RU2394967C2 - Rotary system for buildings of various purpose - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: rotary system is arranged in the form of reliable and accurate structure, which is put in motion mechanically, for use in structures with two or more tiers or floors. Each of floors freely and independently rotates in any direction at any time and for any number of rotations directly by command of resident, and as the basis it includes connection of fixed structure in every floor as support, rotary platform as rotary element, drive unit, control panel for sending commands to the system, sealing unit as protection and unit of electrification for supply of electric energy.

EFFECT: improved strength of rotary system and provision of its safety.

10 cl, 6 dwg

Description

The present invention relates generally to mechanical systems, and more specifically, to a rotating system for buildings for various purposes, which in accordance with its features has the basic principle of the device, providing a rotating system in the correct and accurate mechanical drive design for use in commercial buildings and buildings for permanent residence with two or more tiers or floors in order to provide an independent convenient, practical and safe way of independent Each of these floors is free and in any direction at any time and with any number of revolutions directly at the command of the tenant, and based on a rotating system with great strength, safety and functionality. With a special design and shape, easily accessible for better fitment and safe for users, practical in service, functional, affordable and, thanks to its general characteristics and dimensions, it can easily be adapted to any type of buildings, furniture, users and locations , regardless of their characteristics.

This invention is characterized in that it combines elements and processes into a differentiated concept in order to satisfy the requirements dictated by the nature of the use of the invention, such as the independent rotation of each of the tiers of the entire structure. This approach provides a rotating system that has high efficiency, functionality, strength, durability, safety, accuracy and comfort due to its excellent technical qualities, which consequently provides overall advantages and improvements in the operations of turning tiers of buildings, and the characteristics of which differ from forms and models rotating systems for buildings for various purposes, currently widely known in the art.

The present invention uses a modern, reliable, practical and efficient rotating system for buildings for various purposes, assembled by combining properly mechanical and building solutions, including a complete and differentiated rotating system with a structure designed exclusively for this purpose, the best finishes and special features, including general and special mechanical construction with high reliability and strength, having a generally round shape and corresponding Immediately built-in fixed structure, symmetrically placed on each floor as a support for a rotating system in the structure, a rotary platform as a rotating element in the system, a drive unit for transmitting movement to the rotary platform, a control panel for issuing commands to the system, a sealing unit as an internal protection environments and an electrification unit for supplying electricity, in order to ensure the formation of a complete, safe and unique unit, internal and external forms and location of which to ensure the correct placement of individualized on each floor for the most different types of buildings for various purposes.

The general concept for rotating systems for buildings for various purposes is directly based on a structure having a fixed structure made of reinforced concrete or metal material, and a rotary platform for each floor, which is directly controlled by an electric motor with a reducer, is driven by a horizontal roller belt and relies on the wheel assembly bearings sliding along the raceway, which together with the control panel provides quiet, quiet, economical and practical rotation ovorotnoy platform by sliding on the floor floor structure completely individualized manner and with full possibility of setting the rotation speed and direction, as well as programming the start and end of rotation, including a remote control. Thus, each individual rotary platform, supported by each individual tier, rotates independently, instead of the central structure of the structure.

In the state of the art, simple designs of rotating systems are widely known, that is, those that have one turning tier, such as turning tiers, used mainly at the top of buildings and towers as the basis for panoramic restaurants, as well as for one-story residential premises. These rotating systems are entirely based on large-sized drive systems similar to those used in moving bridge crane systems, widely available for decades, the most well-known of which are Demag cranes, which are based on drive wheels, each of which is supported by on the rails.

The presented rotating system is based on the use of elements and processes in a differentiated concept, but without achieving a high degree of sophistication and complication, thereby creating the opportunity to avoid some of the main inconveniences found in other forms and models that are widely known in the modern level of technology and are used in rotary tiers buildings for various purposes, which are located in the work area, where management difficulties, low efficiency, performance and accidents It is often frequent, and whose forms and / or models are extremely complex and based on modifications that turn out to be very fragile and subject to wear and have low strength and reliability, high cost and completely unsafe, inconvenient and difficult to manage, are not easy for users to understand and require the required costs of highly skilled labor.

The objectives, advantages and other important characteristics of the present invention can be more easily understood when reading it together with the accompanying drawings, in which:

Figure 1 is a diagram depicting a whole top view of the tier of a building with a rotating system for buildings for various purposes.

Figure 2 is a view in cross section of a building with a rotating system for buildings for various purposes, the section is built along the line aa shown in figure 1.

