BOTS

What is a Four-Axis Robot?

A four-axis robot has four axes to help it move things. Each axis lets the robot move in a certain way or turn. Four-axis robots are fast and very steady. They are also easy to control. Many factories use these robots for jobs that need quick and exact moves.

Four-Axis Robots Overview

Axis Functions

An axis is a way a robot can move or turn. Each axis lets the robot move in a new direction. Most four-axis robots have three axes that move straight: X goes side to side, Y goes front to back, and Z goes up and down. The fourth axis lets the robot twist its wrist or tool. This setup helps the robot pick up things, move them, and turn them to put them in the right spot.

A four-axis robot is good at moving and controlling things. It can reach, lift, and turn objects quickly and accurately. The design is simple, so it is easy to program and fix. Many factories use four-axis robots because they do not need hard controllers or special training.

Axis	Primary Function	Contribution to Robot Performance
Axis 1	Controls base rotation (left to right, 180°)	Enables horizontal movement and positioning of objects along a line
Axis 2	Controls lower arm movement (forwards/backwards)	Allows lifting and moving objects along x and y axes
Axis 3	Controls upper arm movement (vertical reach)	Expands vertical reach, making parts more accessible
Axis 4	Controls wrist rotation (end-effector orientation)	Allows rotation of objects, enabling precise orientation and dexterity

Axis

Primary Function

Contribution to Robot Performance

Axis 1

Controls base rotation (left to right, 180°)

Enables horizontal movement and positioning of objects along a line

Axis 2

Controls lower arm movement (forwards/backwards)

Allows lifting and moving objects along x and y axes

Axis 3

Controls upper arm movement (vertical reach)

Expands vertical reach, making parts more accessible

Axis 4

Controls wrist rotation (end-effector orientation)

Allows rotation of objects, enabling precise orientation and dexterity

The first three axes help the robot’s wrist get to the right spot. The fourth axis lets the robot turn its wrist. This helps the robot do jobs that need both moving and turning. Four-axis robots are fast and work well for jobs like picking up and putting down parts.

Four vs. Six Axes

Four-axis robots and six-axis robots both help factories do jobs. They each have their own strengths. Four-axis robots move in three ways and can turn their wrist. Six-axis robots can also twist and bend in more ways, called pitch and yaw.

Feature	Four-Axis SCARA Robot (EVS3-400)	Six-Axis Robot (6kg payload, 917mm reach)
Degrees of Freedom	4 axes (horizontal arm movement, cylindrical coords)	6 axes (X, Y, Z + roll, pitch, yaw)
Movement Capability	Primarily horizontal arm motions	Complex, multidirectional maneuvers
Payload Capacity	3 kg	6 kg
Reach	400 mm	917 mm
Repeatability Accuracy	±0.01 mm	±0.02 mm
Typical Applications	Pick-and-place, assembly, material handling	Welding, palletizing, machine tending, complex assembly
Structural Characteristics	Compact footprint, fast and precise	Larger reach and payload, adaptable to complex tasks
Collaboration & Adaptability	Less collaborative, optimized for speed and efficiency	Collaborative, adaptable, suitable for human-robot interaction

Feature

Four-Axis SCARA Robot (EVS3-400)

Six-Axis Robot (6kg payload, 917mm reach)

Degrees of Freedom

4 axes (horizontal arm movement, cylindrical coords)

6 axes (X, Y, Z + roll, pitch, yaw)

Movement Capability

Primarily horizontal arm motions

Complex, multidirectional maneuvers

Payload Capacity

3 kg

6 kg

Reach

400 mm

917 mm

Repeatability Accuracy

±0.01 mm

±0.02 mm

Typical Applications

Pick-and-place, assembly, material handling

Welding, palletizing, machine tending, complex assembly

Structural Characteristics

Compact footprint, fast and precise

Larger reach and payload, adaptable to complex tasks

Collaboration & Adaptability

Less collaborative, optimized for speed and efficiency

Collaborative, adaptable, suitable for human-robot interaction

Six-axis robots can move in more ways, so they do harder jobs like welding or working with machines. They need harder programming and more care because they have more joints. Four-axis robots are made for speed and simple moves. They are easier to program and fix, which saves time and money.

