The present disclosure relates to the application of eyelash extensions, and in particular to methods and apparatuses for applying a plurality of eyelash extensions as a group.
Many people are dissatisfied with the look of their eyelashes. They would prefer lashes with better curl, color, fullness, length, etc. While cosmetic products, such as mascara, are available to improve these characteristics, certain people still would prefer even greater enhancements than are possible through their use of mascara alone.
False eyelashes have been around and in use for quite some time. False eyelashes are applied to the eyelid, and may improve the appearance of the wearer by making it appear that the wearer has eyelashes of greater curl, color, fullness, length, etc. However, false eyelashes also may make it appear that the user has more than one set of eyelashes if the application is not performed with a high degree of precision. Obtaining this degree of precision is a difficult task even for an experienced user.
Alternatively, one may try eyelash extensions. Unlike false eyelashes, eyelash extensions are applied directly to the eyelash, instead of to the eyelid. As a consequence, it does not appear as though the user has more than one set of eyelashes, but rather longer, curvier, darker, fuller, etc. eyelashes. There are drawbacks with this solution as well. At the present time, eyelash extensions are applied one by one to the existing eyelashes. As a consequence, the process is labor intensive, requires highly skilled application, and is expensive. Because the process is not easily amenable to self-application, the extensions are most commonly applied in the salon setting, and as the eyelashes fall out, repeated “maintenance” visits may be required. Also, because eyelash extensions are applied to existing eyelashes using a one-to-one ratio, if one has problems with eyelash count, extensions do little to improve the matter.
While the specification concludes with claims particularly pointing out and distinctly claiming the subject matter that is regarded as the present invention, it is believed that the invention will be more fully understood from the following description taken in conjunction with the accompanying drawings. Some of the figures may have been simplified by the omission of selected elements for the purpose of more clearly showing other elements. Such omissions of elements in some figures are not necessarily indicative of the presence or absence of particular elements in any of the exemplary embodiments, except as may be explicitly delineated in the corresponding written description. None of the drawings are necessarily to scale.
The term “attached” refers to elements being connected or united by adhering, fastening, bonding, etc. by any method suitable for the elements being attached together. Many suitable methods for attaching elements together are well-known, including adhesive bonding, mechanical fastening, etc. Such attachment methods may be used to attach elements together over a particular area either continuously or intermittently.
The term “coupled” refers to configurations whereby an element is directly secured to another element by attaching the element directly to the other element, and to configurations whereby an element is indirectly secured to another element by attaching the element to intermediate member(s) that is(are) in turn attached to the other element.
The term “disposed” is used to mean that an element(s) exists in a particular place or position as a unitary structure with other elements or as a separate element coupled to other elements.
The term “effective diameter” refers to a measurement related to a cross-section. In regard to a circular cross-section, the effective diameter is the diameter of the cross-section. For non-circular cross-sections, the effective diameter may be more difficult to describe. However, one manner in which the effective diameter may be calculated is as the square root of four times the cross-sectional area divided by pi.
These terms may be defined with additional language in the remaining portions of the specification.
Certain of the figures illustrate different eyelash extension systems, while other figures illustrate different applicators for applying the eyelash extensions, which applicators may be operable with one or more of the eyelash extension systems illustrated. An attempt has been made to number similar parts in a similar fashion, although strict adherence to such a system is not always possible in practice. Moreover, it will be recognized that while the presentation may discuss particular attributes of these systems and applicators in regard to a particular system or applicator, much of the discussion relative to one system is applicable to the other systems, and discussion relative to one applicator or its method of use is applicable to the other applicators and their methods of use.
To begin then,
It will be recognized that if a set of eyelashes is placed in the space 112 defined between the backbone surface 108 and the closure surface 110 with the closure 106 in the first state, at least some of the eyelashes will be disposed between the surfaces 108, 110 when the closure 106 is moved from the first state to the second state. The eyelashes disposed between the surfaces 108, 110 may be held therebetween by a variety of different attachment mechanisms. The nature of the attachment between the surfaces 108, 110 may limit the ability to remove the eyelashes from between the surfaces 108, 110, as may the interaction of the eyelashes with either or both of the surfaces 108, 110.
