RU2014138724A - The matrix indicator, its options and method of its manufacture - Google Patents

Abstract

1. A matrix indicator comprising a screen with a support device for forming and fixing the geometric shape and spatial orientation of this screen is fixed on the screen: a matrix of discrete electron-optical light emitters forming pixels of the observed screen image, electronic transistor keys, electrically to control the brightness of these light emitters electrically , a matrix of busbars from conductors for electrical switching of these light emitters with electronic keys and switching of these light emitters d and electronic keys with a power source and a controller that generates control signals for the brightness of the light emitters supplied to these electronic keys; light emitters are arranged on the screen in raster order to form a raster screen image with a given geometric shape, area and format of the screen image; as light emitters, for example, color light emitting semiconductor diodes or color organic light emitting diodes of primary colors are used; characterized in that the screen of this indicator is divided into parts, for example, square, or rectangular, or in the form of vertical or horizontal screen strips, all parts of the screen are fixed to the supporting device of this screen with the possibility of mechanical transformation of the shape and / or area, and / or format of the screen image in the working state of the indicator, as well as for compressing, assembling or minimizing the screen to a minimum volume in the idle state of the indicator, for example: in the first version of the indicator, each part of the screen is docked m one-piece joint with adjacent

Claims (19)

1. A matrix indicator comprising a screen with a support device for forming and fixing the geometric shape and spatial orientation of this screen is fixed on the screen: a matrix of discrete electron-optical light emitters forming pixels of the observed screen image, electronic transistor keys, electrically to control the brightness of these light emitters electrically , a matrix of busbars from conductors for electrical switching of these light emitters with electronic keys and switching of these light emitters d and electronic keys with a power source and a controller that generates control signals for the brightness of the light emitters supplied to these electronic keys; light emitters are arranged on the screen in raster order to form a raster screen image with a given geometric shape, area and format of the screen image; as light emitters, for example, color light emitting semiconductor diodes or color organic light emitting diodes of primary colors are used; characterized in that the screen of this indicator is divided into parts, for example, square, or rectangular, or in the form of vertical or horizontal screen strips, all parts of the screen are fixed to the supporting device of this screen with the possibility of mechanical transformation of the shape and / or area, and / or format of the screen image in the working state of the indicator, as well as for compressing, assembling or minimizing the screen to a minimum volume in the idle state of the indicator, for example: in the first version of the indicator, each part of the screen is docked m one-piece joint with an adjacent part of the screen formed by flexible elastic or crumpled threads or material at the joints of these parts hardly noticeable to viewers, the matrix of light emitters of these parts are electrically connected by flexible conductors of the bus matrix, all parts of the screen are fixed to the supporting device with the possibility of multiple displacement, rotation, sliding and folding these parts of the screen like an accordion; in another version of the indicator, each part of the screen contains an autonomous matrix of light emitters with electronic keys and a controller for forming a certain part of the screen image in the area of this part of the screen, each part of the screen is made with ends for detachable joining by the ends of adjacent parts of the screens with joints invisible to viewers, and all parts screens mounted on a support device with a design of the "blinds" with the possibility of multiple displacement, rotation, sliding and sliding and folding screen strips similar bands of shutters. 2. The matrix indicator according to claim 1, characterized in that a matrix of sensor sensors with a matrix of buses from conductors for electrical switching of these sensor sensors with a power source and a controller for reading electrical signals from the sensor is superimposed and technologically formed together with a matrix of light emitters these sensor sensors and transmitting these signals to a computer or other video electronic equipment connected to this indicator to automatically control the process of displaying information on this screen. 3. The matrix indicator according to claim 1, characterized in that in the first embodiment, the indicator screen has one matrix of light emitters for forming one full-screen image, each light emitter in the matrix is made with one monochromatic light source and one optical lens light condenser optically coupled to this a light source for focusing and orienting the light beam of this light emitter into the calculated observation sector of a full-screen image; in another version of this indicator, on the indicator screen with one matrix of light emitters to form one full-screen image, a color light emitter is installed in each cell of this matrix, for example, an RGB LED with three light sources of primary colors: R-red, G-green and B - of blue color forming an RGB pixel of a full-color screen image, this light emitter is made with one common focal-lens light condenser optically coupled with these RGB light sources to capture wide input the focon window of the light rays of the RGB pixel with the subsequent reduction and narrowing of these rays by the lateral mirror faces