JPH10508729A - Storage device for picture and code information displayed on the screen - Google Patents

Abstract

The storage device is used to store image information, e.g. a code, displayed in a given area of the monitor screen using a photosensitive storage medium (2) attached to the surface of the screen via an adhesive layer. Pref. the photosensitive material is applied to a flat carrier which has a screening layer overlying the photosensitive material on the screen side, so that the photosensitive material only cooperates with the screen in defined relatively spaced regions, corresponding to transparent areas of the screening layer.

Description

DETAILED DESCRIPTION OF THE INVENTION Storage device for picture and code information displayed on the screen   The present invention provides a device for storing pictorial information, particularly a code displayed in a part of a monitor area. About the installation. Such a storage device is displayed on the monitor by an adhesive layer effective on the monitor side. It has a storage medium made of a photosensitive material that can be fixed to a surface.   This type of device is described in German Patent Application 43 12 185. 3 This patent The invention described in the application is intended for viewers who are willing to participate in any type of television program. With your TV company Was based on the objective of providing a device that can be obtained.   An example of the use of a device of the type described is described in the named German patent application I do.   The information drawn on the TV screen depends on the thickness of the glass tube. Is drawn in an unclear state, and therefore the drawn information is absolutely The technical problem that sometimes it is not possible to memorize in a clear state is Occurs in the location.   It is an object of the present invention to store picture information shown in a partial area of a monitor. Patent application 43 12 185. Design the device described in 3 and The information drawn on the screen , In the sharpest state, Or as identifiable as possible, Exposure Is to be able to memorize in the sexual material.   According to the present invention, The photosensitive material is Attached to the area carrier medium, Separate from each other Since it becomes active on the monitor side only in the specific area located between The purpose is Full Added. this is, In particular, this is achieved as follows. That is,   − Masks, That is, the diaphragm layer, Especially, Aperture diamond for focusing effect Flam layer, Provided on the side of the carrier medium adjacent to the monitor, Light in the active area Let through, Light is opaque in a region existing between the active regions. Further To   The photosensitive material is Applies only to the active area of the carrier medium.   By forming active and inactive regions according to the present invention, From the monitor Only the light Trigger the storage process of the active area, Corresponding area of photosensitive material Are mutually delimited by inactive regions.   According to the features of the present invention, The photosensitive material is Attached to the area carrier medium, Moni It becomes active on the data side. The features of the present invention are: All possible of carrier medium and photosensitive material Including the configuration of In this configuration, The light coming from the monitor is Memory stick with photosensitive material Process can be triggered. That is, The photosensitive material is The monitor side of the carrier medium; For example, when using a transparent carrier medium, Carrier media side away from monitor It can be arranged in both the part and the part.   Each active area In each case, they are separated from each other by an inactive region Since it is placed Each area of the photosensitive material directed to the storage of information Actually Only the light directed to the area of Receiving optical information directed to the adjacent area , It is eliminated by providing an inactive area. in this way, Especially masks and dies Sharp images in all active areas of the photosensitive material associated with each light transmissive area of the afram layer Can be formed.   When transmitting a program (program), Only certain areas of the photosensitive material are exposed In the form chosen as The symbol is shown on the screen. A specific number (for example, 6 When providing the active regions of (12) to (12), Specific code, Especially two or three different The code having the brightness step Shown on screen, Remember on photosensitive material It is possible, The code is Each specific location of light and dark areas in the transmitted symbol Corresponding. Due to the planned arrangement of the light areas on the screen, Correspondence of photosensitive material Thus, the opposing active regions are exposed.   By this method, For example, During storage device evaluation, What types of viewers Can see if they are watching, Providing a specific symbol of the specified type To this program Related. By the method described, The code that characterizes the program as a result Stored in the photosensitive material, next, The storage device of the present invention can be used on the screen during program transmission. Check if you have Can be locked.   