It will be appreciated that there is considerable diversity in the structure and composition of the eyelash extensions 102, the backbone 104, the closure 106, the mechanism used to attach the extensions 102 to the backbone 104, and the mechanism used to attach the system 100, or a part thereof, to the user's eyelashes. The following is a partial listing of the potential variations in regard to the extensions 102, the backbone 104, the closure 106 and attachment mechanisms. This listing is intended to be exemplary and non-limiting. Furthermore, much of this discussion will be generally applicable to the other eyelash extension systems described below.
In regard to the extensions 102, the extensions 102 may be made from biomaterials from animals, including humans, or plants (e.g. cotton). In particular, the extensions 102 may be made from keratinous material from an animal, such as eyelashes, although hair, fur, feathers, wool and silk may be used as well. The extensions 102 may also be made of synthetic materials, including nylon, polyester, and the like. In particular, synthetic fibers may be particularly well suited for use in the system 100. Also, the extensions 102 may be made of composite materials, which provide opportunities to use core/shell or layered cross-sectional designs to give the extensions 102 unique properties. This approach allows for separation of functionality. For example, one material of the composite can be chosen for its structural properties, and additional materials of the composite may be chosen for desirable phase transition, electromagnetic, surface energy, light refractivity, or other value-added properties.
The shape, color, effective diameter, length, curvature, and density of the extensions 102 may vary. The variation may be between extensions included in one system and those included in another system. However, the variations may be between individual extensions included in one particular system, or even within one individual lash extension in one particular system. For example, multiple lengths may be used in one item of a particular system, for example.
As to the shape, the extensions 102 may have a generally circular, solid cross-section, and may be tapered from one end of the extension 102 to the other. However, it is also possible for the extensions 102 to have a non-circular cross-section, such as an elliptical cross-section. Alternatively, the cross-section may be a polygon, such as triangle, rectangle, etc., or more complex shape, such as a cross, a crescent or a star. Further cross-sections of interest may effectively appear flat, such that the dimensions in one axis are at least 15 times those of the second axis. It is also possible for the cross-section to be hollow or tubular, instead of solid. Further, the extension 102 may have a nearly constant effective diameter from one end of the extension 102 to the other, or the effective diameter may vary in some fashion other than a taper.
Additionally, it is desirable to allow for multiple colors and goniometric properties of extensions which are applied to one set of lashes.
As to the effective diameter, a convention may be adopted where this characteristic is discussed relative to an effective diameter at a particular point along an extension, a maximum effective diameter of an extension, or an average of the effective diameters taken at a plurality of points along an extension, for example. Regardless of the convention adopted, a wide range of diameters may be used. For example, the extensions 102 may have an average effective diameter in the range of between about 0.01 mm and about 2.0 mm. According to other embodiments, the extensions 102 may have an average effective diameter in the range of between about 0.03 mm and about 1.0 mm. According to certain embodiments, the extensions 102 may have an average effective diameter in the range of between about 0.03 mm and about 0.70 mm.
As to the length (measured from end to end), a wide range of lengths may also be used. For example, the extensions 102 may have a length in the range of between about 1.0 mm and about 30.0 mm. According to other embodiments, the extensions 102 may have a length in the range of between about 2.0 mm and about 20.0 mm. According to certain embodiments, the extensions 102 may have a length in the range of between about 3.0 mm and about 15.0 mm.
As to the angle of curvature, there may also be a variety of conventions by which this is defined. As an example, one may discuss the angle of curvature in terms of the angle that is formed by the intersection of lines tangential to the ends of the extension. Again, a wide range may be used. For example, the extensions 102 may have an angle of curvature in the range of between about 3 and about 180 degrees. According to other embodiments, the extensions 102 may have an angle in the range of between about 30 and about 170 degrees. According to certain embodiments, the extensions 102 may have an angle in the range of between about 45 and about 160 degrees.
