FIELD OF THE INVENTION

The invention generally relates to razor blade cartridges and more particularly to razor blade cartridges having razor blades with a skin contacting shoulder.

BACKGROUND OF THE INVENTION

Razor cartridges typically comprise a cartridge housing including cap and guard structures and one or more razor blade assemblies located between the cap and guard structures. A plane may extend between the upper surfaces of the cap and guard structures to define a shaving plane. The razor blade assemblies typically comprise razor blades having a symmetrical shape. It is well known that the shaving geometry of a razor cartridge is important in determining the shaving performance of the cartridge. The shaving geometry defines the position and orientation of the blades in relation to other skin contacting parts, in particular, the cap structure and guard structure of the razor cartridge. One parameter of the shaving geometry is blade exposure, which is the perpendicular distance by which the cutting edge of a blade protrudes above or below the shaving plane. While current razor blades perform adequately, in order for next generation products to perform better, improvements in shaving geometry such as blade shape can be made.

SUMMARY OF THE INVENTION

In accordance with a first aspect of the disclosure, a razor cartridge is provided comprising: a housing and a blade assembly mounted to the housing. The blade assembly may comprise at least one razor blade defined by a substrate comprising a first portion and a second portion. The first portion may comprise first and second outer surfaces. The second portion may comprise first and second sections separated by a split line. The first section may comprise a first facet and an end facet. The second section may comprise an end facet. The end facets of the first and second sections may converge at a tip to define a cutting edge. A shoulder may be positioned between the first facet and the end facet of the first section and define a skin-contacting surface.

The end facet of the second section may comprise a second facet and the end facet of the first section may comprise a third facet.

The second section may further comprise a second facet extending from the second outer surface of the first portion. The end facet of the second section may comprise a fourth facet and the end facet of the first section may comprise a third facet. The end facet of the second section may be located closer to the split line than the first facet and the end facet of the first section.

The first and second outer surfaces of the first portion of the substrate may be generally parallel to one another and the split line may pass through the tip and may be generally parallel to the first and second outer surfaces of the first portion.

The first and second sections of the second portion may define asymmetric first and second sections.

The first facet may extend directly from the first outer surface of the first portion.

The housing may comprise a cap structure and a guard structure. A shaving plane may be defined between the cap structure and the guard structure. The blade assembly may further comprise a blade support member to which the razor blade substrate is coupled. The blade support member may be configured such that the shoulder positioned between the first facet and the end facet of the first section is positioned in or near the shaving plane. The shoulder may be positioned near the shaving plane when the shoulder is located above or below the shaving plane by a distance less than about 0.2 mm and less than about 0.5 mm, respectively, from the shaving plane.

The cartridge may further comprise first and second clips mounted to the housing and engaging opposing ends of the shoulder of the substrate defining the razor blade to secure the razor blade within the housing.

In accordance with a second aspect of the present disclosure, a razor cartridge is provided comprising a housing; a first blade assembly mounted to the housing, the first blade assembly comprising a first razor blade; and a second blade assembly mounted to the housing, the second blade assembly comprising a second razor blade. At least one of the first razor blade or the second razor blade may be defined by a substrate comprising a first portion comprising first and second outer surfaces and a second portion comprising first and second sections separated by a split line. The first section may comprise a first facet and an end facet. The second section may comprise an end facet. The end facets of the first and second sections may converge at a tip to define a cutting edge. A shoulder may be positioned between the first facet and the end facet of the first section and defines a skin-contacting surface.

The end facet of the second section may comprise a second facet and the end facet of the first section may comprise a third facet.

The second section may further comprise a second facet extending from the second outer surface of the first portion. The end facet of the second section may comprise a fourth facet and the end facet of the first section may comprise a third facet. The end facet of the second section may be located closer to the split line than the first facet and the end facet of the first section.

The first and second outer surfaces of the first portion of the substrate may be generally parallel to one another and the split line may pass through the tip and may be generally parallel to the first and second outer surfaces of the first portion.

The first and second sections of the second portion may define asymmetric first and second sections.

The first facet may extend directly from the first outer surface of the first portion.

The housing may further comprise a cap structure and a guard structure. A shaving plane may be defined between the cap structure and the guard structure. The first blade assembly may further comprise a blade support member to which the first razor blade is coupled. The blade support member may be configured such that the shoulder of the substrate defining the first razor blade is positioned in or near the shaving plane. The shoulder may be positioned near the shaving plane when the shoulder is located above or below the shaving plane by a distance less than about 0.2 mm and less than about 0.5 mm, respectively, from the shaving plane.

The cartridge may further comprise first and second clips mounted to the housing and engaging opposing ends of the shoulder of the substrate defining the first razor blade to secure the first razor blade in the housing.

A shaving plane may be defined for the first razor blade by a plane extending from an uppermost surface portion of a skin contacting element in front of and behind the cutting edge of the first razor blade. The first blade assembly may further comprise a blade support member to which the first razor blade is coupled. The blade support member may be configured such that the shoulder of the first razor blade is positioned in or near the shaving plane.

