Heat controlled ultraviolet light apparatus and methods of sanitizing objects using said apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01J-061/30
H01J-061/32
출원번호
US-0778637
(2004-02-13)
§371/§102 date
20021127
(20021127)
발명자
/ 주소
Brickley, James Lawrence
대리인 / 주소
Sheridan Ross P.C.
인용정보
피인용 횟수 :
5인용 특허 :
22
초록▼
A heat controlled ultraviolet light apparatus includes a source of ultraviolet light, a cover, and a heating or cooling element that heats/cools the space or gap between the ultraviolet light source and the cover. Accordingly, the ultraviolet light source may be maintained at an optimal temperature
A heat controlled ultraviolet light apparatus includes a source of ultraviolet light, a cover, and a heating or cooling element that heats/cools the space or gap between the ultraviolet light source and the cover. Accordingly, the ultraviolet light source may be maintained at an optimal temperature thereby maximizing the efficiency of the ultraviolet light source in producing ultraviolet radiation. The apparatus may further include a temperature sensor and a control circuit to automatically control production of heat/cooling by the element based upon the ambient temperatures experienced by the ultraviolet light source during use. Methods are also provided for sanitizing heating and cooling coils of various devices such as an HVAC system, and cooling systems such as a refrigeration unit and an evaporative cooler.
대표청구항▼
1. A heat controlled ultraviolet light apparatus comprising:an ultraviolet light source; an ultraviolet transmissive cover placed over said light source; and a heating element placed within said cover and adjacent said ultraviolet light source to selectively heat said ultraviolet light source thereb
1. A heat controlled ultraviolet light apparatus comprising:an ultraviolet light source; an ultraviolet transmissive cover placed over said light source; and a heating element placed within said cover and adjacent said ultraviolet light source to selectively heat said ultraviolet light source thereby maintaining the light source within an optimum temperature range. 2. An apparatus, as claimed in claim 1, further including:a heat sensor placed adjacent to said light source; and a control circuit communicating with said heat sensor to selectively control output of heat from said heating element by signals received from said heat sensor indicating the temperature around said ultraviolet light source. 3. An apparatus, as claimed in claim 1, further including:a heat switch placed adjacent to said light source to sense temperature around said ultraviolet light source and to selectively energize said heating element. 4. An apparatus, as claimed in claim 1, wherein:said cover is made from quartz. 5. An apparatus, as claimed in claim 1, wherein:said cover is made from glass. 6. An apparatus, as claimed in claim 1, wherein:said heating element includes a quartz medium and a nichrome element etched on said quartz medium. 7. An apparatus, as claimed in claim 1, wherein:said cover is sealed with respect to said ultraviolet light source. 8. An apparatus, as claimed in claim 1, wherein:said cover surrounds a first portion of said ultraviolet light source and a second portion of said ultraviolet light source remains exposed. 9. An apparatus, as claimed in claim 1, wherein:said apparatus further includes a mount for securing said ultraviolet light source, said cover, and said heating element. 10. An apparatus, as claimed in claim 9, wherein:said cover has a circumferential edge received in said mount. 11. A heat controlled ultraviolet light apparatus comprising:an ultraviolet light source; an ultraviolet transmissive cover placed over said ultraviolet light source; and means for heating said ultraviolet light source to maintain said ultraviolet light source within a desired temperature range said means for heating being placed within said cover. 12. An apparatus, as claimed in claim 11, wherein:said means for heating includes a heating element, and a control circuit communicating with said heating element to thereby monitor temperature around said ultraviolet light source and to activate said heating element to maintain said ultraviolet light source within the desired temperature range. 13. An apparatus, as claimed in claim 11, wherein:said cover is made from quartz. 14. An apparatus, as claimed in claim 11, wherein:said cover is made from glass. 15. An apparatus, as claimed in claim 11, wherein:said means for heating includes a quartz medium and a nichrome element etched on said quartz medium. 16. An apparatus, as claimed in claim 11, wherein:said cover is sealed with respect to said ultraviolet light source. 17. An apparatus, as claimed in claim 11, wherein:said cover surrounds a first portion of said ultraviolet light source and a second portion of said ultraviolet light source remains exposed. 18. An apparatus, as claimed in claim 11, wherein:said apparatus further includes a mount for securing said ultraviolet light source, said cover, and said means for heating. 19. An apparatus, as claimed in claim 18, wherein:said cover has a circumferential edge received in said mount. 20. An apparatus, as claimed in claim 11, further including:a heat switch placed adjacent to said light source to sense temperature around said ultraviolet light source and to selectively energize said means for heating. 