TW201016169A - A shelf-plate - Google Patents

Abstract

The invention relates to a shelf-plate (10, 10') for use in at least shelves, comprising a plate body (20) and a light emitting device (30). The invention discloses, that the light emitting device (30) is a transparent OLED (40), the plate body (20) and the light emitting device (30) are transparent, allowing the flow of light (50, 50') emitted by the light emitting device (30) out of the plate body (20).

Description

201016169 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a shelf panel for use in at least a plurality of shelves, which includes a plate-like body and an illuminator #. Further, the invention relates to a storage system having at least a shelf plate, wherein the at least the shelf plate comprises a plate, a body and a light emitting device. [Prior Art] In U.S. Patent No. 2006 02 01 181 A1, a refrigeration appliance including an internal organic light emitting diode illumination system is described. The object of the invention is a refrigerator comprising at least one organic light emitting diode (OLED) illuminating the interior of the refrigerator. Therefore, the component of the organic light emitting diode is mounted on an inner wall of the refrigerator or on a built-in component. Therefore, one of the bases of the refrigerator can be equipped with two organic light-emitting diodes for illuminating the interior. Both of the organic light emitting diodes are mounted on the base to cover the upper and lower regions of the base. Unfortunately, the installation of the sleek light-emitting diode on the base in the manner described is expensive and complicated. SUMMARY OF THE INVENTION Therefore, the present invention has to eliminate the disadvantages mentioned above for its purpose. 2 </ RTI> <RTI ID=0.0>> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> <RTIgt; 1 This object is achieved by a shelf panel as taught by the technical solution of the present invention. This object is also achieved by a storage system as taught by the technical solution 10 of the present invention. The cabinet plate and the advantageous implementation of the storage system are described in the accompanying technical solution. The features and details described with respect to the shelf panel also apply to the storage system and vice versa. The present invention discloses that the light-emitting device is a transparent organic light-emitting diode, and the plate-shaped body and the (four) optical device are transparent to allow light emitted from the light-emitting device to flow out from the plate-like body. The advanced concept of the present invention is that the plate-like body and the light-emitting device are transparent. Further, a transparent organic light emitting diode system is used as the light emitting device. By using a transparent organic light-emitting diode in combination with a transparent plate-like body, light emitted from the transparent organic light-emitting diode can be transmitted through the plate-like body and illuminate the surrounding environment of the expanded plate. The described shelf panels are easy to assemble and are worth the cost. In the context of the present invention, the concept "cradle panel" includes all of the panel-like members that can be mounted in a rack, frame, stowage bin, sapwood panel or the like. The origin of the described light-emitting device is a transparent organic light-emitting diode (OLED). The large area homogeneous light source comprises at least three layers for producing the human light. Further, the organic light emitting diode may include a substrate layer which serves as a carrier and may be made of glass or an organic light transmissive material. A thin layer of a transparent conductive material such as indium tin oxide (ιτ〇) is usually applied to the substrate to form a first electrode layer. Further, the organic light-emitting diode is composed of at least one thin layer having an organic substance having a thickness of about 5 nm to 5 Å. The organic light-emitting diode system is conventionally coated with a metal layer, such as aluminum, to form the second electrode layer, and the metal layer is characterized by a thickness of about 1 nanometer and thus a thickness of the indium tin oxide layer. The thickness of the aluminum acts as a mirror such that the radiation passes only through the transparent indium tin oxide anode and the transparent substrate 141653.doc 201016169. However, if the cathode metal is sufficiently thin to be transparent, part of the light can also be emitted through the S-cathode. Therefore, for the emitted light and the ambient light, the organic light-emitting body becomes transparent. In the context of the present invention, the term organic light-emitting layer comprises a separate layer of organic material and an element consisting of several layers comprising organic and inorganic materials.

