Differences

This shows you the differences between two versions of the page.

--- en:infra-convert:user:terms [2019/11/06 17:06]
me [Drawing data format]
+++ en:infra-convert:user:terms [2020/05/15 15:27]
me
@@ Line 119: / Line 119: @@
 ==== Class (characteristic-) ====
-The specification of →[[en:infra-convert:user:terms#Characteristic (test-, quality-)|characteristics]] in the technical drawings follows defined rules. Such rules are laid down in international and national norms, but also company publications (factory standards). Misunderstandings are avoided between the customer and the supplier when reference is made to rules of interpretation, despite a reduction in the documentation effort required. A **class** in the context of test planning can be considered such a reference
+The specification of →[[en:infra-convert:user:terms#Characteristic (test-, quality-)|characteristics]] in the technical drawings follows defined rules. Such rules are laid down in international and national norms, but also company publications (factory standards). Misunderstandings are avoided between the customer and the supplier when reference is made to rules of interpretation, despite a reduction in the documentation effort required. A **class** refers to a rule and thus specifies the context in which the characteristic properties are to be understood.
 The classes listed at this point, sorted into the following groups, can be assigned in #@IC_HTML@#. The classes relate to recognised standards (see “References” column). Unless otherwise stated, the unit of measurement always applies to tolerance limits as well.
@@ Line 164: / Line 164: @@
 ^ Square |  {{:en:infra-convert:user:terms:icon_klasse_quadrat.png?nolink&35|}}  | Edge length of a square shape.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:grafik_quadrat.png?direct&420|}} | • DIN 406-10:1992\\ • DIN 406-11:1992 |  82  |  –  |
 ^ Width across flats |  {{:en:infra-convert:user:terms:icon_klasse_schluesselweite.png?nolink&35|}}  | Distance between two parallel surfaces, which is mostly used for positioning wrenches.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:grafik_schluesselweite.png?direct&420|}} | • DIN 406-10:1992\\ • DIN 406-11:1992 |  83  |  −  |
-^ Slope (gradient) |  {{:en:infra-convert:user:terms:icon_klasse_dreieck.png?nolink&35|}}  | Slope ratio of an oblique line or area.\\ \\ **Standard measurement unit** –\\ \\ Example:\\ {{:en:infra-convert:user:terms:grafik_neigung_verhaeltnis.png?direct&420|}} | • DIN 406-10:1992\\ • DIN 406-11:1992 |  84  |  −  |
+^ Slope (gradient) |  {{:en:infra-convert:user:terms:icon_klasse_dreieck.png?nolink&35|}}  | Slope ratio of an oblique line or area.\\ \\ **Standard measurement unit** –\\ \\ Example:\\ {{ :en:infra-convert:user:terms:grafik_neigung_verhaeltnis.png?400 | }} | • DIN 406-10:1992\\ • DIN 406-11:1992 |  84  |  −  |
 ^ Slope (gradient) in % |  {{:en:infra-convert:user:terms:icon_klasse_dreieck.png?nolink&35|}}  | Slope ratio of an oblique line or area.\\ \\ **Standard measurement unit** Percent\\ \\ Example:\\ {{:en:infra-convert:user:terms:grafik_neigung.png?direct&420|}} | • DIN 406-10:1992\\ • DIN 406-11:1992 |  85  |  −  |
 ^ Tapering |  {{:en:infra-convert:user:terms:icon_klasse_kegel.png?nolink&35|}}  | Slope ratio of a pointed or blunt cone or flat surfaces standing symmetrically at an angle to each other.\\ \\ **Standard measurement unit** –\\ \\ Example:\\ {{:en:infra-convert:user:terms:grafik_verjuengung.png?direct&420|}} | • DIN 406-11:1992 |  86  |  –  |
@@ Line 181: / Line 181: @@
 ^  :::  ^  :::  ^  :::  ^  :::  ^  ELIAS  ^  [[en:infra-convert:dev:export:dfd#K2009]]  ^
 ^ Straightness |  {{:en:infra-convert:user:terms:icon_klasse_geradheit.png?nolink&35|}}  | Permissible shape deviation of a line or group of lines from a reference line or reference lines.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_geradheit-01.png?direct&420|}} | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  7  |  100  |
+^ ::: |  :::  | **Straightness (shape ⌀)**\\ The tolerance range has a circular cross-section, see example. \\ \\ **Anmerkung** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  121  |  100  |
 ^ Flatness |  {{:en:infra-convert:user:terms:icon_klasse_ebenheit.png?nolink&35|}}  | Permissible shape deviation of a surface from a reference plane.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_ebenheit-01.png?direct&420|}} | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12781-1:2011 |  8  |  101  |
 ^ Roundness |  {{:en:infra-convert:user:terms:icon_klasse_rundheit.png?nolink&35|}}  | Permissible shape deviation of a circular line or group of circular lines from a reference circle or reference circles.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_rundheit-01.png?direct&420|}} | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12781-1:2011 |  9  |  102  |
@@ Line 187: / Line 188: @@
 ^ Surface profile |  {{:en:infra-convert:user:terms:icon_klasse_flaechenprofil.png?nolink&35|}}  | Permissible deviation of a profile surface from a reference surface profile.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_profilform_flaeche-01.png?direct&420|}} | • DIN EN ISO 1101:2014\\ • DIN EN ISO 1660:2013 |  12  |  105  |
 ^ Parallelism |  {{:en:infra-convert:user:terms:icon_klasse_parallelitaet.png?nolink&35|}}  | Permissible deviation in direction of a line, group of lines or plane from one or several reference lines or plane(s) oriented parallel to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_parallelität-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  13  |  108  |
+^ ::: |  :::  | **Parallelism (shape ⌀)**\\ The tolerance range has a circular cross-section.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  122  |  108  |
