The invention generally relates to a cutting apparatus for hair or fiber. More specifically, embodiments of the invention relate to an apparatus having a compliant cutting surface for cutting surface hair or fiber from a non-rigid, irregularly shaped or smooth, hair- or fiber-bearing surface.
Typical cutting surfaces on cutting devices are primarily rigid edges such as those found on knives and razors. This makes it difficult and unsafe to use them for cutting near or on irregularly shaped or compliant or flexible substrates or surfaces. For example typical razors do not easily conform to natural shape variations, curvatures, folds, etc. In addition there is great difficulty in removing or cutting hair from narrow or tightly constrained surfaces and crevices such as the ears and nose. Other areas where current cutters are problematic are in pet hair trimming, body hair removal in general, and any other areas where protruding fibers, strands, or other protrusions need to be cut from a flexible, conformable or non-rigid, or smooth surface.
One attempt to address this need has been flexible or pivot head razors. These do not allow the cutting surface of the cutter to be compliant with flexible or convoluted hair- or fiber-bearing surfaces on which the blade is being used. Consequently flexible or pivot-head razors have not adequately addressed the need for effective cutting of hair or fiber on non-rigid, irregularly shaped or smooth surfaces such as those found on the face and other regions of the body and in tightly constrained areas and crevices.
Another attempt to address this has been in electric cutting devices, such as electric razors with rotating blades. Here, again, the actual cutting blade is rigid and the device relies on pivot heads to get the spinning rigid blades to conform to a non-rigid, irregularly shaped or smooth surface such as a face or other body surface. The performance of such electric razors leaves much to be desired especially where the area for hair or fiber to be cut from has convolutions, crevices or an irregular shape or surface.
Still another attempt to address this has been in systems that provide a material or process to actually remove, rather than cut the protruding fiber or hair. These systems are typically specific for protein fibers such as hair, and contain noxious chemicals, such as thioglycolates, to promote digestion of the protein and, require considerable time and temperature, and are typically quite expensive.
Accordingly, a need exists for a compliant cutting surface for cutting surface hair or fiber from a non-rigid, irregularly shaped or smooth, hair- or fiber-bearing surface.
“Filamentous” as used herein refers to threadlike structures, i.e., resembling a filament, of natural or synthetic materials and may include, as non-limiting examples, hair or fibers. “Filamentous surface” and “hair- or fiber-bearing surface” are used interchangeably herein to refer to a surface from which filamentous structures, e.g., hairs or fibers, project or protrude at an angle to the surface.
A “compliant surface” as used herein refers to surface that yields under an applied force to at least partially conform in shape to a contacting surface. The force may be manually generated and applied with or without mechanical intervention, or may be machine generated and applied.
One aspect of the present invention is directed towards a cutting apparatus having a surface that is compliant and can be conveniently squeezed and/or rolled or otherwise comfortably contacted with the hair- or fiber-bearing surface that is being trimmed of the protruding fiber or hair. In so doing, the fiber or hair will be effectively cut regardless of the shape of the folds or irregularities since the cutting surface of the cutting device itself will conform to, and/or easily follow the path of, the irregular, compliant, flexible or constrained area of the hair- or fiber-bearing surface. The compliant cutter and compliant cutting surface can be in any form that enables conformable engagement with the hair- or fiber-bearing surface to effect cutting and removal, including but not limited to compliant fabrics, bundles, spheres, rollers (rigid and conformable), that can be moved, rubbed, squeezed or rolled over an irregular surface with folds, convolutions, crevices, orifices, etc.
In an embodiment, the present cutting apparatus comprises a roller having a plurality of cutting elements or features disposed on an outside peripheral surface of the roller. All, or at least some, of the plurality of cutting features are adapted for cutting filamentous protrusions disposed on or growing from a filamentous surface when the roller rotates in contact with the filamentous surface.
