RU131754U1 - WOODEN FRAME BUILDING - Google Patents

Abstract

The wooden frame of the building, consisting of identical wooden frame elements installed vertically and at a distance from each other, characterized in that the frame contains a timber strapping of 150 × 200 mm cross-section, fixed to the building foundation, and the frame elements are formed by two side racks of boards with a cross-sectional dimension of 50 × 150 mm and an average bar stand with a cross-sectional dimension of 150 × 150 mm, tied at the top with a common double board strapping, each with a cross-sectional dimension of 150 × 100 mm, which are connected at the corner joints of the building at an angle outriggers from a beam, with a cross-sectional size of 150 × 200 mm, the relative mark of the top of the strapping from the double board and the corner posts of the beam are the same, while the frame elements are installed and secured to the strapping beam with the formation of the frame of the bearing wall fencing, external and internal, the first floors of the building frame, and on the strapping of a double board along the top of the frame elements of the previous floor, frame elements are installed and fixed, forming the frame of the supporting building structures of the subsequent floors of the building, the elements are installed from each other at a distance equal to the distance between the middle and side posts, while the corner posts from the beam of the first floor are fixed to the harness from the beam, and the corner posts from the beam of the next floors are fixed to the harness from the double board of the frame elements of the previous floor, in addition , in the frame between the middle posts of adjacent frame elements, window and door openings are made, which are fixed by jumpers made of timber, with a cross-sectional size of 150 × 100 mm and 150 × 150 mm, respectively.

Description

The utility model relates to the field of construction and can be used in the construction of residential and social low-rise buildings, namely: no more than three floors.

Closest to the proposed is the frame of the building, which can be made of wood. The frame consists of racks and horizontal beams connected to frame elements in the shape of the letter "P". The frame elements are struts fixed on opposite sides of the foundation and mounted on it vertically, parallel to each other and at a distance from each other. The frame elements are connected to the building frame by beams that are attached externally to the racks of the frame elements parallel to the foundation and onto which the external wall elements are fastened (RF patent No. 2397295, EV 1/26, 08/20/2010).

A disadvantage of the known building frame is as follows. First of all, the well-known frame of the building allows only one-story buildings to be built on its basis, since houses built using well-known technology do not have sufficient frame rigidity. The latter is due to the fact that the horizontal elements (beams) of the frame element are the overlap of the building and are based on a single rack, while the outer side sheathing of the building by the beam plays the role of tying the frame elements of the frame. In addition, since the beams of the frame element are the overlap of the building, to increase the rigidity of the frame, they must be placed as close as possible to each other. As a result, this imposes restrictions on the execution and size of window and door openings. Moreover, the design of the frame elements does not allow their use for the formation of the frame of the internal load-bearing wall fencing, which complicates the assembly of the building frame, reduces the manufacturability of the assembly.

The proposed utility model solves the problem of creating a wooden frame of a building, the implementation of which allows to achieve a technical result, consisting in the possibility of increasing the number of storeys of the building by increasing the rigidity of the frame structure, in improving manufacturability and simplifying the assembly of the frame due to the versatility of the frame elements.

The essence of the proposed utility model is that in a wooden frame of a building, consisting of identical wooden frame elements installed vertically and at a distance from each other, it is new that the frame contains a strapping of timber with a cross-sectional size of 150 × 200 mm, mounted on the foundation of the building, and the frame elements are formed by two side racks made of boards, the cross-sectional size is 50 × 150 mm, and an average bar stand made of timber, the cross-sectional dimensions are 150 × 150 mm, connected along the top by a common strapping of a double board, each with a cross-sectional size 150 × 100 mm, which in the corner joints of the building are connected on corner posts from a beam, with a cross-sectional size of 150 × 200 mm, the relative mark of the top of the binding made of a double board and the corner posts from a beam is the same, while the frame elements are mounted and fixed on the tie beam with the formation of the frame of the load-bearing wall fencing, external and internal, of the first floor of the building frame, and on the strapping of a double board along the top of the frame elements of the previous floor, the frame elements forming the frame of the load-bearing fence are installed and fixed the building structures of the subsequent floors of the building, and the frame elements are installed from each other at a distance equal to the distance between the middle and side posts, while the corner posts from the ground floor beam are fixed to the strapping from the beam, and the corner posts from the beam of the subsequent floors are fixed to the double strapping boards of the frame elements of the previous floor, in addition, window and door openings are made in the frame between the middle racks of adjacent frame elements, which are fixed by jumpers made of timber, the size of which is 150 × 100 mm and 150 × 150 mm, respectively.

