The present disclosure relates to the field of making signs, specifically a system and method for making layered signage.
Signage such as signs, banners, and flags are often displayed to disseminate information, advertise, and/or to decorate spaces. Many types of signage have designs, such as text and/or images, displayed on solid materials such as vinyl or fabric. However, signage made of solid materials is often not very durable when are subjected to wind gusts, rain, and other elements over time. Exposure to such elements can stretch or tear solid materials, and/or can cause damage to mounting rods.
Signage made of porous materials, such as mesh, often fares better against the elements than signage made of solid, nonporous materials. For instance, wind and rain can at least partially pass through the pores of mesh banners, leading to less wear and tear when compared to nonporous banners. As signage made of porous materials experience lower levels of damaging forces than signage made of solid, nonpourous materials, it can often last longer and/or be more durable. Signage made of porous material also has other advantages over signage made of nonporous material, such as often being lighter and/or more flexible.
However, although constructing signage out of porous material is often desirable, doing so can have unique challenges. One such challenge is with dual-sided signage, in which designs are displayed on both sides of a two-sided sign, flag, banner, or other type of signage. When designs are printed on both sides of a single piece of porous material, ink from one side generally bleeds through the pores of the material and becomes viewable from the opposing side. This tends to obscure the designs on both sides. While in some cases mirror images can be printed on opposing sides, such that ink from one side bleeds through pores into corresponding positions on the reversed mirror image design on the opposite side, many designs cannot be reversed as a mirror image. For example, reversed text would be unreadable, and many logos or other images are not designed to be reversed.
To combat these problems, some dual-sided signage systems have been constructed using layers that each display their own designs. In one method, two separate layers are each printed with a design on one side, and then the non-printed sides of the separate layers are joined together. In another method, designs are printed at different locations along one side of a long piece of material, and then the long material is folded over on itself to create two layers.
However, existing techniques of making dual-sided signage with layers using either porous or non-porous materials have problems with image quality, as designs on a back layer are often still visible through a front layer because the layers are generally placed directly against each other back-to-back. By way of a non-limiting example,
Similar problems exist with layered dual sided-signage systems constructed with two layers of nonporous materials, as a design on one layer can still show through a second layer. By way of a non-limiting example, when the sun shines on the back side of a dual-sided sign made of multiple layers of nonporous material, shadows of text or designs on the back layer can impact visibility and/or readability of text or designs on the front layer. By way of another non-limiting example, when the nonporous layers are made of a thin material, the designs on one layer are often still visible through the other layer when the layers are coupled directly back-to-back.
What is needed is a signage system comprising a first panel and second panel, in which the first panel and second panel are at least partially kept apart at a predetermined distance by a plurality of spacers, such that the space between the first panel and second panel can enhance visibility of designs on the first panel and second panel.
The first panel 202 and second panel 204 can each be a substantially planar member. In some embodiments, one or both of the first panel 202 and second panel 204 can at least partially be made of a porous material such as mesh, or an otherwise solid material such as vinyl, plastic, fabric, or any other material that has been perforated with a plurality of pores or holes. By way of a non-limiting example, the first panel 202 and/or second panel 204 can be made of a lightweight mesh material that allows at least some wind and/or moisture to pass through the pores of the mesh material, thereby minimizing wind interference and/or undesirable movement of the signage system 200 when in use. In alternate embodiments, one or both of the first panel 202 and second panel 204 can at least partially be made of solid and nonporous material such as vinyl, polymer, fabric, plastic, silicone, metal, or any other desired material or combination of materials.
In some embodiments, the first panel 202 and second panel 204 can be made of the same materials, while in other embodiments the first panel 202 and second panel 204 can be made of different materials. In still other embodiments, the first panel 202 and second panel 204 can be sections of the same piece of material that is folded in on itself, as discussed below with reference to
One or both of the first panel 202 and second panel 204 can display one or more designs 210. By way of a non-limiting example,
As shown in
In some embodiments, a spacer 206 can have a horizontal elongated member positioned between a vertical member at each end, as shown in
In some embodiments, the spacers 206 can be made of metal. In other embodiments, the spacers 206 can be made of plastic, silicone, wood, or any other desired material or combination of materials.
In some embodiments, the first panel 202 and second panel 204 can be coupled with one or more mounting members 208 that are configured to hold the first panel 202 and second panel 204 in a substantially parallel configuration, as shown in
Mounting members 208 can be poles, bars, planks, hooks, grooves, and/or any other device configured to couple with the first panel 202 and/or second panel 204. The mounting members 208 can be made of plastic, metal, wood, polymer, and/or any other known and/or convenient material or combination of materials.
In some embodiments, one or more mounting members 208 can be coupled with the first panel 202 and/or second panel 204 with adhesives, screws, bolts, snaps, hook and loop fasteners, or any other known and/or convenient manner of coupling. In other embodiments, the first panel 202 and/or second panel 204 can be draped over and/or around one or more mounting members 208.
