WO2020209709A2 - Construction system based on multi-interconnection building stones - Google Patents

Construction system based on multi-interconnection building stones Download PDF

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Publication number
WO2020209709A2
WO2020209709A2 PCT/MX2020/000013 MX2020000013W WO2020209709A2 WO 2020209709 A2 WO2020209709 A2 WO 2020209709A2 MX 2020000013 W MX2020000013 W MX 2020000013W WO 2020209709 A2 WO2020209709 A2 WO 2020209709A2
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parallel
plane
segment
original plane
planes
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PCT/MX2020/000013
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Spanish (es)
French (fr)
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WO2020209709A3 (en
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Jorge Capistran Fernandez
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Jorge Capistran Fernandez
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs

Definitions

  • thermo-acoustic ashlars that make up the system is appreciated
  • the part also has a plate of insulating material (1.1.20), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (1.1.20.1) parallel to the plane original (1.1) joined to segment (1.1.20.4) also parallel to the original plane (1.1) by means of the arc (1.1.20.2) and the line (1.1.20.3) perpendicular to the original plane (1.1); this in turn joins the segment (1.1.20.7) parallel to the original plane (1.1) by means of the perpendicular line (1.1.20.5) and the arc (1.1.20.6) that in turn joins the segment (1.1.20.10 ) parallel to the original plane (1.1) through the arc (1.1.20.8) and the line (1.1.20.9) perpendicular to the original plane
  • CENTRAL ACOUSTIC THERMO SADDLE (Part No. 2.2) (Fig. No. 16), (Double Omega or Double Spike configuration) an ashlar that has a rectangular base (2.2.1) from which two flanges or spikes emerge in the form of the letter Omega, the (2.2.11) and the (2.2.27) that emerge on two lateral planes (2.2.2), (2.2.36) as a base of two planes parallel to (2.2.11), which are (2.2.5), (2.2.19), (2.2.33), joined by the inclined planes (2.2.4), (2.2.18), ( 2.2.20), (2.2.34) to join in turn with the planes parallel to (2.2.1) which are (2.2.5), (2.2.17), (2.2.21), (2.2.33 ) and with the arcs (2.2.6), (2.2.16), (2.2.22), (2.2.32) to the diagonals (2.2.7), (2.2.15), (2.2.23), ( 2.2.31), to the arcs (2.2.8), (2.2.14), (2.2
  • CORNER SADDLE (Piece No.4) (Fig.No.31), (one and a half tenon ashlar with a tenon attached to the end of the half tenon turned orthogonally or in the configuration of One Omega and a Half with an Omega attached to the half Omega turned orthogonally) an ashlar that has a rectangular base (4.1) from which two ridges or spikes emerge, one in the shape of the letter Omega, the (4.11) and the other in the shape of a half Omega, the (4.27) that emerge at one end on a lateral plane 4.2, as the basis of two planes parallel to (4.1), which are (4.3), (4.19), joined by the inclined planes (4.4, 4.18), ( 4.20), to join in turn with the planes parallel to (4.1) which are (4.5), (4.17), (4.21) and to the arcs (4.6), (4.16), (4.22), which join the diagonals (4.7), (4.15), (4.23), to the arcs (4.8), (4.14), (3

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Floor Finish (AREA)
  • Lining And Supports For Tunnels (AREA)

Abstract

Construction system based on multi-interconnection building stones coupled to one another for the construction of walls and models, which does not require mixes or binders for the laying of the building stones and which offers geometric design features that improve the structural performance thereof. The building stones can be made from different materials and the dimensions of the stones can be varied to suit requirements. The basic part is the tenon building stone having an omega-shaped edge or tenon comprising multiple inclined planes which prevent lateral slip and which are joined at the base thereof, forming cavities, said tenons and cavities being coupled to one another and forming a system in an individual or combined manner. Construction begins with the laying of parts that are smaller in height and parts that are taller in height on the opposite face and, subsequently, only taller parts are assembled vertically on both sides of the plane until the desired height is reached, with smaller parts being used to level and finish off the assembly. In the case of walls, rod-reinforced concrete pillars are installed, as well as additional elements such as ledges and steps.

Description

SISTEMA CONSTRUCTIVO A BASE DE SILLARES DE INTERCONEXION MULTIPLE: CONSTRUCTION SYSTEM BASED ON MULTIPLE INTERCONNECTION SEATS:
DESCRIPCIÓN: DESCRIPTION:
CAMPO TECNICO PARA SU APLICACIÓN: TECHNICAL FIELD FOR ITS APPLICATION:
Sistema constructivo a base de Sillares que se ensamblan entre sl para utilizarse en la construcción de superficies planas como son“Muros de todo género, de carga, divisorios, decorativos, de contención, para puentes, terracerías, gaviones, diques, obras marítimas, ataguías, tablestacados” y no requiere de mezcla o aglutinante para su colocación; además se incluyen al presente sistema diversos elementos adicionales que estamos innovando y que se integran al mismo como son: sillares que incluyen en su cuerpo una capa de material aislante, escalones y repisas; Constructive system based on ashlars that are assembled together to be used in the construction of flat surfaces such as "Walls of all kinds, load-bearing, dividing, decorative, containment, for bridges, dirt roads, gabions, dikes, maritime works, cofferdams , sheet piling ”and does not require a mixture or binder for its placement; In addition, the present system includes various additional elements that we are innovating and that are integrated into it, such as: ashlars that include a layer of insulating material, steps and shelves in their body;
ANTECEDENTES: BACKGROUND:
En la presente redacción, haremos cita como antecedente y para tomar como referencia, la patente que obtuvimos con el numero IMPI/1973 expedida el 11 de marzo de 2009, que obra bajo nuestro nombre, pero que observando en la praxis que existe un deslizamiento natural de los sillares enunciados en dicha patente y que se manifiesta al terminar la colocación de los mismos pues da como resultado el desplome en el sentido lineal de los extremos de los tableros construidos y que para evitar este deslizamiento y en el espíritu de mejoramiento e innovación de lo establecido, hemos diseñado mediante análisis del comportamiento físico, la geometría de los sillares para mejorar su comportamiento estructural y dar óptimos resultados al sistema constructivo así como mejorar la resistencia al efecto sísmico del mismo, por lo cual se pretende proteger dicho nuevo diseño por medio de la presente solicitud, pues se trata de agregar unos planos geométricos al diseño original que mejoran las condiciones estructurales de la patente anterior con cabios sustanciales obteniendo como resultado un sistema más sólido, resistente y estable; así mismo estamos incrementando la función de los sillares con la innovación de incluir una capa de material aislante en el diseño de los mismos, con el fin de obtener mejores resultados de las propiedades aislantes tanto térmicas como acústicas; de esta manera tendremos la alternativa de utilizar en el sistema dos modalidades, con sillares simples o compuestos donde se utilizan los nuevos modelos termo acústicos; también estamos innovando nuevos elementos que se ¡ntegran al sistema como son escalones y repisas; In this drafting, we will cite as a background and to take as a reference, the patent that we obtained with the number IMPI / 1973 issued on March 11, 2009, which works under our name, but observing in practice that there is a natural slip of the ashlars enunciated in said patent and which is manifested at the end of the placement of the same as it results in the collapse in the linear sense of the ends of the built boards and that to avoid this slip and in the spirit of improvement and innovation of As established, we have designed through analysis of the physical behavior, the geometry of the ashlars to improve their structural behavior and give optimal results to the construction system as well as improve its resistance to the seismic effect of the same, for which it is intended to protect said new design through of the present application, since it is about adding geometric planes to the original design that improve the conditions and Structural of the previous patent with substantial rafters obtaining as a result a more solid, resistant and stable system; Likewise, we are increasing the function of ashlars with the innovation of including a layer of insulating material in their design, in order to obtain better results of both thermal and acoustic insulating properties; in this way we will have the alternative of using two modalities in the system, with simple or composite blocks where the new thermo-acoustic models are used; we are also innovating new elements that are They integrate into the system such as steps and shelves;
BREVE DESCRIPCIÓN DE LAS FIGURAS: BRIEF DESCRIPTION OF THE FIGURES:
-Figura N°1 representa un dibujo en planta del SILLAR DE UNA ESPIGA que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 1 1 de marzo de 2009; -Figure N ° 1 represents a plan drawing of the SADDLE OF A SPIKE that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°2 representa un dibujo en planta del SILLAR DE UNA ESPIGA que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 2 represents a plan drawing of the SADDLE OF A SPIKE that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the spike. system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°3 representa un dibujo en planta del SILLAR TERMOACUSTICO DE UNA ESPIGA que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; Figura N°4 representa un dibujo en isométrico del SILLAR DE UNA ESPIGA que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 3 represents a plan drawing of the THERMOACUSTIC SADDLE OF A SPIKE that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and which also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; Figure N ° 4 represents an isometric drawing of the SADDLE OF A SPIKE that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°5 representa un dibujo en isométrico del SILLAR DE UNA ESPIGA que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 5 represents an isometric drawing of the SADDLE OF A SPIKE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the spike. system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°6 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO DE UNA ESPIGA que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°7 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR DE UNA ESPIGA; que corresponde al diseño actual, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 6 represents an isometric drawing of the THERMO-ACOUSTIC SADDLE OF A SPIKE that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 7 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the SILLAR DE UNA ESPIGA; which corresponds to the current design, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improves the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°8 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO DE UNA ESPIGA; que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 8 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the THERMO ACOUSTIC SADDLE OF A SPIGE; which corresponds to the current design, where variations in the spike are appreciated by modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better locking between the ashlars and which also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°9 representa un dibujo en planta del SILLAR CENTRAL que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 9 represents a plan drawing of the CENTRAL SADDLE that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°10 representa un dibujo en planta del SILLAR CENTRAL que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 10 represents a plan drawing of the CENTRAL SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°11 representa un dibujo en planta del SILLAR TERMOACUSTICO CENTRAL que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; Figura N°12 representa un dibujo en isométrico del SILLAR CENTRAL que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figura N°13 representa un dibujo en isométrico del SILLAR CENTRAL que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 11 represents a plan drawing of the CENTRAL THERMOACUSTIC SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system , as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; Figure N ° 12 represents an isometric drawing of the CENTRAL SADDLE that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009; -Figure N ° 13 represents an isometric drawing of the CENTRAL SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°14 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO CENTRAL que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°15 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR CENTRAL, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 14 represents an isometric drawing of the CENTRAL ACOUSTIC THERMAL SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 15 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the CENTRAL SADDLE, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°16 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO CENTRAL, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 16 represents an isometric drawing with the designation of the lines of the upper and lower vertical and horizontal planes of the CENTRAL ACOUSTIC THERMAL SADDLE, which corresponds to the current design, where variations in the spike can be seen modifying the geometry of the heart of the spike to be circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to improve substantially its thermo-acoustic properties;
-Figura N°17 representa un dibujo en planta del SILLAR DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 17 represents a plan drawing of the SADDLE WITH HALF AND HALF OR LONG ADJUSTMENT that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°18 representa un dibujo en planta del SILLAR DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 18 represents a plan drawing of the SEAT AND HALF AND LONG ADJUSTMENT that corresponds to the current design, where variations are appreciated in the spike by modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°19 representa un dibujo en planta del SILLAR TERMOACUSTICO DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 19 represents a plan drawing of the THERMOACUSTIC SADDLE WITH A HALF AND A HALF OR LONG ADJUSTMENT corresponding to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that they substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°20 representa un dibujo en isométrico del SILLAR DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 20 represents an isometric drawing of the SADDLE WITH HALF AND HALF OR LONG ADJUSTMENT that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°21 representa un dibujo en isométrico del SILLAR DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 21 represents an isometric drawing of the SADDLE WITH A HALF AND LONG ADJUSTMENT that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that improves substantially the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°22 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO DE ESPIGA Y MEDIA O AJUSTE LARGO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 22 represents an isometric drawing of the THERMO ACOUSTIC SADDLE WITH A HALF AND HALF OR LONG ADJUSTMENT that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°23 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR DE ESPIGA Y MEDIA, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 23 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the SPIKE AND MIDDLE SADDLE, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart spike from being circular, to a trapezoidal shape that substantially improve the properties of the system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°24 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO DE ESPIGA Y MEDIA O AJUSTE LARGO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 24 represents an isometric drawing with the designation of the lines of the upper and lower vertical and horizontal planes of the THERMO ACOUSTIC SADDLE WITH SPIKE AND MEDIUM OR LONG ADJUSTMENT, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improves the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes an embedded insulating material layer in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°25 representa un dibujo en planta del SILLAR ESQUINERO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 25 represents a plan drawing of the CORNER SADDLE that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°26 representa un dibujo en planta del SILLAR ESQUINERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 26 represents a plan drawing of the CORNER SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°27 representa un dibujo en planta del SILLAR TERMOACUSTICO ESQUINERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°28 representa un dibujo en isométrico del SILLAR ESQUINERO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 27 represents a plan drawing of the CORNER THERMOACUSTIC SADDLE that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system , as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 28 represents an isometric drawing of the CORNER SADDLE that corresponds to our previous design already cited in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°29 representa un dibujo en isométrico del SILLAR ESQUINERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 29 represents an isometric drawing of the CORNER SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°30 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO ESQUINERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°31 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR ESQUINERO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 30 represents an isometric drawing of the THERMO ACOUSTIC CORNER SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 31 represents an isometric drawing with the designation of the lines of the upper and lower vertical and horizontal planes of the CORNER SADDLE, which corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°32 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO ESQUINERO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 32 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the CORNER ACOUSTIC THERMAL SADDLE, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike to be circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to improve substantially its thermo-acoustic properties;
-Figura N°33 representa un dibujo en planta del SILLAR CRUCERO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 33 represents a plan drawing of the CRUISE CHAIR that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°34 representa un dibujo en planta del SILLAR CRUCERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figura N°35 representa un dibujo en planta del SILLAR TERMOACUSTICO CRUCERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°36 representa un dibujo en isométrico del SILLAR CRUCERO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 1 1 de marzo de 2009; -Figure N ° 34 represents a plan drawing of the CRUISE SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks; -Figure N ° 35 represents a plan drawing of the THERMOACUSTIC CRUISE SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system , as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 36 represents an isometric drawing of the CRUISE SADDLE that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°37 representa un dibujo en isométrico del SILLAR CRUCERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 37 represents an isometric drawing of the CRUISE SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°38 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO CRUCERO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figura N°39 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR CRUCERO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 38 represents an isometric drawing of the THERMO ACOUSTIC CRUISE SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties; -Figure N ° 39 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the CRUISE SILLAR, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°40 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO CRUCERO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 40 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the THERMO ACOUSTIC CRUISE SILLAR, which corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike of being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo properties. acoustics;
-Figura N°41 representa un dibujo en planta del SILLAR DE MEDIA ESPIGA O AJUSTE CORTO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 41 represents a plan drawing of the HALF SPIGOT OR SHORT ADJUSTMENT SADDLE that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°42 representa un dibujo en planta del SILLAR DE MEDIA ESPIGA O AJUSTE CORTO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 42 represents a plan drawing of the HALF-SPIKE OR SHORT FIT SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improves the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°43 representa un dibujo en planta del SILLAR TERMOACUSTICO DE MEDIA ESPIGA O AJUSTE CORTO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 43 represents a plan drawing of the THERMOACUSTIC SADDLE OF HALF SPIKE OR SHORT FIT corresponding to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that improves substantially the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and which also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°44 representa un dibujo en isométrico del SILLAR DE MEDIA ESPIGA O AJUSTE CORTO que corresponde a nuestro diseño anterior ya citado en la patente IMPI/1973 otorgado el 11 de marzo de 2009; -Figure N ° 44 represents an isometric drawing of the HALF SPIGOT OR SHORT FIT SADDLE that corresponds to our previous design already mentioned in the IMPI / 1973 patent granted on March 11, 2009;
-Figura N°45 representa un dibujo en isométrico del SILLAR DE MEDIA ESPIGA O AJUSTE CORTO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 45 represents an isometric drawing of the HALF SPIKE OR SHORT ADJUSTMENT SADDLE that corresponds to the current design, where variations in the spike are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improves the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°46 representa un dibujo en isométrico del SILLAR TERMO ACÚSTICO DE MEDIA ESPIGA O AJUSTE CORTO que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 46 represents an isometric drawing of the THERMO ACOUSTIC SADDLE OF HALF SPIGOT OR SHORT ADJUSTMENT that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo acoustic properties;
-Figura N°47 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR DE MEDIA ESPIGA O AJUSTE CORTO, que corresponde al diseño actual, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 47 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the HALF-SPIKE OR SHORT ADJUSTMENT SADDLE, which corresponds to the current design, modifying the geometry of the heart of the spike to be circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°48 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR TERMO ACÚSTICO DE MEDIA ESPIGA O AJUSTE CORTO, que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 48 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the THERMO ACOUSTIC HALF-SPIKE OR SHORT ADJUSTMENT SADDLE, which corresponds to the current design, where variations in the spike are appreciated by modifying the geometry of the heart of the spike to be circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars and that also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°49 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR REPISA, que corresponde al diseño actual, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 49 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the SILLAR REPISA, which corresponds to the current design, modifying the geometry of the heart of the spike from being circular, to a shape trapezoidal that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°50 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR REPISA, que corresponde al diseño actual, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 50 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the SILLAR REPISA, which corresponds to the current design, modifying the geometry of the heart of the spike from being circular, to a shape trapezoidal that substantially improve the properties of the system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°51 representa un dibujo en isométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR ESCALON, que corresponde al diseño actual, donde se aprecian las espigas, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 51 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the STEP CHAIR, which corresponds to the current design, where the spikes are appreciated, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system as well as modifications in the lateral geometric planes to give a better interlocking between the blocks ;
-Figura N°52 representa un dibujo en ¡sométrico con la nominación de las líneas de los planos verticales y horizontales superior e inferior del SILLAR ESCALON, que corresponde al diseño actual, donde se aprecian las espigas, modificando la geometría del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares; -Figure N ° 52 represents an isometric drawing with the naming of the lines of the upper and lower vertical and horizontal planes of the STEP SADDLE, which corresponds to the current design, where the spikes are seen, modifying the geometry of the heart of the spike from being circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the blocks;
-Figura N°53 representa la forma de desplante del muro y los diferentes sillares para su armado todo visto en planta, esta solo es una proposición del armado, toda vez que este se puede armar de varias formas dependiendo su objetivo y las necesidades propias de cada proyecto y que corresponde al diseño actual, donde se aprecian las espigas, laterales y barreno central modificadas para dar mejor trabado entre los sillares; -Figure N ° 53 represents the shape of the wall and the different ashlars for its assembly, all seen in plan, this is only a proposal of the assembly, since it can be assembled in various ways depending on its objective and the needs of the each project and that corresponds to the current design, where the spikes, sides and central hole modified to give a better interlocking between the ashlars are appreciated;
-Figura N°54 representa la forma de desplante del muro y los diferentes sillares para su armado todo visto en perspectiva, esta solo es una proposición del armado, toda vez que este se puede armar de varias formas dependiendo su objetivo y las necesidades propias de cada proyecto y que corresponde al diseño actual, donde se aprecian las espigas, laterales y barreno central modificadas para dar mejor trabado entre los sillares; -Figure N ° 54 represents the shape of the wall and the different ashlars for its assembly, all seen in perspective, this is only a proposal of the assembly, since it can be assembled in various ways depending on its objective and the needs of the each project and that corresponds to the current design, where the spikes, sides and central hole modified to give a better interlocking between the ashlars are appreciated;
-Figura N°55 representa la forma de armar el muro de manera tradicional con una ventana incluida, vista en perspectiva y que corresponde al diseño actual, donde se aprecian las espigas, laterales y barreno central modificadas para dar mejor trabado entre los sillares; -Figure N ° 55 represents the way of assembling the wall in a traditional way with an included window, seen in perspective and corresponding to the current design, where the spikes, sides and central hole are seen modified to give a better interlocking between the blocks;
-Figura N°56 representa la forma de armar el muro de manera tradicional con una ventana incluida, vista en perspectiva y que corresponde al diseño actual, donde se aprecian las espigas, laterales y barreno central modificadas para dar mejor trabado entre los sillares; -Figure N ° 56 represents the way of assembling the wall in a traditional way with a window included, seen in perspective and corresponding to the current design, where the spikes, sides and central hole modified to give a better interlocking between the ashlars are appreciated;
-Figura N°57 representa la forma de armar un muro en forma tradicional donde se aprecia el ensamble del escalón y la repisa reforzados con varillas para dar un mejor refuerzo estructural. -Figure N ° 57 represents the way of assembling a wall in a traditional way where the assembly of the step and the ledge reinforced with rods can be seen to give a better structural reinforcement.
-Figura N°58 representa la forma de armar el muro de manera tradicional vista en perspectiva y que corresponde al diseño anterior según la patente que obtuvimos con el numero IMPI/1973 expedida el 11 de marzo de 2009, que obra bajo nuestro nombre donde se aprecian las espigas y laterales sin hendiduras indicando que en la práctica existe un desplazamiento entre las piezas y se aprecia también el barreno cilindrico que atraviesa las piezas situación que dio motivo al nevo diseño de la presente invención. -Figure N ° 58 represents the way to assemble the wall in a traditional way seen in perspective and that corresponds to the previous design according to the patent that we obtained with the number IMPI / 1973 issued on March 11, 2009, which works under our name where the spikes and sides without cracks are appreciated indicating that in practice there is a displacement between the pieces and the cylindrical hole that crosses the pieces is also appreciated, the situation that gave rise to the new design of the present invention.
