This application is a national stage application of International Application No. PCT/EP2012/069885, filed on Oct. 8, 2012, which claims the benefit of International Application No. PCT/EP2011/067451 filed on Oct. 6, 2011, the entire contents of both applications being incorporated herein by reference.
The embodiments of the present invention relate to a razor head with blades having a low shaving angle.
In the field of mechanical wet shavers, it has long been provided with a shaver which has a head receiving one or more cutting members.
Recently, the trend has been to provide shavers with a multiplicity of blades with the goal of increasing the closeness of the shave that is achieved while also still providing a comfortable shaving experience. Shavers currently on the market strive to achieve an optimum balance between efficiency, closeness and comfort of a shave. Achieving this balance is made difficult because of many different types of hair, different shaving habits and variables of a razor cartridge that influence the shaving characteristics of a safety razor.
Efforts have been made to arrive at an optimal angle for the blades relative to a blade plane to achieve a shaving angle which provides efficiency, closeness and comfort.
An embodiment of the present invention includes a razor head that includes a housing having a top face defining a shaving window delimited by a front guard and a rear cap together defining a tangent plane, at least one rigid cutting member, each freely mounted in the housing, and having a cutting edge portion extending along a cutting edge portion axis, and having a cutting edge accessible through the shaving window, a guided portion extending along a guided portion axis, and a bent portion intermediate the cutting edge portion and the guided portion, where an angle measured between the cutting edge axis and the tangent plane is between 5° and 30°.
Surprisingly, tests have shown that, by providing the shaving angle in that range, optimal shaving performance could be achieved. Indeed, a low shaving angle allows the blade edges to come in contact with the hair closer to being parallel with the skin, increases the shaving comfort, and reduces skin irritation.
Other characteristics and advantages of the embodiments of the present invention will readily appear from the following description of some of its embodiments, provided as non-limitative examples, and of the accompanying drawings.
On the drawings:
On the different Figures, the same reference signs designate like or similar elements.
The shaving head 5 is to be borne by a handle extending in a longitudinal direction between a proximal portion and a distal portion bearing the blade unit 5 or shaving head. The longitudinal direction may be curved or include one or several straight portions.
The blade unit 5 includes an upper face 6 defining a shaving window, and equipped with one or several cutting members and a lower face 7 which is to be connected to the distal portion of the handle by a connection mechanism. The connection mechanism may for instance enable the blade unit 5 to pivot relative to a pivot axis X which is substantially perpendicular to the longitudinal direction. The connection mechanism may further enable to selectively release the blade unit for the purpose of exchanging blade units. One particular example of connection mechanism usable in the present invention is described in document WO-A-2006/027018, which is hereby incorporated by reference in its entirety for all purposes.
The blade unit 5 includes a frame 10 which is made solely of synthetic materials, i.e. thermoplastic materials (polystyrene or ABS, for example) and elastomeric materials.
More precisely, the frame 10 includes a plastic platform member 11 connected to the handle by the connection mechanism and having:
In the example shown in the figures, the guard bar 12 is covered by an elastomeric layer 16 forming a plurality of fins 17 extending parallel to the pivot axis X.
Further, in this particular example, the underside of the platform member 11 includes two shell bearings 18 which belong to the connection mechanism and which may be for example as described in the above-mentioned document WO-A-2006/027018.
In an embodiment, and such as represented on the drawings, the frame 10 further includes a plastic cover 19 having a top face and an opposite bottom face, which faces the top face of the components of the platform 11. The cover 19 exhibits a general U shape, with a cap portion 20 partially covering the rear portion 14 of the platform and two side members 21 covering the two side members 15 of the platform. In this embodiment, the cover 19 does not cover the guard bar 12 of the platform.
The cap portion 20 of the cover 19 may include a lubricating strip 23 which is oriented upward and comes into contact with the skin of the user during shaving. This lubricating strip may be formed for instance by co-injection with the rest of the cover. The cover 19 is assembled to the platform 11 by any suitable means, such as, for example, by ultra-sonic welding, as explained in WO 2010/06,654, hereby incorporated here in its entirety for all purposes.
