Temperature control unit, especially vehicle temperature control unit

What is claimed is: 1. A temperature control unit comprising: a temperature control body formed of magnetocaloric material and through which or around which or both through and around which heat transfer medium can flow; a temperature control body receiving housing with a temperature control body receiving space receiving the temperature control body for rotation of the temperature control body about an axis of rotation; a plurality of temperature control sectors of the magnetocaloric material and following each other in a circumferential direction of the temperature control body, each of the control sectors comprising a cooling area and a magnetic field heating area arranged in the circumferential direction next to the cooling area, each magnetic field heating area having associated therewith a magnet array generating a magnetic field penetrating the magnetic field heating area, whereby a circumferential sequence, of alternately arranged cooling areas and magnetic field heating areas, is provided; and a heat transfer medium circulation, in at least two adjacent temperature control sectors, from the magnetic field heating area of one of the temperature control sectors to the cooling area of the other of the temperature control sectors and from the cooling area of the other of the temperature control sectors to the magnetic field heating area of the one of the temperature control sectors, wherein: in at least one temperature control sector heat input fluid flows through the cooling are, for feeding heat into the temperature control sector; or in at least one temperature control sector heat discharge fluid flows through the magnetic field heating area, for discharging heat from the temperature control sector; or in at least one temperature control sector heat input fluid flows through the cooling area, for feeding heat into the temperature control sector and in at least one temperature control sector heat discharge fluid flows through the magnetic field heating area, for discharging heat from the temperature control sector. 2. A temperature control unit in accordance with claim 1 , wherein: the magnet array is arranged in association with at least one of the temperature control sectors for generating an essentially radially oriented magnetic field; or the heat transfer medium circulation is configured for generating a heat transfer medium flow flowing essentially axially through the magnetic field heating area and essentially axially through the cooling area or the magnet array is arranged association with at least one of the temperature control sectors for generating an essentially radially oriented magnetic field and the heat transfer medium circulation is configured for generating a heat transfer medium flow flowing essentially axially through the magnetic field heating area and essentially axially through the cooling area. 3. A temperature control unit in accordance with claim 1 , wherein: the magnet array is arranged association with at least one temperature control sector for generating an essentially axially oriented magnetic field; or the heat transfer medium circulation arrangement is configured for generating a heat transfer medium flow flowing essentially radially through the magnetic field heating area and the cooling area; or the magnet array is arranged association with at least one temperature control sector for generating an essentially axially oriented magnetic field and the heat transfer medium circulation arrangement is configured for generating a heat transfer medium flow flowing essentially radially through the magnetic field heating area and the cooling area. 4. A temperature control unit in accordance with claim 1 , wherein the heat transfer medium circulation arrangement comprises in association with at least two adjacent temperature control sectors: at least one first circulation line leading from the magnetic field heating area of one of the at least two adjacent temperature control sectors to the cooling area; at least one second circulation line leading from the cooling area of one of the at least two adjacent temperature control sectors to the magnetic field heating area; and a circulating pump circulating heat transfer medium through the at least one first circulation line and the at least one second circulation line. 5. A temperature control unit in accordance with claim 1 , wherein the temperature control body receiving housing comprises: a first housing circumferential wall defining the temperature control body receiving space on a first radial side in a first radially inwards direction; and a second housing circumferential wall defining the temperature control body receiving space on a second radial side in a second radially outwards direction. 6. A temperature control unit in accordance with claim 5 , wherein the temperature control receiving housing comprises a first housing front wall defining the temperature control body receiving space on a first axial side in a first axial direction; and a second housing front wall defining the temperature control body receiving space on a second axial side in a second axial direction opposite the first axial direction. 7. A temperature control unit in accordance with claim 1 , wherein: the magnet array comprises at least one first magnet on a first radial side or on a first axial side in association with the temperature control body receiving space; and at least one second magnet on a second radial side or on a second axial side in association with the temperature control body receiving space. 8. A temperature control unit in accordance with claim 1 , further comprising: a discharge heat exchanger arrangement through which heat discharge fluid is able to flow, the discharge heat exchanger arrangement discharging heat from the heat discharge fluid; or a input heat exchanger arrangement through which heat input fluid is able to flow,the input heat exchanger arrangement absorbing heat in the heat input fluid; or a discharge heat exchanger arrangement through which heat discharge fluid is able to flow, the discharge heat exchanger arrangement discharging heat from the heat discharge fluid and a input heat exchanger arrangement through which heat input fluid is able to flow,the input heat exchanger arrangement absorbing heat in the heat input fluid. 9. A vehicle temperature control unit comprising: a temperature control body made of magnetocaloric material and through which or around which or both through which and around which heat transfer medium flows; a temperature control body receiving housing defining a temperature control body receiving space, the temperature control body being rotatably received, for rotation about an axis of rotation, within the temperature control body receiving space; a plurality of magnet arrays, each magnetic array generating a magnetic field penetrating the magnetocaloric material to provide a magnetic field heating area, whereby a plurality of cooling areas and magnetic field heating areas alternately follow each other in the circumferential direction whereby a circumferential sequence of alternately arranged cooling areas and magnetic field heating areas is provided, wherein heat input fluid flows through at least one cooling area and heat discharge fluid flows through at least one magnetic field heating area; and a heat transfer medium circulation arrangement fluidically connecting at least one cooling area to at least one magnetic field heating area and fluidcally connecting at least one magnetic field heating area to at least one cooling area. 10. A vehicle temperature control unit in accordance with claim 9 , wherein the cooling area through which heat input fluid flows and the ma