UA26110U - Luminous information screen - Google Patents

Abstract

The proposed luminous information screen contains a rectangular transparent light-transmitting screen, a transparent protective screen, and a light-reflecting screen that is installed on the rear side of the light-transmitting screen. Between the larger surfaces of the light-transmitting screen and the transmitting screen, an air gap is provided for installing a film information carrier. At the upper end surface of the transmitting screen, a semicircular slot is made. At the larger surface of the transmitting screen, rectangular spots are made that are designed for installing light sources. In front of the protective screen, a nontransparent frame is installed with a socket for the removableinformation carrier. At the lower or upper part of the light-transmitting screen, an additional diffusion light-reflecting element.

Description

Description of the invention

The light information screen belongs to the field of advertising and information technologies. A useful model, 2 which is claimed, may also find application in architecture and in the design of the human living environment, for example, for interior decorative lighting.

The relevance of the proposed screen development is determined by the requirements for further improvement of devices for the visual display of advertising information.

The task of this useful model is the development of such a light information screen, which allows quick 70 operational replacement of the film carrier of graphic, letter and symbolic information and has dimensions that exceed the Euro format A! and have improved consumer properties.

There is a well-known "Light information screen" according to |(patent of Ukraine Mo2668 0 (МКИ Б09Р9/00, 509Е13/00 dated 08.10.2003, published on 15.07.2004 in the bulletin Mo7)), which is chosen as an analogue of the claimed screen. The analog device and the claimed screen have the following features: 12 - presence of two light-conducting elements of rectangular shape made of acrylic glass, which have end illumination by light sources, at least from one end; - the presence of a diffusely reflective background, which is applied to a wide surface of at least one of the light-conducting elements in the form of a periodic diffusely reflective raster structure; - the presence of a full-color image applied to a transparent film and placed in the gap between the light-conducting elements.; - the presence of a reflective screen installed on the outside of the light-conducting element, on the surface of which a raster diffuse reflective structure is applied; - the presence of an electronic software control unit that controls the operation of light sources.

The main disadvantage of the analog device, which does not allow to achieve the goal set before the light screen, which is claimed, is its structural complexity, which makes it difficult to quickly replace the film media in and limits the dimensions of the screen. This drawback is due to the fact that in an analog device, the light-conducting elements are combined into a single information unit, and therefore, in order to replace the film media, it is necessary to disassemble the entire screen, and then replace the media and reassemble the screen.

There are well-known ultra-thin information screens that are simpler in design from the companies KKAZI EH |KKABI EH o

Sotrapu SaiyaIodie, 2002, О5А), which are designed to illuminate a full-color image printed on a film medium. These designs also use a diffusely reflective background in the form of a periodic diffusely reflective raster structure. According to the set of features, the design of the specified screen was chosen for the closest analogue. The design of the display of the closest analogue and the device that is claimed have the following characteristics: 3o - the presence of a basic light-conducting element of a rectangular shape made of acrylic glass, on the surface of which a periodic diffusely reflective raster structure is applied; - the presence of an optically transparent rectangular protective element made of acrylic glass; - the presence of light sources that are optically compatible with at least one end surface of the basic "light-conducting element; From 50 - the presence of a film carrier with a full-color image placed in the gap between the light-conducting and protective elements;

From" - the presence of a reflective screen installed on the outside of the light-conducting element.

The main drawback of the display-the closest analogue, which also does not allow to achieve the goal achieved by the light screen, which is claimed, is the lack of the possibility of visual presentation of the trademark, slogans or other useful information in the dynamic lighting mode. This shortcoming is due to two reasons. The first of them is the absence of an additional light-conducting element with an additional diffuse

