The present invention relates generally to electric shavers and, more particularly, to rotary electric shavers.
Rotary electric shavers conventionally include a handle and a head mounted on the handle and carrying two or more sets of paired inner and outer cutter blades. The outer cutter blades, which are typically circular in shape, are supported by a frame of the shaver head and typically define the skin contacting surface of the shaver along with the outer surface of the shaver head. Openings or slots formed in the outer cutter allow hair to protrude through the outer cutter below an inner surface thereof as the shaver is moved over a user's skin. Inner cutter blades are housed in the shaver head below the outer cutter in sliding engagement with the inner surface of the outer cutter. The inner cutter blades are rotatably driven by an electric motor, typically housed within the handle, whereby rotation of the inner cutter acts to cut hairs protruding through the outer cutter.
In current rotary electric shaver constructions, the frame and the outer cutters together define the outer skin-facing or skin-contacting surface of the shaver, with the outer cutters each extending individually outward of the frame. However, when shaving with a rotary shaver, the outer cutters must pass over the user's various skin contours. The transition of the outer cutter over the skin surface is thus often not smooth and can be abrupt. The smoother the transition is over the entire skin-facing outer surface of the shaver head (e.g., from the frame to the outer surface of the outer cutter), the more comfortable the shaving experience will be.
With this current construction, as the shaver is moved over the user's face the skin is forced up over the edges of the outer cutters. This action causes the skin to drag, or become pinched, and the shaver does not glide smoothly onto the top surface of the outer cutter.
There is a need, therefore, for a rotary electric shaver that facilitates a smoother, more comfortable shave.
In one embodiment, an electric rotary shaver generally includes a handle assembly including a housing, a motor disposed in the housing, a plurality of drive shafts operatively connected to the motor and extending at least in part exterior of the housing, and a head assembly mount separate from the plurality of drive shafts, wherein the head assembly mount has a longitudinal axis. A shaver head assembly is positionable on the handle assembly, and the shaver head assembly has a circumference and includes a plurality of inner cutters each operatively connectable to a respective one of the drive shafts for conjoint rotation therewith, and a plurality of outer cutters each corresponding to a respective one of the inner cutters. The shaver head assembly is configured for mounting on the head assembly mount such that the shaver head assembly is capable of pivoting movement relative to the handle housing about the entire circumference of the shaver head assembly.
In another embodiment, a shaver head assembly for an electric rotary shaver is provided. The electric rotary shaver has a handle including a housing, a motor, and a plurality of drive shafts accessible by the shaver head assembly exterior of the housing. The shaver head assembly is positionable on the handle assembly and generally includes a plurality of inner cutters each operatively connectable to a respective one of the drive shafts of the shaver for conjoint rotation therewith. A plurality of outer cutters each corresponds to a respective one of the inner cutters, and a plurality of cutter cases each corresponds to a respective one of the outer cutters and is configured to support the respective one of the outer cutters on the shaver head assembly. Each cutter case is releasably mountable on the shaver head assembly independent of other cutter cases and is removeable from the shaver head assembly while the shaver head assembly is positioned on the shaver handle assembly.
In yet another embodiment, a shaver head assembly for an electric rotary shaver is provided. The electric rotary shaver has a handle assembly including a housing, a motor, and a plurality of drive shafts accessible by the shaver head assembly exterior of the housing. The shaver head assembly is positionable on the handle assembly and generally includes a plurality of inner cutters each operatively connectable to a respective one of the drive shafts of the shaver for conjoint rotation therewith. The plurality of outer cutters each corresponds to a respective one of the inner cutters, and a plurality of cutter cases each corresponds to a respective one of the outer cutters and is configured to support the respective one of the outer cutters on the shaver head assembly. Each cutter case includes an annular body having an upper skin contacting surface and a peripheral skin contacting surface circumscribing and depending from the upper skin contacting surface to define an angle of the peripheral skin contacting surface relative to the upper skin contacting surface. The upper skin contacting surface has a width, and at least one of the width of the upper skin contacting surface and the angle of the peripheral contacting surface relative to the upper skin contacting surface is non-uniform about at least a portion of the cutter case.
Corresponding reference characters indicate corresponding parts throughout the several views of the drawings.
