Disclosed is an automatic shading cover type full-perspective constant-temperature beehive which can be manually arranged and in which motions of bee colonies can be observed in all dimensions. The automatic shading cover type full-perspective constant-temperature beehive consists of a base box, a heat-preservation insulation layer, an automatic constant-temperature device, a temperature display setter, a manual air adjusting window, beehive legs, a cover plate ring, an air vent, a beehive door hole, a feed hole, a strip-shaped hole, a bee-isolation breathable frame and a slag-falling preventive baffle plate. A transparent beehive body is mounted on the manufactured automatic constant-temperature base box, and is covered by a transparent top cover plate with an exhaust hole and by a sunshading heat-preservation outer cover after bee colonies are filled therein. By removing the outer cover, local honey and powder resources and the most beneficial temperature in the beehive for living and breeding of the bee colonies and the like can be known at anytime and anywhere. The automatic shading cover type full-perspective constant-temperature beehive is beneficial to scientific research and bee field management, can be directly used for production, meets requirements for perspective view and has the advantages of no vibration and noise, low energy consumption and convenience in use.