RU2397295C2 - Building frame - Google Patents

Abstract

FIELD: construction. ^ SUBSTANCE: building, for instance residential building or pavilion, comprises frame, which consists of several parallel frame elements arranged at the distance from each other. Frame elements consist of two vertical stands and at least one horizontal beam each. Frame elements are connected into frame of building by means of beams, which are fixed to their vertical stands from the outside. To connect stands and beams, angles of steel sheet are applied, which have holes on their shelves to pull through connection elements (screws) and/or dowels stamped on shelves of angles and bent as nail plates. In frame of frame elements with vertical stands and horizontal beams to connect frame elements and to longitudinally reinforce the frame, there are beams provided, which are installed between vertical stands and are fixed. Beams carry wall elements, which inside adjoin thrusts on vertical stands. Preferably wall elements and beams are previously assembled units, which are installed between vertical stands as pressed to thrusts, and then beams are fixed on vertical stands. ^ EFFECT: increased strength of frame. ^ 70 cl, 21 dwg

Description

The invention relates to a frame for a building of any kind, the frame of which forms the main skeleton of the building (building building), for example, a residential building or pavilion and consists of vertical pillars and horizontal beams, and at least two frame elements are provided, each of which consists of at least two vertical posts and at least one associated horizontal beam and the frame elements are spaced apart from one another and connected to each other.

A framework for a building of this kind is known from US 3,662,502 A.

From US 4869036 A, a modular type building is known which has a frame of vertical beams and horizontal beams. In this case, horizontal beams are located above and below on vertical racks. In the fields between the uprights outside, wall elements can be used that are located between the horizontal beams and the uprights.

The objective of the invention is to provide the frame at the beginning of the named type, with the use of which the building can be erected in the desired dimensions and purpose (farm building, residential building, etc.).

The objective of the invention is to propose a frame for the building, which meets the above requirements.

In accordance with the invention, the problem is solved by using a frame for a building having the features according to claim 1.

To achieve the long-term stability of buildings, the frames of these buildings must be, in particular, firmly joined, which means that the joints of the vertical and horizontal beams of the elements (racks and beams) must be made in such a way that they withstand the loads of a building that has a frame according to the invention. Such loads affect the building both from the inside and outside, for example, wind.

Preferred and favorable embodiments of the invention are the subject of the dependent claims.

The frame construction proposed in accordance with the invention by simple means reliably provides the desired freedom in the size, shape and construction of a building having a frame according to the invention and the stability of the frame and the building constructed using it, no matter whether it is a residential building, a pavilion structure or another building.

If, according to one embodiment, the frame according to the invention connects (horizontal reinforcement) of the frame elements to each other by horizontal beams located between the vertical posts of the frame elements of the frame, more freedom is obtained in the design of the building facade, which has a frame according to the invention.

In the framework of the invention, it is preferable if the beams connecting the vertical posts of the frame elements to each other, on their side facing the outer side of the frame, carry wall elements. In this way, not only the horizontal reinforcement of the framework according to the invention is achieved, but also the facade cladding becomes possible.

Wall elements, which in one embodiment are connected to horizontal beams, can be made with windows and / or doors.

Instead of or in addition to the horizontal beams that connect the frame elements of the frame to each other, extensions can be located between the vertical posts of the frame elements and at an angle to the vertical posts. Moreover, it is preferable if the stretch marks are located in the corner regions of the frame according to the invention. Stretch marks are preferably performed so that they are located between the uprights in the corner zones of the frame according to the invention and are directed upward at an angle to the uprights in the corner zone of the frame according to the invention.

The implementation of the frame with stretch marks extending at an angle between the vertical posts of adjacent frame elements can be changed, further, in that between the posts, for example, at half the height of the posts, horizontal reinforcement (crossbar) is provided, and above and below horizontal reinforcement, at least one stretch, so you get something like "half-timbered".

The wall elements provided according to the invention are usually one floor high, the wall elements being able to be joined, in particular in the area of flooring, or mounted on an overlapping frame.

The wall elements installed in accordance with the invention on the frame, it does not matter if they are made with doors and / or windows, serve in the example of the embodiment as additional stiffeners that connect adjacent frame elements to each other and hold in the desired position, so that create a stable frame of the building.

Within the framework of the invention, it has proved to be useful if, on the vertical struts of the frame according to the invention, on the outside, in particular, stops are provided which protrude on both sides of the strut (lining), which facilitate, for example, hanging the dressing line of wall elements connected with horizontal beams of the outer surface of the frame .

The wall elements provided according to the invention can be made of metal (sheet metal), plastic, wood or mineral material or combinations of these materials. In one exemplary embodiment, the wall element may be a composite of several, usually vertically arranged longitudinal elements (strips).

The stops (pads) provided on the uprights of the carcass according to the invention can be smooth or profiled and contain planks of wood, metal (sheet metals), mineral material or plastic. At the same time, it is sufficient if the supports have a strength that is sufficient so that they can fulfill their role of supports for wall elements.

The manufacture of wall elements can be started by joining the beams in an appropriate amount (usually two beams) with connecting plates, corners or such elements with vertical struts, and then wall elements are mounted.

However, it is taken into account and preferably, according to the invention, if the structural parts of the wall element and beams are prepared first by folding lying on the ground and / or the floor of the building for which the frame according to the invention is intended (they can also be prepared in this position), and then simply tilt up until they reach the stops (pads), which are on the vertical racks outside. This allows the installation of wall elements and beams from the inside, so that scaffolding becomes unnecessary. The advantage is the ability to easily replace wall elements if they need to be updated or replaced on one or another basis. Especially if the wall elements are fixed with steel screws.

