Functional and spatial hierarchical organization of increasingly language-like word forms has been proposed for alphabetic languages at the occipitotemporal cortex for visual word recognition. In the logographic Chinese language system, similar functional and spatial hierarchical presentations of brain responses to sublexical orthographic structure are beginning to be explored. In this study, we used whole-brain fMRI to show that a hierarchical coding of increasingly language-like character type is present in multiple Chinese language processing areas. Fluent Chinese readers were presented with Chinese synonyms/non-synonym pairs, identical/non-identical non-pronounceable pseudo-character pairs constructed with Chinese radicals, and identical/non-identical Korean character pairs. We observed the presence of a spatial gradient for increasing language-like character types in the ventral and dorsal visual streams of the cortex. At the left occipitotemporal cortex of the ventral visual stream, we observed a posterior-to-anterior gradient of character type selectivity with the anterior fusiform region being more selective for real Chinese characters and the posterior fusiform region being more selective for Korean characters. At the left and right intraparietal sulci of the dorsal visual stream, a medial-to-lateral gradient of character type selectivity was observed, with the lateral edge being more selective for real Chinese characters, the medial edge being more selective for pseudo-characters, and with less activation attributable to Korean characters. Spatial gradients of selecting character type were also identified in prefrontal cortex, dorsal striatum and lateral temporal cortex. The results suggest that the left occipitotemporal cortex and both left and right intraparietal sulci are tuned with a functional and spatial hierarchical sensitivity to the presence of semantic elements as well as different orthographic structures.