In regard to the backbone 104 and the closure 106, either may be in the form of a thin strip, fiber, etc. of material. Similar to the extensions 102, the backbone 104 and the closure 106 may be made of a biomaterial or a synthetic material. In fact, the backbone 104 and/or the closure 106 may be made of a material such that, after attachment of the extensions 102 to the user's eyelashes, the backbone 104 and/or the closure 106 may be dissolved or otherwise removed. In one embodiment, the backbone 104 and the closure 106 may be made of a water-soluble material, while the extensions 102 and an adhesive applied thereto to attach the extensions 102 to the eyelashes may be water-insoluble. For instance, after the backbone 104 and the closure 106 are used to place the extensions 102 relative to the eyelashes so that the extensions 102 may attach themselves to the eyelashes, water is applied to remove (dissolve) the backbone 104 and the closure 106. According to other embodiments, the backbone 104 and the closure 106 may be made of a more durable material, such that the backbone 104 and the closure 106 do not dissolve or otherwise disappear during normal use conditions.
The length of the backbone 104 and the closure 106, as manufactured, may vary according to the present disclosure. For example, the backbone 104 and the closure 106 may be manufactured in a length designed to provide coverage for users having an average eyelid length. Alternatively, the backbone 104 and closure 106 may be manufactured in lengths that are intended to be cut and/or trimmed by the user to be the exact length to provide a desired coverage, which may or may not coincide with the length of the user's eyelid. As a further alternative, the backbone 104 and the closure 106 may be manufactured in lengths shorter than would be expected to permit coverage from one end of an eyelid to the other. According to such an embodiment, two, three or more lengths of backbone 104 and closure 106 may be used to provide coverage for a single eyelid and associated eyelashes.
As to the density of the extensions, a large range of densities may be appropriate. Provided that the extensions 102 are attached to a backbone 104, the linear density of the individual extensions across the backbone is preferably about 5-150 extensions per linear cm of backbone. More preferably, the linear density of the extensions 102 is about 10-100 extensions per linear cm of backbone 104.
The mechanism of attachment between the extensions 102 and backbone 104 may vary according to the nature of the extensions 102 and the backbone 104, and the thickness of the backbone 104. For instance, if the thickness of the backbone 104 is sufficient, the extensions 102 may be disposed or embedded at least partially within the backbone 104. This may be achieved, for example, by molding the backbone 104 about ends of the extensions 102. Alternatively, if the thickness of the backbone 104 is not substantially greater than the effective diameter of the extensions 102, the extensions 102 may be attached to a surface of the backbone 104 using an adhesive compatible with the materials used to form the extensions 102 and the backbone 104. Still another means of attaching the extensions 102 to the backbone 104 is through a knot or braid. Additionally, for synthetic extensions 102 or backbones 104 a means of spot welding may be particularly effective through the use of heat or other means of creating a phase transformation with or without the use of pressure
The mechanism of attachment between the eyelash extension system 100, or a part thereof, and the user's eyelashes may also vary. As mentioned above, an adhesive may be used. The adhesive may attach the surfaces 108, 110 together, thereby limiting removal of the eyelashes from between the surfaces 108, 110. The adhesive applied to one or both of the surfaces 108, 110 may also attach the eyelashes to one or both of the surfaces 108, 110, thereby further limiting removal of the eyelashes from between the surfaces 108, 110. Alternatively, the adhesive may be selected so as to attach the surfaces 108, 110 without attaching the eyelashes to either of the surfaces 108, 110. The selection of the adhesive may thus be influenced by the material used for the extensions 102, the backbone 104 and/or the closure 106, as well as the eyelashes. In this regard, it should be noted that the extensions 102, while intended for use with natural eyelashes as a replacement for false eyelashes, may be used with artificial eyelashes as well.
Adhesives may include, as non-limiting examples, latex adhesives, solvent-borne adhesives, pressure-sensitive adhesives (PSAs), and hot melt adhesives. Use of the latter type will require some degree of heating to occur at or near the time of application. In an embodiment wherein a two-part adhesive (like epoxy) is used, one component of the adhesive may be applied to one surface 108, 110 and the other component may be applied to the other surface 108, 110.