-Figura N°59 representa la forma de ensamblar las piezas correspondientes al Sillar Central vista en perspectiva y que corresponde al diseño actual donde se aprecian las espigas, laterales y barreno central modificadas para dar mejor trabado entre los sillares evitando el deslizamiento; -Figure N ° 59 represents the way of assembling the pieces corresponding to the Central Ashlar seen in perspective and that corresponds to the current design where the spikes, sides and central bore are appreciated modified to give a better interlocking between the ashlars avoiding slipping;
-Figura N°60 representa la forma de ensamblar las piezas correspondientes al Sillar Central vista en perspectiva y que corresponde al diseño actual, donde se aprecian variaciones en la espiga modificando la geometría de los laterales donde se ve la modificación geométrica para impedir el deslizamiento de las piezas y del corazón de la espiga de ser circular, a una forma trapezoidal que mejoran sustancialmente las propiedades del sistema, así como modificaciones en los planos geométricos laterales para dar un mejor trabado entre los sillares evitando el deslizamiento que presentaban el diseño anterior y que además incluye una capa de material aislante incrustada en la pieza maciza para mejorar sustancialmente sus propiedades termo acústicas; -Figure N ° 60 represents the way of assembling the pieces corresponding to the Central Chair seen in perspective and that corresponds to the current design, where variations in the spike are appreciated modifying the geometry of the sides where the geometric modification is seen to prevent the slippage of the pieces and the heart of the spike to be circular, to a trapezoidal shape that substantially improve the properties of the system, as well as modifications in the lateral geometric planes to give a better interlocking between the ashlars avoiding the slipping that the previous design presented and that it also includes a layer of insulating material embedded in the solid piece to substantially improve its thermo-acoustic properties;
-Figura N°61 representa la forma de las piezas vistas en perspectiva y que corresponden al diseño actual donde se aprecia la modalidad de los sillares termo acústicos que componen el sistema; -Figure N ° 61 represents the shape of the pieces seen in perspective and that correspond to the current design where the modality of the thermo-acoustic ashlars that make up the system is appreciated;
-Figura N°62 representa la forma de ensamblar las piezas correspondientes al al diseño actual, donde se aprecia un ejemplo del desplante del sistema utilizando todas las piezas, tanto simples como termo acústicas; -Figure N ° 62 represents the way of assembling the pieces corresponding to the current design, where an example of the rudeness of the system is appreciated using all the pieces, both simple and thermo-acoustic;
DESCRIPCIÓN DETALLADA DE LA INVENCIÓN: DETAILED DESCRIPTION OF THE INVENTION:
Estereotomía de las piezas: Stereotomy of the pieces:
Sistema constructivo a base de Sillares que se ensamblan entre sí para utilizarse en la construcción de superficies planas como son“Muros de todo género, de carga, divisorios, decorativos, de contención, para puentes, tercerías, gaviones, diques, obras marítimas, ataguías, tablestacados” o similares; además se incluyen al presente sistema diversos elementos adicionales que estamos innovando y que se integran al mismo como son: sillares que incluyen en su cuerpo una capa de material aislante, escalones y repisas; este sistema esta compuesto por los elementos que se describen a continuación: Constructive system based on ashlars that are assembled together to be used in the construction of flat surfaces such as "Walls of all kinds, load-bearing, dividing, decorative, containment, for bridges, third-party, gabions, dikes, maritime works, cofferdams , sheet piling ”or the like; In addition, various additional elements that we are innovating are included in the present system. they integrate to the same as they are: ashlars that include in their body a layer of insulating material, steps and shelves; This system is composed of the elements described below:
SILLAR DE UNA ESPIGA (Pieza No.1) (Fig.No.7), (de configuración Omega) un sillar que tiene una base rectangular (1.1) de la cual se desprende un reborde o espiga en forma de la letra Omega, (1.11) y se desprende sobre dos planos laterales (1.2), (1.20), y tomando como base dos planos paralelos al (1.1), que son (1.3) y (1.19), unidos por los planos inclinados (1.4), (1.18) para unirse a su vez con los planos paralelos al (1.1) que son el (1.5), (1.17) y a los arcos (1.6), (1.16), las diagonales (1.7), (1.15), los arcos (1.8), (91), (14) siguiendo con los planos paralelos al (1.1) que son (1.9), (1.13), y finalmente los planos inclinados (1.10), (1.12), que completan el desprendimiento (1.11) del plano original (1.1), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (1.18) y otro inferior (1.19), que contienen un barreno (1.17), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (1.17.1) es paralelo en primer término al plano original (1.1 ) y está unido al segmento mayor también paralelo al plano original (1.1) y es el segmento (1.17.5) unido mediante los arcos (1.17.2), (1.17.8), las diagonales (1.17.3), (1.17.7) y los arcos (1.17.4) y (1.17.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SADDLE WITH A SPIKE (Piece No.1) (Fig.No.7), (of Omega configuration) an ashlar that has a rectangular base (1.1) from which a flange or spike in the shape of the letter Omega emerges, ( 1.11) and it appears on two lateral planes (1.2), (1.20), and taking as a basis two planes parallel to (1.1), which are (1.3) and (1.19), joined by the inclined planes (1.4), (1.18 ) to join in turn with the planes parallel to (1.1) which are (1.5), (1.17) and to the arcs (1.6), (1.16), the diagonals (1.7), (1.15), the arcs (1.8) , (91), (14) following the planes parallel to (1.1) which are (1.9), (1.13), and finally the inclined planes (1.10), (1.12), which complete the detachment (1.11) of the original plane (1.1), this configuration being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (1.18) and a lower one (1.19), which contain a hole (1.17), arranged in the central part of the omega-shaped rim and is configured by a figur a trapezoidal whose minor segment (1.17.1) is parallel in the first term to the original plane (1.1) and is joined to the major segment also parallel to the original plane (1.1) and is the segment (1.17.5) joined by the arcs (1.17 .2), (1.17.8), the diagonals (1.17.3), (1.17.7) and the arcs (1.17.4) and (1.17.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
SILLAR TERMOACUSTICO DE UNA ESPIGA (Pieza N°.1.1) (Fig.N°.8), (de configuración Omega) un sillar que tiene una base rectangular (1.1) de la cual se desprende un reborde o espiga en forma de la letra Omega, (1.11) y se desprende sobre dos planos laterales (1.2), (1.1.20), y tomando como base dos planos paralelos al (1.1), que son (1.3) y (1.19), unidos por los planos inclinados (1.4), (1.18) para unirse a su vez con los planos paralelos al (1.1) que son el (1.5), (1.17) y a los arcos (1.6), (1.16), las diagonales (1.7), (1.15), los arcos (1.8), (1.14) siguiendo con los planos paralelos al (1.1) que son (1.9), (1.13), y finalmente los planos inclinados (1.10), (1.12), que completan el desprendimiento (1.11) del plano original (1.1), esta configuración al ser tridimensional se complementa por dos planos paralelos horizontales iguales, uno superior (1.18) y otro inferior (1.19), que contienen un barreno (1.17), dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad y está formado por una figura trapezoidal cuyo segmento menor (1.17.1) es paralelo en primer término al plano original (1.1) y está unido al segmento mayor también paralelo al plano originalTHERMOACUSTIC SADDLE WITH A SPIKE (Part No. 1.1) (Fig. No. 8), (Omega configuration) an ashlar that has a rectangular base (1.1) from which a flange or spike in the shape of the letter emerges Omega, (1.11) and is detached on two lateral planes (1.2), (1.1.20), and taking as a basis two planes parallel to (1.1), which are (1.3) and (1.19), joined by the inclined planes ( 1.4), (1.18) to join in turn with the planes parallel to (1.1) which are (1.5), (1.17) and to the arcs (1.6), (1.16), the diagonals (1.7), (1.15), the arcs (1.8), (1.14) following the planes parallel to (1.1) which are (1.9), (1.13), and finally the inclined planes (1.10), (1.12), which complete the detachment (1.11) of the plane original (1.1), this configuration being three-dimensional is complemented by two equal horizontal parallel planes, an upper one (1.18) and a lower one (1.19), which contain a hole (1.17), arranged in the central part of the flange in the form of a omega and that crosses the thickness of the piece in its entirety and is formed by a trapezoidal figure whose minor segment (1.17.1) is parallel in the foreground to the original plane (1.1) and is joined to the major segment also parallel to the original plane
(1.1) y es el segmento (1.17.5) unido mediante los arcos (1.17.2), (1.17.8), las diagonales (1.17.3), (1.17.7) y los arcos (1.17.4) y (1.17.6); además del barreno descrito la pieza presenta también una placa de material aislante (1.1.20), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (1.1.20.1) paralelo al plano original (1.1) unido al segmento (1.1.20.4) también paralelo al plano original (1.1) mediante el arco (1.1.20.2) y la recta (1.1.20.3) perpendicular al plano original (1.1); esta se une a su vez con el segmento (1.1.20.7) paralelo al plano original (1.1) mediante la recta perpendicular (1.1.20.5) y el arco (1.1.20.6) que a su ves se une al segmento (1.1.20.10) paralelo al plano original (1.1) mediante el arco (1.1.20.8) y la recta (1.1.20.9) perpendicular al plano original (1.1) y se continua uniendo al segmento (1.1.20.13) paralelo al plano original (1.1 ) mediante la recta (1.1.20.11) perpendicular al plano original (1.1) y el arco (1.1.20.12), continuando con la unión del segmento (1.1.20.16) mediante la recta (1.1.20.15) perpendicular al plano original (1.1 ) y el arco (1.1.20.14) para finalizar uniendo el segmento (1.1.20.19) mediante la recta (1.1.20.17) perpendicular al plano original (1.1 ) y el arco(1.1) and is the segment (1.17.5) joined by the arcs (1.17.2), (1.17.8), the diagonals (1.17.3), (1.17.7) and the arcs (1.17.4) and (1.17.6); in addition to the hole described, the part also has a plate of insulating material (1.1.20), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (1.1.20.1) parallel to the plane original (1.1) joined to segment (1.1.20.4) also parallel to the original plane (1.1) by means of the arc (1.1.20.2) and the line (1.1.20.3) perpendicular to the original plane (1.1); this in turn joins the segment (1.1.20.7) parallel to the original plane (1.1) by means of the perpendicular line (1.1.20.5) and the arc (1.1.20.6) that in turn joins the segment (1.1.20.10 ) parallel to the original plane (1.1) through the arc (1.1.20.8) and the line (1.1.20.9) perpendicular to the original plane (1.1) and continues to join the segment (1.1.20.13) parallel to the original plane (1.1) by the line (1.1.20.11) perpendicular to the original plane (1.1) and the arc (1.1.20.12), continuing with the union of the segment (1.1.20.16) through the line (1.1.20.15) perpendicular to the original plane (1.1) and the arc (1.1.20.14) to finish joining the segment (1.1.20.19) through the line (1.1.20.17) perpendicular to the original plane (1.1) and the arc
(1.1.20.18), con este último segmento se termina un lado de la placa aislante; el segundo plano de esta placa tiene un segmento (1.1.20.20) paralelo al plano original(1.1.20.18), with this last segment one side of the insulating plate is finished; the second plane of this plate has a segment (1.1.20.20) parallel to the original plane
(1.1) que se une con el segmento (1.1.20.23) también paralelo al plano original mediante la línea (1.1.20.21) perpendicular al plano original (1.1 ) y al arco(1.1) that joins the segment (1.1.20.23) also parallel to the original plane through the line (1.1.20.21) perpendicular to the original plane (1.1) and to the arc
(1.1.20.22), para continuar uniendo el segmento (1.1.20.26) paralelo al plano original(1.1.20.22), to continue joining the segment (1.1.20.26) parallel to the original plane
(1.1) mediante el arco (1.1.20.24) y la línea recta (1.1.20.25) que es perpendicular al plano original (1.1) para continuar uniendo al segmento (1.1.20.29) paralelo al plano original (1.1) y que se une mediante la recta (1.1.20.27) perpendicular al plano original (1.1) y el arco (1.1.20.28) para continuar uniendo al segmento (1.1.20.32) que es paralelo al plano original (1.1) mediante el arco (1.1.20.30) y la recta (1.1.20.31) perpendicular al plano original (1.1) para continuar uniendo al segmento (1.1.20.35) que es paralelo al plano original (1.1) mediante la recta (1.1.20.33) perpendicular al plano original (1.1) y el arco (1.1.20.34) para continuar uniendo por ultimo al segmento (1.1.20.38) que es paralelo al plano original (1.1), mediante el arco (1.1.20.36) y la recta (1.1.20.37) perpendicular al plano original (1.1) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. (1.1) by means of the arc (1.1.20.24) and the straight line (1.1.20.25) that is perpendicular to the original plane (1.1) to continue joining the segment (1.1.20.29) parallel to the original plane (1.1) and that joins through the line (1.1.20.27) perpendicular to the original plane (1.1) and the arc (1.1.20.28) to continue joining the segment (1.1.20.32) that is parallel to the original plane (1.1) through the arc (1.1.20.30) and the line (1.1.20.31) perpendicular to the original plane (1.1) to continue joining the segment (1.1.20.35) that is parallel to the original plane (1.1) through the line (1.1.20.33) perpendicular to the original plane (1.1) and the arc (1.1.20.34) to continue joining the segment (1.1.20.38) that is parallel to the original plane (1.1), through the arc (1.1.20.36) and the line (1.1.20.37) perpendicular to the original plane ( 1.1) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR CENTRAL (Pieza N.°2) (Fig. N°.15), (de configuración Doble Omega o Doble Espiga) un sillar que tiene una base rectangular (2.1) de la cual se desprenden dos rebordes o espigas en forma de la letra Omega, el (2.11) y el (2.27) que se desprenden sobre dos planos laterales (2.2), (2.36) como base de dos planos paralelos al (2.11 ), que son el (2.5), (2.19), (2.33), unidos por los planos inclinados (2.4), (2.18), (2.20) (2.34), para unirse a su vez con los planos paralelos al (2.1) que son el (2.5), (2.17), (2.21), (2.33) y con los arcos (2.6), (2.16), (2.22), (2.32) a las diagonales (2.7), (2.15), (2.23), (2.31), a los arcos (2.8), (2.14), (2.24), (2.30), siguiendo con los planos paralelos al (2.1 ) que son (2.9), (2.13), (2.25), (2.29), y finalmente los planos inclinados (2.10), (2.12), (2.26), (2.28) que completan los desprendimientos (2.11), (2.27) del plano original (2.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (2.39) y otro inferior (2.40), que contienen dos barrenos, el (2.37), (2.38), dispuestos en la parte central de cada reborde en forma de omega y están configurados por una figura trapezoidal que en el caso del barreno (2.37) presenta un segmento menor (2.37.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1 ) y es el segmento (2.37.6) unido mediante los arcos (2.37.2), (2.37.8), las diagonales (2.37.3), (2.37.7) y los arcos (2.37.4) y (2.37.6) dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; en el caso del barreno (2.38) presenta un segmento menor (2.38.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento 2.38.6 unido mediante los arcos (2.38.2), (2.38.8), las diagonales (2.38.3), (2.38.7) y los arcos (2.38.4) y (2.38.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; CENTRAL SADDLE (Piece No. 2) (Fig. No. 15), (Double Omega or Double Spike configuration) an ashlar that has a rectangular base (2.1) from which two ridges or spikes in the shape of the letter Omega, (2.11) and (2.27) that emerge on two lateral planes (2.2), (2.36) as the basis of two planes parallel to (2.11), which are (2.5), (2.19), (2.33 ), joined by the inclined planes (2.4), (2.18), (2.20) (2.34), to join in turn with the planes parallel to (2.1) which are (2.5), (2.17), (2.21), (2.33) and with the arcs (2.6), (2.16), (2.22), (2.32) to the diagonals (2.7), (2.15), (2.23), (2.31), to the arcs (2.8), (2.14 ), (2.24), (2.30), continuing with the planes parallel to (2.1) which are (2.9), (2.13), (2.25), (2.29), and finally the inclined planes (2.10), (2.12), (2.26), (2.28) that complete the detachments (2.11), (2.27) of the original plane (2.1) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes is, an upper one (2.39) and a lower one (2.40), which contain two holes, the (2.37), (2.38), arranged in the central part of each rim in the shape of an omega and are configured by a trapezoidal figure that in the The case of the hole (2.37) presents a minor segment (2.37.1) is parallel in the first term to the original plane (2.1) and is attached to the larger segment also parallel to the original plane (2.1) and is the segment (2.37.6) attached by means of the arcs (2.37.2), (2.37.8), the diagonals (2.37.3), (2.37.7) and the arcs (2.37.4) and (2.37.6) arranged in the central part of the two omega-shaped edges that go through the thickness of the piece in its entirety; in the case of the hole (2.38) it presents a minor segment (2.38.1) is parallel in the first term to the original plane (2.1) and is attached to the major segment also parallel to the original plane (2.1) and is the segment 2.38.6 attached by means of the arcs (2.38.2), (2.38.8), the diagonals (2.38.3), (2.38.7) and the arcs (2.38.4) and (2.38.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety;
SILLAR TERMO ACÚSTICO CENTRAL (Pieza N°.2.2) (Fig.N°.16), (de configuración Doble Omega o Doble Espiga) un sillar que tiene una base rectangular (2.2.1) de la cual se desprenden dos rebordes o espigas en forma de la letra Omega, el (2.2.11) y el (2.2.27) que se desprenden sobre dos planos laterales (2.2.2), (2.2.36) como base de dos planos paralelos al (2.2.11) ,que son el (2.2.5), (2.2.19), (2.2.33), unidos por los planos inclinados (2.2.4), (2.2.18), (2.2.20), (2.2.34) para unirse a su vez con los planos paralelos al (2.2.1) que son el (2.2.5), (2.2.17), (2.2.21), (2.2.33) y con los arcos (2.2.6), (2.2.16), (2.2.22), (2.2.32) a las diagonales (2.2.7), (2.2.15), (2.2.23), (2.2.31), a los arcos (2.2.8), (2.2.14), (2.2.24), (2.2.30), siguiendo con los planos paralelos al (2.2.1) que son (2.2.9), (2.2.13), (2.2.25), (2.2.29), y finalmente los planos inclinados (2.2.10), (2.2.12), (2.2.26), (2.2.28) que completan los desprendimientos (2.2.11), (2.27) del plano original (2.2.1 ) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (2.2.39) y otro inferior (2.2.40), que contienen dos barrenos, el (2.2.37), (2.2.38), dispuestos en la parte central de cada reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad y están configurados por una figura trapezoidal que en el caso del barreno (2.2.37) presenta un segmento menorCENTRAL ACOUSTIC THERMO SADDLE (Part No. 2.2) (Fig. No. 16), (Double Omega or Double Spike configuration) an ashlar that has a rectangular base (2.2.1) from which two flanges or spikes emerge in the form of the letter Omega, the (2.2.11) and the (2.2.27) that emerge on two lateral planes (2.2.2), (2.2.36) as a base of two planes parallel to (2.2.11), which are (2.2.5), (2.2.19), (2.2.33), joined by the inclined planes (2.2.4), (2.2.18), ( 2.2.20), (2.2.34) to join in turn with the planes parallel to (2.2.1) which are (2.2.5), (2.2.17), (2.2.21), (2.2.33 ) and with the arcs (2.2.6), (2.2.16), (2.2.22), (2.2.32) to the diagonals (2.2.7), (2.2.15), (2.2.23), ( 2.2.31), to the arcs (2.2.8), (2.2.14), (2.2.24), (2.2.30), following with the planes parallel to (2.2.1) which are (2.2.9) , (2.2.13), (2.2.25), (2.2.29), and finally the inclined planes (2.2.10), (2.2.12), (2.2.26), (2.2.28) that complete the detachments (2.2.11), (2.27) of the original plane (2.2.1) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, one upper (2.2.39) and one lower (2.2.40) , which contain two holes, (2.2.37), (2.2.38), arranged in the central part of each flange in the shape of an omega and that go through the thickness of the part in its entirety and are configured by a trapezoidal figure that in the case of the hole (2.2.37) presents a smaller segment
(2.2.37.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento (2.2.37.6) unido mediante los arcos (2.2.37.2), (2.37.8), las diagonales (2.2.37.3), (2.2.37.7) y los arcos (2.2.37.4) y (2.2.37.6); en el caso del barreno (2.38) presenta un segmento menor (2.2.38.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento (2.2.38.6) unido mediante los arcos (2.2.38.2), (2.2.38.8), las diagonales (2.2.38.3), (2.2.38.7) y los arcos (2.2.38.4) y (2.2.38.6); (2.2.37.1) is parallel in the first term to the original plane (2.1) and is joined to the largest segment also parallel to the original plane (2.1) and is the segment (2.2.37.6) joined by the arcs (2.2.37.2), ( 2.37.8), the diagonals (2.2.37.3), (2.2.37.7) and the arcs (2.2.37.4) and (2.2.37.6); in the case of the hole (2.38) it presents a minor segment (2.2.38.1) is parallel in the first term to the original plane (2.1) and is attached to the major segment also parallel to the original plane (2.1) and is the segment (2.2.38.6 ) joined by the arcs (2.2.38.2), (2.2.38.8), the diagonals (2.2.38.3), (2.2.38.7) and the arcs (2.2.38.4) and (2.2.38.6);
además del barreno descrito la pieza presenta también una placa de material aislante (2.2.41 ), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (2.2.41.1) paralelo al plano original (2.2.1 ) unido al segmento (2.2.41.4) también paralelo al plano original (2.2.1) mediante la recta (2.2.41.2) perpendicular al plano originalIn addition to the hole described, the part also has a plate of insulating material (2.2.41), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (2.2.41.1) parallel to the plane original (2.2.1) joined to segment (2.2.41.4) also parallel to the original plane (2.2.1) by the line (2.2.41.2) perpendicular to the original plane
(2.2.1) y el arco (2.2.41.3) y esta se une a su vez con el segmento (2.2.41.7) paralelo al plano original (2.2.1) mediante el arco (2.2.41.5) y la reta (2.2.41.6) perpendicular al plano original (2.2.1) que a su ves se une al segmento (2.2.41.10) paralelo al plano original (2.2.1) mediante la recta (2.2.41.8) perpendicular al plano original(2.2.1) and the arc (2.2.41.3) and this is joined in turn with the segment (2.2.41.7) parallel to the original plane (2.2.1) by the arc (2.2.41.5) and the challenge (2.2 .41.6) perpendicular to the original plane (2.2.1) which in turn joins the segment (2.2.41.10) parallel to the original plane (2.2.1) by the line (2.2.41.8) perpendicular to the original plane
(2.2.1 ) y el arco (2.2.41.9) y se continua uniendo al segmento (2.2.41.13) paralelo al plano original (2.2.1) mediante el arco (2.2.41.11) y la recta (2.2.41.12) perpendicular al plano original (2.2.1 ), continuando con la unión del segmento (2.2.41.16) mediante la recta (2.2.41.14) perpendicular al plano original (2.1) y el arco (2.2.41.15) para continuar uniendo el segmento (2.2.41.19) mediante la recta (2.2.41.18) perpendicular al plano original (2.1) y el arco (2.2.41.17.17), para continuar uniendo el segmento (2.2.41.22) paralelo al plano original (2.1) mediante la recta (2.2.41.20) perpendicular al plano original (2.1) y el arco (2.2.41.21), para continuar uniendo el segmento (2.2.41 25) que es paralelo al plano original (2.1) mediante la recta (2.2.41.24) perpendicular al plano original (2.1) y el arco (2.2.41.23) para continuar uniendo el segmento (2.2.41.28) que es paralelo al plano original (2.1 ) mediante la recta (2.2.41.27) perpendicular al plano original (2.1) y el arco (2.2.41.26); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (2.2.41.32) paralelo al plano original (2.2.41.35) que se une con el segmento (2.2.41.37) también paralelo al plano original mediante la línea recta (2.2.41.34) perpendicular al plano original (2.1) y al arco (2.2.41.33), para continuar uniendo el segmento (2.2.41.40) paralelo al plano original (2.1) mediante el arco (2.2.41.38) y la línea recta (2.2.41.39) que es perpendicular al plano original (2.1 ) para continuar uniendo al segmento (2.2.41.43) paralelo al plano original (2.1) y que se une mediante la recta (2.2.41.41) perpendicular al plano original (2.1) y el arco (2.2.41.42) para continuar uniendo al segmento (2.2.41.46 )que es paralelo al plano original (2.1) mediante el arco (2.2.41.44) y la recta (2.2.41.45) perpendicular al plano original (2.1) para continuar uniendo al segmento (2.2.41.49) que es paralelo al plano original (2.1 ) mediante la recta (2.2.47) perpendicular al plano original (2.1 ) y el arco (2.2.41.48) para continuar uniendo al plano (2.2.41.52) mediante la recta (2.2.50) perpendicular al plano original (2.1 ) y al arco (2.2.41.51) para continuar uniendo al plano (2.2.41.55) mediante la recta (2.2.53) perpendicular al plano original (2.1 ) y al arco (2.2.41.54) para continuar uniendo al plano (2.2.41.58) mediante la recta (2.2.57) perpendicular al plano original (2.1) y al arco(2.2.1) and the arc (2.2.41.9) and continue to join the segment (2.2.41.13) parallel to the original plane (2.2.1) by the arc (2.2.41.11) and the perpendicular line (2.2.41.12) to the original plane (2.2.1), continuing with the union of the segment (2.2.41.16) through the line (2.2.41.14) perpendicular to the original plane (2.1) and the arc (2.2.41.15) to continue joining the segment (2.2.41.19) through the line (2.2.41.18) perpendicular to the original plane (2.1) and the arc (2.2.41.17.17), to continue joining the segment (2.2.41.22) parallel to the original plane ( 2.1) through the line (2.2.41.20) perpendicular to the original plane (2.1) and the arc (2.2.41.21), to continue joining the segment (2.2.41 25) that is parallel to the original plane (2.1) through the line ( 2.2.41.24) perpendicular to the original plane (2.1) and the arc (2.2.41.23) to continue joining the segment (2.2.41.28) that is parallel to the original plane (2.1) through the line (2.2.41.27) perpendicular to the original plane (2.1) and the bow (2.2.41.26); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (2.2.41.32) parallel to the original plane (2.2.41.35) that joins the segment (2.2.41.37) also parallel to the original plane by the straight line (2.2.41.34) perpendicular to the original plane (2.1) and the arc (2.2.41.33), to continue joining the segment (2.2.41.40) parallel to the original plane (2.1) through the arc (2.2.41.38) and the straight line (2.2.41.39) which is perpendicular to the original plane (2.1) to continue joining the segment (2.2.41.43) parallel to the original plane (2.1) and which is joined by the line (2.2.41.41) perpendicular to the original plane (2.1) and the arc (2.2.41.42 ) to continue joining the segment (2.2.41.46) that is parallel to the original plane (2.1) through the arc (2.2.41.44) and the line (2.2.41.45) perpendicular to the original plane (2.1) to continue joining the segment (2.2 .41.49) that is parallel to the original plane (2.1) through the line (2.2.47) perpendicular to the original plane (2.1) and the arc (2.2.41.48) to cont inue joining the plane (2.2.41.52) through the line (2.2.50) perpendicular to the original plane (2.1) and to the arc (2.2.41.51) to continue joining the plane (2.2.41.55) through the line (2.2.53) perpendicular to the original plane (2.1) and to the arc (2.2.41.54) to continue joining the plane (2.2.41.58) through the line (2.2.57) perpendicular to the original plane (2.1) and to the arc