The present description of a housing is exemplary only.
At least one cutting member 24 is movably mounted in the blade receiving section 13 of the platform. The blade receiving section 13 may include several cutting members 24.
In a first embodiment, and such as represented
Each cutting member 24 is made of a blade which is integrally formed from a flat steel strip.
In particular, one may use a martensitic stainless steel with the following composition (in weight):
Such an alloy has no more than traces of other components, and notably no more than traces of Molybdenum.
The cutting members are L-shaped such as represented on
Each blade 24 extends longitudinally, parallel to the pivot axis X, between two lateral sides 33, 33′. For example, the lateral sides are straight.
Each blade 24 has a bent profile including:
When the blade is mounted to slide in the head, the base portion is also sometimes called “guided portion”.
The cutting edge 26 is oriented forward in the direction of shaving. The cutting edge 26 is accessible through the shaving window of the blade-receiving section 13, to cut hair.
The cutting edge portion 39 extends along a cutting edge portion axis. Advantageously, the cutting edge portion axis of all cutting member are positioned parallel to each other. The frame 10 defines a tangent plane (or shaving plane) which corresponds to the plane tangential to the skin contacting surfaces of the frame behind and at front of the cutting edges. The cutting edge of the blades extends below the tangent plane P (see
As previously the, each bent blade 25 has an outer face 27 oriented towards the skin to be shaved and an opposed inner face 28. The outer and inner faces 27, 28 of the blade include respectively two parallel main surfaces 29, 30 and two tapered facets 31, 32 which taper towards the cutting edge 26. The two tapered facets form an edge angle, and the bisecting line of the edge angle is the cutting edge portion axis.
As shown in
The cutting members 24 are elastically biased by the elastic arms 44 toward a nominal position. In this nominal position, the outer faces 27 of the cutting member, and more precisely the cutting edge portion, at each lateral end of the cutting member, bear against corresponding upper stop portions 52 which are for example provided on the bottom stopping face of each side member 21 of the cover, the side member 21 covering the slots 45. In the nominal position an angle (also called shaving angle) may be measured between the cutting edge axis and the tangent plane defined by the front guard and the rear cap above-mentioned.
For movable bent blades of the type described above, a shaving angle of between 5° and 30° seemed to provide good results as described below. Better results are expected for a shaving angle between 12° and 27°, notably between 12° and 19°, and preferably between 12° and 18°.
Since the cutting edge portion axis of all cutting member are positioned parallel to each other, the angle between the cutting edge axis and the tangent plane is the same for all blades.
The guiding slots 45 define a direction Y for the razor head. The direction Z is the normal to the X-Y plane. The base portion 35 extends in a base portion plane. The base portion axis is the main axis of the base portion other than its profile axis, i.e. other than the X axis. In the present embodiment, it is the Y axis. In other words, the main axis along which the base portion extends is the same as the axis defined by the slots 45 in the razor head.
The cutting edge portion 39 extends in a cutting edge portion plane. The cutting edge portion axis is the main axis of the cutting edge portion other than its profile axis, i.e. other than the X axis. In the present embodiment, it is a U axis. In other words, the cutting edge portion axis extends in an X-U plane. A V axis is defined normal to the X-U plane.
To achieve the shaving, the user has to make into contact the razor head with his skin. As shown on
Upon shaving, a force Fs will also be applied to the cutting member along a direction Fs which is sensibly parallel to the tangent plane P. The cutting members are guided for movement in a direction perpendicular to the tangent plane through the slots 45.
The shape of the bent blades and their placement inside the slot 45 allows a degree of rotational movement of the blades with regard to the frame of the razor head. In other words, the whole blade rotates in the slot when there is force acting on the hair during hair or skin contact (i.e. there is a deformation of the slots 45 receiving the blades). The rotation tends to increase the shaving angle.
