DE1261297B - Nodal formation of a building skeleton with columns and beams - Google Patents

Description

Node formation of a building skeleton with columns and beams The invention relates to a junction formation of a column and beam having, made of steel or equivalent material skeleton for a Building, with a tubular junction with a tapered base in the upper end of a tubular column and optionally with an upper part in the lower end of another column can be used, while the one above of the upper end of the lower column extending main part of the node piece means are arranged for connecting the beams to the junction piece.

In a known embodiment of a node connection of a skeleton of this type there are permanently protruding parts on the junction piece with which horizontal and diagonal struts can be connected. The execution leaves none Tolerances in the production and is not suitable for large loads.

There are still node training, for example for Scaffolding, shelves and furniture are known according to their intended use are trained and do not meet the requirements for building skeletons and where possible dimensional tolerances are not easily compensated for can.

In contrast, the invention aims to provide a node training for To create a building skeleton that meets all the requirements that arise in buildings enough. In particular, the following conditions should be met. The components of a Building skeletons are relatively heavy to withstand the heavy loads of the walls and the facilities of the building to be able to bear, and the load should be in more effective Way without stress, relatively lighter components (bolts, etc.) on the Bearings are transferred. Furthermore, the parts of the junction should be light to be handled and protruding parts, the arrangement of the wall parts, ceiling parts etc. are disturbing to be avoided.

According to the invention, this object is achieved in that the main part of the square profiled junction piece, which is formed as a square tube in the Column can be used and its dimensions lie within the column profile, on each side has a recess for hanging a bracket, which from one designed to reach over the wall of the junction piece in the shape of a hook, according to inward, horizontal arm, one against the side surface of the main part applied vertical arm and an outward-facing horizontal arm for There is support of a beam.

The advantages of a favorable power transmission are achieved; protruding parts are avoided. Slight dimensional tolerances can be compensated will. If the knot piece has an upper part, it is particularly advantageous the upper part by means of a connecting part with the main part of the node piece releasably connect.

The node formation according to the invention can be used at all nodes used between columns and beams of a building skeleton, for example where one or more beams are to be connected to a column, or where where two columns are arranged one above the other, in which case one or more Beams or no beams can be connected to the columns. With all of these Applications, the load is effectively transferred to the support.

The junction piece can be used for the use of H-shaped cross-sections, cylindrical and other columns, albeit of box-like columns Cross-section are preferred.

The junction piece is preferably a separate part, but it can also form an extension of one of the structural elements, for example the column located underneath, although this extension naturally always occupies the same position in the junction point.

The node piece and the skeleton components can be made of different materials be manufactured according to strength, durability and economy selected are e.g. B. made of steel, aluminum alloys or other metals; but it can also other materials, e.g. B. reinforced, layered or other plastics are used will.

In the drawing, the invention is shown in one embodiment. It is shown in Fig t2. 1 g of a K_notenpunktausbildung in a side view, F i. 2 the node formation according to F i g. 1 in a vertical section, FIG. 3, 4, 5, 6 and 7 the node formation in horizontal sections, according to the lines 3-3, 4-4, 5-5, 6-6 and 7-7 in the FIG. 1, Fig. 8 shows the node formation in a side view with parts exploded, and FIG. 9 and 10 show end views of brackets intended for attaching a box beam or a double T-beam to a junction piece.

In the drawing, a hollow junction piece 10 is shown, which is inserted into the upper end of a hollow column 11 with a rectangular cross-section and is intended as a support for one or more beams 12, 13 and 14. A beam 12, 13 and 14 can be supported on the junction piece 10 on each of its side surfaces. It can also be connected to a single column or to two columns arranged vertically one above the other. In the illustrated embodiment, three such bars 12, 13 and 14 are shown, namely two bars 12 and 14 with a box-shaped cross section and a double-T bar 13. The upper column 15 is identical in cross section to the lower column 11. It is placed on the upper end of the junction piece 10 .

The junction piece 10 has a main part 16 which is expediently hollow and has a quadrangular or square outline which corresponds to the outline of the columns 11 and 15 and furthermore with regard to height and width with the beams 12, 13 and 14. Even if the dimension of the junction piece 10 does not necessarily have to match the components connected to it, this match is advantageous in the case of building skeletons.

The junction piece 10 has a tapered square lower part 18 which is dimensioned such that it fits into the column 11 so that the main part 16 is seated directly on the upper edge of the column 11 by means of a shoulder 19 so that the load is directly applied the column 11 is transferred. The junction piece 10 also has an upper part 20 which fits snugly into the upper column 15 which rests on a shoulder 21 of the junction piece 10 . The lower and upper parts 18 and 20 can be connected to the columns 11 and 15 by appropriate means, e.g. B. screw bolts, be connected at points 22 and 24, respectively.

One or both parts 18 and 20 can be integrally connected to the main part 16 of the junction piece 10 , or one or both parts 18 and 20 can be separable or detachable. In the particular embodiment illustrated, the lower part 18 is formed integrally with the main part 16 , while the upper part 20 is formed as a separate component and has a downwardly extending sleeve-like part 26 which fits within the interior of the hollow main part 16 .

The junction piece 10 can be used together with the removable upper part 20 in practically all locations of a building skeleton, for example where beams with columns or column-like components are to be connected both above and below or where beams are only to be connected to a column below, while the upper end of the node piece is intended to remain essentially flush with the upper beam surfaces. In the former case, the upper parts 20, 26 are inserted into the node 10 and fixed, while in the second case these parts 20, 26 are omitted.

