsule. 7. The capsule according to claim 6, characterized in that the capsule has direct external or internal or oblique external or internal stabilizers located along the generatrix of the conical capsule. 8. The capsule according to claim 5, characterized in that the capsule is in the form of a hollow container type with thin easily collapsing walls and acts as a supporting container for a finely dispersed mixture of flower and herbal mixtures of seeds from small to extremely small, loaded with seeds of the same species or a mixture of herbs species in the required percentages.

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