Inventors: Callahan; Kevin S. et al.
Abstract
An ultraviolet (UV) light pacing system includes an assembly including a UV lamp configured to emit UV light to disinfect a component. One or more range light sources are configured to emit ranging light. At least one aspect of the ranging light is altered to provide a visual cue for guiding motion of the assembly to disinfect the component. An ultraviolet (UV) light pacing method includes emitting ranging light from one or more range light sources of and assembly having a UV lamp configured to emit UV light to disinfect a surface of a component, and altering at least one aspect of the ranging light to provide a visual cue for guiding motion of the assembly to disinfect the component.
Tags/Keywords: ultraviolet, UV, disinfect, wavelength range
Claims
1. An ultraviolet (UV) light pacing system, comprising: an assembly including a UV lamp configured to emit UV light to disinfect a component; a navigation sub-system configured to track a location of the assembly within an environment; and one or more range light sources configured to emit ranging light, wherein at least one aspect of the ranging light is altered to provide a visual cue for guiding motion of the assembly to disinfect the component.
2. The UV light pacing system of claim 1, wherein the one or more range light sources are secured to the assembly.
3. The UV light pacing system of claim 1, wherein the at least one aspect comprises one or more of duration of emission of the ranging light, frequency of emission of the ranging light, color of the ranging light, or intensity of ranging light.
4. The UV light pacing system of claim 1, wherein the UV lamp is configured to emit the UV light having a wavelength between 200 nm-230 nm.
5. The UV light pacing system of claim 1, wherein the UV lamp is configured to emit the UV light having a wavelength of 222 nm.
6. The UV light pacing system of claim 1, wherein the UV lamp is configured to emit the UV light having a wavelength between 230 nm-280 nm.
7. The UV light pacing system of claim 1, wherein the UV lamp is configured to emit the UV light having a wavelength of 254 nm.
8. The UV light pacing system of claim 1, further comprising a pacing control unit in communication with the one or more range light sources, wherein the pacing control unit is configured to operate the one or more range light sources to alter the at least one aspect of the ranging light.
9. The UV light pacing system of claim 8, wherein the assembly includes the pacing control unit.
10. The UV light pacing system of claim 8, further comprising a pacing database in communication with the pacing control unit, wherein the pacing database stores surface disinfection data for one or more surfaces of one or more components.
11. The UV light pacing system of claim 10, wherein the pacing control unit shows surface disinfection information regarding the surface disinfection data for the component on a display of a user device.
12. The UV light pacing system of claim 10, wherein the pacing database further stores map data regarding at least one map of an environment, wherein the at least one map divides at least a portion of the environment into a plurality of zones, and wherein each of the plurality of zones is associated with respective surface disinfection data.
13. The UV light pacing system of claim 1, further comprising a user device including a display and a selector.
14. The UV light pacing system of claim 13, wherein the selector is configured to allow selection of a time period for at least a portion of the visual cue.
15. The UV light pacing system of claim 13, wherein the assembly comprises the user device.
16. The UV light pacing system of claim 1, further comprising a pacing control unit in communication with the assembly and the navigation sub-system, wherein the pacing control unit, based on the location of the assembly in relation to the component within the environment, automatically determines surface disinfection data for the component.
17. The UV light pacing system of claim 1, further comprising an augmented reality sub-system in communication with the assembly and a pacing control unit, wherein the pacing control unit automatically shows one or both of surface disinfection data regarding the component or one or more visual indications for moving the assembly to disinfect various surfaces on a portion of the augmented reality sub-system as an operator moves through an environment.
18. The UV light pacing system of claim 1, wherein the assembly further comprises a cover that covers the UV lamp, wherein the cover is one of a wire mesh screen or a stamped or laser cut metal sheet with formed apertures.
19. An ultraviolet (UV) light pacing method for a UV light pacing system comprising: an assembly including a UV lamp configured to emit UV light to disinfect a component; a navigation sub-system configured to track a location of the assembly within an environment; and one or more range light sources configured to emit ranging light, wherein at least one aspect of the ranging light is altered to provide a visual cue for guiding motion of the assembly to disinfect the component, the method comprising: emitting the ranging light from the one or more range light sources; and altering the at least one aspect of the ranging light to provide the visual cue.
20. The UV light pacing method of claim 19, further comprising: communicatively coupling a pacing control unit with the one or more range light sources; and operating, by the pacing control unit, the one or more range light sources to alter the at least one aspect of the ranging light.
21. The UV light pacing method of claim 20, further comprising: communicatively coupling a pacing database in communication with the pacing control unit; and storing, within the pacing database, surface disinfection data for one or more surfaces of one or more components.
22. The UV light pacing method of claim 21, further comprising showing, by the pacing control unit, surface disinfection information regarding the surface disinfection data for the component on a display of a user device.
23. The UV light pacing method of claim 21, further comprising storing, within the pacing database, map data regarding at least one map of an environment, wherein the at least one map divides at least a portion of the environment into a plurality of zones, and wherein each of the plurality of zones is associated with respective surface disinfection data.
24. The UV light pacing method of claim 19, further comprising selecting, via a selector of a user interface a time period for at least a portion of the visual cue.
25. The UV light pacing method of claim 20, further comprising: using the navigation sub-system to track the location of the assembly within the environment; and determining, by a pacing control unit in communication with the assembly and the navigation sub-system, surface disinfection data for the component based on the location of the assembly in relation to the component within the environment.
26. The UV light pacing method of claim 19, further comprising: communicatively coupling an augmented reality sub-system with the assembly and a pacing control unit; and showing, by the pacing control unit, one or both of surface disinfection data regarding the component or one or more visual indications for moving the assembly to disinfect various surfaces on a portion of the augmented reality sub-system as an operator moves through an environment.
27. The UV light pacing method of claim 19, further comprising covering the UV lamp of the assembly with one of a wire mesh screen or a stamped or laser cut metal sheet with formed apertures.
28. An ultraviolet (UV) light pacing system, comprising: an assembly including a UV lamp configured to emit UV light to disinfect a component; one or more range light sources configured to emit ranging light, wherein at least one aspect of the ranging light is altered to provide a visual cue for guiding motion of the assembly to disinfect the component; and an augmented reality sub-system in communication with the assembly and a pacing control unit, wherein the pacing control unit automatically shows one or both of surface disinfection data regarding the component or one or more visual indications for moving the assembly to disinfect various surfaces on a portion of the augmented reality sub-system as an operator moves through an environment.
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