Background: Bai Hu Tang (BHT) is a classic antipyretic in traditional Chinese medicine, however, there is little scientific evidence on the mechanism and material basis of its antipyretic effect. Methods: In LPS-induced febrile rats, after administration of BHT at 42 g/kg for half an hour, body temperature was measured at hourly intervals for 9 consecutive hours. Then, serum levels of TNF-α, IL-1β, and IL-6, and serum and cerebrospinal fluid (CSF) levels of AVP, cAMP, PGE2, Ca and CRH, and the remaining sera were used for metabolomics. These were then combined with network pharmacology methodology to further analyse the antipyretic effect of BHT and then dock key targets with differential components. Results: Administration of BHT to LPS-induced febrile rats significantly reduced elevated body temperature, TNF-α, IL-1β and IL-6 levels, but serum and CSF levels of AVP, cAMP, PGE2, Ca2+ and CRH were significantly elevated compared to the control group. Network pharmacological analyses indicated that the putative functional targets of BHT were regulation of immune responses, associated protein binding and inflammatory responses, and fine-tuning of phosphatase binding and activation of signalling pathways such as MAPK, PI3K, AKT, NF-kB, cAMP and inflammatory pathways. Metabolomic analysis showed that the antipyretic effect of BHT and its mechanism are likely to be involved in fatty acid metabolism, bile acid metabolism and amino acid metabolism in the organism, with L-arginine, glycyrrhetinic acid and N-acetylpentraxine as the main differential metabolites that play a significant role in heat recovery. The results also showed better docking of glycyrrhetinic acid with TNF-α, IL-6R, PTGS2. Conclusions: BHT provides a valuable adjunct to traditional clinical antipyretics by improving body temperature and metabolism and reducing inflammation.