Turbine rotor comprising a ventilation spacer

The invention claimed is: 1. A rotor of a member of a turbomachine comprising: a first element, a second element defining with the first element a ventilation cavity, and a spacer, applied and attached between the first element and the second element and comprising a series of through passages configured to allow an injection of cooling fluid into the ventilation cavity, wherein the spacer comprises a radially external edge leading into the ventilation cavity and a radially internal edge leading to the first element, at a distance from the ventilation cavity, wherein each passage comprises a through opening formed in the spacer and leading to the first element at a distance from the ventilation cavity, and a groove extending between the through opening and the radially external edge, a cross section of the through opening being bigger than a cross section of the groove, wherein the first element comprises an annular disk comprising a hub and a rim, said rim being configured to receive blades of the member, wherein the through opening of each through passage leads to the hub, at a distance from the ventilation cavity, wherein the radially internal edge leads to the hub, wherein the second element comprises a sealing ring comprising an internal radial flange attached to the hub and an external radial flange in contact with the rim, the sealing ring and the disk defining the ventilation cavity, wherein the internal radial flange of the sealing ring is bent and comprises an axial portion adjacent to the external radial flange wherein the spacer is bent and comprises a shoulder configured to face the axial portion of the internal radial flange, and wherein the groove of the passage extends to the shoulder of the spacer. 2. The rotor according to claim 1 , wherein the internal radial flange comprises a plurality of tabs and is attached to the hub with said tabs, and wherein the spacer is attached to the internal radial flange so that the through passages extend between two adjacent tabs. 3. A turbine comprising fixed turbine vanes and a rotor according to claim 1 . 4. The turbine of claim 3 , comprising a low-pressure turbine. 5. A turbomachine comprising the turbine of claim 3 . 6. The rotor according to claim 1 , wherein the spacer is annular, and wherein said spacer is applied and attached between the internal radial flange of the second element and the first element. 7. The rotor according to claim 1 , wherein the spacer is discontinuous and includes several sub-parts attached between the internal radial flange of the second element and the first element, the through passages being obtained by leaving a space between two adjacent sub-parts. 8. The rotor according to claim 1 , wherein the groove is a through groove. 9. The rotor according to claim 1 , wherein a series of lunules is formed in the second element and the spacer is attached between the first element and the second element so that the through passages face said lunules. 10. The rotor according to claim 1 , wherein a series of lunules is formed in the internal radial flange of the sealing ring and the spacer is attached between the hub and the internal radial flange so that the through passages face said lunules.