RO126360A0 - Process for obtaining vegetables in certified ecological system and installation for applying the process - Google Patents

Abstract

The invention relates to an installation and a process for agricultural crops such as vegetables, in greenhouse type protected spaces. According to the invention, the process consists in cultivating vegetables in tunnel-type solariums. The process claimed by the invention consists in cultivating vegetables in tunnel-type solariums built as movable modules, with the same dimensions, located parallel having a free soil strip therebetween, there being ensured the possibility of periodical rearranging the tunnels by rotation on these free strips, so that the tunnel rotation is made permissibly and alternatively and between the rotation periods these free soil strips are cultivated with green crops such as clover, lucerne, peas or soya, the alternation of placing the tunnels being made at intervals of 3-5 years. The installation claimed by the invention for the application of the process consists of solarium tunnels (1) built as movable modules, with the ration between length and width of 2.5...5.5, consisting of steel springs (3), the tunnels (1) being mounted on the soil, parallel to one another, spaced apart from each other by a distance equal to the distance between the ends of the metal springs (3) thereof, each spring (3) being located at the two ends on two concrete cups (4) secured on the ground; between the solarium tunnels (1) there resulting some free strips (2) which are cultivated in open air and which belong to the micro-solarium unit irrigated by water drips or micro-dispersion, preferably with rain water that is collected by a system of underground pipes (15) connected to some gutter collectors (17) which supply a water tank (10), the water being brought to the irrigation system by a water supply plant (11) and passed through a filter (12) and a fertilizing doser (13).

Description

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Patent application

Procedure for obtaining vegetables in a certified ecological system and installation for applying the process

The invention relates to a process for obtaining vegetables in ecologically certified system and to an installation for applying the process.

It is known that in vegetable farms in conventional system, which uses solariums. vegetables benefit from multiple chemical treatments and varieties. These solariums in the conventional system have a minimum area of 1000 ni ² . Also in the ecological systems of cultivation of vegetables the solariums have dimensions starting with 1000 m2. The explanation of such large areas of cultivation is related to the large volume of production desired. For known cultivation areas, solariums with a minimum size of 400 square meters are used. placed next to each other for the most efficient use of surfaces.

These solariums and their system of location and construction are unsuitable for subsistence farms, such as family farms, because the available spaces are much smaller. Thus for subsistence farms, family farms or association farms, the ecological solar system for growing vegetables requires a covered area of exploitation below 500 m2. For this reason, this covered area is little used in family households on the one hand due to the insufficient space, but especially to the tenological specificity of the ecological system.

The technological specificity in the ecological system for the cultivation of vegetables consists in particular in the rotation of the crops under the coverings of the solariums. The rotation of the crops in ecological systems is done by the use by rotation of the tunnels of the solariums and by the use of the ecological chemical fertilizers, of the manure and of the regulators of growth of plants, applied directly on the soil under the solar.

The technical problem that the invention solves is the accomplishment of an ecological process and of a micro-solar unit in an ecological system destined to produce vegetables in the subsistence households of family households) or in small urban associations, through which the unit has a maximum area of 700-800 m2 of which only 400 m2 are covered by solariums, and the rest destined for soil enrichment procedures and the use of own treatment facilities in ecological system.

The process according to the invention consists in the cultivation of vegetables in an ecological system in solar rounds built as mobile modules, of the same size, placed parallel to each strip of free soil between them. with the possibility of periodic re-placement of the tunnels by rotation on these free strips, so that the rotation of the tunnels is done permissively and alternatively, and between the rotation periods these free soil strips are grown with green crops, such as 11: clover, lucerne , peas, beans, soybeans, etc., alternating the placement of tunnels at intervals of 3-5 years.

The installation for the application of the process consists of tunnels of solariums. (1) are constructed as movable modules, with the ratio between the length and the width of 2.5..5.5 made of steel springs (3), the tunnels (1) being mounted parallel to the ground, at a distance between equal to the distance between the ends metal springs (3) thereof, each spring (3) being placed through its two ends on two concrete cups (4) fixed to the ground. between the tunnels of solariums (1) there are some open lands (2) that are cultivated in the open air during the cultures of the tunnels and which are part of the microsolar unit, a unit that is irrigated by a system of codcodes (7 and 8). drip irrigation and micro-spray. known in itself, which is supplied with water for irrigation controlled by a computer (l4) whose program ensures the weak water. as well as the frequency of watering for the biological needs of the plants, both from the two tunnels of solariums and from the space between them, the system being constituted by a water inlet pipe (9) in a water basin (10) and a hydrophore (11), which is connected to a filter (12) and to a dosing device (13) for organic fertilizers.

For the preferential use of rainwater for irrigation, the installation contains a rainwater collection system for supplying the water basin (10). consisting of underground pipes (15) connected directly to the drainage pipes (16) of the rainwater from the collection drains (17) located on the eaves of the buildings (18) (house, stable, etc.) located around and connected to the inlet pipe. of water in the pool.