BRIEF DESCRIPTION OF THE DRAWINGS

While the specification concludes with claims particularly pointing out and distinctly claiming the subject matter which is regarded as forming the present invention, it is believed that the invention will be better understood from the following description which is taken in conjunction with the accompanying drawings in which like designations are used to designate substantially identical elements, and in which:

Fig. 1 is a front view of a razor system comprising a handle and a razor cartridge in accordance with the present disclosure; Fig. 2A is a cross-sectional view of the razor cartridge of Fig. 1 ;

Fig. 2B schematically illustrates cap and guard structures and first, second, third, fourth and fifth razor blade assemblies of a razor cartridge of the present disclosure;

Fig. 3A is a cross-sectional side view of an asymmetrical razor blade in accordance with a first embodiment of the present disclosure;

Fig. 3B illustrates an enlarged view of a tip portion of the razor blade of Fig. 3A;

Fig. 3C illustrates a bevel shoulder on the razor blade of Figs. 3A and 3B located in a shaving plane;

Fig. 3D is a view taken along view line 3D-3D in Fig. 3A;

Fig. 4A is a cross-sectional side view of an asymmetrical razor blade in accordance with a second embodiment of the present disclosure; and

Fig. 4B illustrates an enlarged view of a tip portion of the razor blade of Fig. 4A.

DETAILED DESCRIPTION OF THE INVENTION Introduction

The term “asymmetric blade,” as used herein, means a blade defined by a substrate having a first portion comprising a blade body and a second portion comprising a tip portion wherein a split line passes through a tip of the tip portion, extends through the first and second portions and separates the second portion into generally asymmetric first and second sections. The outer surface of the first section of the second portion is asymmetric with regards to the outer surface of the second section. The outer surface of the first section of the second portion may function as a skin contacting surface, and the outer surface of the second section of the second portion may function as a hair-cutting surface.

A “bevel shoulder,” “bevel shoulder structure,” or “shoulder” which can be used interchangeably, are used herein to signify the structure on the outer surface of the first section of the second portion of the substrate of the razor blade. The bevel shoulder structure is disposed where facets meet in the first section, and the bevel shoulder defines a significant portion of the skin-contacting surface of the blade. The bevel shoulder can be smooth, rounded, or angled and is generally a linear structure running parallel to a cutting edge. The bevel shoulder structure of the present invention performs the bulk of the skin-contacting function of the blade and, hence, takes pressure off the tip. In providing minimal to no tip pressure, the shoulder provides a highly defined skin-guarding benefit built into the first section. In asymmetric blades with bevel shoulders on the outer surface of the first section of the second portion of the substrate of the blade of the present invention, cutting forces can remain much lower than if the blade substrate were symmetric. This is due to the fact that there is desirably substantially no bevel shoulder, or minimal shoulder, on the hair cutting side (e.g., second section of the second portion). Having a prominent bevel shoulder on the second section, the section which dominates hair cutting efficacy, would disadvantageously increase the hair cutting forces. The bevel shoulder of the present invention will be described in more detail below.

A “split line,” as used herein, means a line extending through the tip of the tip portion of the blade substrate, separates the second portion into asymmetrical first and second sections and is generally parallel with first and second generally parallel outer surfaces of the first portion defining the blade body of the blade substrate.

A “shaving plane,” as used herein, means a plane extending between upper surfaces of a cap structure of a razor cartridge housing and a guard structure of the razor cartridge housing. The “shaving plane” can be a plane tangent to each of the cap structure and guard structure. In some embodiments, not all of the cap structure, guard structure and uppermost surface portions of the razor blades in a razor cartridge will be located within a same plane. For such embodiments, “shaving plane,” as used herein, is intended to mean a plane extending between the uppermost surface portions of two skin contacting elements, one immediately in front of and one immediately behind the razor blade tip of the razor blade. For a first blade in a sequence of blades, the shaving plane is defined by a plane extending from an upper surface, i.e., uppermost surface portion, of the guard structure on a first side of the first razor blade tip and an uppermost surface portion of a skin contacting element directly adjacent to and on a second side of the first blade tip. For an intermediate blade in a sequence of blades, the shaving plane is defined by a plane extending from the uppermost surface portions of adjacent skin contacting elements on either side of the intermediate razor blade tip. In the present invention where the uppermost surface portion on a razor blade may be defined by the bevel shoulder, the uppermost surface portion of the skin contacting element immediately behind the razor blade tip of the razor blade may comprise the razor blade’s bevel shoulder. An uppermost surface portion on a skin contacting element on either side of a razor blade tip can be an uppermost surface on an adjacent razor blade, an element on the razor blade itself (such as a bevel shoulder), or a guard structure. For razor blade 18A in FIG. 2B, the shaving plane is defined by a plane extending from the uppermost surface portion of razor blade 18B, the blade directly in front of the blade 18 A, and the bevel shoulder (41, 81) of the razor blade 18A. The uppermost surface portion of razor blade 18B as shown is a bevel shoulder as well (e.g., 41, 81). For a first blade in a sequence of blades, such as razor blade 18E in FIG. 2B, the shaving plane is defined by a plane extending from the uppermost surface portion of a preceding guard structure 28 and the uppermost surface portion immediately behind the razor blade tip of the razor blade which in this instance may be the blade bevel shoulder (e.g., 41, 81) of razor blade 18E.

