Title of Invention	"A SAFETY RAZOR BLADE UNIT"
Abstract	In a safety razor blade unit a skin engaging member has a surface for contacting the skin during shaving defined by spaced hollow projections 3 which extend upwardly from a base 2 and are open at their upper ends. The projections are made of a resiliently flexible material and are preferably arranged in rows along the base. The projections are preferably tubular but can taper in either direction, internally and/or externally.

Title of Invention

"A SAFETY RAZOR BLADE UNIT"

Abstract

In a safety razor blade unit a skin engaging member has a surface for contacting the skin during shaving defined by spaced hollow projections 3 which extend upwardly from a base 2 and are open at their upper ends. The projections are made of a resiliently flexible material and are preferably arranged in rows along the base. The projections are preferably tubular but can taper in either direction, internally and/or externally.

Full Text	This invention relates to a safety razor blade unit and to shaving devices and concerns a safety razor blade unit having at least one blade with a cutting edge which is moved across the surface of the skin being shaved by means of a handle to which the blade unit is attached. The blade unit may be mounted detachably on the handle to enable the blade unit to be replaced by a fresh blade unit when the blade, sharpness has diminished to an unsatisfactory level, or it may be attached permanently to the handle with the intention that the entire razor be discarded when the blade or blades have become dulled. Razor blade units generally include a guard which defines a surface for contacting the skin in front of the blade(s) and a cap for contacting the skin behind the blade(s), the cap and guard serving important roles in establishing the so-called "shaving geometry", i.e. the parameters which determine the blade orientation and position relative to the skin during shaving. ~ The present invention is especially concerned with the guard and/or cap of a razor blade unit. It is known to provide a skin engaging guard or cap with surface configurations intended to produce pleasant tactile sensations during shaving, for example as described in US-A-5191712. The present invention aims to provide an improved surface structure on a cap or guard and in accordance with this object the invention resides in a safety razor blade unit having at least one elongate blade, and a skin engaging member defining a surface for contact with the skin during shaving, said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of a resiliently flexible material whereby the upper ends of the projections can deflect locally under forces encountered during shaving. Accordingly, there is provided a safety razor blade unit comprising at least one elongate blade, and a skin engaging member defining a surface for contact with the skin during shaving, characterized in that said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of resiliently flexible material whereby the upper ends of the projections can be deflected locally under forces encountered during shaving. Conveniently the projections can take the form of tubes which may be arranged in one or more rows extending along the base generally parallel to the razor blade edge(s), with at least 10 tubes per row. Suitably the projections have a height in the range of 0.38mm to 1.5mm, preferably about 0.75mm, an outer diameter from 0.40mm to 3.00mm, preferably about 0.60mm, and with the wall thickness at the base to height ratio being between 1:1 and 1 : 1-5, preferably around 1:7.5. An appropriate spacing between adjacent projections, at least in the direction parallel to the blade edge(s), is in the range from 0. 10mm to a distance equal to the maximum dimension of the projection measured in said direction, the" spacing in a currently preferred embodiment being 0.20mm. If desired adjacent projections can be interconnected, such as by membranes moulded integrally with the projections. The projections may be of constant internal and external diameter, but they can also taper in either direction along their length, both inside and/or outside. A V suitable wall thickness for the hollow projections" has been found to be around 0. 10mm, at least at then" upper edges. It is not essential for the projections to be completely annular in cross-section and they can have one or more longitudinal slots extending over their full height or only part of their height. In the preferred embodiments described in more detail below, tubes of circular in cross-section are provided but this is not essential and other cross-sectional shapes are possible, such as elliptical, square or D-shaped. The upper end faces of the projections can be substantially flat and coplanar. Alternatively the upper end faces may be inclined forwardly and downwardly toward the base. Also the upper edges of the projections may be rounded off, at least at the fronts of the projections. With a razor blade unit according to the invention the projections forming the skin contacting surface of the skin engaging member, because they are hollow and open at the top, can be more responsive to local forces during shaving, e.g. due to a hair being encountered, than solid projections and as a consequence there may be less tendency for hairs to be deflected laterally by the projections. Furthermore, the hollow projections form pockets in which moisture or a shaving preparation, such as shaving soap or the like, applied to the skin to facilitate the shaving operation, can collect in small amounts. A shaving preparation generally serves to lubricate the skin. Any preparation collected in the pockets may assist in lubricating the skin, e.g. at the end of a shave when most of the preparation applied will have been removed, or perhaps at the beginning