of the focon in the narrow output window of this focon, the output window of the focon is optically coupled to the focal plane of the positive lens of this condenser to focus and orient these light beams with this lens into the calculated observation sector full-screen color image (formed by all the diffusers of this matrix); in the third version, on the indicator screen on a total area of full-screen image formation, several autonomous matrices of color light emitters are combined, for example, individual LEDs, each LED with a monochromatic light source: R-red, or G-green or B-blue, forming together RGB -pixel of a color screen image, for the formation on the screen of each autonomous matrix of the same or individual full-screen image, while in each autonomous matrix each monochromatic the LED is made with an individual lens light condenser optically coupled to the light source of this light emitter for focusing and orienting the light beam of this LED with the lens of this condenser into the corresponding observation sector of the screen image formed by all light emitters of this matrix; in the fourth version, on the indicator screen with several autonomous light emitting matrices in each screen cell, one full-color light emitter from each autonomous matrix is installed, for example, one color RGB LED with three light sources: R-red, G-green and B- blue, forming an RGB-color pixel of the screen image, each one RGB-light emitter is made with one common focal-lens light condenser optically coupled to these three light sources for focusing and orienting tations of all light beams of this RGB light emitter into the calculated sector of observation of a full-screen color image; in the fifth embodiment, the indicator screen contains several stand-alone arrays of RGB light emitters for each stand-alone matrix to form the same or individual image, each group of this screen has a group of color RGB light emitters that form one pixel of the image from each stand-alone matrix in the cell, for example, one color LED (RGB colors) from each autonomous matrix, this group of RGB light emitters is made with one common focal-lens light condenser, each The RGB LED is closed by an individual focon, with each color RGB LED closed by an individual focon for capturing and concentrating in the output window of the focon all RGB rays of this RGB LED, and the output windows of these foci are optically coupled to the focal plane of the condenser lens taking into account separate focusing and orientation by this lens of the light beam of an individual RGB LED into the corresponding sector of observation of the screen image formed by all the LEDs of this autonomous matrix; the optical system of all light emitters with light condensers for all versions of indicators with autonomous matrices is configured to allow the viewer to choose different options for observing screen images, for example: observing a single full-screen image in any narrow sector formed by one autonomous matrix of light emitters; collective observation of one full-screen image in a wide observation sector formed from several narrow observation sectors of the same screen images formed by several autonomous matrices; simultaneous observation by different viewers in different sectors of different full-screen images formed by different autonomous light emitting matrices. 4. The matrix indicator according to claim 3, containing on the common screen one matrix for generating one full-screen image or several autonomous light emitting matrices with individual light condensers for each light emitter, for generating each common matrix or individually full-screen image in a narrow or wide horizontal and / or vertical sector of observation by viewers of this image; The indicator is characterized in that all the light emitters of these matrices with condensers are mounted on a rotary mechanism for autonomous simultaneous synchronous transformation of the light fluxes of all light emitters of one autonomous matrix or several autonomous matrices by horizontal and / or vertical rotation in this matrix by a rotary mechanism of all its light emitters with condensers on the estimated angle of orientation of these light beams in the required sector of observation of the screen image by the audience, for example: in the first Ohm option, the rotary mechanism is made with a manual drive for manual adjustment by the viewer of the orientation of the light beams by this mechanism; in another embodiment, an indicator is installed on the viewer and / or on the hand-held remote control of this indicator for generating signals of remote orientation of light beams by this rotary mechanism, for which a receiver of these signals and an autoregulator of the rotary mechanism of light emitters of autonomous matrices for semi-automatic and / or automatic rotation of light beams of light emitters of certain autonomous matrices in the corresponding sector of observation of the viewer screen images. 5. The matrix indicator according to claim 3, comprising on the common screen several autonomous light emitter matrices with concentrators of light beams of these light emitters, focusing and orienting light beams from the light emitters of each particular autonomous matrix to the corresponding observation sector of the screen image formed by this matrix, characterized in that it is equipped with an electric switch of these autonomous matrices for transforming the light fluxes of all light emitters of one or different autonomous matrices by means of turning on and off the required matrices for the viewer to select the required orientation angles of the light flux, taking into account the appropriate options for observing screen images, for example: in the first embodiment, the indicator has a stand-alone matrix switch for manually switching the stand-alone light emitter matrices by the viewer; in another embodiment, an indicator is installed on the viewer and / or on the handheld remote control of the viewer for generating signals for remote switching of the autonomous matrices, and on the indicator is a receiver of these signals and an auto-switch of these autonomous matrices associated with this receiver for the possibility of semi-automatic and / or automatic switching on or turn off the necessary stand-alone matrix of light emitters forming a screen image visible in the sector of the audience. 