CZ302525B6 - Removable semi-rigid connection or joint of load-bearing bar construction wooden bars - Google Patents

Abstract

In the present invention, there is disclosed a removable semi-rigid connection or joint between a wooden bar (1) and a structural element (2) having its longitudinal axis perpendicular to said wooden bar (1) longitudinal axis or forms another angle therewith. The wooden bar (1) is provided on its upper and lower faces with oppositely situated steel elements (3) in which at least one threaded bar (4) is screwed from one side thereof by its one end. The threaded bar (4) longitudinal axis is parallel to said wooden bar (1) longitudinal axis. The other end of the threaded bar (4) is adhesively bonded into the wooden bar (1). The steel element (3) is at the same time secured to the structural element (2). Said opposite steel elements (3) are screwed with each other through the mediation of a connecting threaded bar (5) passing through the wood bar (1), perpendicularly to the longitudinal axis thereof. Another embodiment is a connection or joint between wooden bars (1) of a spatial bar construction wherein the wooden bars (1) are connected by means of a steel element (3) having a conical shape and is provided on its circumference at spots of connections with fixtures (11). The steel element (3) is provided on the circumference of its skin with at least one threaded bar (4) located oppositely to each of the wooden bars (1) wherein said threaded bar (4) one end is axially stuck into the wooden bar (1) while the other end thereof is screwed via steel plates (9) to the steel element (3) perpendicularly to the surface thereof using the fixtures (11).

Description

Removable semi-rigid connection or joint of wooden beams of the supporting beam structure

Technical field

The technical solution relates to a new solution of joining or connecting of supporting elements of structures, between which the applied forces are transmitted and where at least one of these connected or connected elements is wooden.

The state of these titles is also present

It is well known in the art to associate timber members or their connections to members made of other materials such as steel, concrete or reinforced concrete by means of screws, screws or screws combined with dowels or screws combined with steel, specially shaped parts. These connections also transmit forces and moments. They are used for the realization of frame corners of load-bearing cross-links of hall constructions. Their design requires relatively large dimensions of the wooden parts at the point of contact and the metal fasteners are usually visible and the contact is not very aesthetic. Similarly, several wooden elements, fixed in different ways to the metal part, can be interconnected to form a rod structure.

SUMMARY OF THE INVENTION

The above-mentioned disadvantages are overcome by the removable semi-rigid connection or joint of the wooden members of the supporting beam structure according to the present invention. There are two words with a common inventive idea and thus with the same principle. In the first one, a connection is provided in which the at least one structural member to be joined is made of wood and is formed by a wooden beam and the connection or contact is therefore realized between the wooden beam and the other structural member,

The essence of this first solution is that the first structural member is a wooden beam of a supporting beam structure which is fitted at its upper and lower cheeks with two opposing steel elements. At least one threaded rod, whose longitudinal axis is parallel to the longitudinal axis of the wooden rod, is screwed into one of its shells from one side of the shell and screwed into one of these ends with a nut. The other end of the threaded rod is glued into the wooden rod. At the same time, the steel member is attached to a structural member, the longitudinal axis of which is usually perpendicular to the longitudinal axis of the wooden beam or at an angle thereto. Opposite steel elements are bolted to each other by a connecting threaded rod that extends perpendicular to the longitudinal axis of the wooden rod.

In one possible embodiment, the structural member is a wooden column, which is actually a wooden rod acting as a column in the structure. In this case, the structural element is connected to the steel elements by means of at least one second threaded rod, which is usually perpendicular to the longitudinal axis of the structural element or at a different angle thereto. One end of the other threaded rod is bolted and locked to the steel member at 45 and the other end is glued into the structural member.

In another possible embodiment, the structural member is a steel column, which can be considered as a column, acting as a column, or a column with a flange reinforcement, which is connected to the steel elements by means of screws.

Another possibility is that the second structural element is a reinforced concrete column, or a reinforced concrete rod acting as a column. In this case, an anchoring steel element of a tubular cross-section is attached to its reinforcement and the steel elements are then bolted to it.

- 1 GB 302525 B6

The steel element may have a different shape, for example it may have a rectangular tubular cross-section, it may be a profile or it may have a circular tubular cross section.

The essence of this solution is therefore to connect a wooden rod, which serves as a frame rung, to a column, which can be made of various materials, by means of threaded rods glued into the wooden rod and bolted to the metal parts by means of nuts. These parts are partially compliant, so that the joint of two members, one acting as a column and the other acting as a beam or rung, is capable of transmitting normal force, shear forces and bending moment as a semi-rigid contact which allows their certain relative rotation.

The second solution solves the connection of the supporting elements of the structure, where the connection or contact is realized between the wooden members of the spatial beam structure. In this case, the timber members are connected again by means of a steel element. Here it has a conical shape and at the periphery at the connection points of wooden bars is provided with grips, which are chamfered like a steel element.