Another aspect of the present invention is directed towards a cutting device having a compliant cutting surface in the shape of a spherical or cylindrical roller and is fitted with a suitably affixed handle to enable the cutting device to roll along the contours, folds and irregular shape of the hair- or fiber-bearing surface. The dimensions of the sphere or roller can be modified in non-limiting examples to fit narrow openings, such as human ears and nostrils, for hair removal or can be wider and larger for larger areas of the body or other compliant hair- or fiber-bearing surface such as the back, chest, midriff or other larger area. The aforementioned handle can be affixed to the spherical or cylindrical roller in any means effective to enable rolling of the cutting surface over the hair- or fiber-bearing surface to facilitate cutting of the hair or fiber. For example, in an embodiment a cylindrical roller is supported for rotation about a longitudinal axis (like a paint roller).
An embodiment of the present invention is directed to a cutting device comprising a support member and a cutting apparatus comprising a roller having a plurality of cutting elements or features disposed on an outside peripheral surface of the roller. All, or at least some, of the plurality of cutting features are adapted for cutting filamentous protrusions disposed on or growing from a filamentous surface when the roller rotates in contact with the filamentous surface. The support member supports the cutting apparatus for rotation with respect to the support member.
In another embodiment a spherical roller may be partially enclosed in a tube and free to rotate about a changing axis of rotation (like a ball point pen). In this configuration the tube bearing the compliant or rigid roll able sphere can contain fluids or other material forms (e.g. solids, vapors (e.g. steam)) to enhance the severing of the hair or fiber by the rolling sphere. In this configuration, as well, the tube can act as a reservoir to remove the severed hair or fiber that can then be removed and disposed of, recycled or reused. The tubes can be interchangeable to enable a primary (before cutting) or secondary (post cutting) treatment to be applied to the surface to enhance the cutting and/or enhance the cut surface. The removed material can be taken up and treated in the tube reservoir to be disposed of, emptied, cleaned, reused and/or recycled.
Another aspect of the present invention is directed towards a cutting surface on a spherical or cylindrical roller wherein the surface is not soft or compliant but is effective in rolling along the contours of the hair- or fiber-bearing surface to be cut. Such a cutting surface will be described herein as being “rigid.” The affixed handle can be as described above and in the configuration comprising a tube can provide all the benefits and features described above.
In another aspect of the present invention, the present invention is directed towards a cutting surface that is comprised of a bundle of one or more sharp edged ribbons, wires, threads, or biomass elements, such as leaves, grasses or hair, or other fiber being cut itself. These can be homogeneous or can be composites of materials or can be a cutting surface on the ribbon, wire, thread or biomass of a different or the same but modified shape or composition. These can either make up the conformable shape, spherical or cylindrical rollers described above, or form the outer shell of a structure that has a core made of another material to provide shape, conformability or other advantageous features, including cost savings.
Another aspect of the present invention is directed towards a cutting surface that is comprised of cutters such as conventional razors or other very sharp, cutting edged metal, or other materials, embedded in or disposed on the outermost surface of the shape, sphere or roller so that the cutting edge forms an effective cutting surface for the conformable or rigid shape, spherical or cylindrical roller and effects the hair or fiber removal when contacted with the conformable or irregular hair- or fiber-bearing surface. A means may be provided to enable turning of the sphere or roller indirectly from or independent of the contact with the conformable hair- or fiber-bearing surface and/or in cutting contact with a cutting bar or edge to enable more effective cutting and/or variable height of the cut. The dimensions of the individual embedded cutters can be sized to be the same; multiple sizes and/or any combinations including exceeding small but effective individual cutters.
In another aspect of the present invention, the invention is directed towards a cutting surface that is comprised of cutting apertures, slits, grooves, or other designs in the outermost surface of the cutting shape, spherical or cylindrical roller. In a compliant spherical or cylindrical roller these may open to engage and trap the fiber or hair and then as pressure is released or the roller moved, the aperture, slit, groove or other design closes or otherwise changes to effect and/or enable severing of the fiber or hair.