In principle, the assembly of wall elements is also possible from the outside, then wall elements or structural elements of the wall element and beams are “threaded” between the posts and the stops (overlays) attached to them.

Wall elements, in particular with large overall dimensions, that is, wall elements for outbuildings, can also be rotated around vertical or horizontal axes, which are defined, for example, by hinges, in a position between the vertical racks of the frame elements. This also applies to smaller wall elements, for which it is appreciated that they slide in from the outside or (preferably) from the inside into their working position between the uprights, as described above.

Plaster or the like may be applied to wall elements that may have an insulating layer externally or (preferably) internally. In this case, the plaster can be located between the stops made as overlays, so that the plaster will be interrupted by the stops (overlays).

Alternatively, it is possible that the plaster is applied between the vertical posts of the frame elements, so that the plaster is interrupted by the posts.

The wall elements can thus be fixed on the frame according to the invention, that on the outer sides of the uprights, over the entire width of the uprights, a coating is provided, in particular waterproof, this coating is preferable, in particular if vertical racks are used, which consist of two wooden parts lying next to each other in the longitudinal direction. The joint areas between adjacent external wall elements may lie in the area of the uprights to the covering of the uprights. The fastening of the external wall elements can be carried out directly to the vertical posts (outside), or between the vertical posts provide mounting rails or beams to which the external wall elements are mounted.

In an embodiment of the invention, it can also be provided that the frame elements are oriented not only across the longitudinal axis of the building, but that the (at least one) frame element is also oriented parallel to the longitudinal axis of the building.

If the frames according to the invention are made using frame elements for high-rise buildings, or if the vertical posts are made up of several wooden beams stacked one above the other (from whole or composite, wooden parts connected to each other in the longitudinal direction), it is preferable to arrange the horizontal beams not between the joined the ends of the uprights, and attach the horizontal beams along the longitudinal side of the uprights, for example, in the area of the junction of the racks with each other th. This can be done using consoles or using connecting plates. In this embodiment, it is taken into account that the horizontal beams between the uprights, to which they are pivotally (through the consoles) attached at their ends, must also be rigidly fixed, rigidly attaching them with a corner to other uprights.

There is an alternative opportunity to rigidly fix the horizontal beams on the vertical posts with connecting plates, so that additional clamping of the horizontal beams occurs.

These connecting pads or consoles can be located adjacent to the opposite outer surfaces of the uprights and beams, and fastened to the posts and beams, or the connecting pads or consoles are installed in recesses (in the form of slots or grooves) at the ends of the racks and beams.

In connection with the fact that horizontal beams (floor beams) are not located between vertically stacked sections of vertical struts, they get the best, maximum permissible load, since wooden racks loaded from the side of the ends have a higher bearing capacity than the racks, between which are wooden beams with horizontally oriented wood fibers and which are loaded across the fibers. The vertical posts forming the frame elements of the frame according to the invention can be connected to each other by rigid structures (stiffening fields) also installed between the vertical posts. Such rigid structures are, for example, wooden frames with rigid angles that are located between the uprights and have, for example, extensions. In this case, in each stiffening field, a stretch or two stretch marks and between them a horizontal half-timbered cross-beam can be provided.

In the framework of the invention, an embodiment is also taken into account in which the stiffness field and / or the stretchings, no matter whether they are located in the stiffness field or directly between the vertical posts of the frame elements, are installed using split wedges, steel screws, etc. This makes it possible to quickly remove or replace the stiffness field or braces if necessary (for example, during repair), in the case of additional installations, etc.

Further details, features and advantages of the invention are explained in the following description of the invention based on exemplary drawings.

Figure 1 shows schematically a frame for a building,

figure 2 - an example of the connection of the vertical pillars and horizontal beams using metal corners,

figure 3 is another implementation of the connection of the vertical pillars and horizontal beams using metal corners,

figure 4 - an example of the connection of the floor beams with the beam connecting the racks of the frame elements,

figure 5 - three different execution of the metal corners used in the framework of the invention (shown adjacent to each other),

6 is a plot of the frame according to the invention in front view,

Fig.7 is a section along the line VII-VII in Fig.6,

Figs. 8-11 are schematic diagrams of other embodiments of connections between vertical posts and horizontal beams,

12 and 13 are two possible embodiments of horizontal beams of metal (steel),

Fig - stretching for reinforcement between the vertical racks of the frame elements,

Fig - gain type "half-timbered" between the vertical racks of the frame elements,

Fig - connection of a horizontal beam with a vertical rack of frame elements,

Fig - another implementation of the connection of horizontal beams and vertical racks and

Fig - in horizontal section the location of the external wall elements with a vertical rack,

Fig.19 is a vertical rack of metal,

Fig.20 - in a form similar to Fig.7, the implementation with a folding wall element and

Fig.21 - execution of Fig.20 in side view.

The frame 1 for a two-story (residential) building shown in FIG. 1 consists of several vertical posts 3 and associated with them, in this example located in two horizontal planes 5 and 7 lying one above the other, such frame elements 9 formed by each two vertical posts 3 and each of at least one horizontal beam 5, installed, in particular, in the upper end of the rack 3 - in this example, with two horizontal beams 5 and 7 - are installed parallel to each other and fastened to le with anchors or by means of calculated beams respectively and steel parts. Each other fastening of the frame elements 9 on the ground or on the foundation is also taken into account for the frame 1 according to the invention.

