Aspects of the present disclosure relate to the ability to clean and confirm cleaning of surfaces using UV light.
Current surface cleaning methods may not provide reliable indications that the cleaning process has been performed. Accordingly, neither the users of these surfaces nor those responsible for performing the cleaning processes may reliably confirm that the surfaces have been sufficiently cleaned. Accordingly, there remains a need for systems and methods to reliably clean and confirm that cleaning procedures have been executed.
The present disclosure provides a system, in one aspect, the system including: an ultraviolet (UV) light source; a power source configured to provide power to the UV light source; and a photochromatic indicator associated with a component, the photochromatic indicator being in a first state, the UV light source being configured to change the photochromatic indicator from a first state to a second state, the second state indicating that the component has been cleaned. The second state is visible to a naked eye under ambient lighting.
In one aspect, in combination with any example system above or below, the system includes that the component is formed from a material selected from the group consisting of: a polymer, a polycarbonate, a metal, a composite, a nano-reinforced material, an organic material, a textile fabric, and combinations thereof.
In one aspect, in combination with any example system above or below, the system includes that the photochromatic indicator is in a form selected from the group consisting of: a sticker, a thread, a textile fabric, an organic material, a polycarbonate element, a polymer element, a metal element, a coating, and combinations thereof.
In one aspect, in combination with any example system above or below, the system includes the that photochromatic indicator is included in a tray cover, a headrest cover, a seat cover, an armrest cover, an outlet cover, or a headset cover.
In one aspect, in combination with any example system above or below, the system includes that the photochromatic indicator includes a reversible photochromatic pigment.
In one aspect, in combination with any example system above or below, the system includes that the photochromatic indicator includes an irreversible photochromatic pigment.
In one aspect, in combination with any example system above or below, the system includes that the UV light source includes a wireless device, a wired device, a device removably coupled to a wall of an aircraft passenger cabin, a device removably coupled to a ceiling of an aircraft passenger cabin, a device removably coupled to a seat of an aircraft passenger cabin, or a device removably coupled to a floor of an aircraft passenger cabin.
In one aspect, in combination with any example system above or below, the system includes that the photochromatic indicator is not visible to the naked eye when in the first state.
In one aspect, in combination with any example system above or below, the system includes that the UV light source emits a wavelength of from about 222 to about 254 nanometers (nm).
In one aspect, in combination with any example system above or below, the system includes that the photochromatic indicator is included in a cover comprising at least one aperture, the cover being configured to couple to the component through one or more of an adhesive, a magnetic means, a mechanical means, a hook-and-loop means, or combinations thereof.
In one aspect, in combination with any example system above or below, the system includes that the component comprises a gaming system
The present disclosure provides a method, in one aspect, the method including: removably coupling a first photochromatic indicator to a component, the first photochromatic indicator being in a first state; applying an ultraviolet (UV) light source to the component, and, in response to the UV light source, the first photochromatic indicator changes from the first state to a second state, the second state indicating that the component has been cleaned, said second state being visible to a naked eye under ambient light; uncoupling the first photochromatic indicator from the component; disposing of the first photochromatic indicator; and removably coupling a second photochromatic indicator to the component, the photochromatic indicator being in the first state.
In one aspect, in combination with any example method above or below, the method includes that the photochromatic indicator is included in a single-use component removably coupled to the component through an adhesive, a magnetic means, a hook-and-loop means, a mechanical means, or combinations thereof.
In one aspect, in combination with any example method above or below, the method includes that the photochromatic indicator includes two or more photochromatic pigments, each of the two or more photochromatic pigments having an at least one of a different concentration or a different composition.
The present disclosure provides a method, in one aspect, the method including: (a) applying an ultraviolet (UV) light source to a component having a first photochromatic indicator in a first state. Further in the method, in response to the UV light source being applied to the first photochromatic indicator and the first photochromatic indicator absorbing energy from the UV light source, the first photochromatic indicator changes from the first state to a second state, the second state indicating that the component has been cleaned; and after a predetermined period of time, in response to the energy from the UV light source absorbed by the first photochromatic indicator dissipating, the first photochromatic indicator changing from the second state to
In one aspect, in combination with any example method above or below, the method includes that, prior to applying the UV light source, removably coupling the first photochromatic indicator to the component, the first photochromatic indicator including irreversible photochromatic pigment.
In one aspect, in combination with any example method above or below, the method includes (b) re-applying the UV light source to the first photochromatic indicator subsequent to the first photochromatic indicator changing from the second state to the first state. The first photochromatic indicator changes from the first state back to the second state in response to (b), indicating that the component has been cleaned.
In one aspect, in combination with any example method above or below, the method includes performing (a) and (b) for a plurality of iterations, and the first photochromatic indicator includes at least one reversible pigment.
