• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The production relates to an electronic parking disc for a vehicle; wherein the p-disk comprises a front and back; the front page comprising a first display for indicating the beginning of the parking period; the back side comprising a second display for indicating the current time; the back side comprising one or more input means for adjusting the p-disk; wherein the p-disk comprises a motion sensor capable of sensing whether the p-disk is in motion or stationary; wherein the p-disk comprises a data processor and an associated data storage device; wherein the p-disc comprises an electronic clockwork; wherein the data storage unit comprises a control system for controlling the operation of the p-disk; wherein the p-disk comprises a battery for supplying electrical voltage to those parts of the p-disk which require a voltage supply. The p-disk is characterized in that the p-disk comprises one or more solar cells for supplying electrical voltage to those parts of the p-disk which require a voltage supply.
    公开号:DK201500430A1
    申请号:DK201500430
    申请日:2015-07-29
    公开日:2016-02-08
    发明作者:Mads Andersen
    申请人:Invest Aps Sa;
    IPC主号:
    专利说明:

    Electronic p-disc Production area:
    The present invention relates to an electronic p-disc.
    Background of the production:
    It is common in public roads and areas that the authority responsible for the road or area concerned imposes restrictions on the permissible duration of parking for a vehicle. Such possible provisions on restrictions on the duration of a permitted parking are typically published by signage where information about the permitted duration of a parking, possibly depending on the parking time, is provided.
    In order for a control authority to supervise compliance with such provisions for a limited permitted duration for the parking of a vehicle, the legislation lays down provisions that require the use of a so-called parking disc when a vehicle is parked on a road or area subject to time-limited parking rules.
    Thus, in Executive Order No. 327 of April 29, 2003, details of statutory use of a parking disc in Denmark are given. A conventional p-disk typically comprises a rectangular piece of cardboard or plastic, on which are printed the numbers 1 to 12 arranged as the hourly numbers in a circle. In addition, a disc is divided into four parts of each interval between two whole hours, thus dividing each hour into four blocks. An arrow is rotatably mounted on the rectangular disc. The arrow is intended to point to a specific time corresponding to the time of parking a vehicle.
    When parking a vehicle, the parking disc is placed with the arrow turned to the time considered by law to be the beginning time for parking. The parking disc is then placed in the windshield of the vehicle in such a way that the start time of a parking can be read easily by a controller. It is clear from the above that a traditional parking disc must be manually set prior to each parking.
    However, it can easily happen that the driver of a vehicle forgets to set the parking disc prior to parking in an area with limited parking. Likewise, it can easily happen that a driver parks a vehicle without placing the parking disc on the grounds that the driver is unaware that there are rules on time-limited parking at that location.
    If a driver fails to comply with the rules for limited parking, he or she may be subject to a parking fee as a penalty for unlawful parking.
    In order to avoid such problems, various types of electronic parking disks have been marketed in recent years. An electronic parking disc is arranged to set the parking disc to indicate a starting time for a parking every time a vehicle is parked.
    One type of such electronic parking disks is electrically connected to the vehicle's electrical system. Hereby information can easily be given to the parking disc about the time of parking, since this time is considered to be the time when the electrical signal from the vehicle's electrical system gives information on this, e.g. when the vehicle engine is stopped.
    Another type of such electronic parking disks is not electrically connected to the vehicle's electrical system. In contrast, this type of electronic parking disc has its own power supply. In addition, this type of electronic parking disc includes a motion sensor capable of sensing when the vehicle engine is stopped. Against this background, the parking disc can define a starting time for a parking.
    Although the above two types of electronic parking discs solve the problems of traditional parking discs with the driver forgetting to place the parking disc, the latter type of electronic parking discs may not always ensure the avoidance of parking charges due to improper parking.
    The reason for this is that the intended function of this type of p-disc depends on that there is sufficient voltage on the built-in battery (s) responsible for the required voltage for the p-disc. In the event that the built-in battery (s) loses its voltage, either because of consumption or due to other defect, the p-disk loses its intended operation, which may result in a risk of violating the legislation regulating regulatory parking, which in turn implies a risk of parking fee as penalty for wrongful parking.