In order to connect the frame elements 9, which are installed with each other at intervals, into the spatial frame 1, the frame elements 9 are screwed onto the horizontal rods (crossbars) on both longitudinal sides (parallel to the image plane of FIG. 1) in the exemplary embodiment, the beam (crossbar) 11. Preferably, these beams 11 consist of at least two beams 15, adjacent to each other in the longitudinal direction and fastened to each other by means of nail plates 13, which with metal iCal connect corners 17 in each floor the upper and lower ends of the uprights 3 facing each other, with the frame members 9. The connection between the beams (bolts) 11 and the frame member 9, for example, shown in Figure 4.

The connection of the upper horizontal beams 5 with the uprights 3 occurs, for example, in the installation of metal corners 17 shown in FIG. 3 (corner 17 of sheet metal, in particular sheet steel). With this connection, the outer edges 24 of the vertical shelves 23 of the metal corners 17 lie flush with the ends of the beams 5.

The fastening of the middle horizontal beams 7 (the upper floor of the lower floor and, accordingly, the floor of the upper floor) to the vertical posts 3 is made, for example, using metal corners 17, which are installed, as shown in figure 2 (figure 4). With this connection, the outer edges 24 of the vertical shelves 23 of the metal corners 17 protrude beyond the dimension of the struts 3 above the end surfaces of the beams 7.

On narrow sides extending across the plane of the drawing in FIG. 1, intermediate racks 6 are provided for the (residential) building frame between the outer posts 3 of the end frame elements 9. These intermediate posts 6 are connected to the horizontal beams 5, 7 of the end frame elements 9 preferably with metal angles 17. The zones between the intermediate posts 6, the posts 3 and the horizontal beams 5, 7 may be partially or completely closed on the narrow sides of the frame 1 according to the invention E (bolts) 11, such as beam 11 shown in Figure 4 implementation. It is also possible to panel the frame elements 9, which are located at the end of the frame 1 (screw), if a blind side is provided.

Alternatively or in addition to the described reinforcements between the uprights 3 of the frame elements 9, the frame 1 according to the invention can be provided, in particular, also in the corner region, there are extensions 70, as shown in FIGS. 14 and 15. FIG. 14 shows an embodiment with an obliquely extending pass from below upward by a brace 70, wherein the brace 70 is preferably positioned so that it extends to an upright 3 in the corner of the frame 1 according to the invention at an upward angle and is rigidly fixed by the corner.

Alternatively, a “half-timbered” embodiment (Fig. 15) may be selected, in which at least two angular extensions 70 are provided that are located above and below the horizontal cross member 72 between the vertical posts 3 of the frame elements 9.

The stretch marks 70 shown in FIGS. 14 and 15 can also be used as reinforcing elements installed between the uprights 3 of the frame elements 9, which form a substantially rectangular frame with at least one angle passing, streamer 70.

Both the angle extensions stretching 70 according to FIGS. 14 and 15, and the reinforcing elements that are installed between the uprights 3 can be secured with wedges 74 (FIG. 15) or other detachable fastening means (mounting bolts) so that they if necessary, could be removed.

Such stretch marks extending at an angle 70, which are mounted directly between the vertical posts 3 or are provided in special stiffening fields, are used, in particular, in the corner zones of the carcass 1 according to the invention, and these stiffening fields can be made as raster fields, and, as a rule, Do not have doors and / or windows.

The connection of the horizontal beam 5 with the vertical strut 3 of the frame elements 9 shown in FIG. 16 with the help of connecting plates 76 allows the vertical struts 3 to be joined together, in particular with higher frames 1, without ends, without damaging the load-bearing capacity (loaded from the ends wood has a high load-bearing capacity other than that of wood loaded across the direction of the fibers). Connecting pads 76 can be located, as shown in Fig. 16, on both outer surfaces of both the vertical strut 3 and the horizontal beam 5.

There is an alternative possibility of fastening the horizontal beam 5 with connecting plates 76, which then act as consoles to fix the horizontal axis with the possibility of rotation.

Alternatively, connecting plates 76, which fasten the horizontal beam 5 with the vertical strut 3 in the joint area between the two adjacent sections of the vertical struts 3, can be installed inside the horizontal beam 5 and vertical strut 3 (in the recesses in the form of a groove or in the form of a slot ) This embodiment is selected, in particular, if the horizontal beam 5 and / or vertical post 3 consist of at least two adjacent longitudinal sides and fastened to each other wooden parts.

On the plates 76 on their vertically extending shelves, the protrusions 78 can be molded in one piece. These protrusions 78 extend from the posts 3 on the opposite side to the horizontal beams 5 and serve as a support for the horizontal beams (crossbars) 11. Such protrusions protruding outward relative to the frame elements 9 are favorable, in particular, if external wall cladding elements are fixed on horizontal beams (crossbars) 11, since the protrusions 78 transmit vertical forces to the frame 1 according to the invention.

The protrusions 78 can also be made separate from the connecting elements 76 or 60 or the metal corners 17 with parts that are separately mounted on the uprights 3 of the frame elements 9 according to the invention where they are needed.

The shelves of the connecting plates 76 may have holes 19 and / or bent pins 21, as explained in connection with the metal corners 17 (figure 5).

As a rule, the horizontal beams 11, which tie together the frame elements 9 of the frame 1, can be made of wood, as, for example, shown in Fig.4. However, this is not necessary. The horizontal beams 11 can also be strips of a metal profile, which is, in particular, preferable for beams 11 mounted on the lower ends of the vertical posts 3 of the frame elements 9, since they can already be wooden beams, so that so much construction height will not disappear .

