Abstract: An additional part for a hand-held device for electrically assisted skin treatment includes a ring which is clippable onto the hand-held device. The additional part further includes an absorbent carrier material where the absorbent carrier material is soaked with an active ingredient and where the absorbent carrier material is fastened to the ring.
Abstract: An additional part for a hand-held device for electrically assisted skin treatment includes a ring which is clippable onto the hand-held device. The additional part further includes an absorbent carrier material where the absorbent carrier material is soaked with an active ingredient and where the absorbent carrier material is fastened to the ring.
Abstract: A hand-held device for electrically assisted skin treatment includes a skin electrode and a hand electrode. An absorbent carrier material is soaked with an active ingredient. The absorbent carrier material is fastened to a ring and the ring is clippable onto the hand-held device. The absorbent carrier material extends over the skin electrode when the ring is in a clipped-on state with respect to the hand-held device.
Abstract: A hand-held device for electrically powered skin treatment includes a housing which is adapted to be grasped by a hand of a user, a first outer electrode which is adapted to be in contact with the hand of the user when the device is held in the hand of the user for use, a second outer electrode disposed on a side of the housing where the second outer electrode is placeable on an area of skin to be treated, and an electrically operated vibrator where the electrically operated vibrator is fixed by a socket on a side wall of the housing and is adapted to vibrate the side wall together with the second outer electrode when operated so that during operation of the device, the device produces an intensified massaging effect on the area of skin to be treated.
Abstract: A hand-held device for electrically assisted skin treatment includes a skin electrode and a hand electrode. An absorbent carrier material is soaked with an active ingredient. The absorbent carrier material is fastened to a ring and the ring is clippable onto the hand-held device. The absorbent carrier material extends over the skin electrode when the ring is in a clipped-on state with respect to the hand-held device.
Abstract: A hand-held device for electrically powered skin treatment includes a housing which is adapted to be grasped by a hand of a user, a first outer electrode which is adapted to be in contact with the hand of the user when the device is held in the hand of the user for use, a second outer electrode disposed on a side of the housing where the second outer electrode is placeable on an area of skin to be treated, and an electrically operated vibrator where the electrically operated vibrator is fixed by a socket on a side wall of the housing and is adapted to vibrate the side wall together with the second outer electrode when operated so that during operation of the device, the device produces an intensified massaging effect on the area of skin to be treated.
Abstract: A hand-held device for electrically powered skin treatment is disclosed. The device includes a first outer electrode, a second outer electrode, and a plurality of rechargeable batteries. The plurality of batteries are disposed in a compartment where the compartment is covered by a shell-like housing cover and where an outside of the housing cover is a section of an exterior area of a device housing. The compartment is covered by a removable compartment cover where an inner side of the compartment cover is directed toward the plurality of batteries in the compartment and where a connector socket with at least two poles is disposed on an outer side of the compartment cover. The compartment cover is located within the housing cover. A charging circuit is coupled to the plurality of batteries.
Abstract: A hand-held device for electrically powered skin treatment is disclosed. Current is passed into the skin from an external electric circuit via an electrode so that active ingredients of a cream applied earlier to the skin can better penetrate into the skin. To aid this effect, a cap of the device, which functions as an electrode, is provided with a vibrator so that the electrode vibrates on the skin, thus working the cream into the skin.
Abstract: A hand-held device for electrically powered skin treatment is disclosed. The device includes a first outer electrode, a second outer electrode, and a plurality of rechargeable batteries. The plurality of batteries are disposed in a compartment where the compartment is covered by a shell-like housing cover and where an outside of the housing cover is a section of an exterior area of a device housing. The compartment is covered by a removable compartment cover where an inner side of the compartment cover is directed toward the plurality of batteries in the compartment and where a connector socket with at least two poles is disposed on an outer side of the compartment cover. The compartment cover is located within the housing cover. A charging circuit is coupled to the plurality of batteries.
Abstract: The invention relates to a hand-held device for electrically powered skin treatment, whereby current is passed into the skin from an external electric circuit via an electrode (20) so that active ingredients of a cream applied earlier to the skin can better penetrate into the skin. To aid this effect, a cap (9) of the device, which functions as an electrode (20), is provided with a vibrator (15) so that the electrode (20) vibrates on the skin, thus working the cream into the skin.