With reference to Fig. 1, a shaving razor system 10 comprises a handle 12 and a razor cartridge 14. In some examples, the razor cartridge 14 may be detachably mounted to the handle 12 with a connector 20 as shown, and in other examples, the razor cartridge 14 may be attached permanently to the handle 12. The razor cartridge 14 may pivot relative to the handle 12. The razor cartridge 14 may include a cartridge housing 16 having one or more blades 18. Although five blades are shown in Fig. 1, it is understood that any number of blades, more or less, may be mounted within the razor cartridge 14. The blades 18 may be mounted within the cartridge housing 16 and secured with clips 24a and 24b as shown. The cartridge housing 16 may further comprise a cap structure 22 located near a back of the cartridge housing 16 and one or more guard structures 28 located near a front of the cartridge housing 16. The cap structure 22 may comprise one or more lubrication members (not labeled).

The substrate 30 may be coated. Coatings on the substrate 30 may be in the range of 200 to 1500 angstroms, preferably between 300 and 1000 angstroms.

Fig. 3 A is a cross-sectional side view of an asymmetrical razor blade 18 in accordance with a first embodiment of the present disclosure. The razor blade 18 is defined by a substrate 30 comprising a first portion 32 comprising a blade body 132A and a second portion 34 comprising a tip portion 134A. In the embodiment of Fig. 3A, dotted line 33 extends between the first and second portions 32 and 34. The razor blade 18 may be formed from stainless steel, other metals and/or alloys, plastic, or any other material or combinations thereof. The first portion 32 may comprise first and second generally parallel outer surfaces 32A and 32B and may be defined by the portion of the substrate 30 where there are no facets. The second portion 34 may comprise generally asymmetric first and second sections 36 and 38, respectively, separated by a split line SL34, wherein the first and second sections 36 and 38 comprise third and fourth asymmetric outer surfaces 36A and 38A. The split line SL34 may pass through or emanate from a tip 46 of the tip portion 134A and may be generally parallel with the first and second outer surfaces 32A and 32B of the first portion 32 of the blade substrate 30, see Fig. 3A. The split line SL34 may extend through the first portion 32. In the example embodiment of Figs. 3A and 3B, the split line SL34 does not separate the first and second portions 32 and 34 into equal halves. In the illustrated embodiment, the asymmetrical first and second sections 36 and 38 of the second portion 34 may extend longitudinally away from the tip 46 different distances.

The first section 36 comprises first and third bevels or facets 40 and 44 and the second section 38 comprises a second bevel or facet 42. The first facet 40 may extend directly from the first outer surface 32A and may be positioned between the first outer surface 32A and the third facet 44. The third facet 44 may extend directly from the first facet 40. A bevel shoulder 41 may be defined where the first and third facets 40 and 44 meet. The bevel shoulder 41 is a structure that is generally linear (e.g., extending into the page and along the X direction) running parallel to a cutting edge 19 of the blade 18 as shown for instance in Fig. 3D. The bevel shoulder 41 may be smooth, rounded, or angled. The second facet 42 may extend directly from the second outer surface 32B. The second and third facets 42 and 44 may define end facets that converge at the tip 46 to define the cutting edge 19 of the blade 18, which performs the cutting of hair. As will be discussed further below, during use of the razor blade 18, the bevel shoulder 41 between the first and third facets 40 and 44 may contact and move along the skin of a user. An angle Q’ of the bevel shoulder 41, see Fig. 3 A, extending from the first facet 40 to the third facet 44 may be from 162 degrees to 176 degrees.

A length L40 of the first facet 40 may be greater than a length L42 and L44 of each of the second and third facets 42 and 44, see Figs. 3A and 3B. The length L44 of the third facet 44 may be less than the length of the second facet 42. In the illustrated embodiment, the length L40 of the first facet 40 may be from 100 microns to 500 microns, the length L42 of the second facet 42 may be from 8 microns to 200 microns and the length L44 of the third facet 44 may be from 8 microns to 150 microns, preferably from 8 microns to 50 microns. The first facet 40 may extend inwardly from the first outer surface 32A toward the second outer surface 32B and the second facet 42 may extend inwardly from the second outer surface 32B toward the first outer surface 32A, see Fig. 3A. A plane Pi extending through a center of the first portion 32 parallel to the first and second outer surfaces 32A and 32B may extend through the first facet 40, see Fig. 3A. As can be seen from Fig. 3 A, the plane Pi bisects the first portion 32 into equal halves.

A first angle b between the first facet 40 and a first line extending from the first outer surface 32A of the first portion 32 may be greater than a second angle ur between the second facet 42 and a second line extending from the second outer surface 32B of the first portion 32, see Figs. 3 A and 3B. A third angle ar between the third facet 44 and a third line extending from the first facet 40 may be greater than the second angle ar between the second facet 42 and the second line extending from the second outer surface 32B of the first portion 32. A wedge angle f’ may extend between the second and third facets 42 and 44, see Fig. 3B. A value of the wedge angle f’ may be equal to the sum of a value of the first angle b r , a value of the second angle ur and a value of the third angle ar and may fall within a range of from 13.5 degrees to 30 degrees. A smaller wedge angle f’ is advantageous as it may result in a sharper cutting edge of the blade 18. The first angle bh may fall within a range of from 8 degrees to 21 degrees; the second angle ar may fall within a range from 1 degree to 12 degrees, preferably from 2 degrees to 8 degrees; and the third angle ar may fall within a range from 4 degrees to 18 degrees, preferably from 8 to 18 degrees. The sum of the first angle bt and the third angle ar is greater than or equal to a blade tangent angle W, discussed below.