Another alternative may be to use a hook-and-loop attachment mechanism. For example, the hook material may be attached to one of the backbone surface 108 and the closure surface 110, while the loop material may be attached to the other of the backbone surface 108 and the closure surface 110. With the surfaces 108, 110 abutting each other, pressure applied to one or both of the backbone 104 and the closure 106 may encourage the entanglement of the hooks of the hook material in the loops of the loop material. It will be recognized that the hooks may instead be projections terminating in a button-shaped end, and the loops need not be closed. Other variations on the hook-and-loop attachment mechanisms will also be recognized as applicable to this embodiment.
Additionally, phase transition materials may be used as a mechanism of attachment. These phase change materials may transition between a fluid state and a solid or semi-solid state, wherein the fluid state may have varying degrees of viscosity. For instance, the material may be a wax, such as may be formed of fatty materials or synthetic hydrocarbons. In such a case, a wax backbone may define the attachment mechanism as well, and may disperse upon application of heat. Alternatively, the material may be a gel that swells with contact to fluid. The mechanism to prompt the phase change may also vary, and may include temperature, electromagnetic radiation, moisture, and ultrasonic vibrations. In regard to electromagnetic radiation, this is not limited to the visible light scale, but may include all wavelengths, such as infrared and ultraviolet.
As still another alternative, the backbone 104 and the closure 106 may be coupled to each other by magnetic fields. That is, the backbone 104 and the closure 106 may be coupled together, at least in part, by the magnetic force between two objects—such as between two magnets, or between a magnet and a material having a medium or higher magnetic permeability, such as iron. According to such an embodiment, the backbone 104, the closure 106 or both may be made in whole or in part of the material providing the magnetic coupling. That is, the backbone 104, for example, need not be made entirely of the material providing the magnetic coupling; instead, the backbone 104 may be made of a plastic material in which is embedded particles of the other material.
Each arm 254, 256 of each clip 250, 252 has a holder attached thereto. That is, the clip 250 includes a first holder 270 attached to the first arm 254 and attached to a first end 114 of the backbone 104, and a second holder 272 attached to the second arm 256 and attached to a first end 118 of the closure 106. Similarly, the clip 252 includes a first holder 270 attached to the first arm 254 and attached to a second end 116 of the backbone 104, and a second holder 272 attached to the second arm 256 and attached to a second end 120 of the closure 106.
The holders 270, 272 may be releasably attached to the backbone 104 and the closure 106 such that removal of the clips 250, 252 is possible after the clips 250, 252 have been used to position the system 100. The releasable attachment mechanism may be in the form of an adhesive with a lesser strength than is used to attach the backbone 104 to the closure 106, such that the force necessary to disengage the holders 270, 272 from the backbone 104 and the closure 106 is less than to disengage the backbone 104 form the closure 106. However, other attachment mechanisms may be possible, including mechanical fasteners, such as hook-and-loop by fasteners.
The arms 254, 256 are moveable about the pivots 258 between a first state, wherein the first and second arms 254, 256 are spaced relative to each other, and a second state wherein the first and second arms 254, 256 abut each other. The movement of the arms 254, 256 between the two states is illustrated through the inclusion of the pairs of arrows. As mentioned above, the pivots 258 may bias the arms 254, 256 toward one of the two states.
In operation, the arms 254, 256 are attached at their respective holders 270, 272 to the backbone 104 and the closure 106. This may be done by the manufacturer of the system 100, or by the user prior to application. The arms 254, 256 are initially maintained in a spaced relationship to each other. The applicator 200 is then positioned relative to the user's eyelashes such that the eyelashes depend through the space 112 between the backbone 104 and the closure 106. In this position, one, both or neither of the backbone 104 and the closure 106 may be resting against a surface of the eyelashes.
