RU185083U1 - END JOINT OF LENGTH EFFECTIVE WALL BEAM - Google Patents

Abstract

The utility model can be used in the construction industry. The butt connection of a wall beam, where the width is greater than its height with mating elements in the form of a vertical protrusion - stop and sealing elements in the form of longitudinal through grooves of a semicircular section with cord seals fixed in them, bearing-enclosing elements in it is connected to each other by wooden jumpers, consisting of two equal in length and height halves and made type-setting, and the halves are connected with load-bearing enclosing elements screws, and the space between the elements and the jumpers is filled with filler, while the jumpers at the interface have a width equal to the width of the angular jumper, the remainder of the jumper has a thickness equal to the thickness of the beam, and the end part of the jumper is protected by a board fixed by screws, and connected between with bars and screws, overlays similar to non-supporting-enclosing elements, and wall lintels at the ends of the end connection of non-supporting-enclosing elements with a thickness equal to (3 / 5-2 / 3) of the height of the beam, lintel traps are reinforced with metal elements connecting the wall lintels and NOE so that the rigidity of the long beam ensures its strength during transportation and installation of the building. A useful model increases the strength of the beam, reduces heat leakage and building time, improves the appearance and extends the life of the manor house . 4 ill.

Description

The utility model relates to the construction industry, namely to the elements of the log house of a wooden timber house.

The construction of wooden manors in the traditions of the Russian people [V.N. Rudakov, A.Yu. Sopotsko “Planning and repair of a rural residential building”, M., Rosselkhozizdat, 1987, pp. 108-113], a significant drawback of which is the difficulty in performing carpentry manual work and the consumption of large amounts of wood at the construction site (a lot goes to waste). Such houses retain heat well, have thick walls and not blown corners with the remainder, but because of the limited length of the logs [B.N. Ugolev “Wood science and forest commodity science”, M., Moscow State University, 2010, p. 297] they need to be extended in length, a deeper interior decoration is also required and they take a long time to be built.

It is known that the walls of wooden houses are made of timber, rallying crowns and beams in the crown when assembling such a house, and sealing walls is easier [Journal of Repair and Construction No. 6,2000 and V.M. Masyutin “The modern manor house”, M., Rosagropromizdat, 1990, p. 117], but still does not exclude highly professional carpentry manual work at the construction site when mating corners of corners, cutting partitions and splicing along the length of the bars and laying the sealant, followed by double hoisting. At the same time, the wall thickness remains significant (in order to preserve heat) and it requires significant volumes of coarse-grained valuable wood, and also requires additional fasteners with an angular connection on the mustache and splicing to the end along the length in order to prevent (reduce) moisture penetration and leakage heat.

The logs are spliced along the length of a straight spike [A.M. Shepelev "How to build a rural house" Rosselkhozizdat, M., 1985, pp. 150-156].

Cobble walls are simpler in design. The bars along the length are connected, for example, with round pins.

Bars are made of logs by sawing, and the most common is their length is 3.0-6.5 meters [B.N. Ugolev, “Wood Science and Forest Commodity Science”, Moscow, Moscow State University of Forestry, 2010, p. 297], which is explained by the safety of logs and the convenience of transporting valuable conifers (larch and cedar) from their growing places to areas of the most intensive construction (for example, from Eastern Siberia in the Moscow region or in foreign regions).

The disadvantage is that the wood consumption remains significant, the walls are made of the same species, have visible and not durable joints along the length of the logs in the crown, subject to atmospheric precipitation, which reduce the life of the building and lead to significant heat leaks.

Closer in technical essence is the construction of the timber [RF Patent for Utility Model No. 87185], in which the non-enclosing elements (NOE) are connected to each other by wooden jumpers, consisting of two halves of equal length and height and made by type-setting.

The design of the jumpers and the crown as a whole allows you to produce a longer bar in the factory. But the main disadvantage is the visible open end connection of the NOE at the splices along the length, which does not exclude the ingress of moisture on the lintels, made, as a rule, from less valuable breeds. This reduces the life of the constructed buildings.

