A RAZOR ASSEMBLY BACKGROUND OF THE INVENTION Field of the Invention The invention relates to wet shaving implements, and is directed more particularly to a razor assembly which, as a whole, is subject to vibratory movement. Which has disposed therein a blade assembly which is pivotally movable on a handle assembly during a shaving operation, the blade assembly having individual blade assembly components therein which are independently movable during the shaving operation.
Description of the Prior Art It is known in the art to provide a razor blade assembly which may be connected to, and used in conjunction with, a razor handle to facilitate shaving operations. U.S. latent No. 3,724,070, issued April 3, 1973, in the name of Francis W. Dorion, Jr. shows a blade assembly in which blade means are held between blade assembly surfaces adapted to engage the surface being shaved in front of and behind, respective¬ ly, cutting edge portions of the blade means. Such surfaces are generally referred to as "guard" and "cap".
It is further known that shaving efficiency of such a safety razor assembly may be improved if the blade assembly is adapted to pivot on the razor handle during a shaving operation, permitting the blade assembly to more closely follow the contours of a
S' -'v " - - ****' '
surface being shaved. U.S. Patent No. 3,935,639, issued February 3, 1976, in the name of John C. Terry, et al, and U.S. Patent No. 3,938,247, issued February 17, 1976, in the name of Nelson C. Carbonell, et al, are illustrative of razor handles adapted to accept the blade assembly of the *070 patent in such manner as to permit pivotal movement of the blade assembly during a shaving operation. U.S. Patent No. 3,950,849, issued April 20, 1976, in the name of Roger L. Perry, illustrates a modified blade assembly adapted for pivotal movement. U.S. Patent No. 4,026,016, issued May 31, 1977, in the name of Warren I. Nisse'n, and U.S. Patent No. 4,083,104, issued April 11, 1978, -in the name of Warren I. Nissen, illustrate, respectively, a blade assembly and razor handle comprising a shaving system in which the blade assembly pivots on the handle during shaving.' The- shaving system shown in the* '016 and '104 patents has become well known world-wide. Another means by which increased shaving efficiency may be obtained is that of retaining the blade assembly, as a whole, stationary but permitting movement of individual components thereof in response to forces encountered during shaving. In U.S. Patent No. 4,168,571, issued September 25, 1979, in the 'name of John F. Francis, there is shown a blade assembly in which the guard, cap and blade means are each movable independently of each other in dynamic fashion. U.S. Patent No. 4,270,268, issued June 2 , 1981, in the name of Chester F. Jacobson, shows a blade assembly in which the guard and blade means are independently movable.
In U.S. Patent No. 4,492,024, issued January 8, 1985, in the name of Chester F. Jacobson, there is disclosed a safety razor blade assembly adapted for pivotal movement, as a whole, on a razor handle during a shaving operation, and further having blade means movable within the blade assembly in response
to forces encountered during a shaving operation.
In U.S. Patent No. 4,498,235 issued February 12, 1985, in the name of Chester F. Jacobson, and in U.S. patent application Serial No. 660,950, filed October 15, 1984 in the name of Chester F. Jacobson, and in U.S. patent application Serial No. 660,952, filed October 15, 1984 in the name of Chester F. Jacobson, there are disclosed particular embodiments of razor blade assemblies of the '024 type. In U.S. Patents 3,648,368 and 3,772,779, issued respectively, on March 14, 1972 and November 20, 1973, both in the names of Paul W. Douglas and Joseph E. Koehler, there are disclosed razors having handle portions in each of which is mounted an electric motor, a shaft rotatable by the motor, and a weight eccentrically mounted on the free end of the shaft, ■ rotation of the shaft operating to cause vibration of the razor, and particularly the head portion thereof, to impart a slicing motion to blade means. A feature of the present invention is the provision of a safety razor assembly comprising a blade assembly and a handle assembly, means for pivotally interconnecting the blade and handle assemblies such that the blade assembly may move pivotally on the handle assembly during a shaving operation, the blade assembly having two blades therein, each of said blades being mounted for movement independently of each other and of the remainder of the blade assembly during a shaving operation, and the handle assembly having mounted therein means for causing vibration of the entire razor assembly and ocillatory movement of the blade assembly to effect a slicing motion of the two blades.
The above and other features of the invention, including various novel details of construction and com- binations of parts, will now be more particularly described with reference to the accompanying drawings and pointed out in the claims. It will be understood
that the particular device embodying the invention is shown by way of illustration only and not as alimitation of the invention. The principles and features of this inyention may be employed in various and numerous embodiments without departing from the scope of the invention.