A force may then be applied to one or both of the arms 254, 256 to move the arms 254, 256 toward each other to achieve the state illustrated in
Similar to the clips 250, 252 of the applicator 200 in
The holders 370, 372 are intended to releasably attach one of the backbone 104 and the closure 106. As illustrated, the holder 370 is attached to the backbone 104 and the holder 372 is attached to the closure 106. It will be recognized that the orientation of the applicator 300 may be reversed, such that the holder 370 is attached to the closure 106 and the holder 372 is attached to the backbone 104. For that matter, the lower portion of the applicator 300 may define the frame 340 to which the track 346 is attached, and the upper portion of the applicator 300 may define the carrier 342. It will also be recognized that rather than applying the force to the lower portion of the applicator 300 relative to the upper portion of the applicator 300, the force may be applied to the upper portion of the applicator 300 instead.
The applicator 300 may also be used with systems other than the system 100 illustrated in
However, unlike the system 100, the backbone 404 and closure 406 are attached to each other even in the first state. In particular, the strip-like backbone 404 has opposed, spaced ends 414, 416, and the strip-like closure 406 has opposed, spaced ends 418, 420. The ends 414, 418 are attached together, as are the ends 416, 420. According to one embodiment, the ends 414, 418 and 416, 420 are in the form of a pair of living hinges, although it will be recognized that the backbone 404 and the closure 406 may be separate pieces that are attached by some other mechanism at the ends 414, 416, 418, 420.
In use, force is applied to the closure 406 to change the concavity of the closure surface 410, and in the process move the surfaces 408, 410 into abutment. That is, as a tool or finger is applied against or along the closure 406, the shape of the closure surface 410 changes from concave to convex, with the closure surface 410 moving toward the backbone surface 408 (which is concave in shape). As the movement continues, from
It will be recognized that the applicator 300 may provide the necessary force to move the backbone 404 and closure 406 relative to each other. That is, the backbone 404 of such a system may be placed in the holder 370, while the closure 406 is placed in the holder 372. Upward movement of the carrier 342 relative to the frame 340 would cause the movement of the closure 406 relative to the backbone 404. The shape of the carrier 342, and the holder 372 in particular, may be modified to assist in the process, by having a shape complementary to the backbone surface 408, for example.
Alternatively, the system 400 may be used with an applicator 500 such as is illustrated in
As seen in
While the cam surface 549 may move with the cam 548 relative to the frame 540, it is also possible that the cam surface 549 moves relative to the remainder of the cam 548. In regard to the embodiment illustrated, the cam 548 includes a shoe 551 that moves along the rail 546 and a pin 553 attached to the shoe 551. A roller 555 is pivotally mounted to the pin 553, and has an outer surface that defines the cam surface 549. As the shoe 551 is moved along track 546, the cam surface 549 is caused to move about an axis defined by the pin 553. Thus, the cam surface 549 moves relative to the frame 540 and the remainder of the cam 548.
It will be recognized that by placing a system 400 in the holder 570, the backbone 404 may be advantageously brought into contact with the closure 406 with a motion that is side to side relative to the system 400, rather than up and down. This motion may better ensure that the surfaces 408, 410 of the backbone 404 and closure 406 are brought into contact as the cam surface 549 moves relative to the frame 540.
Depending on the manner in which the system 600 is initially biased, such a system 600 may be advantageously used with the applicator 500. That is, if the system 600 is initially biased at the ends 614, 618 to have an open profile, such as is shown in
The applicator 700 includes a frame 740 and a tool 780 moveably mounted to the frame for movement relative to the frame 740. It will be recognized that any number of mechanisms may be used to mount the tool 780 to the frame 740. As illustrated, however, the tool 780 is mounted on an arm 782 with a first end 784 attached to the tool 780 and a second end 786 pivotally attached to the frame 740. While the pivotal attachment is in the form of a living hinge 788, as illustrated, it will be recognized that other multi-part hinges, pivots, and/or linkages may be used as well. The tool 780 is able to move relative to the frame 740 from a first position, illustrated in
The frame 740 has a holder 770 mounted thereon. The holder 770 has a first end 771 and a second end 773 spaced laterally from the first end 771. As the tool 780 moves from the position illustrated in
The tool 780 includes a wedge 790. The wedge 790 has a base 792 and a sloping angle 794 that are joined by a beam 796. The base 792 and the angle 794 meet in an open point 798, which point is open in the directions of the base 792 and the angle 794.
