Based on the statistical data of Taiwan Environmental Protection Administration, soil contaminated by heavy metal was severe in a number of control and remediation sites. With long-term irrigation by water containing heavy metals, these metals would accumulate in soil and then cause health injury through the oral soil, dermal contact, inhalation, and other exposure pathways. Therefore, the exposure to metal-contaminated soils is highly needed to be noticed. In this study, soil samples were collected from contaminated farmland in Fuxing and Delin sections of Taoyuan City in Taiwan. Soil property analysis, sequential extraction procedure (SEP), and two in-vitro assays, namely physiologically based extraction test (PBET) and simplified bioaccessibility extraction test (SBET), were used to discuss the relationship between soil properties, metal speciation in soil, and the bioaccessibility of Cd and Pb. Moreover, the target subjects, namely the children and the adults, were evaluated assuming mainly exposing to Cd and Pb through the oral soil, dermal contact, inhalation, and daily food ingestion. The adverse health effects of exposure to soils containing Cd and Pb were then evaluated based on risk assessment approaches. The results of soil property analysis showed that soil texture of Fuxing section was sandy loam and loam (pH = 4.89, organic content = 3.44%, clay = 13.9%), and that of Delin section was clay loam and loam (pH = 6.32, organic content = 1.56%, clay = 40.2%). In Fuxing section, the main speciation of Cd was residual (55.6%) and acid-exchangeable (44.4%); in Delin section, the major forms of Cd was acid-exchangeable (48.8%), followed by Fe/Mn oxides (35.5%). Both in Fuxing and Delin sections, the major form of Pb was Fe/Mn oxides, followed by residual ones. Without considering the distribution of parameters, the health risk assessment results showed that the risk ratio of oral soil exposure occupied a significant proportion (Cd: 13.4−50.2%; Pb: 61.9−95.2%); so the bioaccessibility of heavy metals in soil should be considered to increase the accuracy of assessment results and make the simulation more realistic. Additionally, according to the Monte Carlo simulation, the probability density distribution of Cd was principally affected by the dietary habits, and Pb was mainly from soil exposure. In general, when the bioaccessibility of heavy metals was applied to the risk assessment, the risk ratio of oral soil would decrease. Consequently, the results of this study could be a reference for government and associated organizers to reasonably manage the contaminated sites based on health risk assessment approaches.