DESCRIPTION OF THE DRAWINGS Reference is made to the accompanying drawings in which is shown an illustrative embodiment of the invention from which its novel features and advantages will be apparent.
In the drawings:
Fig. 1 is a top plan view of a housing portion of one form of blade assembly illustrative of an embodi- ment of the invention;
Fig. 2 is a front elevational view thereof; Fig. 3 is a-top plan view of one form of blade assembly illustrative of an embodiment of the invention; Fig. 4 is a front elevational view thereof; Fig. 5 is a sectional view of the blade assembly, taken along the line V-V of Fig. 3;
Fig. 6 is a top plan view of another form of blade assembly illustrative of an alternative embodiment of the invention having a shaving aid incorporated therein;
Fig. 7 is a side elevational view of one form of handle assembly illustrative of an embodiment of the invention;
Fig. 8 is a front elevational view thereof; Fig. 9 is a back elevational view thereof;
Fig. 10 is a sectional view of the blade assembly attached to the handle assembly, taken generally along the length-wise centerline of the blade assembly with parts broken away for greater clarity; and Fig. 11 is a sectional view of the razor handle assembly, shown attached to the blade assembly, which is shown in elevation.
DESCRIPTION OF THE PREFERRED EMBODIMENT Referring to the drawings, it will be seen that the illustrative razor blade assembly includes a body member 2 having first and second end portions 4, 6.interconnected by front and back wall portions 8, 10. Frame portions 12 extend width-wise of the body member, interconnecting the front and back walls 8, 10.
The back wall portion 10 of the body member 2 has an upper portion 14 which engages skin being shaved behind the cutting means of the assembly, thereby fulfilling the functions and occupying the position of the "cap" portion of conventional razor blade assemblies. Such portion 14 shall, for that reason, be referred to hereinafter as the "cap portion" . Each of the end portions 4, 6 is provided with opposed slots 16 disposed transversely to the frame portions 12. One of the frame portions 12 near the first end portion 4 is provided with a spring finger 18 extending therefrom generally parallel to the front and back walls 8, 10. The finger 18 is provided with an upturned end portion 20 having an upper surface 22. In like manner, another of the frame portions 12 near the second end portion 6 is provided with a spring finger 18' of similar configuration, with upturned end portions 20' having upper surfaces 22'. The fingers 18, 18' extend in opposite directions, the finger18 extending toward the first end portion 4 of the body member 2 and the finger 18' extending toward the second end portion 6 of the body member. The fingers 18 and 18' are aligned with each other and with a pair of the slots 16. The first end portion 4 is provided with spring fingers 17 extending therefrom inwardly and upwardly of the body member, as viewed in Figs. 1 and 2. Each of the fingers 17 is provided with an upturned end portion 19 having an upper surface 21. In like manner, the second end portion 6 is provided with spring fingers 17' of similar configuration, with upturned end portions 19'
having upper surfaces 21'. The fingers 17, 17* extend in generally opposite directions, the fingers 17 extend¬ ing from the first end portion 4 generally toward the second end portion 6, and the fingers 17' extending from the second end portion 6 generally toward the first end portion 4. The fingers 17, 17' are each aligned with a pair of the slots 16.
The assembly includes a guard portion 24 (Figs. 3-6) having a slide member 26 at either end thereof. The slide members 26 are received in a pair of opposed slots 16 nearest the front wall portion 8. The bottom of the guard portion rests upon the surfaces 22, 22' of the spring fingers 18, 18'. The lower edges of the slide member 26 rest above the bottoms of their - slots 16, allowing the guard portion 24 to be moved further into the slots, against the bias of the spring fingers 18, 18' therebeneath. The spring fingers supporting the guard portion comprise a set of spring fingers, the object of which is to resiliently support the guard portion. In a shaving operation, the guard portion travels over the surface being shaved ahead of the cutting means.
The assembly further includes blade means 28 (Figs. 3, 5 and 6) comprising a blade base portion 30, a cutting edge portion 32 extending from the base "portion, and slide portions at either end of the base portion. The slide portions which may be merely extensions of the blade base portion 30, are received in a pair of the opposed slots 16. An underside 34 (Fig. 5) of the blade cutting edge portion 32 is engaged by the surfaces 21,
21' of a pair of the spring fingers 17, 17'. Simultane¬ ously, a surface of the blade base portion 30 is engaged by the rearward surfaces 23, 23' (Figs. 1 and 5) of the finger end portions 19, 19' to urge the blade base portion rearwardly in its slots 16, as shown in Fig. 5. Lower edges of the slide portions are spaced from the bottoms of their slots to permit movement of the blades
further into the slots 16 against the bias of the spring fingers 17,, 17' on which the blade base portion rests. The spring fingers supporting the blade base portion 30 comprise another set of spring fingers, the object of which is to resiliently support the blade means thereon and urge the blade means into a secure position within the slots 16.
