Brake unit

The invention claimed is: 1. A brake unit for utility vehicles, comprising: a carrier unit; and a transmission element; wherein the carrier unit has a guide section, in which the transmission element is arranged such that the transmission element can be moved along a guide axis; wherein the transmission element comprises a first receiving section configured to be engaged with a piston rod of a brake cylinder, and a second receiving section configured to be engaged with a tappet of a wedge unit; wherein the transmission element is configured to transmit forces and displacements along the guide axis between the piston rod and the tappet; wherein the carrier unit has a base body and a bracing element; wherein the guide section is arranged within the bracing element; wherein the bracing element is configured to be inserted into a cavity on the base body and be attached to the base body in at least one of a force-fitting and form-fitting; wherein the transmission element has a slide section configured to slide with clearance on the guide section; and wherein at least one of the slide section includes a wear-reducing material and the guide section includes a wear-reducing coating. 2. The brake unit of claim 1 , wherein the first receiving section and the second receiving section are arranged at two opposite sides of the transmission element and are arranged substantially coaxially relative to each other. 3. The brake unit of claim 1 , wherein the transmission element has a wear-reducing material in at least one of the first receiving section and the second receiving section. 4. The brake unit of claim 3 , wherein the slide section has two cylinder sections on the lateral surfaces of the two cylinder sections the transmission element is guided in the guide section, wherein the cylinder sections are spaced apart from each other along the guide axis and separated by an intermediate space. 5. The brake unit of claim 4 , wherein the slide section has at least one of a projection and a recess, which can be made to engage with a corresponding other of at least one of a recess and a projection of the guide section to secure the transmission element against rotation about the guide axis relative to the carrier unit. 6. The brake unit of claim 1 , wherein the transmission element has a maximum length along the guide axis and a maximum width transverse to the guide axis, and wherein the relationship of the width to the length is in a range of 0.5-2. 7. The brake unit of claim 6 , wherein the relationship of the width to the length is in the range of 0.8-1.6. 8. The brake unit of claim 7 , wherein the relationship of the width to the length is in the range of 1.2-1.4. 9. The brake unit of claim 1 , wherein at least one of the first receiving section and the second receiving section has at least one of a recess and a funnel-shaped cavity, into which the respective corresponding at least one of the piston rod and the tappet may be inserted. 10. The brake unit of claim 9 , wherein the at least one of the recess and the funnel-shaped cavity of the at least one of the first receiving section and of the second receiving section has an opening angle, and wherein the opening angle has values of 5°-45°. 11. The brake unit of claim 10 , wherein the opening angle has values of 15°-30°. 12. The brake unit of claim 11 , wherein the opening angle has values of 23°-25°. 13. The brake unit of claim 1 , wherein at least one of the first receiving section and the second receiving section has a receiving surface, wherein the first receiving surface has a first mean radius of curvature, wherein the second receiving surface has a second mean radius of curvature, and wherein the first radius of curvature is larger than the second radius of curvature. 14. The brake unit of claim 13 , wherein the relationship of the first radius of curvature to the second radius of curvature is 1-3. 15. The brake unit of claim 14 , wherein the relationship of the first radius of curvature to the second radius of curvature is 1.2-2. 16. The brake unit of claim 15 , wherein the relationship of the first radius of curvature to the second radius of curvature is 1.5-1.6. 17. The brake unit of claim 1 , wherein the transmission element is pretensioned in the direction of the piston rod. 18. The brake unit of claim 1 , wherein the bracing element is held to the base body by a sleeve element, and wherein between the bracing element and the sleeve element there is at least one of a force-fit and a form-fit. 19. The brake unit of claim 18 , wherein the sleeve element and the wedge unit comprise a single-piece, and wherein the wedge unit rests against the base body on a surface, which is transverse to the guide direction. 20. The brake unit of claim 1 , wherein the wear-reducing coating of the guide section includes at least one of an insert, a metal coating, a fiber-reinforced ceramic material, and a polytetrafluoroethylene coating. 21. A brake unit for utility vehicles, comprising: a carrier unit; and a transmission element; wherein the carrier unit has a guide section, in which the transmission element is arranged such that the transmission element can be moved along a guide axis; wherein the transmission element comprises a first receiving section configured to be engaged with a piston rod of a brake cylinder, and a second receiving section configured to be engaged with a tappet of a wedge unit; wherein the transmission element is configured to transmit forces and displacements along the guide axis between the piston rod and the tappet; wherein the carrier unit has a base body and a bracing element; wherein the guide section is arranged within the bracing element; and wherein the bracing element is configured to be inserted into a cavity on the base body and be attached to the base body in at least one of a force-fitting and form-fitting; wherein the transmission element has a slide section configured to slide with clearance on the guide section; and wherein the guide section includes a wear-reducing coating.