The present invention relates generally to hair clippers and hair trimmers, and more specifically to devices designed for enhancing the maintenance, cleaning and/or adjustment of clipper and trimmer bladesets.
Electric hair clippers and trimmers, collectively referred to here as clippers, conventionally use a removable bladeset including a stationary blade and a moving blade, which reciprocates laterally relative to the stationary blade. Hair which is caught between respective teeth of the moving and stationary blades is clipped as the moving blade teeth move past the stationary blade teeth under the power of an internal electric motor. For barbers and other professional hair stylists, collectively referred to as hair stylists, who use electric clippers, changes in the orientation of the tips of the moving blade relative to the fixed blade are known to provide different hair styling effects. Typically, the main effect of the blade position is to alter the cut length of the subject's hair. Another such effect is providing a sharp outline of the subject's hair relative to their neck, and also to provide geometric designs cut into the subject's hair. As such, hair stylists often have designated hair clippers which are intended to provide specific styling effects and have bladesets that are pre-adjusted.
Many types of conventional hair clippers are provided with blade mounting brackets having locating bushings which are adjustable by the hair stylist to achieve the desired stationary/moving blade tip spacing. Such locating bushings are conventionally held in place by threaded fasteners.
Other types of hair clippers are provided with an adjustment lever used to move the stationary blade relative to the moving blade as an alternate mechanism for providing the above-listed styling effects. Such adjustment levers allow the stylist to adjust the clipper as needed to achieve desired effects at the time of the styling operation. More specifically, one desired styling effect is to “taper” or “blend” the length of hair to effect the quality of the resulting hair style.
Another design criterion of hair clippers is that the bladesets need to be periodically removed from the hair clipper body for cleaning and/or maintenance. In most conventional clipper bladesets, this operation is accomplished by loosening and removing a threaded fastener that secures the bladeset to a bracket on the hair clipper. Depending on the hair clipper design, this removal of the bladeset may or may not require readjustment of the relative spacing of the blades during operation. Regardless, the bladeset removal operation is considered laborious by many hair stylists.
Thus, there is a need for an improved mechanism for removing hair clipper bladesets for cleaning and/or maintenance. There is also a need for an improved mechanism for removing hair clipper bladesets that preserves the pre-adjusted relationship of the moving blade to the stationary blade.
The above-listed needs are met or exceeded by the present apparatus for releasably locking a stationary blade to a hair clipper. A feature of the present apparatus is that the user can remove the stationary blade from the hair clipper without the use of tools. In addition, the fine adjustment of the stationary blade that has been set by the user prior to blade replacement is retained using the present apparatus. Thus, the operator easily removes the stationary blade for cleaning while retaining the pre-adjusted blade setting or the alignment between corresponding teeth of the stationary and the moving blade.
In the present apparatus, the removal of the stationary blade is achieved using a lever associated with a bracket used to retain the stationary blade to the clipper housing. At a pivot end, the lever is provided with a barrel and cam formation that preferably projects generally perpendicular to a longitudinal axis of an arm of the lever. The barrel and cam formation pass through a blade opening in the stationary blade, and also through a bracket opening in the bracket.
Preferably, the cam formation is constructed and arranged to engage the blade opening, and the cam has a lobe configured for passing through the bracket opening. The cam lobe has an oblong, irregular or non-circular shape, so that rotation of the arm causes the cam lobe to move between an unlocked position, in which the stationary blade is released from the clipper, and a locked position, in which the stationary blade is operatively retained on the clipper through engagement of the lobe with the bracket opening. It is also preferable that the bracket opening is non-circular, irregular and is generally complementary to the shape of the cam lobe.
To remove a locked stationary blade from the hair clipper, the user moves the lever from a first position to a second position, which rotates the position of the cam lobe relative to the bracket opening. Another feature of the present apparatus is that the lever arm is provided on a free end of the lever arm with a generally perpendicular stop. In use, a first side of the stop engages the bracket in the first or locked position, and a second, opposite side of the stop engages the bracket in the unlocked position. In other words, an entire operational stroke of the lever from one position to the other, opposite position, results in either locking or unlocking the cam lobe from the bracket opening, depending on the direction of movement of the lever.
Another feature of the present apparatus is that the lever includes a lobe axis which extends through opposed ends of the lobe, and an arm axis which extends through the free end and the pivot end of said arm. The lobe axis is inclined by an angle α relative to the arm axis. In an embodiment, the angle α is oblique. In another embodiment, the angle α is 45 degrees. In an embodiment, the barrel has a wave washer circumscribing an exterior of the barrel.
