Automation Solutions for Industry

Automation of production and storage processes is one of the fundamental needs of modern industrial plants, impacting both efficiency and product quality.

Designing automation solutions—whether for individual devices or entire technological lines—is a complex process shaped by four key factors essential for developing a solution that meets the investor's needs and the technological process requirements.

1. Selection of Control and Measurement Equipment:
• Addressing existing hazards, ensuring safety for people and the technological process.
2. Ensuring Data Stability:
• Stability in acquiring, reading, and transmitting data throughout the process.
3. Optimization of Positioning and Control Methods:
• Optimizing positioning, addressing, and control methods for devices.
4. Operational Supervision and Remote Communication:
• Ensuring operational supervision and remote communication with control systems.

At each stage of designing process automation solutions, specific input data is considered. The analysis of this data significantly influences the choice of design solutions and ultimately the end result—a device that performs the intended functions.

SELECTION OF DESIGN SOLUTIONS

Determining Process and Environmental Requirements:

Input Data:

• Environmental conditions
• Safety requirements
• Technical and organizational parameters of the process

Output Data:

• Control and measurement equipment
• Data acquisition and transmission stability
• Methods for acquisition, addressing, and control
• Operational supervision and remote communication

SELECTION OF DESIGN SOLUTIONS FOR MECHANICAL PROJECTS

Determining Requirements for a Complex Automated Logistics Process:

Input Data:

• Environmental conditions
• Safety requirements
• Technical and organizational parameters of the process
• Economic parameters
• Ergonomics

Output Data:

• Optimization of device mass and shape
• Drive transmission systems
• Material selection and protective coatings
• Load transport systems
• Safety guards
• Mechanical safety devices

SELECTION OF DESIGN SOLUTIONS FOR ELECTRICAL AND AUTOMATION PROJECTS

Determining Requirements for a Complex Automated Logistics Process:

Input Data:

• Compatibility of the automation system
• Expected environmental impact on data acquisition devices
• Environmental conditions
• Safety requirements
• Machine workload groups
• Client's specialized requirements
• Economic parameters
• Ergonomics

Output Data:

• Compliance with safety requirements
• Environmental resistance
• Resistance to environmental disturbances
• Ensuring correct data transmission regardless of the environment
• Durability appropriate for the required operating regime
• Acceptable disturbance levels affecting other devices
• Optimization for computational performance of the control system
• Optimization for data processing and recording
• Optimization for the required control system interface
• Optimization for data exchange with devices installed at the investor's site, enabling the creation of an integral part of the investor's system.