In another aspect of the present invention, the invention is directed towards a cutting surface comprised of any of those mentioned above but that advantageously includes the application of solutions, enzymes or other materials or effects, including heat and/or steam or other energy, to promote the fiber or hair removal. The solutions may be either externally applied or released from, or an effect of, the cutting device itself as for example via a reservoir in the core or bulk of the conformable or rigidly shaped, spherical or cylindrical roller or other means to produce a beneficial effect during the cutting operation. In a non-limiting embodiment, a portion of the cutting surface becomes tacky and helps pull the fiber or hair toward the cutting surface.
In yet another aspect of the present invention, the invention is directed towards a cutting surface that is comprised of any of the shapes or designs mentioned above and cutting surfaces provided by any of the means mentioned in above that can contain alternating or other sequences of an enabling feature and a cutting features (e.g. an adhesive or tacky area or areas in a pattern (alternating or otherwise) with embedded cutting protrusions or other cutting features disposed thereon). Likewise the shape can be comprised of compositions that combine materials to achieve the desired conformability and other performance features (e.g. cost) via for example a core of a less expensive material like a rubber or plastic foam or paper or straw shreddings with a surface comprised of the desired cutting features, with or without the application of any solutions mentioned above.
It is to be understood that the aspects and objects of the present invention described above may be combinable and that other advantages and aspects of the present invention will become apparent to those having ordinary skill in the art upon reading the following description of the drawing and the detailed description thereof.
The present invention will become more fully apparent from the following description and appended claims, taken in conjunction with the accompanying drawings. Understanding that the accompanying drawings depicts only typical embodiments, and is, therefore, not to be considered to be limiting of the scope of the present disclosure, the embodiments will be described and explained with specificity and detail in reference to the accompanying drawings as provided below.
For purposes of this disclosure, fiber will be used to describe all cutable, non-hair filamentous protrusions to which this device and cutting surface will apply.
While this invention is susceptible of embodiment in many different forms, there is shown in the drawings and will herein be described in detail one or more embodiments with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the embodiments illustrated.
Reference throughout this description to features, advantages, objects or similar language does not imply that all of the features and advantages that may be realized with the present invention should be or are in any single embodiment of the invention. Rather, language referring to the features and advantages is understood to mean that a specific feature, advantage, or characteristic described in connection with an embodiment is included in at least one embodiment of the present invention. Thus, any discussion of the features and advantages, and similar language, throughout this specification may, but does not necessarily, refer to the same embodiment.
The peripheral surface 103 of a compliant roller 102 may be formed from natural or synthetic foam or sponge or flexible metallic or non-metallic materials, including but not limited to polymers, elastomers, rubbers or composites formed in any effective bundle or network or cut to any effective pattern of grooves, slots, or other cutting designs. In some embodiments, the body 110 and the outer peripheral surface 103 may be formed from the same compliant or rigid material. In other embodiments, the body 110 and peripheral surface 103 are formed from different materials and may be combinations of compliant and rigid materials with various degrees of compliance and rigidity. Some suitable rigid materials including but not limited to metals, ceramics, polymers, and composites formed as a uniform solid or a hollow solid.
The deformation of the roller 102 depicted in
Upon pressure on the cutting surface 104, with or without deformation, or movement of the cutting surface 104 with respect to the hair- or fiber-bearing surface, the aperture or slit 202 changes shape from normally closed configuration to an open configuration to receive one or more hairs or fibers. A change in the pressure condition, or movement of the cutting surface 104 with respect to the hair- or fiber-bearing surface, causes the aperture or slit 202 to change shape to a closed configuration, bringing cutting surfaces 204a, 204b into contact with one or more hairs or fibers, severing the fibers or hairs.
