Diagrams and Symbols Used in Engineering - Secondary 1 and 2

Just like manufacturing drawings, diagrams are a form of graphical language used in technical drawings. On the other hand, unlike manufacturing drawings which reproduce the general appearance of an object with precision, other diagrams are simplified drawings of an object or a system, which provide information about how it works or how it is built.

Although a diagram is a simplified graphical representation, it must still meet certain standards. The following are some of the standards.

• Laying out: Lines must be clean and legible. They are made by hand with technical drawing instruments or on the computer.
• Colour: It is possible to add colour to a diagram to distinguish the parts of an object or to distinguish the materials used during construction.
• Representation: The object is illustrated in two dimensions on a diagram.

To visualize an object and its operation more clearly, symbols are added to a diagram. The symbols are standardized to ensure clear communication between the different parties involved in the manufacture or analysis of an object. In fact, these symbols are a part of an international language of graphical symbols, as are basic lines in technical drawing.

Since each type of diagram has its own purpose, different symbols are used in each one.

The following elements can be illustrated using symbols:

• Constraints
• Types of motion
• Motion transmission systems
• Motion transformation systems
• Mechanical links and guiding controls

The design plan and the construction diagram are two types of diagrams used in mechanical engineering. The following symbols can be found in these diagrams.

Constraints

Constraint symbols are used to represent the effects of forces acting on an object. They are usually found in the design plan.

Types of Constraints

Compression	Tension	Torsion

Types of motion

Symbols representing mechanical motions are also included in the design plan to illustrate the types of motion that can be carried out by parts of an object. They are usually found in the design plan.

Types of Motion

Unidirectional rectilinear translation	Bidirectional rectilinear translation	Unidirectional rotation	Bidirectional rotation	Unidirectional helical motion	Bidirectional helical motion

Motion Transmission Systems

Some technological objects have motion transmission systems. To indicate them, the following standardized symbols are used. They are usually found in a design plan.

Motion Transmission Systems

Friction gears	Pulleys and belt	Gear train
Chain and sprockets		Worm and worm gear

Motion Transformation Systems

Some technological objects have motion transformation systems. The systems are indicated by the following standardized symbols. We usually find them in a design plan.

Motion Transformation Systems

Screw gear	Connecting rod and crank	Rack and pinion
Worm and rack	Cam and roller

Mechanical links and guides

The link symbols enable you to visualize the interlocking or the links that unite the parts. Guiding symbols are used to design the trajectory of moving parts. They are usually found in the construction diagram.

Types of Links or Guiding Controls

Complete link	Complete flat link	Translational guiding control	Rotational guiding control	Rotational and translational guiding

Depending on the characteristics of the links, they can be rigid or flexible. A flexible link is often associated with springs. The following symbols are used to represent the different types of springs. They are usually found in a construction diagram.

Types of Springs

Compression spring	Tension spring	Conical spring	Torsion spring	Angular tension spring