In operation, as the tool 780 is moved toward the first end 771 of the holder 770, the wedge 790 contacts a system 600 disposed in the holder 770. In particular, the wedge 790 contacts the system 600 at the ends 616, 620. Movement of the tool 780 in the direction of the second end 773 causes the wedge 790 to separate the backbone 604 relative to the closure 606, and the backbone 604 to advance along the angle 794. The motion of the tool 780 stops at the second end 773 of the holder 770, at which point the backbone 604 and the closure 606 are sufficiently spaced to permit the user to insert eyelashes into the space adjoining the open point 798 (see
While the foregoing illustrations have featured an eyelash extension system with a backbone and closure, it will be recognized that according to certain embodiments of the present disclosure, it is not required to have both a backbone and a closure. That is, the eyelash extensions may be releasably attached to a backbone, and transferred with or from the backbone to the eyelashes without the use of a closure. In fact, it may even be possible, according to certain embodiments explained in greater detail below, to have a system wherein the eyelashes are not attached to a backbone or closure.
The system 800 may also include fittings 801. The fittings 801 are used to attach the system 800 to an applicator. As explained in greater detail below, the system 800 is supported without a structure immediately or directly beneath the backbone 804 by attaching the system 800 via the fittings 801 to the applicator. The system 800 is thus suspended from the fittings 801 like a bridge or hammock.
It will be recognized that while the system 800 includes two such fittings 801, the system 800 could include other numbers of fittings according to other embodiments of the disclosure. The system 800 could even include a single fitting, the system 800 being cantilevered from the fitting. The material of the backbone 804 may vary according to the number of fittings used, as it will be understood that a system 800 that is intended to be cantilevered may require a stiffer material than an embodiment that is suspended between two or more fittings.
Two applicators 900, 1000 are illustrated in
Turning first then to the applicator 900, the applicator includes a frame 940 and a moveable press 942. The frame 940 includes a track 944 attached thereto, the track 944 including a pair of rails 946. The rails 946 may be in the form of one or more rod-like structures having a cross-section that is complementary to or mates with the cross-section of the fittings 801 of the system 800. However, according to other embodiments, it is possible for the rails 946 to differ in cross-section relative to the fittings 801. Stops 947 may be attached to the rails 946 at a relatively equal distance along the rails 946, and define a shoulder 949 against which the system 800, and in particular the backbone 804 and/or fittings 801 may abut. The movement of the press 942 may also be inhibited in a first direction by the stops 947. Instead of stops 947, the rails 946 may be tapered to inhibit movement of the system 800 or the press 942 beyond a certain point in the first direction.
To prepare the applicator 900 for use, the press 942 is removed from the rails 946, and the system 800 is placed on the track 944 with each of the rails 946 being received in one of the fittings 801. The system 800, and in particular the backbone 804, is then advanced in the first direction until the backbone 804 and/or fittings 801 abut the stops 947. It will be recognized that with the backbone 804 and/or fittings 801 abutting the stops 947, the backbone 804 is suspended above a surface of the frame 940, without support immediately or directly beneath the backbone 804. The press 942 is then replaced on the rails 946, and the applicator 900 is ready for use.
In use, the applicator 900 is advanced towards the eye with the applicator 900 in the open state illustrated in
Depending on the system 800, the eyelash extensions 802 may then be removed from the applicator, with or without the backbone 804. For example, according to certain embodiments, the eyelash extensions 802 may be releasably attached to the backbone 804, such that once the press 942 is moved in a second direction opposite the first direction, the eyelashes with eyelash extensions 802 may be removed and the backbone 804 removed and discarded. According to other embodiments, the backbone 804 may also be attached to the eyelashes. According to such an embodiment, the region of the backbone 804 attached to the eyelashes may be separated from the region of the backbone 804 that includes the fittings 801. For example, the system 800 may be removed from the applicator 900, and then the fittings 801 may be removed by hand, through the use of a tool, like scissors, or the backbone 804 may be formed with a weakened section or divider, permitting the region of the backbone 804 including the fittings 801 to be torn off. The weakened section may be formed through the use of scoring or perforations, for example.