of a shave if the skin has not been well prepared. The skin engaging member could even be supplied with the pockets containing shaving enhancement product or possibly communicating with a reservoir of such a product to be dispensed through the pockets, in essentially the same manner as described in relation to the pocketed skin engaging members disclosed in our International patent application No. PCT/US95/08634 (WO96/02369). With the present invention delivery of product from the pockets may be enhanced by a pumping action due to the projections flexing as the skin contacting member moves across the surface of the skin. Some embodiments of the invention are described in more detail below with reference to the accompanying drawings, in which:- Figure 1 shows in perspective a skin contacting member for a blade unit according to the invention; Figure 2 is a plan of the skin engaging member; Figure 3 is a cross-section taken along the line A-A of Figure 2 Figures 4 and 5 are front and end elevational views of the skin engaging member; Figures 6 to 17 are enlarged cross-sectional views of alternative forms of hollow projection; Figure 18 is a plan view of a projection of a modified embodiment; Figure 19 is a front elation of the projection shown in Figure 18; Figure 20 is a front elevation showing a projection with an inclined top face; Figure 21 is a cross-section through the hollow projection of Figure 20; Figure 22 is a cross-sectional view showing a projection with a top edge which is rounded off at the front, and Figures 23, to 26 show in plan respective alternative shapes for the projections. The skin engaging member 1 illustrated in Figures 1-6 is intended to form either a cap, or more probably a guard surface in a safety razor blade unit having one or more elongate blades. The member 1 is elongated and will be mounted on a frame of the blade unit to extend in parallel with the blades. The member 1 is moulded in one piece of an elastomeric material, e.g. rubber or a thermoplastic elastomer such as that sold under the Trade Mark KRATON. It includes a rectangular base 2 from which extend upwardly, cylindrical open-topped hollow projections or tubes 3. The tubes are arranged in four longitudinal rows in which the tubes 3 are equally spaced at a distance not^greater than the outer diameter of the tubes, and the tubes of alternate rows are longitudinally staggered by a' distance which is half the centre-to-centre pitch P of adjacent tubes in the same row. As a consequence, tubes of adjacent rows overlap in the longitudinal direction, and as shown they also overlap in the front to rear direction. The dimensions are as follows: Base length-1 : 30.00mm Base width - w : 2.5 mm Tube height - h : 0.75 mm Tube outer diameter - d, : 0.60 mm Tube inner diameter - d2 : 0.40 mm Tube wall thickness-1 : 0.1 mm Tube pitch (in each row) -p : 1.23 mm Number of tubes per row : 24 Total number of tubes : 96 The tubes 3 have a constant circular cylindrical cross section as clear%'-illustrated in Figure 6. However this particular tube shape is not essential and Figures 7 to 11 illustrate alternative shapes as follows: In Figure 7 the hollow interior tapers towards the base from a maximum inner diameter of 0.4mm to a minimum inner diameter of 0.1mm; In Figure 8 the exterior is frusto-conical and tapers from a diameter of 0.7mm at the base to 0.6mm at the top, the inner diameter being constant at 0.4mm; In Figure 9 the exterior is frusto-conical as in Figure 8, and the hollow interior tapers towards the base and has a maximum diameter at the top of 0.25mm so that a greater wall thickness is obtained; ^ hi Figure 10 the exterior is frusto-conical as in Figs 8 and 9, and the interior has a corresponding frusto-conical shape so. that the wall thickness, remains constant over the full height and the inner diameter increases from 0.4mm at the top to 0.5mm at the base; hi Figure 11 an inverted frusto-conical shape with a constant wall thickness is shown, the maximum inner diameter at the top being 0.5mm and the maximum inner diameter at the base being 0.4mm; In Figure 12 another inverted frustoconical shape is shown, the inner diameter being constant at 0.3mm whereas the outer-diameter increases from 0.5mm at the base and the top peripheral edge of the tubular projection is rounded off at a radius of 0.1mm; hi Figures 13 and 14 the tubular projections are as shown in Figures 8 and 9 respectively, except mat in each case the outside diameter at the base is 0.75mm; In Figure 15 is shown a tubular projection having the same external form of the projection of Figure 14, but with a larger inner diameter at the open top end where the wall thickness is minimum and about 0.1mm; In Figure 16 the illustrated tubular projection is the same as that of Figure 10 other than that the outer diameter at the base is 0.75mm, and the inner diameter at the base is 0.55mm, the wall thickness being uniform at 0. IHK ;- and In Figure 17 the tubular projection is similar in shape to that of Figure 11, but the diameters are reduced, the outer diameter at the base being 0.5mm, and the inner diameter increasing from 0.3mm at the base to 0.4mm at the open end, the wall thickness being constant at 0.lmm. In the embodiments described above the projections have completely annular cross-sections, but in the modified embodiment of Figures -18 and 19, the tubular projection has a longitudinal slot extending the full height of the tube at the front of the tube. Apart from the slot, which has a width of 0.1mm, the tubular projection is of the same shape and size as in the embodiment of Figures 1-6. The slot could be provided at other positions, and additional slots could also be provided. hi all of the embodiments described abo.ve the tubular projections have a height of 0.75m and are essentially flat-topped in-as much that the height