Close in technical essence, as well as in protection against precipitation, and in eliminating heat leaks, is the "Corner connection of the wall beam with the remainder" [RF Patent for Utility Model No. 152177], where the width is greater than its height, with mating elements in the form of a vertical protrusion - a stop at one end of the beam for angular connection of the log crown and sealing elements in the form of two longitudinal through grooves of a semicircular section with cord seals fixed in them on the lower side of the beam, on the upper side of which, respectively, the frames are made of two longitudinal longitudinal support platforms that are mirrored relative to each other, and the NOE in it are connected to each other by wooden jumpers, consisting of two halves equal in length and height and made by type-setting, the halves being connected to the NOE screws, and the space between the elements and jumpers is filled filler, while the corner lintels have in places of angular conjugation a thickness equal to half the height of the beam, and a width equal to the width of the wooden lintels, and the remainder of the lintel has a thickness equal to ine timber and the end part is protected by a jumper board, attached with screws, and are interconnected by bars and screws and inserts, similar Noe.

The disadvantage of this design, although eliminating heat leakage, at the end connection of the NOE of a wall beam is a decrease in bending strength (due to its own weight) during transportation and installation operations due to the fact that at the junction points the jumpers have a thickness equal to half the height of the beam , and this is not enough with a significant length of the beam (possible kink).

The closest analogue is the “End connection of a lengthy wall beam” [RF Patent for Utility Model No. 164981], where the width is greater than its height, with mating elements in the form of a vertical protrusion-stop on one of the ends of the beam for angular connection of the log crown and sealing elements in in the form of two longitudinal through grooves of a semicircular section with cord seals fixed in them on the lower side of the beam, on the upper side of which, respectively, the cords are made of two supporting mirrors relative to each other longitudinal flat platforms, and non-supporting-enclosing elements (NOE) in it are connected to each other by wooden jumpers, consisting of two halves equal in length and height and made by type-setting, and the halves are connected to NOE screws, and the space between the elements and jumpers is filled with filler, the jumpers at the interface have a width equal to the width of the jumpers of the angular conjugation, and the remainder of the jumpers has a thickness equal to the thickness of the beam, while the end part of the jumper is protected by a board fixed with screws, are interconnected by bars and screws, pads similar to NOE, according to a utility model, wall lintels have a thickness equal to (3 / 5-2 / 3) of the height of the beam at the ends of the NOE end connection, while the halves of the jumpers are reinforced with two metal elements consisting of two plates pivotally interconnected, one of the plates being rigidly fixed to the jumper, and the other (not fixed to the jumper) plate pivotally connected to two metal petals. The plates have a length equal to the length of the jumper. The metal lobes for transporting the timber are attached to the ends of the webs in such a way that the non-fixed plate is perpendicular to the base of the weir. When installing the beam in place in the log house, both plates are brought into a horizontal position, and the metal petals are again fixed to the end of the bridge.

The disadvantage of the design is heat loss due to the formation of a gap between the bridge and the wall beam, which is formed due to the thickness of the petal.

The technical problem solved by the utility model is the development of a bar structure for the end connection of the NOE of a wall bar in the factory, excluding its damage and breakage during transportation and installation at the construction site, as well as in reducing the gap between the jumper and the wall bar and the possibility of multiple use of removable petals.

The technical result is achieved in that the end connection of the NOE of the wall beam, where the width is greater than its height, with mating elements in the form of a vertical protrusion-stop on one of the ends of the beam for angular connection of the log crown and sealing elements in the form of two longitudinal through grooves of a semicircular section with fixed in them with cord sealants on the lower side of the beam, on the upper side of which, respectively, the cords are made of two longitudinal longitudinal flat platforms that are mirrored relative to each other, and forming elements (NOE) in it are connected to each other by wooden jumpers, consisting of two halves of equal length and height and made by type-setting, moreover, the halves are connected to NOE by screws, and the space between the elements and jumpers is filled with filler, while the jumpers at the interface the width equal to the width of the jumpers of the angular conjugation, and the remainder of the jumper has a thickness equal to the thickness of the beam, while the end part of the jumper is protected by a board fixed by screws, interconnected by bars and a screw and, overlays similar to NOE, according to a utility model, wall bridges have a thickness equal to (3 / 5-2 / 3) of the height of the beam in the places of the end connection of the NOE, while the halves of the bridges are reinforced with two metal elements consisting of two plates pivotally connected , one of which is attached to the side of the jumper, and the other has two pivotally mounted petals connected to the plate with a removable axis, and has the ability to fix the petals on the ends of the NOE connecting the wall jumpers and NOE.