    Thus, there is a need for an improved electronic p-disc of the type that is not connected to the vehicle's electrical system and which overcomes the disadvantage mentioned above.
    It is an object of the present invention to provide an electronic p-disk which overcomes this disadvantage.
    Brief description of the production:
    This object is achieved with an electronic p-disc according to the invention.
    The generation provides an electronic parking disc for a vehicle; wherein the p-disk comprises a front and back; the front page comprising a first display for indicating the beginning of the parking period; the back side comprising a second display for indicating the current time; the back side comprising one or more input means for adjusting the p-disk; wherein the p-disk comprises a motion sensor capable of sensing whether the p-disk is in motion or stationary; wherein the p-disk comprises a data processor and an associated data storage device; wherein the p-disc comprises an electronic clockwork; wherein the data storage unit comprises a control system for controlling the operation of the p-disk; wherein the p-disk comprises a battery for supplying electrical voltage to those parts of the p-disk which require a voltage supply; characterized in that the p-disk comprises one or more solar cells for supplying electrical voltage to the parts of the p-disk which require a voltage supply.
    The term front is used here for the side of the p-disc, which when the p-disc is correctly mounted in position on, for example, the windscreen of the vehicle, faces the windscreen and can be observed through it. The term reverse is here used to mean the side of the p-disc, which when the p-disc is correctly mounted in position on, for example, the windscreen of the vehicle, can be considered inside the vehicle.
    With the parking disc according to the generation, it is possible to avoid parking without specifying the parking time, because the batteries of the parking disc run out of power, since the production in addition to batteries also includes one or more solar cells.
    Brief description of figures:
    FIG. 1a is a perspective view of the front of a circular electronic p-disc according to the invention.
    FIG. 1b shows in perspective the back of a circular electronic p-disc according to the invention.
    FIG. 2 schematically shows the operation of the electronic p-disk 100 according to the production and
    FIG. 3 shows an exploded view of the p-disk's main elements.
    Detailed description of the production:
    The production relates, as mentioned, to an electronic parking disc for a vehicle; wherein the p-disk comprises a front and back; the front page comprising a first display for indicating the beginning of the parking period; the back side comprising a second display for indicating the current time; the back side comprising one or more input means for adjusting the p-disk; wherein the p-disk comprises a motion sensor capable of sensing whether the p-disk is in motion or stationary; wherein the p-disk comprises a data processor and an associated data storage device; wherein the p-disc comprises an electronic clockwork; wherein the data storage unit comprises a control system for controlling the operation of the p-disk; wherein the p-disk comprises a battery for supplying electrical voltage to those parts of the p-disk which require a voltage supply; wherein the p-disk is characterized in that the p-disk comprises one or more solar cells for supplying electrical voltage to the parts of the p-disk which require a voltage supply.
    The solar cell or photovoltaic cells may be located on the front or back or the edge of the cabinet. Thus, there is no restriction on the position of solar cells above the surface of the p-disk cabinet.
    In a preferred embodiment, the data processor is configured to display the current time on the second display.
    This makes it easy to ensure from the inside of the car that the time that is indicated as parking time on the front of the parking disc is calculated on the basis of a correct time.
    In a preferred embodiment, the data processor is configured to receive input from the motion sensor when it switches from being in a motion state to a stationary state; wherein the data processor is configured to correlate the current time to an onset time of parking when the data processor receives input from the motion sensor that the p-disk changes to a stationary state; and wherein said data processor is configured to convert said parking start time to a modified parking start time; and wherein the data processor is configured to display this modified start time of parking on the first display of the p-disk; where the modified parking start time is defined as the time of expiration of the neighborhood within which the parking took place, the time at which the parking took place is defined as the time when the data processor receives input that it switches to a stationary state. This allows the parking disc itself to sense when the car is parked, and on this basis, a legally projected modified starting time for parking is indicated. The driver does not have to worry about having to adjust the parking disc when parking.
