Module for supplying additive manufacturing powder allowing drying of the powder

1 - 13 . (canceled) 14 . A supply module for supplying additive manufacturing powder, the supply module comprising: a main hopper for storing additive manufacturing powder, the main hopper being configured to be connected to a manufacturing module configured to additively manufacture an object from the powder located in the main hopper; an inlet of the supply module, the inlet being configured to be connected to the manufacturing module and to receive powder located in the manufacturing module; a glovebox configured to receive a container, the glovebox being configured to be closed in a sealed manner; a provisioning circuit configured to transfer powder located in the glovebox to the main hopper; and a circulation system configured to set powder in motion according to a circulation loop closed on itself, the circulation system comprising a suction system remote from the main hopper, the suction system being configured to evacuate gas present in the circulation loop, the circulation loop passing through the main hopper and the suction system. 15 . The supply module according to claim 14 , wherein the circulation loop comprises: a reservoir located below the main hopper the reservoir comprising an outlet configured to be connected to the manufacturing module by a manufacturing conduit; and a return circuit configured to redirect additive manufacturing powder located in the reservoir toward the inlet of the supply module. wherein the circulation system is configured to suck powder from the outlet of the reservoir toward the inlet of the supply module. 16 . The supply module according to claim 15 , further comprising a dry inert gas supply system configured to supply the circulation loop with dry inert gas below the main hopper. 17 . The supply module according to claim 14 , further comprising a moisture sensor configured to measure a level of humidity in the circulation loop. 18 . The supply module according to claim 15 , further comprising a sieve located above the reservoir. 19 . The supply module according to claim 18 , wherein the powder passing through the circulation loop successively passes through the main hopper, the sieve, the reservoir, the return circuit and the suction system, a first moisture sensor being configured to measure a level of humidity in the main hopper. 20 . The supply module according to claim 16 , further comprising a second moisture sensor placed on a gas evacuation circuit of the suction system and a third moisture sensor connected to the dry inert gas supply system. 21 . The supply module according to claim 14 , further comprising: an extraction circuit different from the provisioning circuit, the extraction circuit being configured to transfer to the container, when the container is received in the glovebox, additive manufacturing powder from the inlet of the supply module, the extraction circuit comprising a diverter; and a bypass circuit connecting the diverter to the reservoir and configured to transfer powder directly from the diverter to the reservoir, the diverter being configurable into: an extraction configuration, in which additive powder coming from the inlet of the supply module is redirected selectively toward the glovebox, and a loopback configuration, in which additive powder coming from the inlet of the supply module is redirected selectively into the bypass circuit, wherein the diverter is configured in the loopback configuration when the circulation system is moving powder from the outlet of the reservoir toward the inlet of the manufacturing module. 22 . An additive manufacturing device comprising: the supply module for supplying additive manufacturing powder according to claim 14 ; and the manufacturing module configured to additively manufacture an object from the powder located in the main hopper, the main hopper being connected to the manufacturing module and the inlet of the supply module being connected to the manufacturing module. 23 . The additive manufacturing device according to claim 22 , wherein the manufacturing module comprises a recovery system for recovering unconsolidated powder that has not been consolidated during the additive manufacturing of the object and for redirecting the recovered powder toward the inlet of the supply module. 24 . A method for drying additive manufacturing powder using the supply module according to claim 14 , the method comprising: when powder is present in the main hopper, a step of circulating the powder in the circulation loop using the circulation system. 25 . The method according to claim 24 , wherein the supply module further comprises a moisture sensor configured to measure a level of humidity in the circulation loop, and wherein the method further comprises: a step of measuring the level of humidity in the circulation loop; a step of comparing the measured level of humidity with a threshold level; and a step of stopping the circulation of the powder, the step of stopping the circulation being implemented according to the result of the comparison step. 26 . The method according to claim 24 , wherein the supply module further comprises a moisture sensor configured to measure a level of humidity in the circulation loop and a sieve located above the reservoir, and wherein the method further comprises a step of sieving the powder put into circulation.