Recreación virtual del reloj de torre instalado en la Iglesia de Cuevas de San Marcos en el año 1863
Loading...
Identifiers
Publication date
Reading date
Authors
Collaborators
Advisors
Tutors
Editors
Journal Title
Journal ISSN
Volume Title
Publisher
Share
Department/Institute
Abstract
Un reloj de torre es un mecanismo de precisión formado principalmente por engranajes, actuadores y levas. Para conservar su precisión y funcionamiento es necesario que tengan un buen mantenimiento y reparaciones periódicas para así asegurar que joyas históricas se conserven en el estado adecuado. Eso es lo que no ha pasado con el reloj del año 1863 situado en la Iglesia de Cuevas de San Marcos (Málaga) del relojero del Excelentísimo Ayuntamiento de Bilbao, que
tras una avería cuya naturaleza se desconoce, se dejó olvidado y sin funcionar, sustituyendo el sistema de sonería mecánico por uno digital configurable. Cabe destacar que el mecanismo del reloj nunca estuvo conectado a la esfera del reloj, con lo que, cuando funcionaba, solo se encargaba del sonido de las campanas.
El reloj precisa de unas manos expertas que lo analicen y valoren los daños presentes en el mecanismo, así como determinar por qué dejó de funcionar. Teniendo claro eso, mi labor aquí fue la recreación del mecanismo del reloj virtualmente mediante software 3D. Para ello, se visitó en repetidas ocasiones el reloj para tomar fotos y medidas de todas las partes que forman el reloj, para su posterior recreación a ordenador una vez obtenidas esas medidas. Para la toma de fotos y medidas de algunas partes fue necesario tocar el reloj, haciendo esto el menor número posible de veces.
De la misma manera, la labor no solo se limitó a medir y recrear virtualmente, sino a analizar y estudiar cómo funcionan cada una de las piezas y la función que desarrollan en el sistema completo para dar lugar al funcionamiento tan complejo del reloj. El modelo virtual permitirá percibir de una manera visual el funcionamiento y detalles de este tipo de relojes mecánicos y ayudar así a la divulgación del patrimonio histórico local.
Una conclusión clara que se pudo sacar del estudio de dicho mecanismo fue que el óxido y el desgaste, así como muchas holguras e imprecisiones en diferentes elementos son parte importante de las causas por las cuales el reloj no funciona. Es difícil determinar la razón concreta, si la hay, por la que el reloj no funciona, sin la ayuda de un profesional. Pues, aunque he pasado muchas horas investigando sobre relojes y visitando la torre del reloj, no soy experta relojera y hay detalles que se me escapan.
A tower clock is a precision mechanism primarily composed of gears, actuators and cams. To maintain its accuracy and functionality, it requires proper maintenance and regular repairs to ensure that these historical treasures are preserved in their proper condition. This is precisely what has not happened with the 1863 clock located in the Church of Cuevas de San Marcos (Málaga), made by the clockmaker of the Bilbao City Council. After a breakdown of unknown origin, it was left forgotten and inoperable, with the mechanical striking system replaced by a configurable digital one. It is worth noting that the clock mechanism was never connected to the clock face; when it was working, it only chimed the bells. The clock requires expert hands to analyze and assess the damage to the mechanism, as well as determine why it stopped working. With this in mind, my task here was to virtually recreate the clock mechanism using 3D software. To achieve this, the clock was visited repeatedly to take photographs and measurements of all its components, which were then recreated digitally. Taking photographs and measurements of some parts required touching the clock, but this was done as few times as possible. Similarly, the work was not limited to measuring and virtually recreating the clock, but also involved analyzing and studying how each piece functions and its role within the complete system to produce the clock's complex operation. The virtual model will allow for a visual understanding of the workings and details of this type of mechanical clock, thus contributing to the dissemination of local historical heritage. One clear conclusion drawn from the study of this mechanism was that rust and wear, as well as numerous loose parts and inaccuracies in various components, are significant factors in why the clock is not working. It is difficult to determine the specific reason, if any, why the clock is not working without the assistance of a professional. Well, although I've spent many hours researching clocks and visiting the clock tower, I'm not a watch expert and there are details that escape me.
A tower clock is a precision mechanism primarily composed of gears, actuators and cams. To maintain its accuracy and functionality, it requires proper maintenance and regular repairs to ensure that these historical treasures are preserved in their proper condition. This is precisely what has not happened with the 1863 clock located in the Church of Cuevas de San Marcos (Málaga), made by the clockmaker of the Bilbao City Council. After a breakdown of unknown origin, it was left forgotten and inoperable, with the mechanical striking system replaced by a configurable digital one. It is worth noting that the clock mechanism was never connected to the clock face; when it was working, it only chimed the bells. The clock requires expert hands to analyze and assess the damage to the mechanism, as well as determine why it stopped working. With this in mind, my task here was to virtually recreate the clock mechanism using 3D software. To achieve this, the clock was visited repeatedly to take photographs and measurements of all its components, which were then recreated digitally. Taking photographs and measurements of some parts required touching the clock, but this was done as few times as possible. Similarly, the work was not limited to measuring and virtually recreating the clock, but also involved analyzing and studying how each piece functions and its role within the complete system to produce the clock's complex operation. The virtual model will allow for a visual understanding of the workings and details of this type of mechanical clock, thus contributing to the dissemination of local historical heritage. One clear conclusion drawn from the study of this mechanism was that rust and wear, as well as numerous loose parts and inaccuracies in various components, are significant factors in why the clock is not working. It is difficult to determine the specific reason, if any, why the clock is not working without the assistance of a professional. Well, although I've spent many hours researching clocks and visiting the clock tower, I'm not a watch expert and there are details that escape me.
Description
Bibliographic citation
Collections
Endorsement
Review
Supplemented By
Referenced by
Creative Commons license
Except where otherwised noted, this item's license is described as Attribution-NonCommercial-NoDerivatives 4.0 International