RU2336577C1 - Luminous plate - Google Patents

Abstract

FIELD: physics, illumination engineering.

SUBSTANCE: luminous plate with frontal illumination contains a lightguide panel element made of transparent material, photodiode illuminant placed so that light beams emitted by the illuminant go to lightguide panel element through its edge, also it contains a dot matrix light output structure formed on the front surface of the lightguide panel element. Gapes d₁ and d₂ between near points of dot matrix light output structure, correspondingly vertically and horizontally are selected from the condition of visual fusion of indicated points and don't execeed values

d₂=L·tg(α), where: H - height , on which the luminous plate is supposed to place, h - height of observation, L - predetermined minimum distance, horizontally measured, and from which points of dot matrix structure visually interfused, α - 1/60 degree (eye's resolution of an observer for normal acuity of vision).

EFFECT: attainment of 'continuity' effect of illuminated surface of luminous plate.

2 cl, 1 dwg

Description

The invention relates to lighting engineering and can be used in light indicators, light signs, advertising light signs, light detectors, in particular light signs for emergency routes, and other lighting devices.

Currently, light panels are widely used, used for illumination or as carriers of advertising or service information.

For example, a light sign is known [US 6026602], containing a light guide panel element made of a transparent material, inside of which LEDs are placed near one of its edges. An information image is formed on the front surface of the panel element.

The use of LEDs as light sources reduces the size and power consumption of the light panel. Moreover, when the LEDs are located near one or more edges of the panel element (with the so-called end illumination of the panel element), the number of LEDs used is less than when lighting the panel element with LEDs distributed over its front or back surface.

However, due to the relatively low light power of the LEDs, a noticeable attenuation of illumination occurs with distance from the radiation source, therefore, with end illumination, special measures have to be applied to illuminate the front surface of the light panel over its entire area, as well as the relatively large image area.

In particular, in the device under consideration, a reflector is installed inside the panel element, which causes the reorientation of light beams propagating inside the panel element so that part of the light is output through the front surface of the specified element.

Known light panel with end lighting [RU 2237931], containing a light guide panel element made of a transparent material, as well as an LED light source located near the edge of the panel element. On the front surface of the panel element, strokes are applied, forming a diffraction grating, the elements of which have dimensions comparable with the wavelength of light radiation. Light beams coming from the LEDs through the edge of the panel element propagate inside it, undergoing complete internal reflection. At the same time, reorientation of light beams occurs on the elements of the diffraction grating, due to which light is uniformly removed from the front surface of the panel element.

However, the light panel in question is complex from the point of view of its manufacturing technology.

Known light panel with end lighting [US 5625968], selected by the authors as the closest analogue.

The specified light panel contains a light guide panel element made of a transparent material, as well as a luminescent light source located near the edge of the panel element. On the front surface of the panel element, a dot-matrix light-output structure is formed, containing many points whose dimensions exceed the wavelength of light radiation. These points can be made, in particular, in the form of roughness sections deposited on the front surface of the panel element. The front surface of the light panel is covered with a transparent film with a graphic or verbal image.

The light beams propagate inside the light guide panel element, experiencing total internal reflection, with their removal from the front surface at the points of the dot-matrix structure, which form sections of the surface optical inhomogeneity on which the light beams are reoriented. This ensures uniform illumination of the indicated surface and the image present on it. Moreover, the light panel in question is less complex in manufacturing technology compared with a light panel in which a diffraction grating is deposited on the front surface of the panel element.

Thus, a light panel with end illumination, on which a dot-matrix structure is formed on the light-output surface, provides uniform illumination over the entire surface area where the specified structure is available, and is also simple in design and technological.

On the other hand, the light panel can be considered as a visualization (display) surface, and then the points of the light-output dot-matrix structure formed on its front panel are a set of pixels - the smallest visually distinguishable elements of the luminous surface (visual surface) of the light panel and / or there are images on it. Under the condition of visual fusion of individual pixels, it is possible to achieve the effect of "continuity" of the luminous surface, that is, the effect of a continuous continuous light background (background fill) and / or continuous light image. This reduces the effect of the decline in illumination of the background fill and image.

