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      A constraint in computer-aided design (CAD) software is a limitation or restriction imposed by a designer or an engineer upon geometric properties: 203  of an entity of a design model (i.e. sketch) that maintains its structure as the model is manipulated. These properties can include relative length, angle, orientation, size, shift, and displacement. The plural form constraints refers to demarcations of geometrical characteristics between two or more entities or solid modeling bodies; these delimiters are definitive for properties of theoretical physical position and motion, or displacement in parametric design. The exact terminology, however, may vary depending on a CAD program vendor.
      Constraints are widely employed in CAD software for solid modeling, computer-aided architectural design such as building information modeling, computer-aided engineering, assembly modeling, and other CAD subfields. Constraints are usually used for the creation of 3D assemblies and multibody systems.
      A constraint may be specified for two or more entities at once. For instance, two lines may be constrained to have equal length or diameter of circles can be set to have the same dimension (e.g., radius or length). Moreover, the constraint may be applied to solid models to be locked or fixed in a specified space. Concept of constraints is applicable for both two- (2D) three-dimensional (3D) sketches (including the ones used to create extrusions and solid bodies).
      The concept of constraints initially emerged in the 1960s and were further developed in the 1970-80s.


      History


      The original idea of "constraints" was introduced by Ivan Sutherland in 1975. It is derived from ideas employed in Sketchpad system made in 1963.: 29  In his work he argued that the usefulness of a technical drawing made by a computer program relied on their structured nature. Compared to traditional drawings that lack this feature the virtual ones had advantages in keeping track of and recalculating dimensions of entities (lines, angles, areas etc.). These ideas were integrated into a CAD system that maintained this structure as a designer manipulated geometric model.: 29 
      In the 1970s the idea was further extended into three-dimensional space. In the 80s, a more generalized constraint-based programming language approach emerged and found some application in CAD software. At least one conceptual prototype was built in 1989.: 29 


      Overview


      The purpose of constraints in a design is to control and limit the behavior of the entities and bodies in relation to another entity, plane or body.: 203  Effective constraints or mates between two or more bodies may exist at the assembly level of these or between two or more entities in defining a sketch, but adding conflicting, unnecessary or redundant constraints may result in an overdefined sketch and an error message.


      = Degrees of freedom

      =
      Development of a good constraining system might be a time-consuming process.: 206  One approach to this situation may be referred as removing degrees of freedom (DOF). The latter are often represented by (X,Y,Z) coordinates in space.: 206  The designer may quickly figure out whether an entity is constrained or not by counting the number of DOFs removed from it.: 206 


      Types




      = Geometric constraints

      =

      There are several constraints that may be applied between entities or bodies depending on their actual natural geometry (may also be referred to as ’’mates’’): collinearity, perpendicularity, tangency, symmetry, coincidency, and parallelism are ways of establishing the orientation of the entity.: 203 


      = Parametrics

      =
      More advanced 2D/3D CAD systems may allow application of mathematical relationships between constraints that help to save time on reshaping a model.: 212  By way of parametrics a complicated sketch can be adjusted in matters of seconds in predictable ways by only changing one or a few basic dimensions saving a fair amount of working time. Such systems are usually referred as parametric as they create parametric models. Parametrics may also be referred as a design intent, varying geometry, family tables, or as driving dimensions.: 213 


      = Assembly constraints

      =

      In assembly modeling, constraints are widely used to control or restrict design parts movements or relationships between each other. Some constraints forces models to respond to changes made in a separate part of a designed product. This enables the design to be responsive as a whole.: 251 


      Implementations



      Implementation of constraints functionality vary with given CAD system and may respond differently to how user applies them. When constraints are added into a sketch some system may be smart enough to apply additional ones based on pre-existing entities automatically. For instance, if the line is drawn next to another one the system may figure to constrain them into being in parallel relative to each other. This sometimes, however, may lead to unexpected results.: 206 


      = Geometric constraint solving

      =

      Constraint solver is a dedicated software that calculates positions of points of the 2D sketch based on geometric constraint specified by the user. The purpose of the constraint solver is to find all points' positions with respect to the said constraints. It also usually helps with identifying issues with constraining such as over-constraining etc. so the entire sketch is stable.: 209–2013 


      Example


      Ideally, a rod will need to be concentric to a hole drilled through the plate where it will be inserted, so the constraint "concentric" guarantees that the diameter of the rod and the diameter of the hole maintain a common centerline, thus "locking" the manner the rod relates to the hole in the plate; this means that the rod could still slide on either direction since the position of its ends has not been limited. Instance 2 illustrates that the rod may still rotate along its centerline while it slides up or down.


      See also


      Constraint (classical mechanics)
      Geometric constraint solving
      Geometric dimensioning and tolerancing
      Parametric modeling
      Preliminary design & detailed design


      References




      Sources


      Introducing AutoCAD 2010 and AutoCAD LT 2010 (pages 117-122), by George Omura. 2009; 1st. Edition. Wiley Publishing, Inc., Indianapolis, Indiana. ISBN 978-0-470-43867-1 Hard Cover; 384 pages.
      Autodesk® Inventor® 2011 Essentials Plus (pages 312-341), by Daniel T. Banach; Travis Jones; Alan J. Kalameja. 2011; Delmar/Cengage Learning, Autodesk Press. Printed in the United States of America. ISBN 978-1-1111-3527-0; ISBN 1-1111-3527-4. New York.

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