In the embodiment illustrated, the blade means include a second blade 28' (Fig. 5) having a base portion 30', a cutting edge portion 32', and slide portions, all anchored similarly to the above-described first blade means. The slide portions of the second blade are received in a third pair of the opposed slots 16 nearest the cap portion 14 with the base portion 30' resting upon spring finger surfaces 21, 21'. The spring fingers supporting the second blade comprise still another set of spring fingers, which resiliently support the second 'blade and urge the second blade into a secure position in the slots 16. In a shaving operation, the second blade travels over the surface being shaved behind the first blade.
The guard portion 24 and first and second blades 28, 28' are clamped in place by spring clamps 40 (Figs. 3-6) which are received in slots 42 (Figs. 1 and 2) in the end portions 4, 6. The clamps 40 engage the guard portion 24 and blades 28, 28' forcing them into slots 16 to a point where a slight stress is placed on the spring fingers.
On the underside of the body member 2 and the frame portions 12, are disposed two extensions 44, 46 having at their free ends, respectively, inwardly extend¬ ing opposed rails 48, 50, each rail having respective arcuate upper surfaces 52, 54 (Figs. 2 and 4) . The extensions comprise a pivot mounting means by which the blade assembly may be removably and pivotally attached to a razor handle. Referring to Figs. 2 and 4, it will be seen that the blade assembly body member underside is
additionally provided with cam means 56 adapted to receive a cam follower operative to urge the blade assembly to a given position.
Referring again to Figs. 2 and 4, it will be
_ s*een that the blade assembly rails 48, 50 in conjunction with undersurfaces 94, 96 of the body member 2, and arcuate struts 95, 97, define arcuate slots 98, 100 adapted to receive razor handle shell bearings described herein below. The shell bearings comprise a pivot mount- ing means adapted to cooperate with the above described blade assembly pivot mounting means to facilitate pivotal connection of the blade assembly to the razor handle assembly.
During a shaving operation, the guard portion 24 and the blades 28, 28' move independently of each other against the bias of the spring fingers. At the same time, the blade-supporting spring fingers keep he base portions of the blades in substantially their assigned planes by urging the blade bases rearwardly. Simultaneously, the blade assembly, as a whole, pivots on the handle, following the contours °f tne surface being shaved.
In Fig. 6, there is disclosed an embodiment in which one of the guard portion 24 and back wall portion 10 (the latter is illustrated) is provided with a" shaving aid 200 of the general type disclosed in U.S. Patents 2,292,418, issued August 11, 1942 to H.E. Wetherbee; and 4,170,821 issued October 16, 1979 to Anthony R. Booth; as well as U.K. Patent 2,024,082, application published January 9, 1980 and patent published May 6, 1982, in the name of Harry Pentney, et al.
The shaving aid 200 is preferably in the form of a body of material fixed to a skin-engaging surface, such as the cap portion 14 shown in Fig. 8 for illustrative purposes.
The shaving aid material preferably comprises a molded, extruded, or otherwise formed mixture of a
hydrophobic material and a water leachable hydrophilic polymeric material such that, during a shaving operation, water present on the area to be shaved leaches out the hydrophilic material which may serve as a lubricant. Alternatively, one or more of the guard and cap portions 24, 14 may be formed of the shaving aid mixture.
In operation, wetting the surface to be shaved with water prior to shaving causes, during shaving, leaching out. of a portion of the water-soluble material which serves to lubricate the shaving surface and reduce friction between the cap and/or guard portions of the blade assembly and the shaving surface. Thus, comfortable and effective shaving can be obtained by simply wetting the shaving area prior to shaving.