Gee! reflective information, the second is the absence of additional illumination from the LEDs, which in the above-mentioned analogue device are electrically connected to the software control unit. The second drawback is the unevenness of the illumination of the information field, if its dimensions - 20 exceed the euro format A1. This shortcoming of the device of the closest analogue is due to the use of only one diffusely reflective raster structure in it. c In order to eliminate the mentioned shortcomings, it is necessary to introduce such new distinctive features into the design of the light information screen as: - the presence of an additional set of LEDs that provide end illumination of the light-conducting element 25, and the presence of an additional electronic software control unit that controls the operation of the additional c set of LEDs. - the presence of at least one slot on the side of one of the ends of the light-conducting element and the presence of an electrical board with LEDs placed in this slot, which are optically compatible with the specified end of the light-conducting element; 60 - the presence of an electrical connection of the LEDs with the electronic control unit that controls their operation; - application along the perimeter of the wide surface of the basic light-conducting element of a light-proof frame with a cut-out window of any shape; - placement in the gap between the protective and light-conducting elements of the information carrier with the possibility of its quick change, which shines through and/or diffusely reflects light; bo - application of an additional diffusely reflective background, which is optically compatible with the window and additional information; - execution of curvilinear cuts on the end surface of the specified slot, the radius of curvature of which coincides with the curvature of monolithic plastic lenses of LEDs, and the number of cuts is equal to the number of LEDs.

The basis of the proposed useful model is the task of developing a device that improves the quality of the light parameters of the screen, increases the dimensions of its information field, ensures uniformity of lighting, and implements new optical effects of dynamic illumination of additional visual information. The set technical task is solved thanks to: 70 - the use of dynamic end lighting of additional visual information from additional LEDs, which allows you to create a design with new quality indicators; - effective application of the laws of geometric optics, which makes it possible to improve the illumination of the information field.

From a constructive point of view, the solution to the given problem is achieved by the fact that a rounded cutout is made on the upper part of the 7/5 light-conducting element from the side of its end surface, and on the wide surface of the light-conducting element, from its side and at least one of its lower or upper ends , rectangular cutouts are made for placing light sources that are optically compatible with the end surfaces of the light-conducting element, a light-impermeable frame is placed around the perimeter of the wide surface of the protective element, in which at least one window of any shape is cut for placing a transparent and/or diffusely reflective medium information with the possibility of its quick replacement, while in the lower or upper part of the surface of the light-conducting element, an additional diffuse reflective background is applied, which is located opposite the indicated window and the carrier of additional information, and on the end surface, which is optically compatible with the LEDs, cutouts are made, the radii of curvature of which coincides with the curves using monolithic plastic lenses of LEDs.

When using the device for displaying information, which is claimed, the achievement of the technical result is ensured, which consists in improving the quality of the light parameters of the screen, increasing the dimensions of its information field, ensuring the uniformity of the illumination of the information field, and implementing new optical effects of dynamic illumination of additional visual information.

The most important and essential features of the screen, which is claimed, are the following: implementation on a wide surface

From the light-conducting element, from the sides and at least one of its ends - the lower or upper, rectangular cutouts for placing light sources, optically compatible with the narrow end surfaces - of the light-conducting element. As a source of end illumination of the light-conducting element, you can use - n LEDs and small-sized tubular fluorescent lamps with a cold cathode. Thanks to the electrical connection of additional LEDs with the electronic software control unit, the possibility of dynamic illumination of additional visual information is achieved. with

To ensure the illumination of additional information, an additional diffuse reflective background is placed in the lower or upper part of the light-conducting element, which is placed opposite the window cut in the opaque frame and opposite the carrier of additional information. Due to the sequential switching on of the LEDs by the electronic software control unit, the light rays are diffusely reflected from this background, providing a dynamic "

Illumination of additional visual information when changing the spectrum and intensity of lighting. Since the shape of the cut-outs on the end surface of the light-conducting element in terms of curvature is such that these cuts conform to the monolithic lenses of the LEDs, it becomes possible to increase the area of optical contact of each LED with the optical material of the light-conducting element. This provides, firstly, an increase in the light energy that enters the light-conducting element due to the additional "capture" of off-axis light rays from LEDs, and secondly, it makes it possible to increase the angular parameters of their radiation. Distinctive features of placement along the perimeter of the wide surface of the basic light-conducting element of the opaque frame, in which at least one window of any shape is cut and the position of this window