The task of the invention is to achieve the effect of "continuity" of the luminous surface of the light panel.

The essence of the invention lies in the fact that in the light panel with end illumination containing the light guide panel element made of a transparent material, the light source is arranged so that the light beams emitted by the light source enter the light guide panel element through its edge, and also formed on the front surface of the light guide panel element, a dot matrix light output structure, according to the invention, an LED light source is used as a light source, and the intervals d ₁ and d ₂ between adjacent points of the dot-matrix light-output structure, respectively, vertically and horizontally are selected from the condition of visual fusion of these points and do not exceed the values

d ₂ = L · tg (α),

where H is the height at which the light panel is supposed to be placed,

h is the height of observation

L is the specified minimum distance, measured horizontally, starting from which the points of the dot-matrix structure visually merge,

α - 1/60 degrees (resolution of the observer's eye for normal visual acuity).

In the particular case of carrying out the invention, a dot-matrix light-output structure is formed on a part of the light-output surface, which is a graphic or letter image.

The visually distinguishable points of the dot-matrix structure formed on the front surface of the transparent light guide panel element, the dimensions of which exceed the wavelength of light radiation, form sections of the surface optical inhomogeneity in which the light beams propagating inside the panel element undergo complete internal reflection, and their output at the locations of these heterogeneities. This ensures uniform light output over the entire area of the front surface of the panel element on which the specified structure is formed. At the same time, the use of an LED light source and edge illumination allows to reduce the dimensions and reduce the energy consumption of the light panel.

Points of a dot-matrix structure can be formed, for example, by violating the surface structure of the front surface of the panel element by applying roughness areas to the indicated surface or by applying a colorful coating. In the event that the points are formed by violating the surface structure of the light-output surface of the panel element, the spectrum of the light output through them entirely corresponds to the spectrum of the LEDs used for illumination. In case the dots are formed by applying a colorful coating, the color of the emitted light (background fill and / or the image present on the front surface) corresponds to the intersection of the emission spectrum of the LEDs and the transmission spectrum (reflection) of the dye.

The fundamental difference between the claimed invention is that the intervals d ₁ and d ₂ vertically and horizontally between adjacent points of the dot matrix structure (between pixels) on the front surface of the panel element are selected from the condition of visual fusion of pixels at an observation height h (which is set as average height of a standing or sitting person), starting from a certain minimum horizontal distance L from the observer to the light panel (given or selected by some criteria, for example for practical reasons), and provided that the light panel is placed at a certain estimated height H (given or selected by some criteria, for example, known from practice). Moreover, the indicated intervals d ₁ and d ₂ are selected no more than the values determined by the above dependencies.

The above dependences were deduced by the authors on the basis of experiments and calculations made using the laws of geometric construction, as well as taking into account the physiology and optics of the human eye, which, with normal visual acuity, perceives two objects separated from each other as a single whole, if they are on an angular less than 1 arcminute (1/60 degrees).

Points of a dot-matrix structure can have a different shape (round, square, rhombic, triangular, hexagonal and other) and various dimensions, depending on the size of the front surface of the light panel and the size of the image on it, as well as on the viewing range. At the same time, by choosing the shape and size of the points while keeping the gaps d ₁ and d ₂ constant, selected in accordance with the above dependencies, you can adjust the pixel density, which, in turn, is selected depending on the desired color saturation of the backlight and image.

A dot-matrix light-emitting structure can be formed over the entire area of the front surface of the light guide panel element, while it is possible to achieve the effect of its continuous background illumination (background fill). On the indicated front surface, a graphic or letter image can be additionally formed by any known method, for example, by applying a colorful paint coating, distinguishable on a background fill.

Thus, the technical result achieved in the implementation of the claimed invention is to achieve the effect of "continuity" of the luminous surface of the light panel, thereby reducing the effect of the decline of its illumination.

In the case where the light panel is an image carrier and its illumination is of principle, it is advisable to form an image using a dot-matrix light-output structure deposited on the surface of the panel element. In this case, this structure is not formed on the entire area of the front surface of the panel element, but only on that part of it, which is a graphic or letter image.

