1. Field of the Invention
The present invention relates to a mechanical mounting interface for a lighting display module and complimentary mechanical panel or frame for use in large-scale display applications. In particular, the present invention relates to an interchangeable mounting mechanism for quickly installing, maintaining, and disassembling LED, OLED or other emissive modular large-scale display.
2. Discussion of the Related Art
Conventional incandescent lamps, fluorescent lamps, and neon tubes have long been used to illuminate many large-scale commercial and public signs. However, the market is now demanding cheaper and larger displays that have the flexibility to customize display sizes and colors, that have image and video capability, and that are easy to install, maintain, and disassemble, especially for use in temporary venues; these are market specifications that are not possible with the older technologies. As a result, many displays now utilize emissive lighting modules, such as light emitting diodes (LEDs), or organic light emitting diodes (OLEDs) or other emissive display technologies.
The emissive display modules are more advantageous than conventional lighting modules, because they consume less power and possess a much longer lifetime and have lower maintenance costs. Therefore, there exists a need to minimize manufacturing and parts costs in large-scale display production.
Emissive display technologies are currently being applied to modular large-scale display applications, such as outdoor or indoor stadium displays, large marketing advertisement displays, and mass public informational displays. However, these large-scale displays are not always designed from the standpoint of easy and prompt installation or maintenance and, at best, ready access is often considered late in the execution of the design. Replacing worn emissive lighting modules, for example, often requires the laborious removal of a generous number of fasteners, such as screws, nuts, bolts, clips, or the like. Thus, there exists a need to provide lighting modules that can be quickly fastened or removed.
An example of a configurable large-scale display is found in reference to U.S. Pat. No. 6,314,669, entitled “Sectional display system.” The '669 patent details readily accessible access to internally located modular display and other components for quick change-out of modular and other components. However, the '669 patent fails to provide a means of easily replacing worn emissive lighting modules. The '669 patent also requires that the emissive lighting modules be of a uniformly designed fastening mechanism. This can be problematic for companies that are constantly updating their hardware in an attempt to stay competitive in today's market place. Thus, there exists a need to provide lighting modules that can be mechanically fastened to a hardware frame by means of a number of different mechanical interfaces.
It is therefore an object of this invention to minimize manufacturing and parts costs in large-scale display production.
It is another object of this invention to provide lighting modules that can be quickly fastened or removed.
It is yet another object of this invention to provide lighting modules that can be mechanically fastened to a hardware frame by means of a number of different mechanical interfaces.
The present invention relates to a display element consisting of a display panel on which one or more lighting modules are fastened, wherein said display element farther comprises a mechanical mounting interface for fastening said lighting module to said display panel.
In particular, the present invention relates to an interchangeable mounting mechanism for quickly installing, maintaining, and disassembling LED, OLED or other emissive modular large-scale display.
The present invention also relates to a mechanical mounting interface for fastening a lighting module to a display panel for use in said display element.
In order to better explain the characteristics of the invention, the following preferred embodiments of a mechanical mounting interface according to the invention for a lighting display module, are described as an example only without being limitative in any way, with reference to the accompanying drawings, in which:
4B, and 4C illustrate a standard click-in attachment apparatus;
Display panel system 200 is designed to be placed adjacent to any number of other display panels 200 in order to create a large-scale display (not shown).
Lighting module 100 fits into display panel slot 210 and is fastened with bolts 320, which are screwed into the threaded holes 310. Fixed with bolts system 300, as shown in
Lighting module 100 is unfastened from display panel slot 210 by the user's unscrewing bolts 320. Fixed with bolts system 300 represents a more permanent lighting module 100 for display panel 210 fixture, compared to the following examples, which illustrate temporary, quick-assembly mechanical interfaces.
Standard click-in attachment apparatus 410 is connected to lighting module 100 by bolts 320 and by dowels 430, as shown in
As represented in
The lighting module 100 can be unfastened from said display panel slot 440 by the user's squeezing both click-in latches 420 horizontally towards one another, thereby releasing their hold on display panel slot 440 and allowing removal of lighting module 100.
In operation, standard click-in attachment apparatus 410 with lighting module 510 is connected to display panel slot 440, as illustrated in
To release standard click-in attachment apparatus 410 with lighting module 510 from display panel slot 440, use can be made of, for example, butterfly bolts 520 that are screwed in the threaded holes 530, whereby the bolts release both click-in latches 420, as illustrated in
In operation, lighting module 100 with single lever attachment apparatus 610 attaches to display panel slot 440, as shown in
Lighting module 710 is lighting module 100 with a hole drilled for butterfly bolt 720. In operation, single lever attachment apparatus 610 with lighting module 710 is connected to display panel slot 440, as illustrated in
It is remarked that in this case, said latches 830 are bent inwardly to the lighting module 100, such that the distance A between the hinge-mounted ends of two corresponding latches 830 is larger than the distance B between the two corresponding inner edges of the slot 810.