Me, relative to the cutout on the light-conducting element, are designed to enable placement of the carrier of additional - visual information. There are several options for providing additional information. For example, 5p Information can be applied on a transparent film and displayed in a window. When illuminated with LEDs, the light is reflected from the diffusely reflective additional background and illuminates the transparent film with information. The second option is the implementation of information in the form of a set of cut-out symbols that are illuminated by light diffusely reflected from the background. The third option - the information is performed on the surface in the form of a set of polished symbols. The most universal method used in the design of the screen is the use of a special seat in the gap between the protective glass and the surface of the light-conducting element. Thanks to the sliding fit, additional film with visual information can be easily installed in this place or removed from it. c Distinctive features of the useful model, which claims that the formulas given in other clauses are additional and specify the design of the light information screen with dimensions that match or exceed the euro format A1. To solve the problem of increasing the information plane of the screen, it is proposed to install an additional light-conducting element between the basic light-conducting element and the light-reflecting screen with an additional periodic raster structure placed on its wide surface, which diffusely reflects light, while the period of the additional raster structure is chosen to be equal to the period of the basic raster structure.

Diffusely reflecting figures forming raster structures can be set on the same axis with each other or with a phase shift by an amount not exceeding half the value of the period of the basic raster structure 65. The additional light-conducting element is also provided with at least one rectangular cutout for installing another additional group of LEDs therein. Installing this additional group of LEDs with an additional diffusely reflective raster structure in a particular case solves two problems. The first of them is an increase in the level of illumination of the information field, which is achieved due to the summation of two light streams of diffusely reflected light from two diffusely reflective structures of two light-conducting elements. The second task is to ensure the uniformity of information field illumination, which can be implemented if there is a shift between the diffusely reflecting figures in both raster structures. If the diffusely reflecting figures of the additional raster structure have a phase shift, then the diffusely reflected light streams will freely pass through the untouched gaps between the raster elements of the basic light-conducting element, increasing its illumination. 70 The set of distinctive features given in point 2 of the formula of the utility model is essential, because they are causally related to the technical problem to be solved by the claimed screen.

The simplest implementation of the design of the screen is given in paragraph From the formula of the useful model. In this variant, fluorescent lamps located, for example, in their side slits, are used for end illumination of both the basic and additional light-conducting elements. Sets of LEDs with an electrical /5 board are placed in the lower or upper slots of both light-conducting elements. At the same time, fluorescent lamps are designed to illuminate the raster diffusely reflective structure, and sets of LEDs illuminate additional diffusely reflective zones with a film medium containing additional information.

The considered distinguishing features given in points 1-3 of the formula of the useful model ensure the achievement of the technical result, which consists in improving the quality of the light parameters of the screen, increasing the dimensions of its information field, ensuring the uniformity of illumination and implementing new optical effects of dynamic illumination of additional visual information.

The useful model is illustrated by graphic materials, the figures of which present: in Fig. 1 - a cross-section of the light information screen as a whole; in Fig. 2 - a diagram of the mutual arrangement of structural elements; in Fig. 3 - view A - raster structure of the light-conducting element; Fig. 4 is a cross-section of a light information screen with two light-conducting elements; t in Fig. 5 is a diagram of the mutual arrangement of structural elements shown in Fig. 4; Fig.b shows the design of the light-conducting element; Fig. 7 shows the design of protective glass. The graphic materials use the following designations: 1 - protective acrylic glass; - 2 - basic light-conducting element made of acrylic glass; "-

C - reflective screen; 4 - full-color image on a film medium (slide); ise) 5 - additional information; c 6 - cutouts in the basic light-conducting element; 7 - fluorescent lighting lamps; 8 - LEDs for illuminating additional information; 8 - diffusely reflecting the elements of the raster structure; « 9 - an additional zone that diffusely reflects light; with c 10 - light-proof frame; 11 - a window that shines through; with 12 - cutout for replacing the slide; 13 - figures that diffusely reflect light, forming a diffusely reflective structure; 14 - additional light-conducting element; ko 15 - curvilinear cutouts in the background of the light-conducting element; 16 and 17 - light rays.