In one aspect, in combination with any example method above or below, the method includes, subsequent to performing (a) and (b) for a plurality of iterations: uncoupling the first photochromatic indicator from the component; disposing of the first photochromatic indicator; and associating a second photochromatic indicator with the component, the second photochromatic indicator being in the first state.
In one aspect, in combination with any example method above or below, the method includes that, the first photochromatic indicator comprises a brand identifier.
The present disclosure provides an assembly, the assembly including: a photochromatic indicator associated with a component, the photochromatic indicator being in a first state under ambient light and configured to be in a second state under the ambient light after being exposed to a UV light source, the first state being different than the second state, the photochromic indicator being configured to change from the first state to the second state in response to the UV light source to indicate that the component has been cleaned.
In one aspect, in combination with any example assembly above or below, the UV light source is configured to emit a wavelength from about 222 nm to about 254 nm.
In one aspect, in combination with any example assembly above or below, the photochromatic indicator is configured as a disposable, single-use element.
In one aspect, in combination with any example assembly above or below, the component is formed from a material selected from the group consisting of: a polymer, a polycarbonate, a metal, a composite, a nano-reinforced material, an organic material, a textile fabric, and combinations thereof.
In one aspect, in combination with any example assembly above or below, the photochromatic indicator is associated with the component via a means selected from the group consisting of: an adhesive means, a mechanical means, a magnetic means, a hook-and-loop means, and combinations thereof.
The present disclosure provides a photochromatic indicator, the photochromatic indicator including: a photochromatic pigment, the photochromatic pigment being in a first state under ambient light and configured to be in a second state under ambient light after being exposed to a UV light source, the first state being different than the second state, the photochromic pigment being configured to change from the first state to the second state in response to the UV light source.
The present disclosure provides a photochromatic indicator, the photochromatic indicator including that the photochromatic pigment is configured to change from the first state to the second state in response to the UV light source emitting a wavelength of from about 222 nm to about 254 nm.
The present disclosure provides a photochromatic indicator, the photochromatic indicator including that the photochromatic pigment is a reversible photochromatic pigment.
The present disclosure provides a photochromatic indicator, the photochromatic indicator including that the photochromatic pigment is an irreversible photochromatic pigment.
The present disclosure provides a photochromatic indicator, the photochromatic indicator being in a form selected from the group consisting of: a sticker, a thread, a textile fabric, an organic material, a polycarbonate element, a polymer element, a metal element, a coating, and combinations thereof.
So that the manner in which the above recited features can be understood in detail, a more particular description, briefly summarized above, may be had by reference to example aspects, some of which are illustrated in the appended drawings.
The present disclosure relates to the cleaning, e.g., the disinfection and sanitization of one or more surfaces of a component using ultraviolet (UV) light. The cleaning discussed herein can, in some examples, include sterilization. As used herein, “sterilization” is a process that makes one or more surfaces of a component free from bacteria, viruses, or other living microorganisms. The surfaces discussed herein may be “high-touch” surfaces contacted by multiple parties, such as seats, trays, counters, touch screens, keyboards, or gaming consoles, in contrast with “low-touch” surfaces such as ceilings or other harder-to-reach surfaces. In some examples, such “high-touch” surfaces may be present on an aerospace vehicle such as a commercial airplane. In some examples, UV light may be used alone, and in other examples, UV light may be used in combination with one or more cleaning solvents to remove contaminants such as dirt and oils as well as biologic elements such as viruses and bacteria such that the cleaned surfaces are not likely to transmit biologic contaminants among and between users of the high-touch surfaces.
In currently employed cleaning processes, a photo-luminescent element or elements can be used to indicate that rooms and surfaces, such as lavatories on aircrafts, have been cleaned. However, currently employed photo-luminescent processes may be commonly confirmed in a darkened passenger cabin, or other areas capable of having all light sources deactivated or otherwise covered, where photo-luminescent strips emit light from absorbed photons. In addition, some currently employed systems use photo-luminescent indicators that can be charged from a multitude of light sources such as ambient light sources in addition to cleaning sources such as UV lights. As such, the photo-luminescent indicators might glow from being charged by these light sources, thereby undesirably providing a false reading of ultraviolet (UV) exposure and resultant clean status.
