Temporal-spatial information, as the most key issue for human action recognition, has been explored by lots of means, such as 3D convolution network (3DCNN) based or 3DCNN decomposing based approaches. Though the latter can be seen as a trade-off for overcoming the shortage caused by the former for reducing the computation cost and saving parameters, information imbalance of videos between spatial and temporal information is still not been well excavated. To tackle this problem, spatial enhanced separated temporal spatial convolutional neural network (SESTSN) is proposed in this paper, which can easily outperform 3DCNN based and 3DCNN decomposing based methods with fewer parameters. What's more, to further reduce parameter and computation cost, we adopt depth-wise convolution to the proposed SESTSN and propose the channel separated spatial enhanced separated temporal spatial convolutional neural network (CSESTSN). Experiments show that the proposed CSESTSN contains considerably fewer parameters involving much lower computation cost, while it achieves comparable performance to 3D convolution-based methods. Our method outperforms state-of-the-art methods on two challenging datasets, namely NTU RGB+D dataset and Northwestern-UCLA dataset, which verifies the effectiveness of our method.