Device allowing the temporary storage and putting back into circulation of a certain quantity of catalyst in catalytic reforming installations

The invention claimed is: 1. A catalytic reactor having a ring-shaped moving bed catalyst, limited at its outer periphery by walls forming a cylindrical basket ( 5 ), and at its internal periphery by a central collector ( 3 ), with the catalyst flowing slowly by force of gravity into the space between the basket ( 5 ) and the central collector ( 3 ), and circulating downwards through circulation legs ( 2 ) positioned on the substantially hemispherical base of said reactor, said basket ( 5 ) being movable along a substantially vertical axis over a distance of from a few centimeters to 10 cm, this basket ( 5 ) being equipped with flaps ( 7 ) themselves substantially vertical, positioned on the lower part of the basket ( 5 ), in the extension of a wall having flaps ( 7 ), in which reactor, when there is an interruption in the circulation of the catalyst, a catalyst storage space ( 11 ) situated in the lower part of the reactor adjoining the wall, and close to dip legs ( 2 ), is released by moving the basket ( 5 ) and attached flaps ( 7 ) assembly upwards, flaps ( 7 ) being equipped with a deflector ( 15 ) rigidly or freely attached, and which forms an angle alpha with the vertical of between 30 and 60°. 2. The catalytic reactor according to claim 1 , wherein the deflector ( 15 ) is rigidly connected to flaps ( 7 ). 3. The catalytic reactor according to claim 1 , wherein the catalyst is put back into circulation by gravity as soon as circulation has been re-established, with the storage area ( 11 ) progressively emptying itself of the catalyst by means of the deflector ( 15 ). 4. The catalytic reactor according to claim 1 , in which the catalyst is enclosed in ring-shaped baskets ( 5 ), the walls of which contain screens that allow a reactant feed to pass from the outside to the inside of the basket ( 5 ), and then reaction effluents from the inside of the basket ( 5 ) to central collector ( 3 ). 5. The catalytic reactor according to claim 1 , wherein the flaps ( 7 ) slide in fixed vertical sleeves ( 12 ) that are located in the extension to the vertical walls of the basket ( 5 ) and are equipped with windows ( 14 ) obstructed by the sleeves ( 12 ) during normal circulation, said windows ( 14 ) being released when the basket ( 5 ) is raised following an interruption in the circulation of the catalyst, thereby allowing the passage of the catalyst through said windows ( 14 ) to the storage area ( 11 ) situated in the lower part of the reactor between the sleeves ( 12 ) and the wall of the hemispherical base of the reactor, and at a distance d of more than 10 cm from said wall. 6. The catalytic reactor according to claim 5 , wherein the flaps ( 7 ) or vertical sleeves ( 12 ) can be extended by a wall ( 15 ) forming an outlet, via which the catalyst will leave storage area ( 11 ) to be moved closes to the vertical of a dip leg ( 2 ). 7. The catalytic reactor according to claim 5 , wherein the windows ( 14 ) have a rectangular shape allowing steady entry of the catalyst into the storage area ( 11 ). 8. The catalytic reactor according to claim 1 , wherein the windows ( 14 ) have a triangular shape, with the tip of the triangle pointing upwards, to allow progressive entry of the catalyst into the storage area ( 11 ). 9. A petrochemical refining process, comprising subjecting a petrochemical feed to refining conditions, in a reactor according to claim 1 . 10. A process for catalytic reforming of a hydrocarbon, comprising subjecting said hydrocarbon to reforming conditions in a reactor according to claim 1 . 11. A process for hydrotreatment of residues, comprising subjecting said residues to hydrotreatment conditions in a reactor according to claim 1 . 12. The process according to claim 1 , wherein the alpha angle is between 45° and 55°.