[미국특허]
Installation kit and method of using same for sign construction with sectional sign assemblies
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G09F-009/30
G09F-009/302
G09F-009/33
G09F-019/22
F21S-002/00
G09F-027/00
G09F-015/00
출원번호
US-0726825
(2015-06-01)
등록번호
US-9536457
(2017-01-03)
발명자
/ 주소
Cox, David Franklin
Romano, Richard J
Carlson, Arne E
출원인 / 주소
ADTI Media LLC
대리인 / 주소
Putts, Jerry R.
인용정보
피인용 횟수 :
1인용 특허 :
87
초록▼
A method of converting an existing signage mounting structure to an electronic sign comprises using an installation kit for providing and installing at least one section sign assembly, loaded with a plurality of display modules and having a power routing system with a plurality of individual power e
A method of converting an existing signage mounting structure to an electronic sign comprises using an installation kit for providing and installing at least one section sign assembly, loaded with a plurality of display modules and having a power routing system with a plurality of individual power extensions extending from a single node to a plurality of display module receiving bays node receptacles, wherein passageway openings at a rear portion of the at least one sectional sign assembly facilitate replacement of individual ones of said plurality of display modules from a rear side of the sign construction, and coupling said single node to a source of power for completing the conversion.
대표청구항▼
1. A method of electronic sign construction, comprising the steps of: using an installation kit which includes at least one sectional sign assembly, wherein the at least one sectional sign assembly includes at least one frame having a unitary structure including a plurality of integrally formed fron
1. A method of electronic sign construction, comprising the steps of: using an installation kit which includes at least one sectional sign assembly, wherein the at least one sectional sign assembly includes at least one frame having a unitary structure including a plurality of integrally formed front-side display module receiving bays;removably securing within individual ones of said plurality of integrally formed front-side display module receiving bays individual ones of a plurality of display modules;routing at least one wiring harness having one end coupled mechanically and electrically to at least one power and data distribution hub mounted at a back-side of the at least one sectional sign assembly and a plurality of extension ends, wherein each individual one of the plurality of extension ends is routed and terminates in a corresponding individual one of the display module receiving bays in said plurality of integrally formed display module receiving bays;securing a rear-portion of the at least one sectional sign assembly to a structure to allow most of a rear surface of the rear-portion of the at least one sectional sign assembly to be exposed for servicing; andcoupling said at least one power and data distribution hub to a power source and to a data source to facilitate providing power and data to each individual one of said plurality of display modules for completing the electronic sign construction. 2. The method, of electronic sign construction, according to claim 1, wherein the step of removably securing includes the step of: removably latching the individual ones of said plurality of display modules by inserting a latch tool through a passage way opening in the rear-portion of the least one sectional sign assembly and then actuating at least one display module latch to secure the individual ones of said plurality of display modules within an individual one of the plurality of display module receiving bays. 3. The method of electronic sign construction, according to claim 1, wherein the step of removably securing includes the step of: removably latching the individual ones of said plurality of display modules by inserting a latch tool through a front-side of each individual one of said plurality of display modules and then actuating at least one display module latch to secure the individual ones of said plurality of display modules within an individual one of the plurality of display module receiving bays. 4. The method of electronic sign construction according to claim 1, further comprising the step of: replacing selectively individual ones of said plurality of display modules through a passageway opening in each display module receiving bay via the rear-portion of the at least one sectional sign assembly. 5. The method of electronic sign construction, according claim 1, wherein the securing step includes the step of: installing an adjustable hanging bracket to the rear-portion of at least one sectional sign assembly; andhoisting the at least one sectional sign assembly onto a securing bracket mounted on the structure to engage the adjustable hanging bracket for securing the at least one sectional sign assembly to the structure. 6. The method of electronic sign construction, according to claim 1, wherein the step of removably securing is performed prior to the step of securing a ear-portion of the at least one sectional sign assembly to a structure. 7. The method of electronic sign construction, according to claim 1, wherein the step of removably securing is performed after the step of securing a rear-portion of the at least one sectional sign assembly to a structure. 8. A method of electronic sign construction, comprising the steps of: using an installation kit for providing and installing at least one sectional sign assembly on a structure which includes at least one frame having a unitary structure with a plurality of display module receiving bays:removably securing within individual ones of said plurality of display module receiving bays individual ones of a plurality of display modules;coupling the individual ones of the plurality of display modules to a power routing system having a single power and data distribution node associated with the at least one sectional sign assembly and a plurality of individual power extensions each extending from the single power and data distribution node to individual ones of a plurality of display module receiving bay nodes;securing the at least one sectional sign assembly to the structure to allow most of a rear surface of a rear-portion of the at least one sectional sign assembly to be exposed for servicing; andcoupling the single Power and data distribution node to a source of power to form the construction of the electronic sign the construction of the electronic sign. 9. The method electronic sign construction, according to claim 8, wherein the step of securing further comprising: installing an adjustable hanging bracket to the rear-portion of the at least one sectional sign assembly; andhoisting the at least one sectional sign assembly onto a securing bracket mounted on the structure to engage the adjustable hanging bracket for securing the at least one sectional sign assembly to the structure. 