The present disclosure relates generally to electric trimmers and, more particularly, to cutting heads.
Grooming and trimming facial hair can be quite a task for a person when factoring in the length of hair to be trimmed and the desired style of hair to be left behind. In some instances, ordinary scissors may be used to trim the facial hair, but is often overly time consuming and usually leaves an uneven layer of facial hair. Most common electric shavers are also unsuitable or overly difficult to use for trimming because either the facial hair to be trimmed is too long and cannot be cut by the electric shaver or the electric shaver removes much more facial hair than desired.
Another option for grooming and trimming facial hair is a hair/beard trimmer. Traditional beard trimmers generally include an open trimmer and an attachable comb portion. The attachable comb portion typically includes a set of teeth that help direct the hair towards the open trimmer. While the attachable comb portion also acts as a guard to trim the hair to a desired length, the teeth are commonly wide set with a significant gap between teeth resulting in some hair missing the open trimmer during a trimming pass of the electric trimmer. In light of this, it may take a few passes of the electric trimmer over the same area to trim the majority of the hair there. But even with a few passes over the same area, some hair may still be missed because of the gap between teeth, thus resulting in uneven trimmed hair. The user may be forced to pull the hair taut with his free hand and attempt another pass to capture the hair through the teeth for trimming. While possibly effective, this requires the user to search for untrimmed hair with his fingers, look in a mirror, and make an awkward pass of the electric trimmer while pulling the untrimmed hair taut. This precise handling of the electric trimmer can be quite time consuming and still has the potential, because of the significant gap between the teeth of the comb portion, for the skin surface to come into direct contact with the blades of the open trimmer causing nicking of the skin.
In accordance with an aspect of the disclosure, an outer cutter for an electric trimmer is provided. The outer cutter may include a frame having first and second end sections. A plurality of outer cutter ribs may be disposed between the first and second end sections. Each outer cutter rib of the plurality of outer cutter ribs may include a cutting surface and an outer surface. The outer surface may include a glide surface disposed between first and second sides of the outer cutter surface. The plurality of outer cutter ribs may have a stubble trimmer value of at least 3.
In accordance with another aspect of the disclosure, the cutting surface may include at least a first cutting edge.
In accordance with yet another aspect of the disclosure, the glide surface may be parallel to the cutting surface.
In accordance with still yet another aspect of the disclosure, the first side may transition into the glide surface arcuately. The second side may include a notch that may transition into the glide surface. The glide surface may incline from the first side to the notch. Adjacent outer cutter ribs of the plurality of outer cutter ribs may be alternately orientated so that the first and second sides of one outer cutter rib may be proximate the second and first sides of its adjacent outer rib, respectively.
In further accordance with another aspect of the disclosure, the first side may transition into the glide surface arcuately. The second side may transition into the glide surface arcuately. The glide surface may incline from the first side to the second side.
In further accordance with yet another aspect of the disclosure, adjacent outer cutter ribs of the plurality of outer cutter ribs may be alternately orientated so that the first and second sides of one outer cutter rib is proximate the second and first sides of its adjacent outer cutter rib, respectively.
In further accordance with still yet another aspect of the disclosure, the first side may include a first chamfer coupled to the glide surface. The second side may include a second chamfer coupled to the glide surface. The glide surface may curve inwardly toward the cutting surface.
In accordance with another aspect of the disclosure, an electric trimmer having an electric motor is provided. The electric trimmer may include a head. The electric trimmer may also include at least a first linear cutter disposed on the head. The at least first linear cutter may include an inner cutter having a plurality of inner cutter ribs. The outer cutter may have a plurality of outer cutter ribs. The plurality of inner cutter ribs may be mechanically associated with the plurality of outer cutter ribs. The plurality of outer cutter ribs may have a stubble trimmer value of at least 3.
In accordance with still another aspect of the disclosure, each inner cutter rib of the plurality of inner cutter ribs may include at least one inner cutter cutting edge. Each outer cutter rib of the plurality of outer cutter ribs may include a cutting surface having at least one outer cutter cutting edge. The at least one outer cutter edge may be orientated at a first angle and the at least one inner cutter cutting edge may be orientated at a second angle. The second angle may be correspondingly oppositely-facing the first angle.
In accordance with yet another aspect of the disclosure, the at least one outer cutter cutting edge may have a first unit of hardness that differs from a second unit of hardness of the at least one inner cutter cutting edge.