Referring now to the drawings, and in particular to
In the illustrated embodiment, referring again to
The illustrated base 310 further comprises a plurality of feet 328 projecting from a bottom surface 330 of the base 310 to facilitate maintaining a predetermined minimum spacing between the base 310 and the head assembly mount 200 of the handle assembly 102 when the hair retention assembly 300 is inserted into the upper receptacle 112. Suitably, a plurality of seals 332 (shown in
With particular reference to
The illustrated pin 352 comprises a generally hollow body 368, an open base 364 at one end, and a tip 366 at the opposite end. The base 364 has a plurality of guides 370 extending transversely outward therefrom, wherein each guide 370 is sized to slide within one of the channels 360 of the cap 348 such that the pin 352 is floatable upward and downward in the cap 348. Suitably, the body 368 is externally sized (e.g., in transverse cross-section) such that a space is left between the body 368 and the sidewall 356 of the cap 348 when the pin 352 is inserted into the cap 348 to facilitate pivoting movement of the pin 352 within the cap 348. The body 368 is also sized internally (e.g., in transverse cross-section) to receive the biasing member 350 such that the pin 352 is biased away from the bottom wall 354 of the cap 348. Additionally, the tip 366 of the pin 352 is generally cross-shaped to facilitate transferring torque from the cap 348 to the cutter frame assembly 400 during a shaving operation, as described below.
Referring again to
In the illustrated embodiment of
Referring back to
Each of the illustrated cutters 446 comprises a cup-shaped outer cutter 464 (
Each cutter case 448 comprises an annular body 480 having a top section 482 and a generally cylindrical bottom section 484. The top section 482 forms an inner flange 486 (illustrated in
The illustrated top section 482 of the cutter body 480 comprises an annular upper skin contacting surface 492 and a peripheral skin contacting surface 494 circumscribing and depending from the upper skin contacting surface 492. Specifically, the peripheral skin contacting surface 494 is angled generally transversely outward relative to the upper skin contacting surface 492. In the illustrated embodiment, the slope of the peripheral skin contacting surface 494 varies (i.e., is non-uniform) about the case 448, such that a first annular segment 496 of the peripheral skin contacting surface 494 is oriented at a first angle α1 relative to the upper skin contacting surface 492 and second, and in the illustrated embodiment opposite, annular segment 497 of the peripheral skin contacting surface 494 is oriented at a second angle α2 relative to upper skin contacting surface 492, wherein the second angle α2 is greater than the first angle α1. Additionally, a width of the upper skin contacting surface 492 varies (i.e., is non-uniform) about the case 448, such that a first annular segment 498 of the upper skin contacting surface 492, which is adjacent the first annular segment 496 of the peripheral skin contacting surface 494, has a first width W1 and such that a second annular segment 499 of the upper skin contacting surface 492, which is adjacent the second annular segment 497 of the peripheral skin contacting surface 494, has a second width W2 that is greater than the first width W1.
Suitably, the upper skin contacting surface 492 and/or the peripheral skin contacting surface 494 comprises one or more alignment elements (e.g., an alignment finger 493 in the illustrated embodiment) that facilitates indicating to a user an alignment of the case 448 relative to the locking indicator element (e.g., the dimple 460) and/or unlocking indicator element (i.e., the protrusion 462) of the upper cutter frame 444. Additionally, the upper skin contacting surface 492 and/or the peripheral skin contacting surface 494 may include ridges 495 that facilitate enabling a user to grip the case 448.
In one embodiment of a method of making a rotary shaver such as the rotary shaver 100, the head assembly mount 200 is inserted into the second end 108 of the handle assembly 102 and is mounted on the handle assembly 102 via suitable fasteners to form the upper receptacle 112. When the head assembly mount 200 is fastened to the handle assembly 102, the drive shafts 210 (i.e., the tips 212, the retaining rings 214, and the roughened surfaces 216) protrude through the head assembly mount 200 and into the upper receptacle 112 in a substantially triangular configuration, and the spring seat 202 projects into the upper receptacle 112 centrally between the drive shafts 210.
To assemble the hair retention assembly 300, the tray 302 is inserted into the boot 304 such that the boot 304 stretches to conform to the contours of the sidewall 312 of the tray 302 (i.e., such that the gripping portion 340 of the boot 304 firmly grips the sidewall 312, and the skirt portion 342 of the boot 304 loosely hangs from the gripping portion 340), and the tabs 344 of the boot 304 are inserted into the tab slots 326 of the tray 302 to support the boot 304 about the tray 302.
With the boot 304 in gripping engagement with the tray 302, the seals 332 are fastened to the bottom surface 330 of the base 310 of the tray 302 about the shaft apertures 316 such that the holes 334 of the seals 332 are substantially coaxially aligned with the shaft apertures 316. The spring 372 of the pivot assembly 308 is then seated on the head assembly mount 200 about the spring seat 202, and the tray 302 is inserted into the upper receptacle 112 such that the spring 372 is substantially coaxially aligned with the central bore 318 of the tray 302 and such that the drive shafts 210 extend through the holes 334 of the seals 332, through the shaft apertures 316, and into the hair pocket 314. Specifically, the tip 212, the retaining ring 214, and the roughened surface 216 of each drive shaft 210 are situated within the hair pocket 314 of the tray 302.
