A shaving blade cartridge comprising a housing and at least one cutting blade mounted in a blade receiving section of the housing between first and second lateral sides of the housing, wherein one or more cutting blades is movably supported by fingers such that the at least one cutting blade can move from a first position to at least one second position, wherein one or more fingers are designed such that the at least one cutting blade is supported by at least one first contact point or area of the finger when the at least one cutting blade is in the first position, and in that the at least one cutting blade is supported by at least one second contact point or area of the finger when the at least one cutting blade is in the second position.

The present disclosure relates to a razor cartridge which comprises a frame and one or more cutting members. The frame has a leading longitudinal member and a trailing longitudinal member. The one or more cutting members are arranged between the leading longitudinal member and the trailing longitudinal member. At least one magnetic element is configured and arranged to apply a magnetic field in a magnetic shaving aid comprising a magnetic surfactant and being applied to a skin surface so as to elicit an induced change in the magnetic shaving aid between a pre-shave state and a during-shave state.

A razor assembly is disclosed. The present disclosure in at least one embodiment provides a razor assembly, comprising: a cartridge including at least one blade; and a handle assembly, wherein the handle assembly includes: a heating bar disposed on the handle assembly; at least one induction coil which is disposed under the heating bar and configured to heat the heating bar in a contactless manner; and a grip portion.

A shaving cartridge (1) with connectors (3) on each side portion of the plurality of side portions (2C) of the housing (2D) and a plurality of cutting members (7). Each of the connectors is operable to permit the side portions to pivot relative to each other. Thus, the housing will assume different configurations and is operable to adapt to and follow a contour defined by a shaving surface.

A cartridge for a razor comprises at least one blade and a first blade support configured to attach the at least one blade to the cartridge. The first blade support includes a first portion, a second portion, and a third portion, a first optical feature provided on one or more of the first portion, the second portion, and the third portion. The first optical feature is selected from one or more of a color, a coating, a texture, a perforation, a transparency of the blade support, a light emitting source, a protrusion and a sticker.

A shaving system may include a handle, a skin-contacting surface coupled to the handle, one or more blades coupled to the skin-contacting surface, and one or more sensors configured to record sounds generated during use of the shaving system.

This invention relates to a novel application of liquid-infused surface materials (LISM) to at least a portion of one or more surfaces of razor components (e.g., frame, housing, clips, blade supports, blade body, blade edge, lubricating bodies, guard, handle, grip, button). If applied to a skin contacting surface of a component, the one or more LISM layers may generally be abrasion-resistant, long-lasting or non-erodible, desirably elevating shaving performance, such as glide, comfort, rinsing, and cleanliness, while also simplifying the manufacturing process.

Digital imaging systems and methods are described for analyzing pixel data of an image of a skin area of a user for determining skin laxity. A plurality of training images of a plurality of individuals are aggregated, each of the training images comprising pixel data of a respective skin area of an individual. A skin laxity model, trained with the pixel data, is operable to output, across a range of a skin laxity scale, skin laxity values associated with a degree of skin laxity. An image of a user comprising pixel data of at least a portion of a user skin area is received and analyzed, by the skin laxity model, to determine a user-specific skin laxity value of the user skin area. A user-specific electronic recommendation addressing at least one feature identifiable within the pixel data is generated and rendered, on a display screen of a user computing device.

A shaving razor having at least two independent blade assemblies coupled to substantially rigid linkages. The linkages each defining a pivot point between the two independent blade assemblies. A bridge spans between the linkages such that movement of the bridge causes pivoting about the pivot point enabling reciprocating motion of the blade assemblies where assemblies on opposite sides of the pivot point reciprocate in opposite directions.

A connection system for connecting a safety razor handle (50) to a replaceable blade cartridge (10), comprising: a cartridge connecting structure (120) attached to the replaceable blade cartridge (10); and a handle connecting structure (102) attached to the safety razor handle (50) and configured to be brought into engagement with the cartridge connecting structure (120) along a connection axis, wherein the handle connecting structure (102) comprises a lever (112) mounted to a body (103), the lever (112) having a user end (113) to be actuated by a user, a working end (114), and a rotation axis (115) about which the lever (112) is rotatable with respect to the body (103), the rotation axis (115) being situated between the user end (113) and the working end (114), and the working end (114) of the lever (112) is configured to exert a pushing force on the cartridge connecting structure (120) when the lever (112) is rotated by actuation of the user end (113), to eject the cartridge connecting structure (120) from the handle connecting structure (102).