In an embodiment, the slit 202 is a normally opened sharp-edged aperture formed by opposing cutting edge surfaces 204a, 204b. Upon pressure on the cutting surface 104, with or without deformation, the aperture or slit 202 changes shape from a normally open configuration to a closed configuration, bringing cutting surfaces 204a, 204b into contact with one or more hairs or fibers, severing the fibers or hairs. A change in the pressure condition, or movement of the cutting surface 104 with respect to the hair- or fiber-bearing surface, causes the aperture or slit 202 to change shape to its normally open configuration.
Accordingly, in either the normally closed configuration or the normally open configuration, a change in shape of the aperture or slit 202 from an open configuration to a closed configuration effects a cutting or hair or fibers received in the aperture.
The edge surfaces 2014a, 204b are illustrated as smooth surfaces for ease of illustration only. The slit 202 may be formed to have a series of peaks and valleys resembling a series of saw teeth, or other effective cutting pattern. The cutting surfaces 204a, 204b could also be the result of entangled sharp edged plant leaves, ribbons, wires, metals or metallized or otherwise treated plastics or natural materials or fibers such as spider silk.
As a portion of the cutting surface 204 of the roller 102 is deformed and conforms to the hair- or fiber-bearing surface 106 (
As depicted in
In an embodiment, the spherical roller 404 is supported at the first end 406 for rotation about a fixed axis, for example an axle 422 disposed in a diametrical passage 424 formed through the spherical roller 404. The ends of the axle 422 may be received in receptacles (not shown) formed at the first end 406. Alternately, outwardly directed and diametrically opposed projections (not shown) may be formed on the outer peripheral surface 416 and received in receptacles (not shown) to support the spherical roller 404 for rotation about an axis.
In an embodiment, rotation of the spherical roller 404, either free or about a fixed axis, can be controllably limited or prevented by, for example by an inwardly directed force F applied to the support member 402 generally at the first end 406. The force may increase a pressure exerted on the cutting apparatus 410 to slow or stop rotation. Enhanced cutting of hair or fiber may be realized by slowing or stopping the rotation as the cutting apparatus 410 while moving the cutting apparatus 410 along a hair- or fiber-bearing surface 106.
The spherical roller 404 includes an outer peripheral surface 416 that may be compliant or rigid. In embodiments including a compliant surface, at least the outer peripheral surface 416 may be formed from any of the compliant materials discussed above. In some embodiments, the body 418 of the roller 404 is rigid and may be formed from any suitable rigid material discussed above.
The spherical roller 404 may include any of the cutting features 200 (
In the embodiment illustrated, an inner wall of the support member 402 provides a boundary for a reservoir 408, the reservoir 408 in communication, for example fluid communication, with the spherical roller 404. The reservoir 408 may be configured to contain a solid, liquid or vapor material provided to enhance cutting. Materials in the reservoir could contain but not be limited to enzymes such as peptidases, thioglycolates, or other materials to enhance cutting or removal of hair, surface finishes such as dyes, sizes, bleaches, tanning agents, sunscreen, etc. to enhance the hair- or fiber-bearing surfaces 106 as the fiber is trimmed, adhesives to enhance removal of the cut hair or fiber, as pretreatments, post treatments or treatments during cutting of the hair, fiber, or filamentous protrusions 108 (
The reservoir 408 may also contain heated or cooled fluids to enhance cutting or comfort. Such fluids can include, water, ice, or other materials that can be heated either as the entire cutting device 400 or via removal of the support member 402 for separate heating and reinsertion after heating. A typical method for heating could be putting the cutting device 400 in a microwave provided the cutting apparatus 410 was of a microwavable material or providing heating via another energy source suitable for the material of the cutting device 400. Radiant heating or chemical means of heating may also be applied to the material held in the reservoir 408 to enhance cutting and/or comfort and experience.
The reservoir 408 may be configured to remove the cut hair or fiber (filamentous protrusions 108) from the cutting apparatus 410 once separated from the hair- or fiber-bearing surface 106.