 ^ Perpendicularity |  {{:en:infra-convert:user:terms:icon_klasse_rechtwinkligkeit.png?nolink&35|}}  | Permissible deviation in direction of a line, group of lines or plane from one or several reference lines or plane(s) oriented perpendicular to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_rechtwinkligkeit-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  14  |  107  |
+^ ::: |  :::  | **Perpendicularity (shape ⌀)**\\ The tolerance range has a circular cross-section, see example.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  123  |  107  |
 ^ Inclination |  {{:en:infra-convert:user:terms:icon_klasse_neigung.png?nolink&35|}}  | Permissible deviation in direction of a line, group of lines or plane from one or several reference lines or plane(s) oriented angular (but not perpendicular) to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_neigung-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  15  |  106  |
+^ ::: |  :::  | **Inclination (shape ⌀)**\\ The tolerance range has a circular cross-section.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  124  |  106  |
 ^ Position |  {{:en:infra-convert:user:terms:icon_klasse_position.png?nolink&35|}}  | Permissible positional deviation of a point, axis or plane from a reference point, reference line or plane positioned to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_position-01.png?direct&420|}} | • DIN EN ISO 1101:2014\\ • DIN EN ISO 5458:1999 |  22  |  109  |
+^ ::: |  :::  | **Position (shape ⌀)**\\ The tolerance range has a circular cross-section, see example.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  125  |  109  |
+^ ::: |  :::  | **Position (shape S⌀)**\\ The tolerance range has a circular cross-section.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  126  |  109  |
 ^ Concentricity |  {{:en:infra-convert:user:terms:icon_klasse_konzentrizitaet.png?nolink&35|}}  | Permissible positional deviation of a point from a reference point concentric to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_konzentrizitaet-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  21  |  110  |
+^ ::: |  :::  | **Concentricity (shape ⌀)**\\ The tolerance range has a circular cross-section, see example.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  128  |  110  |
 ^ Coaxiality |  {{:en:infra-convert:user:terms:icon_klasse_konzentrizitaet.png?nolink&35|}}  | Permissible positional deviation of straight line from a straight reference line coaxial to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_koaxialitaet-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  89  |  663  |
+^ ::: |  :::  | **Coaxiality (shape ⌀)**\\ The tolerance range has a circular cross-section, see example.\\ \\ **Note** Available from program version 1.4.2.1 | • DIN EN ISO 1101:2014\\ • DIN EN ISO 12780-1:2014 |  127  |  110  |
 ^ Symmetry |  {{:en:infra-convert:user:terms:icon_klasse_symmetrie.png?nolink&35|}}  | Permissible positional deviation of a point, group of points, straight line or plane from one or several reference point(s) or plane(s) lying symmetrical to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_symmetrie-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  20  |  111  |
 ^ Radial concentric run-out |  {{:en:infra-convert:user:terms:icon_klasse_rundlauf.png?nolink&35|}}  | Permissible radial running deviation of a circular line or group of circular lines to one or several reference circle(s) that lies coaxial to it.\\ \\ **Standard measurement unit** Millimetres\\ \\ Example:\\ {{:en:infra-convert:user:terms:form-_und_lagetoleranzen_radialer_rundlauf-01.png?direct&420|}} | • DIN EN ISO 1101:2014 |  16  |  112  |
@@ Line 439: / Line 447: @@
 Vector graphic formats, on the other hand, store graphic elements as unique, mathematically described graphic primitives. The latter mean basic geometric elements such as straight lines, arcs, and splines, as well as surfaces such as circles, polygons, and spline surfaces. Texts are stored either as polylines or with the help of character encoding (see also →[[en:infra-convert:user:terms#font|Font]]).
-> In #@IC_HTML@#, character-coded or embedded texts are a prerequisite for automatic feature recognition.
+> In #@IC_HTML@#, character-coded texts or embedded fonts are a prerequisite for automatic feature recognition.
 <WRAP group>
@@ Line 513: / Line 521: @@
 {{ :en:infra-convert:user:terms:schriftartdatei.png?nolink&700 |}}
-In addition to the purely visual representation of characters, the unambiguous definition of characters is important for the automatic analysis of technical drawings. PDF files are generally used to displaying characters correctly. This is because the character definitions used are saved in the file. This is (unfortunately) different with the CAD exchange formats DXF, DWG and IGES. In them only the references to characters are stored in font files. The font files are therefore required for correct display.
+In addition to the purely visual representation of characters, the unambiguous definition of characters is important for the automatic analysis of technical drawings. PDF files are generally used to displaying characters correctly. This is because the character definitions used are saved (embedded) in the file. This is (unfortunately) different with the CAD exchange formats DXF, DWG and IGES. In them only the references to characters are stored in font files. The font files are therefore required for correct display.
 > **Significance for #@IC_HTML@#** Fonts are protected by copyright. In most cases, the rights of use are only granted for a fee. The number of fonts used by CAD systems is immensely high. Supplying these fonts would disproportionately increase the cost of #@IC_HTML@# licenses. For this reason, #@IC_HTML@# replaces fonts not installed on the computer with visually similar fonts when loading drawing files. If this is the case, a note message is issued.

ELIAS GmbHProduktdokumentationen

User Tools

Site Tools

Differences

Page Tools

ELIAS GmbH
Produktdokumentationen