In a possible embodiment of the device of the invention, Non-photosensitive carrier material, For example, foil Used In this foil, The photosensitive material is Finally, a tendency suitable for memorizing picture information It applies intentionally to these areas that it presents. next, These areas are Inactive area Represents the active regions of the present invention, which are delimited by According to the present invention, Feeling An optical material is applied.   in this case, This is effective because relatively little photosensitive material is required. What become If this is, This is because it is supplied only to the active region of the carrier medium. in this way , Manufacturing costs are reduced.   When using the above masks and diaphragm layers, Light from mask and diaphragm layers The permeable area is Mark these active areas on the photosensitive material where the pictorial information is stored . Therefore, Light is Can only reach the photosensitive material through the light-transmissive area, Light failure The actual area of the photosensitive material covered by the transparent area, Can be exposed Can not.   When using masks and diaphragm layers, Ultimately aimed at storing pictorial information It is also effective to intentionally apply the photosensitive material only to these areas. What If By this method, Reduction of manufacturing price, Because it is achieved.   The mask and diaphragm layer At least made of a light transmissive material, For example, paper, card, Cardboard, Plastic, To carrier medium by coating process To apply Can be.   Therefore, The sharpness of the memorized picture is Mask to achieve focusing effect And a diaphragm layer is formed.   For this purpose, Use the previously described mask or diaphragm layer with a certain thickness. When Light transmissive area, For example, by cutting out, Preferably holes or holes It can also be formed by a lot diaphragm. Especially, Multiple taking openings and It is possible to use a slot diaphragm, Preferably, Opening diaf Three to 500 substantially circular cutouts, each forming a ram, are formed.   In a preferred embodiment, Cutouts and active areas Mask and diaphragm layers Are arranged so as to be distributed almost regularly around the center point of the.   The thickness of the diaphragm layer is The sensitivity of the photosensitive material, The cut formed in the diaphragm layer Dimensions of the punched out part, Select according to the sharpness of the picture stored and shown on the screen surface Selected. in this regard, When the diaphragm layer is formed thinner, Photosensitive material Fee sensitivity increases, Or Cutouts formed in the diaphragm layer are smaller It becomes.   In principle, The problem solved in the context of the present invention is: The outer surface of the glass tube is not It is drawn clearly, A certain thickness that becomes a picture generated on the inner surface of the glass tube, Screen It lies in the fact that glass tubes have. To compensate for this lack of clarity In order to The diaphragm layer is provided, for example, this is, Image transfer to photosensitive material Bring focusing. In this configuration, Focusing effect is not strong Must be The screen tube becomes thicker. this is, When the tube becomes thinner, Die This is because the thickness of the afram layer can be reduced.   For normal use, The thickness of the diaphragm layer amounts to about 5 mm.   To make the manufacture of the storage device of the present invention as feasible and economical as possible , Storage device, It is recommended to assemble into a flat form from separate layers. in this way , For example, In a single embodiment, Only the mask or diaphragm layer and the adhesive layer, Feeling Supplied to an optical film. With this flat structure, The storage device, Save space Can be packed in the form Therefore, Transport and sale in a cost-effective manner can do.   The storage medium is Can be formed as a circular disc, But as needed hand, For example, almost circular, In particular, consider appropriate shapes such as polygons such as hexagons and octagons. available. For example, In the storage device, For TV production company logo shapes and other sales promotions Active shape, In particular, a typical shape can be given to a specific business.   The outline of the mask and diaphragm layer is Substantially equivalent to the contour of the carrier medium Come Effective from a technical manufacturing perspective is there.   For the use of photosensitive materials, Visually changes without the addition of developer during the action of light Is made from a material The development process that occurs habitually separately after exposure Be omitted.   Preferably, Photoreversible color changing substances are used. They are, Specially for ultraviolet rays It shows a certain color, It becomes transparent when irradiated with visible light.   