A rotary shaver cutter mesh structure includes a cutter mesh body with a raised ring shaving track having outer and inner ring side faces, and a track top surface for connecting the faces, outer and inner hair inlet slots separated from each other in the shaving track, the outer hair inlet slots extend from the outer ring side face to the middle of the shaving track, the inner hair inlet slots extend from the inner ring side face to the middle of the shaving track, and outer and inner hair inlet slots distributed in a circumferential direction, the slots are staggered, and outer flared hair guide openings corresponding to the outer hair inlet slots and being used for guiding hair into the outer hair inlet slots are in a turning joint between the outer ring side face and the track top surface.

A rotary shaver cutter mesh structure includes a cutter mesh body with a raised ring shaving track having outer and inner ring side faces, and a track top surface for connecting the faces, outer and inner hair inlet slots separated from each other in the shaving track, the outer hair inlet slots extend from the outer ring side face to the middle of the shaving track, the inner hair inlet slots extend from the inner ring side face to the middle of the shaving track, and outer and inner hair inlet slots distributed in a circumferential direction, the slots are staggered, and outer flared hair guide openings corresponding to the outer hair inlet slots and being used for guiding hair into the outer hair inlet slots are in a turning joint between the outer ring side face and the track top surface.

Apparatus is described that includes a blade assembly (20) for conditioning ex vivo pericardial tissue from which fibers extend. The apparatus includes a blade head (26) that includes a blade a may (28) and a face (30) defining gaps (32) therein. The gaps are dimensioned to facilitate protrusion therethrough of fibers into the blade head, such that movement of the blade array, with respect to the face, shears the fibers. The blade assembly is configured to be used while the tissue and the blade array are submerged in a liquid (140) with the fibers facing upward, and with the face facing downward. The apparatus is configured to provide, while the blade array is submerged in the liquid, a suction force that sucks the liquid into the blade head via the gaps, and discharges a refuse liquid through a lateral exhaust hole (24). Other embodiments are also described.

The present invention provides for a shaving device and more specifically, to a portable, conical shaped shaving apparatus with a central element, top and bottom caps, and when assembled, the apparatus is designed to look like a cosmetic container.

A back and body hair cutting device has: a hair cutting part; and an elongate handle part. The handle part may be sized to permit a user to remotely manipulate the hair cutting part into contact with all areas of a back of the user. The hair cutting part may be a multidirectional cutting device, for example if the hair cutting part has a multi-directional motorized blade that is structured to define a plurality of directions of skin travel and configured to cut hair when advanced over a skin surface in each of the plurality of directions of skin travel.

A rotary electric shaver has a new structure which compatibly achieves both a function of the rotary electric shaver allowing a user to have less tingling feel on the skin and a function of a reciprocating electric shaver enabling easy deep shaving of hair, by replacing a first head. A rotary electric shaver includes a main body having a drive shaft and a connection part, a first head having a built-in first transmission drive system connected to the drive shaft to rotate a first inner blade, and detachably connected to the connection part, and a second head detachably connected to the connection part from which the first head is removed. The second head has a built-in second transmission drive system connected to the drive shaft to cause the second inner blade to reciprocate.

A rotary electric shaver has a new structure which compatibly achieves both a function of the rotary electric shaver allowing a user to have less tingling feel on the skin and a function of a reciprocating electric shaver enabling easy deep shaving of hair, by replacing a first head. A rotary electric shaver includes a main body having a drive shaft and a connection part, a first head having a built-in first transmission drive system connected to the drive shaft to rotate a first inner blade, and detachably connected to the connection part, and a second head detachably connected to the connection part from which the first head is removed. The second head has a built-in second transmission drive system connected to the drive shaft to cause the second inner blade to reciprocate.

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.

According to an aspect, there is provided a computer-implemented method for providing visual feedback to a user of a rotary shaver. The method comprises (i) receiving movement measurements representing movement of the rotary shaver during a shaving operation; (ii) processing the received movement measurements to determine a representation of a trajectory of movement of the rotary shaver during the shaving operation; (iii) processing the determined representation to project the representation onto a two-dimensional plane; (iv) generating a graphical user interface, GUI, the GUI including the projected representation and a graphical template comprising an annular target zone for a correct circular motion of the rotary shaver during the shaving operation; and (v) displaying the generated GUI using a display unit.

A shaving unit for a shaving apparatus has at least two cutting units each including an external cutting member having hair entry openings and an internal cutting member which is rotatable relative to the external cutting member about an axis of rotation. Each cutting unit has a housing accommodating a hair collection chamber. A cover portion of the housing is releasably coupled to a base portion. The external and internal cutting members are held in an operating position in the cover portion by a holding component which is releasably coupled to the cover portion. The base portion of the housing of each cutting unit has a supporting structure where, in the closed position of the housing, the external cutting member is directly supported by the supporting structure at least in an axial direction parallel to the axis of rotation.