(2.2.41.56) para continuar uniendo al plano (2.2.41.61) mediante la recta (2.2.59) perpendicular al plano original (2.1) y al arco (2.2.41.60) para continuar uniendo al plano (2.2.41.106) mediante la recta (2.2.105) perpendicular al plano original (2.1) y al arco (2.2.41.104) para continuar uniendo por ultimo al segmento (2.2.41.109) que es paralelo al plano original (2.1), mediante el arco (2.2.41.108) y la recta (2.2.41.107) perpendicular al plano original (2.1) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. (2.2.41.56) to continue joining the plane (2.2.41.61) through the line (2.2.59) perpendicular to the original plane (2.1) and to the arc (2.2.41.60) to continue joining the plane (2.2.41.106) through the line (2.2.105) perpendicular to the original plane (2.1) and to the arc (2.2.41.104) to continue finally joining the segment (2.2.41.109) that is parallel to the original plane (2.1), through the arc (2.2.41.108 ) and the line (2.2.41.107) perpendicular to the original plane (2.1) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR DE ESPIGA Y MEDIA o también denominado DE AJUSTE LARGO, (Pieza No.3) (Fig.No.23), (de configuración Una Omega y Media) un sillar que tiene una base rectangular (3.1) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (3.11) y el otro en forma de media Omega, el (3.27) que se desprenden sobre tres planos laterales (3.2, 3.28), (3.33) unidos mediante los arcos (3.30) y (3.32) y la diagonal (3.31) como base de dos planos paralelos al (3.1), que son el (3.3, 3.19), unidos por los planos inclinados (3.4, 3.18), (3.20), para unirse a su vez con los planos paralelos al (3.1) que son el (3.5), (3.17), (3.21) y a los arcos (3.6), (3.16), (3.22), a las diagonales (3.7), (3.15), (3.23), a los arcos (3.8), (3.14), (3.24), siguiendo con los planos paralelos al (3.1 ) que son (3.9), (3.13), (3.25), y finalmente los planos inclinados (3.10), (3.12), (3.26), que completan el desprendimiento (3.11), (3.27) del plano original (3.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (3.34) y otro inferior (3.35), que contienen un barreno (3.36), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (3.36.3) es paralelo en primer término al plano original (3.1 ) y está unido al segmento mayor también paralelo al plano original (3.1) y es el segmento (3.36.5) unido mediante los arcos (3.36.2), (3.36.8), las diagonales (3.36.3), (3.36.7) y los arcos (3.36.4) y (3.36.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SADDLE WITH A HALF AND HANGER or also called LONG ADJUSTMENT, (Piece No.3) (Fig.No.23), (of One Omega and a Half configuration) an ashlar that has a rectangular base (3.1) from which two flanges or spikes emerge, one in the shape of the letter Omega, the ( 3.11) and the other in the form of a half Omega, the (3.27) that are detached on three lateral planes (3.2, 3.28), (3.33) joined by the arcs (3.30) and (3.32) and the diagonal (3.31) as a base of two planes parallel to (3.1), which are (3.3, 3.19), joined by the inclined planes (3.4, 3.18), (3.20), to join in turn with the planes parallel to (3.1) which are ( 3.5), (3.17), (3.21) and to the arcs (3.6), (3.16), (3.22), to the diagonals (3.7), (3.15), (3.23), to the arcs (3.8), (3.14) , (3.24), continuing with the planes parallel to (3.1) which are (3.9), (3.13), (3.25), and finally the inclined planes (3.10), (3.12), (3.26), which complete the detachment ( 3.11), (3.27) of the original plane (3.1) and that this configuration, being three-dimensional, is complemented by two horizontal parallel planes i similar, one upper (3.34) and another lower (3.35), which contain a hole (3.36), arranged in the central part of the omega-shaped rim and is configured by a trapezoidal figure whose smaller segment (3.36.3) is parallel in the foreground to the original plane (3.1) and is joined to the largest segment also parallel to the original plane (3.1) and is the segment (3.36.5) joined by the arcs (3.36.2), (3.36.8), the diagonals (3.36.3), (3.36.7) and the arcs (3.36.4) and (3.36.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
SILLAR TERMO ACÚSTICO DE ESPIGA Y MEDIA O AJUSTE LARGO, (Pieza No.3.3) (Fig.No.24), (de configuración Una Omega y Media) un sillar que tiene una base rectangular (3.1 ) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (3.1 1) y el otro en forma de media Omega, el (3.27) que se desprenden sobre tres planos laterales (3.2), (3.28), (3.33) unidos mediante los arcos (3.30) y (3.32) y la diagonal (3.31) como base de dos planos paralelos al (3.1), que son el (3.3, 3.19), unidos por los planos inclinados (3.4), (3.18), (3.20), para unirse a su vez con los planos paralelos al (3.1) que son el (3.5), (3.17), (3.21) y a los arcos (3.6), (3.16), (3.22), a las diagonales (3.7), (3.15), (3.23), a los arcos (3.8), (3.14), (3.24), siguiendo con los planos paralelos al (3.1) que son (3.9), (3.13, 3.25), y finalmente los planos inclinados (3.10), (3.12, 3.26), que completan el desprendimiento (3.11 , 3.27) del plano original (3.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior 3.34 y otro inferior (3.35), que contienen un barreno (3.36), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (3.36.3) es paralelo en primer término al plano original (3.1) y está unido al segmento mayor también paralelo al plano original (3.1) y es el segmento (3.36.5) unido mediante los arcos (3.36.2), (3.36.8), las diagonales (3.36.3), (3.36.7) y los arcos (3.36.4) y (3.36.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; además del barreno descrito la pieza presenta también una placa de material aislante (3.3.37), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (3.3.37.1) paralelo al plano original (3.3.1) unido al segmento (3.3.37.4) también paralelo al plano original (3.3.1) mediante la recta (3.3.37.2) perpendicular al plano original (3.3.1) y el arco (3.3.37.3) y esta se une a su vez con el segmento (3.3.37.7) paralelo al plano original (3.3.1) mediante el arco (3.3.37.5) y la reta (3.3.37.6) perpendicular al plano original (3.3.1) que a su vez se une al segmento (3.3.37.10) paralelo al plano original (3.3.1 ) mediante la recta (3.3.37.8) perpendicular al plano original (3.3.1) y el arco (3.3.37.9) y se continua uniendo al segmento (3.3.37.13) paralelo al plano original 3.3.1 mediante el arco (3.3.37.11) y la recta (3.3.37.12) perpendicular al plano original (3.3.1), continuando con la unión del segmento (3.3.37.16) mediante la recta 3.3.37.14 perpendicular al plano original (3.3.1) y el arco (3.3.37.15) para continuar uniendo el segmento (3.3.37.19) mediante la recta (2.2.41.17) perpendicular al plano original (3.1) y el arco (3.3.37.18), para continuar uniendo el segmento (3.3.37.22) paralelo al plano original (3.3.1) mediante la recta (3.3.37.20) perpendicular al plano original (3.3.1) y el arco (3.3.37.21 ), para continuar uniendo el segmento (3.3.37.25) que es paralelo al plano original (3.3.1 ) mediante la recta (3.3.37.24) perpendicular al plano original (3.3.1 ) y el arco (3.3.37.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (3.3.37.26) paralelo al plano original (3.3.1) que se une con el segmento (3.3.37.29) también paralelo al plano original mediante la línea recta (3.3.37.27) perpendicular al plano original (3.3.1) y al arco (3.3.37.28), para continuar uniendo el segmento (3.3.37.32) paralelo al plano original (3.3.1) mediante el arco (3.3.37.31) y la línea recta (3.3.37.30) que es perpendicular al plano original (3.3.1) para continuar uniendo al segmento (3.3.35) paralelo al plano original (3.3.1) y que se une mediante la recta (3.3.37.33) perpendicular al plano original (3.3.1) y el arco (3.3.37.34) para continuar uniendo al segmento (3.3.37.38) que es paralelo al plano original (3.3.1) mediante el arco (3.3.37.36) y la recta (3.3.37.37) perpendicular al plano original (3.3.1) para continuar uniendo al segmento (3.3.37.41 ) que es paralelo al plano original (3.3.1) mediante la recta (3.3.37.39) perpendicular al plano original (3.3.1 ) y el arco (3.3.37.40) para continuar uniendo al plano (3.3.37.44) mediante la recta (3.3.37.43) perpendicular al plano original (3.3.1) y al arco (3.3.37.42) para continuar uniendo al plano (3.3.47) mediante la recta (3.3.45) perpendicular al plano original (3.3.1) y al arco (3.3.37.46) para continuar uniendo al plano (3.3.37.51) mediante la recta (3.3.37.50) perpendicular al plano original (3.3.1) y al arco (3.3.37.49) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. THERMO-ACOUSTIC SADDLE WITH A HALF AND A HALF OR LONG ADJUSTMENT, (Piece No.3.3) (Fig.No.24), (One Omega and a Half configuration) an ashlar that has a rectangular base (3.1) from which two flanges emerge or spikes, one in the shape of the letter Omega, the (3.1 1) and the other in the shape of a half Omega, the (3.27) that emerge on three lateral planes (3.2), (3.28), (3.33) joined by means of the arcs (3.30) and (3.32) and the diagonal (3.31) as the basis of two planes parallel to (3.1), which are (3.3, 3.19), joined by the inclined planes (3.4), (3.18), (3.20) , to join in turn with the planes parallel to (3.1) which are (3.5), (3.17), (3.21) and to the arcs (3.6), (3.16), (3.22), to the diagonals (3.7), (3.15), (3.23), to the arcs (3.8), (3.14), (3.24), continuing with the planes parallel to (3.1) which are (3.9), (3.13, 3.25), and finally the inclined planes ( 3.10), (3.12, 3.26), which complete the detachment (3.11, 3.27) of the original plane (3.1) and that this configuration being tridim ensional, are complemented by two equal horizontal parallel planes, one upper 3.34 and the other lower (3.35), which contain a hole (3.36), arranged in the central part of the omega-shaped rim and is configured by a trapezoidal figure whose minor segment (3.36.3) is parallel in the foreground to the original plane (3.1) and is attached to the major segment also parallel to the original plane (3.1) and is the segment (3.36.5) joined by the arcs (3.36.2), (3.36.8), the diagonals (3.36.3), (3.36.7) and the arcs (3.36.4) and (3.36.6) ; arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety; In addition to the hole described, the part also has a plate of insulating material (3.3.37), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (3.3.37.1) parallel to the plane original (3.3.1) joined to the segment (3.3.37.4) also parallel to the original plane (3.3.1) by the line (3.3.37.2) perpendicular to the original plane (3.3.1) and the arc (3.3.37.3) and this in turn joins with the segment (3.3.37.7) parallel to the original plane (3.3.1) by means of the arc (3.3.37.5) and it is attached (3.3.37.6) perpendicular to the original plane (3.3.1) that a in turn, it joins the segment (3.3.37.10) parallel to the original plane (3.3.1) through the line (3.3.37.8) perpendicular to the original plane (3.3.1) and the arc (3.3.37.9) and continues to join the segment (3.3.37.13) parallel to the original plane 3.3.1 through the arc (3.3.37.11) and the line (3.3.37.12) perpendicular to the original plane (3.3.1), continuing with the union of the segment (3.3.37.16 ) through the line 3.3.37.14 perpendicular to the original plane (3.3.1) and the arc (3.3.37.15) to continue joining the segment (3.3.37.19) through the line (2.2.41.17) perpendicular to the original plane (3.1) and the arc (3.3.37.18), to continue joining the segment (3.3.37.22) parallel to the original plane (3.3.1) using the line (3.3.37.20) perpendicular to the original plane (3.3.1) and the arc (3.3. 37.21), to continue joining the segment (3.3.37.25) that is parallel to the original plane (3.3.1) through the line (3.3.37.24) perpendicular to the original plane (3.3.1) and the arc (3.3.37.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (3.3.37.26) parallel to the original plane (3.3.1) which is joined with the segment (3.3.37.29) also parallel to the original plane by the straight line (3.3.37.27) perpendicular to the original plane (3.3.1) and to the arc (3.3.37.28), to continue joining the segment (3.3.37.32) parallel to the original plane (3.3.1) through the arc (3.3.37.31) and the straight line (3.3. 37.30) which is perpendicular to the original plane (3.3.1) to continue joining the segment (3.3.35) parallel to the original plane (3.3.1) and which is joined by the line (3.3.37.33) perpendicular to the original plane (3.3 .1) and the arc (3.3.37.34) to continue joining the segment (3.3.37.38) that is parallel to the plane original (3.3.1) through the arc (3.3.37.36) and the line (3.3.37.37) perpendicular to the original plane (3.3.1) to continue joining the segment (3.3.37.41) that is parallel to the original plane (3.3. 1) using the line (3.3.37.39) perpendicular to the original plane (3.3.1) and the arc (3.3.37.40) to continue joining the plane (3.3.37.44) using the line (3.3.37.43) perpendicular to the original plane ( 3.3.1) and to the arc (3.3.37.42) to continue joining the plane (3.3.47) through the line (3.3.45) perpendicular to the original plane (3.3.1) and to the arc (3.3.37.46) to continue joining to the plane (3.3.37.51) by means of the line (3.3.37.50) perpendicular to the original plane (3.3.1) and to the arc (3.3.37.49) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR ESQUINERO, (Pieza No.4) (Fig.No.31), (sillar de una espiga y media con una espiga adosada al extremo de la media espiga girada en forma ortogonal o de configuración de Una Omega y Media con una Omega adosada a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (4.1) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (4.11) y el otro en forma de media Omega, el (4.27) que se desprenden en un extremo sobre un plano lateral 4.2, como base de dos planos paralelos al (4.1 ), que son el (4.3), (4.19), unidos por los planos inclinados (4.4, 4.18), (4.20), para unirse a su vez con los planos paralelos al (4.1) que son el (4.5), (4.17), (4.21) y a los arcos (4.6), (4.16), (4.22), que unen a las diagonales (4.7), (4.15), (4.23), a los arcos (4.8), (4.14), (3.24), siguiendo con los planos paralelos al (4.1) que son (4.9), (4.13), (4.25) y finalmente los planos inclinados (4.10), (4.12), (4.26), que completan los desprendimientos (4.11 ), (4.27) del plano original (4.1) que además en el otro extremo se desprende otro reborde en forma de Omega el (4.38), que tiene como base dos planos alineados adosados al extremo del plano 4.1 en forma ortogonal y que son el (4.28), (4.48) y el reborde se desprende sobre dos planos laterales, el (4.29), (4.47) como base de dos planos paralelos al (4.28), (4.48), que son (4.30), (4.46), unidos por los planos inclinados (4.31), (4.44) para unirse a su vez con los planos paralelos al (4.28), (4.48) que son el (4.32), (4.44), y a los arcos (4.33), (4.43), a las diagonales (14.34), (4.42), a los arcos (4.35), (4.41), siguiendo con los planos paralelos al (4.28), (4.48), que son (4.36), (4.39), y finalmente los planos inclinados (4.37), (4.39), que completan el desprendimiento (4.38) del plano original (4.28), (4.48) de este reborde (4.38); y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (4.49) y otro inferior (4.50), que contienen dos barrenos, el (4.51) y (4.52), dispuestos en la parte central de los dos rebordes en forma de omega que atraviesan el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal que en el caso del barreno (4.51) presenta un segmento menor (4.51.1) es paralelo en primer término al plano original (4.1 ) y está unido al segmento mayor (4.51.5) también paralelo al plano original (4.1 ) unido mediante los arcos (4.51.2), (2.37.8), las diagonalesCORNER SADDLE, (Piece No.4) (Fig.No.31), (one and a half tenon ashlar with a tenon attached to the end of the half tenon turned orthogonally or in the configuration of One Omega and a Half with an Omega attached to the half Omega turned orthogonally) an ashlar that has a rectangular base (4.1) from which two ridges or spikes emerge, one in the shape of the letter Omega, the (4.11) and the other in the shape of a half Omega, the (4.27) that emerge at one end on a lateral plane 4.2, as the basis of two planes parallel to (4.1), which are (4.3), (4.19), joined by the inclined planes (4.4, 4.18), ( 4.20), to join in turn with the planes parallel to (4.1) which are (4.5), (4.17), (4.21) and to the arcs (4.6), (4.16), (4.22), which join the diagonals (4.7), (4.15), (4.23), to the arcs (4.8), (4.14), (3.24), following with the planes parallel to (4.1) which are (4.9), (4.13), (4.25) and finally the inclined planes (4.10), (4.12), (4.26), which complete the detachments os (4.11), (4.27) from the original plane (4.1) that also at the other end shows another edge in the shape of Omega el (4.38), which is based on two aligned planes attached to the end of plane 4.1 in an orthogonal way and which are (4.28), (4.48) and the rim emerges on two lateral planes, (4.29), (4.47) as the basis of two planes parallel to (4.28), (4.48), which are (4.30), ( 4.46), joined by the inclined planes (4.31), (4.44) to join in turn with the planes parallel to (4.28), (4.48) which are (4.32), (4.44), and to the arcs (4.33), (4.43), to the diagonals (14.34), (4.42), to the arcs (4.35), (4.41), following with the planes parallel to (4.28), (4.48), which are (4.36), (4.39), and finally the inclined planes (4.37), (4.39), which complete the detachment (4.38) from the original plane (4.28), (4.48) of this edge (4.38); and that this configuration being three-dimensional, are complemented by two equal horizontal parallel planes, an upper one (4.49) and a lower one (4.50), which contain two holes, (4.51) and (4.52), arranged in the central part of the two omega-shaped ridges that traverse the thickness of the part as a whole, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure that in the case of the hole (4.51) has a smaller segment (4.51.1) is parallel in the first term to the original plane (4.1) and is joined to the larger segment (4.51.5) also parallel to the original plane (4.1) joined by the arcs (4.51.2), (2.37.8), the diagonals
(4.51.3), (4.51.7) y los arcos (4.51.4) y (4.51.6); en el caso del barreno (4.52) presenta un segmento menor (4.52.1) es paralelo en primer término al plano original (4.28), (4.48) y está unido al segmento mayor (4.52.5) también paralelo al plano original (4.28), (4.48) unido mediante los arcos (4.52.2), (4.52.8), las diagonales(4.51.3), (4.51.7) and the arcs (4.51.4) and (4.51.6); in the case of the hole (4.52) it presents a minor segment (4.52.1) is parallel in the first term to the original plane (4.28), (4.48) and is joined to the major segment (4.52.5) also parallel to the original plane (4.28 ), (4.48) joined by the arcs (4.52.2), (4.52.8), the diagonals
(4.52.3), (4.52.7) y los arcos (4.52.4) y (4.52.6); dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; (4.52.3), (4.52.7) and the arcs (4.52.4) and (4.52.6); arranged in the central part of the omega-shaped rim and which crosses the thickness of the part in its entirety;
SILLAR TERMO ACÚSTICO ESQUINERO, (Pieza No.4.4) (Fig.No.32), (sillar de una espiga y media con una espiga adosada al extremo de la media espiga girada en forma ortogonal o de configuración de Una Omega y Media con una Omega adosada a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (4.4.1) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (4.4.11) y el otro en forma de media Omega, el (4.4.27) que se desprenden en un extremo sobre un plano lateral (4.4.2), como base de dos planos paralelos al (4.4.1 ), que son el (4.4.3), (4.4.19), unidos por los planos inclinados (4.4.4), (4.4.18), (4.4.20), para unirse a su vez con los planos paralelos al (4.4.1 ) que son el (4.4.5), (4.4.17), (4.4.21) y a los arcos (4.4.6), (4.4.16), (4.4.22), que unen a las diagonales (4.4.7), (4.4.15), 4.4.23, a los arcos (4.4.8), (4.4.14), (4.4.24), siguiendo con los planos paralelos al 4.4.1 que son (4.4.9), (4.4.13), (4.4.25), y finalmente los planos inclinados (4.4.10), (4.4.12), (4.4.26), que completan los desprendimientos (4.4.11), (4.4.27) del plano original (4.4.1) que además en el otro extremo se desprende otro reborde en forma de Omega el (4.4.38), que tiene como base el plano (4.4.28) perpendicular y al extremo del plano (4.4.1) en forma ortogonal por un extremo y por el lado opuesto, el reborde se desprende sobre otro plano lateral, el (4.4.29), sirviendo como base de dos planos paralelos que son (4.4.30), (4.4.46), unidos por los planos inclinados (4.4.31), (4.4.44) para unirse a su vez con los planos paralelos al (4.4.28) que son el (4.4.32), (4.4.44), y a los arcos (4.4.33), (4.4.43), a las diagonales (4.4.34), (4.4.32), a los arcos (4.4.35), (4.4.41), siguiendo con los planos paralelos al (4.4.28), que son (4.4.36), (4.4.40), y finalmente los planos inclinados (4.4.37), (4.4.39), que completan el desprendimiento (4.4.38) del plano original (4.4.28); y que esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (4.4.47) y otro inferior (4.4.48), que contienen dos barrenos, el (4.4.49) y (4.4.50), dispuestos en la parte central de los dos rebordes en forma de omega que atraviesan el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal que en el caso del barreno (4.4.49) presenta un segmento menorCORNER THERMO ACOUSTIC SADDLE, (Piece No.4.4) (Fig.No.32), (one and a half tenon ashlar with a tenon attached to the end of the half tenon turned orthogonally or in the configuration of One Omega and a Half with a Omega attached to the half Omega turned orthogonally) an ashlar that has a rectangular base (4.4.1) from which two flanges or spikes emerge, one in the shape of the letter Omega, the (4.4.11) and the other in the form of half Omega, the (4.4.27) that are detached at one end on a lateral plane (4.4.2), as the basis of two planes parallel to (4.4.1), which are (4.4.3), (4.4.19), joined by the inclined planes (4.4.4), (4.4.18), (4.4.20), to join in turn with the planes parallel to (4.4.1) which are (4.4. 5), (4.4.17), (4.4.21) and to the arcs (4.4.6), (4.4.16), (4.4.22), which join the diagonals (4.4.7), (4.4.15 ), 4.4.23, to the arcs (4.4.8), (4.4.14), (4.4.24), continuing with the planes parallel to 4.4.1 which are (4.4.9), (4.4.13), (4.4.25), and finally the p Inclined lanos (4.4.10), (4.4.12), (4.4.26), which complete the detachments (4.4.11), (4.4.27) of the original plane (4.4.1) that also at the other end (4.4.38), which has as its base the perpendicular plane (4.4.28) and to the end of the plane (4.4.1) in an orthogonal way at one end and on the opposite side, the edge It emerges on another lateral plane, the (4.4.29), serving as the basis of two parallel planes that are (4.4.30), (4.4.46), joined by the inclined planes (4.4.31), (4.4.44 ) to join your Once with the planes parallel to (4.4.28) that are (4.4.32), (4.4.44), and to the arcs (4.4.33), (4.4.43), to the diagonals (4.4.34), (4.4.32), to the arcs (4.4.35), (4.4.41), continuing with the planes parallel to (4.4.28), which are (4.4.36), (4.4.40), and finally the inclined planes (4.4.37), (4.4.39), which complete the detachment (4.4.38) of the original plane (4.4.28); and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (4.4.47) and a lower one (4.4.48), which contain two holes, the (4.4.49) and (4.4.50) , arranged in the central part of the two omega-shaped flanges that cross the thickness of the part in its entirety, which can house a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure that in the case of the hole (4.4.49) has a smaller segment
(4.4.49.1) es paralelo en primer término al plano original (4.4.1) y está unido al segmento mayor (4.4.49.5) también paralelo al plano original (4.1 ) unido mediante los arcos (4.4.49.2), (4.4.49.8), las diagonales (4.4.49.3), (4.4.49.7) y los arcos (4.4.49.4) y (4.4.49.6); en el caso del barreno (4.4.50) presenta un segmento menor(4.4.49.1) is parallel in the foreground to the original plane (4.4.1) and is joined to the major segment (4.4.49.5) also parallel to the original plane (4.1) joined by the arcs (4.4.49.2), (4.4. 49.8), the diagonals (4.4.49.3), (4.4.49.7) and the arcs (4.4.49.4) and (4.4.49.6); in the case of the hole (4.4.50) it has a smaller segment
(4.4.50.1) es paralelo en primer término al plano original (4.4.28) y está unido al segmento mayor (4.4.50.5) también paralelo al plano original (4.4.28) unido mediante los arcos 4.4.50.2, 4.4.50.8, las diagonales 4.4.50.3, 4.4.52.7 y los arcos (4.4.50.4) y (4.4.50.6); dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; (4.4.50.1) is parallel in the foreground to the original plane (4.4.28) and is joined to the greater segment (4.4.50.5) also parallel to the original plane (4.4.28) joined by arcs 4.4.50.2, 4.4.50.8 , the diagonals 4.4.50.3, 4.4.52.7 and the arcs (4.4.50.4) and (4.4.50.6); arranged in the central part of the omega-shaped rim and which crosses the thickness of the part in its entirety;
además del barreno descrito la pieza presenta también una placa de material aislante (4.4.51), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (4.4.51.1) paralelo al plano original (4.4.1) unido al segmento (4.4.51.4) también paralelo al plano original (4.4.1) mediante la recta (4.4.51.2) perpendicular al plano originalIn addition to the hole described, the part also has a plate of insulating material (4.4.51), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (4.4.51.1) parallel to the plane original (4.4.1) joined to segment (4.4.51.4) also parallel to the original plane (4.4.1) by the line (4.4.51.2) perpendicular to the original plane
