The high heat of bee wind continues from early spring to late autumn. This is because if the temperature of infant bees and the temperatures of bee groups are combined to make it difficult to lower the temperature to 37°;C or less in a bee raising structure, and finally the bees become fugitive bees. The generation of bee wind and the raising temperature cause heat because of bee′s shake from side to side, and water supplied from the outside is evaporated due to high temperature to cause high humidity, resulting in a decrease in a life cycle. The bee groups survive for 6 months or more if there is no work during a hibernating period; however, when observing flight of ivory white infant bees of three weeks or less at the time when honey flow is finished and when observing that one or two old bees have dark brown color and damage to wings thereof due to considerable work during honey flow period, survival for about 20 days seems to be right during the work of a few old bees and those old bees also experience survival for 6 months or more during the hibernating period. Therefore, the present inventor cannot no longer just stand by and watch ventilation and water supply of the old bees. Thus, raised water is used to appropriately emit moisture by suction and reinstallation inside a bee-wind high-temperature suctioning device by means of adjustment of an IV injection hosepipe, and water-cooling of high heat having the raising temperature of 35°;C-37°;C or less by use of a metal pipe helps old bees′ work by reuse of the temperature and humidity during adjustment recirculation of the raising temperature of 35°;C-37°;C or less through rapid circulation and slow circulation by using a raised water controller. Accordingly, the life of the old bee is extended and the bee raising structure is largely expanded and becomes light due to high heat, and thus, when the high heat rises up to an upper side of the bee raising structure, the high heat in the be
