Desarrollo de aplicativo 3D compatible con AutoCAD para la optimización de sistemas de protección contra descargas atmosféricas
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Date
2024
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Institución Universitaria Pascual Bravo
Abstract
Este aplicativo será basado en la norma NTC 4552-1 2022 y NTC 4552-2 2023 aplicando el modelo electrogeométrico que consiste en hacer rodar una esfera imaginaria sobre elementos captores tales como puntas captadoras o cables de guarda para que esta no toque la estructura que se desea proteger contra las descargas atmosféricas con el objetivo de garantizar la seguridad de las personas y equipos.
Generalmente la realización del diseño de sistemas de protección contra descargas atmosféricas en compañías consultoras de ingeniería se basa en la ejecución de un planimétrico que se genera de forma manual en AutoCAD, inicialmente en dos dimensiones, generando muchas secciones de dibujo lo cual resulta muy engorroso, debido a esto surge la necesidad de realizarlo en tres dimensiones. Sin embargo, no deja de ser manual, donde cualquier cambio significa muchas horas hombre, por consiguiente, se busca desarrollar un aplicativo que sea compatible con AutoCAD, que tenga la capacidad de realizar este entregable de forma automática buscando reducir el margen de error y que en el momento de generarse algún cambio sea más dinámico la realización del mismo.
Abstrac This application will be based on the NTC 4552-1 2022 and NTC 4552-2 2023 standards, applying the electrogeometric model which consists of rolling an imaginary sphere over capturing elements such as lightning rod or guard cables so that it does not touch the structure intended to be protected against atmospheric discharges with the aim of guaranteeing the safety of people and equipment. Generally, the design of lightning protection systems in engineering consulting companies is based on the execution of a planimetric drawing generated manually in AutoCAD, initially in two dimensions, generating many drawing sections which is very complicated. Due to this, there arises the need to carry it out in three dimensions. However, it remains manual, where any change means many man-hours, therefore, the aim is to develop an application that is compatible with AutoCAD, capable of automatically generating this deliverable in order to reduce the margin of error and make it more dynamic when changes occur
Abstrac This application will be based on the NTC 4552-1 2022 and NTC 4552-2 2023 standards, applying the electrogeometric model which consists of rolling an imaginary sphere over capturing elements such as lightning rod or guard cables so that it does not touch the structure intended to be protected against atmospheric discharges with the aim of guaranteeing the safety of people and equipment. Generally, the design of lightning protection systems in engineering consulting companies is based on the execution of a planimetric drawing generated manually in AutoCAD, initially in two dimensions, generating many drawing sections which is very complicated. Due to this, there arises the need to carry it out in three dimensions. However, it remains manual, where any change means many man-hours, therefore, the aim is to develop an application that is compatible with AutoCAD, capable of automatically generating this deliverable in order to reduce the margin of error and make it more dynamic when changes occur