6. The matrix indicator according to claim 3, characterized in that several autonomous light emitter matrices with light concentrators are installed on the large screen to simultaneously generate common and / or individual screen images in different sectors of observation, one autonomous matrix is formed over the entire screen area to form this a matrix of a full-screen image observed on the entire screen area by viewers located in the observation sector of the image far from the screen, and other autonomous matrices are located They are located on separate left and right parts of the screen for each full-screen image defined by an autonomous matrix on the corresponding part of the screen, for viewers to watch a full-screen image on the left small part of the screen from the left sector close to the left part of the screen, and viewers to watch the full-screen image on the right small part right sector close to this right side of the screen. 7. The matrix indicator according to claim 3, comprising on the common screen several autonomous arrays of light emitters with optical capacitors of the light beams of these light emitters, directing the light beams from the light emitters of each particular autonomous matrix to the corresponding sector of observation of the screen image, characterized in that one autonomous matrix is made with rectangular frame format with luminous fluxes of light emitters oriented to the viewing sectors of the screen image by viewers located closer to of the same axis, passing perpendicularly through the center of the screen, other autonomous matrices are made with trapezoidal frame formats with light fluxes of light emitters oriented to the viewing sectors of the screen image by viewers located to the left and right of this main axis, taking into account the viewers observing these screen formats with minimal geometric distortions. 8. The matrix indicator according to any one of paragraphs. 1, 2 or 3, characterized in that all surfaces of the elements visible to the viewer on the screen: light emitters, busbars, optical light capacitors, sensor sensors, solid material or filaments of the screen from the side visible to the viewer, are painted black, or optical capacitors instead of such a color, they can be covered with a matte black anti-glare mask, while for both options of anti-glare protection in the area of anti-glare protection at the point of focus of the light emitting beams by this condenser, a translucent a clear exit window with a minimum area, and for complete anti-glare protection, a matte-black mesh screen can be placed on a black background or superimposed on a matte-black material or on an external black anti-reflective surface. 9. The matrix indicator according to any one of paragraphs. 1, 2 or 3, characterized in that all surfaces of the elements visible to the viewer on the screen: light emitters, busbars, optical light capacitors, sensor sensors, solid material or filaments of the screen from the side visible to the viewer, are painted black, or optical capacitors instead of such a color, they can be covered with a matte black anti-glare mask, while for both options of anti-glare protection in the area of anti-glare protection at the point of focus of the light emitting beams by this condenser, a translucent The actual output window of the minimum area, the area of the matrix cells of the screen between the light emitters and the conductors is made transparent or transparent, and the screen is designed for its location on a transparent material or in the air with the possibility of observing the background behind the screen through these cells. 10. A matrix indicator containing a screen with a reference device for forming and fixing the geometric shape and spatial orientation of this screen is fixed on the screen: a matrix of discrete electron-optical light emitters forming pixels of the observed screen image, electronic transistor keys, electrically to control the brightness of these light emitters electrically , a matrix of busbars made of conductors for electrical switching of these light emitters with electronic keys and switching of these light emitters d and e keys to a power source and a controller generates signals control the brightness of light emitters, supplied to the electronic key; light emitters are arranged on the screen in raster order to form a raster screen image with a given geometric shape, area and format of the screen image; as light emitters, for example, color light emitting semiconductor diodes or color organic light emitting diodes of primary colors are used; characterized in that: on the screen in each cell of the matrix of light emitters, these light emitters with an electronic key and bus matrix conductors are fixed movably relative to adjacent light emitters with electronic keys and bus matrix conductors, for which light emitters with electronic keys and conductors in each cell are made with installation dimensions smaller sizes of this cell, and the busbar matrix conductors are made in the form of flexible loops; in the first embodiment, the indicator screen is made of elastic, crumpled or flexible material, for example, of film, fabric, mesh; in another embodiment, vertically and / or horizontally elastic threads are fixed on the indicator screen for self-compression of the screen and inextensible flexible or crumpled threads for fixing the screen stretch, for example, to a raster step; in all cases, the screen with the supporting device is configured to mechanically transform this screen by the viewer in the geometric shape, area