Figure 3 is a detailed cross-sectional view of the tier of a building with a rotating system for buildings for various purposes, namely, node A shown in Figure 2.

Figure 4 is a detailed diagram depicting a whole top view of the tier of a building with a rotating system for buildings for various purposes without a rotary platform of the upper tier.

Figure 5 is a detailed top view of the connection point of two modules of the rotary platforms of the rotating system for buildings for various purposes, namely the node B shown in Figure 4.

6 is a detailed cross-sectional view of the tier of a building with a rotating system for buildings for various purposes in a structure with a top floor that is integral with the turntable.

How can we conclude from the accompanying drawings, which illustrate and combine the presented description of the invention "Rotating system for buildings for various purposes", Figure 1 depicts it in General terms, containing a complete rotating system 1 with special characteristics, including the proper and target mechanical design of high reliability and durability, having a generally round shape, such internal and external shapes and arrangement that provide proper and precisely defined placement on each of the tiers In general, for several types of buildings B, and containing a properly integrated and symmetrically located fixed structure 2 on each of the tiers A, having a substantially circular shape, horizontally and symmetrically located along the periphery of tier A and forming each of the tiers A or floors Building B; a rotary platform 3, having essentially a circular shape, containing a Central hole located horizontally, parallel and symmetrically above and along the fixed structure 2 of tier A; the drive unit 4, essentially in the form of a ring, horizontally, parallel and symmetrically located along the entire periphery of the side surface of the turntable 3 of each tier A; the control panel 5 is essentially rectangular in shape, vertically and symmetrically located in the central part of each tier A of the fixed structure 2; a sealing assembly 6 having a substantially curved shape, horizontally, parallel and symmetrically located between the upper ends of the outer walls C and the fixed structure 2 below the front surface of each tier A and above the junction of the inner side of the ends of the turntable 3 and the inner wall D of tier A; and an electrification unit (7), generally round in shape, horizontally, parallel and symmetrically located between the lower surface of the platform 3 and the upper surface of tier A of structure 2.

The fixed structure 2, made of metal, reinforced concrete or similar materials with equal or higher strength, contains a structural center 2A, generally having a vertical cavity of cylindrical shape located perpendicularly and symmetrically located in the center relative to tier A and having a number of doors and windows 2B, in the general case of various shapes, vertically and symmetrically located on the lateral surfaces of the structural center 2A, a raceway or bearing rail 2C, generally having a ring shape a vertical wall parallel and symmetrically located on the outer surface of the entire periphery of the structural center 2A and frontally aligned with the inner side of the outer surface of the turntable 3, the bearing being a lateral support of the turntable, while all the water and toilet equipment, telephone and television lines, electric cables / power distribution boxes and internal ventilation of line A and building B are symmetrically located on the inside center 2A, and all fixed utilities, such as bathrooms, kitchens and others on the tier (A), depending on the water supply and toilet facilities, are symmetrically located on the inside of the design center 2A; the lower lumen 2D, which in the general case is in the form of a circle with a rectangular part located at right angles to the horizontal, is parallel and symmetrically located on tier A and is perpendicular and symmetrically located around the outer surface of the entire structural center 2A, while it contains a number of raceways of bearings or rails 2E having substantially ring shapes arranged horizontally, parallel and symmetrically with respect to the entire periphery of the inner lower surface of the lower lumen 2D to provide support with the study of the turntable 3.

The fixed structure 2, in accordance with general use, needs and, with the use of its structural center 2A, may also contain fixed devices of building B, such as elevators, staircases and, among other things, rest rooms and office rooms, which are usually located outside platform 3, as shown in figure 1.

