Heat exchanger

What is claimed is: 1. A heat exchanger comprising: a first inlet and a first outlet for a first medium to be cooled, the first inlet and first outlet being fluidically connected with one another via a first path carrying the first medium; a second inlet and a second outlet for a second medium to be heated, the second inlet and the second outlet being fluidically connected with one another via a second path carrying the second medium; and a third inlet and a third outlet for a third medium to be heated, the third inlet and the third outlet being fluidically connected with one another via a third path carrying the third medium, wherein: the first path is coupled with the second path and with the third path in a heat-transferring manner and such that the media are separated from one another; the heat-transferring coupling between the first path and the second path takes place upstream of the heat-transferring coupling between the first path and the third path in relation to a direction of flow of the first medium; a fourth path for carrying the first medium, the fourth path bypassing the heat-transferring couplings of the first path with the second path and the first path with the third path, the fourth path fluidically connecting the first inlet with the first outlet; and a control for controlling the flow of the first medium in the first path and the fourth path; a common housing has the first inlet and first outlet, the second inlet and the second outlet and the third inlet and the third outlet and contains the first path, the second path, the third path and the fourth path. 2. A heat exchanger in accordance with claim 1 , wherein: the housing comprises a jacket and contains a tube, the jacket enveloping the tube and forming a ring channel; the first path is defined by the ring channel; the second path is defined by a first coil, which extends in the ring channel and winds helically around the tube; the third path is defined by a second coil, which extends in the ring channel and winds helically around tube; the fourth path passes through tube, and the control comprises a control element arranged in the tube for changing a cross section of tube, through which cross section flow is possible. 3. A heat exchanger in accordance with claim 2 , wherein at least one of the coils has a spiral tube, which carries on the inside the respective medium and carries cooling fins, exposed to the first medium, on the outside. 4. A heat exchanger in accordance with claim 2 , wherein: one of said coils comprises a plurality of partial coils which are arranged radially adjacent to one another and are arranged coaxially one in the other with respect to said tube; an uncoupling element fluidically connects said partial coils and a corresponding said inlet or a corresponding outlet of said one coil, said uncoupling element is movable and flexible and to compensate for relative motions between said one coil and said housing. 5. A device comprising: an internal combustion engine comprising internal combustion chambers and a fresh air feed unit for feeding fresh air to the combustion chambers and an exhaust system for removing exhaust gas from the combustion chambers; a waste heat utilization unit comprising a waste heat utilization circuit, in which a working medium circulates, an evaporator for evaporating the working medium, downstream therefrom an expansion engine, for expanding the working medium, downstream therefrom a condenser, for condensing the working medium and downstream therefrom a feed unit, for driving the working medium in the waste heat utilization circuit; a cooling circuit in which a cooling medium circulates; and a heat exchanger comprising a first inlet and a first outlet for a first medium to be cooled, the first inlet and first outlet being fluidically connected with one another via a first path carrying the first medium, a second inlet and a second outlet for a second medium to be heated, the second inlet and the second outlet being fluidically connected with one another via a second path carrying the second medium, a third inlet and a third outlet for a third medium to be heated, the third inlet and the third outlet being fluidically connected with one another via a third path carrying the third medium, wherein the first path is coupled with the second path and with the third path in a heat-transferring manner and such that the media are separated from one another; and the heat-transferring coupling between the first path and the second path takes place upstream of the heat-transferring coupling between the first path and the third path in relation to a direction of flow of the first medium, wherein: the first path is integrated into the exhaust system, so that the exhaust gas forms the first medium; the second path is integrated into the waste heat utilization circuit, so that the working medium forms the second medium and that the heat-transferring coupling between the first path and the second path forms the evaporator; and the third path is integrated into the cooling circuit, whereby the cooling medium forms the third medium. 6. A device in accordance with claim 5 , wherein the cooling circuit at least one of cools the internal combustion engine and heats an air flow for air conditioning a passenger compartment of a vehicle. 7. A device according to claim 5 , wherein the device is a part of a vehicle that is one of a land craft, an aircraft and a watercraft, the vehicle further comprising a drivetrain for driving the vehicle, wherein the internal combustion engine is connected to the drivetrain for driving. 8. A device in accordance with claim 5 , wherein the heat exchanger further comprises: a fourth path for carrying the first medium, the fourth path bypassing the heat-transferring couplings of the first path with the second path and the first path with the third path, the fourth path fluidically connecting the first inlet with the first outlet; and a control for controlling the flow of the first medium in the first path and the fourth path. 9. A device in accordance with claim 8 , wherein a common housing has the first inlet and first outlet, the second inlet and the second outlet and the third inlet and the third outlet and contains the first path, the second path, the third path, and the fourth path. 10. A device in accordance with claim 9 , wherein: the housing comprises a jacket and contains a tube, the jacket enveloping the tube and forming a ring channel; the first path is defined by the ring channel; the second path is defined by a first coil, which extends in the ring channel and winds helically around the tube; the third path is defined by a second coil, which extends in the ring channel and winds helically around tube; the fourth path passes through tube, and the control comprises a control element arranged in the tube for changing a cross section of tube, through which cross section flow is possible. 11. A device in accordance with claim 10 , wherein at least one of the coils has a spiral tube, which carries on the inside the respective medium and carries cooling fins, exposed to the first medium, on the outside. 12. A device in accordance with claim 10 , wherein: one of said coils comprises a plurality of partial coils which are arranged radially adjacent to one another and are arranged coaxially one in the other with respect to said tube; an uncoupling element fluidically connects said partial coils and a corresponding inlet or a corresponding outlet of said one coil, said uncoupling element being movable and flexible to compensate for relative motions between said one coil and said housing. 13.