The high-touch surfaces discussed herein can include components of aircrafts, such as those in the passenger cabin, crew areas, or cockpit, as well as gaming systems. As discussed herein, “gaming systems” are systems configured for gambling in casinos or for non-gambling environments such as all-ages arcades or home systems, including e-sports systems. It is further contemplated that other high-touch surfaces in high-traffic areas such as touch-screen and/or keypads, card readers, or other surfaces or combinations of surfaces in retail stores, shopping malls, schools, offices, rental cars, ride shares, housing shares, financial institution, automated teller machines (in financial institutions or other locations), hospital, hotels/motels/resorts, or other locations could employ the systems and methods discussed herein to clean both high-touch surfaces as well as other areas. These high-touch surfaces may further include door handles, desktops, countertops, key boards, computer mice, touch screens/GUIs on kiosks or mobile devices, other areas of mobile devices and/or mobile device cases, clothes hangers, seating, cutlery, dishware, glassware, or other items including surfaces that may be touched by multiple parties during the course of use.
Using the systems and methods discussed herein, photochromatic indicators are used to indicate, to a party responsible for cleaning a component as well as to a party who may use the component, when the component including one or more high-touch surfaces have been cleaned. The systems and methods discussed herein thus instill confidence and, in some examples, confirmation and auditability that cleaning has been performed. The cleaning can be defined by a predetermined schedule set by a party who owns or rents the component(s), or by a local, state, or federal government regulation.
As used herein, a “photochromatic indicator” is a single-use, multi-use, semi-permanent, or permanent element including one or more photochromatic pigments. Photochromatic pigments are configured to change from a first state to a second state for a predetermined period of time in response to absorbing UV light. For example, photochromatic pigments may change from clear to color upon the absorption of certain UV light. The photochromatic pigments can be in the forms of liquid, solid (e.g., powder), colloids (e.g., slurry), or other forms or combinations of forms. Depending upon the example, the photochromatic pigments can be used in indicators as liquid or gel reservoirs, paints or other coatings, incorporated into stickers, added to polymers, polycarbonates, metals, or textile elements. As used herein, the terms “paint” and “coating” may be used interchangeably to mean various types of materials (such as photochromatic indicators) applied in one or more layers to one or more surfaces of a component that can be removed by chemical, mechanical, or combination means and replaced.
The first states and the second states of photochromatic indicators discussed herein can be confirmed by and are visible using the naked eye in ambient light, such that the area including the photochromatic indicator may not be darkened in order to confirm cleaning. As used herein, “ambient light” is light present in a room from natural light (e.g., the sun), or existing room lighting, in contrast to lights used to illuminate particular aspects of or areas within room or other environment. As used herein, something that is “visible to the naked eye” can be seen without magnification, including when a person or persons are wearing prescription glasses. In other aspects of the present disclosure, the change from the first state to the second state can be confirmed via an application on a mobile device or via a tactile change, for example, if a party who desires to confirm the change is vision-impaired or desires to create a record of the change using the mobile device. The ability to verify that a surface has been cleaned using the photochromatic indicators discussed herein provides assurance for the party cleaning the surface as well as for the party using the surface.
Depending upon the example, the photochromatic pigment(s) included in the photochromatic indicators can be selected and configured to be reversible or irreversible. As used herein in connection with photochromatic indicators including photochromatic pigment, for example, where polymers, polycarbonate, metallic, or textile elements or coatings on elements have photochromatic pigment included therein, “reversible” is to mean that UV light is applied to the photochromatic indicator to change it from a first state to a second state. In this example, after a predetermined period of time that may range from about 10 minutes to about 24 hours, the photochromatic indicator changes from the second state back to the first state. In other examples, the predetermined period of time can be from about 30 minutes to about 3 hours. In still other examples, the predetermined period of time of the first state can be from about 2 hours to about 6 hours. As used herein, “about” is to mean within +/−5% of a stated target value, maximum, or minimum value.
In one example, the first state of a photochromatic indicator can include text and/or a graphic in a first color visible to the naked eye. In another example, which can be combined with other examples herein, the first state of a photochromatic indicator may be invisible to the naked eye. In some examples, the first state can alternatively or additionally include a tactile element such that the photochromatic indicator has one tactile configuration in the first state and a different tactile configuration (e.g., bumps, grooves, or smoothness) in the second state. In some examples, the second state can include a second, different color visible to the naked eye. The second state can include a graphic and/or text indicating that the associated component or surface has been cleaned. In one example, which can be combined with other examples herein, the second state may further include a brand identification, such that the brand identification (logo) is visible in the second state but not in the first state. In some examples, the first state of a photochromatic indicator can be a first color and the second state can be a different color such that the photochromatic indicator is visible in both states. In other examples, the first state of a photochromatic indicator can include a brand in a first color and the second state can include the brand in a different color as well as additional graphics and/or text that were not visible in the first state. The additional graphics and/or text may indicate the component associated with the photochromatic indicator has been cleaned. As discussed herein, a photochromatic indicator can be “associated with” a component by being removably coupled, a permanently coupled, or formed integrally with the component, as discussed below in
In some examples, photochromatic indicators can be associated with multi-use or semi-permanent components such as an insert in a tray table or an armrest in the passenger cabin or cockpit of an aircraft. These may be referred to as “multi-use” photochromatic indicators since these indicators can be changed from the first state to the second state in response to the absorption of UV light, and then change back to the first state as the UV energy absorbed dissipates, the UV light can then be re-applied to again change the photochromatic indicator from the first state back to the second state. After a predetermined number of re-cleanings, the multi-use photochromatic indicator can be removed, disposed of, refurbished and recycled, or replaced with a new, previously unused photochromatic indicator. Similarly, semi-permanent photochromatic indicators may be changed from the first state to the second state for a plurality of iterations before being eventually replaced during refurbishment of an associated component. For example, in an aircraft, where seating may be replaced or refurbished according to a maintenance schedule, the photochromatic indicator may be included in the fabric or other material comprising the seat, and may be refurbished as a part of the maintenance process. An example of a permanent component where a photochromatic indicator may be used are those that are typically replaced entirely as opposed to being repainted/recoated, re-polished, or otherwise refurbished, due to damage or predetermined maintenance procedures, redesigns, mergers or acquisitions (where branding may change), or other policies or regulations. The photochromatic pigment or elements (e.g., the photochromatic indicator) including the photochromatic pigment(s) should be chosen to be stable under various environmental conditions on an airplane during flight.