is the same around the projection periphery. This is not crucial and it may be beneficial for the upper edge of the projection to be relieved, in particular in the forward facing direction. Figures 20 and 21 illustrate an example of a tubular projection 3 basically the same as the projections of Figures 1 to 6, but having a forwardly and downwardly inclined top face 10, the downward inclination being at an angle a of about 30°. Figure 21 shows an alternative modification according to which the front edge 11 at the upper end of the tubular projection 3 is rounded off at a radius of 0.3mm. While illustrated in relation to tubular projections as in Figures 1 to 6, the inclined top face 10 and rounded edge 11 modifications of Figures 20 to 22 can be applied to any of the embodiments of Figures 7 to 19, and to the modified embodiments described below. All of the embodiments so far described have tubular projections of substantial circular cross-section. However, other cross-sections are also satisfactory, and some examples of other acceptable cross-sections are illustrated in Figures 23 to 26. The projection 3 in Figure 23 is square in cross section, the wall thickness t being 0.1mm, the exterior-fraying a side length S, of 0.6mm and the interior having a side length S2 of 0.4mm. The tubular projection of Figure 24 is substantially D-shaped in cross-section, being essentially the square section of Figure 23 with one side replaced by a semi-circular wall with an inside radius r, of 0.2mm and an outside radius r2 of 0.3mm. The semi-circular wall could be arranged to face either forwardly or rearwardly. The cross-section of the tubular projection shown in Figure 25 has the same external profile as that of Figure 24, but the internal profile is circular with a diameter of d2 of 0.4mm. Finally, Figure-26 shows a projection having a cross-section shaped as an open-sided square and is the same as the projection of Figure 23 but with the rear wall omitted. It will be appreciated that projections with the cross-sections of Figures 23 to 26 could be arranged to taper internally and/or externally as in the various projections of Figures 7 to 17. Of course other cross-sectional shapes are also possible such as triangular, elliptical or oral. While in any particular embodiment all the projections can conveniently be of the same shape and size, this is not essential and projections of different form could be combined in the same embodiment. The material of the skin engaging member will have a flexibility appropriate for the particular shape and size of projections provided, but a hardness of less than 90 shore A will normally be appropriate. WE CLAIM:- 1. A safety razor blade unit comprising at least one elongate blade, and a skin engaging member defining a surface for contact with the skin during shaving, characterized in that said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of resiliently flexible material whereby the upper ends of the projections can be deflected locally under forces encountered during shaving. 2. A safety razor blade unit as claimed in claim 1, wherein the projections are located on the base in a geometric pattern of the kind suchas herein described 3. A safety razor blade unit as claimed in claim 1, wherein the projections are located in at least one row extending along the base in a direction generally parallel to the blade edge(s). 4. A safety razor blade unit as claimed in claim 3, wherein there are at least three parallel rows of projections, and the projections in one row are longitudinally offset with respect to the projections of an adjacent row. 5. A safety razor blade unit as claimed in claim 4, wherein the projections have an external dimension measured longitudinally of a row which is greater than the spacing between adjacent projections in the same row. 6. A safety razor blade unit as claimed in anyone of claims 1 to 5, wherein the hollow interiors of the projections extend to the level of the upper surface of the base. 7. A safety razor blade unit as claimed in anyone of claims 1 to 6, wherein the hollow interiors of the projections taper along the projections. 8. A safety razor blade unit as claimed in claim 7, wherein the hollow interiors taper towards the base. 9. A safety razor blade unit as claimed in anyone of claims 1 to 8, wherein the projections have walls of constant thickness along the projections. 10. A safety razor blade unit as claimed in anyone of claims 1 to 9, wherein the projections are circular in cross-section. 11. A safety razor blade unit as claimed in anyone of claims 1 to 10, wherein at least some projections have slots extending downwardly from their upper ends. 12. A safety razor blade unit as claimed in claim 1 1, wherein the slots extend the full height of the projections. 13. A safety razor blade unit as claimed in anyone of claims 1 to 9, wherein the projections have a cross-sectional shape selected from square, open-sided square or D shape. 14. A safety razor blade unit as claimed in anyone of claims 1 to 13, wherein the projections have a wall thickness at the base, to height ratio in the range of 1: 1 to 1: 15, preferably about 1:7.5. 15. A safety razor blade unit as claimed in anyone of claims 1 to 14, wherein the upper end faces of the projections are inclined downwardly and forwardly towards the base. 16. A safety razor blade unit as claimed in anyone of claims 1 to 15, wherein the external edges at the upper ends of the projections are rounded off at the fronts of the projections. 17. A safety razor blade unit as claimed in anyone of claims 1 to 16, wherein the adjacent projections are interconnected by membranes integrally moulded with the projections and the base. 18. A safety razor blade unit substantially as hereinbefore described with reference to and as illustrated in the accompanying drawings.