10. The method of electronic sign construction, according to claim 8, wherein the step of removably securing is performed prior to the step of securing a rear-portion of the at least one sectional sign assembly to a structure. 11. The method of electronic sign construction, according to claim 8, wherein the step of removably securing includes the step of: removably latching the individual ones of said plurality of display modules by inserting a latch tool through a passageway opening in the rear-portion of the least one sectional sign assembly and then actuating at least one display module latch to secure the individual ones of said plurality of display modules within an individual one of the plurality of display module receiving bays. 12. The method of electronic sign construction, according to claim 8, wherein the coupling each display module step includes coupling the individual ones of said plurality of display module receiving bay nodes to corresponding individual ones of the plurality of display modules; and wherein the coupling the single power and data distribution node step includes establishing a data communication path between a central hub located on the rear-portion of the at least one sectional sign assembly and the single power and data distribution node. 13. The method of electronic sign construction, according to claim 8, wherein the method is further comprised of the step of: replacing selectively individual ones of said plurality of display modules through a passageway opening in each display module receiving bay via the rear-portion of the at least one sectional sign assembly. 14. A method of electronic sign construction, comprising the steps of: using an installation it for providing a sectional sign assembly, wherein the sectional sign assembly includes: a plurality of display modules; a utility box to facilitate coupling low voltage power and data to the plurality of display modules; at least one power and data harness having a plurality of extension ends each coupled to a single node; and at least one structural frame with a unitary construction having a plurality of integrally formed front-side display module receiving bays, a plurality of integrally formed front-side wire routing guides, and at least one back-side mounting feature;installing said at least one power and data harness by routing individual ones of said plurality of extension ends to individual ones of the plurality of integrally formed front-side display module receiving bays using said plurality of integrally formed wire routing guides disposed on a front-side of the at least one structural frame, and passing said single node through a structural frame cutout area in the at least one structural frame to provide back-side structural frame access to said single node;coupling individual ones of said plurality of extension ends to individual ones of said plurality of display modules as each individual display module is being loaded within an individual one of the plurality of integrally formed front-side display module receiving bays and then securing the individual ones of said plurality of display modules into individual ones of the plurality of integrally formed front-side display module receiving bays;repeating the coupling step, until the plurality of display modules have been electrically and mechanically secured within the plurality of display module receiving bays;securing the at least one structural frame loaded with said plurality of display modules to a structure by using at least one mounting feature;securing said utility box to the at least one back-side mounting feature and then coupling said single node within said utility box to facilitate providing the plurality of display modules with low voltage power and data; andcoupling the utility box to a source of power and data for completing the construction of an electronic sign. 15. The method of electronic sign construction, according to claim 14, wherein said sectional sign assembly includes a front portion and a rear portion, wherein the front portion and the rear portion collectively define a plurality of openings, wherein each opening has a sufficient width dimension and a sufficient height dimension to couple one display module receiving bay to a rear surface of the sectional sign assembly enabling a display module to be removed and replaced through the opening. 16. The method of electronic sign construction, according to claim 15, further comprising the steps of: providing a plurality of access doors, wherein each individual access door is configured to cover an individual one of said plurality of openings; andproviding a plurality of latches, each individual latch being configured to latch individual ones of said plurality of display modules within corresponding individual ones of said plurality of integrally formed front-side display module receiving bays. 17. The method of electronic sign construction, according to claim 16, further comprising the steps of: mounting said plurality of latches within said plurality of integrally formed front-side display module receiving bays to facilitate removably latching individual ones of said plurality of display modules in the individual ones of said plurality of integrally formed front-side display module receiving bays; andsecuring said plurality of access doors to the rear portion of the sectional sign assembly so that each individual access door covers an individual one of said plurality of openings. 18. The method of electronic sign construction, according to claim 17, wherein the coupling and then the securing step includes: actuating individual ones of said plurality of latches from an unlatched open position to a latched closed position by inserting a latch tool either through a front portion of a display module or rear portion of a display module to fetchingly secure the plurality of display modules in the plurality of integrally formed front-side display module receiving bays. 19. The method of electronic sign construction, according to claim 14, wherein the coupling the utility box step includes: coupling the utility box to a source of AC power;rectifying the AC power to a source of low voltage DC power; andcoupling the low voltage DC power to the plurality of integrally formed display module receiving bays and the plurality of display modules loaded and secured therein. 20. The method of electronic sign construction, according to claim 14, further comprising the step of: replacing selectively individual ones of said plurality of display modules through a passageway opening in each integrally formed front-side display module receiving bay via a rear-portion of the sectional sign assembly.
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