As noted above, the split line SL34 separating the generally asymmetric first and second sections 36 and 38 of the second portion 34 of the razor blade 18 passes through the tip 46 and is generally parallel with the first and second outer surfaces 32A and 32B of the first portion 32, see Fig. 3A. A substantial portion of the second facet 42 may be located closer to the split line SL34 than a substantial portion of each of the first and third facets 40 and 44, see Figs. 3A and 3B.

With reference to Fig. 3B, at a first distance DSLI of 4 micrometers from the tip 46 along the split line SL ₃₄ , a sum of a first distance DSLIA perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the third facet 44 and a second distance (reference not provided in Fig. 3B) perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the second facet 42 may be between 1.0 micron to 2.3 microns. At a second distance D _SL2 of 8 micrometers along the split line SL ₃₄ from the tip 46, a sum of a first distance D _SL2A perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the first or the third facet 40, 44 and a second distance D _SL2B perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the second facet 42 or the second outer surface 32B of the first portion 32 may be between 1.9 microns to 4.6 microns. At a third distance DSL3 of 16 micrometers along the split line SL ₃₄ from said tip 46, a sum of a first distance DSL3A perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the first or the third facet 40, 44 and a second distance DSL3B perpendicular to the split line SL ₃₄ and extending from the split line SL ₃₄ to the second facet 42 or the second outer surface 32B of the first portion 32 may be between 3.8 microns to 9.2 microns.

Fig. 2A illustrates a cross-sectional view of the razor cartridge 14. The razor cartridge 14 further comprises first, second, third, fourth and fifth razor blade assemblies 180A-180E comprising first, second, third, fourth and fifth razor blades 18A-18E, wherein each of the razor blades 18A-18E is formed to correspond to the razor blade 18 illustrated in Figs. 3 A and 3B. The first blade assembly 180 A may comprise the first blade 18A and a first blade support member or blade carrier 120A coupled to the first blade 18A. The second blade assembly 180B may comprise the second blade 18B and a second blade support member or blade carrier 120B coupled to the second blade 18B. The third blade assembly 180C may comprise the third blade 18C and a third blade support member or blade carrier 120C coupled to the third blade 18C. The fourth blade assembly 180D may comprise the fourth blade 18D and a fourth blade support member or blade carrier 120D coupled to the fourth blade 18D. The fifth blade assembly 180E may comprise the fifth blade 18E and a fifth blade support member or blade carrier 120E coupled to the fifth blade 18E. The blade support members 120A-120E may comprise, for example, stainless steel. The blade support members 120A-120E may be integral with their corresponding blades 18A-18E, or alternatively, the blades 18A-18E may be fixedly coupled to the respective blade support members 120A-120E, such as by welding, adhesive, or other suitable technique. Each blade assembly 180A- 180E may be mounted within the cartridge housing 16 of the razor cartridge 14. The blade support members 120A-120E may be positioned within a respective blade slot 162A-162E extending in the cartridge housing 16, in an X direction, of the housing 16, see Fig. 1, and may be fixed or floating. For example, the blade support members 120A-120E may be resiliently mounted within the housing and may be biased to their raised, at-rest positions (that is, not loaded by shaving forces) via polymeric leaf-spring arms (not shown), one example of which is disclosed in U.S. Patent No. 10,391,652, the entire disclosure of which is incorporated herein by reference. The blade assemblies 180A-180E may be secured by clips 24B (only one of which is illustrated in Fig. 2A) or other known assembly methods.

Fig. 2B schematically illustrates the cap structure 22, the guard structure 28 and the first, second, third, fourth and fifth razor blade assemblies 180A-180E of the razor cartridge 14 of Fig. 2A. With reference to Fig. 2B, a plane extending between the upper surfaces of the cap structure 22 and the guard structure 28 of the cartridge housing 16 of the razor cartridge 14 may define a shaving plane Ps, i.e., a plane tangent to each of the cap structure and guard structure 22 and 28. For razor cartridge embodiments where not all of the cap structure, guard structure and uppermost portions of the razor blades are located within a same plane, the “shaving plane” for a given razor blade within such a razor cartridge may be defined as a plane extending between skin contacting elements immediately in front of and behind a razor blade tip of the given razor blade. For example, in a modified embodiment as shown in phantom in Fig. 2B, the uppermost portion of blade 18E’ is located slightly below the locations of the blade 18E shown in solid line as well as the upper surface of the guard structure 28. The shaving plane Ps for the modified blade 18E’ extends from the upper surface of the guard structure 28’ to the uppermost portion of a skin contacting element behind the tip of the blade 18E, which comprises the bevel shoulder of the blade 18E\

