The invention relates to a signaling system, comprising a crossable zone intended to be positioned on a highway and comprising a signaling marking forming a plurality of signaling strips, said system being characterized in that: The crossable zone comprises a plurality of photovoltaic zones (ZP) comprising photovoltaic cells (Cp) intended to capture light energy in order to convert it into electrical energy; The crossable zone comprises a plurality of signaling zones (ZS), of non-zero areas, so as to form said plurality of signaling strips, each signaling zone (ZS) incorporating electrical lighting means; A control system for controlling said electrical lighting means; At least one storage unit (14) for storing the electrical energy generated by each photovoltaic zone (ZP) and connected to said electrical lighting means in order to supply them with electrical energy.

Road signal systems and methods for controlling road signals include a piezoelectric layer integrated with a surface that undergoes stresses with traffic passing over the surface. A power collection circuit is configured to collect and store power from the piezoelectric layer. One or more devices receive electrical power from the power collection circuit responsive to traffic passing over the surface.

Road signal systems and methods for controlling road signals include a piezoelectric layer integrated with a surface that undergoes stresses with traffic passing over the surface. A power collection circuit is configured to collect and store power from the piezoelectric layer. One or more devices receive electrical power from the power collection circuit responsive to traffic passing over the surface.

A solar powered road lamp apparatus includes a mounting cup for embedding in a recess in a mounting surface; a light assembly removably fitted within the mounting cup, the light assembly including a power source and a light source connected to the power source so that the light source emits light over the mounting surface, and a solar cell structure connected to the power source for recharging the power source. The cup preferably is formed of plastic or biodegradable material. The framework preferably includes a top structure having a light directing channel, adjacent to the light source for directing light from the light source through the framework and over the mounting surface, and a solar cell exposure port above the solar cell, a base plate spaced below the top structure, and at least one bolt interconnecting the top structure and the base plate. The apparatus preferably additionally includes a translucent or transparent core structure clamped between the top structure and the base plate.

A solar powered road lamp apparatus includes a mounting cup for embedding in a recess in a mounting surface; a light assembly removably fitted within the mounting cup, the light assembly including a power source and a light source connected to the power source so that the light source emits light over the mounting surface, and a solar cell structure connected to the power source for recharging the power source. The cup preferably is formed of plastic or biodegradable material. The framework preferably includes a top structure having a light directing channel, adjacent to the light source for directing light from the light source through the framework and over the mounting surface, and a solar cell exposure port above the solar cell, a base plate spaced below the top structure, and at least one bolt interconnecting the top structure and the base plate. The apparatus preferably additionally includes a translucent or transparent core structure clamped between the top structure and the base plate.

The invention relates to a one-piece light signalling slab (2) comprising a structure with a plurality of layers that are superposed and attached together, said structure comprising: A first transparent or translucent layer (200) forming a front face of said slab; A light assembly (201) comprising a plurality of light emitting diodes (Ds) electrically connected together; An assembly (202a, 202b) encapsulating said plurality of light emitting diodes; A second layer (203) forming a rear face of said plate and being made up of a composite polymer/fibreglass material; Said encapsulating assembly being positioned between said first layer (200) and said second layer (203).

The invention relates to a one-piece light signalling slab (2) comprising a structure with a plurality of layers that are superposed and attached together, said structure comprising: A first transparent or translucent layer (200) forming a front face of said slab; A light assembly (201) comprising a plurality of light emitting diodes (Ds) electrically connected together; An assembly (202a, 202b) encapsulating said plurality of light emitting diodes; A second layer (203) forming a rear face of said plate and being made up of a composite polymer/fibreglass material; Said encapsulating assembly being positioned between said first layer (200) and said second layer (203).

In some embodiments, a directional surface marking may provide directional messaging to users based on their direction of travel on a base surface, such as a roadway, walkway, or interior flooring, as non-limiting examples. In some aspects, the directional messaging may comprise different colors, text, or symbols, wherein a user may view different directional messaging on a directional surface marking dependent on direction of travel. In some embodiments, directional surface markings may comprise a profile layer, wherein the profile layer may comprise a plurality of profiles, which may provide a topography that allows for directional messaging utilizing surface colors on the topography.

In some embodiments, a directional surface marking may provide directional messaging to users based on their direction of travel on a base surface, such as a roadway, walkway, or interior flooring, as non-limiting examples. In some aspects, the directional messaging may comprise different colors, text, or symbols, wherein a user may view different directional messaging on a directional surface marking dependent on direction of travel. In some embodiments, directional surface markings may comprise a profile layer, wherein the profile layer may comprise a plurality of profiles, which may provide a topography that allows for directional messaging utilizing surface colors on the topography.

An improved electric road flare assembly formed of a plurality of LED arrays, a concave tripodal housing, and a translucent or transparent lens operable to be deployed along a roadside at night and display a plurality of high-intensity colors in a plurality of display modes. The electric road flare may be configured to display any color light on the visible light spectrum.