RU2194126C1 - Mobile prefabricated modular structure - Google Patents

Abstract

FIELD: construction engineering, particularly, mobile prefabricated modular structures. SUBSTANCE: mobile prefabricated modular structure has net of columns, vertical beams and connected with them habitable or utility modules. Net is formed by columns. Each column is made of four interconnected angles forming column shape in cross-section. Upper and lower bases of each column present four interconnected n-arm base members where 2≤n≤4. Arms of base members are formed by lengths of angle each directed along end of four semi-axes a, b, c1 and c2 outgoing from one point o and located in space so that c1 and c2 form straight line, and a and b are perpendicular to said straight line and to each other. In this case, all arms of base member are interconnected by ends directed to point o. Length of base member arms may be equal to one another and may not be equal to one another and satisfy the condition: Li= Ii+di, where i may assume values a, b, c1 and c2; Li is length of arm of i-base member in one of direction of coordinate axes a, b, c1, c2; Ii is main size of i-arm equal to length of arm section adjacent to respective arm of neighboring base member; di is additional size of i-arm equalling to the length of section of arm adjacent to horizontal section of beam or vertical column section joined with said arm of neighboring base member oriented in the same direction of arm. In case of absence of arm in base member in some axis Li=0; in other case, Li > 0, in this case Ii ≥ p and di=0, or di ≥ k, where p and k are constants calculated on base of provision of required strength of joint depending on type-size of angle. Said modular structures may be used in erection of low buildings of public, cultural and community applications. EFFECT: improved technological effectiveness of structure assembly and higher structure strength. 4 cl, 10 dwg

Description

 The invention of the model relates to mobile collapsible modular structures that can be used in the construction of low-rise buildings for public, cultural and domestic purposes.

 The construction of structures using modular frame structures is known from the prior art.

 A known structure formed of prefabricated flat or spatial elements made in the form of alternating differently high sections with mutual fastening by means of additional communication elements made in the form of braces, constructions or flexible ties (RU, patent 2016967, Е 04 В 1/32), which suggests a fairly wide range of structural elements.

 Known modular building frame system (RU, patent 2110655, E 04 H 1/00), consisting of a minimum number of elementary parts - rods assembled into three-dimensional geometric shapes. When combining the figures with each other with their faces or edges, each of the edges and adjacent edges forming these faces or edges belongs to each of the combined figures at the same time.

 Known spatial frame made in the form of a corner, angular and intermediate fasteners made in the form of an assembly of cast parts of complex shape (RU, application 94003083, E 04 B 1/343). However, the attachment points represent a rather complex structure that requires special factory equipment, which will affect the cost of manufacturing frame elements. In addition, the attachment points in the known design go beyond the overall dimensions of the corner profile, which eliminates the snug fit of the edges of adjacent modules to each other.

 The closest to the destination is the modular structure of the building (EP, application 0955419 A2, E 04 B 1/02), containing a multi-level frame from the corner profile and cladding.

 The technical problem that the proposed mobile modular structure solves is the creation of a building structure for the construction of low-rise buildings for various purposes, with high manufacturability, providing for the possibility of further extension or disassembly of the structure, if necessary, while ensuring its structural simplicity and high strength, which is based on prefabricated column system consisting of lightweight and technologically simple parts assembled into the simplest volumes place without the use of heavy construction equipment.

-образную форму, а верхняя и нижняя базы каждой колонны представляет собой четыре соединенных между собой n-плечевых базовых элемента, где 2≤n≤4, плечи которых образованы отрезками уголкового профиля, каждый из которых направлен вдоль одной из четырех полуосей: a, b, с₁ и с₂, исходящих из одной точки O и расположенных в пространстве таким образом, что с₁ и с₂ образуют прямую, а а и b перпендикулярны этой прямой и перпендикулярны друг другу, причем все плечи базового элемента скреплены между собой концами, направленными к точке O.The stated technical problem is solved in that in a modular structure assembled from a corner profile containing a grid of columns, horizontal beams and associated housing or household modules, each of which is a three-dimensional figure, for example, a parallelepiped inscribed in an appropriate cell of four columns and fastened with them, the grid is formed by columns, each of which is made of four corner profiles connected to each other, and has a cross section

-shaped shape, and the upper and lower bases of each column are four interconnected n-shoulder base elements, where 2≤n≤4, the shoulders of which are formed by segments of the angular profile, each of which is directed along one of the four semi-axes: a, b , with ₁ and c ₂ , originating from the same point O and located in space so that c ₁ and c ₂ form a straight line, a and b are perpendicular to this straight line and perpendicular to each other, and all the shoulders of the base element are joined together by ends, directed to point O.