It is well known that the shaving geometry of a razor cartridge is important in determining the shaving performance of the cartridge. The shaving geometry defines the position and orientation of the blades in relation to other skin contacting parts, in particular, the cap structure and guard structure of the razor cartridge. One parameter of the shaving geometry is blade exposure, which is the perpendicular distance by which the cutting edge of a blade protrudes above or below the shaving plane. In the embodiment illustrated in Fig. 2B, the first, second, third, fourth and fifth blade support members 120A-120E may be configured to position their respective blades 18A-18E such that the bevel shoulder 41 of the substrate 30 defining each blade 18A-18E is positioned in or near the shaving plane Ps _, see also Figs. 3A-3C. More particularly, each of the blade support members 120A-120E may comprise a lower portion 121 A and an upper portion 121B, which extends at an angle of Q121 of from 100 degrees to 125 degrees to the lower portion 121A, see Fig. 2B. The upper portion 121B of each blade support member 120A-120E may be coupled to the outer surface 32B of the first portion 32 of the substrate 30 defining the corresponding blades 18A-18E. Due to the asymmetric shape of the substrate 30 and the angle Q121 between the lower and upper portions 121A and 121B of each blade support member, the bevel shoulder 41 of the substrate 30 defining each blade 18A-18E is positioned in or near the shaving plane Ps _, see also Figs. 3A-3C.

With reference to Figs. 3B and 3C, the bevel shoulder 41 is considered to be positioned in or near the shaving plane Ps when a portion of the bevel shoulder 41, which shoulder 41 extends in the X direction, see Figs. 1 and 3A, lies within the shaving plane Ps, i.e., the shaving plane Ps is tangent to the portion of the bevel shoulder 41, or a portion of the bevel shoulder 41 is located slightly above the shaving plane Ps by a distance Di less than about 0.2 mm from the shaving plane Ps or slightly below the shaving plane Ps by a distance D2 of less than about 0.5 mm from the shaving plane Ps, see Fig. 3C. When the bevel shoulder 41 is positioned in or near the shaving plane Ps, the cutting edge 19 of the blade 18 may be spaced below the shaving plane Ps by a perpendicular distance D46 due to the asymmetrical shape of the blade 18 and the angle Q121 between the lower and upper portions 121A and 121B of the corresponding blade support member. The perpendicular distance D46 may fall within a range of from 0 microns to 46.4 microns and preferably comprises 20 microns, see Fig. 3B. Because the cutting edge 19 of the blade 18 is preferably located below the shaving plane Ps, the cutting edge 19 is spaced away from the skin during shaving so as to improve shaving comfort and reduce skin irritation. Also, because the angle Q’ of the bevel shoulder 41 is large, the bevel shoulder 41 defines a generally smooth surface for engaging the skin of the user, thereby reducing friction as the blade moves across the skin during shaving, see also Fig. 2B.

As noted above, the blades 18A-18E may be mounted within the cartridge housing 16 and secured with clips 24A and 24B. Because the bevel shoulder 41 of the substrate 30 defining each blade 18A-18E is positioned in or near the shaving plane Ps _, see also Figs. 3A-3C, the clips 24A and 24B engage the bevel shoulder 41 of each blade 18A-18E, see Fig. 2A. Prior art razor blades were registered with features during a welding operation to secure the blades to corresponding blade support members. The registration features would oftentimes damage or crush the ends of the blade tips. In prior art razor cartridges where blade tips were positioned in or near the shaving plane, the clips would engage ends of the blade tips. However, because the ends of the blade tips were crushed during a prior welding operation, engagement of the crushed blade tip ends by the clips resulted in inconsistent location of the blade cutting edges relative to the shaving plane. In the present invention, because the clips 24 A and 24B engage the bevel shoulder 41 of each blade 18A-18E, which shoulder 41 typically is not damaged during a prior welding operation, the location of a blade cutting edge 19 along its entire extent is more consistently and predictably located relative to the shaving plane.

Another important factor in the shaving geometry is the blade tangent angle W, see Fig. 3A, which is the angle at which the split line SL34for the asymmetric blade 18 intersects the shaving plane Sp. In the embodiment of Figs 3 A and 3B, the blade tangent angle W may fall within a range from 10 degrees to 36 degrees and preferably is 17 degrees.

Fig. 4A is a cross-sectional side view of an asymmetric razor blade 50 in accordance with a second embodiment of the present disclosure. The razor blade 50 is defined by a substrate 70 comprising a first portion 72 comprising a blade body and a second portion 74 comprising a tip portion. In the embodiment of Fig. 4A, dotted line 73 extends between the first and second portions 72 and 74. The razor blade 50 may be formed from stainless steel, other metals and/or alloys, plastic, or any other material or combinations thereof. The first portion 72 may comprise first and second generally parallel outer surfaces 72A and 72B, respectively. The second portion 74 may comprise generally asymmetric first and second sections 76 and 78, respectively, separated by a split line SL74, wherein the first and second sections 76 and 78 comprise third and fourth asymmetric outer surfaces 76A and 78 A. The split line SL74 may pass through a tip 88 of the tip portion 74 and may be generally parallel with the first and second outer surfaces 72A and 72B of the first portion 72 of the blade substrate 70, see Fig. 3A. The split line SL74 may extend through the first portion 72. In the example embodiment of Figs. 4A and 4B, the split line SL74 does not separate the first and second portions 72 and 74 into equal halves.