Before amnestics, The next storage of pictures and symbols that reflect or transmit visible light In order to Photoreversible color changing materials are Irradiated with ultraviolet light. Irradiation with ultraviolet light And between amnestics, The photosensitive material is Not illuminated by visible light, Or ignore It is ensured that it is only illuminated by visible light during the time allowed. For this purpose, The memory material is Installed on the side away from the adhesive layer with the light impermeable layer Can be For example, an adhesive layer can be used on an optically transparent carrier card such as a postcard. Can be fixed.   The exposure time at which a picture is memorized in the photoreversible color change layer is Preferably, Reach about 30 minutes But, It can be changed according to the photoreversible color changing material used and the brightness of the picture transmitted. Wear.   The photosensitive layer Are there multiple photoreversible color changing substances that respond to visible light of different wavelengths, respectively? When Color painting, It can be stored in the storage device of the present invention.   The effect of using a photoreversible color changing material is After exposure occurs, Photosensitive material is UV light Reused in a simple way by irradiation It lies in the fact that it can be made usable.   In a preferred embodiment, The carrier medium from which the photosensitive layer is guided is Reflective layer, Especially Provided on the side remote from the monitor with a bright white or metallic reflective layer I have. In addition, This reflective layer Photosensitive layer, Especially through a transparent carrier medium, Cap It reflects light returning to the rear medium. This method Exposure of the intensity of the photosensitive material , In particular, it leads to shorter exposure time.   The aluminum and silver layers Preferably, Use a photosensitive material or camera away from the monitor. It is deposited on the side of the rear medium.   But, The adhesive layer It is not necessary to form as a self-adhesive layer, For example, Storage device Is It is thought that it is only fixed to the screen by static electric force.   A layer that absorbs visible light, Especially when the black layer is provided on the side facing the monitor It is effective. in this way, To avoid disturbing reflections and incorrect exposures, For this reason, Before The adhesive layer is For example, it is manufactured from a material that absorbs visible light.   For example, In the storage device, Can be provided with an impermeable layer on the side away from the screen it can. The text you need and the symbols you need, In a way that is visible to the viewer Printed on the layers of Therefore, During the entire time that the storage device is attached to the screen Can be viewed by viewers. in this way, The side of the storage device away from the monitor The department is Can be used as advertising surface.   The photosensitive material is Different brightness stages, In particular, code elements in two or three distinct stages Designed for storage.   further, Selectable storage medium frequency, Defined wavelength of light, For example, specific It is also possible to react only to the light wavelength of the color. by this, Colored picture Is obtained.   With the possibility to store multiple brightness levels and multiple colors, Of different colors to be remembered The number can be considerably increased.   To facilitate positioning of the storage medium on the monitor, Carrier media and masks At least one distributed on the periphery of the diaphragm layer, Especially three or four criteria Mark can be provided, this is, While installing the storage medium on the monitor, Moni Need to be aligned with one or more marks shown in the data.   The fiducial mark is For example, Carrier medium, Mask or diaphragm ring Can be formed by Guo, next, Write an asymmetry line, Storage media It can be attached to the screen in a clear and directional way.   Central cutout, Especially circular cutouts, Inside the mask or diaphragm layer When provided at the center, A further simplification of the mounting process is achieved.   The size of the symbol recorded on the storage medium is It depends on the size of your monitor, The size of the storage medium is At least within certain limits on monitor size. Must No.   For this purpose, A laminate consisting of a mask or diaphragm layer; Exposure Material and Carrier medium is An inner circular area, Surround this circular area with concentric circles At least one annular region, Circular area and ring area The area is They are formed to be separable from each other. in this way, Circular area clipping and active The sex area It is associated with each of the circular region cutouts and each of the active regions. Preferred H The corresponding cutouts and active areas are Respectively, Mask or die They are arranged on a straight line extending from the center point of the afram layer.   When using a storage medium formed in this way on a smaller screen, Round The region is separated from the ring region, Attaches to screen without ring area Can be When using storage media for larger screens, Circular area and ring area Storage medium consisting of Or only an annular area separated from the circular area is used .   