Hair-cutting unit for a shaving device

The invention claimed is: 1. A hair-cutting unit for use in a shaving device, said hair-cutting unit comprising an external cutting member and an internal cutting member which is rotatable relative to the external cutting member in a rotational direction about an axis of rotation, wherein: the internal cutting member comprises a plurality of cutting elements, each having a cutting edge with a respective main directional component of extension in a radial direction relative to the axis of rotation and located on a side of said cutting element leading in said rotational direction; the external cutting member comprises an annular wall having an outer surface facing away from the internal cutting member and a plurality of hair-entry slits which are mutually separated by hair-guiding strip portions of the annular wall, each hair-entry slit and each hair-guiding strip portion being elongated and having a respective main directional component of longitudinal extension in the radial direction relative to the axis of rotation, and each hair-guiding strip portion having a counter-cutting edge for co-operation with the cutting edges of the internal cutting member during rotation of the internal cutting member in said rotational direction; each hair-guiding strip portion has an inward surface facing the internal cutting member, an outward surface being part of said outer surface, a first side surface facing in the rotational direction, and a second side surface facing in a direction opposite to the rotational direction, wherein said inward surface and said second side surface mutually connect at the counter-cutting edge of the respective hair-guiding strip portion; and wherein, as seen in a cross-section taken perpendicularly to the radial direction at least within a range of radial positions relative to the axis of rotation: a maximum depth D of a respective hair-entry slit is defined as a length of a maximum axial extension of a hair-guiding strip portion adjacent to the respective hair-entry slit in an axial direction parallel to the axis of rotation; a depth y is defined as a depth within the respective hair-entry slit as measured from said outer surface and along the axial direction, wherein 0≤y≤D; a first normal vector at a respective first side surface and a second normal vector at a respective second side surface are each defined in a direction facing away from the corresponding hair-guiding strip portion; said first normal vector having a non-zero component in said axial direction facing away from the internal cutting member, a first angle α 1 between the first normal vector and said axial direction is defined in the acute angular range 0°<α 1 <90°, wherein α 1 (y) is a value of the first angle α 1 in a position on the first side surface at the depth y; said second normal vector having a non-zero component in said axial direction facing away from the internal cutting member, a second angle α 2 between the second normal vector and said axial direction is defined in the acute angular range 0°<α 2 <90°, wherein α 2 (y) is a value of the second angle α 2 in a position on the second side surface at the depth y; said first side surface has an upper segment extending from the outer surface to a depth y 1 and a lower segment extending from a depth y 2 in a direction away from the upper segment, wherein y 2 ≥y 1 , y 1 ≤0.2*D and y 2 ≤0.6*D; said second side surface has an upper segment extending from the outer surface to a depth y 3 , an intermediate segment extending from the depth y 3 to a depth y 4 >y 3 , and a lower segment extending from the depth y 4 in a direction away from the intermediate segment, wherein y 3 ≤0.2*D, y 4 ≤0.6*D and y 4 −y 3 ≥0.2*D; an average angle of normal vectors of said intermediate segment of said second side surface α 2 AV=0.5*{α 2 (y 3 )+α 2 (y 4 )}; α 2 (y 3 )=α 2 AV+/−α 2 δ and α 2 (y 4 )=α 2 AV+/−α 2 δ; α 2 AV is in a range from 20° to 50°; α 2 δ is in a range from 0° to 10°; in each position on the upper segment of said first side surface α 1 ≤α 1 (y 1 ) and dα 1 (y)/dy≥0; in each position on the lower segment of said first side surface 70°≤α 1 ≤110°; in each position on the upper segment of said second side surface α 2 ≤α 2 (y 3 ) and dα(y)/dy≥0; and in each position on the lower segment of said second side surface 70°≤α 2 ≤110°. 2. A hair-cutting unit as claimed in claim 1 , wherein: said first side surface further has an intermediate segment extending from the depth y 1 to the depth y 2 >y 1 and y 2 −y 1 ≥0.2*D; and an average angle of normal vectors of said intermediate segment of said first side surface α 1 AV=0.5*{α 1 (y 1 )+α 1 (y 2 )}; α 1 (y 1 )=α 1 AV+/−α 1 δ and α 1 (y 2 )=α 1 AV+/−α 1 b ; α 1 AV is in a range from 20° to 50°; α 1 δ is in a range from 0° to 10°. 3. A hair-cutting unit as claimed in claim 2 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions, y 1 =y 3 and/or y 2 =y 4 . 4. A hair-cutting unit as claimed in claim 2 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions, α 1 AV=α 2 AV. 5. A hair-cutting unit as claimed in claim 2 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions, α 1 δ=α 2 δ. 6. A hair-cutting unit as claimed in claim 2 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions y 2 −y 1 ≥0.3*D. 7. A hair-cutting unit as claimed in claim 2 , wherein α 1 δ=0 and α 1 =α 1 AV in each position on the intermediate segment of said first side surface. 8. A hair-cutting unit as claimed in claim 1 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions, y 4 −y 3 ≥0.3*D. 9. A hair-cutting unit as claimed in claim 1 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions, α 2 δ=0 and α 2 =α 2 AV in each position on the intermediate segment of said second side surface. 10. A hair-cutting unit as claimed in claim 1 , wherein y 2 ≤0.5*D and/or y 4 ≤0.5*D. 11. A hair-cutting unit as claimed in claim 1 , wherein in any cross-section, taken perpendicularly to the radial direction, within said range of radial positions: in each position on the lower segment of said second side surface for which y≤0.8*D, 70°≤α 2 ≤110°; and/or in each position on the lower segment of said first side surface for which y≤0.8*D, 70°≤α 1 ≤110°. 12. A hair-cutting unit as claimed in claim 1 , wherein in any cross-section, taken perpendicularly to the radical direction, within said range of radical positions, in each position on the lower segment of said second side surface for which y≤0.9*D, 70°≤α 2 ≤110°. 13. A hair-cutting unit as claimed in claim 1 , wherein, in any cross-section taken perpendicularly to the radial direction, said first side surface has a rounded shape connecting the lower segment of said first side surface to an adjacent portion of said inward surface. 14. A hair-cutting unit as claimed in claim 1 , wherein, in any cross-section taken perpendicularly to the radial direction within said range of radial positions, a width W of each hair-entry slit has a value in the range 0.24 mm≤W≤0.36 mm, and said maximum depth D of each hair-entry slit has a value in the range 0.19*W≤D≤0.42*W. 15. A hair-cutting unit as claimed in claim 1 , wherein rotary paths of the cutting edges of the internal cutting member along the inward surface of said annular wall extend from an inward cutting edg