RU2057858C1 - Movable construction - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: rotary module is secured to support rings threaded on a shaft with self-braking spiral thread. The shaft has movable rotary upper portion and immovable lower portion installed on the foundation. An insertion piece with lateral bearings is pressed in movable portion of the shaft. The insertion piece in installed with slide fit inside immovable shaft portion on end bearing support. The module assembled at zero level is raised by turning it around its axis manually. With folded out shutters the block may be turned and be a power supply under wind action. The construction is easily mounted manually and may be placed over earth surface, on the surface and underground with coming the construction onto the surface. EFFECT: power generation. 2 cl, 3 dwg

Description

 The invention relates to the construction of various premises, in particular houses of garden plots.

It is known a building with columns having an external thread, according to which during installation each interfloor is raised [1]
The disadvantage of this building is the difficulty of installation, since only the floors are raised along the columns.

The closest in technical essence to the invention is a known solution in which the volumetric unit has driven rollers, interacting with screw guides located on the outer surface of the barrel [2]
The disadvantages of this structure is the complexity of installation and the complexity of operation.

 The objective of the invention is to simplify installation and improve performance.

 This object is achieved in that the movable structure comprises a support barrel with screw guides located on the foundation, a movably rotatable volume unit mounted on the barrel with the possibility of vertical movement, and is equipped with support rings, an insert with side bearings and a bearing support of the barrel, the guides are made with self-braking by screw thread, and support rings connected to the elements of the volume unit are screwed onto the barrel, while the barrel is made of a composite upper and fixed the lower parts with the placement of the liner with side bearings, supported by the end face on the bearing support of the stationary part inside the barrel with the possibility of transition from vertical movement of the volume unit to its rotation in the horizontal plane. The wall of the volumetric block can be made folding and can be connected via a cable to the load thrown through the blocks with the elements of the volumetric block to ensure self-closing of the opening formed by the folding wall.

 In FIG. 1 shows a movable structure, front view; figure 2 is the same plan; figure 3 the movable part of the barrel with a bearing support.

 The movable structure consists of the fixed part 1 of the central support shaft mounted on the foundation with an external self-locking screw thread 2, bearing support 3, side bearings 4, the movable (rotating) part 5 of the barrel of the movable volume unit (room) 6 with support rings 7 screwed onto the barrel .

 The volumetric block 6 can be made of various shapes (square, triangular, round) of various structural elements. The volumetric block 6, having a circular shape in plan, is the most economical and practical, gives a maximum of usable area in relation to the cost of materials, and with a tent construction of the coating can be used to produce wind and solar energy.

 Installation of the structure is as follows.

 First, fix the lower row of support beams 8 on the support ring, install the external support 9 (if it is composed of parts, they are pulled together by bolts), hinged supports (supports) 10 on hinges 11, transverse flooring 12, forming the lower platform (floor) . Depending on the size and load, the platform is reinforced with screeds. Then, between the support rings 7, an internal support wall 13 is installed, and on the external support 9 of the rack 14. The upper platform, as well as the lower one, is assembled, fixing it on the upper support ring 7. Then, a wall 15 is formed with door and window openings. A skate 16 is mounted on top of the barrel, and the upper platform is covered with insulating material (tin, slate). Sediment (water) discharge can be both internal and external. The hinged wall 17 is attached to the wall 15 on the lower hinge 18 and closed using a counterweight (load) 19 suspended on the ropes 20 and blocks 21. The weight of the counterweight (load) 19 is greater than the weight of the hinged wall 17. This wall 17 in addition to closing the room of the volumetric block 6 in an inclined or horizontal position it is supported on cables 20 and can form an additional area of the volume unit. For some buildings, the hinged wall 17 with a doorway made in it in the center can serve as a platform for repairs, such as a car. For greater stability of the structure in a raised stationary state of the volumetric block, hinged supports (supports) 10 are installed.

 The volumetric block 6, assembled at a zero mark (ground), is manually rotated (rotated) around the axis of the barrel and fed up along the barrel and transferred to the rotating part 5 of the barrel, where it can be untwisted for some time without special efforts (manually). For repair, the volume unit can be returned from the level of horizontal rotation to the zero mark.