The first section 76 comprises first and third facets 80 and 84 and the second section 78 comprises second and fourth facets 82 and 86. The first facet 80 may extend directly from the first outer surface 72A and may be positioned between the first outer surface 72A and the third facet 84. The third facet 84 may extend directly from the first facet 80. A bevel shoulder 81 may be defined where the first and third facets 80 and 84 meet. The bevel shoulder 81 may be smooth, rounded, or angled. The bevel shoulder 81 is a structure that is generally linear (e.g., extending into the page or along the X direction) running parallel to the cutting edge 50A as shown for instance in Fig. 3D. The second facet 82 may extend directly from the second outer surface 72B and may be positioned between the second outer surface 72B and the fourth facet 86. The fourth facet 86 may extend directly from the second facet 82. The third and fourth facets 84 and 86 may define end facets that converge at the tip 88 to define a cutting edge 50A of the blade 50, which performs the cutting of hair. As will be discussed further below, during use of the razor blade 50, the first bevel shoulder 81 between the first and third facets 80 and 84 may contact and move along the skin of a user. An angle Q of the bevel shoulder 81, see Fig. 4A, extending from the first facet 80 to the third facet 84 may be from 162 degrees to 176 degrees.

A length Lso, Ls ₂ of the first and second facets 80 and 82 may be greater than a length Ls ₄ , L ₈₆ of each of the third and fourth facets 84 and 86, see Fig. 4A. As shown in Fig. 4A, the length of the second facet 82 may be greater than the length of the first facet 80. The length Ls4 of the third facet 84 may be greater than or less than the length Lse of the fourth facet 86. In the illustrated embodiment, the length Lso of the first facet 80 may be from 100 microns to 500 microns, the length L82 of the second facet 82 may be from 100 microns to 1000 microns, the length Ls4 of the third facet 84 may be from 8 microns to 150 microns, preferably from 8 microns to 50 microns and the length Ls ₆ of the fourth facet 86 may be from 8 microns to 200 microns. The first facet 80 may extend inwardly at a first angle bi from the first parallel outer surface 72A, the second facet 82 may extend inwardly at a second angle b2 from the second parallel outer surface 72B, the third facet 84 may extend inwardly at a third angle on from the first facet 80 and the fourth facet 86 may extend inwardly at a fourth angle 012 from the second facet 82, see Fig. 4A. A plane P2 extending through a center of the first portion 72 parallel to the first and second outer surfaces 72A and 72B extends through the first facet 80, see Fig. 4A. The first angle bi between the first facet 80 and a first line extending from the first outer surface 72 A of the first portion 72 may be greater than the second angle b2 between the second facet 82 and a second line extending from the second outer surface 72B of the first portion 72. The third angle on between the third facet 84 and a third line extending from the first facet 80 may be greater than the fourth angle on between the fourth facet 86 and a fourth line extending from the second facet 82. A wedge angle f may extend between the third and fourth facets 84 and 86. A value of the wedge angle f may equal to the sum of a value of the first angle bi, a value of the second angle b2; a value of the third angle on and a value of the fourth angle on. The first angle bi may fall within a range of from 8 degrees to 18 degrees; the second angle b2h^ fall within a range from 0.5 degrees to 6.0 degrees; the third angle on may fall within a range from 4 degrees to 18 degrees and preferably from 8 degrees to 18 degrees; and the fourth angle on may fall within a range from 1 degree to 12 degrees and preferably from 2 degrees to 8 degrees. A summation of the first and second angles bi and b2 may fall within a range of from 8.5 degrees to 24 degrees. A summation of the first and third angles bi and on may fall within a range of from 12 degrees to 28.5 degrees. A summation of the second and fourth angles b2 and on may fall within a range of from

1.5 degrees to 18 degrees. A difference between the first and second angles bi and b2 results in the asymmetric first and second sections 36 and 38 and may fall within a range of from 4 degrees to

17.5 degrees. Preferably, the second angle b2 is small so that the overall thickness T ool the blade 50 can be minimized. A summation of the first, second, third and fourth angles bi, b2, on and 012, which defines the wedge angle f, may fall within a range of from 13.5 degrees to 30 degrees. A smaller wedge angle f is advantageous as it may result in a sharper cutting edge 50A of the blade 50.

As noted above, the split line SL74 separating the generally asymmetric first and second sections 76 and 78 of the second portion 74 of the razor blade 50 passes through the tip 88 and is generally parallel with the first and second outer surfaces 72A and 72B of the first portion 72, see Fig. 4A. A substantial portion of the second and fourth facets 82 and 86 may be located closer to the split line SL^than a substantial portion of each of the first and third facets 80 and 84, see Figs. 4 A and 4B.

Referring to Fig. 4B, at a first distance DSLIO of 4 micrometers along the split line SL74 from the tip 88, a sum of a first distance DSLIOA perpendicular to the split line SL74 and extending from the split line SL74 to the third facet 84 and a second distance (reference not provided in Fig. 4B) perpendicular to the split line SL74 and extending from the split line SL74 to the fourth facet 86 may be between 1.0 microns to 2.3 microns. At a second distance DSLI I of 8 micrometers along the split line SL74from the tip 88, a sum of a first distance D _{SLI IA} perpendicular to the split line SL74 and extending from the split line SL74 to the first or the third facet 80, 84 and a second distance D _{SLI IB} perpendicular to the split line SL74 and extending from the split line SL74 to the second or the fourth facet 82, 86 is between 1.9 microns to 4.6 microns. At a third distance D _SLI2 of 16 micrometers along the split line SL74 from said tip 46, a sum of a first distance D _SLI2A perpendicular to the split line SL34 and extending from the split line SL74 to the first or the third facet 80, 84 and a second distance D _SLI2B perpendicular to the split line SL74 and extending from the split line SL74 to the second or the fourth facet 82, 86 is between 3.8 to 9.2 microns.

