SU937633A1 - Rotatable building - Google Patents

Description

(54) ROTATING BUILDING

one

The invention relates to construction and can be applied as a building rotating in the sun tracking mode for regulating solar energy supply, capturing and using solar energy for medical, scientific and heat energy needs.

A revolving building is known, containing a fixed central part in the form of a round shaft and a rotating part supported on it at the top in the form of a round pavilion of the Shatrov type 1.

However, the disadvantages of such a building are its small footprint, limited to the basement of the support shaft concentrated in the central part, reduced stability due to bearing on the central trunk and large tilting moments from wind loads and out-of-center moving loads in the building.

The closest in technical essence to the present invention is a rotating building comprising a fixed central part in the form of a round core with an annular foundation and a movable part with ceilings and wall barriers supported on the foundation through an annular platform, and a device for rotating 2.

The disadvantages of the known building are in the increased material consumption and insufficient stability in the high-rise version, which is due to the massive ring foundation, which is underdeveloped in the radial direction, and the support of the movable part to the fixed one only at the foundation level. This worsens the operating conditions in areas with high seismicity and wind loads.

The purpose of the invention is to reduce material consumption, increase stability and improve operating conditions.

Claims (2)

This goal is achieved by the fact that in a rotating building that includes a fixed central part in the form of a round core and a ring foundation and a movable part with ceilings and wall barriers supported on the foundation through an annular platform, and the device for rotating the fixed part is irregular in levels the bottom of the interfloor overlappings are made with annular cantilever support lugs, the upper part of which has closed annular recesses, and the movable part in the levels of interfloor overlaps in the area above the supports The protrusions of the fixed part are made with annular tides, which form annular cavities with annular recesses of the protrusions for rotational supports. The drawing shows the proposed building, a cross-section. The revolving building 1 contains a stationary circular foundation consisting of a circular central plate 2, passing into an axisymmetric hollow cylindrical cup 3, and piles 4 spaced around a circular perimeter. Building 1 also contains a turntable 5 with carriers 6 mounted on it and enclosing structures 7 combined with a solar collector 8-10. The rotary platform 5 through the rotary device 11 rests on piles 4 and, for example, supporting circular cantilevered tides 12 of a central axisymmetric cylindrical cup 3. Rotary device 11 contains rotation supports 13, for example rollers mounted on axis 13 mounted on pile tip 14 4. Supports rotation 13 can be equipped with, if necessary, loosely mounted under them and rigidly attached to the turntable 5 with annular anti-tipping bumpers 15 with edges bent at an angle. The movable part 16 of building 1, for example; measures rectangular in plan, mounted rotatably about axis 17 and coaxially mated with fixed part 18 with transfer of a share of loads through rotation supports, for example, rollers 19 on tides 12 to bearing cylindrical shell 20 forming a rigid frame of fixed part 18 Building 1. At the same time, the cylindrical shell 20 is supported by a hundred can 3 and forms a whole with it. In the cavity of the shell 20 posted engineering communications; elevator 21, replaced in a low-rise building by a staircase, input 22, one hundred to 23, and a water distribution wiring 24, as well as a sewage system 25 — combined, for example, into sanitary cabins 26. Central fixed part 18 can be raised above the mobile part 16 with the formation of exit 27 on a flat roof 28, which also functions as a summer salt. From the main facade 29, the revolving building 1 is equipped with glazed loggias 30, the lower part of which is protected by opaque solar collectors 8, and the glazing 31 is selectively transparent to ultraviolet rays, and thus, the loggias 30 can perform two in the autumn-winter period important functions: heat insulation with prolonged insolation, as well as in combination with absorbing ones. radiation by the walls 32 of the solar heat collector, directly heating the room 16. Natural lighting of the rooms 16 provides glazed windows 33 or possible light projections. Secondary light in the walls 32. At the same time, windows 33 can be oriented towards the sun for a long time and therefore can be supplied sunscreen, for example, known transformable heat-insulated screens 24, which in winter provide additional heat savings. In addition, a flat exploitable roof is provided with protective fences 35, on which a solar collector 9 is strengthened along the main facade, for example, solar collector 9. The supporting annular stiffener 36. The building is also equipped with a known electric drive and a device for tracking and orientation to the sun, containing, for example, a light sensor with a directionally shaded screen or a time relay connected to the source energy and drive through a co-coupling device, and collectors 8–10 are connected by channels with heat consumers (not shown). Works proposed building as follows. In the autumn-winter-spring period, which is characterized by a shortage of heat, at times of intense solar radiation, the drive unrolls platform 5 and the movable part of the building 16 mounted on it by the main facade 29 towards the solar rays-37 and then rotates it in the mode of watch the sun. In this case, all solar collectors 8-10 are irradiated and heated. Through the selectively transmissive glazing 31, the sun rays 37 insolate the loggias 30 separated from the cold outside air and heat the solar receiving walls 32, providing heating of the air in the loggias 30 and in rooms 16. The heat from the collectors 8-10, which are, for example, known flat " the hot box with a blackened metal solar cell with channels with heat-transfer fluid is supplied to consumers of hot water, as well as to heating devices in rooms remote from the heated walls 32. At this loggia 30 They can be actively used for medical therapeutic purposes as winter salines of the prolonged irradiation regime. In the summer, when using the building, for example, as a sanatorium complex, in order to ensure optimal sun-protection of glazed loggias 31, the building is deployed by the main facade 29 from the sun's rays and the exit from excessive insolation is constantly rotated, while the light-receiving surfaces 33 of the opposite facade are protected from excessive insolation and overheating by screens 34, including during the hottest hours, can be closed tightly, and in this case airing of the rooms can be carried out through the open sash glazing of 31 loggias 30. The production of hot water in this situation is provided by a horizontal collector 10 and turned 180 °, for example, around a horizontal axis by collector panels 9. In cloudy weather and at night, the building does not rotate. There are options for using the proposed rotating building for a panoramic view of the surrounding area of the city, park or landscape formations, for example, as a high-rise pavilion, a high-mountain hotel, a restaurant, etc. When used in high mountain construction, a double gain is obtained from the use of lightweight structures, for example, from aluminum alloys and foams (according to the conditions of delivery to a remote area and according to the conditions of operation of the rotating building), in addition, the reduction of heating costs significantly reduces the reduced costs. According to preliminary data, fuel savings will be from 35 to 70%, plus a high therapeutic gain: the extension of the insolation time is 2.5–3.2 times with the possibility of intensifying radiation doses compared with the known winter salts. The use of the proposed rotating building in a pilot field plan is advisable in the middle and southern echirota of the country, and for experimental purposes, including the Polar region, in areas with large hours of cloudless and cloudy summer weather, providing in the north round-the-clock operation of solar and solar hospitals, for example , as part of the factory preventorium. The invention revolves a building comprising a fixed central part in the form of a round core and a ring foundation and a movable part with ceilings and wall protections supported on the foundation through an annular platform, and a device for rotation, characterized in that, in order to reduce the material intensity, stability and improvement of operating conditions, the fixed part of the river at the bottom levels of interfloor overlappings is made with annular cantilever sea projections, the upper part of which has a the whipped annular recesses, and the movable part of the building at the level of interfloor overlappings in the zone above the supporting protrusions of the fixed part is made with annular tides, which form annular depressions of the protrusions with annular cavities for the supports of rotation. Sources of information taken into account in the examination 1. US patent number 3905166, cl. 52-65, 1975. 2. US patent number 3855755, cl. 52-65, 1974.