(4.4.1) y el arco (4.4.51.3) y esta se une a su vez con el segmento (4.4.51.7) paralelo al plano original (4.4.1) mediante el arco (4.4.51.5) y la reta (4.4.51.6) perpendicular al plano original (4.4.1) que a su vez se une al segmento (4.4.51.10) paralelo al plano original (4.4.1) mediante la recta (4.4.51.8) perpendicular al plano original (4.4.1 ) y el arco (4.4.51.9) y se continua uniendo al segmento (4.4.51.13) paralelo al plano original (3.3.1) mediante el arco (4.4.51.11) y la recta (4.4.51.12) perpendicular al plano original (4.4.1), continuando con la unión del segmento (4.4.51.16) mediante la recta (4.4.51.14) perpendicular al plano original (4.4.1 ) y el arco (4.4.51.15) para continuar uniendo el segmento (4.4.51.19) mediante la recta (2.2.41.18) perpendicular al piano original 4.4.1 y el arco 4.4.51.17, para continuar uniendo el segmento (4.4.51.22) paralelo al plano original (4.4.1) mediante la recta (4.4.51.20) perpendicular al plano original (4.4.1) y el arco (4.4.51.21 ), para continuar uniendo el segmento (4.4.51.25) que es paralelo al plano original (4.4.1) mediante la recta (4.4.51.24) perpendicular al plano original (4.4.1) y el arco (4.4.51.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (4.4.51.26) perpendicular al plano original (4.4.1) que se une con el segmento (4.4.51.27) también paralelo al plano original, para continuar uniendo el segmento (4.4.51.30) paralelo al plano original (3.3.1) mediante el arco (4.4.51.29) y la línea recta (4.4.51.28) que es perpendicular al plano original (4.4.1) para continuar uniendo al segmento (4.4.33) paralelo al plano original (4.4.1) y que se une mediante la recta (4.4.51.32) perpendicular al plano original (4.4.1) y el arco (4.4.51.31) para continuar uniendo al segmento (4.4.51.36) que es paralelo al plano original (4.4.1 ) mediante el arco (4.4.51.35) y la recta (4.4.51.34) perpendicular al plano original (4.4.1) para continuar uniendo al segmento (4.4.51.39) que es paralelo al plano original (4.4.1) mediante la recta (4.4.51.38) perpendicular al plano original (4.4.1) y el arco (4.4.51.37) para continuar uniendo al plano (4.4.51.42) mediante la recta (4.4.51.40) perpendicular al plano original (4.4.1) y al arco (4.4.51.41) para continuar uniendo al plano (4.4.51.45) mediante la recta (4.4.51.44) perpendicular al plano original (4.4.1) y al arco (4.4.51.43) para continuar uniendo al plano (4.4.51.48) mediante la recta (4.4.51.46) perpendicular al plano original (4.4.1) y al arco (4.4.51.47) para continuar uniendo al plano (4.4.51.51) mediante la recta (4.4.51.50) perpendicular al plano original (4.4.1) y al arco (4.4.51.49) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. (4.4.1) and the arc (4.4.51.3) and this is joined in turn with the segment (4.4.51.7) parallel to the original plane (4.4.1) by the arc (4.4.51.5) and the challenge (4.4 .51.6) perpendicular to the original plane (4.4.1) which in turn joins the segment (4.4.51.10) parallel to the original plane (4.4.1) by the line (4.4.51.8) perpendicular to the original plane (4.4.1 ) and the arc (4.4.51.9) and continues to join the segment (4.4.51.13) parallel to the original plane (3.3.1) by means of the arc (4.4.51.11) and the line (4.4.51.12) perpendicular to the original plane ( 4.4.1), continuing with the union of the segment (4.4.51.16) through the line (4.4.51.14) perpendicular to the original plane (4.4.1) and the arc (4.4.51.15) to continue joining the segment (4.4.51.19 ) by the line (2.2.41.18) perpendicular to the original plane 4.4.1 and arc 4.4.51.17, to continue joining the segment (4.4.51.22) parallel to the original plane (4.4.1) through the line (4.4.51.20) perpendicular to the original plane (4.4.1) and the arc (4.4.51.21), to continue joining the segment (4.4.51.25) that is parallel to the original plane (4.4.1) by means of the line (4.4.51.24) perpendicular to the original plane (4.4.1) and the arc (4.4.51.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (4.4.51.26) perpendicular to the original plane (4.4.1) that joins with the segment (4.4.51.27) also parallel to the original plane, to continue joining the segment (4.4.51.30) parallel to the original plane (3.3.1) using the arc (4.4.51.29) and the straight line (4.4.51.28) that is perpendicular to the original plane (4.4.1) to continue joining the segment (4.4.33) parallel to the plane original (4.4.1) and which is joined by the line (4.4.51.32) perpendicular to the original plane (4.4.1) and the arc (4.4.51.31) to continue joining the segment (4.4.51.36) which is parallel to the plane original (4.4.1) using the arc (4.4.51.35) and the line (4.4.51.34) perpendicular to the original plane (4.4.1) to continue joining the segment (4.4.51.39) that is parallel to the original plane (4.4. 1) using the line (4.4.51.38) perpendicular to the original plane (4.4.1) and the arc (4.4.51.37) to continue joining the plane (4.4.51.42) by means of the line (4.4.51.40) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.41) to continue joining the plane (4.4.51.45) through the line (4.4.51.44) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.43) to continue joining the plane (4.4.51.48) through the line (4.4.51.46) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.47) to continue joining the plane (4.4.51.51) through the line (4.4 .51.50) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.49) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR CRUCERO, (Pieza No.5) (-Figura N°39), (sillar de una espiga y media con dos medias espigas adosadas al extremo de la media espiga giradas en forma ortogonal o de configuración de Una Omega y Media con dos Medias Omegas adosadas a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (5.1 ) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (5.11) y el otro en forma de media Omega, el (5.27) que se desprenden en un extremo sobre un plano lateral (5.2), como base de dos planos paralelos al (5.1), que son el (5.3), (5.19), unidos por los planos inclinados (5.4), (5.18), (5.20), para unirse a su vez con los planos paralelos al (5.1) que son el (5.5), (5.17), (5.21) y a los arcos (5.6), (5.16), (5.22), a las diagonales (5.7), (5.15), (5.23), a los arcos (5.8), (5.14), (5.24), siguiendo con los planos paralelos al (5.1) que son (5.9), (5.13), (5.25), y finalmente los planos inclinados (5.10), (5.12), (5.26), que completan los desprendimientos (5.11), (5.27) del plano original (5.1) que además en el otro extremo se desprenden dos rebordes en forma de Media Omega el (5.37), (5.49) que tienen como base dos planos alineados adosados al extremo del plano (5.1 ) en forma ortogonal y que son el (5.23), (5.28) y los rebordes se desprenden sobre cuatro planos laterales alineados, el (5.29), (5.34) que contiene una hendidura formada por la diagonal (5.31 ) unida por los arcos (5.30), (5.32) y la recta (5.33) paralela a los planos (5.23), (5.28) y en el lado opuesto otros dos planos el (5.54), (5.57) perpendiculares a los planos (5.23), (5.28) que contiene una hendidura formada por la diagonal (5.55) unida por los arcos (5.52), (5.56) y la recta (5.53) paralela a los planos (5.23), (5.28) y estos cuatro planos sirven como base de dos planos paralelos al (5.23), (5.28), que son el (5.35), (5.51) unidos por los planos inclinados (5.36), (5.50), para unirse los rebordes (5.37), (5.49) y en medio de estos rebordes se presenta el plano (5.43) como remate de un alveolo que se une con los rebordes mediante dos planos inclinados (5.42), (5.44) que se une su vez con los planos paralelos al (5.23), (5.528), que son el (5.41), (5.45), y a los arcos (5.40), (5.46), a las diagonales (5.39), (5.47), a los arcos (5.38), (5.48), para complementar finalmente los rebordes (5.37), (5.49); CRUISE SILLAR, (Piece No.5) (-Figure N ° 39), (one and a half tenon ashlar with two half tenons attached to the end of the half tenon turned orthogonally or in the configuration of One Omega and a Half with two Half Omegas attached to the half Omega turned orthogonally) an ashlar that has a rectangular base (5.1) from which two flanges or spikes emerge, one in the shape of the letter Omega, the (5.11) and the other in the shape of a half Omega, the (5.27) that are detached at one end on a lateral plane (5.2), as the basis of two planes parallel to (5.1), which are (5.3), (5.19), joined by the inclined planes (5.4) , (5.18), (5.20), to join in turn with the planes parallel to (5.1) which are (5.5), (5.17), (5.21) and to the arcs (5.6), (5.16), (5.22), to the diagonals (5.7), (5.15), (5.23), to the arcs (5.8), (5.14), (5.24), following with the planes parallel to (5.1) which are (5.9), (5.13), ( 5.25), and finally the inclined planes (5.10), (5.12), (5.26), which complete the detachments (5.11), (5.27) of the original plane (5.1) which also at the other end detach two ridges in the form of Half Omega el (5.37), (5.49) that have as a base two aligned planes attached to the end of the plane (5.1) in an orthogonal way and that are (5.23), (5.28) and the edges come off on four aligned lateral planes, the (5.29), (5.34) that contains a slit formed by the diagonal (5.31) joined by the arcs (5.30), (5.32) and the line (5.33) parallel to the planes (5.23), (5.28) and in the opposite side two other planes el (5.54), (5.57) perpendicular to planes (5.23), (5.28) containing u There is a slit formed by the diagonal (5.55) joined by the arcs (5.52), (5.56) and the line (5.53) parallel to the planes (5.23), (5.28) and these four planes serve as the basis for two planes parallel to ( 5.23), (5.28), which are (5.35), (5.51) joined by the inclined planes (5.36), (5.50), to join the flanges (5.37), (5.49) and in the middle of these flanges the plane (5.43) as the end of a socket that joins the flanges by means of two inclined planes (5.42), (5.44) which in turn joins the planes parallel to (5.23), (5.528), which are (5.41) , (5.45), and to the arches (5.40), (5.46), to the diagonals (5.39), (5.47), to the arches (5.38), (5.48), to finally complement the flanges (5.37), (5.49) ;
y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (5.59) y otro inferior (5.61), que contienen un barreno (5.60) dispuesto en la parte central del reborde en forma de omega que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal y presenta un segmento menor (5.60.1) es paralelo en primer término al plano original (5.1 ) y está unido al segmento mayor (5.60.5) también paralelo al plano original (5.1) unido mediante los arcos (5.60.2), (5.60.8), las diagonales (5.60.3), (5.60.7) y los arcos (5.60.4) y (5.60.6); and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (5.59) and a lower one (5.61), which contain a hole (5.60) arranged in the central part of the omega-shaped rim that crosses the thickness of the piece in its entirety, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure and presents a minor segment (5.60.1) is parallel in the first term to the original plane (5.1) and is joined to the major segment (5.60.5) also parallel to the original plane (5.1) joined by means of the arcs (5.60.2), (5.60.8), diagonals (5.60.3), (5.60.7) and arcs (5.60.4) and (5.60.6);
SILLAR TERMO ACÚSTICO CRUCERO, (Pieza N°5.5) (-Figura N°40), (sillar de una espiga y media con dos medias espigas adosadas al extremo de la media espiga giradas en forma ortogonal o de configuración de Una Omega y Media con dos Medias Omegas adosadas a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (5.5.1) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (5.5.11) y el otro en forma de media Omega, el (5.5.27) que se desprenden en un extremo sobre un plano lateral (5.5.2), como base de dos planos paralelos al (5.5.1), que son el (5.5.3), (5.5.19), unidos por los planos inclinados (5.5.4), (5.5.18), (5.5.20), para unirse a su vez con los planos paralelos al (5.5.1) que son el (5.5.5), (5.5.17), (5.5.21 ) y a los arcos (5.5.6), (5.5.16), (5.5.22), a las diagonales (5.5.7), (5.5.15), (5.5.23), a los arcos (5.5.8), (5.5.14), (5.5.24), siguiendo con los planos paralelos al (5.5.1) que son (5.5.9), (5.5.13), (5.5.25), y finalmente los planos inclinados (5.5.10), (5.5.12), (5.5.26), que completan los desprendimientos (5.5.11), (5.5.27) del plano original (5.5.1) que además en el otro extremo se desprenden dos rebordes en forma de Media Omega el (5.5.37), (5.5.48) que tienen como base el plano alineado al extremo del planoTHERMAL ACOUSTIC CRUISE SADDLE, (Piece N ° 5.5) (-Figure N ° 40), (one and a half tenon ashlar with two half tenons attached to the end of the half tenon turned orthogonally or in the configuration of One Omega and a Half with two Omegas half attached to the half Omega turned orthogonally) an ashlar that has a rectangular base (5.5.1) from which two flanges or spikes emerge, one in the shape of the letter Omega, the (5.5.11) and the another in the form of a half Omega, the (5.5.27) that are detached at one end on a lateral plane (5.5.2), as the basis of two planes parallel to (5.5.1), which are (5.5.3) , (5.5.19), joined by the inclined planes (5.5.4), (5.5.18), (5.5.20), to join in turn with the planes parallel to (5.5.1) which are (5.5 .5), (5.5.17), (5.5.21) and to the arches (5.5.6), (5.5.16), (5.5.22), to the diagonals (5.5.7), (5.5.15) , (5.5.23), to the arcs (5.5.8), (5.5.14), (5.5.24), following with the planes parallel to (5.5.1) which are (5.5.9), (5.5. 13), (5.5.25), and finally the inclined planes (5.5.10), (5.5.12), (5.5.26), which complete the detachments (5.5.11), (5.5.27) of the original plane (5.5.1) that, in addition, at the other end there are two ridges in the shape of Half Omega el (5. 5.37), (5.5.48) based on the plane aligned to the end of the plane
(5.5.1 ) y que son el (5.5.51), que contiene una hendidura formada por la diagonal (5.5.54) unida por los arcos (5.53), (5.55) y la recta (5.5.52) paralela a los planos(5.5.1) and which are (5.5.51), which contains a slit formed by the diagonal (5.5.54) joined by the arcs (5.53), (5.55) and the line (5.5.52) parallel to the blueprints
(5.5.2), (5.5.28) y en el lado opuesto el reborde (5.5.37) se desprende sobre dos planos laterales alineados, el (5.5.29), (5.5.34) que contiene una hendidura formada por la diagonal (5.5.31 ) unida por los arcos (5.5.30), (5.5.32) y la recta (5.5.33) paralela al plano, (5.5.2), (5.5.28) y estos cuatro planos sirven como base de dos planos paralelos al (5.5.2), (5.28), que son el (5.5.35), (5.5.37), unido por el plano inclinado (5.36), y los planos (5.5.48), (5.5.50), unido por el plano inclinado (5.5.49) y en medio de estos rebordes se presenta el plano (5.5.43) como remate de un alveolo que se une con los rebordes mediante dos planos inclinados (5.5.39), (5.46) que se une a su vez con los planos paralelos al (5.5.2), (5.528), que son el (5.5.42), (5.5.45), y a los arcos (5.5.38), (5.5.40), (5.5.45), (5.547), a las diagonales (5.39), (5.46), para complementar finalmente los rebordes ( 5.37), (5.48); (5.5.2), (5.5.28) and on the opposite side the flange (5.5.37) emerges on two aligned lateral planes, the (5.5.29), (5.5.34) which contains a groove formed by the diagonal (5.5.31) joined by the arcs (5.5.30), (5.5.32) and the line (5.5.33) parallel to the plane, (5.5.2), (5.5.28) and these four planes serve as base of two planes parallel to (5.5.2), (5.28), which are (5.5.35), (5.5.37), joined by the inclined plane (5.36), and the planes (5.5.48), ( 5.5.50), joined by the inclined plane (5.5.49) and in the middle of these ridges the plane (5.5.43) is presented as the top of a socket that is joined with the ridges by two inclined planes (5.5.39) , (5.46) which is joined in turn with the planes parallel to (5.5.2), (5.528), which are (5.5.42), (5.5.45), and to the arcs (5.5.38), ( 5.5.40), (5.5.45), (5.547), to the diagonals (5.39), (5.46), to finally complement the flanges (5.37), (5.48);
y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (5.5.56) y otro inferior (5.5.57), que contienen un barreno (5.5.58) dispuesto en la parte central del reborde en forma de omega que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal y que presenta un segmento menor (5.5.58.2) es paralelo en primer término al plano original (5.5.1) y está unido al segmento mayor (5.5.58.5) también paralelo al plano original (5.5.1) unido mediante los arcos (5.5.58.1), (5.5.58.4), (5.5.58.6), (5.5.58.8), a las diagonales (5.5.58.3), (5.5.58.7); además del barreno descrito la pieza presenta también una placa de material aislante (5.5.59), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (5.5.59.1) paralelo al plano original (5.5.1) unido al segmento (5.5.59.2) en forma ortogonal paralelo al plano (5.5.2) y el arco (5.5.59.3) y esta se une a su vez con el segmentoand that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (5.5.56) and a lower one (5.5.57), which contain a hole (5.5.58) arranged in the central part of the flange in omega shape that crosses the thickness of the part in its entirety, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure and that presents a minor segment (5.5.58.2) is parallel in the foreground to the original plane (5.5.1) and is joined to the major segment (5.5.58.5) also parallel to the original plane (5.5. 1) joined by the arches (5.5.58.1), (5.5.58.4), (5.5.58.6), (5.5.58.8), to the diagonals (5.5.58.3), (5.5.58.7); In addition to the hole described, the part also has a plate of insulating material (5.5.59), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (5.5.59.1) parallel to the plane original (5.5.1) joined to the segment (5.5.59.2) orthogonally parallel to the plane (5.5.2) and the arc (5.5.59.3) and this is joined in turn with the segment
(5.5.59.4) paralelo al plano original (5.5.1) unido al segmento (5.5.59.7) mediante el arco (5.5.59.5) y la reta (5.5.59.6) perpendicular al plano original (5.5.1) que a su vez se une al segmento (5.5.59.10) paralelo al plano original (5.5.1) mediante la recta (5.5.8) perpendicular al plano original (5.5.1) y el arco (5.5.59.9) y se continua uniendo al segmento (5.5.59.13) paralelo al plano original (5.5.1) mediante el arco (5.5.11) y la recta (5.5.12) perpendicular al plano original (5.5.1), continuando con la unión del segmento (5.5.59.16) mediante la recta (5.5.59.14) perpendicular al plano original (5.5.1) y el arco (5.5.59.15) para continuar uniendo el segmento (5.5.59.19) mediante la recta (5.5.59.18) perpendicular al plano original (5.5.1) y el arco (5.5.59.17), para continuar uniendo el segmento (5.5.59.22) paralelo al plano original (5.5.1) mediante la recta (5.5.59.20) perpendicular al plano original (5.5.1) y el arco 5.5.59.21 , para continuar uniendo el segmento (5.5.59.25) que es paralelo al plano original (5.5.1) mediante la recta (5.5.59.24) perpendicular al plano original (5.5.1) y el arco (5.5.59.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (5.5.59.26) perpendicular al plano original (5.5.1) que se une con el segmento (5.5.59.27) también paralelo al plano original, para continuar uniendo el segmento (5.5.59.30) paralelo al plano original (5.5.1) mediante el arco (5.5.59.28) y la línea recta (5.5.59.29) que es perpendicular al plano original (5.5.1) para continuar uniendo al segmento (5.5.59.33) paralelo al plano original (5.5.1 ) y que se une mediante la recta (5.5.59.33) perpendicular al plano original (5.5.1) y el arco (5.5.59.32) para continuar uniendo al segmento (5.5.59.36) que es paralelo al plano original (5.5.1) mediante el arco (5.5.59.34) y la recta (5.5.59.35) perpendicular al plano original (5.5.1) para continuar uniendo al segmento (5.5.59.39) que es paralelo al plano original (5.5.1) mediante la recta (5.5.59.38) perpendicular al plano original (5.5.1) y el arco (5.5.59.37) para continuar uniendo al plano (5.5.59.42) mediante la recta (5.5.59.41) perpendicular al plano original (5.5.1 ) y al arco (5.5.59.42) para continuar uniendo al plano (5.5.59.45) mediante la recta (5.5.59.43) perpendicular al plano original (5.5.1) y al arco (5.5.59.42) para continuar uniendo al plano (5.5.59.48) mediante la recta (5.5.59.47) perpendicular al plano original (5.5.1) y al arco (5.5.59.46) para continuar uniendo al plano (5.5.59.51) mediante la recta (5.5.59.49) perpendicular al plano original (5.5.1) y al arco (5.5.59.50) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; (5.5.59.4) parallel to the original plane (5.5.1) joined to the segment (5.5.59.7) by means of the arc (5.5.59.5) and the rear (5.5.59.6) perpendicular to the original plane (5.5.1) than to its Once the segment (5.5.59.10) is joined parallel to the original plane (5.5.1) through the line (5.5.8) perpendicular to the original plane (5.5.1) and the arc (5.5.59.9) and continues to join the segment (5.5.59.13) parallel to the original plane (5.5.1) through the arc (5.5.11) and the line (5.5.12) perpendicular to the original plane (5.5.1), continuing with the union of the segment (5.5.59.16 ) using the line (5.5.59.14) perpendicular to the original plane (5.5.1) and the arc (5.5.59.15) to continue joining the segment (5.5.59.19) by means of the line (5.5.59.18) perpendicular to the original plane (5.5 .1) and the arc (5.5.59.17), to continue joining the segment (5.5.59.22) parallel to the original plane (5.5.1) through the line (5.5.59.20) perpendicular to the original plane (5.5.1) and the arc 5.5.59.21, to continue joining the segment (5.5.59.25) which is parallel to the original plane (5.5.1) through the line (5.5.59.24) perpendicular to the original plane (5.5.1) and the arc (5.5.59.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (5.5.59.26) perpendicular to the original plane (5.5.1) that joins with the segment (5.5.59.27) also parallel to the original plane, to continue joining the segment (5.5.59.30) parallel to the original plane (5.5.1) through the arc (5.5.59.28) and the straight line (5.5.59.29) that is perpendicular to the original plane (5.5.1) to continue joining the segment (5.5.59.33) parallel to the plane original (5.5.1) and which is joined by the line (5.5.59.33) perpendicular to the original plane (5.5.1) and the arc (5.5.59.32) to continue joining the segment (5.5.59.36) which is parallel to the plane original (5.5.1) using the arc (5.5.59.34) and the line (5.5.59.35) perpendicular to the original plane (5.5.1) to continue joining the segment (5.5.59.39) that is parallel to the original plane (5.5. 1) through the line (5.5.59.38) perpendicular to the original plane (5.5.1) and the arc (5.5.59.37) to continue joining the plane (5.5.59.42) through the perpendicular line (5.5.59.41) to the original plane (5.5.1) and to the arc (5.5.59.42) to continue joining the plane (5.5.59.45) through the line (5.5.59.43) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.42) to continue joining the plane (5.5.59.48) through the line (5.5.59.47) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.46) to continue joining the plane (5.5.59.51) through the straight line (5.5.59.49) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.50) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece;
SILLAR DE MEDIA ESPIGA o también denominado SILLAR DE AJUSTE CORTO (Pieza No.6) (Fig.No.47), (de configuración Media Omega), un sillar que tiene una base rectangular (6.1 ) de la cual se desprende un reborde o media espiga en forma de la letra Media Omega, (6.11 ) y se desprende sobre los planos laterales (6.2), (6.12), (6.17) como base de un plano paralelo al (6.1 ), que es el (6.3), unido por el plano inclinado (6.4) para unirse a su vez con el plano paralelo al (6.1) que es el (6.5) y al arco (6.6) a la diagonal (6.7) al arco (6.8) siguiendo con el plano paralelo al (6.1) que es el (6.9) y finalmente el plano inclinado (6.10) que completa el desprendimiento (6.11 ) del plano original (6.1), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (6.18) y otro inferior 6.19, que contienen un medio barreno (6.15), dispuesto en la parte central del reborde en forma de media omega y que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; formado por la diagonal (6.15) unida al plano (6.12) mediante la recta (6.13) paralela al plano (6.1) y el arco (6.14) y al plano (6.17) mediante el arco (6.16); HALF-SPIGOTE SADDLE or also called SHORT ADJUSTMENT SADDLE (Part No.6) (Fig.No.47), (Medium Omega configuration), an ashlar that has a rectangular base (6.1) from which a flange or half spike in the form of the letter Half Omega, (6.11) and emerges on the lateral planes (6.2), (6.12), (6.17) as the basis of a plane parallel to (6.1), which is (6.3), joined by the inclined plane (6.4) to join in turn with the plane parallel to (6.1) which is (6.5) and to the arc (6.6) to the diagonal (6.7) to the arc (6.8) following with the plane parallel to ( 6.1) which is (6.9) and finally the inclined plane (6.10) that completes the detachment (6.11) of the original plane (6.1), this configuration being three-dimensional, is complemented by two equal horizontal parallel planes, one superior (6.18) and another lower 6.19, which contain a half hole (6.15), arranged in the central part of the flange in the shape of a half omega and that crosses the thickness of the piece at its t otality, which can accommodate a rod and hydraulic concrete or installation lines; formed by the diagonal (6.15) joined to the plane (6.12) by the line (6.13) parallel to the plane (6.1) and the arc (6.14) and to the plane (6.17) by the arc (6.16);
SILLAR TERMO ACUSTICO DE MEDIA ESPIGA o también denominado SILLAR TERMO ACUSTICO DE AJUSTE CORTO (Pieza No.6.6) (Fig.No.48), (de configuración Media Omega), un sillar que tiene una base rectangular (6.6.1) de la cual se desprende un reborde o media espiga en forma de la letra Media Omega,THERMAL ACOUSTIC SADDLE WITH HALF SPIGOT or also called THERMAL ACOUSTIC SADDLE WITH SHORT ADJUSTMENT (Piece No.6.6) (Fig.No.48), (of Half Omega configuration), an ashlar that has a rectangular base (6.6.1) of the which detaches a flange or half spike in the shape of the letter Half Omega,
(6.6.11 ) y se desprende sobre los planos laterales (6.6.2), (6.6.2.1), (6.6.2.2),(6.6.11) and it appears on the lateral planes (6.6.2), (6.6.2.1), (6.6.2.2),
(6.6.12), (6.6.17), (6.6.17.1), (6.6.17.2), como base de un plano paralelo al (6.1), que es el (6.6.3), unido por el plano inclinado (6.6.4) para unirse a su vez con el plano paralelo al (6.6.1) que es el (6.6.5) y al arco (6.6.6) a la diagonal (6.6.7) al arco (6.6.8) siguiendo con el plano paralelo al 6.6.1 que es el (6.6.9) y finalmente el plano inclinado (6.6.10) que completa el desprendimiento (6.6.11) del plano original (6.6.1), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (6.6.18) y otro inferior (6.6.19), que contienen un medio barreno (6.6.15), dispuesto en la parte central del reborde en forma de media omega y que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; formado por la diagonal (6.6.15) unida al plano (6.6.12) mediante la recta (6.6.13) paralela al plano (6.6.1) y el arco (6.6.14) y al plano (6.6.17) mediante el arco (6.6.16); además del barreno descrito la pieza presenta también una placa de material aislante (6.6.20), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (6.6.20.1) paralelo al plano original (6.6.1) unido al segmento (6.6.20.4) también paralelo al plano original (6.1.1) mediante la recta (6.6.20.2) y el arco (6.6.20.3) esta se une a su vez con el segmento (6.6.20.7) paralelo al plano original (6.6.1) mediante la recta (6.6.20.6) y el arco (6.6.20.5); el segundo plano de esta placa tiene un segmento (6.6.20.9) paralelo al plano original (6.6.1) que se une con el segmento (6.6.20.7) también paralelo al plano original mediante la línea (6.6.20.8) perpendicular al plano original(6.6.12), (6.6.17), (6.6.17.1), (6.6.17.2), as the basis of a plane parallel to (6.1), which is (6.6.3), joined by the inclined plane ( 6.6.4) to join in turn with the plane parallel to (6.6.1) which is (6.6.5) and to the arc (6.6.6) to the diagonal (6.6.7) to the arc (6.6.8) continuing with the plane parallel to 6.6.1 which is (6.6.9) and finally the inclined plane (6.6.10) that completes the detachment (6.6.11) of the original plane (6.6.1), this configuration being three-dimensional , is complemented by two parallel planes equal horizontal, one upper (6.6.18) and one lower (6.6.19), which contain a half hole (6.6.15), arranged in the central part of the flange in the shape of a half omega and that crosses the thickness of the piece in its entirety, which can house a rod and hydraulic concrete or installation lines; formed by the diagonal (6.6.15) joined to the plane (6.6.12) by the line (6.6.13) parallel to the plane (6.6.1) and the arc (6.6.14) and to the plane (6.6.17) by the bow (6.6.16); in addition to the hole described, the part also has a plate of insulating material (6.6.20), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (6.6.20.1) parallel to the plane original (6.6.1) joined to the segment (6.6.20.4) also parallel to the original plane (6.1.1) through the line (6.6.20.2) and the arc (6.6.20.3) this is joined in turn with the segment ( 6.6.20.7) parallel to the original plane (6.6.1) through the line (6.6.20.6) and the arc (6.6.20.5); the second plane of this plate has a segment (6.6.20.9) parallel to the original plane (6.6.1) which is joined with the segment (6.6.20.7) also parallel to the original plane by the line (6.6.20.8) perpendicular to the plane original
(6.6.1 ), para continuar uniendo el segmento (1.1.20.12) paralelo al plano original(6.6.1), to continue joining the segment (1.1.20.12) parallel to the original plane
(6.6.1) mediante ei arco (6.6.20.11) y la línea recta (6.6.20.10) que es perpendicular al plano original (6.6.1), para continuar uniendo al segmento (6.6.20.15) paralelo al plano original (6.6.1) y que se une mediante la recta (6.6.20.14) perpendicular al plano original (6.6.1) y el arco (6.6.20.13) para continuar uniendo al segmento (6.6.20.20) que es paralelo al plano original (6.6.1) mediante el arco (6.6.20.17) y la recta (6.6.20.18) perpendicular al plano original (6.6.1) para continuar uniendo al segmento (6.6.20.21) que es paralelo al plano original (6.6.1 ) mediante la recta (6.6.20.20) perpendicular al plano original (6.6.1) y el arco (6.6.20.19) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; (6.6.1) by means of the arc (6.6.20.11) and the straight line (6.6.20.10) that is perpendicular to the original plane (6.6.1), to continue joining the segment (6.6.20.15) parallel to the original plane (6.6 .1) and that is joined by the line (6.6.20.14) perpendicular to the original plane (6.6.1) and the arc (6.6.20.13) to continue joining the segment (6.6.20.20) that is parallel to the original plane (6.6 .1) by means of the arc (6.6.20.17) and the line (6.6.20.18) perpendicular to the original plane (6.6.1) to continue joining the segment (6.6.20.21) that is parallel to the original plane (6.6.1) by the straight line (6.6.20.20) perpendicular to the original plane (6.6.1) and the arc (6.6.20.19) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece;
