SU1434053A1 - Trunk in ceiling for passing day light - Google Patents

Abstract

The invention relates to the construction and can be used for upper natural lighting of public and industrial buildings. The purpose of the invention is to increase the efficiency of the use of light energy and the rational distribution of natural and artificial light in the room, as well as providing

Description

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and the reorientation of light fluxes during operation, and the localization of workplace lighting and room aeration. The mine includes duct 1, blocked by a light transmission element 3, which is made oblique and facing south. Under element 3 there is an adjustable lattice A with a mirrored surface, the lower part of shaft 5 5 is covered with an opaque material, and in a preferred embodiment of the device, it is possible to manufacture the lower part of the shaft and one of the side walls b

a mirror parabolic tray, over which curvilinear light reflecting elements 7 with mirror surfaces are installed parallel to the light reflecting grid 4, in one of the device variants, the possibility of changing their focal length is provided. Part of the side surface of the mine 8 is filled with a pocket. Ure in which the source is located. The NIKI of light 1 I about 01 is combined with a diffusely reflecting ceiling 12 with a wavy or ribbed surface and is equipped with aeration holes L. i. 4 zit f-ly, 4 ill.

one

The invention relates to the construction and the molset shall be used by the cp of the upper natural lighting of the premises of public and industrial buildings.

1 of the invention is an increase in the efficiency of light utilization of energy and the rational distribution of natural and artificial light in the room, and also the possibility of reorienting the light fluxes in the process of radiation, the localization of workplace lighting and aeration of the room.

In Fig "1 izobrasen proposed mine, a general view; in fig. 2 premises with mines installed in the ceiling; Fig. 2A-A in FIG. 2; in fig „4 - section bb on o

The mine contains a duct 1 with outer surfaces .2, covered by a light transmission element 3, which is made oblique and oriented to the south. Under element 3 there is an adjustable grating 4 with a mirrored surface Lower part 5 of the mine is blocked by opaque material One of the side walls 6 can be made in the form of a mirror parabolic tray, over which curved light reflecting 5 elements 7 sec. are installed parallel to the light reflecting grid 4. mirrors

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five

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mi surfaces. The latter can be performed with the possibility of changing their focal length. A part of the side surface 8 of the crossbar located opposite the retroreflective elements 7 is filled with light-transmitting material 9, and the upper part of the side surface 8 of the shaft is filled with a pocket 105 in which sources 11 of light with a concentrated curve are located: The axes are directed to the light reflecting elements 7. The shaft can be aligned with a diffusely reflecting ceiling 12 with a wavy or ribbed surface and equipped with aeration holes 13.

Mine operates as follows

The sun's light, the passage through the upper transparent glass elements 3, hits the reflecting grid 4, the angle of rotation of the elements of which provides a constant angle for the input of reflected light into the shaft regardless of the photoclimatic conditions. Passing the light through the shaft enters the light reflecting elements 7, reflecting from which it comes out through the side of the shaft 8, which is blocked by a light transparent material, and reaches the ceiling about 12, which redistributes it over the room. Change the focal distance of the light

3

reflecting 11C1X elements 7, it is possible to adjust the light distribution by area. Fg1 increase the efficiency of use of the shaft 5 that entered the mine shaft together with the shaft side 6 may be made in the form of a parabolic mirror tray to catch a part of the luminous flux passed through the system of light reflecting elements 7 o. reducing the angle of divergence of the luminous flux of the reflective elements 7 can be performed with different curvature of the mirrored surface Sources of light 11, located nnye pocket 10 are used in hanks hydrochloric weather and sets the time for compensating the insufficient level of natural light. To ensure the removal of superheated air, the shaft can be combined with an aeration system, working through convective heat exchange.

Studies carried out on the installation of an artificial sky on the layout of the workshop showed that the application of the invention allows to reduce the glazing area by 1.5 times without compromising the quality parameters of the light mode.

Claims (5)

Invention Formula 1 about DJaxTa in the overlap for the passage of daylight, including a box with reflective internal surfaces, covered with a light-transmitting element, and pockets with artificial light sources, so that, in order to increase the efficiency of the use of light energy and - /four Q 5 0 5 Q five 0 five national distribution of natural and artificial light in the room, it is additionally equipped with an adjustable light reflecting grid located under the light transmission element and curvilinear light reflecting elements located inside the shaft parallel to the light reflecting grid, and the light reflecting elements and grid are a part of the inner surface of the box placed opposite curvilinear reflecting elements is made transparent, while the sources skusstvennogo light are arranged on the orientation of the optical axes reflective elements. 2. The shaft according to claim 1, stitched so that the curved reflective elements are made as part of a sphere, and the lower part of the box is made as a parabolic pallet with a mirrored surface. 3. The mine according to paragraphs 1 and 2, which means that, in order to provide uniform illumination of the room, the curvilinear reflective elements are made of different curvature, 4 Mine according to claims 1 and 2, so that in order to enable reorientation of the light fluxes during operation and localization of workplace lighting, curved reflective elements are made with the possibility. adjusting the focal distance and direction of the optical axis. 5. The mine according to claims 1-4, in connection with the fact that, in order to provide aeration of the room, the box is made with openings in the upper part and with goats below and below the ceiling. FIG. 2