On Fig it is shown that the connection between two vertical posts 3 and a horizontal beam 5 or 7 of the frame elements 9 and / or frame elements 9 with connecting the frame elements 9 with each other beams (crossbars) 11 is connected by overlays 60, which are included in the horizontal beam 5, and in a vertical rack 3, respectively, in their end region (in the recesses provided there in the form of grooves or slots). These connecting plates 60 are, for example, made of metal and fastened to the posts 3 and the horizontal beams 5 at their ends, for example by means of screws or threaded bolts.

If the posts 3 and / or beams 5 are made of wood, it is preferable that the posts 3 and / or beams 5 consist of at least two wooden parts connected to each other. The connecting pads 60 can be located in the seam between the two wooden parts, which, being connected to each other, form a beam 5 and, accordingly, a rack 3, and can be fixed there. Sometimes means (screws, bolts, etc.), those that connect the wooden parts to each other in racks 3 and / or beams 5 or 7, also serve to install the connecting plates 60 (or connecting plates 76) in racks 3 and, accordingly, in beams 5.

If the horizontal beams 5 are made of steel I-beams 61 (FIG. 12), the connecting plates 60 can be located on a straight line with the crossbar 62 and attached to it, for example, welded or screwed or riveted. In this case, the connecting pad 60 forms, as it were, a continuation of the crossbeam 62 of the I-beam rolling beam 61. If the vertical posts 3 consist of I-beam steel beams 61, the overlays 60 can be connected to the crossbar 62 with one shelf in a straight line at a distance from its middle, as shown in Fig.19. It is also possible two-way fastening of the connecting plates 60 to the rack 3 with racks 3 of I-beam steel beams 61.

If the horizontal beams 5 are composed of two steel channels 63 (with a cross section C) folded with each other by the middle shelves, as shown in Fig. 13, the connecting plates 60 can be located between the middle shelves 64 of the channels 63 and be fixed there by means, indicated above, for the execution shown in Fig.12.

The installation of connection plates 60 according to the invention, which are located at the ends of horizontal beams 5, also makes it possible to form nodes, as shown in FIG. from 9 to 11 and Fig. 17. Figure 9 shows the corner node, figure 10 is a T-node and figure 11 is a cross-shaped node that can be found inside the building.

On Fig shows in great detail how the connection can be made between the rack 3 and the horizontal beam 5 or 7 and, accordingly, how the assembly can be made according to Fig.8-11, if both the rack 3 and the carrier 5 are made of wood . The connecting strip 60, which connects the horizontal beam 5 with the vertical strut 3, is located in the corresponding recesses in the form of a groove or in the form of a slit, preferably in the middle of the vertical strut 3 and the horizontal beam 5. This embodiment is preferable if at least one of the horizontal beams 5, 7 or vertical posts 3 consists of two wooden parts longitudinally adjacent to each other and connected to each other.

If one of the vertical posts 3 or horizontal beams 5 or 7 is made of wood, and the rest of the frame element 9 is made of metal (steel), it should be taken into account that the corner 17, connecting plates 60 or connecting plates 76 should only be located within one part (stand or beam) made of wood.

According to the invention, connected to each other by metal corners 17 or connecting plates 60, 76 (screwed-in) racks 3, beams 5 and 7 and intermediate racks 6, as well as beams (crossbars) 11 give the frame 1 of the building comprehensively high stability.

The described embodiment of the carcass 1 according to the invention further provides the advantage that windows and / or doors can be absolutely freely located on the remaining places (fields) between the posts 3 and the beams 11.

In any case, the reinforcement provided on the beam 11 makes it possible to use pre-prepared elements of the external wall or facade for cladding the frame 1, the type and design of such elements of the external wall or facade and the materials selected for them being selected quite freely.

In the frame 1 for a (residential) building with a supporting longitudinal wall in the middle, it is possible to use it as a stabilizing factor for the frame 1 according to the invention. For this, the posts 3 at the top on both sides are provided with metal corners 17 or connecting plates 60 (Figs. 8-11) to which the intercepting beams are screwed (e.g. horizontal beams 5 or 7). These beams support the floor beams, which can sometimes be screwed with metal corners 17 to the uprights, their outer ends, for example, using metal corners, attached to the outer walls.

This longitudinal wall reinforced by the described method in the middle allows the external walls to be erected using light technology, and in particular, attention can be paid to good insulation, mainly thermal insulation.

The racks 3, intermediate racks 6, beams 11 and beams 5, 7 used for the frame 1 according to the invention can be made of wood or steel profiles, and combinations of racks 3, intermediate racks 6, beams 5, 7 and beams 11 from different materials are also possible ( wood and steel). Steel profiles or elements of the frame 1 according to the invention of different materials can also be connected to each other using metal angles 17 (with holes) or connecting plates 60, 76.

FIG. 5 shows three different folded-up metal corners 17 for the carcass 1 according to the invention, folded together. These corners 17 are composed of sheet metal, preferably sheet steel, and are rounded in the corner region 18, externally and internally, as shown in FIG. These curves favor the distribution of forces in the material. For the manufacture of metal corners 17, according to the invention, as shown in FIG. 5, they are stamped from a suitably wide metal tape, in particular a sheet of steel sheet, with material savings.

When stamping metal corners 17, in particular steel corners, depending on the embodiment, holes 19 can be made for passing fasteners, such as screws or pins 21 (like nail plates), or a combination of holes and stamped and bent nails (like nail plates).

So, figure 5 shows the bottom of a metal corner 17, which has exclusively stamped and bent from the plane of the corner 17, for example, 90 ° pins 21 in both shelves 23, so that this embodiment of the metal corner 17 can be used as a nail plate.

Figure 5 shows in the middle the execution of a metal corner 17, in which only holes 19 are provided for the passage of fasteners. Holes 19 are provided in both shelves 23 of the metal corner 17.

