A nape hair shaving device for allowing a user to shave hair on a nape located behind the user's neck, comprising an arcuate shaving bar and a plurality of razors projecting therefrom to form a curved shaving arc which conforms to the shape of the user's neck. The user employs the shaving device by grasping the shaving device via a pair of grips with the arcuate shaving bar horizontally positioned therebetween, positioning the shaving arc above the nape, and making a shaving motion by drawing the shaving arc downwardly over the nape to cut the hair growing thereon. The arcuate shaving device is further flexible and is adapted to be bent inwardly or outwardly to selectively vary the size of the shaving arc. The plurality of razors are selectively detachable, allowing dulled razors to be removed and replaced.

An adaptor for a shaving cartridge is provided. The adaptor is provided with a frame, a first shaving aid, and a second shaving aid. The frame includes a first wall and an opposite second wall. The first wall and the second wall extend along and define a longitudinal axis. The side walls extend from the first wall to the second wall, where the first wall has a first opening. The first and second shaving aids are releasably connected, respectively, to the first and second side walls of the frame. The first and second shaving aids are mounted on the shaving cartridge in a first position by being moved in a direction perpendicular to the longitudinal axis. Cutting edges of shaving blades disposed in the shaving cartridge are uncovered and accessible through the first opening formed in the first wall when the adaptor is mounted on the shaving cartridge.

An adaptor for a shaving cartridge is provided. The adaptor is provided with a frame, a first shaving aid, and a second shaving aid. The frame includes a first wall and an opposite second wall. The first wall and the second wall extend along and define a longitudinal axis. The side walls extend from the first wall to the second wall, where the first wall has a first opening. The first and second shaving aids are releasably connected, respectively, to the first and second side walls of the frame. The first and second shaving aids are mounted on the shaving cartridge in a first position by being moved in a direction perpendicular to the longitudinal axis. Cutting edges of shaving blades disposed in the shaving cartridge are uncovered and accessible through the first opening formed in the first wall when the adaptor is mounted on the shaving cartridge.

Replaceable shaving assemblies are disclosed that include a blade unit, an interface element configured to removeably connect the blade unit to a handle, on which the blade unit is pivotably mounted, and a return element disposed between the blade unit and interface element. The return element serves as interface piece, connector and pivot all in one. Shaving systems including such shaving assemblies are also disclosed, as are methods of using such shaving systems.

Replaceable shaving assemblies are disclosed that include a blade unit, an interface element configured to removably connect the blade unit to a handle, on which the blade unit is pivotably mounted, and an elastomeric element disposed between the blade unit and interface element. Shaving systems including such shaving assemblies are also disclosed, as are methods of using such shaving systems.

The present application is directed to a hand held wet body shaver. The body shaver includes a razor assembly with one or more cutting edges. The razor assembly is adjustable amongst a plurality of fixed settings, each setting dictating the usable length of the one or more cutting edges. The razor assembly is operationally configured maintain a desired alignment amongst its component parts at each fixed setting. The razor assembly is effective for shaving and trimming hair to various desired lengths.

A shaving handle system for holding a cartridge including a handle extending longitudinally along a longitudinal handle direction (L) between a distal end and a proximal end, and a connector adapted to rotate around a rocking axis (Z) with respect to the handle. The connector includes two lateral tongues extending forwardly from the proximal end of the handle, and the handle includes a deflecting means for flexing either one of the lateral tongues. The lateral tongues abut the deflecting means, such that when the connector is rotated in a first direction around the rocking axis (Z) with respect to the handle, one of the two lateral tongues is flexed by the deflecting means, and such that when the connector is rotated in a second direction around the rocking axis (Z) with respect to the handle, the other of the two lateral tongues is flexed by the deflecting means.

The present disclosure provides a smart shaving system with a 3D camera to assist the user of a shaving razor, which 3D camera is communicatively connected to the shaving razor and to a razor cartridge vendor platform via an Internet-of-Things (IoT) gateway. The 3D camera can be incorporated into the shaving razor, which razor has hardware/software capabilities to function as a N stand-alone Internet-of-Things (IoT) device. The 3D camera can be communicatively connected to the shaving razor and/or to a razor cartridge vendor platform via an Internet-of-Things (IoT) gateway to (i) assist the user to determine whether a particular skin surface area has been adequately shaved, and/or (ii) assist the user regarding the type of shaving cartridge and/or razor suited for the particular user's physical characteristics (e.g., skin and/or hair).

A method for generating user feedback information from a shave event associated with a user. A shaving razor is provided to user. The shaving razor includes a handle, a hair cutting implement connected to the handle, at least one motion sensor in the handle, a hair cutting implement displacement sensor positioned in the handle, a communication device positioned in the handle and a power source positioned in the handle. The power source powers the at least one motion sensor, the hair cutting implement displacement sensor and the communication device. Shave event data associated with the user during a shave is collected from the at least one motion sensor and the hair cutting implement displacement sensor. The shave event data is processed to generate user feedback information.

A trimming assembly for dreadlocks comprises a handle. A cutting head is operatively connected to the handle. The cutting head comprises a cutting head body defining a receptacle at a radial end thereof. The receptacle is structured to receive a dreadlock. A blade protector is positioned axially within the receptacle. A curvature of the blade protector corresponds to a curvature of an inner wall of the receptacle. A blade is interposed between the blade protector and the inner wall. The blade defines a cutting edge at an axial end thereof proximate to the handle. The cutting edge is structured to cut loose hair protruding outwards from the dreadlock as the cutting head is moved along the dreadlock.