Full Text

This invention relates to a safety razor blade unit and to shaving devices and concerns a safety razor blade unit having at least one blade with a cutting edge which is moved across the
surface of the skin being shaved by means of a handle to which the blade unit is attached. The blade unit may be mounted detachably on the handle to enable the blade unit to be replaced by a fresh blade unit when the blade, sharpness has diminished to an unsatisfactory level, or it may be attached permanently to the
handle with the intention that the entire razor be discarded when the blade or
blades have become dulled. Razor blade units generally include a guard which defines a surface for contacting the skin in front of the blade(s) and a cap for contacting the skin behind the blade(s), the cap and guard serving important roles in establishing the so-called "shaving geometry", i.e. the parameters which determine the blade orientation and position relative to the skin during shaving. ~ The present invention is especially concerned with the guard and/or cap of a razor blade unit.
It is known to provide a skin engaging guard or cap with surface configurations intended to produce pleasant tactile sensations during shaving, for example as described in US-A-5191712.
The present invention aims to provide an improved surface structure on a cap or guard and in accordance with this object the invention resides in a safety razor blade unit having at least one elongate blade, and a skin engaging member defining a surface for contact with the skin during shaving, said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of a resiliently flexible material whereby the upper ends of the projections can deflect locally under forces encountered during shaving.

Accordingly, there is provided a safety razor blade unit comprising at least one elongate blade, and a skin engaging member defining a surface for contact with the skin during shaving,
characterized in that said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of resiliently flexible material whereby the upper ends of the projections can be deflected locally under forces encountered during shaving.
Conveniently the projections can take the form of tubes which may
be arranged in one or more rows extending along the base generally
parallel to the

