DE1781162B2 - NODE CONNECTION FOR SPATIAL FRAMEWORK CONSTRUCTIONS - Google Patents

Description

neien connection surface of the junction piece or flat surface parts adjoining the associated approach and joined between these surface parts, on the circumference of the connection cross-sectional area of the to be connected Strut adjacent flat or conically curved, three-sided surface parts is formed.

By the fact that the transition pieces bend to a ' taper, the inner knot area is rigid, while the struts leading to the knot are long and can be slim and relatively bendable. Bending loads are from the relatively long and slender Sfeben added. If the struts bend unevenly, the junction piece may become tilted without bending the transition pieces next to the junction piece. A particular advantage of the Junction connection is that it is computationally reasonably easily captured and with relatively little Effort made! can be.

The invention is shown in the drawing in an exemplary embodiment. It shows

1 shows a side view of the framework construction of a swimming platform with a node connection,

Fig. 2 is a view from above of the framework construction with the junction connection, with the working deck and the corresponding deck struts are omitted, and

F i g. 3 the node connection in a side view.

The swimming platform shown in Fig. 1 has swimmers 1, which is a circular horizontal Have cross-sectional area. Each float 1 is provided with a transition piece 2 at its upper end provided on which a support 3 rests. At the bottom of each float 1 is a frustoconical one End piece 4 provided.

At the upper end of the supports 3, a working deck 5 is attached, which consists of a single deck or can be composed of a number of sub-decks. In the lower part of the truss construction is a junction connection is provided, which is arranged above the water surface. Of this Junction connections lead struts 9 radially outward in a horizontal plane. Further lead inclined struts 10 from the node connection radially to the upper ends of the Siii'zen. 3. One vertical strut 11 leads from the node connection upwards.

Furthermore extending struts 12 are provided on the periphery of the structure, which in the through the horizontal plane leading to the junction connection. In each side surface of the truss construction a diagonal strut 13 is provided between the supports 3.

The location of the node connection in the construction does not coincide with the center of the circle together, which leads through the corners of the pentagon that the supports 3 form. The node connection is rather it is arranged eccentrically, namely it is shifted to the side of the pentagon on which the Drilling rig is located. This results in a better load distribution in the construction.

F i g. 3 shows the node connection in detail. This junction connection has a junction piece 8 on, which consists of a vertical prism body 14 with a pentagonal cross section and further prism bodies 17, which extend obliquely upward from the outer sides of the prism body 14. The angles between the sides of the pentagon are matched to the angles at which the struts are meet. These angles complement each other in a vertical projection. In the case of not too great deviations A regular pentagonal cross-sectional area is completely sufficient for symmetry. The knot 8 is made of flat plates that are welded together at their edges. Stiffening plates with and without recesses can be welded into the node piece 8 in order to give it increased rigidity give.

The struts 9, 10, 11 leading to the node connection lead have a circular cross-section. The connection between the vertical strut 11 and the junction piece 8 takes place through a transition piece, which consists of flat surface parts 15 and curved Surface parts 16 is composed. This ensures an advantageous transmission of the stresses in the Strut 11 reaches the outer surfaces of the node piece 8.

As can be seen from the drawing, the number of flat surface parts 15 of the transition piece is equal to that Number of sides of the prismatic node 8. The number of between the flat surface parts 15 lying curved surface parts 16 is equal to the number of flat surface parts 15.