In a preferred embodiment of the invention, the light emitting device and/or the transparent organic light emitting diode system is embedded in the plate. The light emitted by the light-emitting device is distributed along the upper and lower sides of the plate-like body by integrating the organic light-emitting body into the plate body. The items placed above or below the deck plate are thus uniformly illuminated. In addition, if the luminous flux of the organic light-emitting diode is not too high and thus is invisible to the user, the combination of the transparent plate-shaped body and the transparent organic light-emitting diode causes the user 7 to illuminate the shelf plate. See through the shelf board in the surrounding environment. By embedding the transparent organic light-emitting diode in the plate-like body, the organic light-emitting diode is protected from external influences, for example, protecting the organic light-emitting diode from environmental impact. In another embodiment, the light emitting device and/or the transparent organic light emitting diode system is mounted on at least one side of the plate. Therefore, the light system on one side is directly emitted by the light-emitting device in the surrounding environment. In another aspect, a portion of the light emitted by the time-transmitting light-emitting diode is injected into the transparent plate. Due to the deflection and scattering, the light is redirected to cause it to exit the plate through the lower and/or higher sides of the plate. The lateral mounting of the transparent organic light-emitting diode has the advantage that the existing plate-like body can be provided with a transparent organic light-emitting diode to form the shelf of the invention described in the invention 141653.doc 201016169. Furthermore, the light emitting device can be easily replaced. Therefore, the shelf panel may include clip members' such clip members are used as fittings for the transparent organic light emitting diode and are positioned on the sides of the panel. The replacement of the illuminating device may occur not only in the event of a failure, but also in the case where the illuminating device should emit light of a different color. Therefore, transparent organic light-emitting diodes having different emission spectra can be used and replaced depending on the intended use. In another preferred embodiment, the plate-like body and the light-emitting device are one-piece. In this embodiment, the light-emitting device forms the plate-like body. As described above, the organic light emitting diode includes a multilayer structure. The first and second electrodes and the light-emitting organic layer are closed by transparent glass by using glass as a substrate and a cover. The organic light-emitting diodes thus formed can also be used as the plate-like body of the shelf plate. Therefore, the shelf plate itself is formed by the organic light-emitting diode embedded in the glass layer. Therefore, the plate-like body and the light-emitting device are one-piece. There is no need for a dedicated plate-like body in which the transparent organic light-emitting diode and its substrate are embedded. In another preferred embodiment, the light emitting device is adjustable in color. Depending on the application using the shelf panel, the color of the light emitted by the illumination device can be varied. This embodiment has the advantage that the shelf plate can emit light having different wavelengths depending on the type of use. For example, the user of the shelf panel can change the color of the emitted light depending on the items placed on the shelf panel. In particular, if the article displayed on the shelf panel has a colored surface, useful light of a particular color can be used to enable the viewer of the article to see all of its details. 141653.doc 201016169 In order to enable the light emitting device to emit light having different wavelengths, another preferred embodiment is characterized in that the light emitting device comprises at least one second transparent organic light emitting diode. In this embodiment, the light-emitting device includes not only the transparent light-emitting diode ' but also another transparent second organic light-emitting body. The second transparent organic light emitting diode system is adjacent to the transparent organic, photodiode configuration. By combining the transparent organic light emitting diode (also referred to as a first transparent organic light emitting diode) and the second transparent organic light emitting diode, light having a different color can be emitted. Preferably, the second transparent organic hair-emitting diode has an emission light 4 different from the first transparent organic light-emitting diode: the second light can be activated depending on the amount of light and/or wavelength required for the illumination-item Or the first transparent organic light emitting diode. In addition, if a large amount of light is required, the two organic light-emitting diodes can be activated. If the shelf panel displays a fine textured article having a colored surface, it is often useful to illuminate the article with light having a color different from the surface color of the article. In order to achieve this, the illuminating organic light-emitting diode and the first transparent organic light-emitting body: the polar body can be individually activated. Therefore, it is possible to select which transparent organic light-emitting diode should be activated to emit light for illuminating the articles on the shelf. Taking the type of the second transparent organic light-emitting diode, the second transparent organic light-emitting diode can be disposed laterally of the