With the tray 302 positioned within the upper receptacle 112, the spring 372 biases the tray 302 away from the head assembly mount 200 to space the feet 328 of the tray 302 a distance apart from the head assembly mount 200. The screw 376 is then inserted through the washer 378, through the central bore 318, through the spring 372, and into the threaded bore 208 of the spring seat 202 to secure the tray 302 to the head assembly mount 200 such that the washer 378 substantially covers the central bore 318. The screw 376 is then tightened such that a space is left between the feet 328 of the base 310 and the head assembly mount 200 to facilitate permitting the tray 302 to pivot about the spring seat 202 (i.e., about a longitudinal axis Y (shown in
With the tray 302 secured to the head assembly mount 200, the torque transfer assemblies 306 are connected to the drive shafts 210. Specifically, the caps 348 are connected to the tips 212 of the respective drive shafts 210 such that the bottom walls 354 of the caps 348 are seated on the retaining rings 214 and such that the inner surfaces 362 of the ports 358 frictionally engage the roughened surfaces 216. After the caps 348 are connected to the drive shafts 210, the pins 352 are seated on the biasing members 350 within the caps 348 such that the hollow bodies 368 of the pins 352 receive the biasing members 350 and such that the guides 370 of the pins 352 are inserted into the channels 360 of the caps 348.
To assemble the cutter frame assembly 400, the biasing element 404 is seated on the lower cutter frame 402 about the spring seat 422 of the base 410. The cutter holders 406 are then connected to the lower cutter frame 402 such that the pivot arms 428 of the cutter holders 406 are inserted into the biasing element 404 and such that the sloped inner walls 416 of each holder support 408 are received within the gaps 442 of the respective cutter holder 406 (i.e., the prongs 430 are positioned below the lower surfaces 420 of the sloped inner walls 416, and the bowl 426 is positioned atop the upper surfaces 418 of the sloped inner walls 416). With the cutter holders 406 mounted on the lower cutter frame 402, the fastener 450 is inserted through the bore 424 of the base 410, through the biasing element 404, and into the central boss 454 of the upper cutter frame 444 to fasten the lower cutter frame 402 to the upper cutter frame 444.
The inner cutters 472 and the inner cutter stems 474 are then inserted into the cutter holders 406 (i.e., each inner cutter 472 is inserted into the respective cutter holder 406 with the inner cutter stem 474 suitably connected to the bottom surface 476 thereof). With the inner cutters 472 and inner cutter stems 474 inserted into the cutter holders 406, the outer cutters 464 are inserted into the cutter cases 448 and are seated against the inner flanges 486, and the buffer rings 470 are inserted into the cutter cases 448 against the outer cutters 464. Specifically, the outer cutters 464 are inserted into the cutter cases 448 such that the skin contacting surfaces 468 of the outer cutters 464 are exposed though the cutter cases 448 and are substantially parallel to the respective upper skin contacting surfaces 492 of the cutter cases 448.
With the outer cutters 464 positioned within the cutter cases 448, the cutter cases 448 are then fastened to the cutter holders 406 through the cutter ports 452 and about the inner cutters 472. Specifically, the alignment fingers 493 of the cutter cases 448 are aligned with the protrusions 462 of the upper cutter frame 444, and the locking members 490 of the cutter cases 448 are inserted into the tracks 432 of the cutter holders 406 via the inlet sections 436 of the tracks 432. The cutter cases 448 are then rotated such that the locking members 490 slide across the respective runner sections 440 of the tracks 432 and are secured within the cove sections 438 of the tracks 432. When the cutter cases 448 are secured to the cutter holders 406, the alignment finger 493 is aligned with the dimple 460 of the upper cutter frame 444.
After the hair retention assembly 300 is mounted on the handle assembly 102 and the cutter frame assembly 400 is assembled, the cutter frame assembly 400 is hingedly connected to the hair retention assembly 300 at the hinge 456, and the locking tab 458 of the upper cutter frame 444 engages the lock 337 of the tray 302. Moreover, when the cutter frame assembly 400 is mounted on the hair retention assembly 300, the pins 352 of the torque transfer assembly 306 are inserted through the bowls 426 of the cutter holders 406 to engage the inner cutter stems 474 (i.e., the tips 366 of the pins 352 engage the sockets 478 of the inner cutter stems 474) to facilitate operatively connecting each of the inner cutters 472 to a respective one of the drive shafts 210 for conjoint rotation therewith (i.e., to facilitate transferring torque from the drive shafts 210 to the inner cutters 472 when the rotary shaver 100 is operating).
