Pneumatic vehicle tire

What is claimed is: 1. A pneumatic vehicle tire for utility vehicles, the pneumatic vehicle tire defining a circumferential direction (U) and a radial direction (R), the pneumatic vehicle tire comprising: first and second side walls and a crown region disposed between said side walls; a carcass; five belt plies arranged resting one on top the other radially inward to radially outward and said plurality of belt plies conjointly defining a tire belt configured radially outside said carcass in said crown region; each of said belt plies being formed as a one-part belt ply disposed between said side walls; a profiled tread constructed radially outside said belt and built up on said belt; said five belt plies including a first belt ply arranged furthest inwardly in the radial direction of said five belt plies; said first belt ply having a plurality of parallel first reinforcement members embedded in rubber; said five belt plies including a second belt ply arranged on said first belt ply, a third belt ply arranged on said second belt ply, a fourth belt ply arranged on said third belt ply and a fifth belt ply arranged outside of and on said fourth belt ply; said second belt ply having a plurality of parallel second reinforcement members embedded in rubber; said third belt ply having a plurality of parallel third reinforcement members embedded in rubber; said fourth belt ply having a plurality of parallel fourth reinforcement members embedded in rubber; said fifth belt ply having a plurality of parallel fifth reinforcement members; said first belt ply and said second belt ply being configured as working plies; said first reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle α lying in a range of 10°≤α≤45°; said second reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle γ lying in a range of 10°≤γ≤45°; said first reinforcement members having an opposite axial direction of inclination to said second reinforcement members as viewed in the circumferential direction U; said fourth reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle ε lying in a range of 40°≤ε≤75°; said third reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle β lying in a range of 0°≤β≤5°; said fifth reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle δ lying in a range of 40°≤δ≤75°; said fifth reinforcement members having an opposite axial direction of inclination to said fourth reinforcement members as viewed in the circumferential direction U; said fourth belt ply having an axial extent (h); and, said fifth belt ply having an axial extent (f) less than said axial extent (h) of said fourth belt ply. 2. The pneumatic vehicle tire of claim 1 , wherein: each of said five belt plies has a corresponding axial extent in the pneumatic vehicle tire; and, said axial extent in the pneumatic vehicle tire of said first belt ply is greater than said axial extent of all other ones of said five belt plies. 3. A pneumatic vehicle tire for utility vehicles, the pneumatic vehicle tire defining a circumferential direction (U) and a radial direction (R), the pneumatic vehicle tire comprising: first and second side walls and a crown region disposed between said side walls; a carcass; five belt plies arranged resting one on top the other radially inward to radially outward and said plurality of belt plies conjointly defining a tire belt configured radially outside said carcass in said crown region; each of said belt plies being formed as a one-part belt ply disposed between said side walls; a profiled tread constructed radially outside said belt and built up on said belt; said five belt plies including a first belt ply arranged furthest inwardly in the radial direction of said five belt plies; said first belt ply having a plurality of parallel first reinforcement members embedded in rubber; said five belt plies including a second belt ply arranged on said first belt ply, a third belt ply arranged on said second belt ply, a fourth belt ply arranged on said third belt ply and a fifth belt ply arranged outside of and on said fourth belt ply; said second belt ply having a plurality of parallel second reinforcement members embedded in rubber; said third belt ply having a plurality of parallel third reinforcement members embedded in rubber; said fourth belt ply having a plurality of parallel fourth reinforcement members embedded in rubber; said fifth belt ply having a plurality of parallel fifth reinforcement members; said first belt ply and said second belt ply being configured as working plies; said first reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle α lying in a range of 10°≤α≤45°; said second reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle γ lying in a range of 10°≤γ≤45°; said first reinforcement members having an opposite axial direction of inclination to said second reinforcement members as viewed in the circumferential direction U; said fourth reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle ε lying in a range of 40°≤ε≤75°; said third reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle β lying in a range of 0°≤β≤5°; each of said five belt plies having a corresponding axial extent in the pneumatic vehicle tire; said third belt ply having a smaller axial extent in the pneumatic vehicle tire than said first belt ply and said second belt ply; said fifth reinforcement members each having an orientation which, together with the circumferential direction (U), encloses an angle δ lying in a range of 40°≤δ≤75°; said fifth reinforcement members having an opposite axial direction of inclination to said fourth reinforcement members as viewed in the circumferential direction U; said fourth belt ply having an axial extent (h); and, said fifth belt ply having an axial extent (f) less than said axial extent (h) of said fourth belt ply. 4. The pneumatic vehicle tire of claim 1 , wherein said fifth reinforcement members each have an orientation which, together with the circumferential direction (U), encloses an angle δ of 50°. 5. The pneumatic vehicle tire of claim 1 , wherein said first reinforcement members and said second reinforcement members are steel cords. 6. The pneumatic vehicle tire of claim 1 , wherein: said first reinforcement members and said second reinforcement members each have a corresponding breaking force; and, said first reinforcement members and said second reinforcement members are configured to have an extensibility D of D≥0.2% at 10% of said corresponding breaking force. 7. The pneumatic vehicle tire of claim 1 , wherein said third reinforcement members are made of steel. 8. The pneumatic vehicle tire of claim 1 , wherein said third reinforcement members are steel cords having a breaking force, said third reinforcement members further having an extensibility D of D≥0.2% at 10% of said breaking force. 9. The pneumatic vehicle tire of claim 1 , wherein said third reinforcement members are steel cords having a breaking force, said third reinforcement members further having an extensibility D of D≥1% at 10% of said breaking force. 10. The pneumatic vehicle tire of claim 1 ,