    The display and display design of the P-disc follows national legislation. This does not, however, hinder the visual overall impression of the p-disc, which is why the design of the p-disc in one embodiment forms a cube with a length, height and width. In yet another embodiment, the sides are spherical, curved or concave. In yet another embodiment, the housing of the p-disc is designed as a cylinder having a circular, elliptical cross-section. In yet another embodiment, the housing of the p-disc is egg-shaped, either wholly or as a section of an egg-shaped unit.
    In a preferred embodiment, the β-disk comprises a circular disk. This gives the electronic p-disc a desired visual expression, for example similar to the old-fashioned p-discs of plastic or paper.
    In a preferred embodiment, the solar cell or solar cells are arranged along the outer periphery of the β-disk or in sections between the center of the disk and its outer periphery. This ensures that a reasonable amount of space occupied by the solar cells can be allocated to the solar cells in these areas.
    Particularly advantageous are the solar cells arranged on the surface of the p-disk so that the graphical description of the p-disk in the form of numbers, text or instruction lines does not overlap the active surface of the solar cells.
    In a preferred embodiment, the solar cell or solar cells are arranged oriented radially from a center point of the β-disk and running towards the outer periphery of the β-disk. The solar cell or photovoltaic cells are arranged over the entire stretch or over a partial stretch of the radius of the p-disk.
    In yet another preferred embodiment, the solar cell or solar cells are arranged distributed in a panel, which panel is configured as a circular disk adapted to be mounted around or in front of the p-disk display. The circular disc is in one embodiment provided with a window through which it is possible to look at the front display of the p-disc. In yet another embodiment, the window is arranged to receive or surround the display of the p-disc. This results in a simpler and more affordable production as well as a more robust, thin and elegant design.
    In a preferred embodiment, the β-disk is arranged to detect, via the solar cells, whether sufficient light is present to allow the β-disk only to drive power from the solar cell (s); and wherein the p-disk is arranged to switch between them being driven by an electrical energy storage in the form of a capacitor or a battery or by the solar cell (s). In this way, the battery can be protected from load in cases where power from the solar cells can supply the necessary amount of electrical energy to the electronic p-disc. Thus, the energy storage can be considered as a backup solution for the solar cell (s).
    In a preferred embodiment, the p-disk is arranged to utilize voltage generated by the solar cell (s) for charging the battery. This can be ensured that the battery always has a reasonable or sufficient capacity to operate the electronic disk.
    In a preferred embodiment, the front of the p-disc comprises a dial comprising the numbers from 1 to 12 arranged in a circle; wherein each pair of adjacent numbers is arranged at an angle difference of 30 °; wherein each interval between two adjacent numbers is divided into four parts, said interval comprising 3 splits or splitting points or the like; wherein the first display comprises an LCD display adapted to indicate the modified parking start time; a subdivision line or the like on the LCD display may indicate the modified start time for parking on the dial, said line or the like pointing to one of the numbers from 1 to 12, or to one of the three subdivision lines or subdivision points or the like arranged between two adjacent numbers on the dial. This embodiment provides an easy indication of the modified start time for parking on the dial while making this time easily readable.
    In one embodiment, the solar cell or solar cells are arranged directly at the center point of the p-disk display. The center point forms the "focal point" of the dividing bar or minute hand towards the periphery of the dial.
    In another embodiment, the solar cell or solar cells are directly integrated into the display of the p-disc. In yet another embodiment, the solar cell or solar cells are arranged on top of the p-disk display.
    In one embodiment, the solar cell or photovoltaic cells are arranged on the back of the p-disk or its enclosure or on the edge of the p-disc or enclosure, at least partially over its receding edge. A location facing the vehicle's cabin can also generate electrical energy.
    In one embodiment, the solar cell or solar cells are arranged in the housing of the p-disk.
    In another embodiment, the solar cell or photovoltaic cells are arranged on a unit which forms a counterpart to the housing of the p-disk, for example a back of the housing.
    In yet another embodiment, the unit is a cover on the housing. In one embodiment, the cover is a battery cover. In one embodiment, the cover is arranged to enclose an energy store in the form of a capacitor and / or a primary and / or rechargeable battery. The advantages are that a p-disc can be manufactured in a standard version, whereupon the p-disc can easily be provided with an appropriate autonomous voltage supply.
