A vibrating razor includes a handle, a razor blade and a flat-type vibration motor. The handle includes a front end having a receiving slot provided thereon; wherein the receiving slot includes a bottom wall. The razor blade is arranged at the front end of the handle. The flat-type vibration motor is arranged within the receiving slot and includes an outer shell with a cover; wherein the cover includes an external protruding dot on one side of an outer surface thereof. The flat-type vibration motor contacts the bottom wall of the receiving slot via the external protruding dot. Therefore, the external protruding dot can be utilized to increase the vibration strength of the razor blade as the flat-type vibration motor rotates to impact the bottom wall of the receiving slot.

A vibrating razor includes a handle, a razor blade and a flat-type vibration motor. The handle includes a front end having a receiving slot provided thereon; wherein the receiving slot includes a bottom wall. The razor blade is arranged at the front end of the handle. The flat-type vibration motor is arranged within the receiving slot and includes an outer shell with a cover; wherein the cover includes an external protruding dot on one side of an outer surface thereof. The flat-type vibration motor contacts the bottom wall of the receiving slot via the external protruding dot. Therefore, the external protruding dot can be utilized to increase the vibration strength of the razor blade as the flat-type vibration motor rotates to impact the bottom wall of the receiving slot.

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.

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.

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 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.