A shoulder 27 is provided between the parts 20, 26 , with which the upper part 20 is supported on the shoulder 21 of the main part 16 of the junction piece 10 , on which the end of the column 15 is also placed. The socket-like part 26 is in the embodiment on the main part 16 of the node 10 by appropriate means, for. B. bolt fastened at points 28. The relative position of the main part 16 of the junction piece 10 of the upper part 20 and the upper column 15 to one another can be seen in particular from FIG. 8 clearly shows where these parts are shown in the course of their assembly.

For the attachment and support of the beams 12, 13, 14, the main part 16 of the junction piece 10 has a horizontal recess 30 on each side surface, which has a bearing edge 31 onto which the inwardly directed horizontal arms 33, 34 of brackets 35, 36, 38 are attached.

The brackets 35, 36, 38 are in the form of consoles, with vertical, flat arms 39, 40 ( FIGS. 9 and 10), which are supported against the adjacent side surfaces of the main part 16 of the junction piece 10 , and with horizontal upper arms 41 , 42 are placed on the upper flanges of the corresponding box beam 12 or the double T-beam 13 . The boom 35 is designed so that its upper arm 41 lies within the contour of the beam 12, and the boom 36 is correspondingly thinned so that it lies within the contour of the beam 13 , with the upper arm 42 of the boom 36 in the middle is slotted ( FIG. 10) in order to receive the web 44 of the double T-bar 13 .

In the case of the brackets 35, 36 the protruding arm 33, 34 is equipped with a downwardly directed part 45 which overlaps the supporting edge 31 of the recess 30 of the main part 16 . A stiffening and reinforcement of each arm 35, 36, 38 is achieved by supporting struts 46 between the vertical arm 39, 40 and the horizontal arm 41, 42 which receives a beam 12, 13, 14.

The upper flanges of the beams 12, 13 are in the embodiment on the horizontal arms 41, 42 of the boom 39, 40 by appropriate means, for. B. bolt fastened at points 50, 51. The vertical arms 39, 40 of the booms 35, 36 are attached to the side surfaces of the main part 16 of the node 10 by suitable means, e.g. B. bolt fastened at the points 52. To prevent the transmission of loads through the screw bolts, slots are provided, as shown at points 50, 51 and 52 of the arms 35, 36 .

The entire vertical load of each beam 12, 13, 14 is transferred to the associated bracket 35, 36, 38 by direct storage and then from the bracket 35, 36, 38 by corresponding direct storage over the edge 31 of the bracket 35, 36, 38 receiving recess 30 and further from your main part 16 of the node 10 through immediate storage on the column 11 located below.

In addition to the recesses 30 for receiving the brackets 35, 36, 38 for fastening the beams 12, 13, 14, the main part 16 of the junction piece 10 has considerable cutouts 54 in each side surface, which provide a passage for supply lines or the like for the building to and through the beams 12, 13, 14 and pillars 11, 15 through. To compensate, the node 10 is reinforced to achieve greater strength, namely by parts 55 along its perpendicular inner edges. In order to accommodate the last-mentioned parts 55 , the lower, bush-like part 26 of the upper part 20 is provided with recesses at its corners 56 , as shown in FIGS. 4, 5 and 8 are shown.

For the purpose of receiving the horizontal arms 33, 34 of the cantilevers, each of the four side surfaces of the part 26 has a wide opening 57 at its upper end ( FIG. 8) which is arranged so that it coincides with the recesses 30 . In their perpendicular dimensions, the opening 57 is slightly larger, so that when the parts 20, 26 are inserted into the main part 16 , the lower edge 58 of each opening 57 occupies a position in which they have sufficient space for the hook-like part 45 each Boom 35, 36, 38 leaves free (Fig . 2 and 8).

Part 26 may have further openings, for example at location 59, to accommodate the protruding ends of the boom mounting bolts at locations 52 . The various bolt receiving openings, for example at the points 22, 24 and 28 of the parts 18, 20, 26 can optionally have slotted shapes for a necessary tolerance.

Claims (1)

Claims: 1. Nodal formation of a column and beam having, made of steel or equivalent material skeleton for a building, wherein a tubular node piece with a tapered lower part in the upper end of a tubular column and optionally with an upper part in the lower end of another Column can be used while on the main part of the node piece extending above the upper end of the lower column Means for connecting the beams with Node are arranged, thereby indicates that the main part (16) square profiled node piece (10), there the column (11) designed as a square tube is settable and with its dimensions inner of the column profile, a 2nd on each side recess (30) for hanging a Ausle (35, 36, 38) , which consists of a # overlap the wall of the knot hook-shaped, geric inwards th, horizontal arm (33), against one another Lateral surface of the main part applying lotrecl Arm (39) and one facing outwards, horizontal arm (41) for support e Bar (12, 13, 14). 2. Node training according to claims. the knot piece having an upper part , has, characterized in that the ol Part (20) by means of a socket-like part i with the main part (16) of the knot is releasably connected. 3. Node training according to claims or 2, characterized in that the n inward and outward-facing horizontal cl Arms (33, 34 and 41, 42) of the boom (35, 38) in essentially the same amount angeorc and are connected to each other, the lotre ( Arm (39, 40) away from the junction horizontal arms (33, 34 and 41, 42) n extends below and that the boom (35, 36, Support struts (46) between the outward straightened horizontal arm (41, 42) and c has vertical arm (39, 40). 4. Junction formation after one Claims 1 to 3, characterized in that i the tubular knot (10) for the Dui passage of pipes, lines and the like into the rope areas of its main part (16) cutouts ( has that are within the profile of the supported beams (12, 13, 14) lie, and on seii Ends is open. Considered publications: German utility model No. 1761088; French Patent No. 1039 734; Belgian Patent No. 543 635; British Patent Nos. 100,415, 160 2 696933.