The 5 common types of industrial robots are articulated, Cartesian, SCARA, cylindrical, and delta robots.
Each type differs in structure, movement, and working capability.
They are used for tasks like assembly, welding, material handling, and packaging.

What are the 5 types of industrial robots?

The five major types of industrial robots are commonly classified according to their mechanical structure and movement configuration. Each type has a different work envelope, degree of freedom, speed, accuracy, and industrial application.

The five commonly recognized industrial robot types are:

Cartesian robots
Cylindrical robots
Spherical (Polar) robots
SCARA robots
Articulated robots

These are widely used in manufacturing industries such as automotive, electronics, aerospace, packaging, and material handling.

1. Cartesian Robot

A Cartesian robot moves along three mutually perpendicular linear axes:

X-axis
Y-axis
Z-axis

The movement follows the Cartesian coordinate system.

Because all movement is linear, the robot creates a rectangular or box-shaped work envelope.

Structure

Typically includes:

Linear slides
Guide rails
Actuators
End effector

Characteristics

Straight-line movement
High positioning accuracy
Simple programming
Rigid structure

Advantages

Excellent precision
High repeatability
Simple design
Easy control

Limitations

Limited flexibility
Requires larger installation space

Applications

CNC machine loading
Pick-and-place operations
3D printing
Packaging
Inspection systems

2. Cylindrical Robot

A cylindrical robot combines:

Rotational motion at the base
Linear vertical movement
Linear radial movement

Its work area resembles a cylinder.

Structure

Contains:

Rotating base
Sliding arm
Vertical motion system

Characteristics

Moderate flexibility
Compact design
Cylindrical work envelope

Advantages

Good reach capability
Space efficient
Suitable for repetitive tasks

Limitations

Lower flexibility compared with articulated robots

Applications

Machine loading
Material handling
Assembly operations
Spot welding

3. Spherical (Polar) Robot

Spherical robots use:

Rotational joints
Pivoting movements
Telescopic arm extension

The workspace resembles part of a sphere.

Characteristics

Large working range
Multiple movement directions

Advantages

Wider reach
Flexible positioning

Limitations

More complex control
Lower accuracy than some robot types

Applications

Die casting
Welding
Material handling
Assembly operations

4. SCARA Robot

SCARA stands for:

Selective Compliance Assembly Robot Arm

Designed especially for high-speed assembly operations.

The arm:

Is rigid vertically
Flexible horizontally

Structure

Usually contains:

Two parallel rotary joints
Vertical axis movement

Characteristics

Fast movement
High precision
Compact design

Advantages

Excellent assembly speed
High repeatability
Small footprint

Limitations

Limited working area
Lower flexibility than articulated robots

Applications

Electronics manufacturing
Pick-and-place operations
Packaging
Small component assembly

5. Articulated Robot

Articulated robots resemble a human arm.

They contain multiple rotary joints.

Typical industrial versions:

Four-axis
Five-axis
Six-axis
Seven-axis systems

Six-axis robots are especially common.

Structure

Includes:

Rotating joints
Links
Wrist mechanism
End effector

Characteristics

Very flexible movement
Large work envelope
Multiple orientations

Advantages

Highly versatile
Flexible positioning
Wide movement range

Limitations

More expensive
Complex programming
Higher maintenance requirements

Applications

Welding
Painting
Material handling
Assembly
Packaging
Machine tending

Comparison of the five robot types

Robot type	Motion type	Workspace	Flexibility	Common use
Cartesian	Linear	Rectangular	Low	CNC, pick-and-place
Cylindrical	Rotary + linear	Cylindrical	Moderate	Material handling
Spherical	Rotational + telescopic	Spherical	Moderate	Welding
SCARA	Rotary + vertical	Limited	Moderate	Fast assembly
Articulated	Multiple rotary joints	Large	Very high	General automation

Factors affecting robot selection

Engineers select robots based on:

Payload capacity
Speed requirements
Precision needs
Workspace size
Degree of freedom
Cost
Application type

Example: Automotive industry

Different robots may perform:

Cartesian → machine loading
SCARA → component assembly
Articulated → welding and painting

Conclusion

The five major industrial robot types—Cartesian, Cylindrical, Spherical, SCARA, and Articulated robots—differ in structure, movement capability, and application. Each type is designed for specific manufacturing tasks, and proper selection improves productivity, efficiency, and automation performance.