Installation and process for jointly implementing compression of the acid gases from the hydroconversion or hydrotreatment unit and that of the gaseous effluents from the catalytic cracking unit

The invention claimed is: 1. A hydroconversion or hydrotreatment installation capable of producing a feedstock to a catalytic cracking unit, a cut of vacuum gas oil (VGO), vacuum distillate (VD) or vacuum residue, or deasphalted oil (DAO), said installation comprising at least: a reaction section R- 1 for implementing hydrotreatment or hydroconversion of a feedstock intended to feed a catalytic cracking unit, one or more high-pressure separator vessels B- 1 and/or B- 2 whose feedstock is formed by the effluent issuing from the reaction section R- 1 , a compression zone K for implementing compression of gaseous effluent issuing from B- 1 and/or B- 2 , also referred to as recycled hydrogen, said compressed gaseous effluent being reintroduced into the reaction section R- 1 , a fractionating column C- 1 fed by bottoms effluents from the high-pressure separator vessels B- 1 and B- 2 , said column C- 1 separating at least a head cut, a naphtha cut, and a heavy cut of which at least a part feeds a catalytic cracking section R- 11 , a furnace F- 1 for heating the feedstock of the reaction section R- 1 or solely hydrogen necessary for said reaction zone, or again both hydrogen and the feedstock, catalytic cracking reaction section R- 11 fed by at least a part of the heavy fraction issuing from the fractionating column C- 1 , a second fractionating column C- 11 for effluents from the catalytic cracking reaction section R- 11 , and a recovery compressor K- 11 for compressing at least a part of gaseous effluent from the catalytic cracking reaction section R- 11 and acid gases issuing from the fractionating column C- 1 , which compressor K- 11 may comprise a plurality of stages. 2. An installation according to claim 1 further comprising medium-pressure separator vessels B- 3 and B- 4 respectively fed by the bottoms effluents of the vessels B- 1 and B- 2 and in which the fractionating column C- 1 is fed by the bottoms of the vessels B- 3 and B- 4 . 3. An installation according to claim 1 and further comprising at least one high-pressure separator vessel B- 14 having a gaseous outlet to one or more absorption columns and a liquid outlet to the fractionating column C- 11 for the gaseous effluent from the catalytic cracking unit R- 11 . 4. An installation according to claim 1 and further comprising a section for stabilization of naphtha issuing from the fractionating column C- 1 permitting elimination of the residual acid gases from the naphtha and comprising a separation column C- 5 of which the head fraction rejoins the compressor for the cracked gases of the catalytic cracking unit. 5. An installation according to claim 1 and further comprising an intermediate column C- 3 fed by an intermediate fraction issuing from the main fractionating column C- 1 . 6. An installation according to claim 1 and further comprising a stripper C- 4 upstream of the fractionating column C- 1 , fed by the bottoms flow from the vessel B- 3 or B- 1 , said stripper C- 4 permitting elimination of a gas part, issuing from the reactions of the reaction section R- 1 , which is passed to the recovery compressor K- 11 . 7. A hydrotreatment or hydroconversion process comprising subjecting a hydrocarbon feedstock to hydrotreatment or hydrocracking in an installation according to claim 1 . 8. A process according to claim 7 wherein the operating conditions of the hydrotreatment or hydroconversion reaction section R- 1 are the following: the temperature is between about 200 and about 460° C., the total pressure is between about 1 MPa and about 20 MPa, the overall hourly space velocity of liquid feedstock for each catalytic step is between about 0.1 and about 12, the purity of the hydrogen used in the process according to the invention is between 50 and 100% by volume, and the amount of hydrogen in relation to the liquid feedstock is between about 50 and about 1200 Nm3/m3. 9. A process according to claim 7 wherein the operating conditions of the catalytic cracking section R- 11 are the following: the reaction zone outlet temperature is between about 470 and about 650° C., the outlet pressure of the reaction zone is between about 0.05 MPa g and about 2.25 MPa g, the residence time of the feedstock in the reaction zone is between about 0.5 seconds and about 20 seconds, and the amount of circulating catalyst related to the amount of injected fresh feedstock is between about 3 and about 25 m3/m3. 10. A process according to claim 7 wherein the intermediate fraction is extracted from the fractionating column C- 1 , said intermediate fraction being passed into an intermediate column C- 3 and the bottoms fraction of the column C- 3 being cooled by means of an exchanger E- 4 . 11. A process according to claim 7 wherein the pressure of the separation column C- 4 is selected to be sufficiently high for the acid gases issuing from said separation operation to be directed towards an intermediate stage of the compressor K- 11 for the cracked gases of the catalytic cracking section R- 11 . 12. A process according to claim 7 wherein the pressure of the separation column C- 5 is selected to be sufficiently high for the acid gases issuing from said separation operation to be directed towards an intermediate stage of the compressor K- 11 for the cracked gases of the catalytic cracking section R- 11 . 13. An installation according to claim 6 , wherein the gas part is H 2 S.