RU2632831C1 - Modular folding framework of building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: modular building framework of variable number of storeys comprises hingedly interconnected rigid frame structures forming walls, ceilings, a rafter system, consisting of straight, L-shaped, t-shaped and z-shaped slats. The frames of the walls, ceilings and the rafter system are interconnected by hinged joints. Wherein the internal volume of the building can be divided vertically by floorings into 1-5 storeys without changing the basic diagram of the framework folding. It is possible to implement the section framework with a stair arranged within the useful volume.

EFFECT: invention allows to mechanize the assembly and to simplify the building erection.

14 dwg

Description

The invention relates to the field of construction, in particular to buildings of the frame system.

A FOLDING BUILDING OF A TENTAL TYPE is known (RF patent 2029829 C1, publ. 02.27.1995), including folding transportable sections mounted on foundations, each of which consists of inclined enclosing panels with windows articulated with panels of floor floors, a vertical power element to which on opposite sides there are attached floor panels, mounting loops, end panels, characterized in that each vertical power element is made in the form of a volume unit formed by a gable a rail with cornices, an exhaust pipe with a deflector and a mounting loop fixed on top with doors with side walls rigidly connected to the gable roof, and a traverse connecting the walls to the bottom, while the three-dimensional section blocks are made of three types, two of them are equipped with staircases marches with a fence and staircases forming a staircase when connected, and the third type of block has additional floor panels, rigidly connected to the side walls, with inclined enclosing panels whether a polygonal shape has been made with an upper inclined section corresponding to the slope of the roof of the volume unit and a lower vertical section with an overhang that is a continuation of the middle part of the inclined enclosing panels, while each volume unit is provided with guides from channels for moving the top of the inclined sections, and at the bottom of the guides rectangular niches with a supporting lower edge are made.

The disadvantage of the solution according to patent 2029829 is the inability to fold the stairwell into a compact position, which increases the cost of transportation of the building; a large number of movable joints, and therefore jamming of the structure is more likely than in the claimed invention; the inability to place a flight of stairs in the space of one section; the need for the presence and simultaneous operation of two cranes for the construction of the building; the need to lift before mounting the folded section to a height exceeding the height of the final product (building) using a crane, which requires a crane with appropriate cargo-height characteristics; the need to perform part of the assembly operations on the section when it is on weight, which requires high qualification and precise coordination of the actions of workers.

In the claimed invention, these drawbacks are absent: the staircase can be folded into a compact position along with the rest of the volume of the section; due to the lack of dividing the frame of the section into two halves pivotally connected to the rigid core, the number of movable joints is reduced, which creates a lower likelihood of jamming; a flight of stairs can be placed within one section; there is no need to use cranes; all installation operations are performed after the section is fixed on the foundation, which simplifies installation and ensures the safety of work.

A MOBILE FOLDING BUILDING is also known (RF patent 2161228 C2, B60P 3/34, publ. 10/25/1995) containing a central structure that has a floor, a roof, front and rear end walls and side walls and which can be expanded in at least one direction moreover, the lower edge of the side wall is pivotally connected to the outermost section of at least two folding floor sections, of which the innermost section is pivotally connected to the lower edge of the central structure, and the upper edge of the side wall is pivotally connected to the most its remote section from at least two folding sections of the roof, of which the innermost section is pivotally connected to the upper edge of the central structure, in addition to the couple, the front and rear walls are pivotally connected to the central structure and can be rotated outward and fixed in this position along the edges of the floor sections and roof sections, characterized in that the hinge joint of the outermost roof section on the upper edge of the side wall is higher than the hinge joint most internally roof section at the upper edge of the central structure, wherein the roof sections folded in the undecomposed state stacked atop the roof of the central structure and the central structure has at least two parallel beams from the ground supports, which extend in the direction of folding of the central structure and serve as a support for the side walls.

The disadvantage of this solution is the large number of movable joints and joints of each folding structure, the inability to erect buildings with a storey of more than 1 floor, the need for a specially equipped automobile platform with adjustable supports for erecting and transporting the building.