transparent organic light-emitting body. The two organic light-emitting diodes may be partially interlaced to form a -mark or -symbol. In another embodiment, the transparent organic light-emitting diode and the second transparent organic light-emitting diode can form a lost-structure. Since the organic light-emitting diodes are all transparent, light emitted by one of the organic light-emitting diodes of the organic light-emitting diodes will not be attracted or deflected by the other organic light-emitting diodes. Therefore, the combination of different organic light-emitting diodes 141653.doc 201016169 is positioned at the absolute flux of the light. The sandwich structure is not lowered from the shelf plate. In another preferred embodiment, the shelf plate includes a connecting member for connecting the shelf plate to a power source. Since the transparent organic light emitting diode and/or the organic light emitting diode of the second phase require electrical power to emit light, the bridge plate may contain a power source, such as a battery and/or a super capacitor. Alternatively, the shelf panel can be connected to an external power source via the connecting element. The connecting element can be a partial __ female/male connector system to which the truss panel is attached. Known storage systems are like racks that include fittings for mounting the rack panels thereon. Some of the assemblies may include an actuator that is configured to interact with the rack panel With σ, the shelf plate needs to have a connecting element that is adapted to the actuator to ensure an electrical power supply to the shelf plate. The connection of the shelf panel to a power source via the connection element has the advantage that a plurality of shelf panels can be fed back by a separate power source. In another preferred embodiment, the shelf panel includes a controller component for controlling the illumination device. In one aspect, the controller component can be used to manipulate the different transparent organic light-emitting diodes to be embedded in the plate and/or to manipulate the color of the color-adjustable organic light-emitting diode. Therefore, depending on whether or not all of the transparent organic light-emitting diodes can be activated and/or light of a different color can be emitted by the organic light-emitting diode. In another aspect, the controller component can detect the technical parameters of the transparent organic light emitting diode. For example, the controller component can detect and/or measure temperature, current required, and/or emit luminous flux and/or measure the color of the illuminating device. If the measured value is different from a predetermined value, the controller component can disable the light emitting device. In this example, the controller component can also send a notification via a controller system to an external electronic version I terminal. This embodiment has the advantage that the shelf board itself includes elements for controlling its functionality. Therefore, possible faults are registered early. The controller component can include an integrated circuit that is like a microcontroller or an FPGA (field programmable gate array). In another preferred embodiment, the light emitting device and/or the transparent organic light emitting diode form a logo or a trademark. The illumination device can be designed in such a manner that it forms one of the appropriate markings of the items displayed on the shelf panel. In addition, the light emitting device can be constructed by forming light or a mark by light emitted from the light emitting device. Therefore, the distribution of light emitted by the light emitting device can be made to conform to the formation of the light emitting device. In another preferred embodiment, the light emitting device comprises a color rendering index (CRI) of between 70 and 98, preferably between 80 and 95. The color rendering index is a quantitative measure of the ability of a light source to be faithfully compared to an ideal or natural source to reproduce the colors of various objects. In order for the shelf panel to be used as a light source for illumination of one of the colored objects, the color rendering index should be within the specified interval. Because of a high color rendering index, the appearance of an item placed on the shelf panel is not distorted. To achieve this, the organic light-emitting material of the transparent organic light-emitting diode should have not only one spectral line in the red, green and blue regions. Although three of the spectral lines in the red, green, and blue spectra are sufficient to produce white light, by the use of an organic light-emitting layer, an organic light-emitting layer having more than three spectral lines 141653.doc 201016169 will be realized. High color rendering index. Therefore, in the context of the present invention, it is preferred to use a transparent organic light-emitting diode having an organic light-emitting layer having at least 5 to 8 light distributed in the red, green and blue light s general line. In another embodiment, the purpose of the high color rendering index can be achieved by the use of a plurality of organic light-emitting layers, all of which are embedded in an organic light-emitting diode and have different emission spectra. Therefore, the combined spectrum of the organic light-emitting layers produces white light having a high color rendering index. In addition, we can combine a plurality of organic light-emitting diodes in a light-emitting device to achieve the same purpose. The object of the present invention is also solved by a storage system having at least one shelf panel, wherein the at least one shelf panel comprises a