Further as used herein in connection with photochromatic pigment or elements including photochromatic pigment, for example, where polymers, polycarbonate, metallic, or textile elements have photochromatic pigment included therein, “irreversible” is to mean that UV light is applied to the photochromatic indicator to change it from a first state to a second state, and does not change back to the first state during the useful life of the photochromatic indicator. That is, the photochromatic indicator including irreversible pigment is removed/refurbished or disposed of prior to the photochromatic indicator changing back to the first state. In some examples, irreversible photochromatic indicators of pigment or including pigment can be included in elements that are single-use, disposable components. These single-use, disposable components may include headrest covers, tray table covers, table covers (e.g., in restaurants or food courts), seat covers, covers for components in lavatories, or other components as appropriate for various applications. The second state may also reflect brands and/or messages indicating the UV-treated status and/or that the photochromatic indicator and/or the component it is associated with is single-use (e.g., a headrest or tray table cover for passenger or pilot seating on an aircraft, bus, or train).
The UV light source 102 can be configured to clean a component 110 having one or more surfaces. As discussed above, the component 110 can be located in an airplane, car, train, bus, office, restaurant, retail location, residence, hotel/resort, hospital, or other location. A photochromatic indicator 110A can be associated with the component 110 to form an assembly. A “removably coupled” photochromatic indicator 110A can be coupled to and removed from the component 110 without causing damage to the component 110. For example, a cover, a sticker, paint/coating, or other forms of photochromatic indicators 110A. A removably coupled photochromatic indicator 110A can also be a semi-permanent photochromatic indicator 110A that can be used in a plurality of cleaning cycles as discussed herein, such that after the semi-permanent photochromatic indicator changes from the first state to the second state and back to the first state a predetermined number of times, it is replaced with a new photochromatic indicator. A “permanently coupled” photochromatic indicator 110A can be formed separately from and then subsequently coupled to the component 110 and used a plurality of times but cannot be removed from the component 110 without causing damage to the component 110. This may be, for example, a thread or threads in the form of a woven textile (e.g., a fabric) that are associated with a seat or headrest subsequent to fabrication of the seat or headrest. An “integral” photochromatic indicator 110A can be molded, cast, or otherwise incorporated into the component 110. The type of component 110 and the type of maintenance performed on the component 110 may enable the integral photochromatic indicator 110A to be removed and replaced or refurbished/recycled. Accordingly, the photochromatic indicator 110A can be in the form of a sticker, a thread, a textile fabric, an organic material (e.g., a wood- or plant-based material such as paper), a polycarbonate element, a polymer element, a metal element, a coating, and combinations thereof
The UV light source 102 can be configured to operate at a wavelength or within a range such that the one or more photochromatic pigments included in the photochromatic indicator 110A change from a first state to a second state in response to absorbing the energy from the UV light source 102. Depending upon the example, the one or more photochromatic pigments included in the photochromatic indicator 110A can be reversible or irreversible as discussed above. In some examples, the photochromatic indicator 110A can be configured to include two or more types (colors) of photochromatic pigment or two or more concentrations of the same type (color) of photochromatic pigments such that the photochromatic indicator 110A has a color gradient formed over time in one or more directions. In one example, the color gradient could be configured to indicate to a cleaner or cleaning system sensor when the photochromatic indicator 110A is changing from the first state to the second state. In another example, which can be combined with other examples herein, the color gradient could be configured to indicate to a cleaner or cleaning system sensor or to a user of the associated component 110 when the photochromatic indicator 110A is changing from the second state back to the first state as an early warning that it may be desirable to re-clean the component 110.