During an exemplary operation of the rotary shaver 100, a user grasps the handle assembly 102 and glides the outer cutters 464 over the skin such that hairs from the skin are directed into the slits 466 of the outer cutters 464, wherein the hairs are cut via the rotating inner cutters 472 and are stored in the hair pocket 314 of the hair retention assembly 300 for subsequent disposal. As the outer cutters 464 glide over contours of the skin (e.g., the contours of the user's face), the outer cutters 464 and the cutter cases 448 are permitted to float up and down via the biasing element 404 to facilitate maintaining the outer cutters 464 in contact with the skin. Specifically, when rounding a contour, the pivot arms 428 of the cutter holders are permitted to compress the biasing element 404 such that the cutter holders 406 slide along the respective arms (i.e., the prongs 430 slide underneath the lower surfaces of the sloped inner walls 416, and the bowl 426 slides atop the upper surfaces 418 of the sloped inner walls 416). Optionally, in an alternative embodiment, the outer cutters may be permitted to float within, and relative to, the cutter cases 448.
To further facilitate maintaining the skin contacting surfaces 468 of the outer cutters 464 in contact with the skin when rounding contours of the skin, the head assembly 104 is permitted to float up and down within the upper receptacle 112 and/or to pivot relative to the handle housing 110 within the upper receptacle 112 in any direction about the entire circumference of the shaver head assembly 104 (i.e., pivot in 360 degrees about the longitudinal axis Y) via the spring 372 due in part to the space left between the feet 328 of the tray 302 and the head assembly mount 200. Moreover, the spring 372 biases the head assembly 104 generally longitudinally away from the handle housing 110 such that the head assembly 104 is moveable longitudinally toward the handle housing 110 against the bias of the spring in response to pressure applied to the head assembly 104 by a user of the shaver 100.
Additionally, because the spring 372 of the pivot assembly 308 is positioned in the upper receptacle 112 (i.e., exterior of the hair pocket 314) in the illustrated embodiment, rather than in the hair pocket 314, an accumulation of hair within the hair pocket 314 does not limit the pivot range of the head assembly 104. Additionally, when either the head assembly 104 and/or the cutter cases 448 float and/or pivot, the caps 348 of the torque transfer assemblies 306 maintain a fixed position relative to the drive shafts 210 because the caps 348 are seated atop the retaining rings 214. The pins 352 are also permitted to float and pivot within the caps 348 via compression of the biasing members 350, which facilitates maintaining a driving engagement between the pins 352 and the inner cutter stems 474 despite the floating and/or pivoting.
Because the first annular segments 496 of the peripheral skin contacting surfaces 494 are sloped at a lesser angle than the second annular segments 497 of the peripheral skin contacting surfaces 494, the transition of the skin from the upper cutter frame 444 to the upper skin contacting surfaces 492 of the cutter cases 448 is gradual to facilitate enabling the skin to slide smoothly from the upper cutter frame 444 up to, and subsequently down from, the upper skin contacting surfaces 492. Moreover, because the width W1 of the first annular segments 498 of the upper skin contacting surfaces 492 is greater than the width W2 of the second annular segments 499 of the upper skin contacting surfaces 492 and because the cutter cases 448 are arranged on the upper cutter frame 444 such that the second annular segments 499 of the upper skin contacting surfaces 492 face one another (i.e., are oriented toward the center of the head assembly 104), the combined surface area of the upper skin contacting surfaces 492 of the cutter cases 448 is greater proximate a central region of the upper cutter frame 444 to facilitate enabling a smoother transition of the skin across the head assembly 104 from any given cutter case 448 to the adjacent cutter cases 448.
Additionally, after a shaving operation, the user may empty the hair stored in the hair pocket 314 by unlatching the locking tab 458 from the lock 337 via the lock release button 114 and swinging the cutter frame assembly 400 away from the hair retention assembly 300 via the hinge 456. However, if the user desires to clean the cutters 446 without accessing the hair pocket 314, the user may grasp the cutter cases 448 (i.e., via the ridges 495), apply a downward force to the cutter cases 448, and rotate the cutter cases 448 relative to the cutter holders 406 such that the locking members 490 slide downward within the cove sections 438, back across the runner sections 440, and upward through the inlet sections 436, thereby releasing the cutter cases 448 from the cutter holders 406 to access the cutters 446 (i.e., each of the cutter cases 448 is individually releasable from the head assembly 104). When one of the cutter cases 448 is removed from the respective cutter holder 406, the outer cutter 446, the inner cutter 472, and/or the inner cutter stem 474 are removeable from within the cutter case 448 to facilitate cleaning the cutters 446. In one embodiment, when resecuring the cutter cases 448 to the cutter holders 406, the user may align the alignment finger 493 of the cutter case 448 with the protrusion 462 of the upper cutter frame 444 to insert the locking members 490 into the inlet sections 436 and may subsequently rotate the cutter case 448 toward the dimple 460 to engage the locking members 490 within the cove sections 438, thereby securing the cutter case 448 to the cutter holder 406.
When introducing elements of the present invention or the preferred embodiment(s) thereof, the articles “a”, “an”, “the”, and “said” are intended to mean that there are one or more of the elements. The terms “comprising,” “including”, and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements.
As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.
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