    In yet another embodiment, the battery cover is provided with electronics which handle the switching between supply from the solar cell or photovoltaic cells or an energy store in the form of a capacitor or a battery.
    In one embodiment, the battery cover is provided with electronics adapted to charge an energy storage device in the form of a capacitor or rechargeable battery.
    In one embodiment, the battery cover or p-disk, for example on its enclosure, is provided with a plug connection adapted to receive an external voltage source, for example for receiving 12/24 volts through the vehicle's wiring system for maintaining the p-disk's operation or for charging the the electrical disc of the p-disc.
    In a preferred embodiment, the front face of the p-disk comprises adhesives for adhering this front face to the inner surface of the windscreen of a vehicle. This ensures easy mounting of the electronic parking disc on the inside of a vehicle windshield.
    In a preferred embodiment, the battery is of the type lithium-ion, NiMH, NiCd, Li-polymer, and where the battery may be in any format. Such batteries are readily available at the same time as they take up very little space.
    In a preferred embodiment, the solar cell (s) of the type are monocrystalline, polycrystalline or amorphous solar cells. Such types of photovoltaic cells are readily available at the same time as they are reasonably priced.
    In a preferred embodiment, the solar cell or photovoltaic cells are hidden behind a transparent or semi-transparent dial forming a front plate.
    In a preferred embodiment, the p-disc does not include a built-in battery cover, which provides a simpler and thus cheaper production process.
    In a preferred embodiment, the plurality of input means (s) for adjusting the p-disc comprises soft touch feel input means. This facilitates entry during the adjustment of the electronic p-disc.
    Referring now to the details of the drawings to illustrate preferred embodiments of the invention, FIG. leave an electronic p-disk 100 according to the invention. FIG. 1a shows in perspective the front side 2 of a circular electronic p-disc 26, 100. The front 2 comprises a dial 30 which has arranged at equidistant distances the numbers from 1 to 12 in a circle. Each hour, that is, each arc between two adjacent numbers is divided into four neighborhoods, the dial 30 between each two adjacent numbers comprising three subdivision lines 34, thus marking the neighborhood divisions 32 that exist between two whole hour numbers.
    Closer to the center of the circular dial is a first display 6 in the form of an LCD display 36. Via a control system in the interior of the electronic p-disc, the actual starting time of parking BFP is detected as explained below. The current start time for parking BFP is optionally modified to a modified start time for parking MBFP via the p-disk control system. In FIG. 1a shows on the LCD 36, via a line 38 on the LCD, that the modified start time for parking MBFP is at. 13:30.
    Alternatively, the modified MBFP parking start time could be displayed as a digital display via the time set in numbers, such as XX: YY, where XX indicates the hour, and where YY indicates the minute.
    Also, in the sections of the p-disk where the numbers from one to twelve are arranged, 12 solar cells 24 are provided which serve to supply electrical voltage to those parts of the electronic p-disk which need voltage. This ensures that the electronic p-disc does not run out of power, since the battery in the electronic p-disc can be exposed to an electric charge every time the p-disc is exposed to sunlight. Four adhesives 40 are arranged along the periphery of the p-disc which ensure that the p-disc can be glued to the windscreen of a vehicle.
    FIG. 1b shows in perspective the back side 4 of the electronic p-disk 100 shown in FIG. la. On the back of the p-disk 100 is shown another display 8, which shows the current time AT. Also shown are means 10 for setting the clock and for manually setting the parking time.
    Figure 2 shows schematically the operation of the electronic p-disk 100 according to the invention. The P-disk 100 comprises in its interior an electronic circuit. This circuit comprises a data processor 14 coupled to a data storage unit 16. The data storage unit 16, which may be integrated into the data processor 14, has embedded a control system 20. Information can be exchanged between the data processor 14 and the data storage unit 16 as indicated by the arrows. The data processor is supplied with a voltage from a battery 22. Similarly, the data processor is connected to one or more solar cells 24. For the sake of simplicity in fig. 2 is shown only connection from respectively. the battery 22 and the solar cell (s) 24. Other units may also be connected to the battery and / or the solar cells.