razor blade edge(s), with at least 10 tubes per row. Suitably the projections have
a height in the range of 0.38mm to 1.5mm, preferably about 0.75mm, an outer
diameter from 0.40mm to 3.00mm, preferably about 0.60mm, and with the wall
thickness at the base to height ratio being between 1:1 and 1 : 1-5, preferably around
1:7.5. An appropriate spacing between adjacent projections, at least in the
direction parallel to the blade edge(s), is in the range from 0. 10mm to a distance
equal to the maximum dimension of the projection measured in said direction, the"
spacing in a currently preferred embodiment being 0.20mm. If desired adjacent
projections can be interconnected, such as by membranes moulded integrally with
the projections.
The projections may be of constant internal and external diameter, but they can also taper in either direction along their length, both inside and/or outside. A
V
suitable wall thickness for the hollow projections" has been found to be around 0. 10mm, at least at then" upper edges. It is not essential for the projections to be completely annular in cross-section and they can have one or more longitudinal slots extending over their full height or only part of their height.
In the preferred embodiments described in more detail below, tubes of circular in cross-section are provided but this is not essential and other cross-sectional shapes are possible, such as elliptical, square or D-shaped.
The upper end faces of the projections can be substantially flat and coplanar. Alternatively the upper end faces may be inclined forwardly and downwardly toward the base. Also the upper edges of the projections may be rounded off, at least at the fronts of the projections.
With a razor blade unit according to the invention the projections forming the skin contacting surface of the skin engaging member, because they are hollow and open at the top, can be more responsive to local forces during shaving, e.g. due to a hair being encountered, than solid projections and as a consequence there may be less tendency for hairs to be deflected laterally by the projections. Furthermore, the hollow projections form pockets in which moisture or a shaving
preparation, such as shaving soap or the like, applied to the skin to facilitate the shaving operation, can collect in small amounts. A shaving preparation generally serves to lubricate the skin. Any preparation collected in the pockets may assist in lubricating the skin, e.g. at the end of a shave when most of the preparation applied will have been removed, or perhaps at the beginning of a shave if the skin has not been well prepared. The skin engaging member could even be supplied with the pockets containing shaving enhancement product or possibly communicating with a reservoir of such a product to be dispensed through the pockets, in essentially the same manner as described in relation to the pocketed skin engaging members disclosed in our International patent application No. PCT/US95/08634 (WO96/02369). With the present invention delivery of product from the pockets may be enhanced by a pumping action due to the projections flexing as the skin contacting member moves across the surface of the skin.
Some embodiments of the invention are described in more detail below with reference to the accompanying drawings, in which:-
Figure 1 shows in perspective a skin contacting member for a blade unit according to the invention;
Figure 2 is a plan of the skin engaging member;
Figure 3 is a cross-section taken along the line A-A of Figure 2
Figures 4 and 5 are front and end elevational views of the skin engaging member;
Figures 6 to 17 are enlarged cross-sectional views of alternative forms of hollow projection;
Figure 18 is a plan view of a projection of a modified embodiment;
Figure 19 is a front elation of the projection shown in Figure 18;
Figure 20 is a front elevation showing a projection with an inclined top face;
Figure 21 is a cross-section through the hollow projection of Figure 20;
Figure 22 is a cross-sectional view showing a projection with a top edge
which is rounded off at the front, and
Figures 23, to 26 show in plan respective alternative shapes for the projections.
The skin engaging member 1 illustrated in Figures 1-6 is intended to form either a cap, or more probably a guard surface in a safety razor blade unit having one or more elongate blades. The member 1 is elongated and will be mounted on a frame of the blade unit to extend in parallel with the blades. The member 1 is moulded in one piece of an elastomeric material, e.g. rubber or a thermoplastic elastomer such as that sold under the Trade Mark KRATON. It includes a rectangular base 2 from which extend upwardly, cylindrical open-topped hollow projections or tubes 3. The tubes are arranged in four longitudinal rows in which the tubes 3 are equally spaced at a distance not^greater than the outer diameter of the tubes, and the tubes of alternate rows are longitudinally staggered by a' distance which is half the centre-to-centre pitch P of adjacent tubes in the same row. As a consequence, tubes of adjacent rows overlap in the longitudinal direction, and as shown they also overlap in the front to rear direction. The dimensions are as follows:
Base length-1 : 30.00mm
Base width - w : 2.5 mm
Tube height - h : 0.75 mm
Tube outer diameter - d, : 0.60 mm
Tube inner diameter - d2 : 0.40 mm
Tube wall thickness-1 : 0.1 mm
Tube pitch (in each row) -p : 1.23 mm
Number of tubes per row : 24
Total number of tubes : 96