Where a weakened section is provided, it may also be possible to define the shape of the press 942 so that the surface 943 may advance through the plane defined by the backbone 804 in the first direction. In doing so, the press 942 may apply a force to the region of the backbone between the weakened sections. The force applied via the press 942 may, according to such an embodiment, shear off the regions of the backbone 804 including the fittings 801. It will be recognized that if the edges of the surface 943 are sharpened, it may not be necessary to define weakened sections on the backbone 804 for the press 942 to separate the different regions of the backbone 804.
As noted above, it may even be possible to define an eyelash extension system that does not have the eyelash extensions attached to a backbone. One such system is illustrated in
The system 1100 includes a plurality of eyelash extensions 1102. However, rather than a backbone and closure, the system 1100 includes a hinged box 1101 with a first section 1104 and a second section 1106.
The first section 1104 includes a holder 1105 in which the eyelash extensions 1102 are disposed. The eyelash extensions 1102 may be disposed in the holder 11O5 in a particular orientation, and may be releasably attached to the holder 1105 in that orientation. However, it may also be that the eyelash extensions 1102 are not attached to the holder 1105. In fact, the holder 1105 may include a plurality of grooves, each of the eyelash extensions 1102 disposed in one of the plurality of grooves.
The second section 1106 includes a strip of adhesive 1107. The strip of adhesive 1107 is selected to transfer adhesive to the eyelashes and/or eyelash extensions 1102 disposed within the system 1100, and to attach the eyelashes to the eyelash extensions 1102. To this end, the opposing surface 1109 of the first section 1104 may be treated with a surface coating to prevent the adhesive strip 1107 from securing the two sections 1104, 1106 of the box 1101 together. Alternatively, a release paper may be attached to the surface 1109 to limit or prevent adherence of the two sections 1104, 1106 together.
The system 1100 includes connectors 1111, 1113 that cooperate with the applicator 1200 illustrated in
Turning now to the applicator 1200 pictured in
As seen in
As seen in
It will be recognized that one or more of the applicators previously described may benefit from the addition of a device or mechanism for visualizing the placement of the eyelash extension system relative to the user's eyelashes. Two such visualization systems are illustrated in FIGS. 14 and 15A-B. These systems are illustrated relative to a system similar to that illustrated in
As illustrated in
Attached to the upper piece 1442 are one or more light sources 1441. The light source 1441 directs light in the direction of the lower piece 1440, thereby illuminating a section of the eyelash or eyelash extension, as indicated by I in
The light source 1441 may be defined by using light emitting diodes, or LEDs, for example, in which case a power source for the light source and switch to turn the light source 1441 on or off may be included. Alternatively, miniature light bulbs may be used in place of the LEDs. As a further alternative, a chemical light source may be used, wherein the light source is activated by rupturing a frangible separation or divider to permit two components to mix, which components, when mixed, provide light via luminescence. Other alternatives will also be recognized.
The upper piece 1570 may also serve as a holder for an eyelash extension system, as may the lower piece 1572. Alternatively, the backbone may be suspended between the pieces 1570, 1572 as illustrated in
The dimensions and values disclosed herein are not to be understood as being strictly limited to the exact numerical values recited. Instead, unless otherwise specified, each such dimension is intended to mean both the recited value and a functionally equivalent range surrounding that value. For example, a dimension disclosed as “40 mm” is intended to mean “about 40 mm.”
All documents cited in the Detailed Description of the Invention are, in relevant part, incorporated herein by reference; the citation of any document is not to be construed as an admission that it is prior art with respect to the present invention. To the extent that any meaning or definition of a term in this document conflicts with any meaning or definition of the same term in a document incorporated by reference, the meaning or definition assigned to that term in this document shall govern.
While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.
This application claims the benefit of U.S. Provisional Application No. 60/999,625, filed Oct. 19, 2007.
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