SILLAR DE REPISA (Pieza No.7) (Fig.No.49) ( Fig.No.50), (de configuración Doble Omega o Doble Espiga Con una Base Pronunciada) un sillar que tiene una base rectangular (7.1) de la cual se desprenden dos rebordes o espigas en forma de la letra Omega, el (7.11) y el (7.27) que se desprenden sobre dos planos laterales pronunciados situación que lo hace diferente de la descripción del SILLAR CENTRAL (Ver Pag 16 renglón 20) que son el (7.2, 7.36) como base de dos planos paralelos al (7.11 ), que son el (7.5), (7.19), (7.33), unidos por los planos inclinados (7.4), (7.18), (7.20), (7.34), para unirse a su vez con los planos paralelos al (7.1) que son el (7.5), (7.17), (7.21), (7.33) y con los arcos (7.6), (7.16), (7.22), (7.32) a las diagonales (7.7), (7.15), (7.23), (7.31), a los arcos (7.8), (7.14), (7.24), (7.30), siguiendo con los planos paralelos al (7.1) que son (7.9), (7.13), (7.25), (7.29), y finalmente los planos inclinados (7.10), (7.12), (7.26), (7.28) que completan los desprendimientos (7.1 1), (7.27) del plano original (7.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (7.39) y otro inferior (7.40), que contienen dos barrenos, el (7.37), (7.38), dispuestos en la parte central de cada reborde en forma de omega y están configurados por una figura trapezoidal que en el caso del barreno (7.37) presenta un segmento menor (7.37.1 ) es paralelo en primer término al plano original (7.1) y está unido al segmento mayor también paralelo al plano original (7.1) y es el segmento (7.37.6) unido mediante los arcos (7.37.2), (7.37.8), las diagonalesSHELF CHAIR (Piece No.7) (Fig.No.49) (Fig.No.50), (Double Omega or Double Spike configuration with a Steep Base) an ashlar that has a rectangular base (7.1) of which two edges or spikes in the shape of the letter Omega detach, (7.11) and (7.27) which detach on two pronounced lateral planes, a situation that makes it different from the description of the CENTRAL SADDLE (See Page 16 line 20) which are (7.2, 7.36) as the basis of two planes parallel to (7.11), which are (7.5), (7.19), (7.33), joined by the inclined planes (7.4), (7.18), (7.20), (7.34), to join in turn with the planes parallel to (7.1) which are (7.5), (7.17), (7.21), (7.33) and with the arcs (7.6), (7.16), (7.22), (7.32) to the diagonals (7.7), (7.15), (7.23), (7.31), to the arcs (7.8), (7.14), (7.24), (7.30), continuing with the planes parallel to (7.1) which are (7.9), (7.13), (7.25), (7.29), and finally the inclined planes (7.10), (7.12), (7.26), (7.28 ) that complete the detachments (7.1 1), (7.27) of the original plane (7.1) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (7.39) and a lower one (7.40), which contain two holes, the (7.37), (7.38), arranged in the central part of each rim in the shape of an omega and are configured by a trapezoidal figure that in the case of the hole (7.37) presents a smaller segment (7.37.1) is parallel in the foreground to the original plane (7.1) and is attached to the largest segment also parallel to the original plane (7.1) y is the segment (7.37.6) joined by the arcs (7.37.2), (7.37.8), the diagonals
(7.37.3), (7.37.7) y los arcos (7.37.4) y (7.37.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; en el caso del barreno (7.38) presenta un segmento menor (7.38.1) es paralelo en primer término al plano original (7.1) y está unido al segmento mayor también paralelo al plano original (7.1) y es el segmento (7.38.6) unido mediante los arcos (7.38.2), (7.38.8), las diagonales (7.38.3), (7.38.7) y los arcos (7.38.4) y (7.38.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; (7.37.3), (7.37.7) and the arcs (7.37.4) and (7.37.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety; in the case of the hole (7.38) it presents a minor segment (7.38.1) is parallel in the first term to the original plane (7.1) and is attached to the major segment also parallel to the original plane (7.1) and is the segment (7.38.6 ) joined by the arcs (7.38.2), (7.38.8), the diagonals (7.38.3), (7.38.7) and the arcs (7.38.4) and (7.38.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety;
SILLAR ESCALON DE ESPIGA Y MEDIA, (Pieza No.13) (Fig.No.51 ), (Fig.No.52) (de configuración Una Omega y Media) un sillar que tiene una base rectangular (13.1) de la cual se desprenden dos rebordes o espigas, uno en forma de la letra Omega, el (3.11) y el otro en forma de media Omega, el (3.27) que se desprenden sobre dos planos laterales pronunciados el (13.2) y el (13.33) situación que lo hace diferente de la descripción del SILLAR DE ESPIGA Y MEDIA O DE AJUSTE LARGO (Ver Pag 15 renglón 25) y el plano (13.29) unidos mediante los arcos (13.30) y (13.32) y la diagonal (13.31 ) y toman como base a dos planos paralelos al (13.1), que son elCHAIR WITH A HALF AND A HALF STEP, (Piece No.13) (Fig.No.51), (Fig.No.52) (configuration One Omega and a Half) an ashlar that has a rectangular base (13.1) from which is they detach two edges or spikes, one in the shape of the letter Omega, the (3.11) and the other in the shape of a half Omega, the (3.27) that emerge on two pronounced lateral planes (13.2) and the (13.33) situation that makes it different from the description of the SPIKE AND MEDIUM OR LONG ADJUSTMENT SADDLE (See Page 15, row 25) and the plane (13.29) joined by the arches (13.30) and (13.32) and the diagonal (13.31) and take as a base to two planes parallel to (13.1), which are the
(13.3), (13.19), unidos por los planos inclinados (13.4), (13.18), (13.20), para unirse a su vez con los planos paralelos al (13.1) que son el (13.5), (13.17), (13.21) y a los arcos (13.6), (13.16), (13.22), a las diagonales (13.7), (13.15), (13.23), a los arcos (13.8), (13.14), (13.24), siguiendo con los planos paralelos al (13.1) que son (13.9), (13.13), (13.25), y finalmente los planos inclinados (13.10), (13.12), (13.26), que completan el desprendimiento (13.11), (113.27) del plano original (3.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (13.34) y otro inferior (13.35), que contienen un barreno (13.33) dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (13.33.2) es paralelo en primer término al plano original (13.1) y está unido al segmento mayor también paralelo al plano original (13.1) y es el segmento (13.33.5) unido mediante los arcos (13.33.2), (13.33.8), las diagonales (13.33.3), (13.33.7) y los arcos (13.33.4) y (13.33.6); dispuestos en la parte central del reborde en forma de Omega y que atraviesa el espesor de la pieza en su totalidad; (13.3), (13.19), joined by the inclined planes (13.4), (13.18), (13.20), to join in turn with the planes parallel to (13.1) which are (13.5), (13.17), ( 13.21) and to the arcs (13.6), (13.16), (13.22), to the diagonals (13.7), (13.15), (13.23), to the arches (13.8), (13.14), (13.24), following the planes parallel to (13.1) which are (13.9), (13.13), (13.25), and finally the inclined planes (13.10), (13.12), (13.26), which complete the detachment (13.11), (113.27) of the original plane (3.1) and that this configuration, being three-dimensional, are complemented by two equal horizontal parallel planes, an upper one (13.34) and a lower one (13.35), which contain a hole (13.33) arranged in the central part of the omega-shaped rim and is configured by a trapezoidal figure whose smaller segment ( 13.33.2) is parallel in the first term to the original plane (13.1) and is joined to the larger segment also parallel to the original plane (13.1) and is the segment (13.33.5) joined by the arcs (13.33.2), (13.33 .8), the diagonals (13.33.3), (13.33.7) and the arcs (13.33.4) and (13.33.6); arranged in the central part of the rim in the shape of an Omega and that crosses the thickness of the piece in its entirety;
DESCRIPCION DEL ARMADO DEL SISTEMA: DESCRIPTION OF THE ASSEMBLY OF THE SYSTEM:
El Sistema consiste en sillares que se ensamblan entre si para la construcción de muros y modelos que no requiere de mezcla o aglutinante para su colocación pues por su forma geométrica presentan espigas que se introducen dentro de alveolos, las espigas se forman con rebordes en forma de Omega y los alveolos se forman al juntar dos Omegas por su base quedando también el alveolo en forma de Omega permitiendo así el ensamble, en todos los casos las piezas se presentan en dos alturas o medidas de los planos verticales, unas piezas más cortas (con una altura de 100 mm. como ejemplo) y otras con mayor altura en este caso de 200 mm., como ejemplo) de esta manera el SILLAR DE UNA ESPIGA (Pieza No.1) que tiene forma de Omega (1.11) se puede ensamblar en los alveolos que se forman con dos omegas unidas por su base como lo presenta EL SILLAR CENTRAL (Pieza No.2); ahora bien si juntamos dos SILLARES CENTRALES (Pieza No.2) en forma lineal unidas por su base, tendremos cuatro espigas (Fig. No.53) (2.11) (2.27) y así sucesivamente se forma una cadena de espigas y alveolos para lograr el ensamble de todas las piezas y conformar un muro (3.11) (3.27) (4.1 1) (4.27) (4.38) (5.11) (5.27) (5.40) (6.11), es necesario desplantar la primera hilada de una cara del muro con sillares cortos de altura (Fig. No. 54) (1.b) (2.b) (3.b) (4.b) (5.b) (6.b) y de la cara opuesta a éstos desplantar con sillares de mayor altura (1) (2) (3) (4) (5) (6), es decir que el muro tiene dos caras formadas cada una por sillares iguales pero opuestos, al ensamblar estos sillares por el frente de los rebordes en forma de Omega dentro de los alvéolos quedan unidos los planos opuestos, de la segunda hilada en adelante se colocaran los sillares de mayor altura sobre ambas caras del muro como se muestra en la (Fig.55), hasta alcanzar la altura deseada, una ves terminado el muro como queda una hilada más baja que la opuesta se procede a enrasar el lado mas bajo con una hilada de piezas de menor altura (2.b) como se muestra en la figura (N°56) y así poder terminar el muro; The System consists of ashlars that are assembled together for the construction of walls and models that do not require a mixture or binder for their placement because due to their geometric shape they have spikes that are inserted into alveoli, the spikes are formed with edges in the form of Omega and the alveoli are formed by joining two Omegas at their base, leaving the alveolus in the shape of an Omega thus allowing assembly, in all cases the pieces are presented in two heights or measures of the vertical planes, some shorter pieces (with a height of 100 mm. as an example) and others with a greater height in this case of 200 mm., as an example) in this way the SADDLE OF A SPIGE (Part No.1) that has an Omega shape (1.11) can be assembled in the alveoli that are formed with two omegas joined at their base as presented by EL SILLAR CENTRAL (Piece No.2); Now if we join two CENTRAL CHAIRS (Piece No.2) in a linear way joined by their base, we will have four spikes (Fig. No.53) (2.11) (2.27) and so on, a chain of spikes and alveoli is formed to achieve the assembly of all the pieces and form a wall (3.11) (3.27) (4.1 1) (4.27) (4.38) (5.11) (5.27) (5.40) (6.11), it is necessary to offset the first course of one face of the wall with short ashlars of height (Fig. No. 54) (1.b) (2.b) (3.b) (4.b) (5.b) (6.b) and on the opposite face to these displantar with ashlars of greater height (1) (2) (3) (4) (5) (6), that is to say that the wall has two faces each one formed by equal but opposite ashlars, when assembling these ashlars from the front of the Omega-shaped ridges inside the alveoli are joined by the opposite planes, of the second course in ahead, the highest ashlars will be placed on both sides of the wall as shown in (Fig. 55), until the desired height is reached, once the wall is finished as there is a lower course than the opposite one, the side is leveled lower with a row of pieces of less height (2.b) as shown in the figure (N ° 56) and thus be able to finish the wall;
para las esquinas se utilizan los SILLARES DE AJUSTE LARGO (Pieza No.3), SILLARES ESQUINEROS (Pieza No.4) y los SILLARES DE AJUSTE CORTO (Pieza No.6), esto se conforma cuando se acoplan los SILLARES ESQUINEROS (Pieza No.4), quedando el reborde en forma de Omega acoplada al alveolo del SILLAR DE AJUSTE LARGO (Pieza No.3) o con el SILLAR DE AJUSTE CORTO (Pieza No.6) cuando se acopla el reborde en forma de Omega del SILLAR ESQUINERO (Pieza No.4) con la media Omega del SILLAR DE AJUSTE CORTO (Pieza No.6), como se muestra en las esquinas de la (Fig. 56); LOS SILLARES CRUCERO (Pieza No.5), como su nombre lo indica se utilizan en los cruceros, cuando su alveolo, se acopla con el SILLAR ESQUINERO (Pieza No.4) por medio de su reborde en forma de Omega y también cuando se acopla con el SILLAR CENTRAL (Pieza No.2) por medio de sus rebordes en forma de Omega, así como también con el SILLAR DE AJUSTE CORTO (Pieza No.6) por medio de sus planos rectos y su medio barreno en forma trapezoidal , como se muestra en la (Fig. N° 53) en su parte central; For the corners, the LONG ADJUSTMENT CHAIRS (Piece No. 3), CORNER CHAIRS (Piece No. 4) and the SHORT ADJUSTMENT CHAIRS (Piece No. 6) are used, this is formed when the CORNER CHAIRS (Piece No. .4), leaving the Omega-shaped flange attached to the socket of the LONG ADJUSTMENT SADDLE (Part No.3) or with the SHORT ADJUSTMENT SADDLE (Part No.6) when the Omega-shaped flange of the CORNER SEAT is attached (Part No.4) with the Omega half of the SHORT ADJUSTMENT SADDLE (Part No.6), as shown in the corners of (Fig. 56); CRUISE SILLARS (Piece No.5), as their name indicates, are used on cruise ships, when their socket is coupled with the CORNER SILLARS (Piece No.4) by means of its Omega-shaped edge and also when it is couples with the CENTRAL SADDLE (Piece No.2) by means of its Omega-shaped flanges, as well as with the SHORT ADJUSTMENT SADDLE (Piece No.6) by means of its straight planes and its trapezoidal-shaped half hole, as shown in (Fig. N ° 53) in its central part;
Para los ajustes se utilizan los SILLARES DE UNA ESPIGA (Pieza No.1), SILLARES DE AJUSTE LARGO (Pieza No.3) o SILLARES DE AJUSTE CORTO (Pieza No.6), cuyos rebordes en forma de Omega quedan acoplados a los alvéolos, como se muestra en la (Fig. 54); For the adjustments, the SADDLES WITH SINGLE PIN (Piece No.1), SADDLES WITH LONG ADJUSTMENT (Piece No.3) or SADDLES WITH SHORT ADJUSTMENT (Piece No.6) are used, whose Omega-shaped rims are attached to the alveoli , as shown in (Fig. 54);
La espiga en forma de Omega, también presenta un barreno en el centro de todos los sillares que podrá ser utilizado para alojar un castillo armado o líneas de instalaciones según sea el caso y serán calculados estructuralmente para cada caso según su utilidad; The Omega-shaped spike also has a hole in the center of all the ashlars that can be used to house an armed castle or lines of installations as the case may be and will be structurally calculated for each case according to their utility;
Es importante hacer notar que los planos inclinados (1.4) (1.10) (1.12) (1.18) (FigNo.7); (2.4) (2.10) (2.12) (2.18) (2.20) (2.26) (2.28) (2.34) (Fig.No.15); (3.4) (3.10) (3.12) (3.18) (3.20) (3.26) (Fig.No.23); (4.4) (4.10) (4.12) (4.18) (4.20) (4.26) (4.31) (4.37) (4.39) (4.46) (Fig.No.31 ); (5.4) (5.10) (5.12) (5.18) (5.20) (5.26) (5.33) (5.39) (5.41) (5.47) (Fig.No.39); (6.4) (6.10) (FigNo.47); impiden el deslizamiento de los planos (2.1) (2.35) (2.3) cuando se les ejerce una fuerza lateral (F1) (Fig.No.58) (Fig.No.59) y esto sirve como ejemplo para todos los casos y que es parte fundamental de ta mejora que se le hace al Modelo de Utilidad que registramos de nuestra propiedad y que el IMP1 nos otorgó con el número IMPI/1973 expedida el 11 de marzo de 2009; It is important to note that the inclined planes (1.4) (1.10) (1.12) (1.18) (FigNo.7); (2.4) (2.10) (2.12) (2.18) (2.20) (2.26) (2.28) (2.34) (Fig.No.15); (3.4) (3.10) (3.12) (3.18) (3.20) (3.26) (Fig.No.23); (4.4) (4.10) (4.12) (4.18) (4.20) (4.26) (4.31) (4.37) (4.39) (4.46) (Fig.No.31); (5.4) (5.10) (5.12) (5.18) (5.20) (5.26) (5.33) (5.39) (5.41) (5.47) (Fig.No.39); (6.4) (6.10) (FigNo.47); prevent the sliding of the planes (2.1) (2.35) (2.3) when a lateral force is exerted (F1) (Fig.No.58) (Fig.No.59) and this serves as an example for all cases and that it's part fundamental of the improvement that is made to the Utility Model that we register of our property and that the IMP1 granted us with the number IMPI / 1973 issued on March 11, 2009;

Claims

Reivindicaciones: Habiendo descrito suficientemente mi invención, la considero como una novedad y por lo tanto reclamo de nuestra exclusiva propiedad lo contenido en las siguientes cláusulas: Claims: Having sufficiently described my invention, I consider it as a novelty and therefore claim to our exclusive property what is contained in the following clauses:
1.- UN SISTEMA CONSTRUCTIVO A BASE DE SILLARES DE INTERCONEXIÓN MÚLTIPLE que se acoplan entre si para la construcción de muros y modelos que no requieren de mezcla o aglutinante para su colocación obteniendo como resultado una estructura plana, estable y rígida como son“Muros para edificaciones o a escala de todo género, de carga, divisorios, decorativos, de contención, para puentes, terracerías, gaviones, diques, obras marítimas, ataguías, tablestacados” o similares; además se incluyen al presente sistema diversos elementos adicionales que estamos innovando y que se integran al mismo como son: sillares que incluyen en su cuerpo una capa de material aislante, escalones y repisas; este sistema está compuesto por los elementos que se describen a continuación: 1.- A CONSTRUCTION SYSTEM BASED ON MULTIPLE INTERCONNECTION CHAIRS that are coupled together for the construction of walls and models that do not require a mixture or binder for their placement, obtaining as a result a flat, stable and rigid structure such as “Walls for buildings or to scale of all kinds, load-bearing, dividing, decorative, containment, for bridges, dirt roads, gabions, dikes, maritime works, cofferdams, sheet piling ”or similar; In addition, the present system includes various additional elements that we are innovating and that are integrated into it, such as: ashlars that include a layer of insulating material, steps and shelves in their body; This system is made up of the elements described below:
SILLAR DE UNA ESPIGA (Pieza No.1), (de configuración Omega) un sillar que tiene una base rectangular (1.1 ) de la cual se desprende un reborde o espiga en forma de la letra Omega, (1.11) y se desprende sobre dos planos laterales (1.2), (1.20), y tomando como base dos planos paralelos al (1.1), que son (1.3) y (1.19), unidos por los planos inclinados (1.4), (1.18) para unirse a su vez con los planos paralelos al (1.1) que son el (1.5), (1.17) y a los arcos (1.6), (1.16), las diagonales (1.7), (1.15), los arcos (1.8), (91), (14) siguiendo con los planos paralelos al (1.1 ) que son (1.9), (1.13), y finalmente los planos inclinados (1.10), (1.12), que completan el desprendimiento (1.11) del plano original (1.1 ), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (1.18) y otro inferior (1.19), que contienen un barreno (1.17), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (1.17.1) es paralelo en primer término al plano original (1.1) y está unido al segmento mayor también paralelo al plano original (1.1) y es el segmento (1.17.5) unido mediante los arcos (1.17.2), (1.17.8), las diagonales (1.17.3), (1.17.7) y los arcos (1.17.4) y (1.17.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SADDLE WITH ONE SPIKE (Piece No.1), (Omega configuration) an ashlar that has a rectangular base (1.1) from which a flange or spike in the shape of the letter Omega emerges, (1.11) and detaches on two lateral planes (1.2), (1.20), and taking as a basis two planes parallel to (1.1), which are (1.3) and (1.19), joined by the inclined planes (1.4), (1.18) to join in turn with the planes parallel to (1.1) which are (1.5), (1.17) and to the arcs (1.6), (1.16), the diagonals (1.7), (1.15), the arcs (1.8), (91), (14 ) following with the planes parallel to (1.1) which are (1.9), (1.13), and finally the inclined planes (1.10), (1.12), which complete the detachment (1.11) of the original plane (1.1), this configuration at Being three-dimensional, it is complemented by two equal horizontal parallel planes, one upper (1.18) and the other lower (1.19), which contain a hole (1.17), arranged in the central part of the omega-shaped rim and is configured by a trapezium figure oidal whose minor segment (1.17.1) is parallel in the first term to the original plane (1.1) and is joined to the major segment also parallel to the original plane (1.1) and is the segment (1.17.5) joined by the arcs (1.17. 2), (1.17.8), the diagonals (1.17.3), (1.17.7) and the arcs (1.17.4) and (1.17.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
SILLAR TERMOACUSTICO DE UNA ESPIGA (Pieza N°.1.1 ), (de configuración Omega) un sillar que tiene una base rectangular (1.1) de la cual se desprende un reborde o espiga en forma de Omega, (1.11) y se desprende sobre dos planos laterales (1.2), (1.1.20), y tomando como base dos planos paralelos al (1.1), que son (1.3) y (1.19), unidos por los planos inclinados (1.4), (1.18) para unirse a su vez con los planos paralelos al (1.1) que son el (1.5), (1.17) y a los arcos (1.6), (1.16), las diagonales (1.7), (1.15), los arcos (1.8), (1.14) siguiendo con los planos paralelos alTHERMOACUSTIC SADDLE WITH SINGLE SPIGOT (Part No. 1.1), (configuration Omega) an ashlar that has a rectangular base (1.1) from which an edge or spike in the shape of Omega emerges, (1.11) and it falls off on two lateral planes (1.2), (1.1.20), and taking as a base two planes parallel to (1.1), which are (1.3) and (1.19), joined by the inclined planes (1.4), (1.18) to join in turn with the planes parallel to (1.1) which are (1.5), (1.17) and to the arcs (1.6), (1.16), the diagonals (1.7), (1.15), the arcs (1.8), (1.14) following the planes parallel to the
(1.1) que son (1.9), (1.13), y finalmente los planos inclinados (1.10), (1.12), que completan el desprendimiento (1.11) del plano original (1.1), esta configuración al ser tridimensional se complementa por dos planos paralelos horizontales iguales, uno superior (1.18) y otro inferior (1.19), que contienen un barreno (1.17), dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad y está formado por una figura trapezoidal cuyo segmento menor(1.1) which are (1.9), (1.13), and finally the inclined planes (1.10), (1.12), which complete the detachment (1.11) of the original plane (1.1), this configuration being three-dimensional is complemented by two planes equal horizontal parallels, an upper one (1.18) and a lower one (1.19), which contain a hole (1.17), arranged in the central part of the omega-shaped flange and which crosses the thickness of the part in its entirety and is formed by a trapezoidal figure whose minor segment
(1.17.1) es paralelo en primer término al plano original (1.1) y está unido al segmento mayor también paralelo al plano original (1.1) y es el segmento (1.17.5) unido mediante los arcos (1.17.2), (1.17.8), las diagonales (1.17.3), (1.17.7) y los arcos (1.17.4) y (1.17.6); además del barreno descrito la pieza presenta también una placa de material aislante (1.1.20), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento(1.17.1) is parallel in the first term to the original plane (1.1) and is joined to the largest segment also parallel to the original plane (1.1) and is the segment (1.17.5) joined by the arcs (1.17.2), ( 1.17.8), the diagonals (1.17.3), (1.17.7) and the arcs (1.17.4) and (1.17.6); In addition to the hole described, the part also has a plate of insulating material (1.1.20), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment
(1.1.20.1) paralelo al plano original (1.1) unido al segmento (1.1.20.4) también paralelo al plano original (1.1) mediante el arco (1.1.20.2) y la recta (1.1.20.3) perpendicular al plano original (1.1); esta se une a su vez con el segmento (1.1.20.7) paralelo al plano original (1.1) mediante la recta perpendicular (1.1.20.5) y el arco (1.1.20.6) que a su vez se une al segmento (1.1.20.10) paralelo al plano original(1.1.20.1) parallel to the original plane (1.1) joined to the segment (1.1.20.4) also parallel to the original plane (1.1) through the arc (1.1.20.2) and the line (1.1.20.3) perpendicular to the original plane (1.1 ); this in turn joins the segment (1.1.20.7) parallel to the original plane (1.1) through the perpendicular line (1.1.20.5) and the arc (1.1.20.6) which in turn joins the segment (1.1.20.10 ) parallel to the original plane
(1.1 ) mediante el arco (1.1.20.8) y la recta (1.1.20.9) perpendicular al plano original(1.1) through the arc (1.1.20.8) and the line (1.1.20.9) perpendicular to the original plane
(1.1) y se continua uniendo al segmento (1.1.20.13) paralelo al plano original (1.1) mediante la recta (1.1.20.11) perpendicular al plano original (1.1) y el arco (1.1.20.12), continuando con la unión del segmento (1.1.20.16) mediante la recta (1.1.20.15) perpendicular al plano original (1.1) y el arco (1.1.20.14) para finalizar uniendo el segmento (1.1.20.19) mediante la recta (1.1.20.17) perpendicular al plano original (1.1) y el arco (1.1.20.18), con este último segmento se termina un lado de la placa aislante; el segundo plano de esta placa tiene un segmento (1.1.20.20) paralelo al plano original (1.1) que se une con el segmento (1.1.20.23) también paralelo al plano original mediante la línea (1.1.20.21) perpendicular al plano original(1.1) and continue joining the segment (1.1.20.13) parallel to the original plane (1.1) through the line (1.1.20.11) perpendicular to the original plane (1.1) and the arc (1.1.20.12), continuing with the union of the segment (1.1.20.16) through the line (1.1.20.15) perpendicular to the original plane (1.1) and the arc (1.1.20.14) to finish joining the segment (1.1.20.19) through the line (1.1.20.17) perpendicular to the plane original (1.1) and arch (1.1.20.18), with this last segment one side of the insulating plate is finished; the second plane of this plate has a segment (1.1.20.20) parallel to the original plane (1.1) that is joined with the segment (1.1.20.23) also parallel to the original plane by the line (1.1.20.21) perpendicular to the original plane
