RU2002135940A - SUNNY INTENSIFIED GREENHOUSE COMPLEX - Google Patents

Claims (13)

1. A solar intensified greenhouse complex, which contains a jointly converting helioconversion workspace, a light-permeable heat-insulating dome-shaped coating, mounted on load-bearing supports installed vertically on the base, areas with cultivated plants, basic equipment and auxiliary technological means ensuring the functioning of the said complex according to its designation, characterized in that it is additionally equipped with a solar-absorbing, heat-accumulating a tank mounted on the base in the center of a translucent heat-insulating dome-shaped coating made of roofing blocks of an opaque material with low thermal conductivity, with an array of through holes in the form of truncated cones or pyramids, coated inside with a reflective material and covered with a thin translucent material inside and out, the surface above blocks facing the helioconversion space and not occupied by through and technological holes, covered with a beam-reflecting material, and on the territory adjacent to the translucent heat-insulating domed cover of the territory concentrically to it, and at least in two concentric rows, predominantly flat beam-reflecting panels are placed, each of which is installed on the output link of its two-coordinate rotary mechanism with controlled drives, the base of which fixed on a support stand, vertically mounted on the ground, forming together with reflectors, one of which is made in the form of a truncated cone whether a truncated polyhedral pyramid with a reflecting surface is predominantly outside and placed apex down above the center of a translucent heat-insulating dome-shaped coating in which a continuous translucent heat-insulating opening is created in the center, and the second in the form of a hollow truncated cone or a truncated polyhedral pyramid with reflective inner and outer side surfaces installed inside a translucent heat-insulating dome-shaped coating with the top up, under the first reflector and coaxially with him, an additional energy channel in the form of a stream of sunlight reflected by ray-reflecting panels, concentrated and directed from top to bottom, inside a translucent heat-insulating dome-shaped coating, and the controlled drives of the two-coordinate rotary mechanisms of the reflecting panels are connected by their inputs to the outputs of the automatic control device implemented on the basis of a computer center, the electrical inputs of which are connected to the sensors of the temperature of the medium in a solar-absorbing, heat kkumuliruschem reservoir and in the space under the dome-shaped translucent insulating covering, with sensors for wind direction and velocity, with position sensors output shafts XY rotary mechanisms lucheotrazhayuschih panels. 2. Solar intensified greenhouse complex according to claim 1, characterized in that the solar-absorbing, heat-storage tank is made of at least two containers filled with dissimilar substances, with water - the first, and, for example, sodium chloride - the second, and the second tank is placed in the center of the first and insulated on the sides and bottom of the water filling the first tank, installed in the center of the dome-shaped coating, with a material with low thermal conductivity, and above, from the internal environment of the helioconversion space, - vetopronitsaemym, heat-insulating coating, and the first - by means of conduits and circulation pumps connected in a ring configuration with forced cooling coils reflectors mounted above helio-absorbent, heat accumulating tank, inside and outside the light-transmitting heat-insulating coating dome. 3. Solar intensified greenhouse complex according to claims 1 and 2, characterized in that the auxiliary technological means that ensure the functioning of the above complex according to its designation, additionally include hot water supply channels for residential rear and / or industrial buildings, thermally connected to the first tank a heat-absorbing, heat-accumulating tank, and channels for industrial energy supply with steam and / or hot air associated with a second capacity of a heat-absorbing, heat-accumulating an emulating tank, and the latter, as a source of high potential thermal energy, is also connected to power-consuming units of its own needs of the above complex, including a mini-thermal power plant of auxiliary needs, the outputs of the cooling systems of which are connected with the first capacity of a solar-absorbing, heat-accumulating tank or other consumers of thermal energy. 4. Solar intensified greenhouse complex according to claims 1 to 3, characterized in that the roofing blocks of a translucent heat-insulating dome-shaped coating are made of at least three-layer with through openings in the form of truncated cones or polyhedral pyramids, the side surfaces of which are covered with a reflective material, and the openings on the outer and inner sides of the blocks are closed with a thin translucent material with low heat conductivity, while the extreme layers of these blocks are made of concrete or plastic and They are framed, and the middle one is made of a heat-insulating material of particularly high efficiency, for example, polyurethane foam. 5. Solar intensified greenhouse complex according to claims 1 and 4, characterized in that the axis of the holes in the outer layer of the roof blocks is made at an angle of 10-40 ° to the axis of the holes of the inner layers of the roof blocks. 6. The solar intensified greenhouse complex according to claim 1, characterized in that the flat beam reflecting panels are made in a shape close to rectangles elongated in the horizontal direction, and each of them is fixed by means of a bearing profile to the output link of a two-coordinate mechanism with controllable drives providing rotation panel relative to the axis of rotation at an angle of approximately up to 210 ° and fixed with its base on the upper end of a vertical rack mounted motionless on the surface of the earth. 7. Solar intensified greenhouse complex according to claims 1 and 6, characterized in that the flat beam-reflecting panels are made in the form of rectangular frames with polymer threads stretched on them, holding the beam-reflecting material in the plane of the frames, and placed in pairs on one common for each pair, rotary structure, made in the form of a vertical support rack, fixed with its lower end motionless on the surface of the earth, on the upper end of which a two-coordinate mechanism with controlled drives is installed, the output link which rotates the cross member fixed in it with its middle around a horizontal axis coinciding with the longitudinal axis of the cross member, and the intermediate link rotates it around a vertical axis coinciding with the longitudinal axis of the vertical support column, while the frame of the panels with their midpoints are rigidly fixed on the cross member in one plane symmetrically on both sides of the supporting vertical strut and balanced using slings, the lower ends of which by means of rotational suspensions are fixed on the cross member uniformly along its length, and rhnie - at the upper end of the additional strut mounted vertically on the DC link biaxial mechanism. 8. The solar intensified greenhouse complex according to claims 1, 6 and 7, characterized in that the devices for controlling the position of the reflective panels are equipped with remote control channels from mobile command posts of maintenance personnel, used as auxiliary technological means. 9. Solar intensified greenhouse complex according to claims 1, 6 and 7, characterized in that the reflective material used in flat reflective panels mounted on rotary structures is made of at least three layers of different materials fastened to each other, one of which, on the average, is a foil with a mirror surface, the second, facing toward the light, is a thin translucent protective material, for example, a glass film, and the third, facing away from the light, is a material, for example, synthetic kan, coated on the outside of a moisture resistant, cold-resistant reflective dye. 10. Solar intensified greenhouse complex according to claims 1 to 9, characterized in that the features of the terrain and structures in its surrounding territory are used, for example, by means of dyes, as additional radiation reflecting surfaces. 11. Solar intensified greenhouse complex according to claims 1 and 4, characterized in that the roofing blocks of a translucent heat-insulating dome-shaped coating are made using composite material, for example, foam polyurethane reinforced with a metal wall, or carbon fiber, or foam plastic. 12. Solar intensified greenhouse complex according to claims 1, 4 and 11, characterized in that the said roofing blocks are made of foam ceramics. 13. Solar intensified greenhouse complex according to claims 1, 4, and 11, characterized in that the said roofing blocks are made of foam aluminum and / or foam glass.