The third embodiment of the metal corner 17, the upper of those shown in FIG. 5, has both loosely stamped and protruding from the plane of the corner of the bracket 21, and holes 19 for passing fasteners, and the design is selected so that the protruding pins 21 (like nail plates) are provided at the ends of the shelves 23 of the metal corner 17, and the holes 19 for passing fixing screws or such fixing means are closer to the corner 18 of the metal corner 17.

It is also taken into account within the framework of the invention that two adjacent metal corners 17 are used to connect the components of the frame 1 and its frame elements 9. In this case, metal corners 17 can be used, which are adjacent to each other by a shelf 23 to a shelf 23 and connected to each other with a friend. In particular, the corners 17 make an angle of 90 ° with each other. Such connected (welded) metal corners 17 together form a flat “T” (similar to the connecting plates 76 of FIG. 16) or “T”, which is bent in the region of the middle shelf “T”.

The execution of metal corners 17, which have both holes 19 for passing fasteners, and freely stamped and bent pins 21, is particularly preferable, since these metal corners 17 facilitate installation, since they connect the connected parts to each other by hammer blows, after whereby the final connection can occur without further aids that hold the parts in place by mounting fasteners such as screws, bolts or nails.

The frame 1 for a building (residential building) according to the invention is applicable, for example, for the construction of pavilion structures. The time-and-cost-saving design of the carcass 1 according to the invention manifests itself particularly well in a pavilion-type building, since facades are often rebuilt without windows, especially since in pavilion-type buildings the light flux often passes through light openings (light domes or the like) in roof area.

The previously described structures of metal corners 17, in particular, a steel corner for the rectangular connection of parts of the frame 1 according to the invention, have, independently of, in fact, the frame structure and its construction, an independent value as an invention. In particular, metal corners 17 are considered, in which combinations of holes 19 and stamped pins 21 are provided (similar to nail plates).

It is important for the stability of the frame 1 according to the invention in one embodiment, that the metal corners 17 in the frame 1 are oriented in different directions. So, the metal corners 17 that connect the vertical posts 3 to the horizontal beams 5, 7 lie in the same plane, while the metal corners 17 that attach the beams 11 to the vertical posts 3, on the contrary, lie in a plane perpendicular to the above plane . This leads to comprehensive rigidity of the frame 1 according to the invention, forming the basis of the building.

Although in the embodiment shown in FIG. 1, the upper horizontal beams 5 of each frame element 9 are made as straight beams 5, the invention also takes into account the embodiment in which the horizontal beams 5 of each frame element 9 or at least individual frame elements 9 of the frame 1 according to the invention are consistent with the shape of the roof of the building being constructed using the frame 1 according to the invention. Thus, in buildings with a shed roof, the upper beams 5 of all or separate frame elements The entrances 9 of the carcass 1 according to the invention can be tilted horizontally at an angle to the shed roof. In this case, metal corners 17 are used that connect the beams 5 with the uprights 3, not with the shelves located at right angles to each other, and the shelves of the metal corners 17 are facing each other at an angle corresponding to the inclined position of this beam 5 of the frame elements 9. The same meaning applies to other forms of roof, such as a gable roof, a four-pitch (tent) roof, a mansard roof, etc.

6 and 7 of the frame 1 according to the invention, only two racks 3 of the frame elements 9 and two horizontal beams 7 are shown. FIG. 6 shows that, in particular, with the high frame elements 9, the racks 3 can consist of two racks 3 which are located without an intermediate connection, for example, are attached to horizontal beams 7 and, indirectly, vertically to one another (joint 47). In this way, a higher load-bearing capacity and maximum load are obtained. In the frame 1 according to the invention, however, horizontal beams 5, 7 can be provided, which are located between the ends of the uprights 3 vertically standing one above the other.

In the example shown in FIG. 6, it is shown that in the height region of the horizontal beams 7, an interfloor overlap 30 is provided, consisting of a corresponding number of horizontal beams 31 and a floor 33, which consists, in the shown embodiment, of several paintings (wooden boards).

Between adjacent racks 3 of adjacent frame elements 9 in the shown embodiment, two beams 37 are fixed, which are directed horizontally. Beams 37 are attached in this embodiment using metal angles 43, 44 and mounting screws to the uprights 3.

The beams 37 carry a wall element 39, which in the shown embodiment is composed of several vertical longitudinal elements. These longitudinal elements may be plastic boards, metal strips or wooden boards. 7 also shows that insulation 41 may be provided on the inside of the wall element 39.

In a preferred embodiment, the beams 37, before they are placed between the uprights 3 and are fixed there, are connected to the wall element 39 as a whole. This is a simplified technology, since it is enough, for example, to connect the wall element 39 with two beams 37 into a block that lies on the ceiling 30 or on the floor and then only leans up to the stop. To facilitate alignment of the wall element 39 with the beams 37 with respect to the uprights 3, stops 50 (overlays) are provided on the outside of the uprights. The stops 50 occupy at least a portion of the height of the uprights 3 and protrude from the two sides beyond the dimension of the uprights 3. The protrusions 50 on the sides of the uprights 3 have an abutment 50 that ensures precise alignment of the wall elements 39 without the need for special attention. It is just enough to move the wall element 39 forward, in the case of beams 37 fixed on it, until it rests on the stops 50. Then the beams 37 will be in any way, in particular, angles 43, 44 and / or installation bolts, attached to the vertical posts of 3 frame elements 9 of the frame 1 according to the invention. Insulation 41 can be applied to the inner side of the wall elements 39. This insulation 41 is applied (Fig. 7) between the beams 37 and / or to the side of the beams 37 facing the inside of the building. Insulation 41 can be applied when mounting the unit from wall electric 41 and beams 37 or after installing the unit between the racks 3 of the frame 1.