21. A heat controlled ultraviolet light apparatus comprising:a mount; an ultraviolet light source secured to said mount, said ultraviolet light source comprising an ultraviolet light producing bulb; an ultraviolet transmissive cover placed over said ultraviolet light source and secured to said mount; a heating element placed between said cover and said ultraviolet light source; and means communicating with said heating element for controlling said heating element to produce an amount of heat to maintain said ultraviolet light source within a desired temperature range thereby maximizing the efficiency of ultraviolet light source to produce ultraviolet light. 22. An apparatus, as claimed in claim 21, wherein:said means for controlling includes a heat sensor placed adjacent to said ultraviolet light source, and a control circuit communicating with said heat sensor. 23. An apparatus, as claimed in claim 21, wherein:said heating element includes a quartz medium and a nichrome element etched on said quartz medium. 24. An apparatus, as claimed in claim 21, wherein:said cover is sealed with respect to said ultraviolet light source. 25. An apparatus, as claimed in claim 21, wherein:said mount is formed by molding, and is made from the group consisting of thermoplastics, metals, and resins. 26. An apparatus, as claimed in claim 21, wherein:said cover surrounds a first portion of said ultraviolet light source and a second portion of said ultraviolet light source remains exposed. 27. An apparatus, as claimed in claim 21, wherein;said means for controlling includes a temperature switch. 28. A method of sanitizing coils of a refrigeration unit, said method comprising the steps of:providing a refrigeration unit including condenser coils placed within an airspace to be cooled by said refrigeration unit; providing an ultraviolet light source; placing a heating element in close proximity to said ultraviolet light source; covering the ultraviolet light source with a cover thereby making a heat controlled ultraviolet light source said heating element being placed within said cover; positioning the UV light source in close proximity to the condenser coils; providing heat to said ultraviolet light source by said heating element to maintain said ultraviolet light source at an optimal temperature range thereby maximizing the efficiency of said ultraviolet light source in producing ultraviolet light; and exposing said condenser coils to ultraviolet radiation produced by said ultraviolet light source to achieve desired sanitization of said condenser coils. 29. A method of sanitizing heating and/or cooling coils of an HVAC system, said method comprising the steps of:providing an HVAC system including heating and/or cooling coils that traverse across a duct of said HVAC system; providing an ultraviolet light source; placing a heating element in close proximity to said ultraviolet light source; covering the ultraviolet light source with a cover thereby making a heat controlled ultraviolet light source said heating element being placed within said cover; positioning the UV light source in close proximity to the coils; providing heat to said ultraviolet light source by said heating element to maintain said ultraviolet light source at an optimal temperature range thereby maximizing the efficiency of said ultraviolet light source in producing ultraviolet light; and exposing said coils to ultraviolet radiation produced by said ultraviolet light source to achieve desired sanitization of the coils. 30. A heat controlled ultraviolet light apparatus comprising:an ultraviolet light source; an ultraviolet transmissive cover placed over said light source; and a cooling element placed within said cover and adjacent said ultraviolet light source to selectively cool said ultraviolet light source thereby maintaining the light source within an optimum temperature range. 31. A heat controlled ultraviolet light apparatus comprising:an ultraviolet light source; an ultraviolet transmissive cover placed over said ultraviolet light source; and means for cooling said ultraviolet light source to maintain said ultraviolet light source within a desired temperature range said means for cooling being placed within said cover. 32. A heat controlled ultraviolet light apparatus comprising:a mount; an ultraviolet light source secured to said mount, said ultraviolet light source comprising an ultraviolet light producing bulb; an ultraviolet transmissive cover placed over said ultraviolet light source and secured to said mount; a cooling element placed between said cover and said ultraviolet light source; and means communicating with said heating element for controlling said cooling element to produce an amount of cooling to maintain said ultraviolet light source within a desired temperature range thereby maximizing the efficiency of ultraviolet light source to produce ultraviolet light.
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이 특허에 인용된 특허 (22)
Coviello Allan J. (Ann Arbor MI) Bernardin ; Jr. Frederick E. (Ann Arbor MI) Rohrkemper Robert R. (Chelsea MI), Apparatus for sanitizing liquids with ultra-violet radiation and ozone.
Melanson Paul C. (Boulder CO) Garvin Robert L. (Boulder CO) de Martin Lawrence K. (Boulder CO) Pane David A. (Lyons CO) Valdez James A. (Boulder CO), Cell and circuit for monitoring photochemical reactions.
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