Moreover, the shape of the bent blades and their placement inside the slot 45 allows also a deflection movement of the blade (i.e. an elastic deformation of the blade itsef). More precisely, the shape of the bent blades and their placement inside the slot 45 allows a movement of the cutting edge portion with regard to the guided portion, such as shown on
Since the force applied to the cutting member is different in a position when the head contact the skin without moving (also called rest-position) and a movable position during shaving (also called shaving position), the rotation of the cutting edge portion is different, and therefore also the angle. In the shaving position, the rotation increases the nominal shaving angle.
More precisely on
As aforementioned, a low shaving angle in the range above-described allows a better blade edge penetration and usage convenience. The cutting edge portion of a blade with a shaving angle being under 30° comes in contact to the hair sensibly parallel to the skin. The hair cutting action is mainly performed by the cutting edge, i.e. the sharpest point of the blade. The resistance to cutting is therefore lower which means a better usage convenience for the user.
The angle ranges aforementioned decrease the irritation of the skin.
A shaving angle below 5° and more precisely below 12° or 13° for bent blade may cause the user an unacceptable level of discomfort. While shaving, a blade with a shaving angle below 5° for example will push the hair to be cut into a position with regard to the cutting edge of the blade in which a skive-cut occurs (i.e. e blade edge cuts into one side of a hair and, rather than cutting straight across the hair, cuts diagonally through the shaft, leaving one side of the hair longer than another side). By not cutting a hair cleanly, a user may need to shave more frequently, or increase the number of shaving strokes. Therefore the shaving angle of the present invention is advantageous above 5°, and even above 12° for bent blades to avoid such discomfort.
A bent blade is shown on
Following parameters are defined:
According to the first embodiment, a suitable razor blade shows the following geometric properties:
This value indicated for Hc is in fact an average between the value measured for Hc on both lateral sides of the blade. Due to the deformation of the blade, these two values were different, amounting in average to 0.81 mm and 0.85 mm, respectively. Hc might extend between 0.28 and 1.14 mm, preferably between 0.4 and 1 mm.
Other embodiments were successfully manufactured, which showed satisfactory. For example, parameters like α=112°, H=2.4 mm, Hc=0.96 mm show satisfactory.
Advantageously the cantilever dimension D is smaller than the distance between two adjacent cutting edges.
In a second embodiment, and such as represented
Each blade and blade support extend longitudinally, parallel to the pivot axis X. Similar features than those described above with regard to the first embodiment may be used in the second embodiment, for example blade material, or dimensions.
As previously noted, the razor blade has a cutting edge 260, and an opposed rear edge 261. The cutting edge 260 is oriented forward in the direction of the shaving. The cutting edge 260 is accessible through the shaving window of the blade receiving section 13, to cut hair. Each blade has an outer face 270 oriented toward the skin to be shaved and an opposed inner face 280. The outer and inner faces 270, 280 of the blade include respectively two parallel main surfaces and two tapered facets which taper toward the cutting edge 260. The two tapered facets form an edge angle, and the bisecting line of the edge angle is the cutting edge portion axis.
As previously the, each razor blade is fixed to a blade support 600. The blade support 600 includes:
When the cutting member is mounted to slide in the head, the base portion 350 is also sometimes called “guided portion”.
The frame 10 defines a tangent plane which corresponds to the plane tangential to the skin contacting surfaces of the frame behind and at front of the cutting edges.
Each cutting member 24 is borne by two elastic fingers which are molded as a single piece with the platform of the frame and which extend towards each other and upwardly from both side members 15 of the platform. For example, all the fingers extending from a given side member are identical. Besides, as shown in
The cutting members 24 are elastically biased by the elastic fingers toward a nominal position. More precisely, the blade supports 600 are elastically biased by elastic fingers toward a nominal position. In this nominal position, the outer faces 270 of the cutting member, and more precisely the cutting edge portion, at each lateral end of the cutting member, bear against corresponding upper stop portions which are for example provided on the bottom stopping face of each side member of the cover, the side member covering the slots 450. In the nominal position an angle (also called shaving angle) may be measured between the cutting edge axis and the tangent plane defined by the front guard and the rear cap above-mentioned.