and format of the screen image, as well as for compressing or convolving the screen in the idle position of the indicator, for which the screen supporting device is made in the form of a number of alternative designs, eg: - on the screen supporting device, latches are made in the form of: needles, hooks, Velcro and other screen support elements for repeatedly fixing the geometric shape and / or area and / or format of the mesh or fabric screen in the working position by coupling the screen with these latches, with the ability to repeatedly remove the screen from the latches in the idle position; - the screen supporting device is made in the form of an inflatable full-screen or contour support pillow for repeatedly fixing the inflated indicator screen cushion over the entire surface or along the contour; - the screen supporting device is made in the form of aerostatic pillows or balls for aerostatic stretching and fixing the indicator screen and vertical aerostatic stretching, holding and raising the screen in the air; - on the screen supporting device and on the indicator screen itself, magnetic clips are formed to fix the screen over the entire area or along the contour; - the screen supporting device is made in the form of a horizontal cornice with clamps for vertical screen stretching, for example, gravitational drawing of the screen with its own weight, or weights with the possibility of horizontal screen sweep to the working position and convolution of the screen in the idle position by shifting the latches along the cornice according to the "curtain" type; - the supporting device of the screen is made in the form of a horizontal telescoping telescoping tube for stretching the screen of the indicator in the working position and the coupler of the screen in the idle position; - the supporting device of the screen is made in the form of vertical or horizontal coils for unwinding the screen from this coil to the working position and folding the screen by winding this coil in the idle position; - the supporting device of the screen is made in the form of flat, contour or spiral springs mounted in the contour of the screen to deploy the screen to the working position and convolution of the screen by these springs in the idle position. 11. The matrix indicator according to claim 10, characterized in that a matrix of sensor sensors with a matrix of buses from conductors for electrical switching of these sensor sensors with a power source and a controller for reading electrical signals from the sensor is superimposed and technologically formed together with a matrix of light emitters of these sensor sensors and transmitting these signals to a computer or other video electronic equipment connected to this indicator to automatically control the process of displaying Information on this screen. 12. The matrix indicator according to claim 10, characterized in that in the first embodiment, the indicator screen has one matrix of light emitters for forming one full-screen image, each light emitter in the matrix is made with one monochromatic light source and one optical lens light condenser optically coupled to this a light source for focusing and orienting the light beam of this light emitter into the calculated observation sector of a full-screen image; in another version of this indicator, on the indicator screen with one matrix of light emitters to form one full-screen image, a color light emitter is installed in each cell of this matrix, for example, an RGB LED with three primary light sources: R-red, G-green and B - of blue color forming an RGB pixel of a full-color screen image, this light emitter is made with one common focal-lens light condenser optically coupled to these RGB light sources to capture a wide input m the focon window of the light rays of the RGB pixel with the subsequent reduction and narrowing of these rays by the side mirror faces of the focon in the narrow output window of this focon, the output window of the focon is optically coupled to the focal plane of the positive lens of this condenser to focus and orient these light beams with this lens into the calculated sector observation of a full-screen color image (formed by all the diffusers of this matrix); in the third version, on the indicator screen on a total area of full-screen image formation, several autonomous matrices of color light emitters are combined, for example, individual LEDs, each LED with a monochromatic light source: R-red, or G-green or B-blue, forming together RGB -pixel of a color screen image, for the formation on the screen of each autonomous matrix of the same or individual full-screen image, while in each autonomous matrix each monochromatic the LED is made with an individual lens light condenser optically coupled to the light source of this light emitter for focusing and orienting the light beam of this LED with the lens of this condenser into the corresponding observation sector of the screen image formed by all light emitters of this matrix; in the fourth version, on the indicator screen with several autonomous light emitting matrices in each screen cell, one full-color light emitter from each autonomous matrix is installed, for example, one color RGB LED with three light sources: R-red, G-green and B- blue, forming RGB - color pixel of the screen image, each one RGB-light emitter is made with one common focal-lens light condenser optically coupled to these three light sources for focusing and ntatsii all light beams of RGB-light emitter in the settlement sector monitoring full-screen color image; in the fifth embodiment, the indicator screen contains several stand-alone arrays of RGB light emitters for each stand-alone matrix to form the same or individual image, each group of this screen has a group of color RGB light emitters that form one pixel of the image from each stand-alone matrix in the cell, for example, one color LED (RGB colors) from each autonomous matrix, this group of RGB light emitters is