Aspect	Four-Axis Robots	Six-Axis Robots
Typical Use	Simpler applications like palletizing; limited rotational capabilities	Complex tasks such as welding, machine tending, and 3D movements requiring full flexibility
Degrees of Freedom	4 axes, usually with faceplate parallel to ground	6 axes, including wrist rotation, enabling complex 3D orientation and positioning
Programming Complexity	Relatively straightforward due to fewer axes and simpler kinematics	More complex due to advanced kinematics, inverse kinematics, and 3D motion programming
Programming Methods	Basic programming, often manual or simple teach pendants	Requires sophisticated software, teach pendants, and offline programming tools
Maintenance	Simpler due to fewer joints and less complex mechanics	More complex but improving with modular designs and better software, still inherently more involved
Control Systems	Less complex control algorithms	Advanced control systems with real-time kinematics and sensor integration

Aspect

Four-Axis Robots

Six-Axis Robots

Typical Use

Simpler applications like palletizing; limited rotational capabilities

Complex tasks such as welding, machine tending, and 3D movements requiring full flexibility

Degrees of Freedom

4 axes, usually with faceplate parallel to ground

6 axes, including wrist rotation, enabling complex 3D orientation and positioning

Programming Complexity

Relatively straightforward due to fewer axes and simpler kinematics

More complex due to advanced kinematics, inverse kinematics, and 3D motion programming

Programming Methods

Basic programming, often manual or simple teach pendants

Requires sophisticated software, teach pendants, and offline programming tools

Maintenance

Simpler due to fewer joints and less complex mechanics

More complex but improving with modular designs and better software, still inherently more involved

Control Systems

Less complex control algorithms

Advanced control systems with real-time kinematics and sensor integration

EVST has a lot of experience with four-axis robots. Their robots help factories work faster and more accurately while saving money. EVST’s robots are easy to set up, work well, and are trusted in many industries.

Types and Applications

Four-Axis Robot Types

Robotics experts put four-axis robots into three groups: SCARA, delta, and articulated. Each group has its own look and job.

Robot Type	Joint Configuration	Degrees of Freedom	Description	Typical Applications
SCARA	2 revolute, 1 prismatic	4	Fast, precise, and compact; moves in a cylindrical space	Assembly, material handling
Delta	Parallel arms, 3-4 motors	3	High-speed, parallel movement; best for light objects	Pick-and-place, packaging
Articulated	3+ revolute joints	3+	Mimics a human arm; handles heavier loads	Welding, tool handling, assembly

Robot Type

Joint Configuration

Degrees of Freedom

Description

Typical Applications

SCARA

2 revolute, 1 prismatic

Fast, precise, and compact; moves in a cylindrical space

Assembly, material handling

Delta

Parallel arms, 3-4 motors

High-speed, parallel movement; best for light objects

Pick-and-place, packaging

Articulated

3+ revolute joints

Mimics a human arm; handles heavier loads

Welding, tool handling, assembly

SCARA robots are quick and work well side to side. Delta robots use arms that move together for fast jobs. Articulated robots have joints like a person’s arm, so they can do harder work.

Industrial Uses

Factories use four-axis robots for many jobs. These robots put together electronics, pack food, and sort things. In car factories, robots help weld and move parts. Electronics factories use them to screw in parts and add labels. Robots also work in clean rooms for medicine and health products.

EVST’s four-axis robots are often used to build electronics and pack items. They are chosen when speed and accuracy are very important.

Advantages

Four-axis robots have many good points:

They are fast and accurate for doing the same job over and over.

Their simple design makes them easy to use and fix.

They are small, so they fit in tight places.

They cost less than more advanced robots.

Many companies pick a four-axis robot because it is dependable and saves money. These robots can work all day, make fewer mistakes, and help businesses spend less on workers.

Four-axis robots have a fourth joint for more movement. This helps them do many jobs in factories.

These robots load machines, put things together, and pack items fast and well.

They work in small spaces and are not too expensive. They are good at their jobs and fit where needed.

EVST gives strong robot choices for these kinds of work.

FAQ

What jobs can a four-axis robot do?

A four-axis robot can pick and place items, pack boxes, and help build products. Many factories use these robots for fast and accurate work.

Tip: Four-axis robots work best for simple, repeated tasks.

How does a four-axis robot move?

The robot moves side to side, forward and backward, up and down, and can twist its wrist. This lets it reach and turn objects easily.

Why do factories choose four-axis robots?

Factories choose four-axis robots because they cost less, work quickly, and need little maintenance. These robots fit well in small spaces and handle many jobs.