Freestanding apparatus constructed from extruded aluminum profiles forming a rectangular structural base supported by four swivel casters with polyurethane treads, each wheel anchored to a steel plate and incorporating a locking mechanism for positional stabilization. At each corner of the lower frame adjustable leveling feet with threaded rods and circular plates provide vertical height regulation and vibration control. From the base extend four diagonal load-bearing beams converging toward a central vertical column, producing a pyramidal truss configuration optimized for distributing mechanical forces. The central support column consists of reinforced aluminum extrusion incorporating linear guide rails and gear-driven assemblies, enabling precision vertical movement. Mounted at the upper section is a motorized gimbal housing with rotary axis, gear modules, and belt-driven actuators allowing controlled angular adjustment of attached payloads. Lateral crossbars connect the vertical spine to peripheral support beams, maintaining rigidity and minimizing torsional displacement during operation. Black enclosures at multiple points house electronic drivers, power regulation systems, and motor controllers, with visible wiring harnesses and bundled signal cables routed downward toward the base where auxiliary green modules indicate power supply units. The cabling is organized through loops, tie-down points, and cable management clips, ensuring separation of high-voltage and low-voltage circuits for operational safety. On the left side a compact handheld remote control unit is mounted, incorporating a joystick, selector switches, and emergency stop button, providing direct operator input for motion sequences. Upper frame crossbeam includes laser alignment markers and safety labels indicating compliance with load and voltage standards.The structure is positioned on a carpeted floor surface inside a modular exhibition environment characterized by white steel lattice walls, pegboard partitions, and a backdrop containing dense photographic collage panels. Lighting within the enclosure is diffuse and consistent, minimizing shadow interference on reflective metallic surfaces. The system is engineered for transportability and modular adaptation, evidenced by detachable joints, standardized fasteners, and caster-based mobility. Mechanical design suggests application in motion-control cinematography, 3D scanning, robotic automation, or precision positioning of optical equipment, given the integration of truss geometry, rotary actuators, and stabilized mobile frame. Visible tension joints, corner brackets, and gusset plates reinforce the load distribution, while lateral braces prevent oscillatory sway. Redundant structural reinforcement is provided at each corner of the base with steel locking clamps ensuring positional immobility when wheels are disengaged. Electrical integration includes visible grounding points and safety connectors, minimizing risk of static accumulation during extended operation. The vertical column’s robust cross-section and internal guiding hardware indicate capacity for supporting significant payload weight while maintaining fine-resolution positional accuracy. Overall arrangement emphasizes modularity, repeatable precision, and compatibility with industrial or cinematic applications requiring stable yet adjustable positioning systems.
Triptych image displays three sequential stages of prototyping involving a rounded sculptural head-like object. At left, the object is held in a hand against a tabletop background. Its beige surface exhibits incised markings including a vertical line running from upper to lower region and punctured holes positioned symmetrically near the base, resembling simplified facial features. The form demonstrates hand-carved detailing with shallow grooves and openings integrated into the curved geometry.
Structure composite présentant une combinaison de composants anthropomorphiques et de modules mécaniques articulés. La partie céphalique adopte une configuration de surface évoquant une texture de levain cuit, intégrée dans un ensemble volumétrique comportant des protubérances latérales circulaires et un recouvrement textile imprimé à motifs géométriques. Le segment supérieur est prolongé par une série de systèmes robotiques comprenant des pinces, des câbles, des tubes flexibles, des capteurs et des connecteurs modulaires. Ces éléments techniques incluent des vérins, des conduits électriques, des articulations mécaniques et des bras composites assemblés en réseau complexe. La portion inférieure se raccorde à une extension imitant un bras gainé, comportant des surfaces sombres simulant une enveloppe cutanée. L’ensemble constitue un agencement technologique où interagissent biomorphologie stylisée et dispositifs industriels multifonctionnels.
Illustrated scene combining anthropomorphic bread-headed figure with decayed industrial background. Foreground dominated by humanoid character with oversized bread-textured head, surface irregular and fissured, bearing bulbous nose, asymmetrical cheeks, and eroded crust resembling weathered physiognomy. Torso and limbs simplified, partially clothed in tattered fabric with holes and frayed edges. Surface coloration mottled golden-brown, charred black, and pale beige, evoking scorched and aged baked matter. Expression subdued, emphasizing heaviness and deterioration.
Séquence filmée en intérieur montrant un dispositif électromécanique manipulant un livre ouvert contenant des illustrations de têtes anthropomorphes en forme de pain. Le mécanisme est composé d’une structure métallique verticale, de bras articulés et de câblages électriques visibles, fixé au sol par une base rigide. Un bras humain intervient pour stabiliser la page pendant le passage de la machine. Le livre présente des pages illustrées de dessins stylisés, comprenant des visages simplifiés aux contours arrondis et aux textures évoquant des surfaces panifiées. L’arrière-plan est constitué d’un mur neutre et d’un mobilier industriel sombre. L’ensemble de la scène associe geste manuel et automatisation technique, mettant en évidence une interaction entre imagerie graphique et outillage robotisé.
Metallic and glass-based apparatus consisting of a rectangular support frame fabricated from tubular black metal joined with orthogonal connectors, serving as the foundation for a suspended multi-tier transparent tank system. The central component is a rectangular container composed of multiple parallel glass panels held by vertical clamps, threaded rods, and metallic fasteners arranged symmetrically along each side. The layered transparent planes are separated by uniform gaps, producing a stacked configuration resembling a liquid containment or experimental observation chamber. Mounted above the structure is a vertical rig supported by cables and pulleys, terminating in a suspended camera or sensor device positioned for overhead capture. On both lateral sides, vertical stands with adjustable clamps are connected to auxiliary rods, ensuring lateral stabilization and alignment. Electrical wiring, black cables, and conduit lines are routed across the ground surface and connected to devices including a wooden equipment box housing power supplies or controllers, with visible switches and ventilation slits. The surrounding environment includes an industrial room with smooth concrete flooring, gray painted walls, and a large plastic container covered with fabric or protective material in the background. The apparatus emphasizes modularity, precision alignment, and controlled positioning of transparent layers for technical imaging, experimental measurement, or optical research applications, integrating structural, mechanical, and electronic components into a unified assembly.