plate-like body and an illuminating device. The present invention discloses that the light emitting device is a transparent organic light emitting diode, the plate body and the light emitting device are transparent, allowing the flow of light emitted by the light emitting device outside the plate, and the described storage system includes A plurality of shelf panels, at least one of which includes the functions described above. The functions and detailed information about the cabinet are also applied to the storage system, and vice versa. In a preferred embodiment, the storage system includes a power source and/or a controller system and/or a connection system. The power supply is required to supply electrical power to the rack panel having the light emitting device. In the case where a plurality of shelf panels include a light emitting device as described in the present invention, a power source can be embedded in a base of the storage system. From the power source to one of the rackboard connection systems, electrical power can be delivered from the power source to the lighting device H. The connection system is used to connect to the connecting elements of the cabinet panels. The controller system 141653.doc 201016169 is used to connect controller components to the shelf panel. Therefore, an external computer can be individually connected to each of the cabinet boards. Therefore, the pick-up boards can be directly connected to the Internet via the Internet or via the controller system (4) (4). This has the advantage that even a plurality of storage systems and/or shelf boards can be controlled by a separate computer. In another embodiment, the storage system includes an environmental component that is used to measure to/from the environmental parameter and to manipulate the luminescent material based on the environmental parameter. The environment is immersed in the (4) storage system to detect its surroundings. The purpose is to measure at least one environmental parameter such as temperature, ambient light flux, and the like. This environmental parameter is used to manipulate the light emitting device. Therefore, the environmental parameter can be transmitted to the controller element to which the light emitting device is controlled. For example, if the ambient element measures the ambient light flux reduction, the light emitting device can be activated. In case the ambient element measures the temperature rise in the surrounding environment of the storage system, it can reduce the absolute luminous flux or change the color of the light from the illuminating device of the bridge plate. The environmental component has the advantage that the crucible storage system and/or the rack panel is automatically adapted to one of the environmental parameters. In the foregoing embodiments, the aforementioned bridge deck and/or storage system, as well as the claimed components and components to be used consistent with the present invention, are not subject to any particular exception regarding the choice of size, shape, material. The concept of technology enables selection criteria that are well known in the relevant field to be applied without limitation. Additional details, features, and advantages of the present invention are disclosed in the following description of the accompanying claims and the drawings, wherein only a plurality of preferred embodiments of the shelf and the storage system are shown in accordance with the present invention. A value I41653.doc -11 - 201016169 The way to follow suit. [Embodiment] Further embodiments of the present invention will be described with reference to the following charts, in which: In Fig. 1, a shelf plate 10 is used for a shelf or the like as shown in the present invention. The shelf panel 10 can be used in a locker, frame, stowage bin or as a stand for the base of the item to be illuminated. The shelf panel 10 includes a plate-like body 20 in which the plate-like body 2 is mounted. A light-emitting device 3 is embedded in the plate body 20. In order to overcome the disadvantages of the description, the plate-like body and the light-emitting device 30 are transparent. Therefore, the light 50, 50 emitted from the light-emitting device 30 can flow out of the plate-like body 2''. As shown in Fig. i, the light emitting device 30 is a transparent organic light emitting diode 4'. The transparent organic light-emitting diode 30 is formed of a multilayer structure. The first electrode layer "forms a base, and an organic light-emitting layer 45 is applied to the base. The second electrode layer is applied to the double-layer structure. The transparent organic light-emitting diode system thus formed is described in The plate-like body can be formed by two glass plates, which are a base of a plurality of (four) storage materials, and a cover of the organic light-emitting diodes 40. The plate-shaped body 20 and the cover plate The light-emitting device 3 is transparent. Therefore, if the light-emitting device 30 is not activated, the shelf plate 1 looks like a plate-like body 2. However, when activated, the light-emitting device 3 emits All items that can be completely dimmed to be placed on the shelf plate 10 according to the casing. The main light %, %, amount will pass through the surface of the plate body 6 〇, 6 〇, and the 祜袼山 (10) is emitted. The Τ Τ 役 兀 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 The system of the thieves is better than the TD. 141653.doc -12· 201016169