In accordance with still yet another aspect of the disclosure, each outer cutter rib of the plurality of outer cutter ribs may include an outer surface having a first side, a second side, and a glide surface coupled therebetween.
In accordance with another aspect of the disclosure, an electric trimmer having an electric motor is provided. The electric trimmer may include a head. The electric trimmer may also include at least a first linear cutter disposed on the head. The at least first linear cutter may include an inner cutter having a plurality of inner cutter ribs and an outer cutter having a plurality of outer cutter ribs. The plurality of inner cutter ribs may be mechanically associated with the plurality of outer cutter ribs forming an enclosed trimming region. Each of the outer cutter ribs may include a cutting surface and an outer surface. The outer surface may include a glide surface disposed between first and second sides of the outer surface. Each of the outer cutter ribs may have a depth of at least 0.4 millimeters.
Other aspects and features of the disclosed systems and methods will be appreciated from reading the attached detailed description in conjunction with the included drawing figures. Moreover, selected aspects and features of one example embodiment may be combined with various selected aspects and features of other example embodiments.
For further understanding of the disclosed concepts and embodiments, reference may be made to the following detailed description, read in connection with the drawings, wherein like elements are numbered alike, and in which:
It is to be noted that the appended drawings illustrate only typical embodiments and are therefore not to be considered limiting with respect to the scope of the disclosure or claims. Rather, the concepts of the present disclosure may apply within other equally effective embodiments. Moreover, the drawings are not necessarily to scale, emphasis generally being placed upon illustrating the principles of certain embodiments.
Referring now to
As best seen in
The linear inner cutter 22 may be coupled to the linear inner cutter carrier 24, for example, with a first and second heat melt rivet 38, 40 or with other similar techniques known in the industry. The linear inner cutter carrier 24 may also include opposing fingers 42, 44, which are mechanically associated with the frame 26. The frame 26 may include a base 46 disposed between first and second arms 48, 50. The base 46 includes a channel 52, which mechanically receives the opposing fingers 42, 44 of the linear inner cutter carrier 24. A first spring 54 may extend from the base 46 adjacent to the first arm 48 and a second spring 56 may extend from the base 46 adjacent to the second arm 50.
The outer cutter 20 includes an outer cutter frame 58. The outer cutter frame 58 includes first and second end sections 60, 62 with a plurality of outer cutter ribs 64 disposed therebetween. The outer cutter 20 includes a longitudinal passage 66, which operatively receives the linear inner cutter 22 to form an enclosed trimmer region 67. Each outer cutter rib 64 is equally spaced apart so that an outer cutter slot 68 is formed between adjacent outer cutter ribs 64. Moreover, each outer cutter rib 64 includes an inward cutting surface 70 facing the longitudinal passage 66 and an outer surface 72, as best seen in
When the linear cutter 18 is fully assembled the outer cutter 20 is coupled to the first and second end sections 60, 62 of the frame 26 by corresponding first and second lock pins 78, 80, respectively, so that the linear inner cutter 22 operatively fits within the longitudinal passage 66 and is urged into close mechanical association with the outer cutter 20 by the even force of the first and second springs 54, 56 against the linear inner cutter carrier 24. Moreover, the first and second cutting edges 74, 76 of the outer cutter 20 may be arranged to slant oppositely to the first and second inner cutting edges 32, 34 of the inner cutter 22 such that, during operation, the cutting edges 32, 34, 74, 76 operate like scissors. In particular, the first and second cutting edges 74, 76 may be at a slant angle between 5 and 30 degrees from the inward cutting surface 70 and the first and second inner cutting edges 32, 34 may be at a corresponding oppositely-facing slant angle between 5 and 30 degrees from the flat cutting surface 30. A pitch ratio between the outer cutter 20 and the linear inner cutter 22 may be approximately 2.5 to 3. The cutting edges 32, 34, 74, 76 may be hardened to over 56 HRC. The first and second cutting edges 74, 76 may be of a different hardness, greater than 56 HRC, than the first and second inner cutting edges 32, 34 so that, during operation, the cutting edges 74, 76 self-sharpen the inner cutting edges 32, 34, and vice versa. Furthermore, the first and second cutting edges 74, 76 of the outer cutter 20 may be, but not limited to, stainless steel, which may be coated with, but not limited to, titanium or diamond-like carbon.