The claimed technical result is achieved as follows. The essential features of the utility model formula: “The wooden frame of the building, consisting of identical wooden frame elements installed vertically and at a distance from each other, ...” are an integral part of the claimed device and ensure its operability, and, therefore, ensure the achievement of the claimed technical result.

In the claimed frame, identical frame elements are installed and fixed on the strapping beam with the formation of the frame of the load-bearing wall barriers, external and internal, on the first floor of the building frame, and on the strapping of the double board of the frame elements of the previous floor, frame elements are installed that form the frame of the supporting building structures of the subsequent floors of the building The possibility of using identical frame elements in the claimed building frame for the formation of the frame for both external and internal wall og azhdeny improves manufacturability and assembly frame rate. Moreover, in the claimed frame, the frame elements are formed by two side racks of the board, the cross-sectional size of 50 × 150 mm, and an average bar of the timber, the cross-sectional size of 150 × 150 mm, connected at the top by a common strapping of a double board, each with a cross section of 150 × 100 mm, which in the corner joints of the building are connected on corner racks of timber, with a cross-sectional size of 150 × 200 mm, that is, in the claimed frame, the frame elements are formed during the installation of the building frame, which simplifies the installation of the building frame and accelerates the construction process. The ability to connect the frame elements with a common strapping increases the rigidity of the structure, and the relative marking of the top of the strapping from a double board and the corner posts of the beam are the same, in combination with the first, provides a level surface of the strapping, which allows the building to be storied, using the strapping of frame elements to install the wall frame fences above the standing floors of the building: “... while the frame elements are installed and secured to the strapping beam with the formation of load-bearing wall fences, Foot and internal, of the first floor of the building framework, and in the piping of the twin boards of the previous frame elements floor mounted frame elements forming a bearing walling subsequent storeys, ... ". At the same time, the presence of a strapping from a beam fixed to the foundation of the building, a common strapping from a double board along the top of the frame elements, fastening of corner posts from a beam of the first floor to a strapping from a beam, corner posts from a beam of subsequent floors on a strapping from a double board of frame elements of the previous floor as well as the installation and fastening of frame elements on the strapping beam along the perimeter and on the strapping of the double board of the frame elements of the previous floor, as well as the declared dimensions of the cross-section of the strapping beam, corner posts from the beam, points of the frame elements and the strapping board (the frame elements are formed by two side racks and an average, cross-sectional sizes of 50 × 150 mm and 150 × 150 mm, respectively; the strapping bar and the beam in the corner joints with a cross-sectional dimension of 150 × 200), provide the required rigidity of the frame and they allow you to form the frame of a multi-storey wooden building, performing the functions of the supporting structure of the building, providing the reception of static and dynamic loads and transferring them to the foundation of the building.

In the claimed frame, the frame elements are installed from each other at a distance equal to the distance between the middle and side pillar. As a result, all racks of the wall fencing are installed at an equal distance from each other. This allows, choosing the distance between the racks of the frame element, to perform the necessary wall openings in the building frame between the middle racks of the frame element, without reducing the rigidity of the structure as a whole. At the same time, it allows you to choose the distance between the middle and side racks of the frame element based on the conditions for increasing the manufacturability of the building frame assembly and the manufacturability of further finishing of internal and external works. In particular, the choice of the distance between the middle and side racks of the frame element, based on the dimensions of window and door openings adopted by the building project designer, allows them to make wall openings in the building frame without violating the integrity of the middle racks of frame elements made of 150 × 150 timber and receiving the main load on the wall fence, i.e. without reducing the rigidity of the structure. Moreover, since window and door openings are fixed by jumpers made of timber, the cross-sectional dimensions are 150 × 100 mm and 150 × 150 mm, respectively, the structural rigidity does not decrease.

In turn, the possibility of making door and window openings without violating the integrity of the middle racks of frame elements from timber, i.e. without reducing the rigidity of the frame structure, it allows at almost any stage of construction to vary the layout of apartments over a wide range, especially in the case of studio apartments, which increases the manufacturability of the design of the claimed frame. This allows having originally designed studio apartments, i.e. without internal partitions, in a single space, to transform the layout inside the building for an individual order with the possibility of combining rooms in the space of one floor and rooms on top of each other (two-level apartments).

