ANÁLISIS PALACIO DE CRISTAL - JOSEPH PAXTON
Analysis of the Crystal Palace
Introduction to the Crystal Palace
- The video discusses an analysis of the Crystal Palace, a Victorian architectural marvel designed by architect Joseph Paxton, initially located in Hyde Park for the 1851 Great Exhibition.
Historical Context and Relocation
- In 1854, the structure was relocated to South London. The design was innovative for its time, utilizing iron and glass instead of traditional stone materials.
- The building's significance is highlighted through comparisons with other notable structures like Goldoni Theatre (1622), Chas Wards (1837), and another Crystal Palace in Madrid (1880).
Accessibility Analysis
- The current location of the Crystal Palace is within one of London's largest parks, with various access routes illustrated in Figure 13.
- Key access points include Vauxhall represented in red, Archway in green, and several others depicted in yellow.
Structural Features and Materials
- Glass was a primary material used, allowing visibility while reflecting sunlight inside; this created a mysterious ambiance.
- The building features symmetrical volumes stacked upon each other with hollow columns resembling fluvial downspouts.
Architectural Composition
- A simple geometric design includes a central vaulted space intersecting two volumes surrounded by parallelepipeds.
- Although it draws from neoclassical traditions, its dimensions create an impression of indefinite extension rather than unity.
Internal Circulation Design
- Inside, there is continuous circulation facilitated by a central hallway that organizes various exhibition spaces on either side.
- Secondary parallel hallways enhance visitor flow towards different galleries while maintaining attention on main exhibits.
External Circulation and Spatial Organization
- The fundamental module repeats throughout the structure over 230 times; originally lacking an upper vault led to an undefined optical center.
- Positioned south of Hyde Park, external pathways connect visitors from key entry points to the main entrance.
Conclusion on Spatial Dynamics
Crystal Palace: Architectural Marvel
Design and Proportions
- The Crystal Palace gained fame not only for its elegance but also for its impressive proportions: 560 meters in length, 125 meters in width, and an artistic height of 22 meters. This design allows for the accommodation of trees, creating varied sensations for users.
- The architectural layout emphasizes important voids that facilitate double and even triple heights within the space. This approach enriches the experience beyond typical human scale.
Structural Analysis
- The main structure consists of hollow cast iron columns forming arches with a span of 7.3 meters across three levels, supporting the roof while also functioning as conduits for rainwater drainage.
- A total of 3,300 columns were utilized throughout the building. These columns are interconnected by cast iron and wrought iron beams, maintaining horizontal alignment and contributing to a lightweight appearance.
Column Design Features
- At the base of each column are components that enhance vertical stability; at the top, gold-plated elements provide a connection between the column and its foundation. The bases rest on a horizontal platform reinforcing vertical structures.
Roof Structure
- The palace's roof is supported by upper beams resting on hollow columns. Curved gutters are integrated into this design to facilitate water drainage from rainfall through various channels.
- The roof features a flat surface with crests and grooves designed to promote efficient rainwater runoff via guillotine bars inclined towards upper beams.
Water Management System