A modular blade cartridge insert is structured for receipt within a previously molded and designed plastic frame of a conventional multiblade razor cartridge. The modular insert includes a cage having an arrangement of blades positioned in parallel arrangement and electrically connected in series by bridge contacts between alternating adjacent pairs of blades. The modular insert further includes an anode and catode connector for electrical connection to an electrical circuit including a power source and a switch, wherein electric current flows to the anode and through the blades and then back through the catode in the electrical circuit, upon operation of the switch to an on position to close the circuit. In a further embodiment, the multiple blades in the cage of the modular insert are heated by RF energy.

A modular blade cartridge insert is structured for receipt within a previously molded and designed plastic frame of a conventional multiblade razor cartridge. The modular insert includes a cage having an arrangement of blades positioned in parallel arrangement and electrically connected in series by bridge contacts between alternating adjacent pairs of blades. The modular insert further includes an anode and catode connector for electrical connection to an electrical circuit including a power source and a switch, wherein electric current flows to the anode and through the blades and then back through the catode in the electrical circuit, upon operation of the switch to an on position to close the circuit. In a further embodiment, the multiple blades in the cage of the modular insert are heated by RF energy.

A heat delivery element for a shaving razor with a face plate having a skin contacting surface and an opposing inner surface. A heater having a heater track is positioned between an upper dielectric layer and a lower dielectric layer. A heat dispersion layer having a lower surface directly contacts the inner surface of the face plate. An upper surface of the heat dispersion layer directly contacts the lower dielectric layer of the heater. The heat dispersion layer has graphite foil compressed by 20% to 50% of an original thickness.

A heat delivery element for a shaving razor with a face plate having a skin contacting surface and an opposing inner surface. A heater having a heater track is positioned between an upper dielectric layer and a lower dielectric layer. A heat dispersion layer having a lower surface directly contacts the inner surface of the face plate. An upper surface of the heat dispersion layer directly contacts the lower dielectric layer of the heater. The heat dispersion layer has graphite foil compressed by 20% to 50% of an original thickness.

The present disclosure provides a razor cartridge including at least one shaving blade having a cutting edge, a blade housing configured to accommodate the at least one shaving blade aligned in a transverse direction, a heated area formed at the blade housing, and comprising at least one heating pattern made of a conductive material, and a non-heated area formed at the blade housing made of a material different from the heated area, wherein the conductive material included in the at least one heating pattern is a conductive plastic or metallic material, and wherein the heated area is configured to generate heat by receiving electric power from a power supply.

The present disclosure provides a razor cartridge including at least one shaving blade having a cutting edge, a blade housing configured to accommodate the at least one shaving blade aligned in a transverse direction, a heated area formed at the blade housing, and comprising at least one heating pattern made of a conductive material, and a non-heated area formed at the blade housing made of a material different from the heated area, wherein the conductive material included in the at least one heating pattern is a conductive plastic or metallic material, and wherein the heated area is configured to generate heat by receiving electric power from a power supply.

A razor includes a blade cartridge with multiple blades removably and pivotally attaches to a handle. The blade cartridge and handle include microprocessors for wireless communication between the handle and blade cartridge, via near field communication or RFID. A charging base allows for charging a rechargeable power source in the handle and is further adapted to communicate with a smartphone, computer or other electronic device via wired and/or wireless communication. A mobile application on the smartphone is able to communicate with the charging base, while also providing for wired or wireless communication with remote servers/cloud infrastructure and/or the Internet.

A razor includes a blade cartridge with multiple blades removably and pivotally attaches to a handle. The blade cartridge and handle include microprocessors for wireless communication between the handle and blade cartridge, via near field communication or RFID. A charging base allows for charging a rechargeable power source in the handle and is further adapted to communicate with a smartphone, computer or other electronic device via wired and/or wireless communication. A mobile application on the smartphone is able to communicate with the charging base, while also providing for wired or wireless communication with remote servers/cloud infrastructure and/or the Internet.

A razor having a handle and blade cartridge containing one or more blades includes a battery power source and a heating system powered by the battery source for heating the one or more blades and/or a heating element on the blade cartridge. The blade cartridge further includes a strip of lubricating material thereon that is heated by the heating system when the blades and/or heating element warm up. As the strip of lubricating material is warmed up, it provides a release of extra lubricating chemicals, including fats or other lubricating agents. This helps to provide a more comfortable shave while also protecting the user's skin both during shaving and after shaving.

A razor having a handle and blade cartridge containing one or more blades includes a battery power source and a heating system powered by the battery source for heating the one or more blades and/or a heating element on the blade cartridge. The blade cartridge further includes a strip of lubricating material thereon that is heated by the heating system when the blades and/or heating element warm up. As the strip of lubricating material is warmed up, it provides a release of extra lubricating chemicals, including fats or other lubricating agents. This helps to provide a more comfortable shave while also protecting the user's skin both during shaving and after shaving.