    The data processor 14 is also connected to an electronic clock 18. The clock can optionally be built into the data processor 14.
    The data processor 14 is coupled to a first display 6 arranged to show a start time for a parking BFP, optionally modified to a modified start time for parking MBFP by projection to the nearest whole neighborhood as required by law to do so.
    The data processor 14 is connected to a second display 8 arranged to display the current time AT.
    Input means 10 is provided to enable the user or driver to set the clock and calendar to ensure that the second display shows the correct time.
    Finally, the electronic parking disc comprises a motion sensor 12. The motion sensor is arranged to sense when the vehicle changes from a motion state to a stationary state, as is characterized by a parking of the vehicle.
    The electronic p-disc operates in such a way that when the clock is correctly set via the means 10 and the vehicle is parked, the motion sensor will feel that there is a shift in the p-disc's state from a moving state to a stationary state. Information about this shift is sent to processor 14, and the control system 20 will then ensure that the current time AT is recorded and that this time is related to the start time of a parking BFP. This time point will be modified by the operating system to a modified starting point for a parking MBFP, the law permitting parking to project its current parking time to the nearest whole neighborhood. The control system will then indicate this time MBFP on the first disc of the parking disc, which can be seen from the outside if the parking disc is mounted in or near the windshield of a vehicle with the front facing outwards.
    Because the electronic p-disc is equipped with solar cells, it will be possible to prevent the battery from running out of power, with the result that the p-disc cannot show a time for parking, and thus be obtained that you do not violate the law if compliance with the parking restrictions stated. Furthermore, it is possible to extend the time between each necessary battery change.
    This option is not present with the known electronic p-discs, which include a battery but not one or more solar cells.
    Figure 3 is an exploded view showing the structure of an electronic p-disk according to the invention. The figure shows the p-disk seen from the front. The dial 30 is made of a transparent material with a description, with the division of time periods, e.g. in neighborhoods of hours, as well as numbers indicating whole hours. The electronic P-disc also further comprises a circuit board 50 on which the electronic components are arranged, preferably on the side not seen in the figure. On the other side of the circuit board, which is visible in figure 3, you see a display 6 showing the p-disk and its setting. Notice the line that constitutes the minute hand 38, MBFP.
    Figure 4 further shows a solar panel 55, 60 on which is arranged one or more solar cells 24. The solar panel 55, is a circular disk made of a plastic material on which one or more solar cells 24 are arranged. As can be seen, the solar cells 24 are arranged radially from the center of the disk so that the description of the clock in the form of lines and numbers is arranged over the active surface of the solar cells 24 when the dial is mounted in front of the solar panel 55. Note that the solar panel 55 has a hole 57 in the middle, which acts as a window through which the first display 6 can be seen.
    The solar panel 60 is an alternative embodiment with one or more solar cells 24 specially arranged to be positioned at the center point of the β-disk. The clockwise 38, MBFB may conveniently be designed as a line with a circular disk that acts as the pivot point of the pointer, as also shown in Figure 1a. The solar panel can be arranged on top of the first display 6 or integrated directly into the first display 6 as a special component. The advantages are obvious when it comes to simple production of the p-disk 100 according to the invention, with additional economic advantages as well as low building height, which gives a slimmer design.
    The solar panel 55, 60 may be configured as a circuit board where one or more solar cells 24 are mounted. More conveniently, the solar cell foil which is the primary in the solar cell 24 is directly arranged and connected to a disk of the desired dimensions for direct insertion into the product, for low building height and a simpler product.
    The electronic p-disk 100, as shown in Fig. 3, consists of a housing in the form of a rear portion 70 arranged to receive the component side of the circuit board 50. Furthermore, a frame 75 adapted to receive the circuit board 50 on it is included. side where the first display 6 is mounted. The frame 75 has a window 77 so that the first display 6 can be seen through the window 77 in the frame 75. The frame 75 is further arranged to receive a solar panel 55 and a dial 30 and hold the solar panel 55 in position relative to the dial 30 so that the dial 30 description does not overshadow the active areas of photovoltaic cells 24 on photovoltaic panel 55. In addition, photovoltaic panel 55 and dial 30 are provided with cutouts 78, 79 which act as indicators for positioning the dial so that its description matches the line position on the LCD display 38 , MBFP, which specifies the time of parking start. The unit is assembled and locked together with mutually acting snap-lock mechanisms formed on the parts constituting the electronic p-disk 100. Since the battery life is high due to the addition of electrical energy from solar cells 24, the snap-lock mechanisms can be designed so that the cabinet is damaged if the cabinet is sought to be opened. This makes it likely that unauthorized personnel have attempted to open the appliance in connection with a modification or repair whereby the manufacturer's liability for defective appliance may lapse.