If desired, a layer of plaster 45 can be applied externally to the wall elements 39, with the plaster 45 lying only between the stops 50 or, alternatively, between the posts 3, that is, it is interrupted by the stops 50 or posts 3.

When vertically stacked racks 3, it is preferable that their joint 47 was in the region of horizontal beams 7.

Moreover, the connection of the horizontal beams 5, 7 can preferably be made in such a way as shown in Fig. 16.

In the embodiment, compared with FIGS. 6 or 7, the wall element 39, as follows from the description of FIGS. 20 and 21, can be installed in place between the uprights 3.

By itself, stable in shape and ready-made, the wall element 39 between the uprights 3 is brought to a stop through hinges 90 mounted on horizontal building parts (for example, on a floor), or also through hinges 90 on an upright post 3, so that it can be exactly rotated to its working position either around a horizontal (mounted on the lower edge of the wall element 39) axis (as in FIGS. 20 and 21) or around a vertical axis, which is installed in the region of one of two pillars 3, between which the wall ement 39 should be put in place. This technology has the advantage that simple precise positioning of the wall element 39 is possible, and the wall element 39 can be reopened if desired.

This form of execution also allows you to make narrower stops 50 (lining), which are mounted on the uprights 3 so that they only slightly protrude beyond the dimensions of the uprights 3.

The final fixation of the wall element 39 can be done in any way, for example, by special fastening means or also with the help of wedges that drive or press into the butt joints between the vertical posts 3 and the wall element 39.

If the stops 50 on the outside of the uprights 3 are made narrower, the sealing of the seams 91, for example, can be carried out internally in the joint between the wall element 39 and the stops 50.

The hinges (joints) 90 can be fixed, for example, on the floor 30 or floor beam. In any case, when installing the hinges 90, it is recommended to install some parts of the hinges (receiving), for example, on a horizontal architectural part, for example, on a floor 30, and then slide the wall element 39 with other (inserted) parts of the hinges installed on it, for example, hinges bolts into the receiving parts of the hinges, mounted on a horizontal architectural detail.

If the stops 50 only protrude slightly beyond the dimensions of the uprights 3, the sealing strips can be fixed between the stops 50 and the vertical edges of the wall elements 39 from the inside, to the stops 50.

For the installation of wall elements 39, which serve as the lining of the frame 1 according to the invention, for example, wall elements 39, the construction of which is shown for example in FIGS. 6, 7, 20, 21, between the vertical posts 3 of the frame elements 9 of the frame 1 according to the invention, there are various possibilities. With respect to the lining of the frame 1 with wall elements, in particular:

- wall cladding (in particular, small, lightweight wall cladding, for example, for residential buildings), installed outside, adjacent to the longitudinal beam;

- wall cladding (in particular, small, lightweight wall cladding, for example, for residential buildings), mounted from the inside all the way to the stops 50 (lining) on the uprights 3;

- wall cladding (in particular, larger / heavier wall cladding for household buildings) mounted inside with an assembly similar to a hinge; from

but. hinge on the floor beam,

b. hinge on a vertical stand or

from. without hinge, only installed during installation, as on a hinge,

- sealing joints can be performed arbitrarily.

For small and lightweight wall elements 39, which are used in the construction of residential buildings, it is usually sufficient to simply hang and hang by hand. It is only important that the wall elements can also be installed from the inside - for example, so that the element, fitting, hang, then hang the transverse beam and fix the wall element to the wall beam.

On Fig shows a variant of the installation of wall elements 39 on the outer side of the frames according to the invention 1, formed by frame elements 9. In particular, on the rack 3, which is composed of two longitudinally adjacent to each other horizontal wooden parts 4, which are connected to each other in detail in a manner not shown, a waterproof gasket 80 is applied externally. Adhering to this gasket 80, the wall elements 39, which are joined to each other in the area of the uprights 3, are installed so that their joints 81 are located I am in the area of vertical struts 3. Wall elements 39 can be fixed with fasteners 82, which are inserted into racks 3. Alternatively or additionally, it is possible to fasten wall elements 39 to beams 83 or beams 11 fixed between racks 3, for which wall elements 39 are hung for example, on a beam 83 or a beam 11 by a recess.

Regardless of how the wall elements 39 are fixed, they can be located overlapping each other, or be next to each other, and (see Fig. 18), an overlapping profile bar 84 can be applied in the joint area.

Corresponding to the invention, the implementation makes it possible to produce racks 3 of metal (steel) or wood and beams 5 can also be made of metal (steel) or wood. Thus, various combinations between materials, metal and wood, are possible, and the metal posts 3 can be combined with wood beams 5, the wooden posts 3 with metal beams 5, and the metal posts 3 with metal beams 5 and metal 3 of wood with beams; 5 of wood.

For all the embodiments of the invention, horizontal beams 5 can be attached with additional overlays for partitions or additional horizontal beams 5, so that in the frame 1 of the building, which is formed from the frame elements 9 according to the invention, additional dividing elements can be located at any places ( partitions, etc.), as well as supporting elements (additional racks and / or beams).

Summarizing, an example implementation can be presented as shown below.

A building, for example a residential structure or a pavilion, has a frame 1, which consists of several frame elements 9 parallel to each other at a distance from each other. The frame elements 9 each consist of two vertical posts 3 and at least one horizontal beam 5 and 7. The frame elements 9 are connected to each other in the frame 1 of the building by beams 11, which are mounted on the outside to their vertical posts 3. To connect the posts 3, beams 5 and 7 and beams 11 corners 17 made of sheet steel are used, which in their shelves 23 have holes 19 for transmission coupling means (screws) and / or corners 17 with the stamped and bent outwardly pegs 21 on the shelves 23 of the type Gvozdeva plates.