When storage media is used for screens of very different sizes, Depending on , Many unrelated regions are provided which are concentric with each other.   When dividing the storage medium into a circular area and at least one annular area, Circular area and When the annular area is formed with the reference markings described above, Just a circular area , Can be placed on the monitor without any problems.   At least one lens, Especially plastic lenses Preferably, Fresnel Formed as a lens, Between the screen and the storage medium, Or adhesive layer and carrier Placed between the media. This kind of lens is easily, Set of storage device of the present invention It is integrated into an erect layered body.   The lens is For example, Focus on symbols drawn in a blurry form on the screen Work to close, Therefore, It is rendered in a particularly clear form on the storage medium. As needed First, a device consisting of a plurality of lenses can be used.   The storage device of the present invention Developing device that makes stored picture information visible Or accumulate in Or The stored picture information is stored on the storage device. So that it can be developed sequentially with the image layer and developer It can also be made.   The storage device of the present invention At the time of capture by the viewer, paper, card, Cardboard carry Acard, Laminated cards and cardboard, Especially attached to postcard type When The present invention is particularly effective. in this way, The storage device is In a convenient way Sold at the same time, Viewers Postcard-shaped carrier car valid after exposure of storage device Have On this carrier card, Viewer reattachs exposed storage device Can be With this carrier card, Viewers Career to TV company You can resend the card. Therefore, Weight of carrier card including storage media Is less than 50g, It is valid. What happens in this case, Low postage costs This is because that.   further, The storage device An adhesive layer allows the card to be detachably attached to a postcard-shaped carrier card. When defined The present invention is effective. in this case, Protective film for covering adhesive layer Can be omitted. The adhesive layer, Use the storage medium again after exposure of the storage device The body can be fixed on a postcard carrier card.   A plurality of storage devices can be arranged on the carrier card.   Preferably, The recessed handle is provided on the carrier card to remove the storage medium Is easy.   In the present invention, Technical transmission of the code partially shown in the area of the TV screen A transmission method is disclosed. This code Multiple code elements with different brightness levels and colors , Can be stored on an optical storage medium attached to the TV screen .   For storage media of unit size, Code shown on different size TV screen To have the ability to memorize The code is According to the present invention, At least point symmetric It has a shape.   Preferably, The shape of the cord is circular, The code is Have a fan shape and mutually Transmitted on adjacent code elements.   When certain code elements of a code are transmitted in time with respect to each other in a television program, Further It is effective for What happens TV viewers Leads to security against alteration On screen Because you don't see the complete code at   further, The code is not always transmitted with a particular TV program, Rather, An example For example, it is selectively mixed by television text (teletext) These tv watching By the listener, When a code that uses the storage device of the present invention is displayed, Valid You.   FIG. 4 shows a preferred embodiment of the method for transmitting a code according to the present invention.   FIG. 3 is a screen provided with a storage device according to the present invention.   FIG. 1 is a plan view of a carrier card provided with a storage device according to the present invention.   FIG. FIG. 3 is a cross-sectional view taken along line AA of the storage device of FIG. 2 according to the present invention.   FIG. FIG. 4 is a diagram illustrating a code transmitted by the method of the present invention.   In FIG. 1 shows a conceptual diagram of a front of a monitor or a television screen 1. Left of screen On the upper side, The disk-shaped storage device 2 according to the present invention comprises: Mount directly on screen Being It covers part of the area of the television image shown on the screen.   In FIG. 1 shows a carrier card 3 of six storage devices 2 according to the invention. Exactly the same In the way More, Or arranging a small number of storage devices on a carrier card Can be.   Carrier card 3 For example, made from cardboard, Has postcard format You. In this form, The storage device of the present invention Sell in a particularly effective form Can be. What happens Carrier card 3 Package for sale of storage device 2 Can be used as Also, Used as a return for the exposed storage device 2. Because it can be   The storage device 2 Preferably, it has a thickness of about 5 mm like the carrier card 3. And It is inserted into the cutout of the carrier card 3. In addition, This cutout It matches the shape of the storage device 2. Unnecessary storage device 2 from carrier card 3 Isolation is For example, Between the end area 4 of the storage device 2 and the end area of the cutout Is prevented by frictional engagement between them. But, Storage device 2 By adhesion layer It can be fixed to the carrier card 3.   