The photochromatic indicator 110A can be formed from one or more materials configured to be used and approved for use in one or more of an aircraft, automobile, hospital, restaurant, retail location, hotel/resort, or other locations as discussed herein. In some locations, the photochromatic indicator 110A will thus be formed from one or more materials configured to resist humidity, fire, wide pH ranges, heat, cold, or other conditions without detaching or uncoupling from an associated component. In some examples, the photochromatic indicator 110A is formed from a material chosen to prevent the release of toxic fumes during a fire.
The component 110 can be formed from one or more of a polymer, a polycarbonate, a metal, a composite, a nano-reinforced material, an organic material (including plant- or wood-based materials such as paper), a textile fabric, and combinations of materials. In various examples, the component 110 can include a tray cover, a headrest cover, a seat cover, an armrest cover, an outlet cover, a headset cover, a keyboard or computer mouse, a table, a seat, a countertop, a touch-screen or other element of a mobile device or kiosk, a tray insert, an armrest insert, a seat insert, or a cover configured to cover one or more surfaces of a gaming system including casino or e-sports gaming systems.
In some examples, the system 100 includes a server computer 106 having a non-transitory memory configured to store a plurality of logic in the form of cleaning programs, cleaning schedules, and cleaning records. This information and other information may be stored on one or more data stores 108 which may be part of a cloud computing system. The UV light source 102 and the power source 104 may be in communication with and/or controlled by the server computer 106. In some examples, a mobile device 112 such as a phone, tablet, personal data assistant, laptop computer, or wearable smart device can include an app configured to determine when the photochromatic indicator 110A is in the first state or the second state.
The system 100 can be used in a variety of cleaning methods with different types of photochromatic indicators associated with varying types of components, including as discussed below.
In one example, the photochromatic indicator 200 can be formed from organic materials such as wood or paper, polymer, polycarbonate, metal, composite, or combinations of materials. One or more photochromatic indication points 216 can be located in various places on the photochromatic indicator 200, each including one or more photochromatic pigments that change from a first state to a second state in response to application of a UV light source as discussed above. In other examples, the entire surface 218 of the photochromatic indicator 200 includes one or more photochromatic pigments, possibly in gradient form, such that the entire surface 218 changes from a first state to a second state in response to application of the UV light source. The photochromatic indicator 200 can include branding specific to a casino, an e-sports brand, restaurant, or bar including an arcade, a bank, or other institution that employs the device to indicate that the component it is associated with has been cleaned.
The photochromatic indicator 200 can be coupled to a component using an adhesive, a mechanical means, a magnetic means, a hook-and-loop means, a friction or press-fit-based means, or combinations thereof. Each of the apertures 204, 206, 208, and 210 could be configured to allow access to a control or selection feature of the associated component. In another example, one of more of the horizontal slot aperture 212 and the vertical slot aperture 214 could be configured to accept card-present transactions from various payment methods including gaming cards. In another example, one or more of the apertures 204, 206, 208, and 210 or the slot apertures 212 and 214 could be configured to enable RFID or other wireless communications such as receiving information from a payment instrument (virtual or physical), gaming card or app, or other payment instrument.
The photochromatic indicator 200 could be a part of a system such as the system 100, and may be configured to include reversible or irreversible pigment(s) or gradients of pigment, depending upon the example. In some examples, a gradient can include a combination of both irreversible and reversible photochromatic pigments. In some examples, a gradient can include only irreversible or reversible photochromatic pigments. In one example, the photochromatic indicator 200 can be removably coupled to a slot machine or other gambling machine in a casino or other location where gambling is facilitated. In another example, the photochromatic indicator 200 could be coupled to gaming equipment in an arcade outside of a casino, for example, an e-sports location. While the photochromatic indicator 200 is shown here as being a strip configuration, in other examples, it could be configured to wrap around handles, steering wheels, joysticks, or other control systems used for gaming where it is desirable for both the equipment owners and users to be able to confirm that the component associated with the photochromatic indicator 200 has been cleaned.
The UV light source may be applied to the component including the photochromatic indicator for a predetermined period of time and at a predetermined wavelength. In one aspect, the predetermined period of time can be from about 5 seconds to about 2 minutes. In another aspect, the predetermined period of time can be from about 10 seconds to about 60 seconds. In yet another aspect, the predetermined period of time can be from about 15 seconds to about 45 seconds. The UV wavelength used at operation 304 can be from about 100 nm to about 400 nm. In one example, UVA is used, having a wavelength from about 315 nm to about 400 nm. In another example, UVB is used, having a wavelength from about 280 nm to about 314 nm. In yet another example, UVC is used, having a wavelength from about 100 nm to about 279 nm. In still another example, the UV wavelength used at operation 304 is from about 222 nm to about 254 nm. In other examples, combinations or overlapping ranges of UVA, UVB, and UVC may be used.