The basic element, depending on the number, length and direction of the shoulders, can be differently oriented designs:
- an angular structure formed by four mutually perpendicular segments of the corner profile with shoulders oriented along the coordinate axes, for example, L _a , L _b , L _c1 and L _c2 ;
- tees with shoulders, for example, L _a , L _b , L _c1 at L _c2 = 0 or L _a , L _b and L _c2 at L _c1 = 0;
- angular structures formed by two profiles, for example, L _a and L _b at L _c1 = L _c2 = 0 or L _b and L _c1 at L _a = L _c2 = 0.

The lengths of the shoulders of the base element can be both equal and not equal to each other and at the same time satisfy the condition:
L _i = l _i + d _i ,
where i can take the values a, b, c ₁ , c ₂ ;
L _i - the length of the shoulder of the i-th base element in one of the directions of the coordinate axes a, b, c ₁ , c ₂ ;
l _i - the main size of the i-th shoulder, equal to the length of the portion of the shoulder in contact with the corresponding shoulder of the adjacent base element;
d _i - the additional size of the i-th shoulder, equal to the length of the portion of the shoulder in contact with the horizontal section of the beam or the vertical section of the column, docked with the aforementioned shoulder of an adjacent base element oriented in the same direction as the shoulder. When using a two- or three-arm base element, i.e., if the base element does not have a shoulder along any of the axes L _i = 0, l _i = 0, d _i = 0, otherwise L _i ≥ 0, l _i ≥ p, d _i = 0 or d _i ≥k, where p and k are constants calculated on the basis of the conditions for ensuring the necessary bond strength depending on the size of the corner profile. In this case, the shoulders of the base element are joined with the corresponding section of the corner profile, which is part of the columns or horizontal beams of the structure; and intermediate fastening of all structural parts can be done end-to-end, for example, by means of flanges, or overlapping, by connecting the corresponding shoulder of the base element of one module with the horizontal beam of the adjacent module or with the adjacent corner profile of the column, with the formation of mutual interweaving of elements, or a combination of these methods; the connection of structural elements can be detachable, for example with bolts, one-piece, for example welded, or be a combination of both.

 In FIG. Figures 1-6 show graphic materials explaining the proposed construction design.

 Figure 1 shows the system of columns of a mobile collapsible modular structure.

 Figure 2 presents the size system of the base n-shoulder element.

 In FIG. 3 presents embodiments of the basic elements.

 Figure 4 presents the connection diagram of the upper and lower base of the columns of two levels.

 In FIG. 5 shows a connection diagram of end-to-end structural elements.

 In FIG. 6 shows the general scheme of the finished structure.

 The modular structure (Fig. 1) includes a grid of columns 1 formed by columns 2 and horizontal beams 3, where modules 4 fit. Using basic elements 5, the structure and dimensions of which are shown in FIG. 2, the upper 6 and lower 7 bases of each of the columns are formed (FIG. 4). Examples of options for basic elements, the choice of which is determined by the assembly method and the required structural strength of the structure of the structure, are shown in FIG. 3.

The base element, four, is a three- or two-armed with equal shoulders in all directions, that is, meeting the condition, for example, L _a = L _b = L _c1 = L _c2 , can only be used if the structural elements are joined end-to-end, while an element of one standard size is used.

To assemble the structure, not only end-to-end, but also overlap, when the shoulder of one base element must extend beyond the corresponding size of the shoulder of the adjacent base element fastened with it to a length sufficient to attach a horizontal beam or corner of the column to it (figure 2), either four sizes will be required the base member, all shoulders which will satisfy the condition, such as _{L a ≠ L b ≠ L c1} ≠ L c2 and have repeating different length of the arms, or at least two basic elements having two short and two long arm, wherein the lengths the arms satisfy the condition, _{e.g., La1 = L c21 = L c12} = L a2 and _{L b1 = L b2 = L c11} = L c22 ( FIG. 3a)
The ratio of the lengths of short and long shoulders of the n-shoulder base element is determined from the formula L _i = l _i + d _i , where the short arm is the main size l _i , and the long arm is the sum of the main and additional sizes l _i + d _i (Fig. 2 ) The actual values of these values are selected from the condition of ensuring a reliable connection of the elements to each other, for example, based on the size of the bolt connection, which in turn depends on the size of the angle profile used. All of the above applies equally to tees (basic elements, the length of one of the shoulders of which is zero, for example, L _c2 = 0). A tee with three equal arms is shown in FIG. 3b, a tee with two short and one long shoulder in FIG. 3c, a tee with two long and one short shoulder in FIG. 3G

 When creating a reinforced structure, it is advisable to use tee basic elements, which involve the formation of a horizontal beam of four corner profiles, additional structural strength of the structure can be achieved when the corner profiles of the column and the vertical shoulders of the corresponding tees are made as a whole (Fig. 3d). With the construction of a lighter structure, the use of four shoulder base element will allow you to form a horizontal beam, consisting of only two corner profiles. When assembling end-to-end (figure 5), the connection of structural elements is carried out, for example, by means of flanges 8, welded into the ends of the corner profiles and having connecting holes. When assembling the overlap (Fig. 1 and 2), the shoulders of the base element 5, forming the angle of the frame of one module, are connected to the horizontal beams 3 of the other module. The same pattern is the connection of the corner profiles forming a column (figure 4).