To facilitate removal of the storage device 2 from the carrier card 3, grip , That is, the operation concave portion 5 is provided in the carrier card.   The storage device 2 An inner circular area 6, Ring-shaped area 7 surrounding a circular area with concentric circles Consists of The circular area 6 and the annular area 7 Preferably, Only by friction force 1 Connected to They can be separated from each other if necessary.   The annular region 7 It has eight cutouts 8, Through this cutout, Light is It can pass to the photosensitive material contained in the storage device 2. 8 cutouts Part 8 ring It is distributed uniformly on the periphery of the shaped region 7.   One cutout 9 in the circular area is Corresponding to each of the cutouts 8 of the annular region 7 ing. In this configuration, Corresponding cutout 8, 9 are In storage device 2 They are arranged on a straight line extending from the center point 10.   The four reference marks 11 uniformly distributed on the periphery of the storage device 2 are as follows: Annular area 7 is provided, Functions for positioning on the screen. These fiducial marks 11 home, The three fiducial marks are formed as triangular notches, One fiducial mark Are formed as triangles projecting outward.   In the circular ring-shaped region 7, A corresponding reference mark 12 is formed.   At the central point 10 of the storage device 2, A circular center cutout 13 is formed, Further Acts for positioning.   The exposure process provided by monitor 1 is Depending on the light source used intentionally To prevent direct changes Or To make this more difficult, Strange Cutout 24, which provides safety against Active area formed by 25 But, To receive light from at least two of the code elements shown on the monitor, Strange At least one cutout 24, which provides security against construction 25, Memory Place 2, mask, That is, it can be arranged on the diaphragm layer. These two One of the code elements is dark and the other is light If you want to There is a delay between the exposure by the dark code element and the exposure by the bright code element. If the intermediate luminance value is Cutout 24 to provide security against tampering Against 25 It is stored in the corresponding photosensitive area.   The simulation of this intermediate value is Simulate only one dark and one light exposure step Rather than It is quite difficult to do, Therefore, Safety against alteration is the result And increase.   In one embodiment of the present invention, Six cutouts provide security against tampering Part 24, Provided in the annular region 7, further, Six that provide security against tampering The cutout 25 of It is formed in the circular area 6.   As mentioned above, The storage device 2 Before use It can be attached and detached in a specific area of the carrier card 3. Are arranged. To do the exposure The storage device 2 From carrier card 3 Removed. After exposure The storage device 2 Reinserted into Carrier Card 3, Cap It is sent to the TV company as a postcard together with the rear card 3.   The TV company address is Preferably, Print on the other side (not shown) of the carrier card 3 Is done.   Carrier Card 3 A through cutout is formed. This through cutout In the department, If the storage device is plugged in after exposure, Or Above the cutout, Dew The storage device after light is inserted, Therefore, The side of the storage device with the adhesive layer is Cap Insert the cutout from behind the rear card It is thought that there is. this is, This facilitates evaluation of the exposed storage device. What When it comes The storage device is Do not remove from the carrier card, For example, for image processing systems Therefore, it can be investigated. Storage device attached to carrier card In order to prevent further exposure of the storage device after being carried out with this kind of carrier card, This in the case of, Carrier cards include A light-opaque cover element is provided at the rear. The light-impermeable cover element is For example, Removable foil or card that can be folded back Material. Preferably, Transparent foil, At least in the area of the cutout, Light opacity It may be provided between the transient cover material and the storage device stuck.   further, A carrier card can also be provided on the front. On this front, Storage device Is applied by at least one further layer. This at least one further The layers are For example, Protecting the stack on the storage device from damage, Or Cover these.   A considerable number of further embodiments of the carrier card are conceivable, The carrier card is Dew After the light is done, Ensure that exposed storage devices are not exposed to additional incident light. While Allows easy reading of picture information stored in the storage device (stuck) Function is guaranteed.   In FIG. Before attaching to the screen, Line segment of the ring-shaped area 7 of the storage device 2 of FIG. FIG. 2 shows an enlarged view of a cross section taken along AA.   