In some embodiments, two mounting members can be coupled with the first panel 202 and second panel 204 on opposing ends of the signage system 200. By way of a non-limiting example,
In other embodiments, the signage system can comprise a single mounting member 208. By way of a non-limiting example,
In some embodiments, one or more lower portions of the first panel 202 and/or second panel 204 can have weighted members 212 to weigh down and stabilize the first panel 202 and/or second panel 204, as shown in
In still other embodiments, a signage system 200 can have any other desired number of mounting members 208 coupled with the first panel 202 and/or second panel 204 in any desired configuration. In alternate embodiments, the first panel 202 and second panel 204 can be affixed directly to one another at one or more positions, and the mounting members 208 can be absent.
As can be seen from
The intermediate panels 600 can be substantially planar members. In some embodiments intermediate panels 600 can at least partially be made of a porous material, while in other embodiments intermediate panels 600 can at least partially be made of a nonporous material. By way of non-limiting examples, the intermediate panels 600 can comprise mesh, fabric, silicone, polymer, metal, and/or any other desired porous or non-porous material. In some embodiments intermediate panels 600 can be made of the same material as the first panel 202 and/or second panel 204, while in other embodiments intermediate panels 600 can be made of a different material and/or have a different level of transparency than the first panel 202 and second panel 204.
In some embodiments comprising one or more intermediate panel 600, spacers 206 can be positioned on either side of each intermediate panel 600 to space the intermediate panel at least partially apart from an adjoining panel. By way of a non-limiting example,
As can be seen from
Additionally, in some embodiments, one or more intermediate panels 600 can each have its own design 210, pattern, and/or color to provide a background for designs 210 on the first panel 202 and/or second panel 204. By way of non-limiting examples, the first panel 202 and second panel 204 can be made of mesh and can display designs 210, while one or more intermediate panels 600 can be a differently colored mesh to provide a backdrop of a contrasting color, and/or can display a background image designed to be viewed behind the primary designs 210 on the first panel 202 and second panel 204.
The frame 700 can comprise one or more frame members 702 that are coupled together to form the frame 700. By way of a non-limiting example,
In some embodiments the vapor collection system 800 can be an embodiment of the vapor collection apparatus shown and described in patent application Ser. No. 14/149,731, entitled Residential Condensed Vapor Collection System and Method, filed on Jan. 7, 2014, herein incorporated by reference. In alternate embodiments the vapor collection system 800 can be absent.
In some embodiments that have a vapor collection system 800, one or more mounting members 208 can have channels 802 configured to transport, via gravity, droplets of moisture that have condensed on the signage system 200 to a storage vessel 804. A channel 802 can be a groove, trough, trench, gutter, recessed path, tube, or any other path through which condensed moisture can flow. In some embodiments, the channels 802 can be at least partially angled or inclined relative to a horizontal direction, such that condensed moisture can drain via gravity down to a lower position along the channel 802.
In some embodiments, a mounting member 208 can have a hollow interior that can serve as a channel 802, and can have one or more holes 806 through which droplets from the exterior of the mounting member 208 or from a different mounting member 208 can pass into the mounting member's hollow interior. In other embodiments, the mounting member 208 can have an open-top configuration, with sides of the mounting member 208 forming walls of a channel 802. By way of non-limiting examples, a mounting member 208 can have a substantially V-shaped cross-sectional geometry, or a substantially U-shaped cross-sectional geometry. In still other embodiments, a mounting member 208 can be configured or oriented such that moisture can pass along the exterior of the mounting member 208. By way of a non-limiting example, moisture can drip down the exterior of a vertically-mounted mounting member 208.
By way of a non-limiting example,
The storage vessel 804 can be a water receptacle configured to collect condensed moisture. In some embodiments, the storage vessel 804 can be selectively removable from the rest of the signage system 200 and/or vapor collection system 800, such that the storage vessel 804 can be removed and collected water can be retrieved, transferred to a different receptacle, or transported to another location. In alternate embodiments, the storage vessel 804 can comprise a drain or valve, through which collected water can be removed. Water accumulated by a vapor collection system 800 can be utilized in any desired manner, such as for watering plants or decreasing the amounts of water obtained from other sources, leading to water conservation.
Although the method has been described in conjunction with specific embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the method as described and hereinafter claimed is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.
Number | Date | Country | Kind |
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WO2015/126481 | Nov 2014 | WO | international |
This Application claims the benefit of priority to prior-filed and co-pending patent application Ser. No. 15/120,735, filed Aug. 22, 2016, which claims the benefit of priority to prior-filed PCT Patent Application Serial No. PCT/US2014/065559 filed Nov. 13, 2014 which claims the benefit of priority under 35 U.S.C. § 119(e) from earlier filed U.S. Provisional Application Ser. No. 61/943,199, filed Feb. 21, 2014, by Joseph W. Boudeman, the entireties of each of which are hereby incorporated herein by reference.
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20200135066 A1 | Apr 2020 | US |
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61943199 | Feb 2014 | US |
Number | Date | Country | |
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Parent | 15120735 | US | |
Child | 16725888 | US |