In the industry, there is often a need for process improvements. This represents one of the main components for the growth, development and competitiveness of a company. The thesis addresses the optimization of the process of connecting plate planishing. The goal is to select the appropriate work technology and design a concept that will enable fast and precise planishing of the plates compared to the current process. Requirements for cost savings, machine capacity, ease of manufacturing, price, safety, compactness, and ergonomics are taken into account. To achieve the goal, criteria analysis, pre-determination of work technology and levels of automation, and machine design were used. Technologies enabling process automation and meeting the necessary criteria were employed. The chosen work technology allows for high savings, good capacity, and relatively low investment costs. The connecting plate planishing machine was designed with an emphasis on using standard and specialized components, enabling the achievement of desired results. The entire machine enables efficient and reliable alignment of connecting plates and meets the company's requirements.