 Hinged shutters 22 are installed on the wall 15 of the volume unit, which, in addition to closing the window and door openings placed perpendicular to the wall 15, create rotation of the volume unit under the influence of wind pressure.

, где Q вес объемного блока; r_ср средний радиус резьбы; l плечо вылета, т.е. расстояние от оси вращения (оси ствола) до точки приложения к стенке объемного блока силы поворота Р, α угол подъема резьбы ствола и кольца; ∠ρ° угол трения в резьбе; ∠ρ° arctgf 10^°12′; ∠α^°= arctg

1^°6′.The force for lifting the volumetric block of the structure (or for rotation on the fixed part of the barrel) is determined by the formula P

where Q is the weight of the volume unit; r _{cf is the} average radius of the thread; l departure shoulder, i.e. the distance from the rotation axis (axis of the barrel) to the point of application of the turning force P to the wall of the volumetric block, α is the angle of the thread of the barrel and the ring; ∠ρ ° angle of friction in the thread; ∠ρ ° arctgf 10 ^° 12 ′; ∠α ^° = arctg

1 ^° 6 ′.

For example, with r _cf 200 mm, l 4 m, t 25 mm (thread pitch), Q 15 t, f 0.18,
∠α ^° <∠ρ ^° - provides self-braking of the volume unit.

155 кг, что вполне позволяет поднять объемный блок вручную. Силы поворота или горизонтального вращения объемного блока строения без откидных ставен на подшипниковой опоре, где в среднем f 0,005, будут совсем незначительные ∠ρ° arctg 0,005 18′, P

19 кг Усилие вращения объемного блока с откидными ставнями будет еще меньше. Например, при ширине ставни 1 м плечо вылета в среднем будет l 4,5 м, а усилие горизонтального вращения объемного блока строения под действием ветровой нагрузки составит Р 16,8 кг.Pivoting or lifting force of the volume unit P

155 kg, which allows you to manually lift the volume unit. The rotation or horizontal rotation forces of the building’s volume block without folding shutters on the bearing support, where on average f 0.005, will be very insignificant ∠ρ ° arctg 0.005 18 ′, P

19 kg The rotational force of the volumetric block with hinged shutters will be even less. For example, with a shutter width of 1 m, the departure shoulder will be on average l 4.5 m, and the horizontal rotation force of the building volume block under the influence of the wind load will be P 16.8 kg.

 From the calculation it follows that in order to bring into rotation or rotation of a significant mass of the volume unit, insignificant forces are required.

 The volume unit during rotation, having a significant mass and inertia, is like a large flywheel, which can be used to generate energy.

 An insert 23 with side bearings 4 mounted on it is pressed into the movable or rotating part 5 of the barrel 4. The movable part 5 is inserted into the fixed part 1 of the barrel on a sliding fit until it stops with the end bearing support 3 installed inside the stationary part 1 of the barrel. Parts 1, 5 of the barrel are installed with a minimum gap between them, they are made of steel or reinforced concrete pipes.

 The movable part 5 of the barrel is equal to the height of the volumetric block 6 of the structure. The volumetric building block can be located at different levels above the ground, on the ground and under the ground with the exit of the building to the surface, and also have a different purpose: as a residential building (country house, hotel), special purpose (garage, lighthouse, solarium), as an entertainment, attraction room (gazebo, mansion, lifting slide).

 A movable (rotating) structure can also be used as an inertial energy source by the type of a wind turbine with great stability in operation and power.

Claims (2)

 1. MOBILE STRUCTURE, comprising a support barrel with screw guides located on the foundation, a movably rotatable volume unit mounted on the barrel with the possibility of vertical movement, characterized in that it is equipped with support rings, an insert with side bearings and a bearing support for the barrel, the barrel guides are made with self-locking screw thread, support rings connected to the elements of the volume unit are screwed onto the barrel, while the barrel is made of a composite upper and fixed lower astey to locate the insert with the side bearing support bearings on the fixed part inside the barrel, with the transition from the vertical displacement of the room unit to rotate in a horizontal plane.  2. The structure according to p. 1, characterized in that the wall of the volumetric block is made folding and connected via a cable to the load thrown through the blocks, with the elements of the volumetric block to ensure self-closing of the opening formed by the folding wall.

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