made with one common focal-lens light condenser, each An RGB LED is closed by an individual focal area, with each color RGB LED being closed by an individual focal point for capturing and concentrating in the output window of the focon all RGB rays of this RGB LED, and the output windows of these foci are optically coupled to the focal plane of the condenser lens taking into account separate focusing and orientation by this lens of the light beam of an individual RGB LED into the corresponding sector of observation of the screen image formed by all the LEDs of this autonomous matrix; the optical system of all light emitters with light condensers for all versions of indicators with autonomous matrices is configured to allow the viewer to choose different options for observing screen images, for example: observing a single full-screen image in any narrow sector formed by one autonomous matrix of light emitters; collective observation of one full-screen image in a wide observation sector formed from several narrow observation sectors of the same screen images formed by several autonomous matrices; simultaneous observation by different viewers in different sectors of different full-screen images formed by different autonomous light emitting matrices. 13. The matrix indicator according to claim 12, comprising on the common screen several autonomous light emitter matrices with concentrators of light beams of these light emitters, focusing and orienting light beams from the light emitters of each particular autonomous matrix to the corresponding observation sector of the screen image formed by this matrix, characterized in that an electric switch of these autonomous matrices is installed in it to transform the light fluxes of all light emitters of one or different autonomous matrices by turn on and off the required matrices for the viewer to select the required orientation angles of the light flux, taking into account the appropriate options for observing screen images, for example: in the first version, the indicator has a stand-alone matrix switch for manually switching the stand-alone light emitter matrices by the viewer; in another embodiment, an indicator is installed on the viewer and / or on the handheld remote control of the viewer for generating signals for remote switching of the autonomous matrices, and on the indicator is a receiver of these signals and an auto-switch of these autonomous matrices associated with this receiver for the possibility of semi-automatic and / or automatic switching on or turn off the necessary stand-alone matrix of light emitters forming a screen image visible in the sector of the audience. 14. The matrix indicator according to claim 12, characterized in that several autonomous light emitter matrices with light concentrators are installed on the large screen to simultaneously generate common and / or individual screen images in different sectors of observation, one autonomous matrix is formed over the entire screen area to form this a matrix of a full-screen image observed on the entire screen area by viewers located in the observation sector of the image far from the screen, and other autonomous matrices are located wives on separate left and right parts of the screen to form a full-screen image defined by each autonomous matrix on the corresponding part of the screen for spectators to observe a full-screen image on the left small part of the screen from the left sector close to the left part of the screen, and viewers to observe the full-screen image on the right small part right sector close to this right side of the screen. 15. The matrix indicator according to claim 12, comprising on the common screen several autonomous light emitter arrays with optical capacitors of the light beams of these light emitters directing the light beams from the light emitters of each particular autonomous matrix to the corresponding observation sector of the screen image, characterized in that one autonomous matrix is made with rectangular frame format with light fluxes of light emitters oriented to the viewing sectors of the screen image by viewers located closer to of the main axis, perpendicularly through the center of the screen, other autonomous matrices are made with trapezoidal frame formats with light fluxes of light emitters oriented to the viewing sectors of the screen image by viewers located to the left and right of this main axis, taking into account the viewers observing these screen formats with minimal geometric distortions. 16. The matrix indicator according to any one of paragraphs. 10, 11, 12, characterized in that all surfaces of the elements visible to the viewer on the screen: light emitters, busbars, optical light capacitors, sensor sensors, solid material or filaments of the screen from the side visible to the viewer, are painted black, or optical capacitors instead of such a color, they can be covered with a matte black anti-glare mask, while for both variants of anti-glare protection in the area of anti-glare protection at the point of focus of the light emitter beams by this condenser, a transparent th output window of minimal area, while for the full anti-glare protection grid matte-black screen may be displayed on a black background or superimposed on the matte black material or on the outer black anti-glare surface. 17. The matrix indicator according to any one of paragraphs. 10, 11, 12, characterized in that all surfaces of the elements visible to the viewer on the screen: light emitters, busbars, optical light capacitors, sensor sensors, solid material or filaments of the screen from the side visible to the viewer, are painted black, or optical capacitors instead of such a color, they can be covered with a matte black anti-glare mask, while for both variants of anti-glare protection in the area of anti-glare protection at the point of focus of the light emitter beams by this condenser, a transparent th output window Smaller, square matrix display cells between the light emitters and conductors are made transparent or luminal, as a screen for its location on a transparent material, or in the air with the possibility of observation through the background of the cell behind the screen. 