As illustrated in
The outer surface 622 of each outer cutter rib 624 includes a first and second side 642, 644 and a sloped glide surface 646 therebetween. The first side 642 may transition into the sloped glide surface 646 so that the intersection is arcuate. The second side 644 includes a notch 648 which may transition into the sloped glide surface 646. The sloped glide surface 646 inclines from the first side 642 toward the notch 648. The orientation of adjacent outer cutter ribs 624 alternate so that the notch 648 of one outer cutter rib 624 is proximate to the first side of an adjacent outer cutter rib while the first side 642 of the former outer cutter rib is proximate to the notch of the adjacent outer cutter rib, as best shown in
The outer surface 922 of each outer cutter rib 924 includes a first and second side 942, 944 and a sloped glide surface 946 therebetween. The first side 942 may transition into the sloped glide surface 946 so that the intersection is arcuate. The second side 944 may transition into the sloped glide surface 946 so that the intersection is also arcuate. The sloped glide surface 946 inclines from the first side 942 toward the second side 944. The orientation of adjacent outer cutter ribs 924 alternate so that the first side 942 of one outer cutter rib 924 is proximate to the second side of an adjacent outer cutter rib while the second side 944 of the former outer cutter rib is proximate to first side of the adjacent outer cutter rib. Each outer cutter rib 924 has a depth 950 and a width 952. The depth 950 may be measured approximately from the inward cutting surface 936 to the sloped glide surface 946 adjacent the first side 942. The plurality of outer cutter ribs 924 of the outer cutter 920 may have a stubble trimmer value that is at least 3.
The outer surface 1122 of each outer cutter rib 1124 includes first and second sides 1142, 1144 and a sloped glide surface 1146 therebetween. The first side 1142 may transition into the sloped glide surface 1146 so that the intersection is arcuate. The second side 1144 may transition into the sloped glide surface 1146 so that the intersection is also arcuate. The sloped glide surface 1146 inclines from the first side 1142 toward the second side 1144. Each outer cutter rib 1124 has a depth 1150 and a width 1152. The depth 1150 may be measured approximately from the inward cutting surface 1136 to the sloped glide surface 1146 adjacent the first side 1142. The plurality of outer cutter ribs 1124 of the outer cutter 1120 may have a stubble trimmer value that is at least 3.
The outer surface 1322 of each outer cutter rib 1324 includes first and second sides 1342, 1344 and a concaved glide surface 1346 therebetween. The first side 1342 includes a first chamfer 1348, which is coupled to the concaved glide surface 1346. Similarly, the second side 1344 includes a second chamfer 1350, which is also coupled to the concaved glide surface 1346. The concaved glide surface 1346 curves inwardly toward the inward cutting surface 1336. Each outer cutter rib 1324 has a depth 1352 and a width 1354. The depth 1352 may be measured approximately from the inward cutting surface 1336 to the concaved glide surface 1346. The plurality of outer cutter ribs 1324 of the outer cutter 1320 includes a stubble trimmer value that is at least 3.
During operation of the electric trimmer 10, the linear inner cutter 22 reciprocates with respect to the stationary outer cutter 20 so that the plurality of inner cutter ribs 28 mechanically associate in a shearing motion with the plurality of outer cutter ribs 64. As an example of a trimming pass of the electric trimmer 10 gliding across a user's face, hairs may be guided through the outer cutter slots 68 to be sheared off by the reciprocating motion of the plurality of inner cutter ribs 28 mechanically associating with the stationary outer cutter ribs 28. The depth 88 of each outer cutter rib 28 provides the user with a uniform layer of stubble while ensuring that the user's skin avoids any contact with inner cutter ribs 28 to avoid any skin nicking.
Referring back to
While the present disclosure has shown and described details of exemplary embodiments, it will be understood by one skilled in the art that various changes in detail may be effected therein without departing from the spirit and scope of the disclosure as defined by claims supported by the written description and drawings. Further, where these exemplary embodiments (and other related derivations) are described with reference to a certain number of elements it will be understood that other exemplary embodiments may be practiced utilizing either less than or more than the certain number of elements.
Based on the foregoing, it can be seen that the present disclosure sets forth an electric trimmer that simplifies the hair trimming experience. The teachings of this disclosure can be employed to trim a beard that results in a uniform layer of stubble on any facial contour while eliminating the potential of nicking the skin. Moreover, through the novel teachings set forth above, trimming a beard can be achieved with a unitary trimmer in an easier and more efficient manner without requiring any additional comb attachments.
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