An oscillatory linear actuator includes: an output movable element which is reciprocated by a periodically varying magnetic field and performs work on an object; and a vibration absorbing movable element which is reciprocated at a phase opposite to a phase of the output movable element and reduces vibration of the oscillatory linear actuator. The vibration absorbing movable element is lighter in weight than the output movable element.

A pivot motor for a hair clipper is provided, including a stator with a plurality of laminations, a bobbin located in operational relation to the stator and having a coil of wire wound around the bobbin, an armature being configured for driving a hair clipper moving blade at one end, and having at least one magnet at an opposite end, the armature having a pivot point, and the motor being configured for operation between 2.5 and 4.2 Volts

A shaving system includes a shaving device and a cleaning device. The cleaning device includes a receiving space for receiving the shaving device and a reservoir that contains a cleaning liquid. When the shaving device is placed in a cleaning position, the shaving device and the cleaning device are arranged in a manner that the receiving space of the cleaning device receives a shaving unit of the shaving device. In this cleaning position, the devices are arranged and cooperate such that the fluid is transported from the reservoir to the receiving space, where the shaving unit is located. In this way, the shaving unit can be cleaned.

A shaving system comprising a shaving device and a cleaning device (14) is disclosed, wherein the shaving device comprises a main housing and a shaving unit coupled to the main housing, wherein the main housing accommodates an electric actuator and a first drive unit drivable by the electric actuator, the shaving unit comprising at least one hair-cutting unit and a second drive unit coupled to the first drive unit and to the hair-cutting unit such that the hair-cutting unit is drivable by the electric actuator via the first and second drive units; wherein the cleaning device (14) comprises a supporting structure (15) for supporting the shaving device, and a receiving space (28) for receiving the shaving unit when the shaving device is arranged in a cleaning position supported by the supporting structure (15); and wherein the cleaning device (14) comprises a reservoir (32) for containing a cleaning liquid and a fluid pumping unit (48) for transporting the cleaning liquid from the reservoir (32) to the receiving space (28); wherein the shaving device comprises a driving coupling member which is accessible from an outside of the shaving device and drivable by the shaving device; wherein the cleaning device (14) comprises a driven coupling member (30) which is accessible from an outside of the cleaning device (14), and a third drive unit (50) coupled to the driven coupling member (30) and to the fluid pumping unit (48) such that the fluid pumping unit (48) is drivable by the driven coupling member (30); and wherein the driving coupling member and the driven coupling member (30) are arranged such that, in the cleaning position of the shaving device, the driven coupling member (30) is coupled to the driving coupling member such that the fluid pumping unit is drivable by the driving coupling member.

The present invention relates to electric appliances for personal care, in particular electric shavers, comprising a drive unit having first and second drive components adapted to magnetically interact with each other, and a magnetic shielding at least partially surrounding the drive unit. Said magnetic shielding is formed by structural parts supporting the drive unit and/or transmitting drive movements of the drive unit, wherein such structural parts are made of a soft magnetic material. More particularly, a mounting frame and a transmitter frame together form a magnetic shielding cage which is movable as the mounting frame and the transmitter frame are movable relative to each other.

A hair clipper bladeset includes a stationary blade having a front, stationary toothed edge and an opposite, stationary rear edge, the stationary blade defining a transverse track, a moving blade having a front, moving toothed edge and an opposite, moving rear edge, and a lower blade guide disposed between the moving blade and the stationary blade and configured for reciprocating in the track and maintaining lateral alignment of the moving blade relative to the stationary blade during lateral reciprocating movement of the moving blade. The moving blade has an engagement formation. An upper blade guide connects with the engagement formation for moving with the moving blade in the lateral reciprocating movement. A drive arm has a blade end operatively engaging the upper blade guide, and an opposite follower end configured for receiving a hair clipper drive element, the drive arm pivots about a drive post located on the stationary blade.

A shaving system comprising a shaving device and a cleaning device (14) is disclosed, wherein the shaving device comprises a main housing and a shaving unit coupled to the main housing, wherein the main housing accommodates an electric actuator and a first drive unit drivable by the electric actuator, the shaving unit comprising at least one hair-cutting unit and a second drive unit coupled to the first drive unit and to the hair-cutting unit such that the hair-cutting unit is drivable by the electric actuator via the first and second drive units; wherein the cleaning device (14) comprises a supporting structure (15) for supporting the shaving device, and a receiving space (28) for receiving the shaving unit when the shaving device is arranged in a cleaning position supported by the supporting structure (15); and wherein the cleaning device (14) comprises a reservoir (32) for containing a cleaning liquid and a fluid pumping unit (48) for transporting the cleaning liquid from the reservoir (32) to the receiving space (28); wherein the shaving device comprises a driving coupling member which is accessible from an outside of the shaving device and drivable by the shaving device; wherein the cleaning device (14) comprises a driven coupling member (30) which is accessible from an outside of the cleaning device (14), and a third drive unit (50) coupled to the driven coupling member (30) and to the fluid pumping unit (48) such that the fluid pumping unit (48) is drivable by the driven coupling member (30); and wherein the driving coupling member and the driven coupling member (30) are arranged such that, in the cleaning position of the shaving device, the driven coupling member (30) is coupled to the driving coupling member such that the fluid pumping unit is drivable by the driving coupling member.

The present invention relates to electric shavers, handpieces of such shavers and a method of manufacturing such electric shavers. More particularly, the present invention relates to a shaver set comprising a plurality of electric shavers.

The present invention relates to the field of small electrical appliances such as battery powered electrical appliances for personal hygiene, in particular to a hair removal device such as an electric shaver or epilator as well as an electric toothbrush. The small electrical appliance comprises an electric load, wherein the electric load heats up during operation; a measuring circuitry for measuring an electrical parameter of the electric load; a temperature sensor arranged spatially separated from the electric load; and control circuitry adapted to protect the electric load from overheating by controlling the electric load based on the electrical parameter of the electric load and an output of the temperature sensor.

Electrical hair removal device and method for determining the time behavior of a cyclic motor process during use of the electrical hair removal device with a motor-driven hair cutting unit by measuring the motor current. Parallel to measuring the motor current, the induced voltage of the motor is measured and a timing property of the induced voltage is evaluated, wherein the duration of a time pattern in the induced voltage is analyzed as timing property of the induced voltage. A cutting activity of the electrical hair removal device during use is determined based on the evaluated timing property of the induced voltage, and a force applied onto skin during use of the electrical hair removal device is determined based on the measured motor current and, optionally, on the determined cutting activity.