In the frame 1 of the frame elements 9 with vertical uprights 3 and horizontal beams 7 for connecting the frame elements 9 with the longitudinal stiffener of the frame 1, beams 37 are provided that are located between the uprights 3 and are fixed. The beams 37 carry wall elements 39, which abut inside the supports 50 on the uprights 3. Preferably, the wall elements 39 and the beams 37 are prefabricated units that are placed between the uprights 3, reaching the stops 50, and then the beams 37 are fixed to uprights 3.

Claims (70)

1. Frame for the building, consisting of vertical posts (3) and horizontal beams (5, 7), and at least two frame elements (9) are provided, each of which consists of at least two vertical posts ( 3) and at least one horizontal beam (5, 7) associated with them, and the frame elements (9) are located at a distance from each other and are connected to each other, and the frame elements (9) are connected to each other horizontally directed beams (11) placed on vertical posts (3), characterized in that between adjacent The vertical posts (3) are horizontal beams (37), which are connected to the posts (3), and the horizontal beams (37) carry a wall element (39) on their side facing the frame (1), and on the vertical posts (3) of the frame of the elements (9), stops (50) for the wall elements (39) are provided on the outside, and these stops (50) protrude on both sides beyond the dimension of the uprights (3) of the frame elements (9). 2. The frame according to claim 1, characterized in that the horizontally directed beams (11) are wooden beams or metal planks. 3. The frame according to claim 1 or 2, characterized in that the beams (11), in particular wooden beams, each consist of two rods (15) connected to each other, in particular from a whole wooden beam. 4. The frame according to claim 2, characterized in that the lowest beam (11), directed horizontally and connecting the frame elements (9) to each other, is a bar of a metal profile. 5. The frame according to claim 4, characterized in that the plank of the metal profile is narrower than the core in the form of a wooden beam. 6. The frame according to claim 5, characterized in that the rods (11) connecting the frame elements (9) to each other are located at least in the region of the lower ends of the uprights (3) and in the region of the upper ends of the uprights (3) ) 7. The frame according to claim 1, characterized in that each frame element (9) of the frame (1) for a multi-story building has at least two horizontal beams (5, 7) located at a distance from each other. 8. The frame according to claim 1, characterized in that the beams (11) connecting the frame elements (9) to each other are provided in the height region of the horizontal beams (5, 7). 9. The frame according to claim 1, characterized in that the uprights (3) are made of wood. 10. The frame according to claim 1, characterized in that the uprights (3) consist of a metal profile. 11. The frame according to claim 1, characterized in that the horizontal beams (5, 7) are made of wood. 12. The frame according to claim 1, characterized in that the horizontal beams (5, 7) are steel profiles. 13. The frame according to claim 1, characterized in that the horizontal beams (5, 7) are connected to the vertical posts (3) by means of metal corners (17) or connecting plates (76), crossing the joint area between the said structural elements. 14. The frame according to claim 13, characterized in that the metal corners (17) or the connecting plates (76) are located adjacent on both sides to vertical struts (3) connected to each other and horizontal beams (5, 7). 15. The frame according to item 13 or 14, characterized in that the metal corners (17) are located on the upper horizontal beams (3) in the region of the ends of the horizontal beams (3). 16. The frame according to claim 15, characterized in that the ends of the horizontal beams (3) essentially coincide with the outer edges (24) of the vertical shelves (23) of the metal corners (17). 17. Frame according to claim 15, characterized in that the metal corners (17) are mounted on horizontal beams (7), which are located between the lower end and the upper end of the frame element (9), protruding beyond the ends of the beams (7). 18. The frame according to claim 17, characterized in that the outer edges (24) of the vertical shelves (23) of the metal corners (17) protrude beyond the end surfaces of the beam (7). 19. The frame according to claim 1, characterized in that for mounting the beams (11) connecting vertical racks (3) to each other on vertical racks (3) of the frame elements (9), metal corners (17) are provided, in which one the shelf (23) is mounted on a vertical strut (3), and the other shelf (23) on the beam (11). 20. The frame according to claim 19, characterized in that for beams (11) made up of several bars (15), a horizontal shelf (23) of a metal corner (17) is located between the bars (15), bridging the longitudinal joint. 21. The frame according to claim 1, characterized in that the upper beams (5) of the frame elements (9) pass and / or are directed so that this direction corresponds to the configuration of the roof being constructed using the frame (1) of the building. 22. The frame according to claim 1, characterized in that the vertical struts (3) are made of metal, and the horizontal beams (5) are made of wood. 23. The frame according to claim 1, characterized in that the horizontal beams (37) are connected to the vertical posts (3) using the corners (43, 44) with set screws for tightening, etc. 24. The frame according to claim 1, characterized in that there are provided wall elements (39) having window openings and / or doorways. 25. The frame according to paragraph 24, wherein the wall element (39) is connected with at least two beams (37) in a single unit. 26. The frame according to paragraph 24 or 25, characterized in that the wall elements (39) carry on the outside a layer of plaster (45). 27. The frame according to paragraph 24, wherein the wall elements (39) are made of wood, metal, plastic or mineral material. 28. The frame according to paragraph 24 or 27, characterized in that the wall elements (39) can be composed of several longitudinal paintings or strips. 29. The frame according to claim 1, characterized in that the stops (50) are made of wood, metal, plastic or mineral material. 30. The frame according to paragraph 24, wherein the wall elements (39) are made the height of the floor. 31. The frame according to claim 1, characterized in that on each floor of the frame (1) between adjacent racks (3) of the frame elements (9), at least two horizontal beams (37) are provided. 