The timber bars are fixed in the fixtures by a longitudinal axis perpendicular to the surface of the steel element. The steel member is provided with at least one threaded rod along its circumference against each of the wooden members, which is glued axially into the wooden member of the spatial beam structure with its one end and screwed to the steel member perpendicularly to its surface by means of clamps.

The present solutions of connections or joints of a timber member with another timber member or other member transfer forces through glued threaded rods. The advantage of said solution is that the connections can be made directly on the construction site. The joint is able to normally transmit forces, shear forces and bending moments.

BRIEF DESCRIPTION OF THE DRAWINGS

The exemplary embodiments of a dismountable semi-rigid connection or joint of wooden members of a supporting beam structure according to the present invention are illustrated by the accompanying drawings. Fig. 1 shows an example of a connection between a timber beam and another structural member. Giant. 2 shows a joint between a wooden beam and a steel column, and FIG. 3 shows a joint between a wooden beam and a reinforced concrete column. Figures 4A and 4B show the joint between the wooden members of the spatial beam structure from a side view and a top view.

DETAILED DESCRIPTION OF THE INVENTION

Fig. 1 shows an exemplary contact of a wooden skeleton frame which joins a wooden beam 1, which is a rung here, and a structural element 2 formed here by a wooden column, both made of glued wood. The dimensions of the cross-sections result from the static or dynamic solution of the supporting frame for the specified load. In the example, the columns are 180 x 180 mm and the beam is 280 x 180 mm. At the joining point of the wooden beam 1 and the structural member 2, i.e. the column here, at the upper and lower cheeks of the wooden beam and opposite one another two steel elements 3 are screwed to the threaded rods 4 which are glued to the wooden beam 1 to the rung. Second threaded rods 4.1 are glued to the structural element 2, i.e. the column, to which the steel elements 3 are also screwed. The diameters and number of threaded rods 4 and second threaded rods 4.1 must be calculated. These steel elements 3 are screwed together by a connecting threaded rod 5 which connects the two steel elements 3. The steel elements 3 may have a different shape, for example an angular pipe section, an I-profile or a circular pipe section. The steel elements 3 are embedded in the cut-outs 6 in the wooden bar 1. In the example shown, square steel cross-sections of dimensions 150 x 150 mm with reinforcement, with a wall thickness of 10 mm, are used as steel elements 3. The dimensions of the steel elements 3 corresponding to the dimensions of the wooden cross-section of the wooden beam 1 and of the structural element 2 and the diameters of the threaded rods 4 of the second threaded rods 4.1 and the connecting

threaded rods 5 and must be determined by calculation. In the example, the threaded rods 4, the second threaded rods 4.1 and the connecting threaded rod 5 of the M 14 dimension are used.

The present solution of the connection of the wooden rod 1 to the wooden column transmits forces by means of the second threaded rods 4.1 glued into the column and the threaded rods 4 glued into the wooden rod 1. The forces from these threaded rods 4, 4.1 are transferred to the steel element 3 these bars connected by nuts. This connection can be made on site. The advantage of this connection is the ability to transmit normal and shear forces and bending moment. The contacting steel element 3 has a certain flexibility and the contact thus acts as a semi-rigid 10

A second possibility, FIG. 2, is to connect a steel skeleton column constituting the structural member 2 here with a wooden beam 1 formed here by a wooden crossbar. At the joining point of the wooden beam 1 and the steel column, steel members 3 are mounted at the upper and lower cheeks of the wooden beam 1, which are bolted to the reinforcement of the steel column by bolts 7. The steel members 3 are embedded in the slots 6 in the wooden beam 1. It also applies here that the steel elements 3 can have different shapes, for example an angular pipe section, an I-profile or a circular pipe section. In this example, square tube cross-sections of 150 x 150 mm with reinforcement with a wall thickness of 10 mm are used. The dimensions of the steel elements 3 and of the connecting threaded rod 5 must be determined by calculation, as well as their dimensions. In the example

2 «are used threaded rods 4 and connecting threaded rods 5 and screws 7 of roz 14 dimension.

FIG. 3 shows another possible example of a connection, namely the connection of a structural member 2, which is a reinforced concrete skeleton column, with a wooden beam 1 again formed by a wooden beam.

At the joining point of the wooden beam 1 and the reinforced concrete column, steel elements 3 are fitted at the upper and lower cheeks of the wooden beam 1, which are bolted by screws 7 to the anchoring steel element 8 fixed to the reinforcement of the reinforced concrete column. Here again, the steel elements 3 are embedded in the cut-outs 6 in the wooden rod 1 and screwed together by a connecting threaded rod 5. In this example, the steel elements 3 can be of different shapes, i.e. they can have a square tube cross section, I-profile or circular cross section. The anchoring steel element 8 has a rectangular tubular cross section so that it can be fastened to it by nuts 7. In the example shown, angular cross-sections of 150 x 150 mm, with a wall thickness of 10 mm, are used. The dimensions of the steel elements 3 and threaded rods 5 have to be determined by calculation, as well as the number of screws 7 and their dimensions.