(1.1) y al arco (1.1.20.22), para continuar uniendo el segmento (1.1.20.26) paralelo al plano original (1.1) mediante el arco (1.1.20.24) y la línea recta (1.1.20.25) que es perpendicular al plano original (1.1) para continuar uniendo al segmento (1.1.20.29) paralelo al plano original (1.1) y que se une mediante la recta (1.1.20.27) perpendicular al plano original (1.1) y el arco (1.1.20.28) para continuar uniendo al segmento (1.1.20.32) que es paralelo al plano original (1.1) mediante el arco (1.1.20.30) y la recta (1.1.20.31 ) perpendicular al plano original (1.1) para continuar uniendo al segmento (1.1.20.35) que es paralelo al plano original (1.1) mediante la recta (1.1.20.33) perpendicular al plano original (1.1) y el arco (1.1.20.34) para continuar uniendo por ultimo al segmento (1.1.20.38) que es paralelo al plano original (1.1), mediante el arco (1.1.20.36) y la recta (1.1.20.37) perpendicular al plano original (1.1) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; SILLAR CENTRAL (Pieza N.°2), (de configuración Doble Omega o Doble Espiga) un sillar que tiene una base rectangular (2.1) de la cual se desprenden dos rebordes o espigas en forma de Omega, el (2.11) y el (2.27) que se desprenden sobre dos planos laterales (2.2),(1.1) and the arc (1.1.20.22), to continue joining the segment (1.1.20.26) parallel to the original plane (1.1) using the arc (1.1.20.24) and the straight line (1.1.20.25) that is perpendicular to the original plane (1.1) to continue joining the segment (1.1.20.29) parallel to the original plane (1.1) and that is joined by the line (1.1.20.27) perpendicular to the original plane (1.1) and the arc (1.1.20.28) to continue joining the segment (1.1.20.32) that is parallel to the original plane (1.1) by the arc (1.1. 20.30) and the line (1.1.20.31) perpendicular to the original plane (1.1) to continue joining the segment (1.1.20.35) that is parallel to the original plane (1.1) through the line (1.1.20.33) perpendicular to the original plane (1.1 ) and the arc (1.1.20.34) to continue finally joining the segment (1.1.20.38) that is parallel to the original plane (1.1), through the arc (1.1.20.36) and the line (1.1.20.37) perpendicular to the plane original (1.1) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece; CENTRAL SADDLE (Piece No. 2), (Double Omega or Double Spike configuration) an ashlar that has a rectangular base (2.1) from which two ridges or spikes in the shape of Omega emerge, the (2.11) and the ( 2.27) that emerge on two lateral planes (2.2),
(2.36) como base de dos planos paralelos al (2.11 ), que son el (2.5), (2.19), (2.33), unidos por los planos inclinados (2.4), (2.18), (2.20) (2.34), para unirse a su vez con los planos paralelos al (2.1) que son el (2.5), (2.17), (2.21 ), (2.33) y con los arcos (2.6), (2.16), (2.22), (2.32) a las diagonales (2.7), (2.15), (2.23), (2.31), a los arcos (2.8), (2.14), (2.24), (2.30), siguiendo con los planos paralelos al (2.1) que son (2.9), (2.13), (2.25), (2.29), y finalmente los planos inclinados (2.10), (2.12), (2.26), (2.28) que completan los desprendimientos (2.11), (2.27) del plano original (2.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (2.39) y otro inferior (2.40), que contienen dos barrenos, el (2.37), (2.38), dispuestos en la parte central de cada reborde en forma de omega y están configurados por una figura trapezoidal que en el caso del barreno(2.36) as the basis of two planes parallel to (2.11), which are (2.5), (2.19), (2.33), joined by the inclined planes (2.4), (2.18), (2.20) (2.34), for join in turn with the planes parallel to (2.1) which are (2.5), (2.17), (2.21), (2.33) and with the arcs (2.6), (2.16), (2.22), (2.32) a the diagonals (2.7), (2.15), (2.23), (2.31), to the arcs (2.8), (2.14), (2.24), (2.30), following with the planes parallel to (2.1) which are (2.9 ), (2.13), (2.25), (2.29), and finally the inclined planes (2.10), (2.12), (2.26), (2.28) that complete the detachments (2.11), (2.27) of the original plane (2.1 ) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (2.39) and a lower one (2.40), which contain two holes, the (2.37), (2.38), arranged in the central part of each omega-shaped flange and are configured by a trapezoidal figure that in the case of the hole
(2.37) presenta un segmento menor (2.37.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento (2.37.6) unido mediante los arcos (2.37.2), (2.37.8), las diagonales (2.37.3), (2.37.7) y los arcos (2.37.4) y (2.37.6) dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; en el caso del barreno (2.38) presenta un segmento menor (2.38.1 ) es paralelo en primer término al plano original (2.1 ) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento 2.38.6 unido mediante los arcos (2.38.2), (2.38.8), tas diagonales (2.38.3), (2.38.7) y los arcos (2.38.4) y(2.37) presents a minor segment (2.37.1) is parallel in the first term to the original plane (2.1) and is joined to the major segment also parallel to the original plane (2.1) and is the segment (2.37.6) joined by means of the arcs (2.37.2), (2.37.8), the diagonals (2.37.3), (2.37.7) and the arches (2.37.4) and (2.37.6) arranged in the central part of the two flanges in the form of omega and that crosses the thickness of the piece in its entirety; in the case of the hole (2.38) it presents a minor segment (2.38.1) is parallel in the first term to the original plane (2.1) and is attached to the major segment also parallel to the original plane (2.1) and is the segment 2.38.6 attached through the arcs (2.38.2), (2.38.8), the diagonals (2.38.3), (2.38.7) and the arcs (2.38.4) and
(2.38.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SILLAR TERMO ACÚSTICO CENTRAL (Pieza N°.2.2), (de configuración Doble Omega o Doble Espiga) un sillar que tiene una base rectangular (2.2.1) de la cual se desprenden dos rebordes o espigas en forma de Omega, el (2.2.11 ) y el (2.2.27) que se desprenden sobre dos planos laterales (2.2.2), (2.2.36) como base de dos planos paralelos al (2.2.11) ,que son el (2.2.5), (2.2.19), (2.2.33), unidos por los planos inclinados (2.2.4), (2.2.18), (2.2.20), (2.2.34) para unirse a su vez con los planos paralelos al (2.2.1) que son el (2.2.5), (2.2.17), (2.2.21), (2.2.33) y con los arcos (2.2.6), (2.2.16), (2.2.22), (2.2.32) a las diagonales (2.2.7), (2.2.15), (2.2.23), (2.2.31 ), a los arcos (2.2.8), (2.2.14), (2.2.24), (2.2.30), siguiendo con los planos paralelos al (2.2.1) que son (2.2.9), (2.2.13), (2.2.25), (2.2.29), y finalmente los planos inclinados (2.2.10), (2.2.12), (2.2.26), (2.2.28) que completan los desprendimientos (2.2.11), (2.27) del plano original (2.2.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (2.2.39) y otro inferior (2.2.40), que contienen dos barrenos, el (2.2.37), (2.2.38), dispuestos en la parte central de cada reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad y están configurados por una figura trapezoidal que en el caso del barreno (2.2.37) presenta un segmento menor (2.2.37.1) es paralelo en primer término al plano original (2.1) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento (2.2.37.6) unido mediante los arcos (2.2.37.2), (2.37.8), las diagonales (2.2.37.3), (2.2.37.7) y los arcos (2.2.37.4) y (2.2.37.6); en el caso del barreno (2.38) presenta un segmento menor (2.2.38.1) es paralelo en primer término al plano original (2.1 ) y está unido al segmento mayor también paralelo al plano original (2.1) y es el segmento (2.2.38.6) unido mediante los arcos (2.2.38.2), (2.2.38.8), las diagonales (2.2.38.3), (2.2.38.7) y los arcos (2.2.38.4) y(2.38.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety; CENTRAL ACOUSTIC THERMO SADDLE (Part No. 2.2), (Double Omega or Double Spike configuration) an ashlar that has a rectangular base (2.2.1) from which two edges or spikes in the shape of Omega emerge, the (2.2 .11) and (2.2.27) that emerge on two lateral planes (2.2.2), (2.2.36) as the basis of two planes parallel to (2.2.11), which are (2.2.5), (2.2.19), (2.2.33), joined by the inclined planes (2.2.4), (2.2.18), (2.2.20), (2.2.34) to join in turn with the planes parallel to the (2.2.1) which are the (2.2.5), (2.2.17), (2.2.21), (2.2.33) and with the arcs (2.2.6), (2.2.16), (2.2. 22), (2.2.32) to the diagonals (2.2.7), (2.2.15), (2.2.23), (2.2.31), to the arcs (2.2.8), (2.2.14), (2.2.24), (2.2.30), following the planes parallel to (2.2.1) which are (2.2.9), (2.2.13), (2.2.25), (2.2.29), and finally the inclined planes (2.2.10), (2.2.12), (2.2.26), (2.2.28) that complete the detachments (2.2.11), (2.27) of the original plane (2.2.1) and that this configuration to se r three-dimensional, are complemented by two equal horizontal parallel planes, an upper one (2.2.39) and a lower one (2.2.40), which contain two holes, the (2.2.37), (2.2.38), arranged in the part center of each omega-shaped flange that crosses the thickness of the piece in its entirety and is configured by a trapezoidal figure that in the case of the hole (2.2.37) presents a smaller segment (2.2.37.1) is parallel in the first term to the original plane (2.1) and is joined to the largest segment also parallel to the original plane (2.1) and is the segment (2.2.37.6) joined by the arcs (2.2.37.2), (2.37.8), the diagonals (2.2 .37.3), (2.2.37.7) and the arcs (2.2.37.4) and (2.2.37.6); in the case of the hole (2.38) it presents a minor segment (2.2.38.1) is parallel in the first term to the original plane (2.1) and is attached to the major segment also parallel to the original plane (2.1) and is the segment (2.2.38.6 ) joined by the arcs (2.2.38.2), (2.2.38.8), the diagonals (2.2.38.3), (2.2.38.7) and the arcs (2.2.38.4) and
(2.2.38.6); además del barreno descrito la pieza presenta también una placa de material aislante (2.2.41), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (2.2.41.1) paralelo al plano original (2.2.1 ) unido al segmento (2.2.41.4) también paralelo al plano original (2.2.1) mediante la recta (2.2.41.2) perpendicular al plano original (2.2.1) y el arco (2.2.41.3) y esta se une a su vez con el segmento (2.2.41.7) paralelo al plano original (2.2.1) mediante el arco (2.2.41.5) y la reta (2.2.41.6) perpendicular al plano original (2.2.1) que a su vez se une al segmento (2.2.41.10) paralelo al plano original (2.2.1) mediante la recta (2.2.41.8) perpendicular al plano original (2.2.1 ) y el arco (2.2.41.9) y se continua uniendo al segmento (2.2.41.13) paralelo al plano original (2.2.1) mediante el arco (2.2.41.1 1) y la recta (2.2.41.12) perpendicular al plano original (2.2.1), continuando con la unión del segmento (2.2.41.16) mediante la recta (2.2.41.14) perpendicular al plano original (2.1) y el arco (2.2.41.15) para continuar uniendo el segmento (2.2.41.19) mediante la recta (2.2.41.18) perpendicular al plano original (2.1) y el arco (2.2.41.17.17), para continuar uniendo el segmento (2.2.41.22) paralelo al plano original (2.1) mediante la recta (2.2.41.20) perpendicular al plano original (2.1) y el arco (2.2.41.21), para continuar uniendo el segmento (2.2.41 25) que es paralelo al plano original (2.1) mediante la recta (2.2.41.24) perpendicular al plano original (2.1 ) y el arco (2.2.41.23) para continuar uniendo el segmento (2.2.41.28) que es paralelo al plano original (2.1 ) mediante la recta (2.2.41.27) perpendicular al plano original (2.1) y el arco (2.2.41.26); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (2.2.41.32) paralelo al plano original (2.2.41.35) que se une con el segmento (2.2.41.37) también paralelo al plano original mediante la línea recta (2.2.41.34) perpendicular al plano original (2.1) y al arco (2.2.41.33), para continuar uniendo el segmento (2.2.41.40) paralelo al plano original (2.1) mediante el arco (2.2.41.38) y la línea recta (2.2.41.39) que es perpendicular al plano original (2.1) para continuar uniendo al segmento (2.2.41.43) paralelo al plano original (2.1 ) y que se une mediante la recta (2.2.41.41 ) perpendicular al plano original (2.1) y el arco (2.2.41.42) para continuar uniendo al segmento (2.2.41.46 )que es paralelo al plano original (2.1) mediante el arco (2.2.41.44) y la recta (2.2.41.45) perpendicular al plano original (2.1 ) para continuar uniendo al segmento(2.2.38.6); In addition to the hole described, the piece also has a plate of insulating material (2.2.41), which also crosses the thickness of the piece in its entirety and whose shape is configured by the following segments: the segment (2.2.41.1) parallel to the plane original (2.2.1) joined to the segment (2.2.41.4) also parallel to the original plane (2.2.1) through the line (2.2.41.2) perpendicular to the original plane (2.2.1) and the arc (2.2.41.3) and this is joined in turn with the segment (2.2.41.7) parallel to the original plane (2.2.1) by means of the arc (2.2.41.5) and the challenge (2.2.41.6) perpendicular to the original plane (2.2.1) which in turn joins the segment (2.2.41.10) parallel to the original plane (2.2.1) by the line (2.2.41.8) perpendicular to the original plane (2.2.1) and the arc (2.2.41.9) and continues to join the segment (2.2.41.13) parallel to the original plane (2.2.1) by means of the arc (2.2.41.1 1) and the line (2.2.41.12) perpendicular to the original plane (2.2. 1), continuing with the union of the segment (2.2.41.16) through the line (2.2.41.14) perpendicular to the original plane (2.1) and the arc (2.2.41.15) to continue joining the segment (2.2.41.19) through the line (2.2.41.18) perpendicular to the original plane (2.1) and the arc (2.2.41.17.17), to continue joining the segment (2.2.41.22) parallel to the original plane (2.1) through the line (2.2.41.20) perpendicular to the original plane (2.1) and the arc (2.2.41.21), to continue joining the segment (2.2.41 25) that is parallel to the original plane (2.1) through the line (2.2.41.24) perpendicular to the original plane (2.1) and the ar co (2.2.41.23) to continue joining the segment (2.2.41.28) that is parallel to the original plane (2.1) through the line (2.2.41.27) perpendicular to the original plane (2.1) and the arc (2.2.41.26); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (2.2.41.32) parallel to the original plane (2.2.41.35) that joins the segment (2.2.41.37) also parallel to the original plane by the straight line (2.2.41.34) perpendicular to the original plane (2.1) and the arc (2.2.41.33), to continue joining the segment (2.2.41.40) parallel to the original plane (2.1) through the arc (2.2.41.38) and the straight line (2.2.41.39) which is perpendicular to the original plane (2.1) to continue joining the segment (2.2.41.43) parallel to the original plane (2.1) and which is joined by the line (2.2.41.41) perpendicular to the original plane (2.1) and the arc (2.2.41.42 ) to continue joining the segment (2.2.41.46) that is parallel to the original plane (2.1) through the arc (2.2.41.44) and the line (2.2.41.45) perpendicular to the original plane (2.1) to continue joining the segment
(2.2.41.49) que es paralelo al plano original (2.1) mediante la recta (2.2.47) perpendicular al plano original (2.1) y el arco (2.2.41.48) para continuar uniendo al plano (2.2.41.52) mediante la recta (2.2.50) perpendicular al plano original (2.1) y al arco (2.2.41.51 ) para continuar uniendo al plano (2.2.41.55) mediante la recta (2.2.53) perpendicular al plano original (2.1) y al arco (2.2.41.54) para continuar uniendo al plano (2.2.41.58) mediante la recta (2.2.57) perpendicular al plano original (2.1 ) y al arco (2.2.41.56) para continuar uniendo al plano (2.2.41.61) mediante la recta (2.2.59) perpendicular al plano original (2.1) y al arco (2.2.41.60) para continuar uniendo al plano (2.2.41.106) mediante la recta (2.2.105) perpendicular al plano original (2.1) y al arco (2.2.41.104) para continuar uniendo por ultimo al segmento (2.2.41.109) que es paralelo al plano original (2.1), mediante el arco (2.2.41.108) y la recta (2.2.41.107) perpendicular al plano original (2.1) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. (2.2.41.49) that is parallel to the original plane (2.1) through the line (2.2.47) perpendicular to the original plane (2.1) and the arc (2.2.41.48) to continue joining the plane (2.2.41.52) through the line (2.2.50) perpendicular to the original plane (2.1) and to the arc (2.2.41.51) to continue joining the plane (2.2.41.55) through the line (2.2.53) perpendicular to the original plane (2.1) and to the arc (2.2 .41.54) to continue joining the plane (2.2.41.58) through the line (2.2.57) perpendicular to the original plane (2.1) and to the arc (2.2.41.56) to continue joining the plane (2.2.41.61) through the line ( 2.2.59) perpendicular to the original plane (2.1) and to the arc (2.2.41.60) to continue joining the plane (2.2.41.106) through the line (2.2.105) perpendicular to the plane original (2.1) and the arc (2.2.41.104) to continue finally joining the segment (2.2.41.109) that is parallel to the original plane (2.1), through the arc (2.2.41.108) and the line (2.2.41.107) perpendicular to the original plane (2.1) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR DE ESPIGA Y MEDIA o también denominado DE AJUSTE LARGO, (Pieza No.3), (de configuración Una Omega y Media) un sillar que tiene una base rectangular (3.1) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (3.11) y el otro en forma de media Omega, el (3.27) que se desprenden sobre tres planos laterales (3.2, 3.28), (3.33) unidos mediante los arcos (3.30) y (3.32) y la diagonal (3.31) como base de dos planos paralelos al (3.1), que son el (3.3, 3.19), unidos por los planos inclinados (3.4, 3.18), (3.20), para unirse a su vez con los planos paralelos al (3.1) que son el (3.5), (3.17), (3.21) y a los arcos (3.6), (3.16), (3.22), a las diagonales (3.7), (3.15), (3.23), a los arcos (3.8), (3.14), (3.24), siguiendo con los planos paralelos al (3.1 ) que son (3.9), (3.13), (3.25), y finalmente los planos inclinados (3.10), (3.12), (3.26), que completan el desprendimiento (3.11), (3.27) del plano original (3.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (3.34) y otro inferior (3.35), que contienen un barreno (3.36), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (3.36.3) es paralelo en primer término al plano original (3.1) y está unido al segmento mayor también paralelo al plano original (3.1) y es el segmento (3.36.5) unido mediante los arcos (3.36.2), (3.36.8), las diagonales (3.36.3), (3.36.7) y los arcos (3.36.4) y (3.36.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SADDLE WITH A HALF AND SPIKE or also called LONG ADJUSTMENT, (Piece No.3), (One Omega and a Half configuration) an ashlar that has a rectangular base (3.1) from which two flanges or spikes, one in the shape of Omega, the (3.11) and the other in the form of a half Omega, the (3.27) that emerge on three lateral planes (3.2, 3.28), (3.33) joined by the arcs (3.30) and (3.32) and the diagonal (3.31) as the basis of two planes parallel to (3.1), which are (3.3, 3.19), joined by the inclined planes (3.4, 3.18), (3.20), to join in turn with the planes parallel to (3.1 ) which are the (3.5), (3.17), (3.21) and to the arcs (3.6), (3.16), (3.22), to the diagonals (3.7), (3.15), (3.23), to the arcs (3.8 ), (3.14), (3.24), continuing with the planes parallel to (3.1) which are (3.9), (3.13), (3.25), and finally the inclined planes (3.10), (3.12), (3.26), that complete the detachment (3.11), (3.27) of the original plane (3.1) and that this configuration, being three-dimensional, is co They are supplemented by two equal horizontal parallel planes, one upper (3.34) and the other lower (3.35), which contain a hole (3.36), arranged in the central part of the omega-shaped rim and is configured by a trapezoidal figure whose smaller segment ( 3.36.3) is parallel in the first term to the original plane (3.1) and is joined to the largest segment also parallel to the original plane (3.1) and is the segment (3.36.5) joined by the arcs (3.36.2), (3.36 .8), the diagonals (3.36.3), (3.36.7) and the arcs (3.36.4) and (3.36.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
SILLAR TERMO ACÚSTICO DE ESPIGA Y MEDIA O AJUSTE LARGO, (Pieza No.3.3), (de configuración Una Omega y Media) un sillar que tiene una base rectangular (3.1 ) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (3.11 ) y el otro en forma de media Omega, el (3.27) que se desprenden sobre tres planos laterales (3.2), (3.28), (3.33) unidos mediante los arcos (3.30) y (3.32) y la diagonal (3.31) como base de dos planos paralelos al (3.1), que son el (3.3, 3.19), unidos por los planos inclinados (3.4), (3.18), (3.20), para unirse a su vez con los planos paralelos al (3.1) que son el (3.5), (3.17), (3.21) y a los arcos (3.6), (3.16), (3.22), a las diagonales (3.7), (3.15), (3.23), a los arcos (3.8), (3.14), (3.24), siguiendo con los planos paralelos al (3.1) que son (3.9), (3.13, 3.25), y finalmente los planos inclinados (3.10), (3.12, 3.26), que completan el desprendimiento (3.11 , 3.27) del plano original (3.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior 3.34 y otro inferior (3.35), que contienen un barreno (3.36), dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (3.36.3) es paralelo en primer término al plano original (3.1) y está unido al segmento mayor también paralelo al plano original (3.1) y es el segmento (3.36.5) unido mediante los arcos (3.36.2), (3.36.8), las diagonales (3.36.3), (3.36.7) y los arcos (3.36.4) y (3.36.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; THERMO ACOUSTIC SADDLE WITH A HALF AND HALF OR LONG ADJUSTMENT, (Piece No.3.3), (One Omega and a Half configuration) an ashlar that has a rectangular base (3.1) from which two flanges or spikes, one in the shape of a Omega, the (3.11) and the other in the form of a half Omega, the (3.27) that emerge on three lateral planes (3.2), (3.28), (3.33) joined by the arcs (3.30) and (3.32) and the diagonal (3.31) as the basis of two planes parallel to (3.1), which are (3.3, 3.19), joined by the inclined planes (3.4), (3.18), (3.20), to join in turn with the parallel planes to (3.1) which are the (3.5), (3.17), (3.21) and to the arcs (3.6), (3.16), (3.22), to the diagonals (3.7), (3.15), (3.23), to the arcs (3.8), (3.14), (3.24), continuing with the planes parallel to (3.1) which are (3.9), (3.13, 3.25), and finally the inclined planes (3.10), (3.12, 3.26), which complete the detachment (3.11, 3.27) of the original plane (3.1 ) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, one upper 3.34 and the other lower (3.35), which contain a hole (3.36), arranged in the central part of the omega-shaped rim and is configured by a trapezoidal figure whose minor segment (3.36.3) is parallel in the first term to the original plane (3.1) and is joined to the major segment also parallel to the original plane (3.1) and is the segment (3.36.5) joined by the arcs (3.36.2), (3.36.8), the diagonals (3.36.3), (3.36.7) and the arcs (3.36.4) and (3.36.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
además del barreno descrito la pieza presenta también una placa de material aislante (3.3.37), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (3.3.37.1) paralelo al plano original (3.3.1) unido al segmento (3.3.37.4) también paralelo al plano original (3.3.1) mediante la recta (3.3.37.2) perpendicular al plano original (3.3.1) y el arco (3.3.37.3) y esta se une a su vez con el segmento (3.3.37.7) paralelo al plano original (3.3.1) mediante el arco (3.3.37.5) y la reta (3.3.37.6) perpendicular al plano original (3.3.1 ) que a su vez se une al segmento (3.3.37.10) paralelo al plano original (3.3.1) mediante la recta (3.3.37.8) perpendicular al plano original (3.3.1) y el arco (3.3.37.9) y se continua uniendo al segmento (3.3.37.13) paralelo al plano original 3.3.1 mediante el arco (3.3.37.11) y la recta (3.3.37.12) perpendicular al plano original (3.3.1), continuando con la unión del segmento (3.3.37.16) mediante la recta 3.3.37.14 perpendicular al plano original (3.3.1) y el arco (3.3.37.15) para continuar uniendo el segmento (3.3.37.19) mediante la recta (2.2.41.17) perpendicular al plano original (3.1 ) y el arco (3.3.37.18), para continuar uniendo el segmento (3.3.37.22) paralelo al plano original (3.3.1) mediante la recta (3.3.37.20) perpendicular al plano original (3.3.1) y el arco (3.3.37.21), para continuar uniendo el segmento (3.3.37.25) que es paralelo al plano original (3.3.1) mediante la recta (3.3.37.24) perpendicular al plano original (3.3.1 ) y el arco (3.3.37.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (3.3.37.26) paralelo al plano original (3.3.1) que se une con el segmento (3.3.37.29) también paralelo al plano original mediante la línea recta (3.3.37.27) perpendicular al plano original (3.3.1 ) y al arco (3.3.37.28), para continuar uniendo el segmento (3.3.37.32) paralelo al plano original (3.3.1) mediante el arcoIn addition to the hole described, the part also has a plate of insulating material (3.3.37), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (3.3.37.1) parallel to the plane original (3.3.1) joined to the segment (3.3.37.4) also parallel to the original plane (3.3.1) by the line (3.3.37.2) perpendicular to the original plane (3.3.1) and the arc (3.3.37.3) and this in turn joins with the segment (3.3.37.7) parallel to the original plane (3.3.1) by means of the arc (3.3.37.5) and it is attached (3.3.37.6) perpendicular to the original plane (3.3.1) that a in turn, it joins the segment (3.3.37.10) parallel to the original plane (3.3.1) through the line (3.3.37.8) perpendicular to the original plane (3.3.1) and the arc (3.3.37.9) and continues to join the segment (3.3.37.13) parallel to the original plane 3.3.1 through the arc (3.3.37.11) and the line (3.3.37.12) perpendicular to the original plane (3.3.1), continuing with the union of the segment (3.3.37.16 ) through the line 3.3.37.14 perpendicular to the original plane (3.3.1) and the arc (3.3.37.15) to continue joining the segment (3.3.37.19) through the line (2.2.41.17) perpendicular to the original plane (3.1) and the arc (3.3.37.18), to continue joining the segment (3.3.37.22) parallel to the original plane (3.3.1) using the line (3.3.37.20) perpendicular to the original plane (3.3.1) and the arc (3.3. 37.21), to continue joining the segment (3.3.37.25) that is parallel to the original plane (3.3.1) through the line (3.3.37.24) perpendicular to the original plane (3.3.1) and the arc (3.3.37.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (3.3.37.26) parallel to the original plane (3.3.1) which is joined with the segment (3.3.37.29) also parallel to the original plane by the straight line (3.3.37.27) perpendicular to the original plan (3.3.1) and to the arc (3.3.37.28), to continue joining the segment (3.3.37.32) parallel to the original plane (3.3.1) by the arc
(3.3.37.31) y la línea recta (3.3.37.30) que es perpendicular al plano original (3.3.1) para continuar uniendo al segmento (3.3.35) paralelo al plano original (3.3.1) y que se une mediante la recta (3.3.37.33) perpendicular al plano original (3.3.1) y el arco (3.3.37.34) para continuar uniendo al segmento (3.3.37.38) que es paralelo al plano original (3.3.1) mediante el arco (3.3.37.36) y la recta (3.3.37.37) perpendicular al plano original (3.3.1 ) para continuar uniendo al segmento (3.3.37.41) que es paralelo al plano original (3.3.1) mediante la recta (3.3.37.39) perpendicular al plano original (3.3.1) y el arco (3.3.37.40) para continuar uniendo al plano (3.3.37.44) mediante la recta (3.3.37.43) perpendicular al plano original (3.3.1) y al arco (3.3.37.42) para continuar uniendo al plano (3.3.47) mediante la recta (3.3.45) perpendicular al plano original (3.3.1) y al arco (3.3.37.46) para continuar uniendo al plano (3.3.37.51) mediante la recta (3.3.37.50) perpendicular al plano original (3.3.1) y al arco (3.3.37.49) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza. (3.3.37.31) and the straight line (3.3.37.30) that is perpendicular to the original plane (3.3.1) to continue joining the segment (3.3.35) parallel to the original plane (3.3.1) and that is joined by the line (3.3.37.33) perpendicular to the original plane (3.3.1) and the arc (3.3.37.34) to continue joining the segment (3.3.37.38) that is parallel to the original plane (3.3.1) through the arc (3.3. 37.36) and the line (3.3.37.37) perpendicular to the original plane (3.3.1) to continue joining the segment (3.3.37.41) that is parallel to the original plane (3.3.1) through the line (3.3.37.39) perpendicular to the original plane (3.3.1) and the arc (3.3.37.40) to continue joining the plane (3.3.37.44) through the line (3.3.37.43) perpendicular to the original plane (3.3.1) and to the arc (3.3.37.42) to continue joining the plane (3.3.47) through the line (3.3.45) perpendicular to the original plane (3.3.1) and to the arc (3.3.37.46) to continue joining the plane (3.3.37.51) through the line (3.3 .37.50) perpendicular to the or plane iginal (3.3.1) and to the arc (3.3.37.49) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece.