The tubes 3 have a constant circular cylindrical cross section as clear%'-illustrated in Figure 6. However this particular tube shape is not essential and Figures 7 to 11 illustrate alternative shapes as follows:
In Figure 7 the hollow interior tapers towards the base from a maximum inner diameter of 0.4mm to a minimum inner diameter of 0.1mm;
In Figure 8 the exterior is frusto-conical and tapers from a diameter of 0.7mm at the base to 0.6mm at the top, the inner diameter being constant at 0.4mm;
In Figure 9 the exterior is frusto-conical as in Figure 8, and the hollow interior tapers towards the base and has a maximum diameter at the top of 0.25mm so that a greater wall thickness is obtained; ^
hi Figure 10 the exterior is frusto-conical as in Figs 8 and 9, and the interior has a corresponding frusto-conical shape so. that the wall thickness, remains constant over the full height and the inner diameter increases from 0.4mm at the top to 0.5mm at the base;
hi Figure 11 an inverted frusto-conical shape with a constant wall thickness is shown, the maximum inner diameter at the top being 0.5mm and the maximum inner diameter at the base being 0.4mm;
In Figure 12 another inverted frustoconical shape is shown, the inner diameter being constant at 0.3mm whereas the outer-diameter increases from 0.5mm at the base and the top peripheral edge of the tubular projection is rounded off at a radius of 0.1mm;
hi Figures 13 and 14 the tubular projections are as shown in Figures 8 and
9 respectively, except mat in each case the outside diameter at the base is 0.75mm;
In Figure 15 is shown a tubular projection having the same external form of the projection of Figure 14, but with a larger inner diameter at the open top end where the wall thickness is minimum and about 0.1mm;
In Figure 16 the illustrated tubular projection is the same as that of Figure
10 other than that the outer diameter at the base is 0.75mm, and the inner diameter
at the base is 0.55mm, the wall thickness being uniform at 0. IHK ;- and
In Figure 17 the tubular projection is similar in shape to that of Figure 11, but the diameters are reduced, the outer diameter at the base being 0.5mm, and the inner diameter increasing from 0.3mm at the base to 0.4mm at the open end, the wall thickness being constant at 0.lmm.
In the embodiments described above the projections have completely annular cross-sections, but in the modified embodiment of Figures -18 and 19, the tubular projection has a longitudinal slot extending the full height of the tube at the front of the tube. Apart from the slot, which has a width of 0.1mm, the tubular projection is of the same shape and size as in the embodiment of Figures 1-6. The slot could be provided at other positions, and additional slots could also be provided.
hi all of the embodiments described abo.ve the tubular projections have a height of 0.75m and are essentially flat-topped in-as much that the height is the same around the projection periphery. This is not crucial and it may be beneficial for the upper edge of the projection to be relieved, in particular in the forward facing direction. Figures 20 and 21 illustrate an example of a tubular projection 3 basically the same as the projections of Figures 1 to 6, but having a forwardly and downwardly inclined top face 10, the downward inclination being at an angle a of about 30°. Figure 21 shows an alternative modification according to which the front edge 11 at the upper end of the tubular projection 3 is rounded off at a radius of 0.3mm. While illustrated in relation to tubular projections as in Figures 1 to 6, the inclined top face 10 and rounded edge 11 modifications of Figures 20 to 22 can be applied to any of the embodiments of Figures 7 to 19, and to the modified embodiments described below.
All of the embodiments so far described have tubular projections of substantial circular cross-section. However, other cross-sections are also satisfactory, and some examples of other acceptable cross-sections are illustrated in Figures 23 to 26. The projection 3 in Figure 23 is square in cross section, the wall thickness t being 0.1mm, the exterior-fraying a side length S, of 0.6mm and
the interior having a side length S2 of 0.4mm. The tubular projection of Figure 24 is substantially D-shaped in cross-section, being essentially the square section of Figure 23 with one side replaced by a semi-circular wall with an inside radius r, of 0.2mm and an outside radius r2 of 0.3mm. The semi-circular wall could be arranged to face either forwardly or rearwardly. The cross-section of the tubular projection shown in Figure 25 has the same external profile as that of Figure 24, but the internal profile is circular with a diameter of d2 of 0.4mm. Finally, Figure-26 shows a projection having a cross-section shaped as an open-sided square and is the same as the projection of Figure 23 but with the rear wall omitted. It will be appreciated that projections with the cross-sections of Figures 23 to 26 could be arranged to taper internally and/or externally as in the various projections of Figures 7 to 17. Of course other cross-sectional shapes are also possible such as triangular, elliptical or oral.
While in any particular embodiment all the projections can conveniently be of the same shape and size, this is not essential and projections of different form could be combined in the same embodiment.
The material of the skin engaging member will have a flexibility appropriate for the particular shape and size of projections provided, but a hardness of less than 90 shore A will normally be appropriate.

