Patent Application
20180000230
The present application is directed to a system and method for activating a cosmetic coating with fine precision.
In an embodiment, a cosmetic activator system for activating a cosmetic is provided including: an activator having an energy source configured to emit an energy pulse and a controller; and an imprinter having an imprint pattern and at least one activation element configured to be in communication with the energy source, wherein the imprinter is configured to create an imprint on the cosmetic.
In an embodiment, the imprinter includes an array of activation elements.
In an embodiment, the imprinter includes a raised surface and an array of activation elements, wherein the imprint pattern is based on the raised surface and the array of activation elements.
In an embodiment, the imprinter includes a raised surface and the imprint pattern is based on the raised surface.
In an embodiment, the cosmetic activator system further includes a timer, wherein the controller is configured to control the energy source based on the timer.
In an embodiment, the activation element is at least one of a heating element, a photo element, and an electrical element.
In an embodiment, the controller is configured to control the energy source based on the activation element.
In an embodiment, the imprinter further includes a cosmetic layer, wherein the system can be configured to simultaneously apply and activate the cosmetic layer.
In an embodiment, the activator further includes at least one of a clip and a ring, wherein the cosmetic activator system is configured to be wearable.
In an embodiment, an imprinter for patterning a cosmetic is provided including: an imprint pattern; and at least one activation element configured to be in communication with an energy source, wherein, when the activation element is energized, an imprint is patterned on the cosmetic based on the imprint pattern.
In an embodiment, the activation element is at least one of a heating element, a photo element, and an electrical element.
In an embodiment, the imprinter includes an array of activation elements.
In an embodiment, the imprinter further includes a cosmetic layer, wherein the imprinter can be configured to simultaneously apply and activate the cosmetic layer.
A more complete appreciation of the embodiments and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
The present disclosure relates to an cosmetic activator system configured to activate a cosmetic coating with fine precision. Examples of cosmetics include thermochromic materials, such as Leuco dyes, and thermochromatic liquid crystals (TLC), and photochromic materials such as spiropyrans. In an aspect, activation of the cosmetic can be reversible or irreversible. In an example, the cosmetic can be applied as a coating to a fingernail, a portion of skin, and a grouping of hair.
Activation of the cosmetic can be one of a modification of a chemical state, an absolute or relative temperature, an oxidation state, a photochromic state, and a crystalline structure. In an aspect, the activation can include a first activation of the cosmetic, as well as a second activation configured to reverse or reset the first activation of the cosmetic in the case of a reversible activation or modification.
Cosmetics including thermochromic materials can be activated by one or more temperatures and durations. In an example, the activation by modification of temperature can be based on a glass-transition temperature and vitrification of a property of the cosmetic. The activation by modification of temperature can include a temperature range and duration. A transition temperature near or above body temperature may assure the activation and prevention of reversal. Reversal temperatures in the extreme cold (0-5° C.) limit chance of premature or unintentional reversal without an artificial application of freeze spray or other. For example, the activation by modification of temperature can include a first temperature range (e.g. 37° C.-40° C.) where the first temperature range is held for a first duration (e.g. 2-5 sec). In an aspect, the first activation can be reset by a second activation with a second temperature range (e.g. 0° C.-5° C.) where the second temperature range is held for a second duration (e.g. 5-10 sec).
In an aspect, one or more temperature ranges can be based on a property of the cosmetic such that the cosmetic is configured to have one or more colors for each respective temperature range. Each temperature range is preferably within a safety threshold to prevent tissue injury. However, for short durations, the temperature range may also exceed the safety threshold.
The activation by the oxidation change can include one of a voltage potential or a charge amount. The activation by the photochromic change can include exposure to specific types of light of sufficient intensity such as ultraviolet (UV) radiation. In an example, the activation of the cosmetic can be a surface topography change, such as a reflectance property.
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views.
The cosmetic activator system can be a single piece or a combination of two or more pieces. In an example, the imprinter 120 can be configured to attach to the activator 110 at an attachment area 112 (See
The cosmetic activator system further includes at least one activation element, which can be in either the activator or the imprinter. Examples of an activation element include a thermoelectric element, a photo element, and an electrical element. The cosmetic activator system can also include a linear array of activation elements or a spatial array of activation elements. In an aspect a precision of the image pattern can be based on a number of activating elements in an array of activating elements. In an example the precision of the image pattern can configured to create an image without noticeable pixilation as well as text with different fonts and embellishments. In a preferred embodiment, the activation elements are integrated into the imprinter. In an aspect, a set of imprinters can be interchanged with the activator, where each imprinter can be configured to match with at least one of a respective cosmetic and activation modality. In an example, the controller of the activator can be configured to recognize the activation modality of the imprinter. In an example, the user interface can be configured to receive the activation modality of the imprinter.
The cosmetic activator system 100 can optionally further include ergonomic and attachment features. For instance, the activator can include a handle 114 for gripping (See
The handle 114 can be configured to aid in applying an imprint pattern 130 on a fingernail 310 of a finger (See
The imprinter 120 can be of several types including a passive imprinter (See
The passive imprinter can have a raised surface 210 configured to make the imprint pattern. Examples of the passive imprinter include a stamp, a mold, and a branding iron. The raised surface 210 can be created in a variety of ways. The raised surface 210 can be created manually or in an automated fashion such as a 3D printer and a computer numeric control (CNC) machine.
An active imprinter can include an array of activating elements 220 for generating the imprint pattern with fine precision to a cosmetic 240 (See
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A hybrid imprinter can be a combination of an active imprinter and a passive imprinter in several ways. In a first example, the array of activating elements 220 of an active imprinter can be configured to activate the cosmetic 240 in conjunction with the raised surface 210 of the passive imprinter (See
The imprinter can be configured to have a mirror image of the image pattern 130 such that an imprint 330 is reflected on the cosmetic as intended (See
In an embodiment, the imprinter can further include a cosmetic layer 250, where the cosmetic activator system can be configured to simultaneously apply and pattern the cosmetic according to an example (See
The imprint pattern can be of an image and text with different fonts and embellishments. The imprint pattern can be configured to transfer to a cosmetic coating on a fingernail, a portion of skin, and a grouping of hair.
At step 410, apply a cosmetic coating. The step of applying a cosmetic coating can be done in several ways. In an example, the cosmetic can be brushed on a fingernail or portion of skin similar to nail polish (See
At step 420, select a cosmetic activator system based on the cosmetic. The step of selecting a cosmetic activator system based on the cosmetic can be done in several ways. The cosmetic activator system may be packaged along with the cosmetic according to an example. The cosmetic can be marked for compatibility with a cosmetic activator system.
At step 430, apply an activation energy for a duration to the cosmetic coating using the cosmetic activator system. The step of applying an activation energy for a duration to the cosmetic coating using the cosmetic activator system can be done based on the cosmetic activation modality.
Optionally, at step 440, the method 400 can include resetting the activated cosmetic coating. The resetting of the activated cosmetic coating can be done in several ways as shown in
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
