A system for marking points on a surface at a distance has a marker apparatus with a plurality of point light sources mounted individually in apparatus movable by electrical drives to position light spots on a surface at a distance in a pattern, and an electronic power and control system coupled to the marker apparatus, providing signals for manipulating individual ones of the electrical drives of the point light sources to position the light spots in the pattern.

An illuminable image includes a substrate, a transparent light directing channel printed on the substrate, and an image printed over at least a portion of the printed transparent light directing channel.

An illuminable image includes a substrate, a transparent light directing channel printed on the substrate, and an image printed over at least a portion of the printed transparent light directing channel.

The invention relates to a lighting device, a lighting system and a lighting method. The lighting device comprises a row of lighting units mounted in a first direction X on an elongated carrier wherein each lighting unit is mounted with a respective, fixed, unique, pre-determined orientation. Said lighting device is configured to directly project on a target plane P a row of light patches, said plane P extending in said first direction X and in a second direction Y transverse to said first direction. Said row of light patches extends in the second direction and wherein said lighting device is offset out of said plane P in a third direction Z. The lighting system comprises at least a first and at least one second lighting device substantially lying in line in the length direction. Optionally said first and at least one second lighting device may extend in two or three parallel rows. Said lighting system further optionally comprises a control unit for individual control/addressing of the lighting units of the at least first and further lighting device.

The invention relates to a lighting device, a lighting system and a lighting method. The lighting device comprises a row of lighting units mounted in a first direction X on an elongated carrier wherein each lighting unit is mounted with a respective, fixed, unique, pre-determined orientation. Said lighting device is configured to directly project on a target plane P a row of light patches, said plane P extending in said first direction X and in a second direction Y transverse to said first direction. Said row of light patches extends in the second direction and wherein said lighting device is offset out of said plane P in a third direction Z. The lighting system comprises at least a first and at least one second lighting device substantially lying in line in the length direction. Optionally said first and at least one second lighting device may extend in two or three parallel rows. Said lighting system further optionally comprises a control unit for individual control/addressing of the lighting units of the at least first and further lighting device.

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.

In an example there is provided a printing method comprising receiving first and second image data for first and second images to be printed on a substrate, determining first print data for the first image on the basis of the first image data and a white layer to be printed between the first image and second image, to achieve a nominal color profile for the first image; determining second print data for the second image on the basis of the first image data, second image data, the white layer and one or more properties of the substrate to achieve a nominal color profile for the second image; communicating the print data for the first and second images to a printing device to print the first and second images and white layer on the substrate.

A coating structure of a blackout advertising cloth, comprising: a warp knitted mesh fabric; a front layer, which is an adhesive slurry layer made of polyacrylic resin as main component mixed with fireproof agent and waterproof agent, the adhesive slurry layer is coated on the front surface of the warp knitted mesh fabric for the slurry penetrating the meshes, so that the warp knitted mesh fabric and the front layer are firmly bonded; and a rear blackout layer, which is a shading slurry layer made of acrylic resin as main component mixed with blackout material, the rear blackout layer is coated on the rear surface, so that the warp knitted mesh fabric and the rear blackout layer are firmly bonded, and further form a coating structure of the blackout advertising cloth.

A stabilizer and electrical connector maintains a stable and secure electrical connection between an electric lighting module lamp support and a signage frame. The connector is an integral, unitary body having a plate shaped base section with dual lateral tension clips extending down from the base section and an adhesive member which is attached to the bottom surface of the base section. The connector uses a “stick and hold” method to lock itself to the face of a signage frame. The integral body also has a columnar support section having a through channel extending up from the base section to accept an electric lighting module lamp support. An electrical connector section having a front facing cavity containing front facing electrical plugs and at least one lateral cavity containing laterally facing electric plugs also forms a part of the connector's integral body.

A stabilizer and electrical connector maintains a stable and secure electrical connection between an electric lighting module lamp support and a signage frame. The connector is an integral, unitary body having a plate shaped base section with dual lateral tension clips extending down from the base section and an adhesive member which is attached to the bottom surface of the base section. The connector uses a “stick and hold” method to lock itself to the face of a signage frame. The integral body also has a columnar support section having a through channel extending up from the base section to accept an electric lighting module lamp support. An electrical connector section having a front facing cavity containing front facing electrical plugs and at least one lateral cavity containing laterally facing electric plugs also forms a part of the connector's integral body.