In the claimed invention, these drawbacks are absent due to the lack of dividing the frame of the section into two hingedly connected to the hard core half reduces the number of movable joints, which creates a less likelihood of jamming; number of storeys of the building can be from 1 to 5 floors; There is no need to use specially equipped platforms for transporting and erecting buildings of this system.

в 1-4° к горизонту наружными поверхностями с нанесенным на каждую из них герметичным покрытием, причем швы между блок-пакетами заделаны герметиками, при этом ширина "S" каждого блок-пакета не превышает железнодорожный габарит по ширине, а высота "H₁" каждого блок-пакета в сложенном виде и длина "L" складного пространственного блок-пакета в рабочем положении соответственно меньше высоты "Н" блок-пакета в рабочем положении и длины "L₁" складного пространственного блок-пакета в сложенном виде в 2-5 и 0,4-2 раза.Known modular building according to the patent of the Russian Federation No. 2240400 C1, publ. 01/15/2004, consisting of folding blocks-packages connected to each other. A prefabricated building for universal use, containing three-dimensional blocks with door and window blocks placed in wall openings in series and connected to each other in working position by rigid connections, differs in that the three-dimensional blocks are made in the form of closed and / or folding folding block packages that are spatial in the working position high availability, having roof-forming ceiling tiles with an inclined angle

at 1-4 ° to the horizontal outer surfaces coated with each of them a hermetic coating, and the seams between the unit packets embedded sealants, the width "S" of each packet flow does not exceed the width of the rail dimension, and the height "H _1" of each block packet in folded form and the length "L" of the folding spatial block packet in the working position, respectively, is less than the height "H" of the block packet in the working position and the length "L ₁ " of the folding spatial block packet in folded form 2-5 and 0.4-2 times.

This invention is the closest analogue prototype of the claimed invention.

The disadvantage of the technical solution according to patent No. 2240400 is the limited number of storeys of block packages that make up the building: in the above patent, only one-story block packages are sold; the inability to make a multi-storey block package with a ladder; the presence of seams on the surfaces of the walls; the specific number of movable joints per floor (compared to the claimed invention) is greater than for a private section that does not include a ladder), the need to transport block packages only by rail ("... while the width" S "of each block package does not exceed the railway gauge in width ... "- from the claims No. 2240400), reduction of block packages in size by height in the folded state by 2-5 times compared with the same size in the working position.

The claimed invention aims at making it possible to quickly erect buildings of 1-5 floors, making transportation of parts of a fast-mounted building more economical, simplifying the technology of building installation and minimizing the need for construction in special equipment and labor costs, increasing the level of mechanization and automation of production of building structures for low-rise construction , expand the ability to change the size and performance of the product without the need for re- equipment of production, to reduce the mass-dimensional characteristics of the system in comparison with existing analogues of comparable usable volume (building volume of the building), to simplify the construction of buildings with floors of 1-5 floors.

The technical result is that due to the articulated connection of the component frames, the frame is able to take a position suitable for transportation by any (including freight, road, rail, water, air, etc.) transport, thereby achieving the possibility of compact folding sections in transportable position, characterized by a decrease in the height of the section when folded by 4-8 times compared with the design (working) when the number of floors is from 1 to 5 floors and the size of the folded section of the gab matches um, which is suitable for transportation, including trucks. The number of storeys of the sections makes the frame suitable for the construction of both warehouse, industrial, agricultural and residential buildings. This allows most of the operations associated with the manufacture of the building to be carried out in a workshop, to mechanize the assembly process and, as a result, to reduce the complexity of the final product, especially installation work. This technical result is achieved both for the ordinary section, and for the section with the stairs.

The technical result is achieved due to the articulation of wall frames, floors, rafters, which makes it possible to transport the section mobilely and erect it on the ground without special equipment.

