CLIPPERS FOR NOSE AND EAR HAIRS

Abstract

The present invention relates to motorized clippers for hairs growing in the nose and ear cavities, comprising a shaving head with a moving blade (5) and a stationary blade (6), the stationary blade having slots (7) for penetration of the hairs on the front face (2) and on the side face (3) viewed in the direction of introduction of the shaving head into the cavity to be clipped, and said stationary blade also comprising slots for the penetration of hairs on the rear face (4) allowing cutting also of the hairs during withdrawal of the shaving head from the cavity to be clipped.

Claims

1. A motorized clipper for hair growing in the nose and ear cavities, which comprises: a shaving head including a moving blade and a stationary blade, the stationary blade having slots for the penetration of the hairs on the front face and on the side seen in the shaver head introduction direction into the cavity to be shaved, said stationary blade includes also slots for the penetration of the hairs on the rear face allowing cutting of hair also during the withdrawal of the shaving head from the cavity to be shaved.

2. The clipper according to claim 1, wherein the stationary head has overall a truncated dual cone shape.

3. The clipper according to claim 1, wherein said head includes a single spring configured to bias the moving blades against the front and rear faces of the shaving head.

4. The clipper according to claim 1, is characterized by the fact that wherein the stationary blade comprises an opening in the center of its front face.

5. The clipper according to claim 1, wherein the stationary blade comprises an opening in the center of its front face and a driving cylinder has an opening on its side face.

6. The clipper according to claim 1, wherein the slots for the penetration of hair in the stationary blade form a cutting angle in a radial direction and with respect to a rotation axis of the said shaving head.

7. The clipper according to claim 1 wherein the slots for penetration of hair in the stationary blade extend uninterrupted between the front and rear faces through the side.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0015] FIG. 1 schematically shows the NEC usability according to the state of the art. The absence of hair penetration slots on the back of the stationary head only allows cutting the hairs growing in the shaving head penetration direction in the nasal orifice in this case. With the slots only in the front, the shaving head can capture no hair by withdrawing from the nasal orifice, which reduces its effectiveness. This mode of use therefore favors cutting against the grain which is ineffective if the hair is inclined towards the inside of the cavity.

[0016] FIG. 2 shows schematically the usability of a NEC according to the invention. The additional presence of hair penetration slots on the back side of the clipper head allows cutting hair in the nasal orifice penetration direction as well as in the withdrawal direction. The shaving head can also capture the hairs by withdrawing from the nasal orifice, by straightening the hairs that go up into the cavity, which increases its effectiveness.

[0017] FIGS. 3 and 4 represent the possible uses of the NEC according to the invention for the ears and the nose. The NEC according to the invention shaves in the penetration direction as well as in the withdrawal hole direction.

[0018] FIG. 5 shows a cross section of a NEC head operating mode according to the invention.

[0019] FIG. 6 represents a view in three dimensions with a partial section showing the layout of the elements inside the head and the penetration slots both on the front, side and rear sides of the head in the penetration direction. In this operation method, the head generally takes a form of a truncated dual cone.

[0020] FIG. 7 shows an exploded view of the invention NEC head operating mode with its constituent elements. The spring pushes the blades against the front and rear faces of the stationary blade.

[0021] FIG. 8 shows front and plan views of the NEC stationary blade according to the invention.

[0022] FIG. 9 shows a 3D overview of a NEC operating mode according to this invention with its handle which incorporates a motor and a rechargeable battery or a battery. The handle can take different forms, and its form is only limited by practical gripping considerations.

[0023] FIG. 10 represents an open-ended set of NEC shaving heads according to this invention. All these heads have the feature where the stationary blade not only has front and side penetration slots on the parts but also on the back of the head in the penetration direction into the hole to be shaved.

[0024] FIG. 11 shows another operating mode according to the invention with an opening in the center of the stationary blade facilitating rinsing with water.

[0025] FIG. 12 has the same operating mode as that of FIG. 11, but with an additional opening on the mobile knife drive cylinder allowing the passage of the rinsing water.

LIST OF REFERENCE SYMBOLS

[0026] 1. NEC shaving head [0027] 2. NEC head front face (front part of the head) [0028] 3. NEC head side face [0029] 4. NEC head rear face [0030] 5. Stationary blade [0031] 6. Mobile blade [0032] 7. Hair penetration slots [0033] 8. Spring [0034] 9. Handle [0035] 10. Drive cylinder [0036] 11. Mobile blade support device [0037] 12. Opening on the stationary blade [0038] 13. Opening on the drive cylinder

DETAILED DESCRIPTION OF THE INVENTION

[0039] The origin of this invention lies in the observation that state of the art nose and ear clippers (NEC) shave the nose and ear hairs in the direction of the penetration of the shaving head in the ports concerned. This is simply due to the lack of slots for the penetration of the hair in the stationary blade on all sides of the head. On the state of the art NEC heads, the penetration slots are generally located on the front side, i.e. the front face of the head in the direction of the penetration into the cavity to be shaved, the slots usually overflow a bit on the side faces as shown in FIG. 1.

[0040] To increase the shaving efficiency, this invention offers a NEC with a shaving head with slots for the penetration of the hair on the set of faces of the stationary blade, so also on the back side which allows to considerably increase the shaving efficiency and to limit the number of back and forth movements for the same result.

[0041] FIG. 10 represents an open-ended set of NEC shaving heads according to the main characteristics of this invention. The presence of slots for the penetration of the hair on a large part of the front, side and rear also increases the accessibility of the rinse water to the moving blade to clean the head.

[0042] Preferably, the mobile blades 5 hair penetration slots 7 extends uninterrupted between the front 2 and rear 4 faces passing through the side face 3. The slots are therefore not interrupted by a potential gap between the face 2, side 3 and back 4 slots allowing them to function as a comb which is the desired effect.

[0043] To further improve head cleaning ease, we can provide an opening 12 on the stationary blade 5 central part dome and even associate it with an additional opening on the drive cylinder 13 to ensure a water flow through the device when rinsing.

[0044] The mobile blades 6 are pushed by a single spring 8 against the inner wall of the stationary blade 5, when it has a dual cone shape. The state of the art stationary blades usually need two springs, one spring to push in the direction of the rotation axis direction, and another for the thrust in the direction perpendicular to the rotation axis.

[0045] To avoid that the mobile blades enter the slots for the stationary blade 5 hair penetration, they make a cutting angle with the radial direction of the shaving head; to improve the cut, they also form an angle with said shaving head rotation axis.

[0046] The device according to the invention can be equipped with one or several luminescent electrodes to illuminate the holes to be shaved.