The implementation of this design of the end connection of the NOE of the beam with an increased thickness of the lintel and reinforced with metal plates will eliminate the breakage of the long beam during its transportation and installation during the construction of the building, and the release of the beam, similar to the corner connection with the remainder of the beam in the places of the end connection (in the places of interroom partitions) will increase architectural attractiveness and eliminate heat leakage.

The essence of the proposed utility model is illustrated by drawings: in FIG. Figure 1 shows the end connection of the NOE of a wall beam, combined with an inter-apartment partition at the junction and similar to the corner connection with the remainder (top view, but for better viewing, the transverse beam is not shown; Fig. 2 is also, but the side view along section A-A ( the bar of the partition is raised for the convenience of considering the bridge at the junction of the NOE).

The crown of the log house of a wooden house consists of bars obtained by connecting the NOE 1 at the end with the help of jumpers wall 2, reinforced with metal elements 8, and corner 3, wall 4 and corner 5 inserts, filler 6 and longitudinal through grooves of semicircular section 7.

The metal element 8 consists of two plates 9 and 10, pivotally connected to each other, and the plate 9 is rigidly fixed to the side of the jumper 2 with screws (Fig. 3 and Fig. 4), and the plate 10 is connected (using a removable axis 12) pivotally with metal petals 11 and is connected in the transport position by screws with the ends of the NOE 1 in the places of the end connection.

Assembling an extended length bar with an end connection of NOE is carried out in the factory similarly to assembling a bar with a remainder and is carried out as follows. In accordance with the design of the house, NOEs of the corresponding length 1 (wood species agreed in advance) are connected with screws to the halves of wooden lintels (wall 2 and corner 3) and together with the obtained inserts (wall 4 and corner 5), fixed from the ends by a board and screws, as well as reinforced metal elements 8 form a rigid beam structure.

In practice, all NOE, blanks for wall lintels, corner and wall inserts, corner protrusions, stops and holes for them are made in the workshops of house-building plants, where they produce a beam in accordance with the design of the house. The beam is delivered to the construction site by the vehicle and immediately the operation of laying the beams in the log crowns is performed (the petals 11 of the metal elements 8 are disconnected from the ends of the NOE by removing the removable axis 12 and transferred to the position in accordance with Fig. 4), and after each crowns in grooves of a semicircular section stack and fix cord sealants. And so in accordance with the project to a given height. The gaps between the NOE and the jumpers are filled with filler.

The advantage of the end connection of the NOE of a wall beam is an increase in the strength of the beam and the speed of the building, reducing heat leaks, improving the appearance and increasing the life of the manor house.

Claims (1)

The end connection of the wall beam, where the width is greater than its height, with mating elements in the form of a vertical protrusion-stop on one of the ends of the beam for angular connection of the log crown and sealing elements in the form of two longitudinal through grooves of a semicircular section with cord seals fixed to them on the lower side timber, on the upper side of which, respectively, the cords are made of two supporting longitudinal longitudinal platforms that are mirrored relative to each other, and the supporting-enclosing elements (NOE) in it are connected to each other another wooden lintels, consisting of two equal lengths and heights of halves and made type-setting, moreover, the halves are connected to NOE screws, and the space between the elements and lintels is filled with filler, while the lintels at the interface have a width equal to the width of the angular jumper, and the remainder lintels has a thickness equal to the thickness of the beam, and the end part of the lintel is protected by a board fixed by screws, and interconnected by bars and screws, overlays similar to NOE, wall lintels and have a thickness equal to (3 / 5-2 / 3) of the height of the beam in the places of the end connection of the NOE, while the halves of the jumpers are reinforced with two metal elements consisting of two plates pivotally connected, one of which is attached to the side of the jumper, and the other has two pivotally mounted petal and has the ability to fix the petals on the ends of the NOE connecting the wall jumpers and NOE, characterized in that the petals are connected to the plate with a removable axis.

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