An articulated robot can have up to 10 axes and rotary joints. They can move more freely as a result, which makes them very adaptable. Their speed and style of movement are very similar to those of an arm. The manufacturing sector is now dependent on articulating robots.

Let's learn more about these specialized robots in the following sections:

Industries for articulated robots and standard applications When should an articulated robot be used?

Common Uses for Articulated Robots articulated-robots-type-industrial Articulated robots have many more capabilities than other types of robots. As a result, they are an excellent choice for most applications. 

Best Articulated Robot Manufacturers in India-igus

Material Handling Welding Assembly Machine Tending Material Handling Material handling is a common use for articulated robots in the industrial sector. Palletizing, pick-and-place, and bin-picking are examples. Because they can be scaled to handle large payloads and have a wide reach, articulated robots are ideal for these applications. Other kinds of robots may find these applications to be too difficult very quickly. A delta robot, for instance, can quickly complete a pick-and-place task. But what if the component is a substantial steel billet? The delta suddenly finds this task to be too much. To put this into perspective, high-end articulated arm models can carry payloads of more than 1000 kilograms. Anything between 10 and 20 kilograms could be handled by a massive delta robot.

One of the earliest uses for industrial robots was welding. Their dexterity is a key factor in their success here. Applications in welding frequently necessitate precise movements at specific angles. Other robots like Deltas and SCARAs simply cannot achieve these angles. The quality of the welded part can be severely compromised if the wrong robot is used in a welding application.

Best Articulated Robot Manufacturers in India-igus

Verbalized robots are perfect for gathering applications in light of multiple factors. They can move in ways that other robots cannot because of their joints. Their payload limit likewise empowers them to move payloads other robot types can't lift. They can handle even minor assembly tasks with enough precision. As a result, articulated robots are used to complete the majority of automated assembly tasks.

Machine Tending Another common job for articulated robots is to tend to machinery. The loading and unloading of raw materials into machines is made possible by automated machine tending. Again, this robot excels here due to its increased dexterity and reach. Modern machine-tending robots can open and close doors, load parts, and even run a specific program by selecting it on the HMI.

The adoption of articulated robots in the industrial sector is expected to rise at a CAGR of more than 12% between 2021 and 2026 due to automation, customization, and labor safety.

Best Articulated Robot Manufacturers in India-igus

A wide range of the most common robot applications is served by articulating robots. Since they are so adaptable, they are utilized in the majority of industries. Examples of this include:

Metals, electronics, food and beverage, pharmaceuticals, and automotive The automotive sector was among the first to adopt industrial robots. Automotive companies of all sizes continue to favor these. Due to the large and heavy nature of automotive components, high payloads and extended reach are typical requirements for automotive applications. Because of these factors, articulated robots are the only option for automating these activities. Higher production volumes and safer work environments are made possible by this automation.

Best Articulated Robot Manufacturers in India-igus

Applications in this sector frequently require electronic precision and dexterity. To properly position small components, precise movements are required. Like welding, automated soldering necessitates precise movements. This requires the hardware to move at points not reachable by other robot types. Micron-level precision is required for some applications. Due to their mechanical construction, most articulated arms will not be able to achieve this level of precision.