The support member 402 may include a casing 412 disposed on an outer surface thereof. The casing may be displaceable along an axis 414 of the support member 402, for example by sliding on the outer surface. The support member 402, including the cutting apparatus 410 and the reservoir 408 may be removable from the casing 412 to facilitate refilling, cleaning, recycling and/or disposal.
In some embodiments, the casing 412 enables positioning the cutting apparatus 410 from the hair- or fiber-bearing surface (106,
Cutting device 400, especially those with a support element 402 that is replaceable and easy to insert in the casing 412 (as for example a snap in or otherwise easy insert fit to the casing 412), could contain non cutting surface spheres for treating the pre-cut fiber or hair surface either before or after cutting by rolling application of the material held in the reservoir 408. In these cases the spheres (similar to 404) could be designed for application of a material as for example via a compliant foam or sponge material. The dimensions of the cutting device 400 can be varied to fit tight crevices such as, for hair cutting in the ears and nose. A set of different sizes could be provided to cover broader and narrower surfaces, openings, crevices for both hair cutting and fiber removal from hair or fiber-bearing surfaces.
The body 506 may be formed from a porous material adapted for fluid transport at least from the inner surface 508 to the outer peripheral surface 502. In embodiments not including a cavity 510, the body may be formed from a porous material and adapted to transport a fluid from an interior portion proximate the longitudinal axis to the outer peripheral surface 502.
In some embodiments, a portion of the cavity 510 is sized to removably accept a reservoir 512. The reservoir 512 is configured for yielding a fluid contained therein in a controlled fashion to the inner surface 508 to the porous body. A suitably formed body 506, for example a porous body, transports the yielded fluid to the outer peripheral surface 502.
The outer peripheral surface 502 of cylindrical roller 500 may be a compliant surface as described above or a rigid surface. Compliant surfaces may be formed from the materials discussed above or other suitably compliant materials. Rigid surfaces may be formed from the suitable materials discussed above. In some embodiments, the outer peripheral surface 502 and the body 506 are formed from the same compliant or rigid material. In other embodiments, the outer peripheral surface 502 and the body 506 are formed from different materials, and may include one or more materials with various degrees of compliance and rigidity.
Any of the cutting features 200, 300 discussed above, singly or in any combination, may be disposed at the outer peripheral surface 502 of the cylindrical roller 500 to form a cutting apparatus 511. The cutting features 200, 300 are illustrated schematically in
Cutting apparatus 511 is constructed to effect cutting hair or fiber from a hair- or fiber-bearing surface. The cylindrical roller 500 can have a surface comprised of any of the cutting surfaces described above including entanglements of sharp edged wires, plant leaves, ribbons; surface cut apertures in a thin metal or other material covering to produce sharp cutting edges that open with pressure, or sharp cutting edges cut into the same surface without the need for opening to engage the hair or fiber.
The cutting apparatus 511 may be supported for rotation about longitudinal axis 504 at a first end 516 of a support member 514 to comprise a cutting device 520. The support member 514 may include a gripping portion or handle 518 for controlling the movement of the cutting device 520.
As the cutting device 520 is brought into contact with a hair- or fiber-bearing surface (for example surface 106 in
In some embodiments a braking device or mechanism 524 may be provided to selectively slow or prevent rotation of the cutting apparatus 511 about the axis 504 to enhance cutting as discussed above.
In some embodiments, the cutting features 200, 300 can operate with a cutting bar 522 that the cutting apparatus 511 comes in cutting contact with as the cutting apparatus 511 rotates about longitudinal axis 504. The cutting bar 522 cooperates with the cylindrical roller 500 and causes filamentous projections 108, including hair and fibers, to be trapped between the cutting apparatus 511 and an edge of the cutting bar 522 and severed from the hair- or fiber-bearing surface 106. The cutting bar 522 is dimensioned and adjustably positioned at a first end 516 of the support member 514 proximate to the cutting apparatus 511 in closest cutting contact with the cylindrical roller 500.