In other examples, mobile devices including apps configured to confirm the presence of a graphic or a color change, or both, may be used to confirm the change from the first state to the second state. In still other examples, a tactile sensation may be used to confirm the change from the first state to the second state. In this example, the photochromatic indicator includes irreversible pigment and is intended for single-use. The photochromatic indicator may take the form of a seat cover, armrest cover, headrest cover, tray table cover, power outlet cover, touch-screens or touch screen covers or cases, table cover, retail or restaurant counter cover, or other disposable cover used for travel, retail, food service, financial institution, or in a shared workspace such as a conference room or other workspace that may be used by different individuals. The second state indicates that the component has been cleaned and can be used, for example, for a flight, a train ride, a bus ride, or a gaming/e-sports experience. Accordingly, subsequent to the use of the associated component, at operation 308, the photochromatic indicator is uncoupled from the component (308—Uncouple photochromatic indicator from component) and disposed of at operation 310 (310—Dispose of or refurbish/recycle photochromatic indicator). In some examples, instead of being disposed of at operation 310, the photochromatic indicator may be refurbished or recycled, depending upon its constituent material(s). At operation 312, a new, refurbished, or recycled photochromatic indicator in the first state is removably coupled to the component (312—Replace photochromatic indicator with another photochromatic indicator in a first state).
At operation 404, a UV light source is applied to the component including the photochromatic indicator (304—Apply UV light source). The UV light source may be applied to the component including the photochromatic indicator for a predetermined period of time and at a predetermined wavelength. In one aspect, the predetermined period of time can be from about 5 seconds to about 2 minutes. In another aspect, the predetermined period of time can be from about 10 seconds to about 60 seconds. In yet another aspect, the predetermined period of time can be from about 15 seconds to about 45 seconds. The UV wavelength used at operation 404 can be from about 100 nanometers (nm) to about 400 nm. In one example, UVA is used, having a wavelength from about 315 nm to about 400 nm. In another example, UVB is used, having a wavelength from about 280 nm to about 314 nm. In yet another example, UVC is used, having a wavelength from about 100 nm to about 279 nm. In other examples, overlapping ranges of UVA, UVB, and UVC wavelengths may be used at operation 404. In specific examples, UV light sources such as wands having, for example wavelengths of from about 275 to about 395 nm can be used. In other examples, UV light sources such as wands having wavelengths from about 260 to about 285 nm can be used. In still other examples, UV light sources such as wands having wavelengths from about 222 nm to about 254 nm can be used.
In this example, as indicated by the arrow from operation 408 to operation 404, the UV light source (such as the UV light source 102 as shown in
In some examples of the method 400, at operation 410, at least one of the photochromatic indicator 602 or the component it is associated with can be removed and disposed of or refurbished (410—Remove and recycle/refurbish or dispose of photochromatic indicator). Subsequently, at operation 412, another photochromatic indicator can be associated with the component, or with the replaced or refurbished component (412—Associate a second photochromatic indicator in a first state to the component), and the method 400 can return to operation 404 such that a new plurality of cleaning iterations can be performed.
In various aspects of the present disclosure, the methods 300 and 400 can be executed by employees such as airline employees, and the cleaning results verified by the employees as well as the passengers. In other aspects, the methods 300 and 400 can be executed and visually confirmed by passengers or customers. In still other aspects of the present disclosure, the methods 300 and 400 can be executed automatically in response to commands transmitted to the system 100 on a predetermined schedule or in response to a triggering event such as deplaning or a shift change. In some aspects of the present disclosure, more than one graphic may be included in a photochromatic indicator, such that a first graphic changes from a first state to a second state in response to a first combination of a time and a UV wavelength, and a second graphic changes from a first state to a second state in response to a second combination of a time and a UV wavelength.
In the current disclosure, reference is made to various aspects. However, it should be understood that the present disclosure is not limited to specific described aspects. Instead, any combination of the above features and elements, whether related to different aspects or not, is contemplated to implement and practice the teachings provided herein. Additionally, when elements of the aspects are described in the form of “at least one of A and B,” it will be understood that aspects including element A exclusively, including element B exclusively, and including element A and B are each contemplated. Furthermore, although some aspects may achieve advantages over other possible solutions and/or over the prior art, whether or not a particular advantage is achieved by a given aspect is not limiting of the present disclosure. Thus, the aspects, features, aspects and advantages disclosed herein are merely illustrative and are not considered elements or limitations of the appended claims except where explicitly recited in a claim(s).