The storage device 2 Assembled in layers, Transparent, active on the screen side, sand That is, the light-transmitting adhesive layer 14 Before using the storage device 2, it is covered by the protective film 15. The bar has been. The protection film 15 Depending on the user of the storage device, Adhesive layer 14 Can be peeled off in the direction of the arrow. next, Storage device 2 Protective film 15 Can be fixed to the screen by an adhesive layer 14 which is exposed after being removed. You.   Adhesive layer 14 is followed by diaphragm layer 16. In this diaphragm layer 16, Bonding The through cutout 8 is formed in the same manner as the layer 14. The diaphragm layer 16 light Made from impermeable material, Light is Only at the cutout 8 It can pass through the flam 16. If the diaphragm layer 16 and the cutout 8 are sufficient When it is formed thick enough, Focusin that operates based on the open diaphragm principle The effect is obtained. For this reason, The thickness of the diaphragm layer 16 and the cutout 8 is Feeling Must be selected according to the sensitivity of the light-sensitive material and the thickness of the glass tube of the screen .   in this way, A pretty clear image of the picture displayed on the screen, On the photosensitive layer 17 Obtainable. This photosensitive layer 17 At the side remote from the adhesive layer 14 It is connected to the ram layer 16.   In the photosensitive layer 17, On the side away from the diaphragm layer 16, Radiated by monitor A suitable reflective layer 18 for reflecting the emitted light follows. This reflective layer Especially designed with metal And On the monitor Thus, the light emitted and reflected through the photosensitive material 16 is reflected back to the photosensitive material 17. You.   All layers are Preferably made of a flexible material, this is, Especially, screen Facilitates removal of the storage device from the storage device.   In FIG. Transmitted by the method of the present invention and used for exposure of the storage device 2 of FIGS. A suitable code 19 is shown.   Code 19 is It is configured symmetrically with respect to the center point, It has a circular shape.   Code 19 is Eight adjacent code elements 20, Divided into 21 Code element Are fan-shaped.   In the embodiment shown in FIG. The specific code element 20 is Shown brightly, on the other hand, The remaining code elements are Shown dark. By different arrangement of light and dark areas, Further To By changing the ratio of the number of light and dark areas, Eight code elements 20 in a fan shape, 21 When using Transmit and represent 256 different codes in total Can be.   The storage device 2 Each is attached on the cord 19 shown on the screen 1. And Therefore, In either case, 1 cutout 8, 9 is each code element 20, Above 21 Located in Code element 20, By 21 Code element 20, Information included in 21 Information (light or dark) The data is transmitted to the photosensitive material 17 of the storage device 2.   Code element 20, Since 21 has a fan shape, Clipping Part 8, When 9 are placed in each associated sector of the code 19, Memory An accurate exposure of the device 2 is always guaranteed. in this way, at least, Cutout 8, 9 is smaller than the area of the code element, Coating with fan shape Element 20, 21 cutout 8 in the complete area, Change of arrangement of 9 Possible Become. in this way, Variable size, represented on TV screen 1 in different sizes For the storage of code 19 with A single and fixed size is stored in the storage device 2. can do. in this way, A single storage device 2 Different screen size Can be used within a certain range. If you exceed this range, Memory Place 2 As described in the related embodiment of FIG. Two different size areas 6 , 7 can be divided.   The dotted area 22 Conveyed at the center of code 19, In the dotted area 22, In FIG. The central cutout 13 is arranged, for example, Can change its color during exposure time . Therefore, After the exposure time has completely passed, A color change occurs, for example.   at least, At the start of transmission of code 19, The sagittal region 23 For example, 3 At one location and transmitted to its periphery. These sagittal regions 23 School It functions for positioning the storage device on the lean 1. Notched reference mark according to FIG. King 11, 12 is In particular, it is aligned with the sagittal region 23.   The method of the present invention comprises: Implementation shown in FIG. 4 for sending code 19 It is not limited to the example. More or less code elements, Included in code 1 You can also Also, Multiple brightness levels and colors Send to one code element You can also. Especially, "Ming", "Middle", Three different brightness steps for “dark” When sending a code with a loop, At least one specific code of the "intermediate" step Element Transmitted as a "bright" step for about half of the total exposure time, At the time of exposure It is transmitted as a “dark” step for the rest of the interim. in this way, Against alteration Security increases. What happens TV viewers Review code once presented and when, Which code element is ultimately recalling the "intermediate" value in storage This is because it cannot be determined.