 A prerequisite for the successful functioning of such a system is the possibility of a snug fit of the edges of the frames of adjacent modules to each other, with the formation of a beam or column structure from the corner profile, which has greater rigidity compared to the rigidity of individual elements and allows the use of lighter elements for the construction of not only single-story structures .

 The assembly of the structure is as follows. At the construction site, a set of the required number of corner profiles, intended for the formation of columns and horizontal beams, and basic elements, calculated on the basis of the planned volume of the structure and method of assembly, is delivered. Consistently, for example, the lower level of the structure frame, including the lower base of the columns, is first assembled on bolts, then the first column is mounted with the upper base assembled from basic elements that set the direction for the horizontal beams of the first module, then the second column that connects to the first horizontal beams etc. When assembling the structure, adjacent modules are located so that each of the corner profiles that form the edges of the frames of each of them are closely adjacent to each other, forming a supporting structure formed by the connection of contacting edges, in addition, when overlapping, a cross connection of all structural elements is formed. To give greater strength and reliability of the joints, all contacting elements can be welded or additionally stitched by welding at individual points. After the assembly of the first level, they proceed to the similar phased assembly of the second, while the ribs of the lower frame of the frame of the second level modules are fastened (by bolting, welding) to the upper frame of the frame of the modules of the first level. The shoulders of the basic elements located on the outer perimeter of the structure, not connected to the horizontal beams, can be used later in the completion of the structure, for placing cornices or sawn off.

 The reinforced frame structure, supported by the ground, and the rigid frame of the building make it possible to fix the structure on the ground without a deeply grounded foundation.

 In the future, the volume of the building module can be sheathed with shields or panels, and can be left free, for example, a set of volumes of modules of the first level, and can be used to drive cars or people (6).

 Using the technologically easy as the main structural element in the manufacture, and therefore, the inexpensive corner profile, which will affect the cost of the structure as a whole, the ability to easily change the dimensions of the structure, tailoring them to specific construction conditions, the ease of each of the individual elements and a "turn-based strategy "assembly, which allows several people to do it without the use of heavy construction equipment, such as a crane, and to exclude the delivery of large-sized goto 's modules, as well as the opportunity of completion of the building or adjustment as needed without damaging the previously constructed volumes make the system modular building framework proposed industrially applicable and attractive for the consumer.

Claims (4)

1. Mobile collapsible modular structure containing a grid of columns, vertical beams and associated housing or household modules, each of which is a three-dimensional figure, such as a parallelepiped inscribed in a cell of four columns and fastened with them, while the grid formed by columns, each of which is made of four interconnected corner profiles forming in cross section

-shaped shape of the column, and the upper and lower bases of each column are four interconnected n-shoulder base elements, where 2≤n≤4, the shoulders of which are formed by segments of the angular profile, each of which is directed along one of the four semi-axes: a, b, c ₁ and c ₂ , starting from one point O and located in space in such a way that c ₁ and c ₂ form a straight line, a and b are perpendicular to this line and perpendicular to each other, with all the shoulders of the base element fastened together by ends directed to the point O, while the lengths of the shoulders of the base element can be both equal and not equal to each other, and satisfy the condition
L _i = l _i + d _i ,
where i can take the values a, b, s ₁ , s ₂ ;
L _i - the length of the shoulder of the i-th base element in one of the directions of the coordinate axes a, b, c ₁ , s ₂ ;
l _i - the main size of the i-th shoulder;
d _i - the additional size of the i-th shoulder,
moreover, L _i = 0 in the absence of a shoulder element along any of the axes, otherwise L _i > 0, while l _i ≥p, ad _i = 0 or d _i ≥k, where p and k are constants, calculated on the basis of the conditions for ensuring the necessary strength of the joint depending on the size of the corner profile, while the shoulders of the base element are joined with the corresponding sections of the corner profile that are part of the columns or horizontal beams of the structure, intermediate fastening of all structural parts can be done end-to-end or overlap, the connection matches the shoulder of the base element of one module with the horizontal beam of the adjacent module or adjacent corner profile of the column with the formation of mutual interweaving of elements or a combination of these methods, while the connection of structural elements can be detachable, for example, using bolts, one-piece, for example welded, or be a combination of them .  2. A mobile collapsible modular structure according to claim 1, in which, to create a reinforced structure, the corner profiles of the column and the vertical shoulders of the base elements are made as a single unit.  3. The mobile collapsible modular structure according to claim 1, wherein the intermediate fastening of the structural parts is performed end-to-end by means of flanges welded into the ends of the corner profiles and having connecting holes.  4. The mobile collapsible modular structure according to claim 1, in which, when combining the structural members, bolts of a smaller diameter are used than with the detachable joint, and welding is performed at individual points.

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