As will be appreciated by one skilled in the art, aspects described herein may be embodied as a system, method or computer program product. Accordingly, aspects may take the form of an entirely hardware aspect, an entirely software aspect (including firmware, resident software, micro-code, etc.) or an aspect combining software and hardware aspects that may all generally be referred to herein as a “circuit,” “module” or “system.” Furthermore, aspects described herein may take the form of a computer program product embodied in one or more computer readable storage medium(s) having computer readable program code embodied thereon.
Program code embodied on a computer readable storage medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.
Computer program code for carrying out operations for aspects of the present disclosure may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, Smalltalk, C++ or the like and conventional procedural programming languages, such as the “C” programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the latter scenario, the remote computer may be connected to the user's computer through any type of network, including a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider).
Aspects of the present disclosure are described herein with reference to flowchart illustrations and/or block diagrams of methods, apparatuses (systems), and computer program products according to aspects of the present disclosure. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the block(s) of the flowchart illustrations and/or block diagrams.
These computer program instructions may also be stored in a computer readable medium that can direct a computer, other programmable data processing apparatus, or other device to function in a particular manner, such that the instructions stored in the computer readable medium produce an article of manufacture including instructions which implement the function/act specified in the block(s) of the flowchart illustrations and/or block diagrams.
The computer program instructions may also be loaded onto a computer, other programmable data processing apparatus, or other device to cause a series of operational steps to be performed on the computer, other programmable apparatus or other device to produce a computer implemented process such that the instructions which execute on the computer, other programmable data processing apparatus, or other device provide processes for implementing the functions/acts specified in the block(s) of the flowchart illustrations and/or block diagrams.
The flowchart illustrations and block diagrams in the Figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods, and computer program products according to various aspects of the present disclosure. In this regard, each block in the flowchart illustrations or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the Figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order or out of order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented by special purpose hardware-based systems that perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.
Additional Aspects
Clause 1. A system, comprising: an ultraviolet (UV) light source (102); a power source (104) configured to provide power to the UV light source (102); and a photochromatic indicator (110A) associated with a component (110), the photochromatic indicator (110A) being in a first state, the UV light source (102) being configured to change the photochromatic indicator (110A) from a first state to a second state, the second state indicating that the component (110) has been cleaned, wherein the second state is visible to a naked eye under ambient lighting.
Clause 2. The system of Clause 1, wherein the component (110) is formed from a material selected from the group consisting of: a polymer, a polycarbonate, a metal, a composite, a nano-reinforced material, an organic material, a textile fabric, and combinations thereof.
Clause 3. The system of Clause 1 or 2, wherein the photochromatic indicator (110A) is in a form selected from the group consisting of: a sticker, a thread, a textile fabric, an organic material, a polycarbonate element, a polymer element, a metal element, a coating, and combinations thereof.
Clause 4. The system of any of Clauses 1 to 3, wherein the photochromatic indicator (110A) is included in a tray cover, a headrest cover, a seat cover, an armrest cover, an outlet cover, or a headset cover.
Clause 5. The system of any of Clauses 1 to 4, wherein the photochromatic indicator (110A) includes a reversible photochromatic pigment.
Clause 6. The system of any of Clauses 1 to 5, wherein the photochromatic indicator (110A) includes an irreversible photochromatic pigment.
Clause 7. The system of any of Clauses 1 to 6, wherein the UV light source (102) includes a wireless device, a wired device, a device removably coupled to a wall of an aircraft passenger cabin, a device removably coupled to a ceiling of an aircraft passenger cabin, a device removably coupled to a seat of an aircraft passenger cabin, or a device removably coupled to a floor of an aircraft passenger cabin.
Clause 8. The system of any of Clauses 1 to 7, wherein the photochromatic indicator (110A) is not visible to the naked eye when in the first state.
Clause 9. The system of any of Clauses 1 to 8, wherein the UV light source (102) is configured to emit a wavelength from about 222 nanometers (nm) to about 254 nm.
Clause 10. The system of any of Clauses 1 to 9, wherein the photochromatic indicator (110A) is included in a cover comprising at least one aperture, wherein the cover is configured to couple to the component through one or more of an adhesive, a magnetic means, a hook-and-loop means, a mechanical means, or combinations thereof.
Clause 11. The system of any or Clauses 1 to 10, wherein the component (110) comprises a gaming system.
Clause 12. A method of cleaning, comprising: removably coupling a first photochromatic indicator to a component (302), the first photochromatic indicator being in a first state; applying an ultraviolet (UV) light source to the component (304), wherein, in response to the UV light source, the first photochromatic indicator changes from the first state to a second state (306), the second state indicating that the component has been cleaned, wherein said second state is visible to a naked eye under ambient light; uncoupling the first photochromatic indicator from the component (308); disposing of the first photochromatic indicator (310); and removably coupling a second photochromatic indicator to the component (312), the photochromatic indicator being in the first state.