The platform 3, made of metal with high wear resistance or a similar material with equal or better performance in terms of weight and strength, comprises a node of sector modules 3A, generally having a semicircular shape, horizontally, parallel and symmetrically spaced apart from each other somewhat to the side along the entire periphery of the turntable 3, representing its sectors; the attachment site of the lower bearings 3B, in the General case in the form of recesses in the shape of a parallelepiped, horizontally and symmetrically located between adjacent side surfaces and the connection surfaces of sector modules 3A and vertically adjusted with the installation of raceways of bearings or rails 2E; a series of vertical wheels or bearings 3C, in the general case of cylindrical shape, mounted vertically and symmetrically in the center on the lower mounts of bearings 3B, serving as a vertical support for the turntable 3 on a group of raceways of bearings or on rails 2E; a node for the lateral mounting of 3D bearings, in the general case in the form of parallelepiped-shaped recesses mounted horizontally and symmetrically between the adjacent edges of the inner surfaces of sector modules 3A and the connecting surfaces and horizontally located on the raceways of bearings or rails 2C; a series of horizontal wheels or bearings 3E, in the general case of cylindrical shape, mounted horizontally and symmetrically in the center on the side of the 3D bearings lateral mounting unit as lateral stops of the rotary platform 3 in the bearing raceway or in the rail 2C, i.e. to the structural center 2A, using raceways of bearings or rails 2C, serving as guides for the circular motion of a number of horizontal wheels or bearings 3E, which, in turn, determine the rotational movement of the turntable 3 on tier A of the central axis and support radial torque; external sealing walls 3F, generally curved, made of some various high-strength materials and placed vertically, perpendicularly and symmetrically at the edges of the outer side of the turntable 3, are completely connected to it as the outer cover of tier A in order to rotate together with the rotary platform 3 and so that the rotation is visible outside the structure B; and a 3G floor, usually of a circular shape, arranged horizontally, parallel and symmetrically along the entire periphery of the turntable (3) and made, among other things, of wood, granite, marble, metal, plastic or particle board as a coating and a final finish to the turntable 3.

The number of modules 3A used in the rotary platform 3 is directly proportional to its size in order to ensure convenient and safe transportation, as well as easy and safe maintenance and installation of parts directly on the fixed structure 2; however, the number of vertical wheels or bearings 3C and horizontal wheels or bearings 3E is also directly proportional to the size of the turntable 3 in order to provide an exceptionally stable and safe floor, that is, without any deflections and fluctuations.

The turntable 3, in accordance with general needs of use, may include an inverted mounting system for the lower mounts of bearings 3B and a series of vertical wheels or bearings 3C, that is, the assembly of lower mounts of bearings 3B as a whole in the form of a parallelepiped-shaped recess is horizontal and symmetrically attached to a number of tracks rolling bearings or rails 2E and is aligned vertically with adjacent side surfaces of the connecting area of sector modules 3A, and, accordingly, a row of vertical wheels or bearings 3C, having a generally cylindrical shape, is centrally located vertically and symmetrically on the lower mount of bearings 3B as a support in the vertical direction of the rotary platform 3, while the rotary platform 3 contains a number of horizontal raceways of bearings or rails of a conventional shape in the form rings parallel and symmetrically located along the entire periphery of its lower outer surface, and vertically aligned with a number of raceways of bearings or rails 2E for the lower clearance 2D.

The turntable 3 in accordance with the general needs of use, and as shown in FIG. 6, may comprise a topcoat, or a ceiling 3H having a generally circular shape, arranged horizontally, parallel and symmetrically below the surface of the upper tier A of the fixed structure 2 and perpendicularly and symmetrically supported by the ends of its outer side along the upper end of the sealing outer walls 3F and above it, fully connected to the node of the turntable 3 and with the possibility of having external sealing walls 3I, in whole m curved shape made of several high-strength materials, vertically, perpendicularly and symmetrically placed on the edges of the inner side of the turntable 3.

The drive unit 4, made of metal materials with high strength or similar materials with the same or better characteristics in weight and strength, consists of an electric motor connected to the gearbox 4A, symmetrically located on the side of the turntable 3, and has on its output shaft ( drive shaft) pole wheel; the site of the Central supports 4B, usually cylindrical in shape, vertically and symmetrically located between the electric motor connected to the gearbox 4A and the side surface of the turntable 3; a ring-shaped drive belt guide 4C with sections resembling the letter “C” horizontally and symmetrically located on the entire periphery of the outer surface of the turntable 3 and having a circular shape to eliminate the polygon effect, which disrupts continuity and causes jolts during rotation; a node of the pole wheel sections 4D having generally parallelepiped shapes horizontally and symmetrically centered between the edges of the outer side of the sector modules 3A near the side surfaces and the connecting surfaces and vertically aligned with the drive belt guide 4C, each section having a series of teeth 4E, usually triangular in shape, horizontally and symmetrically located on the periphery of the surface of the outer side; and a roller drive belt 4F of a conventional shape in the form of a ring horizontally and symmetrically located on the inner periphery of the belt guide 4C enclosing the roller drive belt 4F extending on the outside of the sections of the pole wheel 4D, allowing the connection of the roller drive belt 4F with the turntable 3 outside the central assembly bearings 4B, as well as a passing motor connected to a gearbox 4A, which drives a roller drive belt 4F through its pole wheel of the output shaft.

