Industrial automation of robotics impact

Industrial automation of robotics impact

    

          Industrial automation of robotics impact

       

                            

Industrial automation technologies associated with automotive robots allowed achieve generate automated manufacturing vehicle parts, and quality supervision in manufacturing processes automotive job of your arm is to move your hand from one place to another. Similarly, the job of the robotic arm is to move an effector end from one place to another automotive robotics has been incorporated into the various variables that make up the automation processes sensitive to an industrial plant., Using the various types of industrial robots to achieve high rates of efficiency, flexibility, increased security, and competitiveness to achieve successful operations. For this reason, the last areas of investments related to the automotive robotics area have been focused on the capabilities to produce new automobiles, modernization in the industrial automation of processes, and the creation of the use of new materials, which have caused an increase in the investment in industrial robots.

WHAT IS AUTOMOTIVE ROBOTICS? 

Automotive robotics can be defined as the area of industrial robotics that has its focus and area of application in generating activities from industrial robots that allow achieving automation of activities, increased safety, increased productivity in the manufacturing processes of successful auto parts, assemblies, and distribution. Automotive robotics guarantees to create a set of global strategies that consolidate effective operation and intervention in basic areas that include automotive manufacturing activities, safe and reliable parts handling; and materials in car assembly activities, inspection processes, and quality control. Automotive robotics has recently generated the need to face increasingly important challenges towards generating environments with increasingly limited activities on the part of humans; favoring the greater use of industrial robots that allow greater automation and reduce costs for unnecessary activities. Industrial Robotics | History and Scope

IMPORTANCE AND APPLICATIONS OF ROBOTICS IN THE AUTOMOTIVE INDUSTRY

This allows it to guarantee one of the transcendental importance of the automotive industry by automating production lines and processes that can be produced automatically with reduced participation of the human sector. Health is guaranteed and possible occupational risks are reduced for workers who perform functions in the automotive industry. Automotive robots have the importance of automating subsets of activities such as welding, embossing, and stapling. Research technologies associated with automotive robots have made it possible to generate automation in the manufacture of vehicle parts and quality supervision in automotive manufacturing processes. Several companies with the implementation of collaborative robots such as those produced by Universal Robots have generated a significant impact on the productive environments of industries with the design of 6-axis robotic arms that allow automating processes that can be considered repetitive, generating a notable increase in production.

5 TYPES OF ROBOTS ARE MOST USED IN THE AUTOMOTIVE INDUSTRY.

Scale

Robots are mostly used in the assembly of the metal parts of the car. This robot is very efficient although not very versatile.

Cyclical type

Versatility is possibly the most prominent feature of this type of robot. In the automotive manufacturing sector, it is mostly used for assembly that requires special precision.

Cartesian

Possibly one of the most accurate thanks to its Cartesian axes. It offers a very high productivity-price ratio for the industry.

Double arm

Undoubtedly the use of a double-arm robot in the industry can guarantee high productivity thanks to its highly efficient object recognition function.

6 axis

The flexibility these robots offer is their greatest strength. The automotive manufacturing sector often relies on these robots for their high collaborative technology which provides high security when interacting with humans.

ADVANTAGES AND DISADVANTAGES OF IMPLEMENTING ROBOTICS IN THE AUTOMOTIVE INDUSTRY

Since the implementation of robotics in the automotive industry for several decades, the enormous benefits they have produced have been demonstrated. The debates have always been relevant in delineating the possible advantages and disadvantages concerning the complexity of the manufacturing processes and manufacturing parts in the automotive industry.

Advantages of implementing robotics in the automotive industry

Creation of less risky tasks and activities for the production area that includes human work: handling of heavy materials, packaging, screwdriving applications, and nuts to name a few.

Increased production in monthly automotive component manufacturing and vehicle assembly orders.

Industrial robots can be much more easily programmable and can be configured to perform cobot work with intuitive interfaces. The installation times of industrial robots such as those of Universal Robots, allow their rapid configuration to complete the work tasks in the automotive industry in a short time.

Most types of industrial robots in the automotive area reduce the efforts and amount of work accidents due to some repetitive tasks, levels of contamination, and those considered dangerous.

The disadvantage of implementing robotics in the automotive industry In some cases, automation to achieve effective levels in automotive industry production lines is expensive and high, and over the years the total invested value may depreciate. Collaborative robotics and the different types of industrial robots can cause the reduction of jobs available for the human work environment, creating phenomena associated with labor and income inequality in wages. The access and implementation of robotics in the automotive industry, in some cases there are phenomena of concentration of economic income associated with geographic sectors in one country over others, which privilege productive environments of innovation and design concerning the automotive industry. Some phenomena of dependency towards automation are created in all sectors of the automotive industry that may be vulnerable to problems related to technological advances and their obsolescence over time, in addition to the possible difficulty of obtaining specialized trained personnel that may be more difficult to deal with. hire. The most common or well-known type of robot is the mechanical arm, widely used in many industries for the assembly of parts. It is a resource of accuracy and speed that enables the optimal manufacturing of a supply chain.

Most popular types of robots today

Industrial robots . ...

Medical robots . ...

Robots of attention to the public. ...

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Military robots.

Unimate

George Devol, a pioneer within the robotics industry, was the inventor of what is considered the first industrial robot and its name was Unimate. The contribution of robots' industrial automation is immense.