In this study, an embedded system-based distributed private cloud server (DPCS) was designed and implemented. The DPCS system has high scalability which is a feature of cloud computing. High scalability means that users do not need to reset the entire system. The computing nodes of a high scalability system can join or leave the network without reconfiguration. Because of the high scalability, the breakdown of a few computing units will not lead to the crash of the proposed system. The proposed system can be installed on the gateway in a wireless sensor network deployed in a sensing area. When a large amount of sensing data collected by the gateway, the proposed system can analyze the sensing data immediately and then send the analysis results to the backend server to achieve the goal of data mining. Compared with the servers of larger companies, the cost of embedded systems is much lower. In this study, combed with the probability method, a distributed data packet method based on the CPU usage was proposed. The proposed method allows the DPCS to distribute the large amount of sensing data to achieve the goal of load balancing. The issue of power quality has been becoming more important recently. Taking power quality monitoring as an example, a few analysis methods were used by the DPCS system to analyze the electric data. According to the IEEE-1159 standard, the proposed system could analyze three types of voltage variation: voltage swell, voltage sag and voltage interruption. If a voltage variation event is detected by the DPCS, the DPCS will send a message to the backend server, and the administrators or users can get this information immediately. The research experiments verify that the proposed system has the merit of high scalability and is capable of data mining and load balancing. In the future, the DPCS can used to analyze not only power quality but also more kinds of sensing data to improve the quality of the lives of many.