In the example shown, the threaded rods 4, the connecting threaded rod 5 as well as the bolts 7 of the M 14 dimension are used.

Giant. Figures 4A and 4B illustrate a fourth possibility of utilizing a given principle, which is the contact between wood members and spatial beam structures, usually rotational. The timber bars 1 are connected to the gusset steel element 3 by screwing threaded rods 4 glued into the timber bars 1. At the ends of the timber bars 1 there are steel washers 9 through which the threaded bars 4 pass, which ensure the transfer of forces from timber bars 1 to the steel element 3. The contact steel element 3 here has a conical shape, is made of sheet metal and is provided at the periphery of the members 1 with sheet metal fasteners 11 for screwing threaded rods 4. The casing of the steel element 3 and fasteners H is chamfered at the same angle. The dimensions of the steel element 3, the dimensions of the threaded rods 4 and the dimensions of the wooden members 1 are to be determined by calculation. In the example, the wooden elements I have a cross-section of 100 x 100 mm, the threaded rods 4 have a dimension of Μ 16 and the contact steel element 3 has a thickness of 10 mm and has a larger diameter of 300 mm and a height of 120 mm.

Industrial applicability

Column and beam contact made of glued, event. solid wood or the joining of a timber beam and a column made of steel or reinforced concrete according to this proposed solution will find application especially for the design of multi-storey wooden skeletons of buildings, where sufficient stiffness of the building in horizontal direction is required.

- CZ 302525 B6 reinforcing walls. The contact of beams at different angles can be used in the design of spatial roofing of various shapes, eg domes, arches, etc.

Claims (9)

A demountable semi-rigid connection or joint of wooden beams of a supporting beam structure, wherein the connection or joint is realized between a wooden beam (1) and a structural member (2) whose longitudinal axis is perpendicular to the longitudinal axis of the wooden beam (1) or an angle, characterized in that the wooden bar (1) is fitted at its upper and lower cheeks with two opposing steel elements (3) into which at least one threaded rod (4) is screwed on one side and secured with a nut, whose longitudinal axis is parallel to the longitudinal axis of the wooden bar (1), and the other end of the threaded rod (4) is glued into the wooden bar (1), the steel element (3) being fixed to the structural element (2) and the opposite steel the elements (3) are screwed together by a connecting threaded rod (5) passing through the wooden rod (1) perpendicular to its longitudinal axis. A demountable semi-rigid connection or joint according to claim 1, characterized in that the structural element (2) is a wooden pole and is connected to the steel elements (3) by means of at least one second threaded rod (4.1), one end of the other threaded rod. (4.1) is screwed and locked to the steel element (3) and the other end glued into the structural element (2). A demountable semi-rigid connection or joint according to claim 2, characterized in that the longitudinal axis of the second threaded rod (4.1) is perpendicular to the longitudinal axis of the structural member (2). Removable semi-rigid connection or joint according to claim 1, characterized in that the structural element (2) is a steel column and its wall or flange between the flanges is connected to the steel elements (3) by means of a screw (7). A demountable semi-rigid connection or joint according to claim 1, characterized in that the structural element (2) is a reinforced concrete column, to whose reinforcement an anchoring steel element (8) of tubular cross-section is attached to which the steel elements (3) are connected by screws. (7). A demountable semi-rigid connection or joint according to any one of claims 1 to 5, characterized in that the steel element (3) has a square tubular cross section. A demountable semi-rigid connection or joint according to any one of claims 1 to 5, characterized in that the steel element (3) is an I-profile. A demountable semi-rigid connection or joint according to any one of claims 1 to 5, characterized in that the steel element (3) has a circular tubular cross section, A demountable semi-rigid connection or joint of wooden beams of a supporting beam structure, wherein the connection or joint is realized between the wooden beams (1) of the spatial beam structure, characterized in that the wooden beams (1) of the spatial beam structure are connected by a steel element (3). which has a conical shape and at the periphery at the connections of the wooden members (1) is provided with grips (11) chamfered in the same way as the steel member (3), and the wooden members (1) are attached therein by a longitudinal axis perpendicular to the steel member ( 3) and this steel element (3) is provided with at least one threaded rod (4) along its circumference against each of the wooden bars (1), which is glued axially into the wooden bar (1) of the spatial bar structure and the other it is screwed to the steel element (3) perpendicularly to its surface by means of clips (II) via steel washers (9).