Advanced Architectural Steelwork, Glass Fins, Freeform and Spaceframe Structures
Architectural Steelwork, Spaceframe Systems, All Glass
Novum’s six distinctive lightweight structural products were developed to solve demanding architectural challenges. The systems are typically fabricated in our own ISO certified factories, architecturally finished and then shipped compactly. Each product shares the basic principal of mechanical fastening on site; hence, achieving the tolerance required for direct cladding and often avoiding the need for secondary structure, field welding and finishing.
Typically featuring hidden fasteners, each system product is developed custom in application, enhancing the range of form, aesthetics, strengths and costs.
Novum Structural Systems fall into three categories:
Architectural Steelwork: AES + BB Systems. Architecturally Exposed Steelwork is systemized per project and the Beam to Beam System features elegant mechanical framing methods.
Nodal Spaceframes: BK + FF + KK Systems. Semi-rigid nodal spaceframe systems (BK and FF) are comprised of solid or split nodes and bending capable members suitable for planar to freeform surfaces and direct cladding. The timeless traditional spherical node pin jointed spacetruss system (KK) is fully optimized. All nodal components are designed to be interchangeable, creating an industry leading suite of products for building single and multilayer structures of any size and form. Economy comes from our automated design through production processes. Novum’s in-house software links geometry, structural analysis and component sizing to CNC/robot assisted production and bar-coded deliveries.
All Glass: GG-System. Our Glass to Glass System extends the traditional role of glass as cladding to structural glazing with stiffening fins used as primary structure.
Architecturally Exposed Steelwork. In-house engineered precise architectural steelwork is systemised, factory fabricated and finished, delivered and then mechanically fastened on site with nominal welding. Comprised of high grade mild or stainless-steel profiles, we specialise in hollow sections (round, square, rectangular and elliptical), but also offer wide flanges, channels, T’s, angles and plates as necessary. Additionally, Novum fabricates welded box beams and unique custom fabricated sections featuring sharp corners.
Applications are unlimited. Architectural visual quality, engineered integrity and precise tolerances are our primary criteria. Finishes to meet environmental and client specification include duplex (galvanized and painted), primed and painted and powder coated.
Beam to Beam. A system specifically developed to make elegant mechanical beam connections. Fasteners are typically hidden or architecturally exposed. The system typically features hollow profiles as continuous primary beams with secondary infill members. The product ships compactly and field assembly requires no welding. Due to its design and excellent tolerances, direct cladding is easily accomplished.
This affordable, yet elegant system is frequently used in facades and canopies, which are planar in nature. It is also available in an assortment of finishes.
Glass to Glass. The GG-System is comprised of structural glass panels and orthogonal fins connected by discreet fasteners and elegant plates to integrate the glass structurally as an enclosure. Minimally sized parts are typically stainless steel. Applications can be vertical, inclined or overhead and are typically planar statically determinate forms as glass cannot be warped. Glass fins are designed for some redundancy in case of damage or overload and may be double or triple laminated. Novum glass fins can be produced up to 40’ (12m) lengths before splicing. The system typically works well with our PSG-System and glazing panels can be monolithic, laminated or insulating.
Kugel Knoten (spherical node). The KK-System was invented and developed in the 1940’s by the late Dr. Max Mengeringhausen and is universally recognised by industry and academia as the pioneering spacetruss system. Spherical solid nodes are drilled and tapped at varied angles to create any desired geometric form and round pipes with conical ends bolt axially between nodes to form spatial grids. Typical uses are very stiff double layer structures with amazing strength to weight ratios with spans up to 500’ (150m).
Tube diameters and grid sizes vary according to strength, cladding and cost requirements. Optimal use of these materials provides impressive economy. The system is available in stainless steel or hot dip galvanized high grade steel. Finish options include powder and liquid paints, brushed or polished.
Block Knoten (block node). A versatile spaceframe system using machined solid nodes and precise welded beams from hollow sections. Profiles are normally rectangular but can also be round. High strength corrosion resistant fasteners are hidden and require prestressing into the node using special Novum wrenches. Beam ends are comprised of plates or blocks which are inserted into the tube and can be either recessed or protruded for welding. The beams allow direct attachment of varied cladding systems.
BK tubes are used in single layer and double layer spaceframe applications and are the preferred choice where geometries are close to orthogonal to keep nodes compact. Typical applications are cones, domes and vaults. Single layer applications use the BK node, and for double layer grids, the HK node (half spherical) integrates BK tubes with KK tubes creating bending stiff chord members on stiff spatial grids.
Free Form. Novum has pioneered the development of mechanically fastened tubular spatial grids capable of creating virtually any freeform surface geometry. The system is comprised of cylindrical split nodes and tubular beams with cast end adaptors. The tapered adaptors allow compact node sizes and stepping enables significant vertical angle changes. The split node provides for economy by its lightness and flexibility for other trades such as lighting and maintenance attachments.
Parts are often unique, and Novum’s in-house software ties geometry, structural analysis, component sizing and CNC/robot assisted production. The design through fabrication process is highly automated for economy and precision.
Grid sizes vary, so beams come in a variety of standard depths depending on form, span and member length. Double curvature is inherently desired as it develops strength.