A shaving razor system includes a razor handle that docks with a razor cartridge. The handle is configured to dock with the razor cartridge using a single hook configured to mate with a cartridge tab. A central pushrod is mounted with a spring into the handle and is configured to exert a pushing force on the mounted cartridge. To eject the cartridge, the single hook may be pushed to pivot to the side of the cartridge tab, and thereby release the razor cartridge by ejecting it with the spring loaded pushrod.

A cooling/heating shaver includes a cutter head, a handle, a blade group, a tactile sheet, a heat transfer block and an energy module; the blade group is detachably fixed on an outer side of the cutter head, and the energy module is disposed inside the cutter head; the tactile sheet is disposed on a side of the energy module close to the blade group, and the heat transfer block is disposed on the other side of the energy module; and the cutter head is connected to the handle.

A razor head may comprise one or more cutting members. The razor head of the first aspect further comprises a vibrating component configured to generate vibrations. The razor head of the present disclosure further comprises a structural element configured to transmit the vibrations from the vibrating component to the one or more cutting members. Furthermore, the vibrating component of the first aspect is disposed away from respective one or more cutting edges of the one or more cutting members towards an inner portion of the razor head, wherein the vibrating component is connected with the structural element. In the present disclosure, the structural element extends from the vibrating component towards the one or more cutting members.

A shaver according to an embodiment of the present invention for resolving issues comprises: a handle for gripping by a user; a power generation unit, attached to the handle, for generating rotational power; a power transmission unit which rotates by means of the rotational power generated in the power generation unit; a cartridge comprising a blade housing in which one or more blades are seated; and a power reception unit, on one surface of the cartridge so as to allow contact with the power transmission unit, for moving the blade housing linearly in accordance with the rotation of the power transmission unit, wherein the cartridge is coupled to the handle so as to allow pivoting around the pivot axis which is perpendicular to the rotational axis of the rotational power generated by the power generation unit, and the pivot axis is established so as to penetrate the power transmission unit.

A shaving razor system includes a razor handle that docks with a razor cartridge. The handle is configured to dock with the razor cartridge using a single hook configured to mate with a cartridge tab. A central pushrod is mounted with a spring into the handle and is configured to exert a pushing force on the mounted cartridge. To eject the cartridge, the single hook may be pushed to pivot to the side of the cartridge tab, and thereby release the razor cartridge by ejecting it with the spring loaded pushrod.

The present application is related to a razor handle including a top portion for connection to a blade assembly and a bottom portion with a flexible element reversibly deformable between a first configuration and a second configuration, where the flexible element presents, in the second configuration, a broader footprint than in the first configuration, for supporting the razor handle upright.

A handle for a shaving razor in which the handle comprises a frame and a movable member assembly operably coupled to the frame such that the frame is disposed between the movable member assembly and where the movable member assembly upper and lower portions are configured to move both above and below the frame. The movement can be linear or rotational. The movable member assembly comprises one or more springs.

A shaving blade assembly is provided. The shaving blade assembly comprises a blade, one or more blade retainers, a first resilient element pressing the blade against the blade retainer in a first direction along a first axis that is orthogonal to a cutting edge of the blade, and a first rack-and-pinion mechanism with a rack operationally coupled to the first resilient element and a pinion for actuating a motion of the rack along the first axis.

A shaving device comprising a handle and a removable cartridge, the handle comprising a gripping portion extending along an axis and a first coupling portion arranged at an axial end of the gripping portion, the removable cartridge comprising a shaving head and a second coupling portion, the first coupling portion and the second coupling portion being configured to be removably coupled together for assembling the removable cartridge with the handle, a first element among the first coupling portion and the second coupling portion comprising an auto-tightening spring device configured to lock a second element among the first coupling portion and the second coupling portion with the first element when the second coupling portion is moved axially toward the gripping portion and cooperates with the first coupling portion.

The present invention describes a novel spring mechanism for a razor. In the razor, the spring member may be disposed in a movable member assembly, portions of which may be used for ejection or pivoting. The spring may be fully encompassed within the assembly and be placed within supporting structures therein. The spring is a loop-shaped element having overlapping end portions with free distal ends. Alternately, the spring member is tear drop shaped loop shape with distal ends that are spaced apart. The spring may be disposed within a first and/or second movable member such as an eject button or a pivot member. A retarding structure on the spring provides a retarding force which is based on the interaction of the retarding structure with a protrusion on an assembly portion to keep the spring orientation intact. The spring is desirably comprised of stainless steel and is a flat wire.