A hair removal apparatus constituted of: an elongated heating element constituted of a material which generates heat responsive to electric power being applied thereto; and a hair adjustment unit comprising: a first elongated member generally in parallel with the elongated heating element, a second elongated member generally in parallel with the elongated heating element, and a plurality of extension members extending from the second elongated member, away from the first elongated member, the elongated heating element positioned between the first elongated member and the extension members, wherein each extension member exhibits a base end and a tip end, each extension member extending from the second elongated member at the base end towards the tip end, and wherein a first face of each of the plurality of extension members, at the tip ends, and a face of the first elongated member define a plane.

A razor blade head for shaving, comprising a razor blade element, a bracket mounted to the razor blade element and a manual control element configured to enable a user to apply force from a side of the bracket opposite to the razor blade element, the force transferred from the manual control element to the razor blade element via the bracket, wherein the bracket is configured to define an opening between the manual control element and the razor blade element.

A hair cutting device of the present disclosure comprises an optical waveguide and a holding member that holds the optical waveguide. The optical waveguide comprises a light irradiator. The light irradiator irradiates hair protruding from skin with light to cut the hair. The holding member holds the optical waveguide in such a way that the light irradiator is exposed from at least one surface. As a result, even when the hair or the skin comes in contact with the light irradiator, misalignment or the like of the optical waveguide hardly occurs. This results in the improved hair cutting device being provided.

A hair removal and re-growth suppression apparatus (10) constituted of: a control circuitry (70); a removal and suppression head (20); an extender assembly (23) coupled to the head (20) and extending away from a wall of the head (20) towards an end thereof, the extender assembly defining an opening (17) at an end thereof removed from the wall of the head (20); an irradiating element (40) secured to the head (20) responsive to the control circuitry (70); a reflector (90) disposed on the head (20) between the irradiating element (40) and the head (20); and a cutting element (110) secured to the head (20) and arranged to cut hair when the opening (17) is juxtaposed with a skin portion (140) having a hair (150) extending outward there from, wherein the reflector (90) is arranged to substantially reflect the output electromagnetic radiation toward the opening (17). Optionally, the irradiating element (40) is regularly translated between a first and a second position to heat and cut the hair without damaging the skin.

The present disclosure discloses a depilator including a head portion and a hand-held portion. The head portion includes a cold compressing portion and an illuminating portion. The illuminating portion is configured for emitting light for caring for a skin of a user. The hand-held portion includes a hair removal device, a heat conducting portion and a cool driving portion. The hair removal device emits light to the cold compressing portion. The heat conducting portion absorbs heat of the cold compressing portion. The cool driving portion drives the external cooling medium to take away the heat of the heat conducting portion. The cold compressing portion emits light to irradiate the hair follicles of the skin of the user, and uses the light to penetrate the skin to irradiate the hair follicles for hair removal. Therefore, the hair device has both functions of hair removal and skin care.

The present disclosure provides a hair removing device, including: a reflector, a light source, a first light-transmitting body, a heat dissipation base and a refrigerating member. The light source is arranged inside the reflector and can emit light. The reflector can reflect light, such that the hair removing device can emit light to remove the hair from the skin. The first light-transmitting body and the reflector cooperatively define a cavity to receive the light source. A body of the light source is suspended in the cavity. Two sides of the heat dissipation base are thermally coupled to the reflector and the refrigerating member respectively.

The present disclosure provides a hair removing device, including: a reflector, a light source, a first light-transmitting body, a heat dissipation base and a refrigerating member. The light source is arranged inside the reflector and can emit light. The reflector can reflect light, such that the hair removing device can emit light to remove the hair from the skin. The first light-transmitting body and the reflector cooperatively define a cavity to receive the light source. A body of the light source is suspended in the cavity. Two sides of the heat dissipation base are thermally coupled to the reflector and the refrigerating member respectively.

The disclosure provides a grey hair removal component, and a grey hair removal comb and a grey hair removal system composed of several grey hair removal components. The grey hair removal component includes at least one housing, and at least one identification unit and a grey hair removal unit arranged within the housing (0), and further includes a sensing unit arranged at an end of the housing, and the sensing unit responds to the contact of the component with a scalp and outputs a start signal; the identification unit identifies a grey hair in response to the start signal and outputs a removal signal; and the grey hair removal unit removes the identified grey hair based on the removal signal. By means of using the grey hair removal component and the grey hair removal system to scan the surface of the entire scalp (9), the aims of removing all grey hair and leaving colored hair can be achieved, and enhancing the personal appearance of a user.

A hair removal apparatus constituted of: an elongated heating element constituted of a material which generates heat responsive to electric power being applied thereto; and a hair adjustment unit comprising: a first elongated member generally in parallel with the elongated heating element, a second elongated member generally in parallel with the elongated heating element, and a plurality of extension members extending from the second elongated member, away from the first elongated member, the elongated heating element positioned between the first elongated member and the extension members, wherein each extension member exhibits a base end and a tip end, each extension member extending from the second elongated member at the base end towards the tip end, and wherein a first face of each of the plurality of extension members, at the tip ends, and a face of the first elongated member define a plane.

There is provided a method of manufacturing a cutting element for use in a hair cutting device, the cutting element comprising an optical waveguide, the method comprising providing a preform for an optical waveguide, the preform comprising a core and an outer layer, wherein the outer layer is arranged around the core along the length of the core; forming a shaped preform by removing a portion of the outer layer along the length of the core to expose part of the core, wherein a remaining portion of the outer layer is a support structure for the core; heating the shaped preform; and pulling the shaped preform in the direction of the axis of the core to reduce the cross-section of the shaped preform and form the optical waveguide. Also provided is a cutting element manufactured according to the above method and a cutting element for use in a hair cutting device, the cutting element comprising an optical waveguide comprising a core and a support structure, wherein the support structure contacts the core along the length of the core to support the core, and wherein part of the core is exposed along the length of the core to form a cutting face for contacting hair. The thickness of the support structure tapers linearly or non-linearly from a thin side at which the support structure contacts the core to a thick side.