An illuminated flag, the flag includes a first layer of flag, a second layer of flag and a spacer separating the first and second flag layers to form an optical cavity between the first and second flag layers. A light source is contained within the optical cavity to illuminate the first and second layers. A light distribution element between the light source and layers of the flag distributes the light uniformly upon the inside of the layers. This illumination from within the flag provides a substantially uniform glow to the exterior of the flag. The flag can be supported by a standard flag pole and is able to move in a breeze.

An illuminated flag, the flag includes a first layer of flag, a second layer of flag and a spacer separating the first and second flag layers to form an optical cavity between the first and second flag layers. A light source is contained within the optical cavity to illuminate the first and second layers. A light distribution element between the light source and layers of the flag distributes the light uniformly upon the inside of the layers. This illumination from within the flag provides a substantially uniform glow to the exterior of the flag. The flag can be supported by a standard flag pole and is able to move in a breeze.

There is provided a flag assembly for mitigating against flag entanglement. The flag assembly comprises a flagpole assembly, the flagpole assembly having a fixed portion for fastening to a mount; a rotating coupling fastened to the fixed portion; and a rotating portion fastened to the rotating coupling such that the rotating coupling is able to rotate with respect to the fixed portion in use and a flag fastened to the rotating portion such that, in use, the fixed portion remains static while the rotating portion is able to rotate through 360 degrees under multidirectional wind force so as to mitigating against the entanglement of the flag about the flagpole assembly; wherein the rotating portion comprises an axial slot configured to allow the fastening of a portion of the flag to an interior of the rotating portion.

There is provided a flag assembly for mitigating against flag entanglement. The flag assembly comprises a flagpole assembly, the flagpole assembly having a fixed portion for fastening to a mount; a rotating coupling fastened to the fixed portion; and a rotating portion fastened to the rotating coupling such that the rotating coupling is able to rotate with respect to the fixed portion in use and a flag fastened to the rotating portion such that, in use, the fixed portion remains static while the rotating portion is able to rotate through 360 degrees under multidirectional wind force so as to mitigating against the entanglement of the flag about the flagpole assembly; wherein the rotating portion comprises an axial slot configured to allow the fastening of a portion of the flag to an interior of the rotating portion.

A post flag system includes a mounting tube and a flag. The mounting tube has a post section and a mounting section separated by a bend. The post section of the mounting tube goes over the upper end of a vertical post. The post section has an annular cross section of constant inner diameter greater than the outer dimension of the post to receive the upper end of the vertical post. The bend orients the mounting section at a mounting tube angle with respect to the post section. The flag has a surface displaying indicia and an edge coupled to the mounting section of the mounting tube. The mounting tube angle is preferably in the range of 90 to 100 degrees. A method of assembling a post flag system is also disclosed.

A post flag system includes a mounting tube and a flag. The mounting tube has a post section and a mounting section separated by a bend. The post section of the mounting tube goes over the upper end of a vertical post. The post section has an annular cross section of constant inner diameter greater than the outer dimension of the post to receive the upper end of the vertical post. The bend orients the mounting section at a mounting tube angle with respect to the post section. The flag has a surface displaying indicia and an edge coupled to the mounting section of the mounting tube. The mounting tube angle is preferably in the range of 90 to 100 degrees. A method of assembling a post flag system is also disclosed.

A method of manufacturing a flexible rod requires a flexible rod, a first endcap, a second endcap, a first tab, a second tab, and a folded binding. The method preferably includes a sheet. The method begins by terminally fixing both the first endcap and the second endcap onto the flexible rod. The first tab is affixed to the first endcap and a first exposed section of the flexible rod. The second tab is affixed to the second endcap and a second exposed section of the flexible rod. The flexible rod is positioned within the folded binding and along a middle fold-line of the folded binding. The first tab and the second tab are oriented away from the middle fold of the folded binding. A first seam is sewn through the folded binding along the flexible rod. A second seam is sewn through the sheet and the folded binding.

Systems and devices for providing an illuminated flagpole assembly are disclosed. The assembly can include a hoist end member configured to be attached to a flagpole, a fly end member aligned in parallel with and opposite the hoist end member, an upper cross member, and a lower cross member. The upper cross member and lower cross member may each be formed of a respective plurality of links. Each plurality of links may be connected to one or more adjacent links and aligned along a plane. A first link of each of the plurality of links may be connected to the hoist end member and a second link of each of the plurality of links may be connected to the fly end member. Each link of the each of the plurality of links can be configured to swivel with respect to one or more adjacent links.

Systems and devices for providing an illuminated flagpole assembly are disclosed. The assembly can include a hoist end member configured to be attached to a flagpole, a fly end member aligned in parallel with and opposite the hoist end member, an upper cross member, and a lower cross member. The upper cross member and lower cross member may each be formed of a respective plurality of links. Each plurality of links may be connected to one or more adjacent links and aligned along a plane. A first link of each of the plurality of links may be connected to the hoist end member and a second link of each of the plurality of links may be connected to the fly end member. Each link of the each of the plurality of links can be configured to swivel with respect to one or more adjacent links.

The present invention relates to a lighting apparatus (100) for a flagpole for illuminating a flag hoisted on the flagpole. The lighting apparatus (100) comprises a star polygon shaped disc (102) having an upper surface (102-1) and a lower surface (102-2), the lower surface (102-2) comprising a plurality of panels (106). Each of the plurality of panels (106) is inclined at an angle with respect to an adjacent panel (106). The lighting apparatus (100) further comprises a plurality of solar panels (104) installed on the upper surface (102-1) of the disc (102), and a plurality of lighting units (108) arranged in each of the plurality of panels (106) of the lower surface (102-2) of the disc (102). The lighting apparatus (100) emits light rays in the form of a star pattern and illuminates a wide coverage of the flag.