The ability to choose the distance between the middle and side racks of the frame element, taking into account the width of the insulating materials, avoids the "cold bridges", and the choice of this distance taking into account the width of the finishing material increases the aesthetic appearance of the building, both inside and outside, and, in addition, speeds up the process assembly of the building, as it eliminates the cutting operation of the finishing material. As a result, the assembly of the frame is simplified and its manufacturability is increased.

In addition, the implementation of the frame elements of the timber and boards with dimensions corresponding to the claims, allows you to get a cellular structure of the wall fencing, ready to be used as a multilayer wall panel, which simplifies and speeds up the assembly of the building and improves the manufacturability of the claimed frame.

From the above it follows that the frame element used in the claimed frame of a wooden building is unified, allowing it to be used both as a supporting structure for external and internal wall fencing, providing the required rigidity of the frame, and as a cellular structure for a multilayer wall panel. As a result, due to the versatility of the frame elements, manufacturability is increased and the frame of the wooden building is simplified, the time for its construction is reduced, and the possibility of increasing the number of storeys of the building is provided.

Thus, the proposed wooden frame of the building in the implementation provides a technical result, consisting in the possibility of increasing the number of storeys of the building by increasing the rigidity of the frame structure, in improving manufacturability and simplifying the assembly of the frame due to the versatility of the frame elements.

Figure 1 shows a wooden frame of the first and second floors of the building; figure 2 - the connection node of the middle rack of the frame element and the binding board; figure 3 is the same, view aa; figure 4 - the attachment point of the middle rack of the frame element to the strapping beam; figure 5 is the same, view BB; figure 6 - device jumpers above a door or window opening; Fig.7 is the same side view; on Fig - node docking strapping timber over the foundation; figure 9 is the same, view aa -; figure 10 - the device of the angular connection of the strapping beam; figure 11 is the same, view BB.

The claimed wooden frame of the building contains a tie beam 1, a cross-sectional size of 150 × 200, mounted on the foundation 2 of the building, and identical wooden frame elements 3 installed vertically and at a distance from each other. The frame elements 3 are formed by side racks 4, 5 of a board with a cross-sectional size of 50 × 150 mm, and an average column 6 of a bar, a cross-sectional dimension of 150 × 150 mm, and connecting them at the top with a common strapping 7 of a double board 8, 9 each with a cross-sectional dimension of 150 × 100 mm, which are connected in corner joints on corner posts 10 of a timber, with a cross-sectional dimension of 150 × 200 mm. The relative mark of the top of the strapping 7 of the double boards 8, 9 and the corner posts 10 of the timber are the same. The frame elements 3 are installed and fixed on the strapping beam 1 with the formation of load-bearing wall barriers, external and internal, on the first floor of the building frame, and on the strapping 7 on the top of the frame elements of the previous floor from the double board 8, 9, the frame elements 3 are installed, forming load-bearing enclosing structures subsequent floors of the building. The frame elements 3 are installed from each other at a distance equal to the distance between the middle 6 and the side stand 4 (5). Corner racks 10 of timber on the first floor are installed on the harness from timber 1, and corner racks 10 of timber on the next floors are installed on the strapping 7 of a double board 8, 9 of the previous floor. In the frame between the middle posts 6 of the adjacent frame elements 3, window and door openings (not shown in FIG. 1) are made, which are fixed by jumpers 11 made of timber 12, with a cross-sectional size of 150 × 100 mm and 150 × 150 mm, respectively (FIG. 6, 7). The beam 12 is attached to the side post 4 (5) end-to-end with self-tapping screws on the tree 13 and a reinforced mounting corner 14.

The claimed wooden frame of the building is collected as follows. The recommended maximum number of floors is three. The tie bar 1 is laid on the waterproofing 15 of the foundation 2 and fixed on it by means of anchors 16 and a self-tapping screw on the tree 17 (Figs. 8, 9).

The device for the angular connection of the strapping beam is shown in Figs. 10, 11. The angular connection is made so that the relative elevation of the surface of the connection of the beams and the strapping beam is the same. Attachable strapping beam 18 is attached to the main beam with a self-tapping screw 19 on a tree. In this case, the main beam 1 on both sides of the junction is fastened with anchors 20.

Then, the middle racks 6 of the frame elements 3 of the timber, 150 × 150 mm in size, are mounted vertically on the strapping beam 1 (FIGS. 4, 5). Racks 6 are attached to the strapping beam 1 by temporary slopes (not shown) and on both sides by reinforced mounting corners 21.