The control panel 5 directly initiates the activation of all the functions of the rotating system 1, that is, turns them on and off, sets the speed and direction of rotation and programming the start and end times; remote operation via telephone or traditional remote control is also possible.

The sealing assembly 6 for protecting floors A from rain and wind contains a series of brushes 6A, usually in the form of rectangular sections of curved shape, horizontally, parallel and symmetrically placed on the upper edges of the periphery of the outer sealing walls 3F; a labyrinth assembly 6B, generally parallelepiped-shaped, horizontally, parallel and symmetrically mounted on the upper end of the periphery of the outer sealing walls 3F, thereby creating a multilayer structure with upper edges of the outer sealing walls 3F and a group of brushes 6A; and a node of the lower sealing elements 6C, having a generally curved rectangular sections, horizontally, parallel and symmetrically placed on the periphery of the outer surface of the structural center 2A and aligned on top with the inner side of the turntable 3.

The electrification unit 7 of the platform 3, equipped with places for collecting electric power, consists of a series of brushes 7A, having a generally ring shape, horizontally and symmetrically located under the lower surface of the platform 3; a power supply tape contact 7B, typically in the form of a ring, horizontally and symmetrically located between the inner lower surface of the lower lumen 2D and the lower surface of the turntable 3, vertically aligned with the brush system 7A; and an electric collector 7C, generally in the form of a ring horizontally and symmetrically located between the lower inner surface of the lower lumen 2D and the lower surface of the turntable 3, as well as parallel and symmetrically located in the electrical tape contact 7B; while the electric power is directly removed by a system of brushes 7A, which are connected to the rotary platform 3 and cause friction with the electric tape contact 7B.

The use of the rotating system for buildings for various purposes is based on the direct action of the drive unit 4, which is directly controlled by users using the control panel 5, around the rotary platform 3. When the electric motor connected to the gearbox is rotated, its output shaft of the output shaft directly drives a roller drive belt 4F, which in turn drives the center support assembly 4B inside the drive belt guides 4C in order to symmetrically drive the sector assembly of 4D pole wheels. Since the sector unit 4D of the pole wheel and, therefore, its rotation is caused by the roller drive belt 4F, the turntable 3 begins to rotate above the lower lumen 2D in the fixed structure 2, supported by a number of vertical wheels or bearings 3C, along the raceways of the bearings or rails 2E and around the center 2A of the fixed structure 2, laterally guided by a row of horizontal wheels or bearings 3E, abutting against raceways of bearings or rails 2C, which serve as guides for rotational movement and installation updating the boundaries for rotation of the turntable 3 on the central axis of tier A. Before turning on or after turning off the electric motor connected to gearbox 4A, users are free to set the speed and direction of rotation, as well as the program for starting and ending the operation of the rotating system 1.

The elements of the rotating system for buildings for various purposes are fully fitted and connected to each other and to the general structure of the tier of the building, do not represent any parts subject to breakage, have high strength and complete safety. After fitting and connecting with each other and with the construction of the tier, these elements are fixed in place, thereby preventing the occurrence of free play during use, thereby creating a device that is fully suitable for reliable, safe, convenient and silent rotation of the tier relative to the entire structure of the structure. Therefore, the rotating system 1 can be easily used without any worries about its reliability and safety.

Since the structure of the system is made of strong metals or similar materials with the same or better characteristics in terms of weight and strength, the entire rotating system for buildings for various purposes and its elements are protected from corrosion and are waterproof, have high reliability and strength, especially in poor conditions weather and physico-chemical reagents, provide greater safety for users and, in normal use, do not pose any risk of fatigue of its structures.

Given all of the above, this is a system that will be well received by residents and designers as a whole, since a rotating system for buildings for various purposes has such advantages as: high safety, reliability and flexibility in its applications; high efficiency and performance due to its general concept; great convenience and security for users; long service life and durability; low or no wear of the device as a whole; full availability of prices that provide the best price / quality ratio; practical and safe use in any type of building; accurate and direct adaptation to various types of users, furniture and interior layout of floors; modern design; low cost and feasibility of general services; complete silence when performing all turns; great variability and flexibility, regardless of the type of structure; extremely low power consumption; and confidence that the product fully meets the required conditions for its use in buildings for various purposes.