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The advantages of the invention are the following:

maximizing the potential of subsistence farms by obtaining products with high added value dc on small cultivated areas;

- ensuring the rest of the earth used in the solar, by alternating the location of the solar tunnels;

- obtaining organic vegetables, grown without toxic substances, of special biological value for children, elderly people, chronic patients etc;

- protection of soil and groundwater, as well as of the ecosystem of polluting substances such as: chemical fertilizers, herbicides, insecticides, fungicides, growth stimulants, genetically modified organisms;

- the minimum production costs allow the sale of the products at prices that ensure the amortization of the investment in maximum 3 years;

- protecting the water sources: drinking water, groundwater, etc. and saving energy for obtaining irrigation water by using rainwater, with very low costs and I have remarkable productive results;

- To a large extent ensure atmospheric nitrogen and not nitrogen from manure, which even in the ecological system pollutes the environment and requires time for fermentation.

The following is an example of embodiment of the invention in relation to the figures which represent: Figure 1: installation overview, 3 D view;

Figure 2: cross-section through the concrete glasses;

Figure 3: cross-section of the concrete beaker fixed to the ground;

Figure 4: scheme of location and rotation of tunnels.

The process according to the invention consists in the cultivation of vegetables in solar tunnel I. as modular systems, of equal size and placed parallel to each other and with the provision of a free soil strip 2. These free soil strips 2 of the tunnels 1 are intended for outdoor cultivation. of green plants. Also these free strips 2 are intended for the possibility of periodically relocating the tunnels 1, by rotating these free soil strips, so that. into the

With-201 0-01335-1 3 -12- 2010 the ecological system rotates the tunnels 1, to be done permissively and alternatively. Between the periods of rotation these strips of free soil 2 must be cultivated with green crops, such as: clover, alfalfa, peas, beans, soybeans. and so on The alternation of the location of tunnels 1 will be done at intervals of 35 years.

This process can be realized for a private household with a microsolar unit consisting of 2 tunnels of solariums 1 with dimensions of 15 ... 30 m long and 6 ... 10 m wide, tunnels 1 being constructed of steel arches 3 which allow to arch a height of the tunnel of 3-5 m, each arch 3 being placed at its two ends on two concrete glasses 4 fixed to the ground, each glass of concrete 4 having fixed in its center a metal tube 5 : each end of the spring 3 is fixed in a metal tube 5 of the concrete beaker 4. by means of a locking screw 6 removable.

The glasses 4 are prefabricated concrete pieces, each having the dimensions of 20x20x25cm. The mounting of each glass of concrete 4 is done by burying it in the ground in a pit at its concrete wall with the dimensions of 30x30x40 cm.

The two tunnels of solariums 1 are mounted on the ground, parallel, at a fixed distance of 8 m between them. and the distance between the ends of the 3 metal springs is also 8 m. In this way the distance of 8 m is the same for both the size of the opening of tunnels 1 and for the distance between parallel tunnels 1.

The fabricated glass 4 has in the center a metal tube 5 with Qlx30cm. the fastening being executed by means of side bars 7. At the outer end of the metal tube 5 is mounted a locking screw 6 for locking the end of the spring 3 in the tube 5.

Above the springs 3 is placed a sheet of transparent plastic material, a foil that is fixed by the structure of the solarium in a way itself known to any solarium, the foil and the mode but of attachment are not shown in the figures.

The tunnels 1 of the solar unit, according to the invention, are covered with polyethylene film of a higher quality with a thickness of 125 microns, with a life span of 4 to 5 years. in thermal effect that can provide a 2-3 degree increase inside the solarium and cooling effect during summer, an effect of control of insects and pathogenic microorganisms. The roll has a length of 60 - 65 m. The guarantee must be at least 2 years.

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The foil fastening system on the tunnel arches consists of a set of aluminum and pvc grooves and pvc clips.

Ventilation inside tunnels 1 is preferably done manually, by rolling the foil on both sides, which allows a very efficient ventilation.

The fixing of the spring ends 3 in the concrete cups 4 is made in such a way that this fixing allows the removal of the springs 3 when the rotation of the solar dc tunnel 1 over a free soil shaft 2 is performed, for this maneuver the solar tunnels 1 can be removed. with the 3 springs and the cover sheet. In this way of making tunnels, they become two mobile modules.

The free terrain 2 of the tunnels 1 obtained by placing them according to the invention is a land intended for green crops during the entire period of the exploitation of the solar tunnels, the free crcnl between the two tunnels are part of the microsolar unit according to the invention.

The microsolar unit, according to the invention, is provided with a drip irrigation system 7 and 8 at the droplet and / or by micro-sprinkler which ensures watering of the crops, simultaneously, both inside the two tunnels and the free space between them and is built in itself known. . Micro-spray irrigation is intended only for the interior of the tunnels.

The drip irrigation system is ideal for irrigating vegetables directly at the root of plants. The construction of this system is itself known from the prior art. However, for the installation according to the invention, the following conditions, not shown in the figures, must be fulfilled: the role of water filtration and its distribution in the irrigation system fulfills the head of the main control with the 50 mm diameter; the main distribution pipe will have a diameter of 40 mm; the distance between the drip lines with the role of distributing water at the root of the plants is 60 cm; each drip line has an individual tap; the drip type is flat: the water flow per drip is 1.7 1 / h; the distance between the droplets is dc 30 cm; outer diameter is 16 mm.