The inclined struts 10 are each connected to one of the prism bodies 17 extending obliquely upward of the junction piece 8 connected with the help of a transition piece, which is similar to that already for the strut 11 described transition piece is formed.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Welded nodal point connection for spatial framework structures formed from struts with a polyhedral node arranged at the node, which connects the ends of the Has struts facing attachment surfaces, and with between these attachment surfaces and the ends the struts arranged transition pieces, which are one of the attachment surfaces of the node piece have continuously changing cross-section up to the cross-sectional areas of the struts, thereby characterized in that the junction piece (8) is welded together from flat plates and accordingly the ends of the struts (9, 10, II) facing connection surfaces on the junction piece (8) or from approaches formed on it are polygonally limited that these connection areas are larger than the connection cross-sectional areas of the Struts (9, 10, 11), and that the cross-section each transition piece tapers from the connection surface to the struts (9, 10, 11), the Circumferential surface of each transition piece from the circumference of the connecting surface assigned to it of the junction piece or flat surface parts (15) adjoining the associated attachment (17) and between these surface parts (15) joined to the circumference of the connection cross-sectional area of the to be connected strut (9, 10, U) adjacent planar or conically curved, three-sided surface parts (16) is formed. 2. node connection according to claim 1, wherein the cross-sectional areas facing the connection surfaces the struts are circular, characterized in that they are attached to the circumference a connection surface on the junction piece (8) adjoining flat surface parts (15) of the intermediate piece essentially triangular and the conical curvature of the attached to the strut (9, 10, 11) Surface parts (16) is adapted to the contour shape of the strut. 3. node connection according to claim 1 or 2, characterized in that in the interior of the junction piece (14. 17) stiffening plates are welded. 4. node connection according to one of claims 1 to 3, characterized in that the Node piece (8) in the middle of an upper, horizontally arranged connection surface and underneath of the axis passing through the central connection surface obliquely upwards and radially to the sides has directed pads. 5. node connection according to claim 4, characterized in that the horizontally directed Connection surface of the junction piece (8) with the upper end face of a vertical prism body (14) pentagonal cross-section is that on the side surfaces of this prism body (14) obliquely upwards directed four-sided prism body (17) are attached, the free end faces of which are inclined upwards directed connection surfaces, and that the under the attachment points of the obliquely upwards directed prism body (17) lying areas of the side surfaces of the vertical prism body (14) form the radially directed connection surfaces. The invention relates to a welded node connection for spatial structures formed from struts Truss constructions with a polyhedral junction that is arranged at the junction Has ends of the struts facing attachment surfaces and with between these attachment surfaces and the ends of the struts arranged transition pieces, which extend from the attachment surfaces of the node piece to the Have cross-sectional areas of the struts continuously changing cross-section. In a node connection of this type made known by DL-PS 55 423, the node is massively trained. The connection areas on the node are smaller than the cross-sectional areas of the Striving. The transition pieces are essentially conically narrowing strut ends. The connection takes place via screw bolts. The flexural rigidity of this connection structure is essential depends on the tensioning of the screw bolts. The much smaller compared to the strut cross-section Connection surfaces reduce the flexural rigidity of the connection. Furthermore, a welded node connection is known in which the node is spherical and the tubular struts are welded to the junction piece without tapering their cross-section. With this known junction connection, there is a considerably better flexural strength Connection achievable, but it is expensive to bend plates and to manufacture the node piece to weld curved plates. In the case of polyhedron-shaped junction pieces, which are composed of flat plate pieces the static conditions can also be recorded more easily and more precisely. In addition, the strength of the welded connection between the struts and the junction piece is νυη the Depending on the weld seam length, which in this case depends on the circumferential line of the strut cross section. Weaknesses caused by incorrectly executed weld seams cannot be replaced by a longer one The weld seam must be rendered harmless as a precaution. In the case of welded connections between truss rods, it is known to have spacers which extend the weld seam to be provided (DT-PS 6 59 626 and GB-PS 10 64 777), but these are only for the connection of one Rod end thought of a continuous rod and for connection to node pieces of the here in question standing type in general not applicable. The object of the invention is for very large framework structures, such as drilling rigs on the high seas, to create a node construction that is easy to manufacture and in which the attachment points of Transition pieces on the junction piece are extremely resistant to bending loads. To solve this problem, the invention is based on the node connection described at the outset, at which in a well-known manner the connections are made by welding, and is thereby characterized in that the node piece is welded together from flat plates and accordingly the den Ends of the struts facing connection surfaces on the junction piece or from approaches formed on it are bounded polygonally that these connection surfaces are larger than the connection cross-sectional areas of the Struts, and that the cross-section of each transition piece extends from the connection surface to the struts tapered, the circumferential surface of each transition piece from to the circumferential line of the associated