The cultivation of companion plants has been increasing, leading to growing interest in smart flowerpot systems that support plant growth. However, existing studies and products have mainly focused on environmental monitoring, such as temperature, humidity, and soil moisture, while providing relatively limited functions for actively controlling key factors like light direction. To address this limitation, this study proposes a smart rotating flowerpot system that detects light direction using a photosensor and drives a DC motor to automatically rotate the pot so that the plant always faces the optimal light source. Experimental results show that the proposed system successfully performed automatic rotation through four-way light intensity comparison, while also offering temperature, humidity, and soil moisture monitoring and mobile connectivity to reduce user management burdens and support balanced plant growth. These outcomes indicate that the system can be effectively applied in indoor environments with irregular sunlight supply and has potential applications in smart home appliances, indoor horticultural education, and urban agriculture.