Me, Figures 1 and 2 present the main structural elements of the light information screen, which is claimed. The cross-section of the screen shown in Fig. 1 consists of a protective acrylic glass 1 and a basic light-conducting element 2, which are installed with a gap between their wide surfaces, which are adjacent to each other. A reflective screen 3 is attached to the back of the screen, which at the same time reflects light and is a fixing element for the entire screen. In the specified space between elements 1 and 2, a film medium 4 with a full-color image (slide) and additional information 5 is placed. Cutouts or slots 6 are made in the acrylic glass of the light-conducting element 2, inside which two light sources 7 and 8 are placed. Small-sized fluorescent lamps 7 with with a cold cathode can be used as sources of end illumination of the light-conducting element 2. In the lower cut-out or slot, an electrical board 9 with LEDs 8 is mounted, which are optically aligned with the end surface of the light-conducting element 2, illuminating in dynamic mode the medium 4 with additional information 5. Dynamic mode control of LEDs 8 is carried out using an electronic control unit, which is not shown in Fig. 1 and 2. In Fig. 2, all structural elements of the screen are spread out in space for the convenience of presentation of the review; slide 4 with additional information 5 is also removed from consideration. On the outer surface light-conducting element 2 is made of diffuse reflection vading zone 9, which is made, for example, by grinding and which is intended for illuminating the carrier 4 with additional information 5. On the inner surface of the protective acrylic element 1, a light-proof frame 10 with a cut-out window 11 is applied around the perimeter. Window 11, LEDs 8 and 65 reflective zone 9 have such a mutual location that they are all optically coordinated with each other, enabling the illumination of additional information. On the outer wide surface of the light-conducting element 2, a raster diffuse reflective structure (view A) is applied, which is considered below. On the upper end surface of the light-conducting element 2, a semicircular cutout 12 is made, which allows you to quickly change the slide 4 in the gap between elements 1 and 2. The diffusely reflective structure, which is presented in Fig. 3, is made in the form of an arithmetic set of diffusely reflective figures 13, which are evenly distributed on the specified surface. Each of the raster structures distributed on the plane along two coordinates has predetermined values of the period and spacing of the arrangement of figures 13. This enables optimal redistribution of light fluxes from light sources inside the light-conducting element 2.

In order to solve the technical problem of increasing the dimensions of the screen, it is necessary to compensate for light losses, 7/0, which occur in the case of multiple diffuse impressions of these streams from figures 13, which is due to the exponential law of the fall of light intensity in the case of multiple diffuse impressions inside the optical medium of the light-conducting element 2. To overcome this physical contradiction in the design of the screen, which is claimed, provides for the installation of an additional light-conducting element 14, as shown in Fig. 4 and 5. The additional light-conducting element 14 with its diffusely reflective structure 13 performs the function of an additional /5 source of illumination of the information field of the screen. Thus, the level of illumination of slide 4 and the uniformity of its illumination can be increased by selecting the appropriate patterns of distribution of figures 13 and their period and by changing the area and optical density on the surfaces of light-conducting elements 2 and З.

Fig. b and 7 separately present the structural elements of the light-conducting screen 2 (Fig. b) and the protective glass 1 (Fig. 7) of the screen that is claimed. Fig. b shows the relative arrangement of fluorescent lamps 7 for

Illumination of the side ends of the light-conducting element 2. The specified lamps 7 are placed inside the through-holes b, and additional LEDs 8 - inside the through-holes b from the upper or lower side of the light-conducting element 2 (14). Suppose that if the width of the light-conducting elements 2 is equal to | 4, then the width of its zone, which is occupied by the diffusely reflective raster structure 13, is equal to I 5. The lower and upper zones of the light-conducting element 2, which are also not occupied by the diffusely reflective raster structure 13, are, let us assume, No. The presence of such a zone ensures the illumination of additional information in the window 11 (Fig. 7), which is cut out in the opaque frame 10. For the illumination of additional information 4, 5, an additional light-reflecting background 9, painted, for example, with white paint, is applied in the indicated zone with a height of H /4 t . When the window 10, the background 15, and the film medium 4 with additional information 5 are combined on one axis, the latter is illuminated by the light diffusely reflected from the background 9. Since the LEDs 8 have an electrical connection with the electronic control unit, the additional information 5 is illuminated in a dynamic mode when the spectrum and radiation intensity of LEDs 8 change, as well as when the sequence and time of their on-off are changed. -

