Building & Industrial Automation

BUILDING & INDUSTRIAL AUTOMATION

Shrade delivers complete building automation solutions without compromise on features or capabilities.

Our services include any/all of the following:

  • Analysis of building automation monitoring and control needs
    • evaluates your current building control systems, analyze operational costs and provide a detailed report with recommended technological solutions.
  • Solution recommendations for platform, network, user interface, project phasing and more
  • Planning: Our engineers work with you to plan and specify a new or upgraded control system. We prepare critical design drawings to ensure proper installation, integration and customization of all hardware and software.
  • Control system design and implementation
  • Network design and implementation
  • Installation, Commissioning, and Training: FMC provides complete installation of the selected hardware using licensed professionals. Our Control System Specialists commission the system to assure components are operating as designed. We also provide comprehensive training and complete system documentation.
  • Project management
  • Training
  • Support

Automation or automatic control, is the use of various control systems for operating equipment such as machinery, processes in factories, boilers and heat treating ovens, switching on telephone networks, steering and stabilization of ships, aircraft and other applications and vehicles with minimal or reduced human intervention.

Automation engineers design, program, simulate and test automated machinery and processes in order to complete exact tasks. They typically are employed in industries such as car manufacturing or food processing plants, where robots or machines are used to perform specific functions.

Industrial automation is the use of control systems, such as computers or robots, and information technologies for handling different processes and machineries in an industry to replace a human being. It is the second step beyond mechanization in the scope of industrialization.

Increase Quality and Flexibility in Your Manufacturing Process

Earlier the purpose of automation was to increase productivity (since automated systems can work 24 hours a day), and to reduce the cost associated with human operators (i.e. wages & benefits). However, today, the focus of automation has shifted to increasing quality and flexibility in a manufacturing process. In the automobile industry, the installation of pistons into the engine used to be performed manually with an error rate of 1-1.5%. Presently, this task is performed using automated machinery with an error rate of 0.00001%.

Advantages of Industrial Automation

Lower operating cost: Industrial automation eliminates healthcare costs and paid leave and holidays associated with a human operator. Further, industrial automation does not require other employee benefits such as bonuses, pension coverage etc. Above all, although it is associated with a high initial cost it saves the monthly wages of the workers which leads to substantial cost savings for the company. The maintenance cost associated with machinery used for industrial automation is less because it does not often fail. If it fails, only computer and maintenance engineers are required to repair it.

  • High productivity

    Although many companies hire hundreds of production workers for a up to three shifts to run the plant for the maximum number of hours, the plant still needs to be closed for maintenance and holidays. Industrial automation fulfills the aim of the company by allowing the company to run a manufacturing plant for 24 hours in a day 7 days in a week and 365 days a year. This leads to a significant improvement in the productivity of the company.

  • High Quality

    Automation alleviates the error associated with a human being. Further, unlike human beings, robots do not involve any fatigue, which results in products with uniform quality manufactured at different times.

  • High flexibility

    Adding a new task in the assembly line requires training with a human operator, however, robots can be programmed to do any task. This makes the manufacturing process more flexible.

  • High Information Accuracy

    Adding automated data collection, can allow you to collect key production information, improve data accuracy, and reduce your data collection costs.  This provides you with the facts to make the right decisions when it comes to reducing waste and improving your processes.

  • High safety

    Industrial automation can make the production line safe for the employees by deploying robots to handle hazardous conditions.

Conclusion

Industrial automation has recently found more and more acceptance from various industries because of its huge benefits, such as, increased productivity, quality and safety at low costs.

 

February 21, 2017