Disclosure of invention

The modular building with variable number of storeys comprises a folding frame of the building articulated between each other, rigid frame structures forming walls, floors, rafters, in the design (working) position, it is a closed contour cut vertically divided into separate volumes (floors) by ceilings, covered with a gable roof . Rigid frames of walls, ceilings and roofs, representing the likeness of flat trusses, providing each section and the building as a whole provide strength and rigidity. Moreover, the design of the frames may include openings of various sizes (door, window - in the frames of the walls and the rafter system, openings for stairs and hatches - in the frames of the ceilings). Each of the frames consists of several lamellas, of various (straight, l-shaped, t-shaped and z-shaped) shapes. Moreover, the space between the lamellas of the frame is a kind of shaft having a constant rectangular cross-sectional length, which simplifies the installation of enclosing structures inside the frame. Swivel joints are displaced relative to the main axis of the lamellas, through which the axis of rotation of the hinge passes, to exclude the possibility of mutual intersection of walls and ceilings during folding into a transportable position.

Of variable number of storeys, the folding frame of the building section with the staircase located within the useful volume of the section is a structure comprising a staircase pivotally connected to the rest of the frame and a staircase located between the struts, whose braids (bowstrings) are pivotally connected to the staircases directly and through connecting rods, providing the possibility of folding the section with the ladder into a compact position without dismantling the ladder.

Brief Description of the Drawings

In FIG. 1a, the frame of the two-story section of the building is shown in axonometric projection; the assembly of the hinged connection of the elements of the rafter system (roof frame) with the main volume of the building is depicted in an enlarged manner using one row of coaxially arranged hinges and by connecting through a series of l-shaped lamellas. These nodes provide the possibility of folding roof structures in a compact position.

FIG. 1b - the frame of the two-story section of the building in a perspective view, the insulation and coatings of the building envelope are mounted on the frame.

FIG. 2 is a side view of this section in the design position (section).

FIG. 3 - the principal form of the components of the supporting frame of the lamellas (straight, l-shaped, t-shaped and z-shaped).

FIG. 4 - two-story section in a compact position after installation on the foundation.

FIG. 5 is a solution for a two-story building with an attic, consisting of 4 sections of various heights and end walls, mounted after the sections are brought into the design position (axonometric projection).

In FIG. 6a, 6b depict plans for the first and second floor, respectively.

FIG. 7a is a sectional view of sections of a building with a frame of the claimed system of 5 floors (the 5th floor is located in the roof structures and is the attic), of a minimum width (assumed to be 3 m between the outer surfaces of the external walls) and with a maximum roof slope (60 degrees to the horizon),

FIG. 7b - the same, with a storey of 4 floors (the 4th floor is located in the roof structures and is attic).

FIG. 8 is a section of a building with a frame of the claimed system of maximum width (9 m between the outer surfaces of the external walls) and a roof slope of 17 degrees to the horizon, with an attic in the roof structures.

In FIG. 9a shows the frame of a two-story section with a ladder in a perspective view, the insulation and coatings of the building envelope are mounted on the frame.

FIG. 9b - the same, from the opposite side.

In FIG. 10 depicts a two-story section with a ladder in the context:

1 - wall lamellas of a direct shape, 2 - lamellas of floors and attic floors of a z-shaped and t-shape, respectively, 3 - lamellas of the rafter system, 4 - lamellas of a g-shape, 5 - racks of a ladder with holes for swiveling with a frame (upper, lower) and with connecting rods 7 (intermediate hole), 6 - kosoura (bowstrings) of the flight of stairs with holes for swiveling with rods (in the lower part) and overlapping (in the upper part), 8 - points of hinging of the lamellas, 9 - points of the rigid connection of the lamellas performed after bringing the section to the design position, 10 - the point of hinging the connecting rod of the ladder (upper - the point of connection with the strut, the bottom - the point of connection with the braid or bowstring), 11 - the point of hinging of the L-shaped lamella (upper right - the point of connection with the lamella the rafter system, the lower left is the connection point with the wall lamella 1 and the t-shaped lamella of the ceiling 2), 12 are the points of attachment of the structure to the foundation.

FIG. 11 - the principle form of the components of the supporting frame of the lamellas:

1 - wall lamellas of a direct shape, 2 - lamellas of floors and attic floors of a z-shaped and t-shape, respectively, 3 - lamellas of the rafter system, 4 - lamellas of a g-shape, 5 - racks of a ladder with holes for swiveling with a frame (upper, lower) and with connecting rods 7 (intermediate hole), 6 - braids (bowstrings) of the flight of stairs with holes for articulation with connecting rods (in the lower part) and ceiling (in the upper part).

