FR2935220A1 - MODULAR SELF-SUPPORTING STRUCTURE FOR GARDENING IN A FLOOR - Google Patents

Abstract

The invention relates to the construction of an autonomous modular structure in stages. -This combined structure: -A set of racks, freestanding gratings and culture bins. -A rainwater recovery system. -Storage tanks for water. - A controlled pump and watering system. -A solar photovoltaic system installed on the roof. -Renewable energy. -This invention provides the means to increase the cultivated land, to work less painfully, to stop soil pollution, to enrich this land of culture healthily, saving the water of the planet and the time of men, this without any fossil energy, simply thanks to renewable energy.

Description

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The present invention relates to a modular self-supporting structure for gardening in floor. - This structure can be of different sizes. -Its freestanding design is flexible. -It consists of braced vertical ladders. These ladders are assembled by horizontal rails, adjustable in height. -On these smooth a floor supports garden bins. -These sets, ladders and slats, are linked to each floor by walkways of grating. -These grating aisles, are lower than the level of the growing tanks. -These aisles arranged in corridors, allow the gardener's circulation in the center of the growing areas. - These same paths arranged lower than the level of crops allow the gardener a less painful work. - Each structure is covered with a roof overflowing slightly on each side of the growing areas. -The culture tanks can be of different sizes. - These bins made of plastic, are square or rectangular, their height is variable. - They are arranged on the floors, supported themselves by the smooth, on both sides of the work aisles. -In each tank, a pierced and removable double bottom allows water to circulate underground. - In a corner of the tank, a circular strainer holds the earth. -In this angle, at the bottom of the strainer, a hole allows the evacuation of water, by means of an overflow stopper with adjustable level, -At the exit of this hole, the water is recovered for return to the watering circuit. -The water (pushed by pumps) is brought to the 2935220 2-

culture tanks by down pipes, hooked to the structure by quick couplers. - The watering of the whole structure works in closed circuit. Only the missing water in the tanks is added. -Each garden bin can be watered separately, by sector or totally. - Watering is done in different ways: a. spraying over crops. 45 b. pipes drilled on cultivated land. vs. porous pipes in the ground. d. by drip irrigation system. - In a room, in the basement, are the cisterns of the water storage coming from the roof. 50 - Pump systems, filters and all that concerns the technique are in this room. - The energy needs of the structure's operation are provided by photovoltaic solar panels, fixed on the roof. 55 -The solar energy of each structure is stored using batteries, inside a protected room. -This energy allows the operation of watering pumps and any other machine necessary for growing in floor. 60 -The dimensions of the carrying elements of each structure vary proportionally according to their size. - The foundations of each structure consist of concrete footings. 65 - On large structures, the sunshine of crops is done by a well of light (photosynthesis) -The accompanying drawings illustrate the invention. Figure (1): The ground plan. Figure (2): the plane level 0. -3-

Figure (3): The current floor plan. Figure (4): the level 4 plane. Figure (5): The roof plane. Figure (6): Section. Figure (7) and (8): Perspectives.

75 Figure (9): View from above.

Claims (11)

Claims1) Freely adjustable modular structure for gardening in floor characterized in that each structure: is adjustable (a). multiplies the area of its footprint to 80 ground by the number of stages (b). optimizes its consumption of irrigation water (c). is autonomous in renewable energy (d). reduces the arduousness of the gardener's work (e). sometimes has a skylight (f). protects against the excesses of the sun (g). protects against bad weather (h). protects against molluscs, rodents, birds and unwanted insects (i). protects against the cold (j). allows the narrow layout of crop areas (k). allows the expansive, evolutionary, and exportable possibilities of this complex (L). 90 2) Structure according to claim 1) characterized in that (a) each structure can be of different size. Its assembly in floor, can start from two tanks of culture and extend in exponential form, thus multiplying in stages, the unlimited assembly of tanks of culture. 95 3) Structure according to claim 1) characterized in that (b) each structure multiplies its footprint by the number of floors. (Example n ° 1: A structure of 170m2 on the ground multiplied by 5 floors = 380m 2 of cultivable surface in tanks of culture Example n ° 2: A structure of 11m 'on the ground 100 multiplied by a 1 stage = 17m2 of cultivable surface in culture tanks.) 4) Structure according to claim 1) characterized in that (c) each culture tray deposited on its structure has a controlled watering. For each tank, the watering 105 goes four ways permutable and complementary -1 -1 by spraying above the tray. -2-- by pierced pipe placed on the soil of the culture tank. -3- porous pipe disposed inside the earth of the tray 2935220 -5- culture. 110 -4- by the system (drip) for each plant placed in the culture tray. The water is then collected under each culture tank by a pipe to return to the storage tanks. The watering system of the structure operates in circuit 115 closed. This system allows a maximum and sustainable saving of water. 5) Structure according to claim 1) characterized in that (d) the energy requirement of the structure is provided by a photovoltaic solar panel system. The solar panels 120 are arranged on the roof of each structure. The energy provided by the solar panels is stored in batteries in a protected place. 6) Structure according to claim 1) characterized in that (e) The working aisles of each structure are more 125 low than the culture areas. These walkways allow the gardener to work in a standing position on both sides of the crop areas. These aisles allow access to the stairs serving the floor or floors. These aisles serve at each level, and at each angle access to the outside of the structure. These accesses and stairs are protected by guardrails. These accesses to the outside allow the attachment of a chute for the earth and a load-scale hoist to raise and lower the heavy loads, thus reducing the arduousness of the gardener's work. 135 7) structure according to claim 1) characterized in that (f) each structure exceeding a certain volume, has a well of light at its center so that the photosynthesis necessary for any culture can act. 8) structure according to claim 1) characterized in that 140 (g) (h) (i) j) this floor structure covered with a roof projecting from the culture zones, protects crops from excess sun and weather. Its floor construction protects crops from terrestrial insects, rodents and molluscs that are harmful to crops. Its homogeneous tower construction facilitates occasional or permanent protection against undesirable flying birds and insects, this protection can be done by setting nets from top to bottom and on all sides of each structure. Its construction in homogeneous tower allows the protection against the cold, by the momentary or final 150 pose, a transparent coating on all the faces of each structure. (Plastic example, glass or transparent plexiglass.) 9) structure according to claim 1) characterized in that (k) the width of a culture zone, comprising, a tray, 155 an alley, a tray, does not exceed a width of three meters for photosynthesis to act on cultures. 10) Structure according to claims 1) and 4) characterized in that (c) the rainwater recovered from the roof of each structure is stored in tanks below the floor of the structure. This process gives a periodic autonomy in water. For non-autonomous periods, a permanent water point is necessary. 11) Structure according to claim 1, characterized in that (a) (b) (c) (d) (e) (f) (g) (h) (i) (j) (k) (L) the culture 161 in gardening tanks by means of a floor structure is expansive, scalable and exportable.