RU2693626C2 - Modular construction system - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, in particular to a modular system, in which it is possible to erect a building frame from several pre-fabricated modules. Modules are installed one on another, at that each module consists of wooden carcass structure containing sequence of vertical posts (2), spaced from each other by standard distance. Vertical posts (2) extend over the entire height between the floors, and each of vertical posts (2) of the wall on the floor N+1 is butted by the butt directly into the end face of the vertical wall of the floor N. Binding components (3, 20, 21) oriented transversely to vertical posts (2), and (or) binding components on elements installed between vertical posts (2), serve for retention and connection of the above vertical posts (2).

EFFECT: high strength of the framework.

4 cl, 4 dwg

Description

The technical field to which the invention relates

The present invention relates to an industrial building construction system with a wooden frame structure.

In particular, the present invention relates to a building system, the operational parameters of which provide the possibility of increasing the height of structures of the same components to a large number of levels (floors) without the use of supporting structures.

Background of the invention

At the prior art, wooden building systems are already known, the number of their basic varieties is three, and each of them has its own advantages and disadvantages.

A known technology for assembling walls made of glued solid wood, in which continuous wooden panels are assembled from prefabricated units of small section timber in the form of interlaced layers. The panels obtained using this technology are used to fill the supporting structure or as a supporting structure according to specific assembly standards.

Also known rack-and-beam structures, the technology of which involves the assembly of structures from large-section timber into floors, their distribution on vertical elements (pillars) and horizontal elements (beams), as well as the elements connecting them, and the necessary efforts are made for the construction of buildings, cladding plates and wall panels of the entire building envelope, while tie-ties can be used for the supporting post-and-beam construction.

Finally, buildings with a wooden frame construction are also known, namely, buildings, the wall panels of which are formed from vertical wooden posts for obtaining a panel attached to the lower rail and the upper rail. A panel is formed from this associated structure with one or two linking panels attached to this structure. The panels thus obtained are used to fill the load-bearing structure or as a load-bearing structure according to specific assembly standards.

These wooden wall frames can be placed on intermediate floors or on rack-and-beam structures.

The above-mentioned upper and lower guides have several mechanical and structural functions, namely:

- attaching and holding the racks at the desired distance between them,

- fixing the bottom guide to hold the panel in an aligned position and with reactive loads,

- attaching the upper building elements to the upper guide panel.

The lower and upper guides provide the ability to stitch the material of the stiffness linking system at the lower and upper edges of the panel.

However, the known construction systems with a wooden frame construction have limitations. Thus, the lower and upper guides for a panel of wooden frame construction assume the load carried by each bar in the direction perpendicular to the fibers of the wood.

Wood can withstand much higher specific (per unit area) loads, if they act along the direction of the fibers, as compared with loads acting perpendicular to the fibers, resulting in the destruction of guide wood or solid wood elements along horizontal fibers with point reactive loads.

A commonly known frame system with load transfer to a tree with horizontal fibers allows maintaining buildings with a wooden frame structure to R + 2, that is, three levels, and beyond this there is a risk of point destruction of this solid tree, which reaches a constructive limit.

Brief description of the invention.

The aim of the invention is the creation of a pre-manufactured construction system with a wooden frame construction, which is transportable and has good stackability vertically without the use of a supporting structure and without limiting the number of levels that can be built.

Modular building structure according to the invention is characterized by the fact that it is a building system in which the frame of the building is made of several prefabricated units (modules) assembled as a structure of the same components, built up in height, and the fact that each of these nodes represents a wooden frame structure containing a sequence of vertical racks separated by standardized distances, with the above-mentioned vertical racks pr They are stretched along the entire height between the floors, with each of the above-mentioned vertical racks of the wall on the N + 1 floor resting directly on the vertical rack of the N level, while the assembly units directed transversely to these vertical racks and (or) the assembly units on the elements installed between the uprights, perform the functions of holding and tying these uprights.

With this solution, the permissible reactive load on one vertical rack is much higher, since there are no wooden elements with horizontal fibers that would take on the load, therefore there is no destruction.

There is no need for supports to take the load, as in a rack-and-beam system, with a standard wooden frame structure, vertical sections and spatial solutions, classes of structures in accordance with the current legislation.

According to another variant of the modular building system according to the invention, it is characterized by the fact that it is a building system in which the frame of the building is made of several prefabricated units assembled as a structure of the same components, built up in height, and the fact that each of these nodes represents a wooden frame construction containing a sequence of vertical posts extending along the entire height between the floors, and the fact that each of the mentioning The thin vertical racks of the wall at the N + 1 level rests on the vertical N-level pillar after establishing a cushioning element between them capable of transmitting reactive loads and made of a material or composite of several materials, which is chosen in such a way that it maintains its mechanical properties under stresses loads from the floor or floors located above, while the assembly units are directed transversely to these vertical racks, and (or) the assembly units on the elements of the mouth tained between vertical struts function as retention and binding of these uprights.

Said spacer elements made of a single material, for example, a metal, or of a composite of several materials, can also serve as fastening means.

Of course, their nature and dimensional characteristics are selected and calculated depending on the characteristics of the building, namely, the loads to which they may be subjected. This eliminates solid wood, which, as mentioned above, can reach a constructive compression limit, which is associated with the risk of point destruction.

These elements can be sheets or profiles, for example, made of angle iron, although their material is not limited to metal. In addition, they can be made of materials such as concrete (reinforced or unreinforced), polymeric material (reinforced or unreinforced with fiber), converted wood, bonded or glued industrial wood, laminated industrial wood (the type of wood is selected on the basis of the required compression characteristics) , polymeric materials or materials derived from biological raw materials with a base of polymeric or natural binders, ferrous or non-ferrous metals, composites of several of the above e of materials, while some of them provide compressive or shear strength, others provide torsional strength, or one of the composite materials can be selected, for example, for reasons of fire resistance.

