METHOD FOR MEASURING AND CONTROLLING IN REAL TIME THE MANUFACTURING GEOMETRY OF CYLINDRICAL ELECTRIC INSULATORS FOR HIGH-POWER ELECTRIC TRANSFORMERS

METHOD FOR MEASURING AND CONTROLLING IN REAL TIME THE MANUFACTURING GEOMETRY OF CYLINDRICAL ELECTRIC INSULATORS FOR HIGH-POWER ELECTRIC TRANSFORMERS

The invention refers to a contact-less measurement method using electronic vision and laser pointers, as well as the optic perspective principle or the perspective effect for establishing the object depth within an image or for deducing the distance from a two-dimensional image, which allows the man...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: ENRIQUE BETANCOURT RAMIREZ, RODRIGO LOPEZ SANSALVADOR, ROGELIO FABIAN ESPINOSA GARCIA, JOAQUIN LEOBARDO PACHECO TORRES, ALFONSO MARIO DELGADO CRUZ, ROSA ELVIRA MONTORO BALDERAS, DIEGO GUZMAN FLORES GARCIA
Format: Patent
Sprache:eng ; spa
Schlagworte:
DETECTING MASSES OR OBJECTS
GEOPHYSICS
GRAVITATIONAL MEASUREMENTS
MEASURING
PHYSICS
TESTING
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Beschreibung
Zusammenfassung:The invention refers to a contact-less measurement method using electronic vision and laser pointers, as well as the optic perspective principle or the perspective effect for establishing the object depth within an image or for deducing the distance from a two-dimensional image, which allows the manufacture of spaces between coils of power transformers to be measured and controlled. Basically, the measurement method of the present invention refers to the graphic representation of the perspective effect. The claimed method is not only useful for measuring insulators of electric transformers. In general terms, the invention is useful for measuring three-dimensional surfaces, in a contact-less manner, i.e., this method and automated system being useful for a 3-D survey and for controlling the geometry of a 3-D object by an automated comparison against acceptable geometry limits previously preset, also establishing an automated record of the control of the 3-D object geometry, which was m easured in a contact-less manner and only by means of analysing the digital images of the object taken while the images of a plurality of laser pointers of a known 2-D location are reflected over said object. La invención se refiere a un método de medición sin contacto, utilizando visión electrónica y apuntadores láser, y empleando el principio de la perspectiva óptica o el efecto de perspectiva para poder establecer profundidades de objetos dentro de una imagen y para deducir la distancia de alejamiento a partir de una imagen bidimensional el cual permite medir y controlar la fabricación de espacios entre bobinas de transformadores de potencia. Básicamente el método de medición empleado es el de la interpretación gráfica del efecto de perspectiva. El método reclamado no sólo sirve para medir aislamientos de transformadores eléctricos. En general sirve para medir superficies tridimensionales, sin contacto Es decir, este método y sistema automatizado sirven para hacer un levantamiento e incluso para el control de la geometría de un objeto tridimensional, por comparación automatizada contra límites de geometría aceptable preestablecidos e incluso establecer un registro automatizado del control de la geometría de un objeto tridimensional medido sin contacto con el mismo y solo por medio de análisis de imágenes digitales del objeto capturadas mientras se reflejan sobre él mismo las imágenes de una serie de apuntadores láser de ubicación bidimensional conocida.