Then, between the posts 6 from the timber, the strapping beam 1 is placed at an equal distance and two vertical posts 4, 5 of the board, 50 × 150 mm in size are fixed. Racks 4, 5 are attached to the strapping beam 1 with nails crosswise.

Racks 4, 5, 6 are connected at the top with a common strapping 7 of a double board 8, 9, each with a cross-sectional dimension of 150 × 100 mm, which are connected at the corner joints of the building at corner racks 10 of timber, with a cross-sectional size of 150 × 200 mm. In this case, the relative elevation of the top of the strapping 7 and the corner posts 10 of the timber are the same. As a result, a frame of supporting external and internal wall fences of the building is formed from frame elements 3 with two side posts 4, 5 from a board, with a cross-sectional size of 50 × 150 mm, and an average strut 6 of timber, with a cross-sectional size of 150 × 150 mm with a common strapping 7 on top of a double board 8, 9, each with a cross-sectional size of 150 × 100 mm, which are installed from each other at a distance equal to the distance between the middle 6 and side 4 (5) of the rack.

Then, in the frame between the middle posts 6 of the adjacent frame elements 3, window and door openings (not shown in FIG. 1) are made, which are fixed with jumpers made of timber, with a cross-sectional size of 150 × 100 mm and 150 × 150 mm, respectively (FIG. 6 , 7).

Next, the frame of the second floor of the building is assembled. On the strapping 7 of the frame elements 3 of the first floor, the middle racks 6 of the frame elements 3 of the timber, 150 × 150 mm in size, are installed vertically (FIGS. 4, 5). Racks 6 are installed on the strapping 7 along a common vertical axial line with the racks 6 of the lower floor (Figs. 4, 5).

The connection of the middle racks of the beam 6 with the boards 8, 9 of the strapping 7 is as follows (Fig.2, 3). The bottom board 8 of the strapping 7 is connected to the rack 6 below the lying floor with nails 22. After applying the second board 9 of the strapping 7, the rack 6 of the next floor is connected to both boards 8, 9 by means of reinforced corners 23 mounted on the rack 6 and the second board 9 with self-tapping screws 24 wood with a length that provides the connection of boards 8, 9.

Then, by analogy with the above, on the strapping 7 between the racks 6 of the timber, also along the common vertical axial line with the lower racks 4, 5, put at an equal distance and fix two vertical racks 4, 5 of the board, 50 × 150 mm. Racks 4, 5 are fixed to the strapping 7 with nails crosswise.

The racks of the second floor 4, 5, 6 are connected along the top with a common strapping 7 of a double board 8, 9, each with a cross-sectional dimension of 150 × 100 mm, which are connected at the corner joints of the building at corner racks 10 of a timber, with a cross-sectional size of 150 × 200 mm . In this case, the relative elevation of the top of the strapping 7 and the corner posts 10 of the timber are the same. Next, the assembly sequence of the higher floors of the building frame is repeated.

To ensure manufacturability, it is advisable to install the floor beams in the design position of the floor beams on the strapping beam 1 and then on the strapping 7. Before installing the frame elements, the floor beams in figure 1 are not shown so as not to darken the drawing.

Claims (1)

The wooden frame of the building, consisting of identical wooden frame elements installed vertically and at a distance from each other, characterized in that the frame contains a timber strapping of 150 × 200 mm cross-section, fixed to the building foundation, and the frame elements are formed by two side racks of boards with a cross-sectional dimension of 50 × 150 mm and an average bar stand with a cross-sectional dimension of 150 × 150 mm, tied at the top with a common double board strapping, each with a cross-sectional dimension of 150 × 100 mm, which are connected at the corner joints of the building at an angle outriggers from a beam, with a cross-sectional size of 150 × 200 mm, the relative mark of the top of the strapping from the double board and the corner posts of the beam are the same, while the frame elements are installed and secured to the strapping beam with the formation of the frame of the supporting wall fencing, external and internal, the first floors of the building frame, and on the strapping of a double board along the top of the frame elements of the previous floor, frame elements are installed and fixed, forming the frame of the supporting building structures of the subsequent floors of the building, the elements are installed from each other at a distance equal to the distance between the middle and side posts, while the corner posts from the beam of the first floor are fixed to the harness from the beam, and the corner posts from the beam of the next floors are fixed to the harness from the double board of the frame elements of the previous floor, in addition , in the frame between the middle posts of adjacent frame elements, window and door openings are made, which are fixed by jumpers made of timber, with a cross-sectional size of 150 × 100 mm and 150 × 150 mm, respectively.

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