In operation, push to close—push to open attachment apparatus 820 with lighting module 100 is connected to display panel slot 810, as illustrated in
To release push to close—push to open attachment apparatus 820 with lighting module 100 from display panel slot 810, the user pushes the lighting module 100 towards the display panel slot 810, as illustrated in
After removal of the lighting modules, the user pulls lever 850 to place the push to close—push to open latches back in the position that allows attachment in display panel slot 810, as illustrated in
Back plate attachment apparatus 910 is exemplary and is not limited to four pins 920 and four needle like bolts 925; however, back plate attachment apparatus 910 may have any number of desired pins and needle like bolts.
In operation, the back plate attachment apparatus 910 is fastened to lighting module 100 with pins 920 that make contact with the needle bolts 925, as illustrated in
In operation, lighting module 100 is provided with said mechanical mounting interface, formed by a generic module mechanical interface-attachment apparatus 1010, as illustrated in
The generic module mechanical interface attachment apparatus 1010 with lighting module 100 is then magnetically fastened to metallic back plate attachment apparatus 910, as illustrated in
To release lighting module 100 from metallic back plate attachment apparatus 910, generic module mechanical interface attachment apparatus 1010 with lighting module 100 is removed from back plate attachment apparatus 910.
In operation, two velcro strips 1110 are fastened to back plate attachment apparatus 910, as illustrated in
Lighting module 100 is fastened to generic module mechanical interface attachment apparatus 1010, as illustrated in
The generic module mechanical interface attachment apparatus 1010 with lighting module 100 is then fastened to the back plate attachment apparatus 910 with velcro strips 1110 and 1120, as illustrated in
To release lighting module 100 from back plate attachment apparatus 910, generic module mechanical interface attachment apparatus 1010 with lighting module 100 is removed from back plate attachment apparatus 910.
The suction cup attachment system 1200 is exemplary and is not limited to four suction cups 1220 and four screws 1030; however, exemplary suction cup attachment system 1200 may have any number of desired suction cups and screws.
In operation, lighting module 100 is fastened to generic module mechanical interface attachment apparatus 1010. The generic module mechanical interface attachment apparatus 1010 with lighting module 100 is then fastened to back plate attachment apparatus 910 with suction cups 1220, as illustrated in
Said slide rail 1320 having a U-like cross-section whereby two facing rims are provided on the free ends of both legs of said rail 1320.
Lighting module 1310 is lighting module 100 with two grooves 1330 in the side, as illustrated in
In operation, lighting module 1310 is slid onto slide rail 1320, as illustrated in
In operation, lighting module 1410 is positioned into slide rail 1320, where retractable latch 1420 retracts to allow lighting module 1410 to position into slide rail 1320. Then, retractable latch 1420 extends to fasten lighting module 1410 into slide rail 1320, as illustrated in
As illustrated in
In operation, lighting module 1510 is attached to the steel wires 1540 by closing bracket 1520 onto steel wires 1540 and turning bracket 1520, as illustrated in
In this case a mechanical mounting interface for fastening a lighting module 1610 to said bar 1620, consists of throughput hole 1630.
Lighting module 1610 can be lighting module 100 with said throughput hole 1630.
In operation, steel bar 1620 is slid into said hole 1630 of lighting module 1610, as illustrated in
In an alternate embodiment, steel bar 1620 may be cylindrical or any other shape; likewise, throughput hole 1630 would be of a complementary shape.
As a conclusion it is repeated that the present invention relates to a display element as well as to a number of mechanical interfaces for fastening emissive lighting module 100 in display panel slot 210, to create said display element.
Therefore, manufacturing and parts costs are minimized in large-scale display production. Display panel system 200 is designed to be place adjacent to any number of other display panels 200, in order to create a large-scale display (not shown).
The mechanical interfaces include fixed with bolts attachment system 300, standard click-in attachment system 400, click-in with front access attachment system 500, single lever attachment system 600, single lever with front access attachment system 700, push to close—push to open attachment system 800, pin attachment system 900, magnetic attachment system 1000, velcro attachment system 1100, suction cup attachment system 1200, standard slide rail attachment system 1300, rail mount attachment system 1400, steel wire and bracket attachment system 1500, and steel bar attachment system 1600.
Therefore, lighting modules which can be quickly fastened or removed are provided. Display panel system 200 may be formed of only one type of mechanical interface attachment apparatus or may be formed of any number of combinations of mechanical interfaces. Therefore, lighting modules which can be mechanically fastened to a hardware frame by means of a number of different mechanical interfaces provided.
The present invention is by no means limited to the embodiments described above and represented in the accompanying figures, on the contrary a display element and mechanical mounting interface according to the invention can be made according to different variants while still remaining within the scope of the invention.
Number | Date | Country | |
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60616200 | Oct 2004 | US |