The integrated circuit will become part of a wider controller system ,7, which can be controlled by a plurality of cabinet boards 117. Depending on the application of the bridge deck 10, the amount of light 5 〇, 501 emitted through the surface 6 〇, 60 ′ may vary. Thus, the amount of light emitted through the surface 6 of the plate body may be different from The amount of light emitted by the surface 60' is 5 〇. This can be achieved by applying different coating % to the surface 6 〇, 6 〇 of the plate. Moreover, the optical properties of the plate 20 can vary with respect to the higher or lower surface 60, 60'. The transparent plate-like body 2 can be partially opaque such that the light emitted by the light-emitting device 30 can be dimmed. Another preferred embodiment of the shelf panel 10 is shown in FIG. In order to achieve uniform illumination above and below the shelf plate 1 , the transparent organic light emitting diode 40 is laminated to the bottom surface 6 of the plate body 2G, due to the plate body 2 and the organic The light-emitting diodes 40 are all transparent, and the light 50, 50' emitted by the organic light-emitting diodes can illuminate an area above the lower side of the plate-like body 1 . Further, the plate-like body 20 protects the organic light-emitting diode 4 from the influence of articles placed on the upper surface 6 of the plate-like body 10. Therefore, a very thin layer is required to protect the transparent organic light-emitting diode 4 from environmental influences. In another preferred embodiment, the shelf panel 1G| can emit light of different colors. Therefore, the light-emitting device 30 must be of an adjustable color so that the light-emitting device 30 can emit light having different wavelengths 5 〇, 5 。. An embodiment for achieving this is shown in FIG. The light emitting device 3A includes a second transparent organic light emitting diode 4i, and the second transparent organic light emitting diode (4) is mounted under the transparent organic light emitting diode 4". Illumination II 141653.doc 13· 201016169 Polar body 40 - also referred to below as the first transparent organic light-emitting diode 40 - emits artificial light 50, 5 〇, the artificial light 5 〇, 5 〇, can The transparent organic light-emitting diode 41 transmits light 5〇, 5〇 to the first transparent organic light-emitting diode 4, and the ambient light is also transmitted through the second transparent organic light-emitting diode 41. The second transparent organic light-emitting diode 41 is capable of emitting artificial light 51, 5 Γ. In a preferred embodiment, the second transparent organic light-emitting diode 41 has a different organic light emission than the transparent organic light-emitting diode 41. The diode 4〇1 emits a spectrum-emission spectrum. Therefore, it is possible to choose between light of different colors to be emitted by the bridge plate 10'. As shown in Fig. 3, the first transparent organic light The diode 40 and the second transparent organic light emitting diode 4丨The first transparent transparent organic light emitting diode 40 and the second transparent organic light emitting diode 41 are formed by being combined in a sandwich structure or by being separately configured. Different colors of light can be achieved. Another embodiment of the shelf panel 10 is shown in Figure 4. In this embodiment, the light emitting device 30 comprises a transparent organic light emitting diode 4, the transparent organic light emitting The diode 40 is divided into segments. As can be seen, the segment of the transparent organic light-emitting body 40 is embedded in the plate-like body 2. The transparent organic light-emitting layer disposed on the side of the light-emitting device 30 The diodes can be individually addressed by the controller component 70. Thus, the light pattern can be generated by the depicted (four) shelf H). Similarly, by using structuring during fabrication of the organic light emitting diode The active region, any shape of the illumination optoelectronic module can be cited. By locally processing the organic layer 45 of the transparent organic light-emitting diode (10), we can obtain a non-illuminated region. 141653.doc 0 201 016169 The local processing is used during the invitation to make a 'light pattern that can achieve any shape' although a large organic light-emitting diode 4 is embedded in the plate body 20. During this process, for example, From a laser, a portion of the organic layer can be illuminated, causing segmentation, wherein the organic layer will not produce artificial light. 0 ~ As shown in Figure 5, the light emitting device 30 can form a logo or a trademark 52. The surface 60 of the plate-like body 20 is shown. The light-emitting device 3 is integrated into the transparent plate-like body 2〇. The light-emitting device 30 includes a region in which no light 5〇, 5〇| is generated. The area forms an indicia 52. Therefore, a darkened logo is illuminated by its surroundings. Naturally, the illuminated and non-illuminated areas can vary. Therefore, the area of the mark 52 can emit light, 50', and the rest of the light-emitting device 3 does not emit any light at all. A storage system 10A having a plurality of shelf panels 1A, 10' is shown in FIG. In the illustrated embodiment, the storage system has just included three deck plates 10, 1 '' each of which includes a light emitting device 3''. In the storage system, the cabinet plate 1 includes a light-emitting device 3, and two transparent organic light-emitting elements: 40, 41 are embedded in the light-emitting device 3''. Therefore, the light-emitting member 30 can emit the "light" of the second transparent organic light-emitting diode, 51'. In the illustrated embodiment, the second shelf panel 10, the light 51, 51, has a spectrum of light 50, 50 that is different from the higher and lower shelf panels. In order to deliver electrical energy, the storage system_ includes a power source 110. The electric motor 110 can be incorporated into the base of the storage system (10). The power source 110 is connected to the connection system 115. The connection system 115 is embedded in the side of the storage system 100 and is connected to the connection element 116 of each of the shelf boards 10, 10' 141653.doc • 15· 201016169. The shelf plates 1G, (4) have electrical energy via the connection system. Further, each of the cabinet boards 10, 10 includes a cymbal-made element 70 for controlling the light-emitting device 3''. Each of the controller elements (4) in the display is connected to the computer 12 via the controller system m to enable the user of the disclosed system (10) to manipulate each via the computer (3) and/or the Internet. A cabinet plate 1 〇, 〇 〇, the light emitting device% of the light emission. Therefore, the remote control of the light 50, 50, 51, 51' emitted by the light-emitting device 30 is possible. Further, an environmental element 13A is mounted to the storage system 100. The environmental component measures at least one environmental parameter such as humidity, temperature, or absolute lumen of ambient light that falls on the storage system. The light emitting device 3 is operated according to the environmental parameter. This can be done directly by connecting the "hero" component 130 to the controller component 7 of each shelf board or by connecting the environmental component 13 to the computer 12 or controller component 117, respectively. . BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of a cabinet plate according to the present invention; Fig. 2 is another embodiment of a shelf plate as described in the present invention; Fig. 3 is a shelf plate having a light emitting device 2 has two transparent organic light emitting diodes; FIG. 4 is another embodiment of the shelf plate as described in the present invention; FIG. 5 is a shelf plate having a light emitting device forming the logo; and FIG. 6 is as shown in FIG. The storage system of the invention. [Main component symbol description] 10, 10' Cabinet plate 141653.doc •16- 201016169 20 Plate body 30 40 41 43 44 45 50, 50' 51, 51, 52 60 ' 60, 70 100 110 115 116 117 120 130

Light-emitting device transparent organic light-emitting diode second transparent organic light-emitting diode first electrode layer second electrode layer organic light-emitting layer light second transparent organic light-emitting diode light is formed by transparent organic light-emitting diode Identification plate surface controller component storage system power connection system connection component controller system computer environment component 141653.doc • 17-

Claims (1)

201016169 VII. Patent Application Range: 1. A shelf plate (10, 1 inch) for at least several shelves, comprising a plate body (20) and a light emitting device (30), the shelf plate The light-emitting device (30) is a transparent organic light-emitting diode (4〇), the plate-shaped body (20) and the light-emitting device (3〇) are transparent to allow the light-emitting device (4) The emitted light (5 〇, 5G,) flows out from the plate (4). * 2. As requested! a supporting plate (1〇, 10.), characterized in that the light emitting device (4) or the transparent organic light emitting diode (4〇Η is embedded in the plate body (20) 3· as requested in the item “Ge 2 a shelf plate (1〇, 1〇), characterized in that the plate-shaped body (four) and the light-emitting device (10) are in a piece-type, preferably the light-emitting device (3〇) forms the plate-like body (20) 4. The shelf plate (10) of claim 1 or 2, characterized in that the light-emitting device (30) is color-adjustable. 5. If the request item! or 2 is the shelf plate (1〇, 1〇) , characterized in that the light emitting device ❷ (10) comprises at least a second transparent organic light emitting diode (4), the at least transparent organic light emitting diode (4) preferably having a transparent organic "one body (40) Emission spectra with different emission spectra. 6·=The shelf plate (1, 1〇,) of the item 1 or 2, characterized in that the shelf plate includes a connecting member (1) 6) 'the connecting member (1) 1) for connecting the shelf plate (10) , 10') with a power supply (11 〇). 141653.doc 1 = the bridge plate 00, 10·)' of the month t item 2 or 3 is characterized in that the bridge plate 2 is made up of - controller element (7G) 'the control 11 element (10)) is used to control the Light emitting device (30). 201016169 8. 9. 10. 11. 12. The shelf plate (10, 10ι) of claim 1 or 2, characterized by the light-emitting device (30) and/or the transparent organic light-emitting diode (4〇) Form - logo or a trademark. The shelf plate (10, 10|) of claim 2 or 2 is characterized in that the light-emitting device (30) comprises a color rendering index (CRI) of between 70 and 98, preferably between ribs and %. A storage system (1〇〇) having at least one shelf plate (10, 10), wherein the at least one shelf plate (10, 10) comprises a plate body (2〇) and a light emitting device (30) The light-emitting device (30) is a transparent organic light-emitting diode (4), and the plate-shaped body (20) and the light-emitting device (3) are transparent to allow the light-emitting device (30) The emitted light flows out from the plate (2〇). The storage system (100) of claim 10, wherein the storage system (100) comprises a power source (110) and/or a controller system (117) and/or a connection system (115), the connection system ( 11 5) for connecting one of the at least one shelf plate (10, 10') to the connecting element (116). A storage system (1〇0) as claimed in claim 10 or 11, characterized in that the storage system (1〇〇) comprises an environmental element (130) for measuring at least one environmental parameter and The environmental parameter operates the light emitting device (30). 141653.doc -2-