[Procedure of Amendment] Article 184-8, Paragraph 1 of the Patent Act [Submission date] September 30, 1996 [Correction contents]   8. At least one storage medium (2) may be paper, card, cardboard, or laminate. On the carrier card (3) made of card or cardboard, especially by the adhesive layer (14). Fixed   An operating recess (5) is provided to facilitate removal of the storage medium (2);   The carrier card (3) has a postcard format and has a small size of 50 g or less. Claim 1 of the preceding claim, characterized in that it has a weight including the storage medium (2). An apparatus according to any one of the preceding claims.   9. A method for technically transmitting a code (19), comprising:   The code is displayed on a part of the area of the television screen (1) and has different brightness It consists of a plurality of code elements (20, 21) in stages and takes over the television screen (1). Can be stored in the attached storage medium (2),   The code (19) is the code shown on the different size television screen (1) To provide the ability to store (1) on a unit size storage medium (2), Transmitted in a symmetrical form,   The code (19) is transmitted in a substantially circular shape or has a substantially fan-shaped shape. Transmitting the code element (20, 21). 10. At least one for positioning the storage medium (2) on the television screen (1) The two markings (22, 23) are transmitted with the addition of the code (19),   The specific code element (20, 21) of the code (19) is 1

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, PT, SE), OA (BF, BJ, CF, CG , CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, LS, MW, SD, SZ, U G), AM, AT, AU, BB, BG, BR, BY, C A, CH, CN, CZ, DE, DK, EE, ES, FI , GB, GE, HU, IS, JP, KE, KG, KP, KR, KZ, LK, LR, LT, LU, LV, MD, M G, MK, MN, MW, MX, NO, NZ, PL, PT , RO, RU, SD, SE, SG, SI, SK, TJ, TM, TT, UA, UG, US, UZ, VN

Claims (1)

[Claims]   1. Can be fixed to the monitor surface by the effective adhesive layer (14) on the monitor (1) side A storage medium (2) made of a photosensitive material capable of storing image information, in particular, a monitor (1). A device for storing a code (19) displayed in a part of the area,   The photosensitive materials are attached to an area carrier medium (17) and are spaced apart from each other. An apparatus which is activated on the monitor only in a specific area where the apparatus is arranged.   2. The mask or diaphragm layer (16) is adjacent to the monitor (1) Provided on the side of the carrier medium (17), exhibiting light transmission in the active region, In the region existing between the active regions, light is opaque,   The photosensitive material is only applied to the active area of the carrier medium (17), and The mask of transparent material, ie the diaphragm layer (16), has at least one Having cutouts (8, 9), the cutouts (8, 9) forming light transmissive regions An apparatus according to claim 1, characterized in that:   3. A plurality of cutouts (8, 9) each form an open diaphragm. It is formed between 3 and 500 circular cutouts (8, 9) to form a mask layer, That is, it is regularly distributed around the center point (10) of the diaphragm layer (16),   The thickness of the diaphragm layer (16) depends on the sensitivity of the photosensitive material, The size of the cutout provided in the diaphragm layer (16) and the surface of the screen 5 mm, selected according to the sharpness of the picture shown and stored;   The mask or diaphragm layer (16) may be paper, card, cardboard, or plastic. Consisting of a stick, in particular by a photosensitive material or by a carrier medium (17). Device according to one of the preceding claims, characterized in that it is layered. Place.   4. Periphery of carrier medium (17) or mask or diaphragm layer (16) At least one fiducial mark distributed in the part, in particular three or four fiducial marks ( 11, 12) are provided and function for positioning on the monitor,   The contour of the carrier medium (17) and the mask or diaphragm layer (16) is non- Describe the point symmetry line,   The fiducial markings (11, 12) are applied to the carrier medium (17) or to a mask or die. Formed by at least a portion of the contour of the earhlam layer (16);   Mask or diaphragm layer (16), photosensitive material and carrier medium (17) Laminates one inner circular area (6) and a circular area (6) concentrically At least one annular region (7) surrounding the circular region (6) and And the ring-shaped region (7) are separable from each other. An apparatus according to one of the preceding clauses.   