With all of the above, the rotating system for buildings for various purposes can be classified as completely multifunctional, efficient, accurate, safe, silent and especially practical means for completely individualized rotation in any direction of the floors of a large part of the changing types of buildings for various purposes for a large part of various users and places, regardless of their general characteristics, it is also easy to use and manage, it has high operational properties and excellent performance, size, dimensions and quantities may vary depending on the application needs.

Claims (10)

1. A rotating system for buildings for various purposes, characterized in that it contains a complete rotating system (1) comprising an appropriate target mechanical structure having a generally round shape and internal and external shapes and arrangements that generally provide an individual arrangement on each of tiers (A) of most buildings (B) of various types, and containing a correspondingly built-in and symmetrically located fixed structure (2) on each of the tiers (A), which has a generally round a shape horizontally and symmetrically located on the periphery of the tier (A) and forming each of the floors (A) or tiers of the structure (B); a rotary platform (3), having a generally circular shape with a central hole, located parallel and symmetrically above the fixed structure (2) of the tier (A) and along it; a drive unit (4), having a generally ring shape, horizontally, parallel and symmetrically located on the periphery of the side surface of the turntable (3) of the tier (A); a control panel (5) having a generally rectangular shape, vertically and symmetrically located in the middle part of the fixed structure (2); a sealing assembly (6) having a generally curved shape horizontally, parallel and symmetrically located between the upper ends of the outer walls (C) and the lower outer surface of the tier (A) of the fixed structure (2) and on the connection surfaces of the edges of the inner side of the turntable (3 ) with the inner wall (D) of the tier (A); and an electrification unit (7) having a generally circular shape and horizontally, parallel and symmetrically located between the lower surface of the turntable (3) and the upper surface of the fixed structure (2) on the tier (A). 2. The rotating system according to claim 1, characterized in that the fixed structure (2) is made of metal materials, reinforced concrete or similar materials with the same or higher strength, contains a structural center (2A) having a generally cylindrical hole, vertically perpendicularly and symmetrically located in the center on the tier (A), and containing a number of doors and windows (2B), having a generally different shape, vertically and symmetrically located on the side surfaces of the structural center (2A), bearing raceway ov or rail (2C), having a generally ring shape, vertically, parallel and symmetrically located on the periphery of the outer surface of the structural center (2A) and frontally aligned with the inner side surface of the turntable (3), while the water supply and sewage network and toilet, telephone and television lines, electrical wiring / power and internal ventilation of the tier (A) and building (B) are symmetrically located in the design center (2A) on its inner side, as well as all fixed places of public of use, such as bathrooms, kitchens and other tier in (A), depending on the water and sewer communications, symmetrically disposed within the structural center (2A); in addition, this system contains a lower lumen (2D) having a generally circular shape with a rectangular part, horizontally, parallel and symmetrically located above the tier (A) and perpendicularly and symmetrically located on the periphery of the outer side of the structural center (2A), and containing a number raceways of bearings or rails (2E), having a generally ring shape, horizontally, parallel and symmetrically located along the entire lower inner surface of the lower lumen (2D). 3. The rotating system according to claim 2, characterized in that the fixed structure (2) in its structural center (2A) contains fixed public spaces, traditional for the building (B), among others, such as elevator shafts, flights of stairs, rooms recreation and office space, which are usually located outside the turntable (3). 4. The rotating system according to claim 1, characterized in that the rotary platform (3), made of metal materials with high resistance to wear or similar materials with the same or better characteristics in weight and strength, contains a sector module assembly (3A) in generally semicircular in shape, arranged horizontally, parallel and symmetrical and somewhat to the side along the periphery of the turntable (3); a bearing assembly (3B) with a lower attachment having recesses in the shape of parallelepipeds horizontally and symmetrically between adjacent side surfaces and connecting surfaces of sector modules (3A), as well as vertically aligned bearings or rails (2E) vertically aligned with a number of raceways; a series of vertical wheels or bearings (3C), having a generally cylindrical shape, vertically and symmetrically located in the center on bearings attached from below (3B); a bearing assembly (3D), mounted on the side and having generally recesses in the form of parallelepipeds, horizontally and symmetrically located between the adjacent ends of the internal and connecting surfaces of the sector modules (3A) and horizontally aligned horizontally on the raceways of bearings or rails (2C); a series of horizontal wheels or bearings (3E), having a generally cylindrical shape, horizontally and symmetrically mounted in the center on the bearing mounting side (3D); outer sealing walls (3F), having a generally curved shape and made of some high-strength materials, vertically, perpendicularly and symmetrically placed at the ends of the outer side of the turntable (3), fully attached to them; and a floor (3G) having a generally circular shape, horizontally, parallel and symmetrically located above the periphery of the turntable (3) and made, inter alia, of wood, granite, marble, metal, plastic or of particle board. 