    Figure reference numbers: 2 Front of disc 4 Back of disc 6 First display 8 Second display 10 Input means for adjusting disc disc 12 Motion sensor 14 Data processor 16 Data storage unit 18 Electronic clock 20 Control system 22 Battery 24 Solar cell 26 Circular disc of electronic p-disc 30 Dial 32 Quarter break 34 Subdivision or subdivision point on dial 36 LCD display 38 Dash on LCD display 40 Adhesive on front of electronic p-disc 50 PCB 55 Solar panel 57 Hole 60 Solar panel 70 Rear part 7 5 Frame 77 Window 78 Cut 79 Cutout AT Current time BFP Parking start time MBFP Modified parking start time 100 Electronic parking disc
    权利要求:
    Claims (15)
    [1]
    1. Electronic parking disc (100) for a vehicle; wherein the p-disk comprises a front face (2) and a back face (4); the front side comprising a first display (6) for indicating the starting time of parking; the back side comprising a second display (8) for indicating the current time (AT); the back side comprising one or more input means (10) for adjusting the p-disk; wherein the p-disk comprises a motion sensor (12) capable of sensing whether the p-disk is in motion or stationary; wherein the p-disk comprises a data processor (14) and an associated data storage unit (16); wherein the p-disk comprises an electronic clock (18); wherein the data storage unit comprises a control system (20) for controlling the operation of the p-disk; wherein the p-disk comprises a battery (22) for supplying electrical voltage to those parts of the p-disk which require a voltage supply; wherein the p-disk is characterized in that the p-disk comprises one or more solar cells (24) for supplying electrical voltage to the parts of the p-disk which require a voltage supply.
    [2]
    An electronic p-disk according to claim 1, wherein the data processor (14) is configured to display the current time (AT) on the second display (8).
    [3]
    An electronic p-disk according to claim 1 or 2, wherein the data processor (14) is configured to receive input from the motion sensor (12) when it switches from being in a motion state to a stationary state; wherein the data processor (14) is configured to correlate the current time (AT) to a parking start time (BFP) when the data processor receives input from the motion sensor (12) that the p-disk shifts to a stationary state; and wherein said data processor (14) is configured to convert said parking start time (BFP) to a modified parking start time (MBFP); and wherein the data processor (14) is configured to display this modified start time (MPFP) for parking on the first display of the p-disk (6); where the modified parking start time (MTFP) is defined as the time of expiration of the quarter within which the parking took place, the time (BFP) where the parking took place is defined as the time when the data processor receives input that this switches to being in a stationary state.
    [4]
    An electronic p-disk according to any of the preceding claims, wherein the p-disc comprises a circular disc (26).
    [5]
    An electronic p-disk according to claim 4, wherein the solar cell (s) (24) is arranged along the outer periphery of the p-disk or wherein the solar cell (s) (24) is arranged in sections between the center of the disk and its outer periphery.
    [6]
    An electronic p-disk according to any one of the preceding claims, wherein the p-disk is arranged to detect, via solar cells (24), whether sufficient light is present to allow the p-disk to be powered only by the solar cell (s) (24); and wherein the p-disk is arranged to alternate between being powered by battery (22) or by the solar cell (s) (24).
    [7]
    An electronic p-disk according to any one of the preceding claims, wherein the p-disk is adapted to utilize voltage generated by the solar cell (s) (24) for charging the battery (22).