SILLAR ESQUINERO, (Pieza No.4), (sillar de una espiga y media con una espiga adosada al extremo de la media espiga girada en forma ortogonal o de configuración de Una Omega y Media con una Omega adosada a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (4.1 ) de la cual se desprenden dos rebordes o espigas, uno en forma de la Omega, el (4.11) y el otro en forma de media Omega, el (4.27) que se desprenden en un extremo sobre un plano lateral 4.2, como base de dos planos paralelos al (4.1), que son el (4.3), (4.19), unidos por los planos inclinados (4.4, 4.18), (4.20), para unirse a su vez con los planos paralelos al (4.1) que son el (4.5), (4.17), (4.21) y a los arcos (4.6), (4.16), (4.22), que unen a las diagonales (4.7), (4.15), (4.23), a los arcos (4.8), (4.14), (3.24), siguiendo con los planos paralelos al (4.1) que son (4.9), (4.13), (4.25) y finalmente los planos inclinados (4.10), (4.12), (4.26), que completan los desprendimientos (4.11), (4.27) del plano original (4.1) que además en el otro extremo se desprende otro reborde en forma de Omega el (4.38), que tiene como base dos planos alineados adosados al extremo del plano 4.1 en forma ortogonal y que son el (4.28), (4.48) y el reborde se desprende sobre dos planos laterales, el (4.29), (4.47) como base de dos planos paralelos al (4.28), (4.48), que son (4.30), (4.46), unidos por los planos inclinadosCORNER SADDLE, (Piece No.4), (one and a half tenon ashlar with a tenon attached to the end of the half tenon turned orthogonally or with a configuration of One Omega and a Half with an Omega attached to the half Omega turned in a orthogonal) an ashlar that has a rectangular base (4.1) from which two flanges or spikes emerge, one in the shape of the Omega, the (4.11) and the other in the shape of a half Omega, the (4.27) that emerge in an end on a lateral plane 4.2, as the basis of two planes parallel to (4.1), which are (4.3), (4.19), joined by the inclined planes (4.4, 4.18), (4.20), to join in turn with the planes parallel to (4.1) which are (4.5), (4.17), (4.21) and to the arcs (4.6), (4.16), (4.22), which join the diagonals (4.7), (4.15), (4.23), to the arcs (4.8), (4.14), (3.24), continuing with the planes parallel to (4.1) which are (4.9), (4.13), (4.25) and finally the inclined planes (4.10), (4.12), (4.26), which complete the landslides (4.11), (4.27) from the original plane (4.1) that, in addition, at the other end there is another rim in the shape of Omega (4.38), which has as its base two aligned planes attached to the end of plane 4.1 in an orthogonal way and which are (4.28), ( 4.48) and the rim emerges on two lateral planes, (4.29), (4.47) as the basis of two planes parallel to (4.28), (4.48), which are (4.30), (4.46), joined by the inclined planes
(4.31), (4.44) para unirse a su vez con los planos paralelos al (4.28), (4.48) que son el (4.32), (4.44), y a los arcos (4.33), (4.43), a las diagonales (14.34), (4.42), a los arcos (4.35), (4.41), siguiendo con los planos paralelos al (4.28), (4.48), que son (4.36), (4.39), y finalmente los planos inclinados (4.37), (4.39), que completan el desprendimiento (4.38) del plano original (4.28), (4.48) de este reborde (4.38); y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (4.49) y otro inferior (4.50), que contienen dos barrenos, el (4.51) y (4.52), dispuestos en la parte central de los dos rebordes en forma de omega que atraviesan el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal que en el caso del barreno (4.51) presenta un segmento menor (4.51.1) es paralelo en primer término al plano original (4.1) y está unido al segmento mayor (4.51.5) también paralelo al plano original (4.1) unido mediante los arcos (4.51.2), (2.37.8), las diagonales (4.51.3), (4.51.7) y los arcos (4.51.4) y(4.31), (4.44) to join in turn with the planes parallel to (4.28), (4.48) which are the (4.32), (4.44), and to the arcs (4.33), (4.43), to the diagonals (14.34), (4.42), to the arcs (4.35), (4.41), following with the planes parallel to (4.28 ), (4.48), which are (4.36), (4.39), and finally the inclined planes (4.37), (4.39), which complete the detachment (4.38) from the original plane (4.28), (4.48) of this edge ( 4.38); and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (4.49) and a lower one (4.50), which contain two holes, the (4.51) and (4.52), arranged in the central part of the two omega-shaped flanges that go through the thickness of the piece in its entirety, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure that in the case of the hole (4.51) has a smaller segment (4.51.1) is parallel in the first term to the original plane (4.1) and is joined to the larger segment (4.51.5) also parallel to the original plane (4.1) joined by arcs (4.51.2), (2.37.8), diagonals (4.51.3), (4.51.7) and arcs (4.51.4) and
(4.51.6); en el caso del barreno (4.52) presenta un segmento menor (4.52.1) es paralelo en primer término al plano original (4.28), (4.48) y está unido al segmento mayor (4.52.5) también paralelo al plano original (4.28), (4.48) unido mediante los arcos (4.52.2), (4.52.8), las diagonales (4.52.3), (4.52.7) y los arcos (4.52.4) y(4.51.6); in the case of the hole (4.52) it presents a minor segment (4.52.1) is parallel in the first term to the original plane (4.28), (4.48) and is joined to the major segment (4.52.5) also parallel to the original plane (4.28 ), (4.48) joined by the arcs (4.52.2), (4.52.8), the diagonals (4.52.3), (4.52.7) and the arcs (4.52.4) and
(4.52.6); dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; (4.52.6); arranged in the central part of the omega-shaped rim and which crosses the thickness of the part in its entirety;
SILLAR TERMO ACÚSTICO ESQUINERO, (Pieza No.4.4), (sillar de una espiga y media con una espiga adosada al extremo de la media espiga girada en forma ortogonal o de configuración de Una Omega y Media con una Omega adosada a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (4.4.1) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (4.4.11 ) y el otro en forma de media Omega, el (4.4.27) que se desprenden en un extremo sobre un plano lateral (4.4.2), como base de dos planos paralelos al (4.4.1), que son el (4.4.3), (4.4.19), unidos por los planos inclinados (4.4.4), (4.4.18), (4.4.20), para unirse a su vez con los planos paralelos al (4.4.1) que son el (4.4.5), (4.4.17), (4.4.21) y a los arcos (4.4.6), (4.4.16), (4.4.22), que unen a las diagonales (4.4.7), (4.4.15), 4.4.23, a los arcos (4.4.8), (4.4.14), (4.4.24), siguiendo con los planos paralelos al 4.4.1 que son (4.4.9), (4.4.13), (4.4.25), y finalmente los planos inclinados (4.4.10), (4.4.12), (4.4.26), que completan los desprendimientos (4.4.11), (4.4.27) del plano original (4.4.1) que además en el otro extremo se desprende otro reborde en forma de Omega el (4.4.38), que tiene como base el plano (4.4.28) perpendicular y al extremo del plano (4.4.1) en forma ortogonal por un extremo y por el lado opuesto, el reborde se desprende sobre otro plano lateral, el (4.4.29), sirviendo como base de dos planos paralelos que son (4.4.30), (4.4.46), unidos por los planos inclinados (4.4.31), (4.4.44) para unirse a su vez con los planos paralelos al (4.4.28) que son el (4.4.32), (4.4.44), y a los arcos (4.4.33), (4.4.43), a las diagonales (4.4.34), (4.4.32), a los arcos (4.4.35), (4.4.41), siguiendo con los planos paralelos al (4.4.28), que son (4.4.36), (4.4.40), y finalmente los planos inclinados (4.4.37), (4.4.39), que completan el desprendimiento (4.4.38) del plano original (4.4.28); y que esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (4.4.47) y otro inferior (4.4.48), que contienen dos barrenos, el (4.4.49) y (4.4.50), dispuestos en la parte central de los dos rebordes en forma de omega que atraviesan el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal que en el caso del barreno (4.4.49) presenta un segmento menor (4.4.49.1) es paralelo en primer término al plano original (4.4.1) y está unido al segmento mayor (4.4.49.5) también paralelo al plano original (4.1) unido mediante los arcos (4.4.49.2), (4.4.49.8), las diagonales (4.4.49.3), (4.4.49.7) y los arcos (4.4.49.4) y (4.4.49.6); en el caso del barreno (4.4.50) presenta un segmento menor (4.4.50.1) es paralelo en primer término al plano original (4.4.28) y está unido al segmento mayor (4.4.50.5) también paralelo al plano original (4.4.28) unido mediante los arcos 4.4.50.2, 4.4.50.8, las diagonales 4.4.50.3, 4.4.52.7 y los arcos (4.4.50.4) y (4.4.50.6); dispuesto en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; además del barreno descrito la pieza presenta también una placa de material aislante (4.4.51), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (4.4.51.1) paralelo al plano original (4.4.1) unido al segmento (4.4.51.4) también paralelo al plano original (4.4.1) mediante la recta (4.4.51.2) perpendicular al plano original (4.4.1) y el arco (4.4.51.3) y esta se une a su vez con el segmento (4.4.51.7) paralelo al plano original (4.4.1) mediante el arco (4.4.51.5) y la reta (4.4.51.6) perpendicular al plano original (4.4.1 ) que a su vez se une al segmento (4.4.51.10) paralelo al plano original (4.4.1) mediante la recta (4.4.51.8) perpendicular al plano original (4.4.1) y el arco (4.4.51.9) y se continua uniendo al segmento (4.4.51.13) paralelo al plano original (3.3.1) mediante el arco (4.4.51.11) y la recta (4.4.51.12) perpendicular al piano original (4.4.1), continuando con la unión del segmento (4.4.51.16) mediante la recta (4.4.51.14) perpendicular al plano original (4.4.1) y el arco (4.4.51.15) para continuar uniendo el segmento (4.4.51.19) mediante la recta (2.2.41.18) perpendicular al plano original 4.4.1 y el arco 4.4.51.17, para continuar uniendo el segmento (4.4.51.22) paralelo al plano original (4.4.1) mediante la recta (4.4.51.20) perpendicular al plano original (4.4.1) y el arco (4.4.51.21 ), para continuar uniendo el segmento (4.4.51.25) que es paralelo al plano original (4.4.1 ) mediante la recta (4.4.51.24) perpendicular al plano original (4.4.1) y el arco (4.4.51.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (4.4.51.26) perpendicular al plano original (4.4.1 ) que se une con el segmento (4.4.51.27) también paralelo al plano original, para continuar uniendo el segmento (4.4.51.30) paralelo al plano original (3.3.1) mediante el arco (4.4.51.29) y la línea recta (4.4.51.28) que es perpendicular al plano original (4.4.1) para continuar uniendo al segmento (4.4.33) paralelo al plano original (4.4.1) y que se une mediante la recta (4.4.51.32) perpendicular al plano original (4.4.1) y el arco (4.4.51.31) para continuar uniendo al segmento (4.4.51.36) que es paralelo al plano original (4.4.1 ) mediante el arco (4.4.51.35) y la recta (4.4.51.34) perpendicular al plano original (4.4.1) para continuar uniendo al segmento (4.4.51.39) que es paralelo al plano original (4.4.1) mediante la recta (4.4.51.38) perpendicular al plano original (4.4.1 ) y el arco (4.4.51.37) para continuar uniendo al plano (4.4.51.42) mediante la recta (4.4.51.40) perpendicular al plano original (4.4.1) y al arco (4.4.51.41) para continuar uniendo al plano (4.4.51.45) mediante la recta (4.4.51.44) perpendicular al plano original (4.4.1 ) y al arco (4.4.51.43) para continuar uniendo al plano (4.4.51.48) mediante la recta (4.4.51.46) perpendicular al plano original (4.4.1) y al arco (4.4.51.47) para continuar uniendo al plano (4.4.51.51 ) mediante la recta (4.4.51.50) perpendicular al plano original (4.4.1) y al arco (4.4.51.49) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; THERMO ACOUSTIC CORNER SADDLE, (Piece No.4.4), (one and a half tenon ashlar with one tenon attached to the end of the half tenon turned orthogonally or with a One and a Half Omega configuration with one Omega attached to the turned half Omega in orthogonal shape) an ashlar that has a rectangular base (4.4.1) from which two ridges or spikes emerge, one in the shape of an Omega, the (4.4.11) and the other in the shape of a half Omega, the (4.4 .27) that emerge at one end on a lateral plane (4.4.2), as the basis of two planes parallel to (4.4.1), which are (4.4.3), (4.4.19), joined by the inclined planes (4.4.4), (4.4.18), (4.4.20), to join in turn with the planes parallel to (4.4.1) which are (4.4.5), (4.4.17), (4.4.21) and to the arches (4.4.6), (4.4.16), (4.4.22), which join the diagonals (4.4.7), (4.4.15), 4.4.23, to the arches (4.4.8), (4.4.14), (4.4.24), continuing with the planes parallel to 4.4.1 which are (4.4.9), (4.4.13), (4.4.25), and finally the inclined planes (4.4. 10), (4.4.12), (4.4.26), which complete the detachments (4.4.11), (4.4.27) of the original plane (4.4.1), which also reveals another Omega-shaped flange el (4.4.38), which is based on the plane (4.4.28) perpendicular and to the end of the plane (4.4.1) orthogonally at one end and on the opposite side, the flange detaches on another lateral plane, the (4.4.29), serving as the basis of two parallel planes that are (4.4.30), (4.4.46), joined by the inclined planes (4.4.31), (4.4.44) to join in turn with the planes parallel to (4.4.28) which are (4.4.32), (4.4.44), and to the arcs (4.4.33), (4.4.43), to the diagonals (4.4. 34), (4.4.32), to the arcs (4.4.35), (4.4.41), continuing with the planes parallel to (4.4.28), which are (4.4.36), (4.4.40), and finally the inclined planes (4.4.37), (4.4.39), which complete the detachment (4.4.38) of the original plane (4.4.28); and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (4.4.47) and a lower one (4.4.48), which contain two holes, the (4.4.49) and (4.4.50) , arranged in the central part of the two omega-shaped flanges that cross the thickness of the part in its entirety, which can house a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure that in the case of the hole (4.4.49) presents a smaller segment (4.4.49.1) is parallel in the foreground to the original plane (4.4.1) and is joined to the larger segment (4.4.49.5 ) also parallel to the original plane (4.1) joined by the arcs (4.4.49.2), (4.4.49.8), the diagonals (4.4.49.3), (4.4.49.7) and the arcs (4.4.49.4) and (4.4. 49.6); in the case of the hole (4.4.50) it presents a minor segment (4.4.50.1) is parallel in the first term to the original plane (4.4.28) and is joined to the major segment (4.4.50.5) also parallel to the original plane (4.4 .28) joined by arches 4.4.50.2, 4.4.50.8, diagonals 4.4.50.3, 4.4.52.7 and arches (4.4.50.4) and (4.4.50.6); arranged in the central part of the omega-shaped rim and which crosses the thickness of the part in its entirety; In addition to the hole described, the part also has a plate of insulating material (4.4.51), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (4.4.51.1) parallel to the plane original (4.4.1) joined to the segment (4.4.51.4) also parallel to the original plane (4.4.1) through the line (4.4.51.2) perpendicular to the original plane (4.4.1) and the arc (4.4.51.3) and this is joined in turn with the segment (4.4.51.7) parallel to the original plane (4.4.1) by means of the arc (4.4.51.5) and the retains (4.4.51.6) perpendicular to the original plane (4.4.1) that a in turn, it joins the segment (4.4.51.10) parallel to the original plane (4.4.1) by means of the line (4.4.51.8) perpendicular to the original plane (4.4.1) and the arc (4.4.51.9) and continues to join the segment (4.4.51.13) parallel to the original plane (3.3.1) through the arc (4.4.51.11) and the line (4.4.51.12) perpendicular to the original plane (4.4.1), continuing with the union of the segment (4.4.51.16) through the line (4.4. 51.14) perpendicular to the original plane (4.4.1) and the arc (4.4.51.15) to continue joining the segment (4.4.51.19) through the line (2.2.41.18) perpendicular to the original plane 4.4.1 and the arc 4.4.51.17 , to continue joining the segment (4.4.51.22) parallel to the original plane (4.4.1) by means of the line (4.4.51.20) perpendicular to the original plane (4.4.1) and the arc (4.4.51.21), to continue joining the segment (4.4.51.25) that is parallel to the original plane (4.4.1) by the line (4.4.51.24) perpendicular to the original plane (4.4.1) and the arc (4.4.51.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (4.4.51.26) perpendicular to the original plane (4.4.1) that joins with the segment (4.4.51.27) also parallel to the original plane, to continue joining the segment (4.4.51.30) parallel to the original plane (3.3.1) using the arc (4.4.51.29) and the straight line (4.4.51.28) that is perpendicular to the original plane (4.4.1) to continue joining the segment (4.4.33) parallel to the plane original (4.4.1) and which is joined by the line (4.4.51.32) perpendicular to the original plane (4.4.1) and the arc (4.4.51.31) to continue joining the segment (4.4.51.36) which is parallel to the plane original (4.4.1) using the arc (4.4.51.35) and the line (4.4.51.34) perpendicular to the original plane (4.4.1) to continue joining the segment (4.4.51.39) that is parallel to the original plane (4.4. 1) using the line (4.4.51.38) perpendicular to the original plane (4.4.1) and the arc (4.4.51.37) to continue joining the plane (4.4.51.42) using the perpendicular line (4.4.51.40) to the original plane (4.4.1) and to the arc (4.4.51.41) to continue joining the plane (4.4.51.45) through the line (4.4.51.44) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.43 ) to continue joining the plane (4.4.51.48) through the line (4.4.51.46) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.47) to continue joining the plane (4.4.51.51) through the line ( 4.4.51.50) perpendicular to the original plane (4.4.1) and to the arc (4.4.51.49) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece;
SILLAR CRUCERO, (Pieza No.5), (sillar de una espiga y media con dos medias espigas adosadas al extremo de la media espiga giradas en forma ortogonal o de configuración de Una Omega y Media con dos Medias Omegas adosadas a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (5.1) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (5.11) y el otro en forma de media Omega, el (5.27) que se desprenden en un extremo sobre un plano lateral (5.2), como base de dos planos paralelos ai (5.1), que son el (5.3), (5.19), unidos por los planos inclinados (5.4), (5.18), (5.20), para unirse a su vez con los planos paralelos al (5.1) que son el (5.5), (5.17), (5.21) y a los arcos (5.6), (5.16), (5.22), a las diagonales . (5.7), (5.15), (5.23), a los arcos (5.8), (5.14), (5.24), siguiendo con los planos paralelos al (5.1) que son (5.9), (5.13), (5.25), y finalmente los planos inclinados (5.10), (5.12), (5.26), que completan los desprendimientos (5.11), (5.27) del plano original (5.1) que además en el otro extremo se desprenden dos rebordes en forma de Media Omega el (5.37), (5.49) que tienen como base dos planos alineados adosados al extremo del plano (5.1) en forma ortogonal y que son el (5.23), (5.28) y los rebordes se desprenden sobre cuatro planos laterales alineados, el (5.29), (5.34) que contiene una hendidura formada por la diagonal (5.31) unida por los arcos (5.30), (5.32) y la recta (5.33) paralela a los planos (5.23), (5.28) y en el lado opuesto otros dos planos el (5.54), (5.57) perpendiculares a los planos (5.23), (5.28) que contiene una hendidura formada por la diagonal (5.55) unida por los arcos (5.52), (5.56) y la recta (5.53) paralela a los planos (5.23), (5.28) y estos cuatro planos sirven como base de dos planos paralelos al (5.23), (5.28), que son el (5.35), (5.51) unidos por los planos inclinados (5.36), (5.50), para unirse los rebordes (5.37), (5.49) y en medio de estos rebordes se presenta el plano (5.43) como remate de un alveolo que se une con los rebordes mediante dos planos inclinados (5.42), (5.44) que se une su vez con los planos paralelos al (5.23), (5.528), que son el (5.41), (5.45), y a los arcos (5.40), (5.46), a las diagonales (5.39), (5.47), a los arcos (5.38), (5.48), para complementar finalmente los rebordes (5.37), (5.49); CRUISE SILLAR, (Piece No.5), (one and a half tenon ashlar with two half tenons attached to the end of the half tenon turned orthogonally or with a configuration of One Omega and a Half with two Half Omegas attached to the half Omega turned in orthogonal form) an ashlar having a rectangular base (5.1) of which detach two edges or spikes, one in the shape of an Omega, the (5.11) and the other in the shape of a half Omega, the (5.27) that detach at one end on a lateral plane (5.2), as the basis of two planes parallel to i (5.1), which are (5.3), (5.19), joined by the inclined planes (5.4), (5.18), (5.20), to join in turn with the planes parallel to (5.1) which are the (5.5), (5.17), (5.21) and to the arcs (5.6), (5.16), (5.22), to the diagonals. (5.7), (5.15), (5.23), to the arcs (5.8), (5.14), (5.24), following with the planes parallel to (5.1) which are (5.9), (5.13), (5.25), and finally the inclined planes (5.10), (5.12), (5.26), which complete the detachments (5.11), (5.27) of the original plane (5.1) which, in addition, at the other end two ridges in the form of Half Omega the (5.37), (5.49) which are based on two aligned planes attached to the end of the plane (5.1) in an orthogonal way and which are (5.23), (5.28) and the flanges are detached on four aligned lateral planes, the (5.29 ), (5.34) that contains a slit formed by the diagonal (5.31) joined by the arcs (5.30), (5.32) and the line (5.33) parallel to the planes (5.23), (5.28) and on the opposite side others two planes el (5.54), (5.57) perpendicular to planes (5.23), (5.28) that contain a slit formed by the diagonal (5.55) joined by the arcs (5.52), (5.56) and the parallel line (5.53) to the planes (5.23), (5.28) and these four planes serve They see as the basis of two planes parallel to (5.23), (5.28), which are (5.35), (5.51) joined by the inclined planes (5.36), (5.50), to join the flanges (5.37), (5.49) and in the middle of these flanges the plane (5.43) is presented as the top of a socket that joins the flanges by means of two inclined planes (5.42), (5.44) that joins in turn with the planes parallel to (5.23), ( 5.528), which are the (5.41), (5.45), and to the arcs (5.40), (5.46), to the diagonals (5.39), (5.47), to the arcs (5.38), (5.48), to finally complement the flanges (5.37), (5.49);
y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (5.59) y otro inferior (5.61), que contienen un barreno (5.60) dispuesto en la parte central del reborde en forma de omega que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal y presenta un segmento menor (5.60.1) es paralelo en primer término al plano original (5.1) y está unido al segmento mayor (5.60.5) también paralelo al plano original (5.1) unido mediante los arcos (5.60.2), (5.60.8), las diagonales (5.60.3), (5.60.7) y los arcos (5.60.4) y (5.60.6); SILLAR TERMO ACÚSTICO CRUCERO, (Pieza N°5.5), (sillar de una espiga y media con dos medias espigas adosadas al extremo de la media espiga giradas en forma ortogonal o de configuración de Una Omega y Media con dos Medias Omegas adosadas a la media Omega girada en forma ortogonal) un sillar que tiene una base rectangular (5.5.1) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (5.5.11) y el otro en forma de media Omega, el (5.5.27) que se desprenden en un extremo sobre un plano lateral (5.5.2), como base de dos planos paralelos al (5.5.1), que son el (5.5.3), (5.5.19), unidos por los planos inclinados (5.5.4), (5.5.18), (5.5.20), para unirse a su vez con los planos paralelos al (5.5.1) que son el (5.5.5), (5.5.17), (5.5.21) y a los arcos (5.5.6), (5.5.16), (5.5.22), a las diagonales (5.5.7), (5.5.15), (5.5.23), a los arcos (5.5.8), (5.5.14), (5.5.24), siguiendo con los planos paralelos al (5.5.1) que son (5.5.9), (5.5.13), (5.5.25), y finalmente los planos inclinados (5.5.10), (5.5.12), (5.5.26), que completan los desprendimientos (5.5.11), (5.5.27) del plano original (5.5.1) que además en el otro extremo se desprenden dos rebordes en forma de Media Omega el (5.5.37), (5.5.48) que tienen como base el plano alineado al extremo del plano (5.5.1 ) y que son el (5.5.51), que contiene una hendidura formada por la diagonal (5.5.54) unida por los arcos (5.53), (5.55) y la recta (5.5.52) paralela a los planos (5.5.2), (5.5.28) y en el lado opuesto el reborde (5.5.37) se desprende sobre dos planos laterales alineados, el (5.5.29),and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (5.59) and a lower one (5.61), which contain a hole (5.60) arranged in the central part of the omega-shaped rim that crosses the thickness of the piece in its entirety, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure and presents a minor segment (5.60.1) is parallel in the first term to the original plane (5.1) and is joined to the major segment (5.60.5) also parallel to the original plane (5.1) joined by means of the arcs (5.60.2), (5.60.8), diagonals (5.60.3), (5.60.7) and arcs (5.60.4) and (5.60.6); THERMO ACOUSTIC CRUISE SADDLE, (Piece N ° 5.5), (one and a half spike ashlar with two half spikes attached to the end of the half spike turned orthogonally or with a One and a Half Omega configuration with two Omegas Stockings attached to the middle Omega rotated orthogonally) an ashlar that has a rectangular base (5.5.1) from which two ridges or spikes emerge, one in the shape of an Omega, the (5.5.11) and the other in the shape of a half Omega, the (5.5.27) that detach at one end on a lateral plane (5.5.2), as the basis of two planes parallel to (5.5.1), which are (5.5.3), (5.5.19), joined by the inclined planes (5.5.4), (5.5.18), (5.5.20), to join in turn with the planes parallel to (5.5.1) which are (5.5.5), (5.5.17 ), (5.5.21) and to the arcs (5.5.6), (5.5.16), (5.5.22), to the diagonals (5.5.7), (5.5.15), (5.5.23), to the arcs (5.5.8), (5.5.14), (5.5.24), following the planes parallel to (5.5.1) which are (5.5.9), (5.5.13), (5.5.25) , and finally the inclination planes ados (5.5.10), (5.5.12), (5.5.26), which complete the detachments (5.5.11), (5.5.27) of the original plane (5.5.1) that also detach at the other end two edges in the form of Half Omega the (5.5.37), (5.5.48) that are based on the plane aligned to the end of the plane (5.5.1) and that are the (5.5.51), which contains a groove formed by the diagonal (5.5.54) joined by the arches (5.53), (5.55) and the straight line (5.5.52) parallel to the planes (5.5.2), (5.5.28) and on the opposite side the flange ( 5.5.37) emerges on two aligned lateral planes, the (5.5.29),
(5.5.34) que contiene una hendidura formada por la diagonal (5.5.31 ) unida por los arcos (5.5.30), (5.5.32) y la recta (5.5.33) paralela al plano, (5.5.2), (5.5.28) y estos cuatro planos sirven como base de dos planos paralelos al (5.5.2), (5.28), que son el(5.5.34) that contains a slit formed by the diagonal (5.5.31) joined by the arcs (5.5.30), (5.5.32) and the line (5.5.33) parallel to the plane, (5.5.2) , (5.5.28) and these four planes serve as the basis for two planes parallel to (5.5.2), (5.28), which are the
(5.5.35), (5.5.37), unido por el plano inclinado (5.36), y los planos (5.5.48), (5.5.50), unido por el plano inclinado (5.5.49) y en medio de estos rebordes se presenta el plano (5.5.43) como remate de un alveolo que se une con los rebordes mediante dos planos inclinados (5.5.39), (5.46) que se une a su vez con los planos paralelos al (5.5.2), (5.528), que son el (5.5.42), (5.5.45), y a los arcos (5.5.38), (5.5.40), (5.5.45), (5.547), a las diagonales (5.39), (5.46), para complementar finalmente los rebordes ( 5.37), (5.48); (5.5.35), (5.5.37), joined by the inclined plane (5.36), and the planes (5.5.48), (5.5.50), joined by the inclined plane (5.5.49) and in the middle of these flanges the plane (5.5.43) is presented as the top of a socket that is joined with the flanges by two inclined planes (5.5.39), (5.46) which is joined in turn with the planes parallel to (5.5.2 ), (5.528), which are the (5.5.42), (5.5.45), and to the arcs (5.5.38), (5.5.40), (5.5.45), (5.547), to the diagonals ( 5.39), (5.46), to finally complement the flanges (5.37), (5.48);
y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (5.5.56) y otro inferior (5.5.57), que contienen un barreno (5.5.58) dispuesto en la parte central del reborde en forma de omega que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; y están configurados por una figura trapezoidal y que presenta un segmento menor (5.5.58.2) es paralelo en primer término al plano original (5.5.1) y está unido al segmento mayor (5.5.58.5) también paralelo al plano original (5.5.1) unido mediante los arcos (5.5.58.1), (5.5.58.4), (5.5.58.6), (5.5.58.8), a las diagonales (5.5.58.3), (5.5.58.7); and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, an upper one (5.5.56) and a lower one (5.5.57), which contain a hole (5.5.58) arranged in the central part of the flange in omega shape that runs through the thickness of the part in its entirety, which can accommodate a rod and hydraulic concrete or installation lines; and are configured by a trapezoidal figure and that presents a minor segment (5.5.58.2) is parallel in the foreground to the original plane (5.5.1) and is joined to the major segment (5.5.58.5) also parallel to the original plane (5.5. 1) joined by the arcs (5.5.58.1), (5.5.58.4), (5.5.58.6), (5.5.58.8), to the diagonals (5.5.58.3), (5.5.58.7);
además del barreno descrito la pieza presenta también una placa de material aislante (5.5.59), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (5.5.59.1) paralelo al plano original (5.5.1) unido al segmento (5.5.59.2) en forma ortogonal paralelo al plano (5.5.2) y el arco (5.5.59.3) y esta se une a su vez con el segmento (5.5.59.4) paralelo al plano original (5.5.1) unido al segmento (5.5.59.7) mediante el arco (5.5.59.5) y la reta (5.5.59.6) perpendicular al plano original (5.5.1) que a su vez se une al segmento (5.5.59.10) paralelo al plano original (5.5.1) mediante la recta (5.5.8) perpendicular al plano original (5.5.1) y el arco (5.5.59.9) y se continua uniendo al segmento (5.5.59.13) paralelo al plano original (5.5.1) mediante el arco (5.5.11) y la recta (5.5.12) perpendicular al plano original (5.5.1), continuando con la unión del segmento (5.5.59.16) mediante la recta (5.5.59.14) perpendicular al plano original (5.5.1) y el arco (5.5.59.15) para continuar uniendo el segmento (5.5.59.19) mediante la recta (5.5.59.18) perpendicular al plano original (5.5.1) y el arco (5.5.59.17), para continuar uniendo el segmento (5.5.59.22) paralelo al plano originalIn addition to the hole described, the part also has a plate of insulating material (5.5.59), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (5.5.59.1) parallel to the plane original (5.5.1) joined to the segment (5.5.59.2) orthogonally parallel to the plane (5.5.2) and the arc (5.5.59.3) and this is joined in turn with the segment (5.5.59.4) parallel to the original plane (5.5.1) joined to the segment (5.5.59.7) by means of the arc (5.5.59.5) and the rear (5.5.59.6) perpendicular to the original plane (5.5.1) which in turn joins the segment (5.5 .59.10) parallel to the original plane (5.5.1) through the line (5.5.8) perpendicular to the original plane (5.5.1) and the arc (5.5.59.9) and continues joining the segment (5.5.59.13) parallel to the original plane (5.5.1) through the arc (5.5.11) and the line (5.5.12) perpendicular to the original plane (5.5.1), continuing with the union of the segment (5.5.59.16) through the line (5.5. 59.14) perpendicular to the original plane (5.5.1) and the arc (5.5.59.15) to continue joining the segment (5.5.59.19) through the line (5.5.59.18) perpendicular to the original plane (5.5.1) and the arc (5.5.59.17 ), to continue joining the segment (5.5.59.22) parallel to the original plane