In FIG. 12 depicts a two-story section with a staircase in a compact position after installation on a foundation.

The implementation of the invention

All elements of the building frame are manufactured under production conditions, after which they are assembled in the folded state in the section for transportation to the place of construction of the building. Assembling sections of buildings when folded allows articulated connections between the elements of the frame. To ensure the safe transportation of sections of buildings when folded, the sections are provided with immobility in the hinged nodes of the joints. Next, sections of the buildings are loaded in the folded state onto the vehicle for transportation to the place of construction of the building.

Installation of the frame on the ground is carried out in the following sequence: the frame section of the corresponding number of storeys is mounted on the foundation, fixed with anchor bolts to the foundation, then the main volume of the section, limited by the walls, is brought into the design position with the help of an inside jack section or located outside the winch / pulley section and ceilings (walls become perpendicular to the ceilings), by rigidly fixing the ceilings relative to the walls by connecting lamellas of walls and ceilings (fixing is possible using friction joints and / or adhesive joints, in the case of a metal frame, welding can be used), stability of the section is ensured. Then, using a jack installed within the space of the attic (attic), the elements of the rafter system are brought into the design position.

Similarly, the remaining sections are mounted, after bringing into the design position, their ends are connected to each other, as a result, a useful volume is formed inside the building, bounded by the surfaces of the walls, the lower floor and the roof, divided by the height of the ceilings on 1-5 floors. Sections can be arranged both in a row and perpendicular to each other, neighboring sections can have the same elevation of the floor level of the first floor, or different. In one row there may be sections of various sizes and storeys. Then (if necessary) the end walls are installed, performing an exclusively enclosing function. The material of the end walls is selected based on the purpose of the building, and can be any. The storey of the frame makes it suitable for the construction of buildings for permanent residence and residence of people, including single and multi-family residential buildings. The material of walling, fixed in the space of the sinuses of the frame and on its surfaces (longitudinal walls of the building, ceilings, roofs) can be any, depending on the purpose of the building. The internal volume of the building can be divided vertically by ceilings on 1-5 floors without changing the basic scheme of folding the frame, and between the elements of the frame there is a gap for installing coatings and insulation in the building envelope and floor structure. The height from the level of the clean floor of the first floor to the roof ridge is from 2.7 m to 13.5 m, the width along the outer surfaces of the walls is from 3.0 m to 9.0 m. Width “S”, length “L” and height The “H” of each section when folded does not exceed the size suitable for transportation by truck (13.6 * 2.45 * 2.45 m), and the ratio of the indicated sizes to the same sizes S ₁ , L ₁ , H ₁ sections in the design position make up 2; one; 0.125 respectively. The slope of the roof can be from 0 to 60 degrees to the horizon. The gable roof of a building can be symmetrical (with an equal slope of the slopes) and asymmetric (with a different slope of the slopes). Installation of coatings and insulation can be performed both in the production environment and on the construction site, both for all building envelopes and for individual ones. The sequence of actions for bringing to the design position and mounting the section with the ladder on the foundation, the methods of securing the section to the foundation, the methods of connection with neighboring sections are similar to the ordinary section. The section with the ladder is fixed in the design position by connecting the hinges located at the bottom of the connecting rods of the ladder and the hinges located at the bottom of the stair racks to which the connecting rods are pivotally connected. After connecting the hinges, the ladder provides rigidity and geometric immutability of the section. After connecting the sections with the staircase installed on the foundation and brought to the design position to the neighboring sections, the staircase helps to ensure rigidity and stability of the building as a whole. The frame of the system can be made of various structural materials, including composite materials, wood and metals, a combination in the frame is possible sections of lamels from various materials.

Claims (1)

A modular folding frame of a building containing articulated joints and rigid frame structures forming wall frames, floors and roof systems, consisting of straight, g-shaped, t-shaped and z-shaped lamellas, characterized in that for transportation it contains articulated joints his ram; for erection on the ground by lifting up each of the frame sections of the corresponding number of storeys from the folded state, it contains hinges for fastening the sections to each other, or within the useful volume of the section there are hingedly connected staircase structures connected to each other and to the rest of the frame.

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