The micro-spray irrigation system according to the invention can be used both as an irrigation system (ideal for seedlings) as well as to increase humidity or lower the temperature in the solariums when necessary. It is not presented in detail in the figures given that the invention uses a known construction for this irrigation system. However, it is specified that this system, for the present invention is constituted by a main pipe

Λ-2010-01355 - 1 3 -12- 2010 from high density PE with a diameter of 40 mm, two secondary pipes (lines) from high density PE with a diameter of 25 mm. The distance between the sprinkler lines is 350 cm. On each secondary pipe there are microspersors at distances of 2.5m. Each micro-sprinkler is equipped with a support and a power hose. Each line of micro-sprinklers has an individual tap at the end.

The water supply system of the microsolar unit, according to the invention, is provided with a water inlet pipe 9 in a semi-buried water basin 10 and a hydrophore 11, which is connected to a filter 12. The water filtration is carried out with a 2 '' plastic filter2 fitted with a sieve.

Between the hydrophore 11 and the water filter 12 is located a device 13 for automatic administration of the organic fertilizers.

The water flow and the frequency of watering are programmed using a computer 14 whose program ensures the biological needs of the plants both from the two tunnels of solariums and from the space between them which is cultivated in the open air.

For the supply of the two irrigation systems, rainwater, mainly with high quality, flowing or groundwater, is mainly used.

The supply of rainwater to the water basin 10 is achieved by connecting the underground pipes 15 to enter the water directly into the drainage pipes 16 of the rainwater from the collection troughs 17 located on the eaves of the buildings 18 (house, stable, etc.). near which the microsolar unit is located.

Access to the solarium is through two sliding doors. not represented in letters. positioned at the ends of each tunnel, which will be made of galvanized steel, with dimensions of 2.3m x 2.3m.

The following additional features can be used:

- shading mesh that provides a balanced shade in the targeted area and protection of products against strong sunlight. The net can protect the shaded area from environmental factors such as dew, frost or dust. While ensuring the shading of the area also allows, through its porous texture, air circulation. It must have good resistance to breaking and long-term use.

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- insect protection net, indispensable for preventing plant diseases in the ecological system and shading nets, needed during the summer. The insect net is a mesh made of polyethylene microfilaments, which prevents the entry into the tunnels of the most dangerous insects affecting the crops. vegetables: Trips and White Muscles. This mesh prevents almost 100% of insects and aphids from entering the tunnels. In this way the plants grow under optimal conditions the stress caused by feeding the insects with leaves or flowers. The risk of viral disease of vegetable crops decreases considerably.

Claims (4)

1. Process for obtaining vegetables in a certified ecological system, characterized by the fact that the cultivation of vegetables in an ecological system is done in solar tunnels built as mobile modules, with the same dimensions, placed parallel to each strip of free soil between them. with the possibility of periodic re-placement of the tunnels by rotation on these free strips, so that the rotation of the tunnels is done permissively and alternatively, and between the rotation periods these free soil strips are grown with green crops, such as: clover, lucerne , green peas. beans, soybeans, etc .. the alternation of the tunnels placement at intervals of 3-5 years. 2. Installation for the application of the process according to claim 1, consisting of the tunnels of solariums, characterized in that the tunnels of the solariums (1) are constructed as movable modules, with the ratio between length and width of 2.5..5,5, made up of arcs of soles. steel (3), the tunnels (1) being mounted parallel to the ground. at a distance between them equal to the distance between the chapels of their metal arches (3), each arch (3) being placed through its two ends on two concrete glasses (4) fixed to the ground, between the tunnels of the solariums (1) there are some open lands (2) that are cultivated outdoors during the cultivation of the tunnels and which are part of the microsolar unit, a unit that is irrigated by a system of drip irrigation (7 and 8) and by micro-spray, known in itself, which is supplied with water for irrigation controlled by a computer (14) whose program ensures the flow of water, as well as the frequency of watering intended for the biological needs of the plants, both from the two tunnels of solariums and from the space between them, the system consisting of a water inlet pipe (9) in a water basin (10) and a hydrophore (11), which is connected to a filter (12) and to a dosing device (13) a fertile ecological dangers. 3. Plant according to claim 2, characterized in that, for the preferential use of rainwater for irrigation, it contains a system for collecting rainwater, for supplying the water basin (10), consisting of underground pipes (15) connected directly at the drainage pipes (16) of the rainwater from the collection troughs (17) located on the eaves of the buildings (18) (house, stable, etc.) near and connected to the water inlet pipe in the basin. % ^ -2010-01335-1 3 -12- 2010 4. An installation according to claim 2, characterized in that each glass (4) is a precast concrete, of truncated construction and a metal tube (5) in its center is fixed to the concrete by some bars (7), in each the beaker (4) can be fastened to each end of the spring (3), by means of a locking screw (6), so that this fixing allows the springs (3) to be removed when rotating the solar tunnel (l) m at the alternation the placement of tunnels (1), as removable modules, over free land (2).