External rotor pump with a surface structure having a load-bearing region and a non-load bearing region

What is claimed is: 1. An external rotor pump, comprising: a first component which is constructed as an external rotor and which has a sliding face which is arranged on an outer side thereof; a second component which is constructed as a counter-rotation member and in which the external rotor is rotatably supported by way of the sliding face thereof on an inner guiding face of the counter-rotation member and is in mechanical contact therewith; an internal rotor which is rotatably supported eccentrically relative to the external rotor; wherein one of the rotors is drivable in order to be caused to carry out a rotational movement and the rotors are coupled to each other such that, when the drivable rotor is driven, the other rotor is thereby also caused to carry out a rotational movement in order to convey fluid from an intake region to a pressure region of the external rotor pump, the sliding face or the inner guiding face has a surface structure which has a load-bearing region and a non-load-bearing region which is recessed relative thereto so that the non-load-bearing region remains unaffected by contact between the guiding face and the sliding face which is supported thereon, the external rotor pump further comprises at least one lubricant supply channel for selectively supplying lubricant to lubricate a boundary layer between the sliding face and the inner guiding face, and at least one lubricant discharge channel for discharging the lubricant, the lubricant supply channel is arranged such that it opens at a location in the boundary layer, at which, during operation of the pump, the load-bearing region is at least temporarily located so that it is provided at that location with the lubricant provided from the lubricant supply channel, and the lubricant discharge channel is arranged such that the input thereof is arranged adjacent to a location of the boundary layer at which the non-load-bearing region is at least temporarily located during operation of the pump so that, from this location via the corresponding lubricant discharge channel, lubricant is discharged from the non-load-bearing region. 2. The external rotor pump as claimed in claim 1 , wherein: the first or second component which has the load-bearing region has a component body produced from at least one base material, and the load-bearing region has on a surface thereof a carrier material which, with respect to at least one of the base materials, has a reduced friction coefficient or a higher wear resistance, or both. 3. The external rotor pump as claimed in claim 2 , wherein a layer of carrier material is formed on the component body on the load-bearing portion. 4. The external rotor pump as claimed in claim 2 , wherein the carrier material comprises one or more of: carbon, lubricant varnish, and hard metal. 5. The external rotor pump as claimed in claim 4 , wherein at least one of the base materials comprises one or more of: a plastics material, a light metal or a light metal alloy, a composite material, a sintered material, and a steel material. 6. The external rotor pump as claimed in claim 2 , wherein at least one of the base materials comprises one or more of: a plastics material, a light metal or a light metal alloy, a composite material, a sintered material, and a steel material. 7. The external rotor pump as claimed in claim 1 , wherein the first or second component which has the load-bearing region has a component body, produced from at least one base material, and a sliding member, the sliding member is arranged and fitted on the component body such that the sliding member forms at least a portion of the load-bearing region and has a carrier material which, with respect to at least one of the base materials, has a reduced friction coefficient or a higher wear resistance, or both. 8. The external rotor pump as claimed in claim 7 , wherein the sliding member has a ring which surrounds the component body. 9. The external rotor pump as claimed in claim 1 , wherein the non-load-bearing region of the external rotor or the counter-rotation member is constructed at least partially in thea form of at least one linear recess in the sliding face or the inner guiding face. 10. The external rotor pump as claimed in claim 9 , wherein the non-load-bearing region of the external rotor or the counter-rotation member is constructed at least partially in a form of a plurality of linear recesses which extend parallel with each other in the sliding face or the inner guiding face. 11. The external rotor pump as claimed in claim 10 , wherein a movement direction of the external rotor with respect to the counter-rotation member defines, when the drivable rotor is driven, a reference direction on the sliding face or the inner guiding face and the linear recesses have one of the following paths: linear and parallel or anti-parallel with respect to the reference direction, linear, jagged or undulating and extending at least partially obliquely with respect to the reference direction, or linear, jagged or undulating and angled so that an angle forms an arrow-shape with an arrow direction which extends in or counter to the reference direction. 12. The external rotor pump as claimed in claim 1 , wherein the load-bearing region is structured such that a maximum surface pressure which is applied thereto during operation of the external rotor pump, at least in one operating mode of the external rotor pump, does not vary by more than 10%. 13. The external rotor pump as claimed in claim 1 , wherein the load-bearing region is structured such that a maximum surface pressure which is applied thereto during operation of the external rotor pump, at least in one operating mode of the external rotor pump, does not vary by more than 5%. 14. The external rotor pump as claimed in claim 1 , wherein the load-bearing region is structured such that a maximum surface pressure which is applied thereto during operation of the external rotor pump, at least in one operating mode of the external rotor pump, does not vary by more than 2%. 15. The external rotor pump as claimed in claim 1 , wherein the pump is a hydraulic external rotor pump. 16. An external rotor pump, comprising: a first component which is constructed as an external rotor and which has a sliding face which is arranged on an outer side thereof; a second component which is constructed as a counter-rotation member and in which the external rotor is rotatably supported by way of the sliding face thereof on an inner guiding face of the counter-rotation member and is in mechanical contact therewith; and an internal rotor which is rotatably supported eccentrically relative to the external rotor; wherein one of the rotors is drivable in order to be caused to carry out a rotational movement and the rotors are coupled to each other such that, when the drivable rotor is driven, the other rotor is thereby also caused to carry out a rotational movement in order to convey fluid from an intake region to a pressure region of the external rotor pump, the sliding face or the inner guiding face has a surface structure which has a load-bearing region and a non-load-bearing region which is recessed relative thereto so that the non-load-bearing region remains unaffected by contact between the guiding face and the sliding face which is supported thereon, the first or second component which has the load-bearing region has a component body produced from at least one base material, the load-bearing region has on a surface thereof a carrier material which, with r