Another feature of the present apparatus is a securing mechanism extending through the lever proximate the pivot end for attaching the barrel and the cam to the arm.
Yet another feature of the present apparatus is that the lobe further includes a first opposed surface and a second opposed surface. The first opposed surface is closer to the arm than the second opposed surface. Opposing rounded corners are provided on the first surface, such that when the lever is rotated from the second, unlocked position to the first, locked position, the rounded corners slide along chamfered edges of the bracket opening.
In an embodiment, the barrel engages the arm at the pivot end, and the barrel and the pivot end are configured to be attached to each other using a keyed structure so that an axis of the lobe extends at a predetermined angle to an axis of the arm.
More specifically, an apparatus is provided for releasably locking a stationary blade to a hair clipper, and includes a stationary blade with a blade opening, and a bracket configured for fixing the stationary blade to the hair clipper. Also, the bracket has a bracket opening. An actuator in the apparatus has a locking formation engageable in the openings and is operable between a first, locked position locking the stationary blade to the bracket, and a second, unlocked position releasing the stationary blade from the bracket.
In another embodiment, an apparatus is provided for releasably locking a stationary blade to a hair clipper. The apparatus includes a stationary blade with a blade opening, a bracket configured for fixing the stationary blade to hair clipper, the bracket having a bracket opening, and an actuator having a locking formation engageable in the openings and operable between a first, locked position locking the stationary blade to the bracket, and a second, unlocked position releasing the stationary blade from the bracket.
The actuator is a lever including an arm with a free end and a pivot end, a barrel proximate the pivot end extending from the arm, having an outer periphery, and a stop having opposed sides, proximate the free end and extending from the arm. One of the opposed sides of the stop is in contact with the bracket when the lever is in either the first, locked position or the second, unlocked position, and another of the opposed sides is in contact with the bracket when the lever is in the other of the first, locked position or the second, unlocked position.
Referring now to
The bladeset 16 is secured to the housing 14 using a bladeset bracket 22. The bracket 22 is generally “U”-shaped when viewed from the rear as seen in
Between the bushing apertures 30 is a bracket opening 36 which is aligned with a main opening 38 in the bladeset bracket 22. In conventional hair clippers, a threaded fastener is used to fasten the stationary blade 18 to the bracket 22 through the main opening 38 and the bracket opening 36. An important feature of the present apparatus 10 is that the conventional fastener is replaced with an actuator 40, in the present embodiment taking the form of a lever having a locking formation 42 engageable in the bracket opening 36 and the main opening 38 and operable between a first, locked position (
Referring now to
A relatively narrow diameter neck 60 connects the locking formation 42 to an adjacent end 62 of the barrel 50. When viewed from a side, the locking formation 42 and the neck combine to form a “T”-shape. Compared to the barrel 50, the neck 60 has a narrower diameter, and the neck also has a shorter outer periphery than an outer peripheral edge 56 of the lobe 54. Also, the neck 60 axially spaces the cam lobe 54 from the barrel 50 such that the lobe accommodates a thickness of the bladeset bracket 22 as well as a thickness of the stationary blade 18 (
Referring now to
In the preferred embodiment, the key formation 66 is a polygonal projection, and the receiving formation 68 is a complementarily-shaped socket, however the structures may be reversed depending on the application, and the key shape may also vary as needed. Also, the main opening 38 in the bracket 22 accommodates the outer periphery 56 of the cam lobe 54. The cam lobe 54 is inserted through the opening 38 in the bladeset bracket 22 and through the bracket opening 36 in the stationary blade 18 at the second, unlocked position, and the lever 40 is rotated to the first, locked position where said lobe becomes locked, and the blade 18 is held in position on the bracket.
Referring now to
Referring now to
Referring now to
Another feature of the apparatus 80 is that the locking formation 42 engages the stationary blade 18 and holds it against the bladeset bracket 22. More specifically, the cam lobe 54 presses against the stationary blade 18, whereas in the apparatus 10 the lobe presses against the bladeset bracket 22.
Referring now to
Referring now to
Referring now to
While a particular embodiment of the present apparatus for releasably locking a stationary blade to a hair clipper has been described herein, it will be appreciated by those skilled in the art that changes and modifications may be made thereto without departing from the invention in its broader aspects and as set forth in the following claims.
The present application claims the benefit under 35 U.S.C. § 119(e) of U.S. patent application Ser. No. 62/887,222 filed on Aug. 15, 2019, the entire contents of which are incorporated by reference herein.
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Number | Date | Country | |
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62887222 | Aug 2019 | US |