Hair-cutting unit for use in a hair-cutting appliance

The invention claimed is: 1 . A hair-cutting unit for use in a hair-cutting appliance, comprising: an external cutting member having a cutting track surface that defines hair-entry openings; an internal cutting member having at least one hair-cutting element and being movable with respect to the external cutting member; a skin-supporting structure having a skin-supporting surface for contacting a portion of skin to be subjected to a hair-cutting action, wherein the external cutting member is displaceable relative to the skin-supporting structure; and a safety mechanism designed to enable stepped variation between at least two discrete stages of a level (l c ) of the cutting track surface with respect to a level (l s ) of the skin-supporting surface, in relation to pressure exerted by the external cutting member on the skin, wherein the safety mechanism is configured to maintain a default stage as long as the pressure exerted by the external cutting member on the skin is below a predefined threshold value, the default stage involving a most protruding position of the external cutting member in which the cutting track surface protrudes with respect to the skin-supporting surface to a maximum extent, and to instantaneously set a retracted stage when the pressure exerted by the external cutting member on the skin increases and passes the predefined threshold value, the retracted stage involving a less protruding position of the external cutting member and a retracted position of the cutting track surface with respect to a position of the cutting track surface in the default stage. 2 . The hair-cutting unit according to claim 1 , wherein a distance between a level (l c ) of the cutting track surface with respect to a level (l s ) of the skin-supporting surface in the most protruding position of the external cutting member and in the less protruding position of the external cutting member, respectively, is equal to or larger than 200 μm. 3 . The hair-cutting unit according to claim 2 , wherein the distance between the level (l c ) of the cutting track surface with respect to the level (l s ) of the skin-supporting surface in the most protruding position of the external cutting member and in the less protruding position of the external cutting member, respectively, is in a range of 300 to 1,000 μm. 4 . The hair-cutting unit according to claim 1 , wherein the safety mechanism comprises: a sensor system including at least one sensor which is configured to measure the pressure exerted by the external cutting member on the skin and/or at least one parameter related thereto, and an electrical actuator configured to displace the external cutting member relative to the skin-supporting structure in response to the sensor system. 5 . The hair-cutting unit according to claim 4 , wherein the at least one sensor of the sensor system is arranged in the skin-supporting structure or the external cutting member. 6 . The hair-cutting unit according to claim 4 , wherein the electrical actuator is a piezo bending actuator having at least two stable bent conditions depending on a voltage applied to the piezo bending actuator. 7 . The hair-cutting unit according to claim 4 , wherein the external cutting member is supported on a carrier of the skin-supporting structure, and wherein the electrical actuator is arranged and configured to act on the carrier and the external cutting member for displacing the external cutting member relative to the skin-supporting structure. 8 . The hair-cutting unit according to claim 1 , wherein the safety mechanism is of a purely mechanical nature. 9 . The hair-cutting unit according to claim 1 , wherein the safety mechanism comprises a mechanical member configured to be deformable between at least two stable positions under the influence of the pressure exerted by the external cutting member on the skin and configured to displace the external cutting member relative to the skin-supporting structure as a result of a deformation of the mechanical member. 10 . The hair-cutting unit according to claim 9 , wherein the mechanical member is biased towards one of the at least two stable positions so as to assume the one of the at least two stable positions as a default position when the pressure exerted by the external cutting member on the skin is below the predefined threshold value. 11 . The hair-cutting unit according to claim 9 , wherein the mechanical member comprises a bi-stable spring. 12 . The hair-cutting unit according to claim 11 , wherein the bi-stable spring is a buckling spring which is deformable under the influence of pressure between a position in which the buckling spring is buckled inwardly and a position in which the buckling spring is buckled outwardly. 13 . The hair-cutting unit according to claim 9 , wherein the external cutting member is supported on a carrier of the skin-supporting structure, and wherein the mechanical member is arranged and configured to act on the carrier and the external cutting member for displacing the external cutting member relative to the skin-supporting structure. 14 . A hair-cutting appliance, comprising at least one hair-cutting unit according to claim 1 . 15 . The hair-cutting appliance according to claim 14 , further comprising a feedback system configured to provide feedback to a user of the hair-cutting appliance when the pressure exerted by the external cutting member on the skin is above the predefined threshold value.