Clause 13. The method of Clause 12, wherein the photochromatic indicator is included in a single-use component removably coupled to the component through an adhesive, a magnetic means, a hook-and-loop means, a mechanical means, or combinations thereof.
Clause 14. The method of Clause 12 or 13, wherein the photochromatic indicator includes two or more photochromatic pigments, each of the two or more photochromatic pigments having an at least one of a different concentration or a different composition.
Clause 15. A method of cleaning, comprising: (a) applying an ultraviolet (UV) light source to a component having a first photochromatic indicator in a first state (404), wherein, in response to the UV light source being applied to the first photochromatic indicator and the first photochromatic indicator absorbing energy from the UV light source, the first photochromatic indicator changes from the first state to a second state (406), the second state indicating that the component has been cleaned; and after a predetermined period of time, in response to the energy from the UV light source absorbed by the first photochromatic indicator dissipating, the first photochromatic indicator changing from the second state to the first state (408).
Clause 16. The method of Clause 15, further comprising, prior to applying the UV light source, removably coupling the first photochromatic indicator to the component (402), the first photochromatic indicator including irreversible photochromatic pigment.
Clause 17. The method of Clause 15 or 16, further comprising (b) re-applying the UV light source to the first photochromatic indicator subsequent to the first photochromatic indicator changing from the second state to the first state (404), wherein the first photochromatic indicator changes from the first state back to the second state in response to (b) (406), indicating that the component has been cleaned.
Clause 18. The method of Clause 17, further comprising performing (a) and (b) for a plurality of iterations, wherein the first photochromatic indicator includes at least one reversible pigment.
Clause 19. The method of Clause 18, further comprising, subsequent to performing (a) and (b) for a plurality of iterations: uncoupling the first photochromatic indicator from the component (410); disposing of the first photochromatic indicator (410); and associating a second photochromatic indicator with the component, the second photochromatic indicator being in the first state (412).
Clause 20. The method of any of Clauses 15 to 19, wherein the first photochromatic indicator comprises a brand identifier.
Clause 21. An assembly comprising: a photochromatic indicator (110A) associated with a component (110), the photochromatic indicator (110A) being in a first state under ambient light and configured to be in a second state under the ambient light after being exposed to a UV light source (102), wherein the first state is different than the second state, the photochromic indicator (110A) being configured to change from the first state to the second state in response to the UV light source (102) to indicate that the component (110) has been cleaned.
Clause 22. The assembly of Clause 21, wherein the UV light source (102) is configured to emit a wavelength from about 222 nm to about 254 nm.
Clause 23. The assembly of Clause 21 or 22, wherein the photochromatic indicator (110A) is configured as a disposable, single-use element.
Clause 24. The assembly of any of Clauses 21 to 23, wherein the component (110) is formed from a material selected from the group consisting of: a polymer, a polycarbonate, a metal, a composite, a nano-reinforced material, an organic material, a textile fabric, and combinations thereof.
Clause 25. The assembly of any of Clauses 21 to 24, wherein the photochromatic indicator (110A) is associated with the component (110) via a means selected from the group consisting of: an adhesive means, a mechanical means, a magnetic means, a hook-and-loop means, and combinations thereof.
Clause 26. A photochromatic indicator (110A), comprising: a photochromatic pigment, the photochromatic pigment being in a first state under ambient light and configured to be in a second state under ambient light after being exposed to a UV light source (102), wherein the first state is different than the second state, the photochromic pigment being configured to change from the first state to the second state in response to the UV light source (102).
Clause 27. The photochromatic indicator of Clause 26, wherein the photochromatic pigment is configured to change from the first state to the second state in response to the UV light source (102) emitting a wavelength of from about 222 nm to about 254 nm.
Clause 28. The photochromatic indicator of Clause 26 or 27, wherein the photochromatic pigment comprises a reversible photochromatic pigment.
Clause 29. The photochromatic indicator of any of Clauses 26 to 28, wherein the photochromatic pigment comprises an irreversible photochromatic pigment.
Clause 30. The photochromatic indicator of any of Clauses 26 to 29, wherein the photochromatic indicator (110A) is in a form selected from the group consisting of: a sticker, a thread, a textile fabric, an organic material, a polycarbonate element, a polymer element, a metal element, a coating, and combinations thereof.
While the foregoing is directed to aspects of the present disclosure, other and further aspects of the disclosure may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
This application claims benefit of and priority to U.S. Provisional Application No. 63/085,440, filed Sep. 30, 2020, of which is hereby expressly incorporated by reference herein in its entirety.
Number | Date | Country | |
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63085440 | Sep 2020 | US |