The razor blade 50 of Figs. 4A and 4B may be used in place of one or more of the razor blades 18, 18A-18E used in the razor cartridge 14 of Figs. 1 and 2A. Just as the razor blades 18A- 18E are coupled to first, second, third, fourth and fifth blade support members 120A-120E, each razor blade 50 used in the razor cartridge 14 would also be coupled to a corresponding blade support member. The blade support member would then be positioned within a respective blade slot extending in the cartridge housing and may be fixed or floating. Each blade assembly including the blade 50 may be secured by clips or other known assembly methods.

As discussed above with regards to Fig. 2B, each of the blade support members may comprise a lower portion 121 A and an upper portion 121B, which extends at an angle of Q 121 from 100 degrees to 125 degrees to the lower portion 121A. The upper portion 121B of each blade support member may be coupled to the second facet 82 of the second portion 74 of the substrate 70 defining the corresponding blade 50. Due to the asymmetric shape of the substrate 70 and the angle Q121 between the lower and upper portions 121 A and 121B of each blade support member, the bevel shoulder 81 of the substrate 30 defining each blade 50 is positioned in or near the shaving plane Ps _, see also Figs. 4A-4B.

As noted above, the second facet 82 may extend inwardly at a second angle b2 from the second parallel outer surface 72B. Because the upper portion 121B of each blade support member is coupled to the second facet 82 of its corresponding blade 50, rather than the outer surface of the first portion as with the blade 18 of Figs. 3A-3C, the cutting edge 50A of the blade 50 is located further away from the shaving plane Ps than the cutting edge 19 of the blade 18 of the embodiment of Figs. 3 A-3C. Because the cutting edge 50A is located further away from the shaving plane Ps, an advantageous benefit of improved comfort during shaving is provided.

With reference to Fig. 4B, the bevel shoulder 81 is considered to be positioned in or near the shaving plane Ps when a portion of the bevel shoulder 81, which shoulder 81 extends in the X direction, see Figs. 1 and 4B, lies within the shaving plane Ps, i.e., the shaving plane Ps is tangent to the portion of the bevel shoulder 81, or a portion of the bevel shoulder 81 is located slightly above the shaving plane Ps by a distance (see distance Di in Fig. 3C) of less than about 0.2 mm from the shaving plane Ps or slightly below the shaving plane Ps by a distance (see distance D2 in Fig. 3C) of less than about 0.5 mm from the shaving plane Ps. When the bevel shoulder 81 is positioned in or near the shaving plane Ps, the cutting edge 50A of the blade 50 may be spaced below the shaving plane Ps by a perpendicular distance D76 due to the asymmetrical shape of the blade 50 and the angle Q121 between the lower and upper portions 121A and 121B of the corresponding blade support member. When the upper portion 12 IB of a blade support member is coupled to the second facet 82 of a blade 50, the distance D76can be varied by varying the second angle b2 between the second facet 82 and the second parallel outer surface 72B of the blade 50. The perpendicular distance D76 may fall within a range of from 0 microns to 46.4 microns, see Fig. 4B. Because the cutting edge 50A of the blade 50 may be located below the shaving plane Ps, the cutting edge 50 A is spaced away from the skin during shaving so as to improve shaving comfort and reduce skin irritation. Also, because the angle Q of the bevel shoulder 81 is large, the bevel shoulder 81 defines a generally smooth surface for engaging the skin of the user, thereby reducing friction as the blade 50 moves across the skin during shaving.

When the razor blade 50 is used in a razor cartridge, the blade tangent angle W may fall within a range from 10 degrees to 36 degrees and preferably 17 degrees.

Representative embodiments of the present disclosure described above can be described as follows:

A. A razor cartridge comprising: a housing; a blade assembly mounted to the housing, the blade assembly comprising at least one razor blade defined by a substrate comprising: a first portion comprising first and second outer surfaces; and a second portion comprising first and second sections separated by a split line, wherein the first section comprises a first facet and an end facet, the second section comprises an end facet, the end facets of the first and second sections converge at a tip to define a cutting edge, wherein a shoulder is positioned between the first facet and the end facet of the first section and defines a skin-contacting surface. B. The razor cartridge according to Paragraph A, wherein the end facet of the second section comprises a second facet and the end facet of the first section comprises a third facet.

C. The razor cartridge according to Paragraph A, wherein the second section further comprises a second facet extending from the second outer surface of the first portion, the end facet of the second section comprises a fourth facet and the end facet of the first section comprises a third facet.

D. The razor cartridge according to any one of Paragraphs A-C, wherein the end facet of the second section is located closer to the split line than the first facet and the end facet of the first section.