Such solutions are possible in which the vertical stand does not fall precisely on the corresponding vertical stretch of the upper and (or) lower level. The purpose of these elements is to provide compensation for shear in the longitudinal direction of the wall.

According to another feature of the proposed construction system, the vertical posts are connected on the lower horizontal beam, which is designed to hold the girders of the floor.

According to another feature of the proposed construction system, vertical posts are connected on the upper horizontal beam, which is designed to hold ceiling beams or rafters.

According to another feature of the proposed building system, vertical pillars hold the ceiling beams or rafters directly.

Pre-fabricated units are designed to be superimposed on each other in height, and sets of superimposed units can be placed side by side, which can be done in many different ways, for example (but not only), between longitudinal beams and longitudinal beams, between longitudinal beams and bars, between longitudinal beams and vertical posts, between vertical stands and vertical stands, between vertical stands and bars, etc.

The features and advantages of the building system according to the invention will become clear from the following description with reference to the accompanying drawings, in which several embodiments of the invention are illustrated, by which its scope is not limited.

A brief description of the attached graphics

FIG. 1 is a perspective view of a schematic structure constructed in accordance with a building system according to the invention.

FIG. 2 is a perspective view of a schematic representation of the same construction.

FIG. 3 is a perspective view schematically showing another embodiment of the design, made in accordance with the building system according to the invention.

FIG. 4, in a partial perspective view, a schematic of another construction variant, made in accordance with the building system according to the invention, is shown schematically.

Detailed description of the invention

FIG. 1 shows the construction made in accordance with the construction system according to the invention.

This design contains two superimposed module 1, having an identical structure.

Each module 1 contains vertical pillars 2, which are parallel to each other and are at a given distance from each other, forming a carrier wall, while the specified distance can be ensured, for example, by means of spacers (not shown).

In the considered embodiment of the present invention, the vertical posts 2 of the same wall of the module 1 are connected in the lower part with the horizontal beam 3, and two horizontal longitudinal beams 3 of the opposite walls hold the beams of the floor 4, while the vertical supports 2 of these two walls ceiling beams hold their top part 5.

In addition, each wall is reinforced with an internal stiffening frame 20 and (or) an external stiffening frame 21.

These modules can be of any kind, they are calculated in such a way that the connectivity of the module design, sufficient for transportation and subsequent use as a building component, is guaranteed.

According to the invention, the upper module 1 is placed on the lower module 1 with the direct support of each of the vertical racks 2 of the module 1 butt-on the end of the vertical rack 2 of the module 1 under it. Thus, the vertical posts 2 from level to level are extensions of each other without placing wood with a horizontal orientation of fibers between them that would take over the load and therefore there is no risk of destruction.

FIG. 2 illustrates an embodiment of the present invention, in which vertical posts 2 of the same wall are connected at the top of a horizontal beam 50 that supports ceiling beams 5.

FIG. 3 shows another embodiment of the construction according to the invention. Thus, each of the vertical racks 2 of the upper module 1 does not abut against the end of the vertical rack 2 of the lower module 1 directly, and between them is a gasket element 6 made of a suitable material or of a composite of several materials chosen for reasons of preserving its mechanical properties when exposed to stresses from the weight of the upper module or modules, and having a form, for example (but not only), a sheet.

Depending on the mechanical properties of the above-mentioned gasket elements 6, a solution is possible that involves shifting the vertical columns 2 of the lower module 1 relative to the vertical columns 2 of the upper module 1, while the gasket elements 6 provide the possibility of transferring the load and are chosen so as to withstand the compression and shear stresses, generated by the building.

It should be noted that in the present embodiment of the present invention, two superimposed module 1 have two common horizontal beams 30, which for the lower module 1 serve as the upper longitudinal beams, and for the upper module 1 - as the lower longitudinal beams, and common the frame of the overlap of girders 40, which serve as ceiling beams for the lower module 1, and for the upper module 1 as the girders of the floor.

FIG. 4, which relates to the same embodiment of the invention, it can be seen that, on the one hand, the spacer elements 6 located between the ends of the uprights 2 of the lower module 1 and the ends of the uprights 2 of the upper module 1 are made in the form of corner profiles (this the solution is not limiting the scope of the invention), on the other hand, the connection of the various components of the structure is made using the connecting elements C.

Regardless of the options considered for the implementation of the invention, the construction system according to the invention provides the ability to create building structures without limiting the number of levels.

Claims (4)

1. A modular building system made with the possibility of erecting a building frame of several prefabricated modules (1) that are vertically mounted on each other, each of these modules (1) consisting of a wooden frame structure containing a sequence of vertical posts (2 ), separated from each other by a standard distance, vertical posts (2) extend along the entire height between the floors, while the connecting components (3, 30, 50, 20, 21) are oriented transversely relative to o vertical racks (2), and (or) connecting components on the elements installed between the vertical racks (2), are used to hold and tie the above-mentioned vertical racks (2), characterized in that each of the vertical racks (2) walls on the floor N + 1 is installed with abutting the butt on the end of the vertical pillar of the wall of the floor N directly 2. The modular construction system according to claim 1, in which the vertical posts (2) are connected on the lower horizontal beam (3; 30), designed to support the girders of the floor (4; 40). 3. The modular construction system according to claim 1, in which the vertical posts (2) are connected on the upper horizontal beam (50; 30), designed to support the ceiling beams or rafters (5; 40). 4. The modular construction system according to claim 1, in which the vertical pillars (2) are made supporting ceiling beams or rafters (5) directly.

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