5. The rotary system according to claim 4, characterized in that the rotary platform (3) contains an inverted mounting system for lower mounting bearings (3B) and a series of vertical wheels or bearings (3C), that is, a series of bearings (3B) with a lower mounting, having generally recesses in the shape of parallelepipeds, the bearings being horizontally and symmetrically attached to a series of raceways of bearings or rails (2E), and vertically aligned with the adjacent side surfaces of the connecting surfaces of the sector modules (3A) and, consequently flax, several vertical wheels or bearings (3C) having a generally cylindrical shape vertically and symmetrically mounted centrally on bearings (3B) of the lower attachment; in this case, the rotary platform (3) is equipped with a number of raceways of bearings or rails, having a generally ring shape, horizontally, parallel and symmetrically placed above the periphery of the lower surface of the rotary platform (3) and vertically aligned with a number of raceways of bearings or rails (2E) in the lower lumen (2D). 6. The rotating system according to claim 4, characterized in that the rotary platform (3) contains a top cover or ceiling (3H) having a generally round shape, horizontally, parallel and symmetrically placed in a fixed structure (2) below the surface of the upper tier ( A) and perpendicularly and symmetrically supported by the edges of its outer side on the upper edge of the outer sealing walls (3F), fully connected to the node of the rotary platform (3). 7. The rotating system according to claim 1, characterized in that the rotary platform (3) contains external sealing walls (31), which are usually curved in shape, made of several high-strength materials, vertically, perpendicularly and symmetrically placed on the edges of the inner side of the rotary platform ( 3). 8. The rotating system according to claim 1, characterized in that the drive unit (4), made of a metal material with high resistance to wear or from a similar material with the same or higher characteristics in weight and strength, contains an electric motor connected to the gearbox (4A), symmetrically located on the side surface of the turntable (3) and having a pole wheel on its output shaft (drive shaft); node of the central supports (4B), having a generally cylindrical shape, vertically and symmetrically located between the electric motor connected to the gearbox (4A) and the side surface of the turntable (3); a guide belt (4C) of the drive belt, having a generally ring shape with sections resembling the letter "C", horizontally and symmetrically located on the entire outer side of the periphery of the rotary platform (3) of a round shape; a node of the pole wheel sectors (4D), having a generally parallelepiped shape, horizontally and symmetrically centered between the outer sides of the adjacent side surfaces of the sector modules (3A) and the connecting surfaces, and vertically aligned with the guides (4C) of the drive belt and each of them has a series of teeth (4E), usually triangular in shape, horizontally and symmetrically located on the periphery of the outer side surface; and a roller drive belt (4F), usually in the form of a ring, horizontally and symmetrically located on the inner periphery of the belt guide (4C), external to the pole wheel sectors (4D) and external to the center support assembly (4B), and passing electric motor connected to the gearbox (4A). 9. The rotating system according to claim 1, characterized in that the sealing unit (6) contains a series of brushes (6A) having a generally curved shape and rectangular sections horizontally, parallel and symmetrically centered on the periphery of the upper edges of the outer sealing walls ( 3F); a labyrinth assembly (6B), having a generally parallelepiped shape, horizontally, parallel and symmetrically placed on the periphery of the upper edge of the outer sealing walls (3F), thus creating a multilayer structure with the upper edges of the outer sealing walls (3F) and a row of brushes (6A ); and a unit of lower sealing elements (6C), having a generally curved shape and rectangular sections, horizontally, parallel and symmetrically located on the periphery of the outer surface of the structural center (2A) and combined from above with the surface of the inner side of the turntable (3). 10. The rotary system according to claim 1, characterized in that the electrification unit (7) for the turntable (3), equipped with places for electric power selection, contains a series of brushes (7A), having a generally ring shape, horizontally and symmetrically located under lower surface of the turntable (3); an electrical tape contact (7B), having a generally ring shape, horizontally and symmetrically located between the lower surface of the lower lumen (2D) and the lower surface of the turntable (3), in the brush vertical alignment system (7A); and a collector (7C) of electric power, having a generally ring shape, horizontally and symmetrically located between the lower surface of the lower lumen (2D) and the lower surface of the turntable (3) and parallel and symmetrically located in the electrical tape contact (7B).

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