The drawing shows an example of a dot-matrix structure formed on the front surface of the light panel, designed, in particular, for use as a light siren.

The light panel comprises a panel element 1 and an LED light source (not shown), arranged so that the light beams emitted by the light source enter the light guide panel element through its edge. In particular, the specified light source can be made in the form of a chain of light-emitting crystals coated with lenses located outside the panel element along its upper edge so that the downward-facing surfaces of the LED lenses are adjacent to the surface of the specified edge.

On the front panel of the panel element 1, a dot-matrix background structure 2 is formed, and an informational alphanumeric image formed using the dot-matrix structure 3 is also made.

The points of these structures 2 and 3 have, in particular, a circular shape. The diameter D1 of the points of structure 2 for the background is less than the diameter D2 of the points of structure 3 for the image, while the diameters D1 and D2 of these points are selected depending on the desired color saturation of the background and image.

The gaps d ₁ between adjacent points of the dot-matrix structures 2 and 3 vertically have the same value. Similarly, the gaps d ₂ between adjacent points of the dot-matrix structures 2 and 3 horizontally also have the same magnitude. The values of the gaps d ₁ and d ₂ between adjacent points of structures 2 and 3 are functions of the parameters h, L, and H described above and are selected from the condition of visual fusion of these points at known values of the considered parameters.

The formation of dot-matrix structures 2 and 3 on the front surface of the panel element 1 is as follows.

Select experimentally by calculation the size of the points of structures 2 and 3, taking into account the size of the information field of the panel element 1 and depending on the desired color saturation of the background and image. For the light siren under consideration, the front surface of the panel element 1 of which has, in particular, dimensions (150 × 300) mm, the diameters D1 and D2 of the points of structures 2 and 3 are selected, respectively, 0.3 mm and 1.5 mm.

Choose the values of the gaps vertically and horizontally between adjacent points of structures 2 and 3, which do not exceed the values calculated by the dependencies:

d ₂ = L · tg (α),

where H is the height at which the light panel is supposed to be placed and for which the considered height of their location in the rooms, which is 2.5 m in practice, is accepted for the light siren under consideration;

h is the observation height, for which the average height of a standing person is 1.7 m;

L is the specified minimum distance, measured horizontally, starting from which the points of the dot-matrix structure visually merge and which for the considered light siren is selected from practice equal to 3.0 m;

α - 1/60 degrees (resolution of the observer's eye for normal visual acuity).

For the considered light siren with the indicated values of the parameters h, L and H, the values of the intervals d ₁ and d ₂ vertically and horizontally are chosen equal to 0.79 and 0.72, respectively.

The dot-matrix structures 2 and 3 are formed, in particular, by applying dots with green paint having the above diameters D1 and D2, placing them with gaps d ₁ and d ₂ having the above values.

When placing the considered light siren in a room at a specified height N, starting from a specified distance L, the observer visually perceives the points of structures 2 and 3 on the front surface of the panel element 1 merging, thereby achieving the effect of "continuity" of the background fill and image.

Claims (2)

1. The light panel with end illumination, comprising a light guide panel element made of a transparent material, having a front light guide surface, a light source arranged so that light beams emitted by the light source enter the light guide panel through its edge, and also formed on the front the surface of the light guide panel element, a dot-matrix light-output structure, characterized in that an LED light source is used as a light source, and the intervals d ₁ and d ₂ between adjacent points of the dot-matrix light-output structure, respectively, vertically and horizontally are selected from the condition of visual fusion of these points and do not exceed the values

d ₂ = Ltg (α) where H is the height at which the light panel is supposed to be placed; h is the height of observation; L is the specified minimum distance, measured horizontally, starting from which the points of the dot-matrix structure visually merge; α - 1/60 ° (resolution of the observer's eye for normal visual acuity). 2. The light panel according to claim 1, characterized in that the dot-matrix light-output structure is formed on a part of the light-output surface, which is a graphic or letter image.