E. The razor cartridge according to any one of Paragraphs A-D, wherein the first and second outer surfaces of the first portion of the substrate are generally parallel to one another and the split line passes through the tip and is generally parallel to the first and second outer surfaces of the first portion.

F. The razor cartridge according to any one of Paragraphs A-E, wherein the first and second sections of the second portion define asymmetric first and second sections.

G. The razor cartridge according to any one of Paragraphs A-F, wherein the first facet extends directly from the first outer surface of the first portion.

H. The razor cartridge according to any one of Paragraphs A-G, wherein the housing comprises a cap structure and a guard structure, a shaving plane is defined between the cap structure and the guard structure, the blade assembly further comprises a blade support member to which the razor blade substrate is coupled, the blade support member is configured such that the shoulder positioned between the first facet and the end facet of the first section is positioned in or near the shaving plane.

I. The cartridge according to Paragraph H, wherein the shoulder is positioned near the shaving plane when the shoulder is located above or below the shaving plane by a distance less than about 0.2 mm and less than about 0.5 mm, respectively, from the shaving plane. J. The cartridge according to any one of Paragraphs A-I, further comprising first and second clips mounting to the housing and engaging opposing ends of the shoulder of the substrate defining the razor blade to secure the razor blade within the housing.

K. A razor cartridge comprising: a housing; a first blade assembly mounted to the housing, the first blade assembly comprising a first razor blade; a second blade assembly mounted to the housing, the second blade assembly comprising a second razor blade; at least one of the first razor blade or the second razor blade is defined by a substrate comprising: a first portion comprising first and second outer surfaces; and a second portion comprising first and second sections separated by a split line, wherein the first section comprises a first facet and an end facet, the second section comprises an end facet, the end facets of the first and second sections converge at a tip to define a cutting edge, wherein a shoulder is positioned between the first facet and the end facet of the first section and defines a skin-contacting surface.

L. The razor cartridge according to Paragraph K, wherein the end facet of the second section comprises a second facet and the end facet of the first section comprises a third facet.

M. The razor cartridge according to Paragraph K, wherein the second section further comprises a second facet extending from the second outer surface of the first portion, the end facet of the second section comprises a fourth facet and the end facet of the first section comprises a third facet.

N. The razor cartridge according to any one of Paragraphs K-M, wherein the end facet of the second section is located closer to the split line than the first facet and the end facet of the first section.

O. The razor cartridge according to any one of Paragraphs K-N, wherein the first and second outer surfaces of the first portion of the substrate are generally parallel to one another and the split line passes through the tip and is generally parallel to the first and second outer surfaces of the first portion.

P. The razor cartridge according to any one of Paragraphs K-O, wherein the first and second sections of the second portion define asymmetric first and second sections.

Q. The razor cartridge according to any one of Paragraphs K-P, wherein the first facet extends directly from the first outer surface of the first portion.

R. The razor cartridge according to any one of Paragraphs K-Q, wherein the first razor blade is defined by the substrate comprising the first and second portions and including the shoulder positioned between the first facet and the end facet of the first section, the housing further comprises a cap structure and a guard structure and a shaving plane is defined between the cap structure and the guard structure, and the first blade assembly further comprises a blade support member to which the first razor blade is coupled, the blade support member is configured such that the shoulder of the substrate defining the first razor blade is positioned in or near the shaving plane.

S. The cartridge according to Paragraph R, wherein the shoulder is positioned near the shaving plane when the shoulder is located above or below the shaving plane by a distance less than about 0.2 mm and less than about 0.5 mm, respectively, from the shaving plane.

T. The cartridge according to any one of Paragraphs K-S, further comprising first and second clips mounting to the housing and engaging opposing ends of the shoulder of the substrate defining the first razor blade to secure the first razor blade in the housing.

U. The razor cartridge according to any one of Paragraphs K-Q or T, wherein the first razor blade is defined by the substrate comprising the first and second portions and including the shoulder positioned between the first facet and the end facet of the first section, a shaving plane is defined for the first razor blade by a plane extending from an uppermost surface portion of a skin contacting element in front of and behind the cutting edge of the first razor blade, and the first blade assembly further comprises a blade support member to which the first razor blade is coupled, the blade support member is configured such that the shoulder of the first razor blade is positioned in or near the shaving plane. The illustrations presented herein are not intended to be actual views of any particular substrate, apparatus (e.g., device, system, etc.), or method, but are merely idealized and/or schematic representations that are employed to describe and illustrate various embodiments of the disclosure. The dimensions and values disclosed herein are not to be understood as being strictly limited to the exact numerical values recited. Instead, unless otherwise specified, each such dimension is intended to mean both the recited value and a functionally equivalent range surrounding that value. For example, a dimension disclosed as “40 mm” is intended to mean “about 40 mm.” Every document cited herein, including any cross referenced or related patent or application and any patent application or patent to which this application claims priority or benefit thereof, is hereby incorporated herein by reference in its entirety unless expressly excluded or otherwise limited. The citation of any document is not an admission that it is prior art with respect to any invention disclosed or claimed herein or that it alone, or in any combination with any other reference or references, teaches, suggests or discloses any such invention. Further, to the extent that any meaning or definition of a term in this document conflicts with any meaning or definition of the same term in a document incorporated by reference, the meaning or definition assigned to that term in this document shall govern.

While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.