Referring to Figs. 7-10, it will be seen that an illustrative embodiment of the invention includes a razor handle assembly 70 having a grip portion 72. One end of the grip portion 72 is provided with a recess 74 (Fig. 7) in which is disposed a molded plastic head portion 76 comprising two arms 78, 80 joined by a connecting portion 82, which may be secured together by pins 83, as illustrated in Fig. 10. The grip portion 72 is further provided with a cover member 86 including a pair of projections 88 (Fig. 10) which are disposed against the connecting' portion 82 in a manner securely locking the head portion 76 to the grip portion 72. Each of the arms 78, 80 has disposed on its free end, respectively, a shell bearing 90, 92. In the handle recess 74, there is disposed a coil spring 102 and a plunger member 104, the spring biasing the plunger in the direction of a free end 106 of the plunger member 104. When the blade assembly is connected to the handle assembly, the free end 106 of the plunger member 104 is urged by the spring 102 into engagement with the blade assembly cam means 56. During pivoting operation of the blade assembly, the
plunger end 106 bears against the cam means 56 to urge the blade assembly to a given position, the position in which the plunger end 106 rests at an apex of the cam means 56. Referring particularly to Fig. 10, it will be seen that the arms 78, 80 extend beyond the sides of the handle and are accessible to an operator. The arms 78, 80 are biased outwardly by a leaf or wire spring 81 disposed in the head portion 76. To connect the blade assembly to the handle assembly, the operator presses the arms 78, 80 inwardly, toward each other, against the bias of the spring 81, moving the shell bearings 90, 92 toward each other.
The plunger member 104 is provided with oppositely extending arms 107, 108 (Fig. 10) , each having upstanding therefrom a detent 110, 112. Each of the shell bearings 90, 92 is provided with an open¬ ing 114, 116 adapted to receive, respectively, the detents 110, 112. As the shell bearings 90, 92 are pressed inwardly toward one another, the openings 114, 116 align with the detents 110, 112, respectively. Upon such alignment, the spring 102 urges the plunger member 104, and thereby the detents 110, 112 upwardly, as viewed in Fig. 10, such that the detents 110, 112 enter the openings 114, 116, to lock the arms 78, '80 in an inwardly-flexed position. Upon release of the"arms 78, 80 by the operator, the arms remain locked in the inwardly-flexed position.
The shell bearings 90, 92 are then pressed against the blade assembly underside arcuate struts 95, 97, forcing the plunger member 104 downwardly, as viewed in Fig. 10 and removing the detents 110, 112 from the openings 114, 116, the arms 78, 80 being thereby released. Upon release of the arms 78, 80, the arms spring outwardly in opposite directions away from each other, under the influence of the spring 81, the shell bearings 90, 92 entering the arcuate slots 98, 100.
The spring biased plunger member 104 engages the cam means 56, seeking the apex of the cam means and thereby urging the blade assembly to a "neutral" position.
During a shaving operation, the guard portion 24 and the blades 28, 28' move independently of each other against the bias of the spring fingers 18, 18'. Simultaneously, the blade assembly, as a whole, pivots on the handle, following the contours of the surface being shaved. When it is desired to discard a used blade assembly, the operator need only compress the arms 78, 80, removing the shell bearings 90, 92 from the arcuate slots 98, 100 and releasing the blade assembly.
Disposed in the handle assembly 70 is a battery 308 and an electric motor 310 (Fig. 11) .
Extending from the motor 310 in the direction of the head portion of the razor is a rotatable shaft 312 on the free end of which is disposed a weight 314. The weight 314 is mounted eccentrically on the shaft so that the center of gravity of the weight is removed from the axis of rotation of the weight. Illustrated in Fig. 11 is a flywheel type weight, mounted such that its center of gravity is removed from the axis of rotation of the shaft 312. Also disposed in the handle member is a switch means 318.
The switch 318 is mounted for rotative motion and may be rotated by movement of an end piece 338, as by a thumb or finger of an operator.
In operation, an operator rotates the switch 318. Electrical energy from the battery 308 is directed to the motor 310. Energization of the motor 310 causes rotation of the shaft 312 and thereby rotation of the * eccentrically mounted or unbalanced weight 314. The eccentricity of the weight mounting i.e., the dis- placement of the center of gravity of the weight from the axis of rotation of the weight, and the disposition of the weight proximate the head portion induces
vibration of the head portion and therefore the blade. Such vibration imparts an oscillating slicing motion to the blades 28, 28' whereby to facilitate ease of cutting. It is to be understood that the present invention is by no means limited to the particular con¬ struction herein disclosed and/or shown in the drawings, but also comprises any modifications or equivalents within the scope of the disclosure. For example, it is preferable under certain conditions that the guard portion be immovable. An alternative embodiment in-- eludes a guard portion fixed immovably to the blade assembly body member, but in all other respects structured and operated in accordance with the above description. As a further example, the blade means may include a single blade, rather than the two blade arrangement described, the single blade being used in conjunction with either a movable or stationary guard portion. Still further, while the blade means is shown in the drawings, particularly Fig. 5, as a single piece of metal, bent to form the base and cutter portions, an alternative is to provide a bent support member with a thin blade connected thereto, as is known in the art.