18. A method of manufacturing a matrix indicator according to any one of paragraphs. 1, 2, 3, or 10, 11, 12, which includes integrated and hybrid technologies for manufacturing indicator matrices with discrete elements: light emitters, electronic keys, pads and busbar matrix conductors, or a joint similar manufacture of indicator matrices in conjunction with a matrix of discrete sensor sensors with contact pads and a matrix of buses with fixed electrical commutation of the terminals of the conductors of the matrix of tires with these contact pads of the sensor sensors, followed by fixing these matrices on the screen e indicator, by connecting the bus matrices to the respective controllers and power sources, as well as with the subsequent fixing of the indicator screen on the supporting structure, characterized in that the screen is preliminarily made of elastic or creaseable material or of elastic or creaseable mesh made with transparent or translucent cells, painted in matt black for anti-glare screen protection; on the assembly jig with clamps with these clamps, at the given coordinates of the screen raster nodes, the cell nodes are formed of one or more autonomous indicator screen matrices, or several autonomous indicator screen matrices and sensor sensors screen matrix; discrete elements of the indicator matrix are formed on these nodes of the screen material, for example, using integrated technology, the printer or the integrated dispenser prints polymer discrete dielectric substrates from self-curing, thermopolymerizing or photopolymer plastic painted in black anti-reflective color, or pre-fabricated discrete dielectric substrates are glued, then integral discrete dielectric substrates are glued LED emitters are formed by technology, either by screen printing or by a printer that prints discretely e pads and colored OLEDs, or adhered to a substrate ready LEDs and electronic switches, sensors ready to use with ready-bonding pads, for example, when using a transparent organic light emitting diodes in these padded or sprayed dielectric mirror substrate is bonded to reflect light through the transparent light-emitting diodes; then, discrete lens optical light condensers with an anti-glare matte black mask with transparent exit windows are mounted or glued integrally on the LEDs on the substrate, or on the surfaces of the installed transparent light condensers outside the area of the transparent exit windows, antiglare matte black coatings are printed with a printer or integral stamp; first, on another conductor for forming a matrix of buses with clamps, these clamps integrally fix all the workpieces of the conductors, then all the workpieces of the conductors are bent in the form of loops with an integral stamp and cut to discrete conductors at the points of the conclusions of these specific conductors on the corresponding contact pads of the light emitter matrix and the sensor sensor matrix , this conductor with ready-made discrete conductors precisely combines the leads of the conductors with the coordinates of the contact areas Adok and the integrated method are soldered, or laser-welded or glued with conductive glue to these leads of the conductors to these contact pads, after which all the conductor clamps for the manufacture of the tire matrix are simultaneously disconnected from the conductors and this conductor is removed from the assembly conductor; in another embodiment, instead of the methods of forming anti-glare protection described above to form a highly effective anti-glare photomask with a minimum area of transparent output windows, a photo emulsion is applied to optical light capacitors, the emulsion is exposed by pixel LEDs through these capacitors and the photographic developer is developed until transparent output windows are obtained and the anti-glare coating of the photo mask is blackened then the emulsion coating is chemically dubbed for strength This anti-glare photomask from mechanical abrasion during heating and humidity. 19. The method according to p. 18, characterized in that the discrete elements: substrates, light emitters with transistor switches and optical capacitors, touch sensors with electronic keys and contact pads are made on a solid technological temporary substrate with a minimum technological area, a fixing layer is applied to this substrate which temporarily fix all these elements on this substrate and then carry out the technological processes of formation and assembly of the finished pixel elements of the matrix matrix sv from these discrete elements emitters and sensor sensors, then use a conductor with vacuum, or sticky or magnetic movable discrete latches, fixed to a fixed-stretch and elastically compressible support of a similar design of the indicator screen according to claim 10, these latches hold the finished elements on a technological substrate, then all these elements are detached from the technological substrate and the technological substrate is removed from them, then the conductor grips with the retained elements are bred into points on cells of the screen with pre-applied glue and glue all these elements to these cells of the screen, then the conductor for the manufacture of conductors matrices with discrete conductors attached to it bus matrices are applied to the assembly conductor with ready-made pixel elements, to combine contact pads with discrete conductors leads and integrated technology solder or weld or integrally glue these conductors with conductive glue to the contact pads of the finished light emitters, electronic keys and sensor sensors, then in both conductors open or disconnect the latches with these elements and remove the conductors from the finished pixel elements and conductors on the screen.