    [8]
    An electronic p-disk according to any one of the preceding claims, wherein the front face (2) of the p-disk comprises a dial (30) comprising the numbers from 1 to 12 arranged in a circle; wherein each pair of adjacent numbers is arranged at an angle difference of 30 °; wherein each interval between two adjacent numbers is divided into four parts (32), said interval comprising 3 subdivisions or subdivisions (34) or the like; the first display comprising an LCD display (36) adapted to indicate the modified parking start time (MBFP); a dash or the like (38) on the LCD may indicate the modified parking start time (MBFP) on the dial (30), said dash (38) or the like pointing to one of the numbers from 1 to 12, or to one of the three dividing lines or dividing points or the like (34) arranged between two adjacent numbers on the dial (30).
    [9]
    An electronic p-disk according to any one of the preceding claims, wherein the front (2) of the p-disk comprises adhesives (40) for adhering this front to the inner surface of a vehicle windshield.
    [10]
    An electronic p-disk according to any one of the preceding claims, wherein the battery (22) is of the type lithium ion, NiMH, NiCd, Li polymer, and wherein the battery can be in any format.
    [11]
    An electronic β-disk according to any one of the preceding claims, wherein the solar cell (s) (24) is of the type monocrystalline, polycrystalline or amorphous solar cells.
    [12]
    Electronic electronic disk according to any one of the preceding claims, wherein the solar cell or solar cells are stored behind a transparent or semi-transparent dial behind a front plate.
    [13]
    Electronic p-disk according to any of the preceding claims, wherein the p-disk does not include a built-in battery cover.
    [14]
    An electronic p-disk according to any one of the preceding claims, wherein the plurality of input means (10) for adjusting the p-disk comprises soft touch feel input means.
    [15]
    An electronic p-disk according to any one of the preceding claims, wherein the solar cell or photovoltaic cells are arranged on a unit forming a counterpart to the p-disk's housing.
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE4420547A1|1993-06-15|1995-01-05|Wandschneider Ingeborg|Device for indicating the start of parking time|
    DE19546622A1|1995-12-02|1996-05-30|Wolfgang Jeserig|Electronic parking disc for parked vehicle|
    DE60035585T2|1999-06-08|2008-03-20|Cartime Technologies Aps|DEVICE FOR DISPLAYING PARKING TIME|
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    IT1318996B1|2000-10-11|2003-09-19|Chiesa Ermanno Bini|AUTOMATIC TIME DISC EQUIPPED WITH SENSORY VEHICLES FOR THE DETECTION OF THE MOVEMENT STATUS OF A VEHICLE|
    EP1231572A3|2001-02-10|2003-07-09|Peter Gautsch|Parking disc for motor vehicles|
    AU2009346171B2|2009-05-12|2013-01-17|Needit Aps|Automatic parking disc|
    JP5304673B2|2010-02-02|2013-10-02|株式会社デンソー|Navigation device|DK178684B1|2016-04-08|2016-11-07|S A Invest Aps|Electronic parking disc|
    DK179009B1|2016-11-21|2017-08-14|Gopark Aps|Automatic parking disc|
    IT201600132640A1|2016-12-30|2017-03-30|Dambrosio Luca|MULTIFUNCTION AUTOMOTIVE TIME DISC, OF ELECTRONIC WIRELESS TYPE WITHOUT BATTERIES WITHOUT BUTTONS, WITH ELECTROPHORETIC INK VIEWER AND SHORT RADIO INTERFACE AND LONG RADIUS.|
    法律状态:
    2018-04-23| PPF| Opposition filed|Effective date: 20180419 |
    2020-11-23| PDU| Decision on opposition: patent maintained as unamended|Effective date: 20190115 |
    优先权:
    申请号 | 申请日 | 专利标题
    DK201400104U|DK201400104U3|2014-07-29|2014-07-29|Electronic parking disc|
    DK201400104|2014-07-29|
    DK201500430|2015-07-29|
    DKPA201500430A|DK178975B1|2014-07-29|2015-07-29|Electronic parking disc|DKPA201500430A| DK178975B1|2014-07-29|2015-07-29|Electronic parking disc|
    DKPA201770164A| DK180409B1|2014-07-29|2017-03-07|Electronic p-writing|
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