초록 ▼

The invention pertains to a distribution device for parcels with a deflection element for distributing the parcels that arrive on a conveyor pathway in approximately the horizontal direction to branched-off conveyor pathways with approximately the same transport plane. According to the invention, th

The invention pertains to a distribution device for parcels with a deflection element for distributing the parcels that arrive on a conveyor pathway in approximately the horizontal direction to branched-off conveyor pathways with approximately the same transport plane. According to the invention, three conveyor pathways (T1, T2, T3) branch off from a distribution point. The ends of the deflection element (A) are connected to horizontally displaceable plungers of stationary stroking mechanisms (H1, H2) by means of pivot points (D1, D2) in order to displace the ends from one lateral limit of the central conveyor pathway (T3) to the other lateral limit. One of the two stroking mechanisms (H1, H2) is fixed perpendicularly to the transport direction of the central conveyor pathway (T3), with the other stroking mechanism (H1, H2) being mounted in a pivoted fashion.

대표청구항 ▼

The invention pertains to a distribution device for parcels with a deflection element for distributing the parcels that arrive on a conveyor pathway in approximately the horizontal direction to branched-off conveyor pathways with approximately the same transport plane. According to the invention, th

The invention pertains to a distribution device for parcels with a deflection element for distributing the parcels that arrive on a conveyor pathway in approximately the horizontal direction to branched-off conveyor pathways with approximately the same transport plane. According to the invention, three conveyor pathways (T1, T2, T3) branch off from a distribution point. The ends of the deflection element (A) are connected to horizontally displaceable plungers of stationary stroking mechanisms (H1, H2) by means of pivot points (D1, D2) in order to displace the ends from one lateral limit of the central conveyor pathway (T3) to the other lateral limit. One of the two stroking mechanisms (H1, H2) is fixed perpendicularly to the transport direction of the central conveyor pathway (T3), with the other stroking mechanism (H1, H2) being mounted in a pivoted fashion. circumferential surface to the outer circumferential surface. 2. The vented disc brake rotor of claim 1, wherein at least two adjacent directing walls of the plurality of directing walls are curvilinear. 3. The vented disc brake rotor of claim 2, wherein at least one separating wall is disposed between the curvilinear directing walls and wherein at least one separating wall is curvilinear. 4. The vented disc brake rotor of claim 1, wherein at least one flow channel is open to the first braking surface and wherein at least one flow channel is open to the second braking surface. 5. The vented disc brake rotor of claim 4, wherein each flow channel of a first set of flow channels is open to the first braking surface and each flow channel of a second set of flow channels is open to the second braking surface. 6. The vented disc brake rotor of claim 5, wherein each flow channel of the first set of flow channels is disposed between two flow channels of the second set of flow channels. 7. The vented disc brake rotor of claim 6, wherein the first and second braking surfaces are integrally formed by a singular brake member. 8. The vented disc brake rotor of claim 1, further comprising a tapered throat between the hat region and the first and second braking surfaces. 9. A vented disc brake rotor, comprising: first and second annular braking surfaces jointly defining inner and outer circumferential surfaces and a central region; a hat region disposed in the central region and adapted for mounting said rotor to a vehicle; first and second pluralities of curved directing walls disposed between the first and second braking surfaces and defining a plurality of flow channels, each of the first plurality of directing walls extending from an underside of the first braking surface toward the second braking surface and each of the second plurality of directing walls extending from an underside of the second braking surface toward the first braking surface; each of the plurality of flow channels extending from the inner circumferential surface to the outer circumferential surface; and a curved separating wall disposed in each flow channel, each separating wall extending from a first end at a point between the inner and outer circumferential surfaces to a second end at the outer circumferential surface, dividing a flow channel into first and second subchannels, and having a width that increases from the first end to the second end; wherein the total cross-sectional area of each of the plurality of flow channels remains substantially constant from the inner circumferential surface to the outer circumferential surface. 10. The vented disc brake rotor of claim 9, wherein at least one flow channel is open to the first braking surface and wherein at least one flow channel is open to the second braking surface. 11. The vented disc brake rotor of claim 10, wherein each flow channel of a first set of flow channels is open to the first braking surface and each flow channel of a second set of flow channels is open to the second braking surface. 12. The vented disc brake rotor of claim 11, wherein each flow channel of the first set of flow channels is disposed between two flow channels of the second set of flow channels. 13. The vented disc brake rotor of claim 12, wherein the inner circumferential surface defines a plurality of apertures, each of the plurality of apertures providing fluid access to one flow channel of the second set of flow channels. 14. The vented disc brake rotor of claim 9, further comprising a plurality of directing fins disposed on the inner circumferential surface, each of the plurality of directing fins disposed adjacent a flow channel and defining a directing surface adapted to direct air into the flow channel. 15. The vented disc brake rotor of claim 9, further comprising a tapered throat between the hat region and the first and second braking surfaces. 16. A vented disc brake rotor, comprising: a brake surface member