Fig. 8 shows a variant of placing the LEDs 8 relative to the illuminated end of the light-conducting element 2. To increase the illumination of the background 9, several curved cutouts 16 are made in the body of the light-conducting element 2, which in terms of shape (curvature) are conformal to the plastic lens of the LEDs 8, ise) the number of cutouts is equal to the number of LEDs 8. Thanks to such cutouts 16 in the light-conducting element c 2, a cylindrical lens of negative power is formed in the front section. This lens does not change the direction of light rays 17 and 18 in the meridional and sagittal sections, since there is no curvature in these sections of the light-conducting element 2. But, in the frontal section, the resulting cylindrical lens increases the power of the off-axis rays. Thus, there is an opportunity to "capture" a portion of the light energy « 0 which is concentrated in the off-axis rays and is irretrievably lost if the specified cylindrical lens in c is absent.

The light information screen is a promising implementation of new technical design possibilities;" light-optical systems of visual representation of symbolic, graphic and other information. These new possibilities of light screens, which can be considered as an alternative to the well-known light boxes, are based on effective

The use of the basic laws of geometric optics, the achievements of light engineering and the development of the latest technologies. co. Production of new constructions of light information screens based on the use of distinctive features of the formula of the useful model, which is claimed, was mastered in the city of Kharkiv.

Me. It is worth noting that this useful model is not limited to the options described and shown here and can be implemented in the form of other implementation options within the essence of the patent formula.

Claims (2)

Formula of the invention (42) 1. A light information screen containing a basic optically transparent light-conducting element of a rectangular shape, in which at least one end surface is optically aligned with a light source, and a basic periodic raster structure is applied to one wide surface, which diffusely reflects light coming from light sources , an optically transparent protective element of a rectangular shape and a reflective screen installed on the back side of the light information screen, while an air gap is provided between the wide surfaces of the light-conducting and protective elements for placing in it a film carrier of information with a full-color image, which is distinguished by the fact that on the upper end surface of the light-conducting element has a semicircular cutout, and on the wide surface of the light-conducting element on the sides and at least one of its ends - the lower or upper - rectangular slots are made for placing light sources, which are optically compatible with narrow end surfaces of the light-conducting element, a light-tight frame is placed around the perimeter of the wide surface of the protective element, in which at least one window of arbitrary shape is cut out, where an information carrier that diffusely transmits and/or diffusely reflects light is placed with the possibility of quick replacement, while in the lower or upper an additional diffuse reflective background is applied to the part of the basic light-conducting element, located opposite the window and the carrier of additional information, and on the narrow end surface, which is optically compatible with the LEDs, cutouts are made, the curvature of which coincides with the curvature of the monolithic plastic lenses of the LEDs. 2. The light information screen according to claim 1, which is characterized by the fact that between the light-conducting element and the light-reflecting screen, an additional light-conducting element is installed with an additional periodic raster diffusely reflective structure, which is placed on its wide surface, while the period of the additional raster structure is chosen to be equal to the period of the basic raster structure or shifted in phase by an amount not exceeding half the value of the period of the basic raster structure, and at least one of the 70 side or lower ends of the additional light-conducting element is also provided with at least one cut-out for the installation of a second additional group of LEDs, which also has an electrical connection with electronic software control unit. Q. The light information screen according to claim 1, which is characterized by the fact that tubular fluorescent lamps are placed in the side cutouts of the light-conducting element. that 2 "c) "- "- (Se) p - and? name) (o) - - 70 (42) 60 b5