WE CLAIM:-
1. A safety razor blade unit comprising at least one elongate blade,
and a skin engaging member defining a surface for contact with
the skin during shaving,
characterized in that said surface being defined by spaced hollow projections extending upwardly from a base and open at their upper ends, the projections being formed of resiliently flexible material whereby the upper ends of the projections can be deflected locally under forces encountered during shaving.
2. A safety razor blade unit as claimed in claim 1, wherein the
projections are located on the base in a geometric pattern of the kind suchas herein described

3. A safety razor blade unit as claimed in claim 1, wherein the
projections are located in at least one row extending along the base
in a direction generally parallel to the blade edge(s).
4. A safety razor blade unit as claimed in claim 3, wherein there are
at least three parallel rows of projections, and the projections in
one row are longitudinally offset with respect to the projections of
an adjacent row.
5. A safety razor blade unit as claimed in claim 4, wherein the
projections have an external dimension measured longitudinally of
a row which is greater than the spacing between adjacent
projections in the same row.
6. A safety razor blade unit as claimed in anyone of claims 1 to 5,
wherein the hollow interiors of the projections extend to the level of
the upper surface of the base.

7. A safety razor blade unit as claimed in anyone of claims 1 to 6,
wherein the hollow interiors of the projections taper along the
projections.
8. A safety razor blade unit as claimed in claim 7, wherein the hollow
interiors taper towards the base.
9. A safety razor blade unit as claimed in anyone of claims 1 to 8,
wherein the projections have walls of constant thickness along the
projections.
10. A safety razor blade unit as claimed in anyone of claims 1 to 9,
wherein the projections are circular in cross-section.
11. A safety razor blade unit as claimed in anyone of claims 1 to 10,
wherein at least some projections have slots extending downwardly
from their upper ends.
12. A safety razor blade unit as claimed in claim 1 1, wherein the slots
extend the full height of the projections.
13. A safety razor blade unit as claimed in anyone of claims 1 to 9,
wherein the projections have a cross-sectional shape selected from
square, open-sided square or D shape.
14. A safety razor blade unit as claimed in anyone of claims 1 to 13,
wherein the projections have a wall thickness at the base, to height
ratio in the range of 1: 1 to 1: 15, preferably about 1:7.5.
15. A safety razor blade unit as claimed in anyone of claims 1 to 14,
wherein the upper end faces of the projections are inclined
downwardly and forwardly towards the base.

16. A safety razor blade unit as claimed in anyone of claims 1 to 15,
wherein the external edges at the upper ends of the projections are
rounded off at the fronts of the projections.
17. A safety razor blade unit as claimed in anyone of claims 1 to 16,
wherein the adjacent projections are interconnected by membranes
integrally moulded with the projections and the base.
18. A safety razor blade unit substantially as hereinbefore described
with reference to and as illustrated in the accompanying drawings.

Documents:

47-del-1997-abstract.pdf

47-del-1997-claims.pdf

47-del-1997-correspondence-others.pdf

47-del-1997-correspondence-po.pdf

47-del-1997-description (complete).pdf

47-del-1997-drawings.pdf

47-del-1997-form-1.pdf

47-del-1997-form-13.pdf

47-del-1997-form-19.pdf

47-del-1997-form-2.pdf

47-del-1997-form-3.pdf

47-del-1997-form-4.pdf

47-del-1997-form-6.pdf

47-del-1997-gpa.pdf

47-del-1997-petition-137.pdf

47-del-1997-petition-138.pdf

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Patent Number

214770

Indian Patent Application Number

47/DEL/1997

PG Journal Number

09/2008

Publication Date

29-Feb-2008

Grant Date

15-Feb-2008

Date of Filing

07-Jan-1997

Name of Patentee

THE GILLETTE COMPANY

Applicant Address

PRUDENTIAL TOWER BUILDING, BOSTON, STATE OF MASSACHUSETTS 02199, U.S.A.

Inventors:

#	Inventor's Name	Inventor's Address
1	BERNARD GILDER	51 LINCOLN GARDENS, TWYFORD, BERKSHIRE RG10 9HU, ENGLAND.
2	RICHARD GARRAWAY	5 CEDAR WAY, GUILFORD GUI IJH, U.K.

PCT International Classification Number

B26B 21/22

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	9600620.0	1996-01-12	U.K.