For movable supported blades of the type described above, a shaving angle of between 5° and 30° seemed to provide good results. Better results are expected for a shaving angle between 5° and 20°, and notably between 5° and 18°.
Since the cutting edge portion axis of all cutting member are positioned parallel to each other, the angle between the cutting edge axis and the tangent plane is the same for all blades.
The guiding slots 450 define a direction Y for the razor head. The direction Z is the normal to the X-Y plane. The base portion 350 extends in a base portion plane. The base portion axis is the main axis of the base portion other than its profile axis, i.e. other than the X axis. In the present embodiment, it is the Y axis. In other words, the main axis along which the base portion extends is the same as the axis defined by the slots 450 in the razor head.
The blade (or cutting edge portion) 390 extends in a cutting edge portion plane. The cutting edge portion axis is the main axis of the cutting edge portion other than its profile axis, i.e. other than the X axis. In the present embodiment, it is a U axis. In other words, the cutting edge portion axis extends in an X-U plane. A V axis is defined normal to the X-U plane.
To achieve the shaving, the user has to make the razor head into contact with his skin. As shown on
Moreover, upon shaving and such as represented on
Moreover, the shape of the bent blades and their placement inside the slot 450 allows also a deflection movement of the blade with regard to the guided portion, such as shown on
In the shaving position, the rotation increases the nominal shaving angle such as shown
On
As aforementioned, a low shaving angle in the range above-described allows a better blade edge penetration and usage convenience. In the
The aforementioned angle ranges decrease the irritation of the skin.
A shaving angle below 5° may cause the user an unacceptable level of discomfort. While shaving, a blade with a shaving angle below 5° for example will push the hair to be cut into a position with regard to the cutting edge of the blade in which a skive-cut occurs (i.e. e blade edge cuts into one side of a hair and, rather than cutting straight across the hair, cuts diagonally through the shaft, leaving one side of the hair longer than another side). By not cutting a hair cleanly, a user may need to shave more frequently, or increase the number of shaving strokes. Therefore the shaving angle of the present invention is advantageous above 5° to avoid such discomfort.
With a shaving angle below 5° there is also a possibility of hydroplaning effect. Indeed, since the hair has a degree of elasticity, if the blade lies very close to being parallel to the skin it can press the hair downwards passing over it without any engagement and no cutting action, reducing shaving efficiency.
Such as shown
Following parameters are defined:
Dimensions Y1 and X1 form the main windows of through flow passage. The windows can be significantly reduced when the shaving angle is small, as shown
In the present description, features used for the first embodiment may also be used for the second embodiment, and vice versa. For example, the dimensions disclosed for bent blades may also be used for supported blades.
Number | Date | Country | Kind |
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PCT/EP2011/067451 | Oct 2011 | WO | international |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2012/069885 | 10/8/2012 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2013/050608 | 4/11/2013 | WO | A |
Number | Name | Date | Kind |
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4498235 | Jacobson | Feb 1985 | A |
5313706 | Motta | May 1994 | A |
5533263 | Gilder | Jul 1996 | A |
20030217469 | Coffin | Nov 2003 | A1 |
20050223568 | Walker et al. | Oct 2005 | A1 |
20070234576 | Masek et al. | Oct 2007 | A1 |
20150321366 | Papadopoulos-Papageorgis | Nov 2015 | A1 |
20150328788 | Ren | Nov 2015 | A1 |
Number | Date | Country |
---|---|---|
2009-540885 | Nov 2009 | JP |
WO 2007-147420 | Dec 2007 | WO |
WO 2009-057071 | May 2009 | WO |
WO 2009137389 | Nov 2009 | WO |
WO 2011062881 | May 2011 | WO |
Entry |
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International Search Report for PCT/EP2012/069885. |
Japanese Office Action dated May 23, 2016 for Japanese Application No. 2014-533942. |
Number | Date | Country | |
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20140283387 A1 | Sep 2014 | US |