32. The frame according to paragraph 24 or 30, characterized in that the wall elements located above each other (39) are tightly joined. 33. The frame according to paragraph 24 or 30, characterized in that located on top of each other wall elements (39) overlap each other. 34. The frame according to claim 33, wherein the upper wall element (39) is superimposed on the lower wall element (39) partially overlapping it. 35. The frame according to claim 1, characterized in that the racks (3) of the frame elements (9) are made integral and in the joint area (47) stand directly on top of each other. 36. The frame according to claim 1, characterized in that on the side of the beam (37) facing the building, isolation (41) is provided. 37. Frame according to claim 24, characterized in that insulation (41) is provided on the side of the wall elements (39) facing the building. 38. The frame according to claim 1, characterized in that the beams (37) are made of wood or metal. 39. The frame according to claim 38, characterized in that the metal beams (37) have at the ends of the cross-beams which are connected to the vertical posts (3) of the frame elements (9). 40. The frame according to claim 1, characterized in that the vertical struts (3) with horizontal beams (5, 7) are connected to each other by connecting plates (60, 76) included in the ends of the struts (3) / beams (5, 7 ) 41. The frame according to claim 1, characterized in that the beams (11) connecting the frame elements (9) to each other are connected to the vertical posts (3) by connecting plates (60) at the ends of the beams (11). 42. The frame according to claim 40 or 41, characterized in that the connecting plates (60, 76) are installed between the wooden parts interconnected, forming the beams (5, 7), the posts (3) and / or the beams (11). 43. The frame according to claim 40 or 41, characterized in that the connecting plates (60) are mounted on the beam (62) of the beam (5, 7, 11) made of a metal profile of an I-section. 44. The frame according to claim 40 or 41, characterized in that the connecting plates (60) are installed between the middle shelves (64) of the middle channels of metal channels (63) stacked with each other and forming beams (5, 7, 11). 45. The frame according to claim 40 or 41, characterized in that at least two connecting plates (60) are provided in the rack (3), which make an angle with each other, in particular an angle of 90 °. 46. The frame according to claim 1, characterized in that at least two horizontal beams (5), oriented in different directions, are attached to the horizontal posts (3). 47. The frame according to item 46, characterized in that for attaching the horizontal beams (5, 7) to the vertical posts (3) at the ends of at least one horizontal beam (5) and the vertical rack (3) there are recesses in the form groove or, respectively, in the form of a slit for installing connecting plates (60, 76). 48. The frame according to item 47, wherein the connecting pads (60) have a rectangular shape. 49. Frame according to claim 48, characterized in that the connecting plates (76) are T-shaped. 50. The frame according to item 47, wherein the horizontal beams (5) attached to the horizontal elements of the connecting plates (76) are mounted to rotate around a horizontal axis. 51. The frame according to claim 1, characterized in that on the uprights (3) protrusions (78) protruding outwardly are provided for supporting the horizontal beams (11). 52. The frame according to item 51, wherein the protrusions (78) are made integral with the connecting plates (76). 53. The frame according to claim 1, characterized in that between the vertical uprights (3) of the frame elements (9), at least one extension (70) is provided that extends at an angle. 54. The frame according to claim 53, characterized in that there is a stretch between the rack (3) of the frame element (9) located in the corner region of the frame (1) and the next upward facing (3) of the neighboring frame element (9). 55. The frame according to item 53 or 54, characterized in that the extensions (70) are directed to the corner of the frame (1), passing at an angle upward. 56. The frame according to item 53 or 54, characterized in that there are two extensions (70), between which there is a transverse rod (72), provided approximately at the middle of the height of the upright (3). 57. The frame according to claim 1, characterized in that the outer wall elements (39) with a gasket (80) between them are fixed on the vertical posts (3) of the frame elements (9). 58. The frame according to claim 57, characterized in that the butt seam (81) between the outer wall elements adjacent to each other (39) is closed by a protective strip (84). 59. The frame according to claim 1, characterized in that the wall elements (39) are fixed between the uprights (3) on the uneven bars (83) fixed between the uprights (3), in particular they are hung. 60. The frame according to claim 1, characterized in that between the racks (3) of adjacent frame elements (9), stiffness fields are provided. 61. The frame according to p. 60, characterized in that the stiffening fields have a rectangular frame. 62. The frame according to claim 60 or 61, characterized in that at least one extension (70) extending at an angle (diagonally) is provided in the reinforcing elements. 63. The frame according to claim 53, characterized in that the extensions extending at an angle (70) are fixed between the vertical posts (3) of the adjacent frame elements (9) by wedges (74). 64. The frame according to claim 60, characterized in that the stiffness fields are detachably fixed between the vertical posts (3) of adjacent frame elements (9) with wedges (74) or installation bolts. 65. The frame according to claim 1, characterized in that the wall elements (39) placed between the vertical uprights (3) are mounted rotatably in their working position located between the uprights (3). 66. The frame according to item 65, wherein the wall elements (39) are mounted to rotate around a horizontal axis. 67. The frame according to item 65, wherein the wall elements (39) are mounted to rotate around a vertical axis. 68. The frame according to item 65, wherein the wall elements (39) are mounted to rotate around hinges (90). 69. The frame according to claim 65, characterized in that strips for sealing the joints between the stop (50) and the wall element (39) are installed on the stops (50) from the inside. 70. The frame according to item 65, wherein the wall element (39) after turning into the working position is fixed in this position by means of fastening, for example clogged or pressed wedges.

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