(5.5.1) mediante la recta (5.5.59.20) perpendicular al plano original (5.5.1) y el arco 5.5.59.21 , para continuar uniendo el segmento (5.5.59.25) que es paralelo al plano original (5.5.1) mediante la recta (5.5.59.24) perpendicular al plano original (5.5.1) y el arco (5.5.59.23); con este último segmento se termina un lado de la placa aislante; el plano opuesto de esta placa tiene un segmento (5.5.59.26) perpendicular al plano original (5.5.1) que se une con el segmento (5.5.59.27) también paralelo al plano original, para continuar uniendo el segmento (5.5.59.30) paralelo al plano original (5.5.1 ) mediante el arco (5.5.59.28) y la línea recta (5.5.59.29) que es perpendicular al plano original (5.5.1) para continuar uniendo al segmento (5.5.59.33) paralelo al plano original (5.5.1) y que se une mediante la recta (5.5.59.33) perpendicular al plano original (5.5.1) y el arco (5.5.59.32) para continuar uniendo al segmento (5.5.59.36) que es paralelo al plano original (5.5.1) mediante el arco (5.5.59.34) y la recta (5.5.59.35) perpendicular al plano original (5.5.1 ) para continuar uniendo al segmento (5.5.59.39) que es paralelo al plano original (5.5.1) mediante la recta (5.5.59.38) perpendicular al plano original (5.5.1) y el arco (5.5.59.37) para continuar uniendo al plano (5.5.59.42) mediante la recta (5.5.59.41) perpendicular al plano original (5.5.1) y al arco (5.5.59.42) para continuar uniendo al plano (5.5.59.45) mediante la recta (5.5.59.43) perpendicular al plano original (5.5.1) y al arco (5.5.59.42) para continuar uniendo al plano (5.5.59.48) mediante la recta (5.5.59.47) perpendicular al plano original (5.5.1) y al arco (5.5.59.46) para continuar uniendo al plano (5.5.59.51) mediante la recta (5.5.59.49) perpendicular al plano original (5.5.1) y al arco (5.5.59.50) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; (5.5.1) through the line (5.5.59.20) perpendicular to the original plane (5.5.1) and the arc 5.5.59.21, to continue joining the segment (5.5.59.25) that is parallel to the original plane (5.5.1) through the line (5.5.59.24) perpendicular to the original plane (5.5.1) and the arc (5.5.59.23); with this last segment one side of the insulating plate is terminated; the opposite plane of this plate has a segment (5.5.59.26) perpendicular to the original plane (5.5.1) that joins with the segment (5.5.59.27) also parallel to the original plane, to continue joining the segment (5.5.59.30) parallel to the original plane (5.5.1) through the arc (5.5.59.28) and the straight line (5.5.59.29) that is perpendicular to the original plane (5.5.1) to continue joining the segment (5.5.59.33) parallel to the plane original (5.5.1) and which is joined by the line (5.5.59.33) perpendicular to the original plane (5.5.1) and the arc (5.5.59.32) to continue joining the segment (5.5.59.36) which is parallel to the plane original (5.5.1) using the arc (5.5.59.34) and the line (5.5.59.35) perpendicular to the original plane (5.5.1) to continue joining the segment (5.5.59.39) that is parallel to the original plane (5.5. 1) using the line (5.5.59.38) perpendicular to the original plane (5.5.1) and the arc (5.5.59.37) to continue joining the plane (5.5.59.42) through the line (5.5.59.41) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.42) to continue joining the plane (5.5.59.45) through the line (5.5.59.43) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.42) to continue joining the plane (5.5. 59.48) through the line (5.5.59.47) perpendicular to the original plane (5.5.1) and to the arc (5.5.59.46) to continue joining the plane (5.5.59.51) through the line (5.5.59.49) perpendicular to the original plane ( 5.5.1) and to the arch (5.5.59.50) and this segment is the one that closes the lines that make up the insulating plate that is contained in the body of the piece;
SILLAR DE MEDIA ESPIGA o también denominado SILLAR DE AJUSTE CORTO (Pieza No.6), (de configuración Media Omega), un sillar que tiene una base rectangular (6.1) de la cual se desprende un reborde o media espiga en forma de Media Omega, (6.11) y se desprende sobre los planos laterales (6.2), (6.12), (6.17) como base de un plano paralelo al (6.1), que es el (6.3), unido por el plano inclinado (6.4) para unirse a su vez con el plano paralelo al (6.1) que es el (6.5) y al arco (6.6) a la diagonal (6.7) al arco (6.8) siguiendo con el plano paralelo al (6.1) que es el (6.9) y finalmente el plano inclinado (6.10) que completa el desprendimiento (6.11) del plano original (6.1), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (6.18) y otro inferior 6.19, que contienen un medio barreno (6.15), dispuesto en la parte central del reborde en forma de media omega y que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; formado por la diagonal (6.15) unida al plano (6.12) mediante la recta (6.13) paralela al plano (6.1) y el arco (6.14) y al plano (6.17) mediante el arco (6.16); HALF-SPIGOT CHAIR or also called SHORT-ADJUSTMENT CHAIR (Piece No.6), (of Half Omega configuration), an ashlar that has a rectangular base (6.1) from which a half Omega-shaped flange or half spike emerges , (6.11) and it emerges on the lateral planes (6.2), (6.12), (6.17) as the basis of a plane parallel to (6.1), which is (6.3), joined by the inclined plane (6.4) to join in turn with the plane parallel to (6.1) which is (6.5) and to the arc (6.6) to the diagonal (6.7) to the arc (6.8) following with the plane parallel to (6.1) which is (6.9) and finally the inclined plane (6.10) that completes the detachment (6.11) of the original plane (6.1), this configuration being three-dimensional, is complemented by two equal horizontal parallel planes, one upper (6.18) and another lower 6.19, which contain a middle hole (6.15), arranged in the central part of the flange in the shape of a half omega and that passes through the thickness of the part as a whole, which can accommodate r a rod and hydraulic concrete or installation lines; formed by the diagonal (6.15) joined to the plane (6.12) by the line (6.13) parallel to the plane (6.1) and the arc (6.14) and to the plane (6.17) by the arc (6.16);
SILLAR TERMO ACUSTICO DE MEDIA ESPIGA o también denominado SILLAR TERMO ACUSTICO DE AJUSTE CORTO (Pieza No.6.6), (de configuración Media Omega), un sillar que tiene una base rectangular (6.6.1) de la cual se desprende un reborde o media espiga en forma de Media Omega, (6.6.11) y se desprende sobre los planos laterales (6.6.2), (6.6.2.1), (6.6.2.2), (6.6.12), (6.6.17), (6.6.17.1), (6.6.17.2), como base de un plano paralelo al (6.1), que es el (6.6.3), unido por el plano inclinado (6.6.4) para unirse a su vez con el plano paralelo al (6.6.1) que es el (6.6.5) y al arco (6.6.6) a la diagonal (6.6.7) al arco (6.6.8) siguiendo con el plano paralelo al 6.6.1 que es el (6.6.9) y finalmente el plano inclinado (6.6.10) que completa el desprendimiento (6.6.11) del plano original (6.6.1), esta configuración al ser tridimensional, se complementa por dos planos paralelos horizontales iguales, uno superior (6.6.18) y otro inferior (6.6.19), que contienen un medio barreno (6.6.15), dispuesto en la parte central del reborde en forma de media omega y que atraviesa el espesor de la pieza en su totalidad, que puede alojar una varilla y concreto hidráulico o líneas de instalaciones; formado por la diagonal (6.6.15) unida al plano (6.6.12) mediante la recta (6.6.13) paralela al plano (6.6.1) y el arco (6.6.14) y al plano (6.6.17) mediante el arco (6.6.16); además del barreno descrito la pieza presenta también una placa de material aislante (6.6.20), que atraviesa también el espesor de la pieza en su totalidad y cuya forma está configurada por los siguientes segmentos: el segmento (6.6.20.1) paralelo al plano original (6.6.1) unido al segmento (6.6.20.4) también paralelo al plano original (6.1.1) mediante la recta (6.6.20.2) y el arco (6.6.20.3) esta se une a su vez con el segmento (6.6.20.7) paralelo al plano original (6.6.1) mediante la recta (6.6.20.6) y el arco (6.6.20.5); el segundo plano de esta placa tiene un segmento (6.6.20.9) paralelo al plano original (6.6.1) que se une con el segmento (6.6.20.7) también paralelo al plano original mediante la línea (6.6.20.8) perpendicular al plano original (6.6.1), para continuar uniendo el segmento (1.1.20.12) paralelo al plano original (6.6.1) mediante el arco (6.6.20.11) y la línea recta (6.6.20.10) que es perpendicular al plano original (6.6.1), para continuar uniendo al segmento (6.6.20.15) paralelo al plano original (6.6.1) y que se une mediante la recta (6.6.20.14) perpendicular al plano original (6.6.1) y el arco (6.6.20.13) para continuar uniendo al segmento (6.6.20.20) que es paralelo al plano original (6.6.1) mediante el arco (6.6.20.17) y la recta (6.6.20.18) perpendicular al plano original (6.6.1 ) para continuar uniendo al segmento (6.6.20.21) que es paralelo al plano original (6.6.1) mediante la recta (6.6.20.20) perpendicular al plano original (6.6.1 ) y el arco (6.6.20.19) y este segmento es el que cierra las líneas que configuran la placa aislante que está contenida en el cuerpo de la pieza; THERMO ACOUSTIC SADDLE WITH HALF SPIGOT or also called THERMO ACOUSTIC SADDLE WITH SHORT ADJUSTMENT (Part No.6.6), (of Media Omega configuration), an ashlar that has a rectangular base (6.6.1) from which a rim or media emerges spike in the form of a Half Omega, (6.6.11) and detaches on the lateral planes (6.6.2), (6.6.2.1), (6.6.2.2), (6.6.12), (6.6.17), ( 6.6.17.1), (6.6.17.2), as the basis of a plane parallel to (6.1), which is (6.6.3), joined by the inclined plane (6.6.4) to join in turn with the parallel plane to (6.6.1) which is (6.6.5) and to arc (6.6.6) to the diagonal (6.6.7) to arc (6.6.8) following the plane parallel to 6.6.1 which is (6.6.9) and finally the inclined plane (6.6.10) that completes the detachment (6.6.11) of the original plane (6.6.1), this configuration being three-dimensional, is complemented by two equal horizontal parallel planes, one upper (6.6.18) and the other lower (6.6.19), which contain a half hole (6.6.15), arranged in the central part of the rim in the shape of a half omega and passing through the thickness of the piece as a whole, which can house a rod and hydraulic concrete or installation lines; formed by the diagonal (6.6.15) joined to the plane (6.6.12) by the line (6.6.13) parallel to the plane (6.6.1) and the arc (6.6.14) and to the plane (6.6.17) by the bow (6.6.16); in addition to the hole described, the part also has a plate of insulating material (6.6.20), which also crosses the thickness of the part in its entirety and whose shape is configured by the following segments: the segment (6.6.20.1) parallel to the plane original (6.6.1) joined to the segment (6.6.20.4) also parallel to the original plane (6.1.1) through the line (6.6.20.2) and the arc (6.6.20.3) this is joined in turn with the segment ( 6.6.20.7) parallel to the original plane (6.6.1) through the line (6.6.20.6) and the arc (6.6.20.5); the second plane of this plate has a segment (6.6.20.9) parallel to the original plane (6.6.1) which is joined with the segment (6.6.20.7) also parallel to the original plane by the line (6.6.20.8) perpendicular to the plane original (6.6.1), to continue joining the segment (1.1.20.12) parallel to the original plane (6.6.1) through the arc (6.6.20.11) and the straight line (6.6.20.10) that is perpendicular to the original plane ( 6.6.1), to continue joining the segment (6.6.20.15) parallel to the original plane (6.6.1) and which is joined by the line (6.6.20.14) perpendicular to the original plane (6.6.1) and the arc (6.6 .20.13) to continue joining the segment (6.6.20.20) that is parallel to the original plane (6.6.1) through the arc (6.6.20.17) and the line (6.6.20.18) perpendicular to the original plane (6.6.1) to continue joining the segment (6.6.20.21) that is parallel to the original plane (6.6.1) through the line (6.6.20.20) perpendicular to the original plane (6.6.1) and the arc (6.6.20.19) and this segment is the what that closes the lines that make up the insulating plate that is contained in the body of the piece;
SILLAR DE REPISA (Pieza No.7), (de configuración Doble Omega o Doble Espiga Con una Base Pronunciada) un sillar que tiene una base rectangular (7.1) de la cual se desprenden dos rebordes o espigas en forma de Omega, el (7.1 1) y el (7.27) que se desprenden sobre dos planos laterales pronunciados situación que lo hace diferente de la descripción del SILLAR CENTRAL que son el (7.2, 7.36) como base de dos planos paralelos al (7.11), que son el (7.5), (7.19), (7.33), unidos por los planos inclinados (7.4), (7.18), (7.20), (7.34), para unirse a su vez con los planos paralelos al (7.1) que son el (7.5), (7.17), (7.21), (7.33) y con los arcos (7.6), (7.16), (7.22), (7.32) a las diagonales (7.7), (7.15), (7.23), (7.31), a los arcos (7.8), (7.14), (7.24), (7.30), siguiendo con los planos paralelos al (7.1) que son (7.9), (7.13), (7.25), (7.29), y finalmente los planos inclinados (7.10), (7.12), (7.26), (7.28) que completan los desprendimientos (7.11), (7.27) del plano original (7.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (7.39) y otro inferior (7.40), que contienen dos barrenos, el (7.37), (7.38), dispuestos en la parte central de cada reborde en forma de omega y están configurados por una figura trapezoidal que en el caso del barreno (7.37) presenta un segmento menor (7.37.1) es paralelo en primer término al plano original (7.1) y está unido al segmento mayor también paralelo al plano original (7.1) y es el segmento (7.37.6) unido mediante los arcos (7.37.2), (7.37.8), las diagonales (7.37.3), (7.37.7) y los arcos (7.37.4) y (7.37.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; en el caso del barreno (7.38) presenta un segmento menor (7.38.1) es paralelo en primer término al plano original (7.1) y está unido al segmento mayor también paralelo al plano original (7.1) y es el segmento (7.38.6) unido mediante los arcos (7.38.2), (7.38.8), las diagonales (7.38.3), (7.38.7) y los arcos (7.38.4) y (7.38.6); dispuestos en la parte central de los dos rebordes en forma de omega y que atraviesa el espesor de la pieza en su totalidad; SHELF CHAIR (Piece No.7), (Double Omega or Double Spike configuration With a Steep Base) an ashlar that has a rectangular base (7.1) from which two ridges or spikes in the shape of Omega emerge, the (7.1 1) and (7.27) that emerge on two pronounced lateral planes, a situation that makes it different from the description of the CENTRAL SADDLE that are (7.2, 7.36) as a base of two planes parallel to (7.11), which are (7.5), (7.19), (7.33), joined by the inclined planes (7.4), (7.18), (7.20), (7.34), to join in turn with the planes parallel to (7.1) which are (7.5), (7.17), (7.21), (7.33) and with the arcs (7.6), (7.16), (7.22), (7.32) to the diagonals (7.7 ), (7.15), (7.23), (7.31), to the arcs (7.8), (7.14), (7.24), (7.30), following with the planes parallel to (7.1) which are (7.9), (7.13 ), (7.25), (7.29), and finally the inclined planes (7.10), (7.12), (7.26), (7.28) that complete the detachments (7.11), (7.27) of the original plane (7.1) and that this configuration being three-dimensional, they are complemented by two equal horizontal parallel planes, an upper one (7.39) and a lower one (7.40), which contain two holes, the (7.37), (7.38), arranged in the central part of each flange in the form omega and are configured by a trapezoidal figure that in the case of the hole (7.37) has a smaller segment (7.37.1) is parallel in the first term mino to the original plane (7.1) and is joined to the largest segment also parallel to the original plane (7.1) and is the segment (7.37.6) joined by the arcs (7.37.2), (7.37.8), the diagonals (7.37 .3), (7.37.7) and arcs (7.37.4) and (7.37.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety; in the case of the hole (7.38) it presents a minor segment (7.38.1) is parallel in the first term to the original plane (7.1) and is attached to the major segment also parallel to the original plane (7.1) and is the segment (7.38.6 ) joined by the arcs (7.38.2), (7.38.8), the diagonals (7.38.3), (7.38.7) and the arcs (7.38.4) and (7.38.6); arranged in the central part of the two omega-shaped flanges and that crosses the thickness of the piece in its entirety;
SILLAR ESCALON DE ESPIGA Y MEDIA, (Pieza No.13), (de configuración Una Omega y Media) un sillar que tiene una base rectangular (13.1) de la cual se desprenden dos rebordes o espigas, uno en forma de Omega, el (3.11) y el otro en forma de media Omega, el (13.27) que se desprenden sobre dos planos laterales pronunciados el (13.2) y el (13.33) situación que lo hace diferente de la descripción del SILLAR DE ESPIGA Y MEDIA O DE AJUSTE LARGO y el plano (13.29) unidos mediante los arcos (13.30) y (13.32) y la diagonal (13.31 ) y toman como base a dos planos paralelos al (13.1 ), que son el (13.3), (13.19), unidos por los planos inclinados (13.4), (13.18), (13.20), para unirse a su vez con los planos paralelos al (13.1) que son el (13.5), (13.17), (13.21) y a los arcos (13.6), (13.16), (13.22), a las diagonales (13.7), (13.15), (13.23), a los arcos (13.8), (13.14), (13.24), siguiendo con los planos paralelos al (13.1) que son (13.9), (13.13), (13.25), y finalmente los planos inclinados (13.10), (13.12), (13.26), que completan el desprendimiento (13.11), (1 13.27) del plano original (13.1) y que esta configuración al ser tridimensional, se complementan por dos planos paralelos horizontales iguales, uno superior (13.34) y otro inferior (13.35), que contienen un barreno (13.33) dispuesto en la parte central del reborde en forma de omega y está configurado por una figura trapezoidal cuyo segmento menor (13.33.2) es paralelo en primer término al plano original (13.1) y está unido al segmento mayor también paralelo al plano original (13.1) y es el segmento (13.33.5) unido mediante los arcos (13.33.2), (13.33.8), las diagonales (13.33.3), (13.33.7) y los arcos (13.33.4) y (13.33.6); dispuestos en la parte central del reborde en forma de omega y que atraviesa el espesor de la pieza en su totalidad; CHAIR WITH A HALF AND A HALF STEP, (Piece No.13), (configuration One Omega and a Half) an ashlar that has a rectangular base (13.1) from which two flanges or spikes emerge, one in the shape of an Omega, the ( 3.11) and the other in the shape of a half Omega, the (13.27) that emerge on two pronounced lateral planes (13.2) and the (13.33) situation that makes it different from the description of the SPIKE AND MEDIUM OR LONG ADJUSTMENT SADDLE and the plane (13.29) joined by the arcs (13.30) and (13.32) and the diagonal (13.31) and take as a basis two planes parallel to (13.1), which are (13.3), (13.19), joined by the inclined planes (13.4), (13.18), (13.20), to join in turn with the planes parallel to (13.1) which are (13.5), (13.17), (13.21) and to the arcs (13.6), (13.16 ), (13.22), to the diagonals (13.7), (13.15), (13.23), to the arcs (13.8), (13.14), (13.24), continuing with the planes parallel to (13.1) which are (13.9), (13.13), (13.25), and finally the inclined planes (13.10), (13.12), (13.26), which complete the detachment (13.11), (1 13.27) of the original plane (13.1) and that this configuration, being three-dimensional, is complemented by two equal horizontal parallel planes, one upper (13.34) and the other lower (13.35), which contain a hole (13.33) arranged in the central part of the flange in omega shape and is configured by a trapezoidal figure whose minor segment (13.33.2) is parallel in the foreground to the original plane (13.1) and is joined to the major segment also parallel to the original plane (13.1) and is the segment (13.33. 5) joined by the arches (13.33.2), (13.33.8), the diagonals (13.33.3), (13.33.7) and the arches (13.33.4) and (13.33.6); arranged in the central part of the rim in an omega shape and that crosses the thickness of the piece in its entirety;
2.- Un Sistema Constructivo a Base de Sillares de Interconexión Múltiple de conformidad con la reivindicación 1) los cuales comprenden el siguiente acoplamiento: 2.- A Constructive System Based on Multiple Interconnection Ashlars in accordance with claim 1) which comprise the following coupling:
UN SILLAR DE UNA ESPIGA (Pieza No.1) que presenta un reborde o espiga en forma de Omega que a su vez contiene que contiene un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A SADDLE WITH A SINGLE SPIGOT (Part No.1) that presents an Omega-shaped flange or spike that in turn contains that contains a trapezoidal-shaped hole and serves to house a rod and hydraulic concrete or ducts of installations, hydraulic electrical and sanitary and also have inclined planes that prevent the lateral sliding of the blocks and that are coupled in the alveoli that the pieces that make up the system have, either individually or as a composite;
UN SILLAR CENTRAL (Pieza No.2) que presenta dos rebordes o espigas en forma de Omega que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A CENTRAL SADDLE (Part No.2) that has two Omega-shaped flanges or spikes that in turn contain a trapezoidal-shaped hole and serve to house a rod and hydraulic concrete or ducts for electrical, hydraulic and sanitary installations and also present inclined planes that prevent the lateral sliding of the ashlars and that are coupled in the alveoli that the pieces that make up the system have, either individually or as a composite;
UN SILLAR DE ESPIGA Y MEDIA o también denominado DE AJUSTE LARGO (Pieza No.3), que presenta dos rebordes o espigas, uno en forma de Omega y otro en forma de Media Omega o Media Espiga, que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A SADDLE WITH A HALF AND HALF SPIKE or also called LONG ADJUSTMENT (Piece No.3), which has two edges or spikes, one in the shape of an Omega and the other in the shape of a Half Omega or Half Spike, which in turn contain a hole in trapezoidal shape and serves to house a rod and hydraulic concrete or ducts of installations, electrical, hydraulic and sanitary and also have inclined planes that prevent the lateral sliding of the blocks and that are coupled in the alveoli that present the parts that make up the system already either individually or as a compound;
UN SILLAR ESQUINERO (Pieza No.4), que presenta dos rebordes o espigas, uno en forma de Omega y otro en forma de media Omega o Media Espiga, con una Espiga adosada al extremo de la Media Espiga girada en forma ortogonal y que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A CORNER SADDLE (Piece No.4), which has two edges or spikes, one in the shape of an Omega and the other in the shape of a half Omega or Half Spike, with a Spike attached to the end of the Half Spike turned orthogonally and that in turn, they contain a trapezoidal-shaped hole and serve to house a rod and hydraulic concrete or ducts of installations, electrical, hydraulic and sanitary, and also have inclined planes that prevent the lateral sliding of the blocks and that are coupled in the alveoli that present the pieces that make up the system either individually or as a composite;
UN SILLAR CRUCERO (Pieza No.5) que presenta dos rebordes o espigas, uno en forma de Omega y otro en forma de Media Omega o Media Espiga, con dos Medias Omegas adosadas a la Media Omega giradas en forma ortogonal y que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A CRUISE SADDLE (Piece No.5) that has two ridges or spikes, one in the shape of an Omega and the other in the shape of a Half Omega or Half Spike, with two Half Omegas attached to the Half Omega turned orthogonally and which in turn They contain a trapezoidal shaped hole and serve to house a rod and hydraulic concrete or ducts of installations, electrical, hydraulic and sanitary and also have inclined planes that prevent the lateral sliding of the blocks and that are coupled in the alveoli that present the pieces that make up the system either individually or as a composite;
UN SILLAR DE MEDIA ESPIGA o también denominado DE AJUSTE CORTO (Pieza No.6) que presenta un reborde o espiga en forma de Media Omega o Media Espiga que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A SADDLE OF HALF SPIGOT or also called SHORT ADJUSTMENT (Part No.6) that presents a flange or spike in the shape of Half Omega or Half Spike that in turn contain a trapezoidal shaped hole and serves to accommodate a rod and hydraulic concrete or installation ducts, electrical, hydraulic and sanitary and also have inclined planes that prevent the lateral sliding of the ashlars and that are coupled in the alveoli that present the pieces that make up the system either individually or as a composite;
UN SILLAR DE REPISA (Pieza No.7) que presenta dos rebordes o espigas en forma de Omega que se desprenden en forma pronunciada del plano base y que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A SHELF CHAIR (Piece No.7) that has two Omega-shaped edges or spikes that protrude sharply from the base plane and that in turn contain a trapezoidal-shaped hole and serve to accommodate a rod and concrete Hydraulic or ducts of installations, electrical, hydraulic and sanitary and also have inclined planes that prevent the lateral sliding of the blocks and that are coupled in the alveoli that present the pieces that make up the system either individually or as a composite;
UN SILLAR ESCALON (Pieza No.13) que presenta dos rebordes o espigas, uno en forma de Omega y otro en forma de Media Omega o Media Espiga, que a su vez contienen dos rebordes o espigas en forma de Omega que se desprenden en forma pronunciada del plano base y que a su vez contienen un barreno en forma trapezoidal y sirve para alojar una varilla y concreto hidráulico o ductos de instalaciones, eléctricas hidráulicas y sanitarias y presentan además unos planos inclinados que impiden el deslizamiento lateral de los sillares y que se acoplan en los alveolos que presentan las piezas que componen el sistema ya sea en forma individual o compuesta; A STEP CHAIR (Piece No.13) that has two ridges or spikes, one in the shape of an Omega and the other in the shape of a Half Omega or Half Spike, which in turn contain two ridges or spikes in the shape of an Omega that detach in a pronounced of the base plane and which in turn contain a trapezoidal shaped hole and serves to house a rod and hydraulic concrete or ducts of installations, electrical, hydraulic and sanitary and also have inclined planes that prevent the lateral sliding of the blocks and that they fit in the alveoli that present the pieces that make up the system either individually or as a composite;
3.- UN SISTEMA CONSTRUCTIVO A BASE DE SILLARES DE INTERCONEXION MÚLTIPLE como reclamado en la reivindicación 1 ), 2) en donde el material para la fabricación de los sillares puede ser: 3.- A CONSTRUCTION SYSTEM BASED ON MULTIPLE INTERCONNECTION CHAIRS as claimed in claim 1), 2) where the material for the manufacture of the blocks can be:
“Adobe, yeso, cerámica horneada, concreto hidráulico (cemento - arena) de materiales plásticos y sintéticos de todo tipo naturales y artificiales, metales, cristales arenas sílicas o materiales similares, por su forma geométrica y modo de ensamble; que son las novedades del sistema, se pueden fabricar sillares de diferentes dimensiones a escala según su aplicación”; “Adobe, plaster, baked ceramics, hydraulic concrete (cement - sand) made of plastic and synthetic materials of all natural and artificial types, metals, crystals, silica sand or similar materials, due to their geometric shape and way of assembly; which are the novelties of the system, it is possible to manufacture ashlars of different dimensions to scale according to their application ”;
4.- UN SISTEMA CONSTRUCTIVO A BASE DE SILLARES DE INTERCONEXIÓN MÚLTIPLE como lo reclamado en la reivindicación 1), 2), 3)“en donde los rebordes en forma de Omega contienen barrenos centrales en forma trapezoidal, que sirven para alojar una varilla y concreto hidráulico, ductos de instalaciones eléctricas, hidráulicas o similares; 4.- A CONSTRUCTION SYSTEM BASED ON MULTIPLE INTERCONNECTION SADDLES as claimed in claim 1), 2), 3) "where the Omega-shaped edges contain central trapezoidal holes, which serve to house a rod and hydraulic concrete, pipelines for electrical, hydraulic or similar installations;
5.- Reclamamos de nuestra exclusiva propiedad, los moldes y formas construidas con cualquier tipo y material sea metálico, plástico, de cerámica, yeso, o cualquier material de origen natural o sintético, electrónico, virtual en 3 D o similar, conocido y no conocido, que tenga como resultado final cualquiera de las formas de los elementos del sistema descritos en las reivindicaciones 1), 2), 3), y 4); 5.- We claim as our exclusive property, the molds and forms built with any type and material, be it metallic, plastic, ceramic, plaster, or any material of natural or synthetic origin, electronic, virtual 3 D or similar, known and not known, that has as a final result any of the forms of the elements of the system described in claims 1), 2), 3), and 4);
6.- Reclamamos de nuestra exclusiva propiedad cualquier tipo de publicación de origen físico, electrónico, virtual, o similar que contenga cualquiera de los componentes referidos en las reivindicaciones 1 ), 2), 3), 4) y 5); 6.- We claim as our exclusive property any type of publication of physical, electronic, virtual, or similar origin that contains any of the components referred to in claims 1), 2), 3), 4) and 5);
PCT/MX2020/000013 2019-04-09 2020-03-20 Construction system based on multi-interconnection building stones WO2020209709A2 (en)

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GB188990A (en) * 1921-12-14 1922-11-23 James Torsten Sandberg Building block
CA2324132C (en) * 1999-10-25 2002-12-31 Daniel Boot Interlocking concrete block
CN101680224A (en) * 2007-06-11 2010-03-24 海比特拉建筑解决方案公司 Modular system
WO2009051463A1 (en) * 2007-10-17 2009-04-23 Silvia Rosa Zambrano Hornedo Assemblable stones used to assemble construction modules
US9482003B2 (en) * 2013-03-15 2016-11-01 Oldcastle Architectural, Inc. Insulated concrete masonry system
CN204001381U (en) * 2014-02-18 2014-12-10 柳忠国 Reinforce heat insulation building block
IT201600097863A1 (en) * 2016-09-30 2016-12-30 Luciano Turello Construction procedures for masonry and panels

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