The cylindrical roller 500 could be metallized or otherwise rendered sharp and cutting as the edges of an open foam that may have either a rigid or compliant core. The cylindrical roller 500 provide compliant cutting with either a compliant or rigid roller in contact with a hair- or fiber-bearing surface 106 by rolling along irregular or convoluted areas and following the folds, crevices and orifices. The cylindrical roller 500 can be dimensioned to reach small and hard to get places or large to cover broad areas in much the same way as rollers that are used to apply paints to tight corners using small rollers and to large surfaces using wider rollers. A reservoir 512 may be provided for material that can enhance the cutting performance by pre, post or simultaneous treatments with cutting. The reservoir 512 can be removable from the cylindrical roller 500 to be refilled, recycled or disposed of as an insert and/or combined with the cylindrical roller 500 to be recycled, refilled or otherwise disposed of as a unit. A non-cutting outer roller may also be available as a snap on to enable pre or post treatments without cutting in similar fashion as described for the cutting device 400 in
The invention also includes the appropriate peripheral areas to enhance the attractiveness of the cutter configurations including the support members 402 and 514 as well as spherical cutting apparatus that may be comfortable to operate by themselves. This includes attractive printing, graphics, colors, textures for the cylindrical cutting device 520, the tubular cutting device 400 and for a compliant soft sphere or easily rolled harder sphere itself. In addition, the invention also comprises new technologies such as mobile enabled interactive codes such as but not limited to 2D QR and other codes and interactive electronics such as NFC (Near Field Communication) and RFID (Radio Frequency Identification) to enhance the experience and the information provided to the consumer including but not limited to the description of how the cutter is to be safely used and the advantages of the cutters vs. competitive offerings. The invention also comprises ways that a fluid in one of the reservoirs (408, 512) can be heated including radiant heat, microwave heat, induction coupled power and heat, Wi-Fi coupled power and heat and/or other means either connected, coupled, or inductively delivered. The invention likewise comprises comprehensive ways to clean, reuse, recycle and/or otherwise safely dispose of the cutting devices.
For the above examples of suitable materials, technologies, or properties, are merely illustrative and are not intended to be limiting to only those materials, technologies or properties listed above.
It is to be understood that additional embodiments of the present invention described herein may be contemplated by one of ordinary skill in the art and that the scope of the present invention is not limited to the embodiments disclosed. While specific embodiments of the present invention have been illustrated and described, numerous modifications come to mind without significantly departing from the spirit of the invention, and the scope of protection is only limited by the scope of the accompanying claims.
This application claims the benefit of U.S. Pat. No. 11,389,979 with a issue date of Jul. 19, 2022, which is a continuation of U.S. Pat. No. 10,478,982 with an issue date of Nov. 19, 2019, which claims the benefit of U.S. provisional application 61/821,193 with a filing date of May 8, 2013 which is incorporated by reference as if fully set forth.
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Picture and Description of Product from Badger and Blade Website: http://badgerandblade.com/vb/showthread.php/56762-The-Rolling-Razor-Rolling-Into-Trash-Cans-Near-You! Printed May 8, 2014 (9 Pages). |
Picture and Description of Product from Lollypup Website: http://lollypup.com.sg/new-arrivals/beauty-roller-for-grabbing-pet-hair.html Printed May 8, 2014 (1 Page). |
Picture and Description of Product from Verseo Website: http://www.verseo.com/verseo-esmooth-hair-removal-epilation-roller-pen.html Printed May 8, 2014 (7 Pages). |
Picture and Description of Product from My Bellabe Website: http://mybellable.com/ Printed May 8, 2014 (2 Pages). |
Number | Date | Country | |
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20220347872 A1 | Nov 2022 | US |
Number | Date | Country | |
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Number | Date | Country | |
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Parent | 16686972 | Nov 2019 | US |
Child | 17865812 | US | |
Parent | 14273259 | May 2014 | US |
Child | 16686972 | US |