5. The cutout (8) or effective area of the annular area (7) is a circular area (6). Associated with each of the cutouts (9) or each of the active regions, (9, 8) or the relevant active area, respectively, is a mask or diaphragm Arranged on a straight line extending from the center of the layer (16),   Both the circular area (6) and the annular area (7) are defined according to claim 4. Markings (11,12) are formed,   The mask or diaphragm layer (16) can be circular, in particular rectangular, hexagonal or Formed in polygons such as octagons,   Furthermore, in particular, the central cutout (13) is provided with a mask or diaphragm layer (16). ) Is provided at the center point (10) of the preceding claim. An apparatus according to any one of the preceding claims.   6. At least one cutout that provides security against tampering may be This cutout located in the diaphragm layer (16) provides security against tampering The active area formed by the recess is at least two of the active areas shown in the monitor (1). Receiving light from the code elements (20, 21),   The contour of the mask or diaphragm layer (16) is the contour of the carrier medium (17). Is almost equivalent to   Photosensitive materials are substances which change visually during the action of light, in particular without addition of a developer, preferably More preferably, it is made of a photoreversible color-changing material,   The photosensitive material has different brightness levels, especially two or three different brightness levels. Designed to store the storage elements (20, 21),   Photosensitive materials include a plurality of photoreversible color changing substances that are particularly sensitive to light of different wavelengths. It is designed to store color pictorial information depending on the photosensitive material used. Apparatus according to one of the preceding claims of the claims.   7. Photosensitive materials are sensitive to both ultraviolet and visible light, and the stored picture is It can be erased by UV irradiation,   Particularly, the layer (18), the white layer, and the metal layer in the bright layer are separated from the monitor side. Provided on the side of the carrier medium (17), and emits light emitted by the monitor (1). Reflecting back into the photosensitive material, a layer of aluminum or silver (18) is applied to the carrier medium (1). 7) or deposited on the photosensitive material side remote from the monitor side,   An adhesive layer (14) is provided on a mask or diaphragm remote from the carrier medium (17). Attached to the ram layer (16) side,   The layer (14) that absorbs visible light, especially the black layer, is provided on the side adjacent to the monitor (1). Kere,   At least one lens, especially a plastic lens, has an adhesive layer (14) and a cap. Preceding claim, characterized in that it is arranged between it and the rear medium (17). An apparatus according to one of the preceding claims.   8. The carrier card (3) has at least one storage medium in particular with an adhesive layer (1). 4) Carrier card (made of paper, card, cardboard) 3) or made of a laminated card or cardboard; Provided to facilitate removal of the body (2),   The carrier card (3) has a postcard format and a storage medium (2 9. The method according to claim 1, wherein the weight includes: The described device.   9. A method for technically transmitting a code (19), comprising:   The code is displayed on a part of the area of the television screen (1) and has different brightness It consists of a plurality of code elements (20, 21) in stages and takes over the television screen (1). Can be stored in the attached storage medium (2),   The code (19) is the code shown on the different size television screen (1) To provide the ability to store (1) on a unit size storage medium (2), Transmitted in a symmetrical form,   The code (19) is transmitted in a substantially circular shape or has a substantially fan-shaped shape. Transmitting the code element (20, 21). 10. At least one for positioning the storage medium (2) on the television screen (1) The two markings (22, 23) are transmitted with the addition of the code (19),   The specific code element (20, 21) of the code (19) is 1 Are transmitted in time series within the transmission of   When you send a code with three different brightness levels "bright", "medium" and "dark" At least one specific code element in the “intermediate” stage is fully exposed as a “bright” stage. It travels for approximately one half of the light time, and as a “dark” phase, for the rest of the exposure time. Sent   After a certain transmission time, a color or Means that at least one marking (23, 24) of varying brightness Transmitted   The code (19) is a television text (tele) that is optionally mixed during the transmission of the television. 10. A method according to claim 9, wherein the method is transmitted by text).